Symbol	Name	Description	Biological process	Cellular component	Molecular function	LocusLink ID
NR_001477.2	Y74C9A.6	Y74C9A.6, snoRNA [Source:RefSeq_dna;Acc:NR_001477]			
Y74C9A.3	Y74C9A.3	Y74C9A.3 [Source:RefSeq_peptide;Acc:NP_490660]	metabolic process, 		methyltransferase activity, 
nlp-40	Y74C9A.2	Neuropeptide-Like Protein family member (nlp-40) [Source:RefSeq_peptide;Acc:NP_490661]	positive regulation of growth rate, 		
Y74C9A.4	Y74C9A.4	Y74C9A.4b [Source:RefSeq_peptide;Acc:NP_490662]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, 
Y74C9A.5	Y74C9A.5	Y74C9A.5 encodes an ortholog of human sestrins (SESN1, OMIM:606103. SESN2, OMIM:607767. and SESN3, OMIM:607768), a family of p53-regulated proteins required to regenerate peroxiredoxins. like its human orthologs, Y74C9A.5 contains a a predicted redox-active domain homologous to bacterial AhpD. Y74C9A.5 has no obvious function in mass RNAi assays. [Source: WormBase]	cell cycle arrest, 	nucleus, 	
Y74C9A.1	Y74C9A.1	Y74C9A.1 [Source:RefSeq_peptide;Acc:NP_490665]		cell outer membrane, 	
Y48G1C.12	Y48G1C.12	Y48G1C.12 encodes a paralog of APC-10 which may be an alternative component of the anaphase promoting complex/cyclosome (APC/C). redundancy of Y48G1C.12 with APC-10 might account for the relative viability of apc-10(RNAi) animals, compared to the immediate lethality of meiotic one-cell embryos seen with RNAi of other APC/C components. [Source: WormBase]	regulation of mitotic metaphase/anaphase transition, 	anaphase-promoting complex, 	protein binding, 
Y48G1C.4	Y48G1C.4	Y48G1C.4 [Source:RefSeq_peptide;Acc:NP_490666]	metabolic process, biological_process, 		catalytic activity, 
Y48G1C.5	Y48G1C.5	Y48G1C.5 [Source:RefSeq_peptide;Acc:NP_490668]	translation, protein amino acid dephosphorylation, dephosphorylation, 	intracellular, ribosome, 	phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, structural constituent of ribosome, 
csk-1	Y48G1C.2	csk-1 encodes an ortholog of C-terminal Src kinase (Csk) that probably inhibits SRC-like tyrosine kinases in pharyngeal muscle cells. the C-terminal tyrosines of the SRC-like kinases KIN-22 and SRC-1 are evolutionarily conserved, and phosphorylated by CSK-1, which inhibits KIN-22 and SRC-1 in vivo. csk-1 is coexpressed with kin-22 and src-2 in pharyngeal procorpus and metacorpus. csk-1(RNAi) animals are grossly normal, but overexpression of csk-1 induces an abnormal pharyngeal phenotype. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, 	phosphoinositide 3-kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphoinositide 3-kinase regulator activity, 
Y48G1C.10	Y48G1C.10	Y48G1C.10 [Source:RefSeq_peptide;Acc:NP_871894]			
Y48G1C.6	Y48G1C.6	Y48G1C.6 [Source:RefSeq_peptide;Acc:NP_490670]			DNA binding, 
Y48G1C.11	Y48G1C.11	Y48G1C.11 [Source:RefSeq_peptide;Acc:NP_871895]			
Y48G1C.9	Y48G1C.9	Y48G1C.9 [Source:RefSeq_peptide;Acc:NP_490671]	mRNA metabolic process, 	ribonucleoprotein complex, 	
Y48G1C.1	Y48G1C.1	Y48G1C.1 [Source:RefSeq_peptide;Acc:NP_490672]			protein binding, 
Y48G1C.7	Y48G1C.7	Y48G1C.7 [Source:RefSeq_peptide;Acc:NP_490673]	locomotory behavior, 		
Y48G1C.8	Y48G1C.8	Y48G1C.8 [Source:RefSeq_peptide;Acc:NP_490674]	locomotory behavior, 		
rab-11.1	F53G12.1	rab-11.1 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. RAB-11.1 activity is required for completion of the final stages of cytokinesis during early embryogenesis and for efficient uptake of yolk proteins during oocyte development. RAB-11.1 is also required for normal peripheral localization of nuclei in the synctial germ cell in the ovary. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	intracellular, cellular_component, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
rpl-7	F53G12.10	rpl-7 encodes a large ribosomal subunit L7 protein required in mass RNAi assays for embryonic viability and normally rapid growth. [Source: WormBase]	proteolysis, translation, positive regulation of growth rate, 	intracellular, ribosome, large ribosomal subunit, 	protein binding, transcription regulator activity, cysteine-type endopeptidase activity, structural constituent of ribosome, 
NR_002606.1	F53G12.12	F53G12.12, snoRNA [Source:RefSeq_dna;Acc:NR_002606]			
F53G12.9	F53G12.9	F53G12.9 [Source:RefSeq_peptide;Acc:NP_490677]			
F53G12.13	F53G12.13	F53G12.13 [Source:RefSeq_peptide;Acc:NP_001076602]			
F53G12.8	F53G12.8	F53G12.8 [Source:RefSeq_peptide;Acc:NP_490678]			
col-45	F53G12.7	col-45 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
spe-8	F53G12.6	defective SPErmatogenesis family member (spe-8) [Source:RefSeq_peptide;Acc:NP_490680]	intracellular signaling cascade, protein amino acid phosphorylation, spermatid development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
mex-3	F53G12.5	mex-3 encodes two KH domain-containing RNA binding proteins. in the early embryo, maternally provided MEX-3 is required for specifying the identities of the anterior AB blastomere and its descendants, as well as for the identity of the P3 blastomere and proper segregation of the germline P granules. mex-3 mRNA is distributed uniformly in the syncytial core of the adult distal gonad, mature oocytes, and early 1-cell stage embryos, but then becomes more prominent in the AB blastomere and its daughters by the 4-cell stage after which it is rapidly degraded save for the D and P4 blastomeres. MEX-3 protein is also detected uniformly in the cytoplasm of oocytes and 1-cell stage embryos, but like the mRNA, becomes more abundant in AB and its daughters at the 2- and 4-cell stages, respectively, before disappearing. MEX-3 is also detected in association with P granules from the 2-cell stage until the late stages of embryogenesis. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic pattern specification, negative regulation of muscle cell differentiation, 		RNA binding, 
F53G12.4	F53G12.4	F53G12.4 [Source:RefSeq_peptide;Acc:NP_490683]	collagen and cuticulin-based cuticle attachment to epithelium, 		protein binding, 
F53G12.3	F53G12.3	F53G12.3 encodes a large partial homolog of dual oxidase ('Ce-Duox2'), with an N-terminal peroxidase domain, two central calmodulin-binding EF hands, and a C-terminal superoxide-generating NADPH-oxidase domain. F53G12.3 may be required for dityrosine cross-linking of collagen, and thus for cuticular integrity. F53G12.3 may use cytosolic NADPH to generate reactive oxygen, which then may drive the peroxidase ectodomain to cross-link free tyrosine in collagen. F53G12.3 has no visible expression pattern detectable by antibodies, implying very low or rare expression. [Source: WormBase]	electron transport, response to oxidative stress, collagen and cuticulin-based cuticle attachment to epithelium, 	integral to membrane, 	RNA binding, iron ion binding, oxidoreductase activity, calcium ion binding, peroxidase activity, FAD binding, heme binding, 
F53G12.11	F53G12.11	F53G12.11 [Source:RefSeq_peptide;Acc:NP_490685]			protein dimerization activity, 
bli-3	F56C11.1	bli-3 encodes a large homolog of dual oxidase ('Ce-Duox1'), with an N-terminal peroxidase domain, two central calmodulin-binding EF hands, and a C-terminal superoxide-generating NADPH-oxidase domain. BLI-3 is required for dityrosine cross-linking of collagen, and thus for cuticular integrity. BLI-3 is thought to use cytosolic NADPH to generate reactive oxygen, which then drives the peroxidase ectodomain to cross-link free tyrosine in collagen. BLI-3 is expressed exclusively in hypodermal cells at low levels, with peaks of expression corresponding to collagen/cuticle biosynthesis. [Source: WormBase]	electron transport, response to oxidative stress, positive regulation of multicellular organism growth, 	integral to membrane, 	iron ion binding, oxidoreductase activity, calcium ion binding, peroxidase activity, FAD binding, heme binding, 
ptr-11	F56C11.2	ptr-11 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-11 is required for normal growth to full size, locomotion, and vulval morphogenesis. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
F56C11.6	F56C11.6	F56C11.6a [Source:RefSeq_peptide;Acc:NP_490688]	embryonic development ending in birth or egg hatching, 		
F56C11.5	F56C11.5	F56C11.5 [Source:RefSeq_peptide;Acc:NP_490689]	sensory perception of chemical stimulus, embryonic development ending in birth or egg hatching, 	integral to membrane, 	transmembrane receptor activity, 
F56C11.3	F56C11.3	F56C11.3 [Source:RefSeq_peptide;Acc:NP_490690]			
F56C11.4	F56C11.4	F56C11.4 [Source:RefSeq_peptide;Acc:NP_740773]			
F56C11.t1	F56C11.t1				
K10E9.1	K10E9.1	K10E9.1 [Source:RefSeq_peptide;Acc:NP_490692]			
atm-1	Y48G1BL.2	atm-1 encodes an ortholog of human ATM (OMIM:208900) that is required for the checkpoint response to DNA damage. human ATM encodes a phosphatidylinositol-3 kinase homolog that is biochemically activated by cellular irradiation, and mutation of ATM leads to ataxia-telengiectasia. [Source: WormBase]			phosphotransferase activity, alcohol group as acceptor, 
Y48G1BL.7	Y48G1BL.7	Y48G1BL.7 [Source:RefSeq_peptide;Acc:NP_001021776]	embryonic development ending in birth or egg hatching, 		
puf-10	Y48G1BL.3				
Y48G1BL.1	Y48G1BL.1	Y48G1BL.1 [Source:RefSeq_peptide;Acc:NP_490695]	reproduction, 		
Y48G1BL.4	Y48G1BL.4	Y48G1BL.4 [Source:RefSeq_peptide;Acc:NP_490696]			nucleic acid binding, 
Y48G1BL.5	Y48G1BL.5	Y48G1BL.5 [Source:RefSeq_peptide;Acc:NP_490697]			
Y48G1BL.6	Y48G1BL.6	Y48G1BL.6 [Source:RefSeq_peptide;Acc:NP_490698]			
Y48G1BM.5	Y48G1BM.5	Y48G1BM.5 [Source:RefSeq_peptide;Acc:NP_490701]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, type I hypersensitivity, 		ATP binding, protein-tyrosine kinase activity, 
Y48G1BM.6	Y48G1BM.6	Y48G1BM.6 [Source:RefSeq_peptide;Acc:NP_490702]			
Y48G1BM.7	Y48G1BM.7	Y48G1BM.7 [Source:RefSeq_peptide;Acc:NP_490703]			
NM_058303.2	Y48G1BM.2	Y48G1BM.2 (Y48G1BM.2) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_058303]			
Y48G1BM.8	Y48G1BM.8	Y48G1BM.8 [Source:RefSeq_peptide;Acc:NP_490705]			
Y48G1BM.1	Y48G1BM.1	Y48G1BM.1 [Source:RefSeq_peptide;Acc:NP_490706]			
Y48G1BM.9	Y48G1BM.9	Y48G1BM.9 [Source:RefSeq_peptide;Acc:NP_490707]			
Y48G1BR.1	Y48G1BR.1	Y48G1BR.1 [Source:RefSeq_peptide;Acc:NP_490708]			
C53D5.3	C53D5.3	C53D5.3 [Source:RefSeq_peptide;Acc:NP_490709]			
C53D5.2	C53D5.2	C53D5.2 [Source:RefSeq_peptide;Acc:NP_490710]			protein binding, zinc ion binding, 
ztf-3	C53D5.4	Zinc finger Transcription Factor family member (ztf-3) [Source:RefSeq_peptide;Acc:NP_490711]	biological_process, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
C53D5.1	C53D5.1	C53D5.1a [Source:RefSeq_peptide;Acc:NP_490712]			
C53D5.5	C53D5.5	The C53D5.5 gene encodes an ortholog of the human gene GAMMA-GLUTAMYLTRANSFERASE 1 (GGT1), which when mutated leads to glutathionuria (OMIM:231950). [Source: WormBase]			gamma-glutamyltransferase activity, 
imb-3	C53D5.6	imb-3 encodes an importin-beta-like protein orthologous to Drosophila, vertebrate, and yeast importin/karyopherin-beta3. IMB-3 is predicted to function as a nuclear transport factor that, with the RAN-1 GTPase, regulates nuclear import of ribosomal proteins. in C. elegans, IMB-3 is essential for embryogenesis and germline development, and may also be required for normal postembryonic growth rates. [Source: WormBase]	intracellular protein transport, protein import into nucleus, docking, positive regulation of growth rate, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, protein binding, binding, 
imb-5	Y48G1A.5	imb-5 encodes an importin-beta-like protein orthologous to mammalian CAS proteins (cellular apoptosis susceptibility) and Saccharomyces cerevisiae CSE1 (chromosome segregation 1). IMB-5 is predicted to function in nuclear transport of proteins required for mitotic progression or apoptosis as well as in re-export of importin-alpha, a nuclear import protein. in C. elegans, IMB-5 is essential for embryogenesis and required for normal pronuclear envelope dynamics, and may also play a role in vulval morphogenesis. [Source: WormBase]	intracellular protein transport, apoptosis, protein import into nucleus, docking, cell proliferation, embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, binding, importin-alpha export receptor activity, 
Y48G1A.4	Y48G1A.4	Y48G1A.4 [Source:RefSeq_peptide;Acc:NP_740774]	growth, 		
Y48G1A.3	Y48G1A.3	Y48G1A.3 [Source:RefSeq_peptide;Acc:NP_490719]			zinc ion binding, 
Y48G1A.6	Y48G1A.6	Y48G1A.6 [Source:RefSeq_peptide;Acc:NP_490720]	regulation of transcription, 	nucleus, 	
Y48G1A.2	Y48G1A.2	Y48G1A.2 [Source:RefSeq_peptide;Acc:NP_490721]			
Y48G1A.1	Y48G1A.1	Y48G1A.1 [Source:RefSeq_peptide;Acc:NP_490722]			
R119.1	R119.1	R119.1 [Source:RefSeq_peptide;Acc:NP_490723]	embryonic development ending in birth or egg hatching, 		
rnp-8	R119.7	R119.7 [Source:RefSeq_peptide;Acc:NP_490724]			nucleotide binding, nucleic acid binding, 
R119.2	R119.2	R119.2 [Source:RefSeq_peptide;Acc:NP_490725]	proteolysis, 		metalloexopeptidase activity, methionyl aminopeptidase activity, 
pqn-59	R119.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
R119.3	R119.3	R119.3 [Source:RefSeq_peptide;Acc:NP_490726]	metabolic process, embryonic development ending in birth or egg hatching, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
taf-4	R119.6	taf-4 encodes a TAFII (TBP(TATA-binding protein)-associated factor) that is orthologous to human TAF4 (hTAFII130). TAF-4 is predicted to be a component of the TFIID mRNA transcription complex and is generally required for early embryonic mRNA transcription. consistent with this observation, taf-4(RNAi) results in embryonic lethality at the ~100-cell stage with little cell differentiation, similar to the loss of AMA-1/RNA polymerase II activity. TAF-4 is detected in nuclei in the adult germline, oocytes, and embryo, from the 2-cell stage through early morphogenesis. [Source: WormBase]	regulation of transcription, DNA-dependent, transcription initiation, positive regulation of growth rate, 	nucleus, transcription factor TFIID complex, 	transcription factor activity, transcription initiation factor activity, 
R119.5	R119.5	R119.5 [Source:RefSeq_peptide;Acc:NP_001021586]	protein modification process, embryonic development ending in birth or egg hatching, 		protein-L-isoaspartate (D-aspartate) O-methyltransferase activity, 
Y50C1A.1	Y50C1A.1	The Y50C1A.1 gene encodes an A20-like protease homolog that may be involved in apoptosis. [Source: WormBase]			
Y50C1A.2	Y50C1A.2	Y50C1A.2 [Source:RefSeq_peptide;Acc:NP_490731]			
C07F11.2	C07F11.2	C07F11.2 [Source:RefSeq_peptide;Acc:NP_490732]	positive regulation of growth rate, 		
tol-1	C07F11.1	tol-1 encodes a predicted transmembrane protein that is the sole C. elegans Toll-like receptor (TLR). TOL-1 is required for proper embryonic development and for pathogen avoidance behavior, and is expressed primarily in the nervous system. [Source: WormBase]	cell surface receptor linked signal transduction, embryonic development ending in birth or egg hatching, 	membrane, axon, 	protein binding, transmembrane receptor activity, 
W04C9.4	W04C9.4	W04C9.4 [Source:RefSeq_peptide;Acc:NP_490734]			
W04C9.5	W04C9.5	W04C9.5 [Source:RefSeq_peptide;Acc:NP_490735]	protein transport, small GTPase mediated signal transduction, biological_process, 	intracellular, 	GTP binding, 
W04C9.3	W04C9.3	W04C9.3 [Source:RefSeq_peptide;Acc:NP_490736]	biological_process, 		
W04C9.6	W04C9.6	W04C9.6 [Source:RefSeq_peptide;Acc:NP_490737]			transporter activity, 
W04C9.2	W04C9.2	W04C9.2 [Source:RefSeq_peptide;Acc:NP_490738]			
haf-4	W04C9.1	haf-4 encodes a half-molecular ATP-binding cassette (ABC) transporter. haf-4 activity is required in embryos and adults for formation of birefringent material in gut granules, lysosome-related fat storage organelles. [Source: WormBase]	transport, positive regulation of growth rate, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, 
Y65B4BL.3	Y65B4BL.3	Y65B4BL.3 [Source:RefSeq_peptide;Acc:NP_490740]	locomotory behavior, 		
Y65B4BL.4	Y65B4BL.4	Y65B4BL.4 [Source:RefSeq_peptide;Acc:NP_490741]		membrane, 	mating-type factor pheromone receptor activity, 
deps-1	Y65B4BL.2	Y65B4BL.2 [Source:RefSeq_peptide;Acc:NP_490742]	embryonic development ending in birth or egg hatching, 		
Y65B4BL.7	Y65B4BL.7	Y65B4BL.7 [Source:RefSeq_peptide;Acc:NP_490743]			
Y65B4BL.5	Y65B4BL.5	Y65B4BL.5 [Source:RefSeq_peptide;Acc:NP_490744]	metabolic process, 		catalytic activity, 
Y65B4BL.6	Y65B4BL.6	Y65B4BL.6 [Source:RefSeq_peptide;Acc:NP_490745]			
Y65B4BL.1	Y65B4BL.1	Y65B4BL.1 [Source:RefSeq_peptide;Acc:NP_490746]			
Y65B4BR.8	Y65B4BR.8	Y65B4BR.8 [Source:RefSeq_peptide;Acc:NP_490748]	embryonic development ending in birth or egg hatching, 		
Y65B4BR.5	Y65B4BR.5	Nascent polypeptide-associated complex subunit alpha (NAC-alpha) (Alpha-NAC). [Source:Uniprot/SWISSPROT;Acc:Q86S66]	positive regulation of growth rate, 		protein binding, identical protein binding, 
wwp-1	Y65B4BR.4	WW domain Protein (E3 ubiquitin ligase) family member (wwp-1) [Source:RefSeq_peptide;Acc:NP_740775]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, type I hypersensitivity, 	intracellular, 	protein binding, ubiquitin-protein ligase activity, ice binding, 
ptr-21	Y65B4BR.3	ptr-21 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-21 is weakly required for normal molting from L4 to adult stages. PTR-21 is also required for normal growth to full size and locomotion. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
Y65B4BR.2	Y65B4BR.2	Y65B4BR.2 [Source:RefSeq_peptide;Acc:NP_490752]	transport, 		transporter activity, binding, 
Y65B4BR.1	Y65B4BR.1	Y65B4BR.1 [Source:RefSeq_peptide;Acc:NP_490753]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
ceh-9	Y65B4BR.9	ceh-9 encodes a homeodomain-containing protein that is related to members of the NK family of homeodomain transcription factors. as a mutation in ceh-9 results in no obvious defects, the precise role of ceh-9 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
grl-16	Y65B4BR.6	grl-16 encodes, by alternative splicing, two hedgehog-like proteins with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, glycolysis, 	nucleus, 6-phosphofructokinase complex, 	transcription factor activity, nutrient reservoir activity, 6-phosphofructokinase activity, 
F56A6.5	F56A6.5	F56A6.5 [Source:RefSeq_peptide;Acc:NP_001021504]			protein binding, zinc ion binding, 
hum-7	F56A6.2	hum-7 encodes a class IX unconventional myosin heavy chain that contains a myosin motor domain in the head region and zinc-finger and rhoGAP (rho GTPase activating protein) domains in the tail region. HUM-7 is required during embryogenesis for cytokinesis and normal cytoplasmic rearrangements, and by homology, may function in organization of the actin cytoskeleton. the precise expression and localization patterns of HUM-7 are not yet known. [Source: WormBase]	intracellular signaling cascade, signal transduction, 	intracellular, myosin complex, 	ATP binding, zinc ion binding, motor activity, 
F56A6.4	F56A6.4	F56A6.4 [Source:RefSeq_peptide;Acc:NP_490757]	embryonic development ending in birth or egg hatching, 		
sago-2	F56A6.1	sago-2 encodes an Argonaute homolog that is partially required for the amplification phase of RNAi responses. a multiply mutant strain (MAGO), consisting of ppw-1(tm914), sago-1(tm1195), sago-2(tm894), F58G1.1(tm1019), C06A1.4(tm887), and M03D4.6(tm1144) alleles, is completely resistant to both germline and somatic RNAi. sago-2 is genetically redundant with ppw-1 and sago-1, with any one of these genes being able to transgenically partially restore the deficiency of MAGO worms. GFP-tagged SAGO-2 binds small secondary siRNAs produced by RNAi against GFP. SAGO-2 overexpression does not rescue RNAi defects in rrf-1 mutants, and MAGO is not transgenically rescued by rde-1. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y65B4A.4	Y65B4A.4	Y65B4A.4 [Source:RefSeq_peptide;Acc:NP_490759]	embryonic development ending in birth or egg hatching, 	membrane, 	
Y65B4A.6	Y65B4A.6	Y65B4A.6 [Source:RefSeq_peptide;Acc:NP_490761]	oviposition, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y65B4A.3	Y65B4A.3	Y65B4A.3 [Source:RefSeq_peptide;Acc:NP_490762]	protein transport, protein folding, positive regulation of growth rate, 		protein binding, 
Y65B4A.2	Y65B4A.2	Y65B4A.2 [Source:RefSeq_peptide;Acc:NP_490763]	proteolysis, 		cysteine-type peptidase activity, 
Y65B4A.7	Y65B4A.7	Y65B4A.7 [Source:RefSeq_peptide;Acc:NP_490764]			protein binding, zinc ion binding, 
Y65B4A.1	Y65B4A.1	Y65B4A.1 [Source:RefSeq_peptide;Acc:NP_490765]	positive regulation of multicellular organism growth, 		nucleotide binding, RNA binding, nucleic acid binding, 
Y65B4A.8	Y65B4A.8	Y65B4A.8 [Source:RefSeq_peptide;Acc:NP_490766]	biosynthetic process, 		ATP binding, catalytic activity, nucleotidyltransferase activity, uridine kinase activity, 
Y65B4A.9	Y65B4A.9	Y65B4A.9 [Source:RefSeq_peptide;Acc:NP_490767]	protein amino acid phosphorylation, reproduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y18H1A.14	Y18H1A.14	Y18H1A.14 [Source:RefSeq_peptide;Acc:NP_001021733]			
Y18H1A.11	Y18H1A.11	Y18H1A.11 [Source:RefSeq_peptide;Acc:NP_871893]	biosynthetic process, 		catalytic activity, nucleotidyltransferase activity, 
Y18H1A.10	Y18H1A.10	Y18H1A.10 [Source:RefSeq_peptide;Acc:NP_490768]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y18H1A.1	Y18H1A.1	Y18H1A.1 [Source:RefSeq_peptide;Acc:NP_490769]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
Y18H1A.4	Y18H1A.4	Y18H1A.4 [Source:RefSeq_peptide;Acc:NP_490770]			
Y18H1A.2	Y18H1A.2	Y18H1A.2 [Source:RefSeq_peptide;Acc:NP_490771]			
Y18H1A.3	Y18H1A.3	Y18H1A.3 [Source:RefSeq_peptide;Acc:NP_490772]	regulation of small GTPase mediated signal transduction, 	intracellular, 	GTPase activator activity, 
Y18H1A.7	Y18H1A.7	Y18H1A.7 [Source:RefSeq_peptide;Acc:NP_490773]			
pif-1	Y18H1A.6	pif-1 encodes a DNA helicase. based upon its similarity to Saccharomyces cerevisiae Pif1p, PIF-1 is predicted to function as a negative regulator of telomerase activity that acts by displacing telomerase from the ends of DNA. as loss of pif-1 activity via large-scale RNAi screens results in no obvious abnormalities, the precise role of pif-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			nucleotide binding, nucleoside-triphosphatase activity, 
Y18H1A.15	Y18H1A.15	Y18H1A.15 [Source:RefSeq_peptide;Acc:NP_001021734]			
col-46	Y18H1A.13	col-46 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, 	cytoplasm, 	
col-47	Y18H1A.12	col-47 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, 	cytoplasm, 	
Y18H1A.9	Y18H1A.9	Y18H1A.9 [Source:RefSeq_peptide;Acc:NP_490776]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, carboxypeptidase activity, 
Y18H1A.t1	Y18H1A.t1				
Y18H1A.8	Y18H1A.8	Y18H1A.8 [Source:RefSeq_peptide;Acc:NP_490777]	cell wall modification, 	cell wall, 	pectinesterase activity, 
mps-3	T06A4.2	mps-3 encodes a single-pass transmembrane protein that is related to the vertebrate KCNE proteins, also known as MinK-related peptides (MiRPs) that associate with, and regulate, pore-forming ion channels. mps-1 is required for the normal function of several neurons and thus for normal body touch sensation, chemotaxis to select molecules, osmotic avoidance, and nose-touch. when coexpressed in tissue culture cells with C. elegans KVS-1, MPS-3 is able to alter the activity of this potassium-selective channel, suggesting that MPS-3 functions in vivo to regulate KVS-1 activity in neurons in which the two proteins are coexpressed. in addition, activity of MPS-2, MPS-3, and KVS-1 coexpressed in culture suggests that these three proteins can form a functional ternary complex that genetic analyses indicate likely plays a role in regulating responsiveness to sodium. MPS-3 reporter fusions are expressed in the ADF amphid sensory neuron, the PVC and PVN neurons, and two neurons in the anterior bulb of the pharynx. [Source: WormBase]	regulation of chemotaxis, 		
T06A4.3	T06A4.3	T06A4.3a [Source:RefSeq_peptide;Acc:NP_001021611]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, carboxypeptidase activity, 
T06A4.1	T06A4.1	T06A4.1b [Source:RefSeq_peptide;Acc:NP_871809]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, carboxypeptidase activity, 
ZC123.3	ZC123.3	ZC123.3 [Source:RefSeq_peptide;Acc:NP_490781]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, transcription factor activity, sequence-specific DNA binding, 
ZC123.t1	ZC123.t1				
ZC123.1	ZC123.1	ZC123.1 [Source:RefSeq_peptide;Acc:NP_490782]	regulation of transcription, DNA-dependent, 	nucleus, extracellular region, 	transcription factor activity, steroid hormone receptor activity, hormone activity, nutrient reservoir activity, 
ZC123.4	ZC123.4	ZC123.4c [Source:RefSeq_peptide;Acc:NP_001021842]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y95B8A.8	Y95B8A.8	Y95B8A.8 [Source:RefSeq_peptide;Acc:NP_490785]			
Y95B8A.7	Y95B8A.7	Y95B8A.7 [Source:RefSeq_peptide;Acc:NP_490786]		intracellular, 	zinc ion binding, nucleic acid binding, 
pde-6	Y95B8A.10	Probable 3',5'-cyclic phosphodiesterase pde-6 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:Q9N2V9]	signal transduction, 		signal transducer activity, catalytic activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, 
Y95B8A.6	Y95B8A.6	Y95B8A.6a [Source:RefSeq_peptide;Acc:NP_490788]			
Y95B8A.11	Y95B8A.11	Y95B8A.11 [Source:RefSeq_peptide;Acc:NP_490789]			
gpa-16	Y95B8A.5	gpa-16 (also known as spn-1) encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that affects spindle position and orientation in embryos. it is expressed in AVM, PDE, PLM, BDU, PVC, and RIP, and weakly expressed in the pharynx, body-wall muscle, and vulval muscle. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, spindle organization and biogenesis, 	intracellular, 	protein binding, GTP binding, signal transducer activity, guanyl nucleotide binding, 
Y95B8A.4	Y95B8A.4	Y95B8A.4 [Source:RefSeq_peptide;Acc:NP_490791]		membrane, 	calcium ion binding, 
Y95B8A.12	Y95B8A.12	Y95B8A.12b [Source:RefSeq_peptide;Acc:NP_001032993]	regulation of Rho protein signal transduction, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
Y95B8A.2	Y95B8A.2	Y95B8A.2 [Source:RefSeq_peptide;Acc:NP_490794]			
nas-30	Y95B8A.1	Zinc metalloproteinase nas-30 precursor (EC 3.4.24.21) (Nematode astacin 30). [Source:Uniprot/SWISSPROT;Acc:Q9N2V2]	proteolysis, regulation of transcription, DNA-dependent, 	proteinaceous extracellular matrix, nucleus, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, DNA binding, ligand-dependent nuclear receptor activity, astacin activity, 
Y95B8A.t1	Y95B8A.t1				
mig-1	Y34D9B.1	mig-1 encodes one of four C. elegans Frizzled-like receptors. mig-1 was initially identified in screens for animals with defective cell migrations, and its activity is required for proper migration of the QL neuroblast and the HSN neurons. [Source: WormBase]	cell surface receptor linked signal transduction, regulation of cell migration, 	membrane, 	G-protein coupled receptor activity, non-G-protein coupled 7TM receptor activity, 
F54A5.2	F54A5.2	F54A5.2 [Source:RefSeq_peptide;Acc:NP_490798]			
shc-1	F54A5.3	F54A5.3 encodes four proteins by multiple splicing, three of which are rather small (52-81 residues). however, one isoform (F54A5.3A, 316 residues) is a ortholog of vertebrate Shc proteins (e.g., p52/p46SHC and p66SHC). like its orthologs, F54A5.3A has a PTB and an SH2 domain in N- to C-terminal order. F54A5.3 has no obvious function in mass RNAi assays, but might be involved in RAS signal transduction or regulation of apoptosis. [Source: WormBase]	intracellular signaling cascade, 		protein binding, 
F54A5.1	F54A5.1	F54A5.1 [Source:RefSeq_peptide;Acc:NP_490803]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	binding, DNA binding, transcription factor activity, sequence-specific DNA binding, 
C54G6.3	C54G6.3	C54G6.3 [Source:RefSeq_peptide;Acc:NP_490804]			
C54G6.2	C54G6.2	The C54G6.2 gene encodes a homolog of human RP2, which when mutated leads to X-linked retinitis pigmentosa 2 (OMIM:312600). [Source: WormBase]			
C54G6.1	C54G6.1	C54G6.1a [Source:RefSeq_peptide;Acc:NP_490806]			
spp-17	C54G6.5	SaPosin-like Protein family member (spp-17) [Source:RefSeq_peptide;Acc:NP_740777]			
spp-23	Y34D9A.11	SaPosin-like Protein family member (spp-23) [Source:RefSeq_peptide;Acc:NP_001021741]			
Y34D9A.1	Y34D9A.1	Y34D9A.1 [Source:RefSeq_peptide;Acc:NP_490808]	growth, 		
spd-1	Y34D9A.4	spd-1 encodes a homolog of human PRC1, tobacco MAP-65, and S. cerevisiae Ase1p that is required for embryonic viability due to its requirement for mitotic spindle stability during the late stages of cytokinesis. SPD-1 is also required for fertility, gonad development, locomotion, and vulval development. [Source: WormBase]	morphogenesis of an epithelium, 		
Y34D9A.3	Y34D9A.3	Y34D9A.3 [Source:RefSeq_peptide;Acc:NP_001021742]			
Y34D9A.7	Y34D9A.7	Y34D9A.7 [Source:RefSeq_peptide;Acc:NP_490811]			zinc ion binding, nucleic acid binding, 
glrx-10	Y34D9A.6	GLutaRedoXin family member (glrx-10) [Source:RefSeq_peptide;Acc:NP_490812]	electron transport, cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
Y34D9A.8	Y34D9A.8	Y34D9A.8b [Source:RefSeq_peptide;Acc:NP_001076620]			
vps-4	Y34D9A.10	Y34D9A.10 [Source:RefSeq_peptide;Acc:NP_490816]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
Y34D9A.2	Y34D9A.2	Y34D9A.2 [Source:RefSeq_peptide;Acc:NP_490815]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, angiotensin type II receptor activity, 
gsa-1	R06A10.2	The gsa-1 gene encodes a Gs alpha subunit of heterotrimeric G proteins which affects L1 larval stage viability, movement, and egg laying. it is genetically upstream of sgs-1 with respect to neuronal degeneration, as defined by gain-of-function analysis, and is expressed in excitable cells. [Source: WormBase]	signal transduction, potassium ion transport, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, regulation of non-apoptotic programmed cell death, 		GTP binding, signal transducer activity, cation transmembrane transporter activity, guanyl nucleotide binding, 
R06A10.3	R06A10.3	R06A10.3 [Source:RefSeq_peptide;Acc:NP_490818]			
R06A10.1	R06A10.1	R06A10.1 [Source:RefSeq_peptide;Acc:NP_490819]			
R06A10.5	R06A10.5	R06A10.5 [Source:RefSeq_peptide;Acc:NP_001076610]			
R06A10.4	R06A10.4	R06A10.4 [Source:RefSeq_peptide;Acc:NP_490820]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZK993.2	ZK993.2	ZK993.2 [Source:RefSeq_peptide;Acc:NP_490821]			protein binding, zinc ion binding, 
ceh-45	ZK993.1	ceh-45 encodes a homeodomain-containing protein. loss of ceh-45 activity via large-scale RNAi results in variable embryonic lethality. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y48G8AL.9	Y48G8AL.9	Y48G8AL.9 [Source:RefSeq_peptide;Acc:NP_490824]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y48G8AL.10	Y48G8AL.10	Y48G8AL.10 [Source:RefSeq_peptide;Acc:NP_490825]	DNA repair, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
aps-3	Y48G8AL.14	aps-3 encodes an adaptin orthologous to the sigma3 subunit of the heterotetrameric adaptor protein complex 3 (AP-3). by homology, APS-3 is predicted to play a role in intracellular membrane trafficking and specifically, may be involved in transport of lysosomal membrane proteins from tubular sorting endosomes to lysosomes. loss of aps-3 activity via large-scale RNAi screens in the sensitized rrf-3 background indicates that, in C. elegans, APS-3 is required for fertility and reproduction. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, reproduction, 	membrane coat, 	protein transporter activity, protein binding, 
rpl-17	Y48G8AL.8	rpl-17 encodes a large ribosomal subunit L17 protein. by homology, RPL-17 is predicted to function in protein biosynthesis. in C. elegans, RPL-17 activity is required for embryonic and germline development, as well as normal postembryonic growth rates. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, large ribosomal subunit, 	structural constituent of ribosome, 
Y48G8AL.7	Y48G8AL.7	Y48G8AL.7 [Source:RefSeq_peptide;Acc:NP_490827]	copper ion transport, 	membrane, 	ATP binding, copper-exporting ATPase activity, 
haf-6	Y48G8AL.11	haf-6 encodes a half-molecule ATP-binding cassette (ABC) transporter. haf-6 activity is required for efficient RNA interference (RNAi) of genes expressed in the germline and intestine. antibody staining reveals that HAF-6 is expressed in germline and intestinal tissues. in the intestine, HAF-6 colocalizes with an endoplasmic reticulum (ER) protein and in the germline, HAF-6 localization additionally extends to perinuclear regions, an observation also consistent with ER localization. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
smg-2	Y48G8AL.6	Regulator of nonsense transcripts 1 (EC 3.6.1.-) (ATP-dependent helicase smg-2) (Nonsense mRNA reducing factor 1) (Up-frameshift suppressor 1 homolog). [Source:Uniprot/SWISSPROT;Acc:O76512]	RNA interference, mRNA catabolic process, nonsense-mediated decay, 	cytoplasm, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, hydrolase activity, 
Y48G8AL.5	Y48G8AL.5	Y48G8AL.5 [Source:RefSeq_peptide;Acc:NP_490830]	rRNA processing, reproduction, 		
Y48G8AL.1	Y48G8AL.1	The Y48G8AL.1 gene encodes a homolog of human E6-AP ubiquitin-protein ligase, (UBE3A. OMIM:601623) which when mutated leads to one form of Angelman syndrome (OMIM:105830). [Source: WormBase]	protein modification process, ubiquitin cycle, reproduction, 	intracellular, 	ubiquitin-protein ligase activity, cysteine protease inhibitor activity, 
Y48G8AL.12	Y48G8AL.12	Y48G8AL.12 [Source:RefSeq_peptide;Acc:NP_490835]			
Y48G8AL.13	Y48G8AL.13	Y48G8AL.13 [Source:RefSeq_peptide;Acc:NP_490836]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	cannabinoid receptor activity, 
Y48G8AL.15	Y48G8AL.15	Y48G8AL.15 [Source:RefSeq_peptide;Acc:NP_001021779]	GTP biosynthetic process, UTP biosynthetic process, CTP biosynthetic process, 		ATP binding, nucleoside diphosphate kinase activity, 
grh-1	Y48G8AR.1	grh-1 encodes a LSF/GRH transcription factor homolog required for normal cuticular synthesis and embryonic development. both GRH-1 and its Drosophila homolog GRAINYHEAD bind to DNA sites upstream of dbl-1, mab-5, and tdc-1. all three of these target genes are homologs of genes regulated by GRAINYHEAD in Drosophila. grh-1(RNAi) animals die as embryos with soft, defective cuticles, which resembles the phenotype seen in Drosophila grainyhead mutants. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y48G8AR.2	Y48G8AR.2	Y48G8AR.2 [Source:RefSeq_peptide;Acc:NP_490838]			zinc ion binding, 
Y48G8AR.3	Y48G8AR.3	Y48G8AR.3 [Source:RefSeq_peptide;Acc:NP_490839]			
dapk-1	K12C11.4	DAP (Death-Associated Protein) Kinase homolog family member (dapk-1) [Source:RefSeq_peptide;Acc:NP_490840]	protein amino acid phosphorylation, signal transduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
K12C11.5	K12C11.5	K12C11.5 [Source:RefSeq_peptide;Acc:NP_001076606]			
K12C11.3	K12C11.3	K12C11.3 [Source:RefSeq_peptide;Acc:NP_490841]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
K12C11.6	K12C11.6	K12C11.6 [Source:RefSeq_peptide;Acc:NP_001076607]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
K12C11.7	K12C11.7	K12C11.7 [Source:RefSeq_peptide;Acc:NP_001076608]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
smo-1	K12C11.2	Small ubiquitin-related modifier precursor (SUMO) (Ubiquitin-like protein SMT3). [Source:Uniprot/SWISSPROT;Acc:P55853]	protein modification process, embryonic development ending in birth or egg hatching, embryonic development, 		protein binding, 
K12C11.1	K12C11.1	The K12C11.1 gene encodes an ortholog of the human gene PEPTIDASE D (PEPD), which when mutated leads to prolidase deficiency (OMIM:170100). [Source: WormBase]	proteolysis, 		metalloexopeptidase activity, peptidase activity, manganese ion binding, X-Pro aminopeptidase activity, 
Y92H12BL.1	Y92H12BL.1	CDKAL1-like protein. [Source:Uniprot/SWISSPROT;Acc:Q8MXQ7]			catalytic activity, iron-sulfur cluster binding, 
Y92H12BL.5	Y92H12BL.5	The Y92H12BL.5 gene encodes a NUDIX hydrolase. [Source: WormBase]			hydrolase activity, 
Y92H12BL.4	Y92H12BL.4	Y92H12BL.4 [Source:RefSeq_peptide;Acc:NP_490846]	signal transduction, 	intracellular, 	
Y92H12BL.2	Y92H12BL.2	Y92H12BL.2 [Source:RefSeq_peptide;Acc:NP_490845]			
Y92H12BM.1	Y92H12BM.1				protein binding, 
Y92H12BR.7	Y92H12BR.7	Y92H12BR.7 [Source:RefSeq_peptide;Acc:NP_490848]			
set-29	Y92H12BR.6	Y92H12BR.6 [Source:RefSeq_peptide;Acc:NP_490849]			
Y92H12BR.2	Y92H12BR.2	Y92H12BR.2 [Source:RefSeq_peptide;Acc:NP_490851]			
Y92H12BR.3	Y92H12BR.3	Uncharacterized protein Y92H12BR.3. [Source:Uniprot/SWISSPROT;Acc:Q9BPN8]			
Y92H12BR.4	Y92H12BR.4	Y92H12BR.4 [Source:RefSeq_peptide;Acc:NP_490853]			
Y92H12BR.8	Y92H12BR.8	Y92H12BR.8 [Source:RefSeq_peptide;Acc:NP_490854]	positive regulation of growth rate, 		structural constituent of ribosome, 
F37F2.2	F37F2.2	Probable signal recognition particle 19 kDa protein (SRP19). [Source:Uniprot/SWISSPROT;Acc:O61749]	SRP-dependent cotranslational protein targeting to membrane, 	signal recognition particle, 	7S RNA binding, 
spe-15	F47G6.4	spe-15 encodes an unconventional myosin, and is homologous to both Drosophila and mouse myosin VI. spe-15 was identified in screens for mutants that have defective spermatogenesis. spe-15 is required during the terminal stages of spermatogenesis for the asymmetric partitioning of organelles like the mitochondria and for the proper partitioning of specialized structures called the fibrous-body membranous organelles into the spermatid. mutant spe-15 spermatids contain actin filaments in contrast to wild-type which lack them. spe-15 is also required for the proper morphology and activation of the spermatid. the human gene MYOSIN VI (MYO6. OMIM:600970), when mutated leads to disease that affects hearing. [Source: WormBase]	spermatogenesis, 	myosin complex, 	ATP binding, motor activity, 
F47G6.t1	F47G6.t1				
gst-25	F37F2.3	Glutathione S-Transferase family member (gst-25) [Source:RefSeq_peptide;Acc:NP_490857]	metabolic process, 		glutathione transferase activity, 
F47G6.3	F47G6.3	F47G6.3 [Source:RefSeq_peptide;Acc:NP_490858]			
F47G6.2	F47G6.2	F47G6.2 [Source:RefSeq_peptide;Acc:NP_490859]	metabolic process, 		catalytic activity, 
dyb-1	F47G6.1	The dyb-1 gene encodes a homolog of mammalian alpha-dystrobrevin (DTNA. OMIM:601239), mutation of which can lead to left ventricular noncompaction with congenital heart defects. [Source: WormBase]	positive regulation of locomotion, synaptic transmission, cholinergic, acetylcholine transport, muscle maintenance, establishment of synaptic specificity at neuromuscular junction, 	dystrophin-associated glycoprotein complex, 	protein binding, zinc ion binding, acetylcholine transmembrane transporter activity, 
Y92H12A.5	Y92H12A.5	Y92H12A.5 [Source:RefSeq_peptide;Acc:NP_490861]			
Y92H12A.4	Y92H12A.4	Y92H12A.4 [Source:RefSeq_peptide;Acc:NP_490863]			
Y92H12A.3	Y92H12A.3	Y92H12A.3 [Source:RefSeq_peptide;Acc:NP_490864]			
Y92H12A.2	Y92H12A.2	Y92H12A.2 [Source:RefSeq_peptide;Acc:NP_490865]	protein modification process, ubiquitin cycle, 	intracellular, 	protein binding, ubiquitin-protein ligase activity, 
src-1	Y92H12A.1	SRC oncogene related family member (src-1) [Source:RefSeq_peptide;Acc:NP_490866]	intracellular signaling cascade, protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y92H12A.t1	Y92H12A.t1				
Y73E7A.3	Y73E7A.3	Y73E7A.3 [Source:RefSeq_peptide;Acc:NP_490867]		integral to membrane, 	
cpx-1	Y73E7A.4	Putative complexin-1. [Source:Uniprot/SWISSPROT;Acc:Q9GUM7]	transport, neurotransmitter transport, 	membrane, 	ATP binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, syntaxin binding, 
Y73E7A.5	Y73E7A.5	Y73E7A.5 [Source:RefSeq_peptide;Acc:NP_490869]			
Y73E7A.2	Y73E7A.2	Y73E7A.2 [Source:RefSeq_peptide;Acc:NP_490870]		nucleus, 	
Y73E7A.6	Y73E7A.6	Y73E7A.6 [Source:RefSeq_peptide;Acc:NP_490871]			
Y73E7A.9	Y73E7A.9	Y73E7A.9 [Source:RefSeq_peptide;Acc:NP_001021829]			
bre-4	Y73E7A.7	bre-4 encodes a predicted galactosyltransferase that is required for the toxicity of Bacillus thuringiensis Cry5B. [Source: WormBase]	carbohydrate metabolic process, response to toxin, positive regulation of Notch signaling pathway, 		transferase activity, transferring glycosyl groups, xylose isomerase activity, 
Y73E7A.1	Y73E7A.1	Y73E7A.1a [Source:RefSeq_peptide;Acc:NP_001040712]			
Y73E7A.8	Y73E7A.8	Y73E7A.8 [Source:RefSeq_peptide;Acc:NP_490874]			
mab-20	Y71G12B.20	Semaphorin-2A precursor (Sema-2a) (Male abnormal protein 20). [Source:Uniprot/SWISSPROT;Acc:Q95XP4]	multicellular organismal development, regulation of cell adhesion, 	membrane, 	receptor activity, 
Y71G12B.18	Y71G12B.18	Y71G12B.18 [Source:RefSeq_peptide;Acc:NP_490876]			
pqn-88	Y71G12B.21	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
Y71G12B.33	Y71G12B.33	Y71G12B.33 [Source:RefSeq_peptide;Acc:NP_001021826]			
Y71G12B.22	Y71G12B.22	Y71G12B.22 [Source:RefSeq_peptide;Acc:NP_490878]			
Y71G12B.17	Y71G12B.17	Y71G12B.17 [Source:RefSeq_peptide;Acc:NP_490879]	transport, 	intracellular, 	
Y71G12B.23	Y71G12B.23	Y71G12B.23b [Source:RefSeq_peptide;Acc:NP_001021822]		integral to membrane, 	
Y71G12B.16	Y71G12B.16	Y71G12B.16 [Source:RefSeq_peptide;Acc:NP_490881]			
Y71G12B.31	Y71G12B.31	Y71G12B.31 [Source:RefSeq_peptide;Acc:NP_001021824]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ubc-3	Y71G12B.15	ubc-3 encodes an E2 ubiquitin-conjugating enzyme orthologous to Saccharomyces cerevisiae and human CDC34 (OMIM:603731) which are involved in regulating protein stability during G1 and G2 cell cycle phase transitions. by homology, UBC-3 is likely required for covalent attachment of ubiquitin to select target proteins to facilitate their degradation. however, as loss of UBC-3 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UBC-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
lsm-6	Y71G12B.14	LSM Sm-like protein family member (lsm-6) [Source:RefSeq_peptide;Acc:NP_490883]	mRNA metabolic process, embryonic development ending in birth or egg hatching, 	ribonucleoprotein complex, 	
Y71G12B.13	Y71G12B.13	Y71G12B.13 [Source:RefSeq_peptide;Acc:NP_490884]	embryonic development ending in birth or egg hatching, 		
atgr-5	Y71G12B.12	ATG (AuTophaGy) Related family member (atgr-5) [Source:RefSeq_peptide;Acc:NP_490885]	autophagy, 	cytoplasm, 	
Y71G12B.11	Y71G12B.11	Y71G12B.11a [Source:RefSeq_peptide;Acc:NP_490886]	regulation of transcription, cytoskeletal anchoring, embryonic development ending in birth or egg hatching, 	nucleus, cytoskeleton, ruffle, focal adhesion, 	protein binding, actin binding, transcription coactivator activity, insulin receptor binding, structural constituent of cytoskeleton, 
mppa-1	Y71G12B.24	Mitochondrial Processing Peptidase Alpha family member (mppa-1) [Source:RefSeq_peptide;Acc:NP_490888]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
Y71G12B.10	Y71G12B.10	Y71G12B.10 is orthologous to the human gene 3-HYDROXYMETHYL-3-METHYLGLUTARYL-COENZYME A LYASE (HYDROXYMETHYLGLUTARICACIDURIA) (HMGCL. OMIM:246450), which when mutated leads to disease. [Source: WormBase]			catalytic activity, 
lin-65	Y71G12B.9	Y71G12B.9a [Source:RefSeq_peptide;Acc:NP_740785]	gamete generation, 		protein binding, 
Y71G12B.8	Y71G12B.8	Y71G12B.8 [Source:RefSeq_peptide;Acc:NP_490891]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y71G12B.25	Y71G12B.25	Y71G12B.25 [Source:RefSeq_peptide;Acc:NP_490892]			
Y71G12B.26	Y71G12B.26	Y71G12B.26 [Source:RefSeq_peptide;Acc:NP_490893]			
Y71G12B.7	Y71G12B.7	Y71G12B.7 [Source:RefSeq_peptide;Acc:NP_490894]			
Y71G12B.6	Y71G12B.6	Y71G12B.6 [Source:RefSeq_peptide;Acc:NP_490895]	cellular metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, coenzyme binding, 
Y71G12B.27	Y71G12B.27	Y71G12B.27 [Source:RefSeq_peptide;Acc:NP_490896]	cell cycle, 		protein binding, cyclin-dependent protein kinase regulator activity, 
Y71G12B.5	Y71G12B.5	Y71G12B.5 [Source:RefSeq_peptide;Acc:NP_490897]			
Y71G12B.4	Y71G12B.4	Probable peptidylglycine alpha-hydroxylating monooxygenase Y71G12B.4 precursor (EC 1.14.17.3) (PHM). [Source:Uniprot/SWISSPROT;Acc:Q95XM2]	peptide metabolic process, 	membrane, 	monooxygenase activity, copper ion binding, peptidylglycine monooxygenase activity, 
Y71G12B.3	Y71G12B.3	Y71G12B.3 [Source:RefSeq_peptide;Acc:NP_490899]			
Y71G12B.32	Y71G12B.32	Y71G12B.32 [Source:RefSeq_peptide;Acc:NP_001021825]			
Y71G12B.2	Y71G12B.2	Y71G12B.2 [Source:RefSeq_peptide;Acc:NP_490900]			
Y71G12B.30	Y71G12B.30	Y71G12B.30 [Source:RefSeq_peptide;Acc:NP_001021823]			hydrolase activity, 
Y71G12B.1	Y71G12B.1	Y71G12B.1b [Source:RefSeq_peptide;Acc:NP_490902]	embryonic development ending in birth or egg hatching, 		
Y71G12B.28	Y71G12B.28	Y71G12B.28 [Source:RefSeq_peptide;Acc:NP_490903]	embryonic development ending in birth or egg hatching, 		
C53H9.3	C53H9.3	C53H9.3 [Source:RefSeq_peptide;Acc:NP_001040644]			
C53H9.2	C53H9.2	C53H9.2 encodes at least three protein isoforms orthologous to the GTP-binding proteins human GNL1 (HSR1. OMIM:143024) and murine MMR1, as well as LSG1 in S. cerevisiae and many other eukaryotic and bacterial proteins. one alternative transcription unit of the C53H9.2 locus, C53H9.2a, has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that C53H9.2 is a natural substrate for SMG-mediated nonsense suppresssion. C53H9.2 is required in mass RNAi assays for embryonic viability, normally rapid growth, and early embryonic nuclear positioning. since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, C53H9.2's protein products may function in translation as well, an inference supported by the observed role of LSG1 in cytoplasmic 60S ribosomal subunit biogenesis. [Source: WormBase]	positive regulation of growth rate, 	intracellular, 	GTP binding, 
rpl-27	C53H9.1	rpl-27 encodes a large ribosomal subunit L27 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
egl-30	M01D7.7	The egl-30 gene encodes an ortholog of the heterotrimeric G protein alpha subunit Gq (Gq/G11 class) that affects viability, locomotion, egg laying, synaptic transmission, and pharyngeal pumping. it genetically interacts with the goa-1 pathway, and is probably expressed ubiquitously, with highest expression in excitable cells. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, protein amino acid ADP-ribosylation, nematode larval development, oviposition, regulation of oviposition, 		GTP binding, signal transducer activity, guanyl nucleotide binding, 
emr-1	M01D7.6	emr-1 gene encodes a homolog of the human integral nuclear membrane protein emerin (EMD, OMIM:300384, mutated in X-linked Emery-Dreifuss muscular dystrophy). EMR-1 belongs to a family of proteins sharing the LEM-domain that are generally conserved in metazoa. EMR-1 protein is found in the nuclear envelopes of all cell types except sperm, in embryos, larvae, and adults. EMR-1 binds the lamin LMN-1, and functionally overlaps with LEM-2 with respect to chromosome segregation and cell division. [Source: WormBase]	chromosome segregation, 	nuclear envelope, 	
nlp-12	M01D7.5	nlp-12 encodes two predicted neuropeptide-like proteins. nlp-12 is part of a LQFamide neuropeptide family that has members in at least one other nematode species. nlp-12 is expressed in one tail neuron. as loss of nlp-12 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of nlp-12-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
tag-96	M01D7.4	tag-96 encodes a galactokinase that is a member of the GHMP family of kinases and closely related to the vertebrate galactokinase 2 (GALK2) carbohydrate kinases. [Source: WormBase]	metabolic process, galactose metabolic process, carbohydrate phosphorylation, phosphorylation, 	cytoplasm, 	ATP binding, phosphotransferase activity, alcohol group as acceptor, kinase activity, galactokinase activity, 
M01D7.9	M01D7.9	M01D7.9 [Source:RefSeq_peptide;Acc:NP_001076609]			
M01D7.1	M01D7.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]	cell redox homeostasis, 		
scm-1	M01D7.2	SCAMP (synaptic vesicle protein) homolog family member (scm-1) [Source:RefSeq_peptide;Acc:NP_490911]	protein transport, 	integral to membrane, 	oxidoreductase activity, 
tag-305	Y71G12A.3	Temporarily Assigned Gene name family member (tag-305) [Source:RefSeq_peptide;Acc:NP_490913]			
Y71G12A.4	Y71G12A.4	Y71G12A.4 [Source:RefSeq_peptide;Acc:NP_490914]			
Y71G12A.2	Y71G12A.2	Y71G12A.2 [Source:RefSeq_peptide;Acc:NP_490915]			
Y51F10.7	Y51F10.7	Y51F10.7 [Source:RefSeq_peptide;Acc:NP_740790]			
Y51F10.6	Y51F10.6	Y51F10.6 [Source:RefSeq_peptide;Acc:NP_740791]			
hex-4	Y51F10.5	hex-4 encodes a beta-N-acetylhexosaminidase. [Source: WormBase]			beta-N-acetylhexosaminidase activity, 
Y51F10.4	Y51F10.4	Y51F10.4a [Source:RefSeq_peptide;Acc:NP_001032988]			
Y51F10.10	Y51F10.10	Y51F10.10 [Source:RefSeq_peptide;Acc:NP_740794]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
Y51F10.11	Y51F10.11	Y51F10.11 [Source:RefSeq_peptide;Acc:NP_001021781]			
Y51F10.3	Y51F10.3	Y51F10.3 [Source:RefSeq_peptide;Acc:NP_740795]			
Y51F10.2	Y51F10.2	Y51F10.2 [Source:RefSeq_peptide;Acc:NP_740796]			protein binding, zinc ion binding, 
Y51F10.8	Y51F10.8	Y51F10.8 [Source:RefSeq_peptide;Acc:NP_740797]			
Y51F10.9	Y51F10.9	Y51F10.9 [Source:RefSeq_peptide;Acc:NP_740799]	regulation of small GTPase mediated signal transduction, 	intracellular, 	GTPase activator activity, 
Y20F4.3	Y20F4.3	Y20F4.3 [Source:RefSeq_peptide;Acc:NP_490916]	intracellular signaling cascade, 		
Y20F4.2	Y20F4.2	Y20F4.2 [Source:RefSeq_peptide;Acc:NP_490917]	proteolysis, 		zinc ion binding, metallopeptidase activity, 
Y20F4.4	Y20F4.4	Y20F4.4 [Source:RefSeq_peptide;Acc:NP_490918]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
Y20F4.8	Y20F4.8	Y20F4.8 [Source:RefSeq_peptide;Acc:NP_001021736]			
Y20F4.5	Y20F4.5	Y20F4.5 [Source:RefSeq_peptide;Acc:NP_490921]			
Y37E3.1	Y37E3.1	Y37E3.1 [Source:RefSeq_peptide;Acc:NP_490922]			binding, 
Y37E3.3	Y37E3.3	DNA-directed RNA polymerases I, II, and III subunit RPABC5 (RNA polymerases I, II, and III subunit ABC5) (RPB10). [Source:Uniprot/SWISSPROT;Acc:Q9GR61]	transcription, embryonic development ending in birth or egg hatching, 		DNA binding, DNA-directed RNA polymerase activity, 
Y37E3.4	Y37E3.4	Y37E3.4 [Source:RefSeq_peptide;Acc:NP_490924]			
Y37E3.5	Y37E3.5	Y37E3.5a [Source:RefSeq_peptide;Acc:NP_001032986]	small GTPase mediated signal transduction, intracellular protein transport, 	intracellular, 	GTP binding, 
rla-1	Y37E3.7	rla-1 encodes an acidic ribosomal subunit protein P1. [Source: WormBase]	translation, translational elongation, embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, ice binding, 
Y37E3.8	Y37E3.8	Y37E3.8a [Source:RefSeq_peptide;Acc:NP_490927]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_003393.1	Y37E3.22	Y37E3.22, snoRNA [Source:RefSeq_dna;Acc:NR_003393]			
NR_003392.1	Y37E3.21	Y37E3.21, snoRNA [Source:RefSeq_dna;Acc:NR_003392]			
phb-1	Y37E3.9	Mitochondrial prohibitin complex protein 1 (Prohibitin-1). [Source:Uniprot/SWISSPROT;Acc:Q9BKU4]	embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, 
Y37E3.10	Y37E3.10	Y37E3.10 [Source:RefSeq_peptide;Acc:NP_490930]	translation, growth, 	eukaryotic translation initiation factor 2 complex, 	RNA binding, translation initiation factor activity, 
Y37E3.11	Y37E3.11	Y37E3.11 [Source:RefSeq_peptide;Acc:NP_490931]	biosynthetic process, 		protein binding, catalytic activity, nucleotidyltransferase activity, 
NR_003391.1	Y37E3.20	Y37E3.20, snoRNA [Source:RefSeq_dna;Acc:NR_003391]			
Y37E3.13	Y37E3.13	Y37E3.13 [Source:RefSeq_peptide;Acc:NP_490933]			protein binding, 
npp-13	Y37E3.15	Nuclear Pore complex Protein family member (npp-13) [Source:RefSeq_peptide;Acc:NP_740802]	transport, embryonic development ending in birth or egg hatching, 	nuclear pore, 	
Y37E3.19	Y37E3.19	Y37E3.19 [Source:RefSeq_peptide;Acc:NP_001040702]			
Y37E3.16	Y37E3.16	Y37E3.16 [Source:RefSeq_peptide;Acc:NP_001032985]	regulation of transcription, DNA-dependent, iron ion transport, 	integral to membrane, nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, iron ion transmembrane transporter activity, 
Y37E3.17	Y37E3.17	Y37E3.17 is orthologous to the human gene UNKNOWN (PROTEIN FOR IMAGE:4608862) (DMGDH. OMIM:605849), which when mutated leads to disease. [Source: WormBase]	transport, electron transport, glycine catabolic process, 	membrane, cytoplasm, 	transporter activity, oxidoreductase activity, aminomethyltransferase activity, 
afd-1	W03F11.6	AFaDin (actin filament binding protein) homolog family member (afd-1) [Source:RefSeq_peptide;Acc:NP_490938]	signal transduction, 		protein binding, 
W03F11.5	W03F11.5	W03F11.5 [Source:RefSeq_peptide;Acc:NP_001021657]			
W03F11.1	W03F11.1	W03F11.1 encodes a protein with three chitin-binding peritrophin-A domains. like CEJ-1 and CPG-2, W03F11.1 may participate in eggshell synthesis and early embryonic development. W03F11.1 is required for fertility in mass RNAi assays. W03F11.1's multiple peritrophin-A domains might enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, reproduction, 	extracellular region, 	chitin binding, 
gcy-17	W03F11.2	gcy-17 encodes a predicted guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
W03F11.3	W03F11.3	W03F11.3 [Source:RefSeq_peptide;Acc:NP_490944]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
W03F11.4	W03F11.4	W03F11.4 [Source:RefSeq_peptide;Acc:NP_490945]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F12B6.3	F12B6.3	F12B6.3 [Source:RefSeq_peptide;Acc:NP_490946]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
F12B6.2	F12B6.2	F12B6.2a [Source:RefSeq_peptide;Acc:NP_490947]	transport, 	integral to membrane, 	transporter activity, 
abt-2	F12B6.1	abt-2 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. ABT-2 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of abt-2 activity via RNAi results in no obvious defects, the precise role of abt-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	defense response, dicarboxylic acid transport, 	membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, sodium:dicarboxylate symporter activity, 
Y39G10AL.t1	Y39G10AL.t1				
Y39G10AL.1	Y39G10AL.1	Y39G10AL.1 [Source:RefSeq_peptide;Acc:NP_490951]			protein binding, 
cdk-7	Y39G10AL.3	The cdk-7 gene encodes a cyclin-dependent kinase orthologous to human CDK7 (OMIM:601955) that is a component of the general transcription factor IIH (TFIIH) complex. CDK-7 is required during embryogenesis for mRNA transcription and phosphorylation of RNA polymerase II on serine 2 and serine 5, as well as for cell cycle progression, maintenance of ploidy, and completion of meiosis following fertilization. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, mitotic cell cycle, embryonic, 	cellular_component, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y39G10AR.11	Y39G10AR.11	Y39G10AR.11 [Source:RefSeq_peptide;Acc:NP_490953]	embryonic development ending in birth or egg hatching, 		
tpxl-1	Y39G10AR.12	TPX2 (Targeting Protein for Xenopus Klp2)-Like family member (tpxl-1) [Source:RefSeq_peptide;Acc:NP_740805]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y39G10AR.10	Y39G10AR.10	Y39G10AR.10 [Source:RefSeq_peptide;Acc:NP_490955]	embryonic development ending in birth or egg hatching, 		protein binding, 
icp-1	Y39G10AR.13	The icp-1 gene encodes a 'chromosomal passenger protein'. inactivation of icp-1 by RNAi leads to a complete failure of chromosome segregation during the first mitotic division of embryonic development. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, DNA binding, transcription factor activity, 
Y39G10AR.9	Y39G10AR.9	Y39G10AR.9 [Source:RefSeq_peptide;Acc:NP_490957]			
Y39G10AR.21	Y39G10AR.21	Y39G10AR.21 is orthologous to the human gene SIMILAR TO RIKEN CDNA 2810405F18 GENE (FAAH. OMIM:602935), which when mutated leads to disease. [Source: WormBase]	rRNA processing, 		
Y39G10AR.20	Y39G10AR.20	Y39G10AR.20 [Source:RefSeq_peptide;Acc:NP_490959]	tubulin folding, 	microtubule, 	unfolded protein binding, 
Y39G10AR.8	Y39G10AR.8	Y39G10AR.8 [Source:RefSeq_peptide;Acc:NP_490960]	small GTPase mediated signal transduction, embryonic development ending in birth or egg hatching, 		protein binding, GTP binding, GTPase activity, 
Y39G10AR.7	Y39G10AR.7	Y39G10AR.7 [Source:RefSeq_peptide;Acc:NP_490961]	embryonic development ending in birth or egg hatching, 		
mcm-4	Y39G10AR.14	mcm-4 encodes a member of the MCM2/3/5 family with similarity to human MCM4 minichromosome maintenance deficient 4 protein, and affects embryonic viability, nuclear morphology in early embryos, and larval viability. [Source: WormBase]	DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, 
Y39G10AR.15	Y39G10AR.15	Y39G10AR.15 [Source:RefSeq_peptide;Acc:NP_490963]			
srbc-64	Y39G10AR.22	Serpentine Receptor, class BC (class B-like) family member (srbc-64) [Source:RefSeq_peptide;Acc:NP_740807]			
Y39G10AR.16	Y39G10AR.16	Y39G10AR.16 [Source:RefSeq_peptide;Acc:NP_490964]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
ugt-31	Y39G10AR.6	UDP-GlucuronosylTransferase family member (ugt-31) [Source:RefSeq_peptide;Acc:NP_001021756]	metabolic process, 		transferase activity, transferring hexosyl groups, 
Y39G10AR.5	Y39G10AR.5	Y39G10AR.5 [Source:RefSeq_peptide;Acc:NP_490966]			protein binding, 
nspa-12	Y39G10AR.23				
nekl-1	Y39G10AR.3	Y39G10AR.3 [Source:RefSeq_peptide;Acc:NP_490968]	protein amino acid phosphorylation, signal transduction, 	intracellular, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y39G10AR.17	Y39G10AR.17	Y39G10AR.17 [Source:RefSeq_peptide;Acc:NP_490969]			protein binding, 
Y39G10AR.18	Y39G10AR.18	Y39G10AR.18a [Source:RefSeq_peptide;Acc:NP_740808]			
zwl-1	Y39G10AR.2	ZWiLch (Drosophila) homolog family member (zwl-1) [Source:RefSeq_peptide;Acc:NP_490971]	transport, embryonic development ending in birth or egg hatching, 		transporter activity, lipid binding, 
NR_003394.1	Y39G10AR.24	Y39G10AR.24, snoRNA [Source:RefSeq_dna;Acc:NR_003394]			
F23C8.13	F23C8.13	F23C8.13 [Source:RefSeq_peptide;Acc:NP_740810]			protein binding, 
F23C8.5	F23C8.5	The F23C8.5 gene encodes an ortholog of the human gene ELECTRON TRANSFER FLAVOPROTEIN BETA SUBUNIT (ETFB), which when mutated leads to glutaricaciduria type IIB (OMIM:130410). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		electron carrier activity, 
F23C8.6	F23C8.6	F23C8.6 [Source:RefSeq_peptide;Acc:NP_490974]	protein transport, positive regulation of growth rate, 		
F23C8.7	F23C8.7	F23C8.7 [Source:RefSeq_peptide;Acc:NP_490975]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F23C8.8	F23C8.8	F23C8.8 [Source:RefSeq_peptide;Acc:NP_490976]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F23C8.9	F23C8.9	F23C8.9 [Source:RefSeq_peptide;Acc:NP_490977]			
ubxn-1	F23C8.4	UBX-containing protein in Nematode family member (ubxn-1) [Source:RefSeq_peptide;Acc:NP_490978]	proteolysis, 	intracellular, 	protein binding, zinc ion binding, nucleic acid binding, aspartic-type endopeptidase activity, 
F23C8.3	F23C8.3	F23C8.3 [Source:RefSeq_peptide;Acc:NP_490979]			
F23C8.10	F23C8.10				
F23C8.2	F23C8.2				
F23C8.1	F23C8.1	F23C8.1 [Source:RefSeq_peptide;Acc:NP_490980]			
F23C8.11	F23C8.11	F23C8.11 [Source:RefSeq_peptide;Acc:NP_490981]			
F23C8.12	F23C8.12	F23C8.12 [Source:RefSeq_peptide;Acc:NP_490982]			
inx-19	T16H5.1	inx-19 encodes a predicted member of the innexin family that affects body size and growth. [Source: WormBase]	biological_process, 	gap junction, 	
Y74C10AL.2	Y74C10AL.2	Y74C10AL.2 [Source:RefSeq_peptide;Acc:NP_490985]			
abtm-1	Y74C10AR.3	abtm-1 encodes a protein orthologous to the human gene ATP-BINDING CASSETTE, SUBFAMILY B, MEMBER 7 (ABCB7. OMIM:300135), which when mutated leads to sideroblastic anemia and spinocerebellar ataxia. [Source: WormBase]	transport, embryonic development ending in birth or egg hatching, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
Y74C10AR.2	Y74C10AR.2	Y74C10AR.2 [Source:RefSeq_peptide;Acc:NP_490987]			
eif-3.I	Y74C10AR.1	Eukaryotic Initiation Factor family member (eif-3.I) [Source:RefSeq_peptide;Acc:NP_490988]	reproduction, 		
Y23H5B.6	Y23H5B.6	Y23H5B.6 [Source:RefSeq_peptide;Acc:NP_490989]	growth, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y23H5B.5	Y23H5B.5	Y23H5B.5 [Source:RefSeq_peptide;Acc:NP_490990]	reproduction, 		
Y23H5B.7	Y23H5B.7	Y23H5B.7a [Source:RefSeq_peptide;Acc:NP_740811]			
NR_003390.1	Y23H5B.10	Y23H5B.10, snoRNA [Source:RefSeq_dna;Acc:NR_003390]			
Y23H5B.4	Y23H5B.4	Y23H5B.4 [Source:RefSeq_peptide;Acc:NP_490992]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, 
Y23H5B.3	Y23H5B.3	Y23H5B.3 [Source:RefSeq_peptide;Acc:NP_490993]			
Y23H5B.8	Y23H5B.8	Y23H5B.8 [Source:RefSeq_peptide;Acc:NP_490994]			
Y23H5B.2	Y23H5B.2	Y23H5B.2 [Source:RefSeq_peptide;Acc:NP_490995]			
nspd-8	Y23H5B.9	Nematode Specific Peptide family, group D family member (nspd-8) [Source:RefSeq_peptide;Acc:NP_490996]			
Y23H5B.1	Y23H5B.1	Y23H5B.1 [Source:RefSeq_peptide;Acc:NP_490997]			
C55C2.4	C55C2.4	C55C2.4 [Source:RefSeq_peptide;Acc:NP_490998]			
C55C2.3	C55C2.3	C55C2.3 [Source:RefSeq_peptide;Acc:NP_490999]			
ssp-19	C55C2.2	Sperm-specific class P protein 19. [Source:Uniprot/SWISSPROT;Acc:O01829]			structural molecule activity, 
scrt-1	C55C2.1	C55C2.1 [Source:RefSeq_peptide;Acc:NP_491001]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
aat-5	C55C2.5	aat-5 encodes a predicted amino acid transporter catalytic subunit. unlike catalytic subunits in other organisms, however, AAT-5 does not contain the highly conserved cysteine residue known to facilitate covalent interaction with a glycoprotein subunit, suggesting that AAT-5 does not require this residue for heterodimer formation or alternatively, does not require the glycoprotein subunit for function. [Source: WormBase]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
fbp-1	K07A3.1	fbp-1 encodes fructose 1,6-bisphosphatase, a gluconeogenic enzyme that catalyzes the hydrolysis of fructose 1,6-bisphosphate to fructose 6-phosphate and inorganic phosphate in a reaction that reverses the third enzymatic step of glycolysis. in C. elegans, loss of fbp-1 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. FBP-1 is orthologous to human FBP1 (OMIM:229700, mutated in FBP deficiency). [Source: WormBase]	carbohydrate metabolic process, 		phosphoric ester hydrolase activity, 
ptr-12	K07A3.2	ptr-12 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-12 is weakly required for normal molting from L4 to adult stages growth to full size. PTR-12 is also required for normal locomotion. [Source: WormBase]		membrane, integral to membrane, 	G-protein coupled receptor activity, hedgehog receptor activity, 
K07A3.3	K07A3.3	K07A3.3b [Source:RefSeq_peptide;Acc:NP_001021562]			nucleotide binding, nucleoside-triphosphatase activity, 
ctn-1	Y23H5A.5	ctn-1 encodes a protein that belongs to the alpha-catulin family of catenin-like proteins. the precise function of ctn-1 is not yet known. the CTN-1 promoter-GFP fusion protein is expressed in body wall, vulval and anal muscle tissues. [Source: WormBase]	cell adhesion, 	actin cytoskeleton, 	protein binding, structural molecule activity, cadherin binding, 
Y23H5A.4	Y23H5A.4	Y23H5A.4 [Source:RefSeq_peptide;Acc:NP_491010]			protein binding, structural molecule activity, 
Y23H5A.3	Y23H5A.3	Y23H5A.3 [Source:RefSeq_peptide;Acc:NP_491011]	embryonic development ending in birth or egg hatching, 		
Y23H5A.2	Y23H5A.2	Y23H5A.2 encodes a Caenorhabditis-specific protein, without obvious similarities or motifs. Y23H5A.2 inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]			
crs-1	Y23H5A.7	crs-1 encodes a predicted cytoplasmic cysteinyl-tRNA synthetase (CysRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of cysteine to its cognate tRNA and is thus required for protein biosynthesis. CRS-1 is essential for embryonic and larval development, and is required for molting and a normal rate of postembryonic development. [Source: WormBase]	translation, cysteinyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, cysteine-tRNA ligase activity, 
crs-2	Y23H5A.1	crs-2 encodes a predicted cysteinyl-tRNA synthetase required for fertility. [Source: WormBase]	translation, cysteinyl-tRNA aminoacylation, reproduction, 	cytoplasm, 	ATP binding, nucleotide binding, cysteine-tRNA ligase activity, 
Y23H5A.8	Y23H5A.8	Y23H5A.8 [Source:RefSeq_peptide;Acc:NP_001021737]	positive regulation of multicellular organism growth, 		
F40E3.3	F40E3.3	F40E3.3 [Source:RefSeq_peptide;Acc:NP_491017]			
F40E3.2	F40E3.2	F40E3.2 [Source:RefSeq_peptide;Acc:NP_491018]			
F40E3.5	F40E3.5	F40E3.5 [Source:RefSeq_peptide;Acc:NP_491019]			hydrolase activity, 
F40E3.6	F40E3.6	F40E3.6 [Source:RefSeq_peptide;Acc:NP_491020]			
F32B5.6	F32B5.6	F32B5.6a [Source:RefSeq_peptide;Acc:NP_740819]	embryonic development ending in birth or egg hatching, 		
F32B5.7	F32B5.7	F32B5.7 [Source:RefSeq_peptide;Acc:NP_491022]	electron transport, 		electron carrier activity, 
cpz-1	F32B5.8	cpz-1 encodes a homolog of cathepsin z-like cysteine protease cyclically expressed in hypodermal cells throughout development (along with adult gonad and pharynx) and required for normal molting. CPZ-1 protein is present in cuticle regions shortly before their degradation during ecydsis, and this expression pattern is conserved in Onchocerca volvulus. cpz-1(ok497) and cpz-1(RNAi) worms have defective molting, along with misshapen heads and tails, defective gonads, and embryonic lethality. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, nutrient reservoir activity, 
NR_003382.1	F32B5.9	F32B5.9, snRNA [Source:RefSeq_dna;Acc:NR_003382]			
F32B5.4	F32B5.4	F32B5.4 [Source:RefSeq_peptide;Acc:NP_491024]			
F32B5.3	F32B5.3	F32B5.3 [Source:RefSeq_peptide;Acc:NP_491025]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
F32B5.2	F32B5.2	F32B5.2 [Source:RefSeq_peptide;Acc:NP_491026]			
F32B5.1	F32B5.1	F32B5.1 [Source:RefSeq_peptide;Acc:NP_491027]			transferase activity, transferring phosphorus-containing groups, kinase activity, 
lin-17	Y71F9B.5	lin-17 encodes one of four C. elegans Frizzled homologs, integral membrane proteins that contain an external cysteine rich domain (CRD) and seven transmembrane domains and that function in a wide variety of species as receptors for Wnt glycoprotein signaling molecules. LIN-17 activity is required for specifying the polarity of a number of asymmetric cell divisions that, in C. elegans, are essential for development of such structures as the vulva, somatic gonad, and tail. LIN-17 is also required for the proper polarity of neuronal migrations along the anterior-posterior axis. genetic interactions indicate that LIN-17 likely functions as a receptor for several different Wnt molecules, including LIN-44 and EGL-20, and that in specifying cell fates, the LIN-17-mediated signaling pathway often functions redundantly with other signaling pathways, including the RTK/Ras pathway. a LIN-17 translational reporter fusion shows membrane-associated expression in all of the Pn.pxx vulval precursor cells, in the descendants of V6 and T in males, in the P11.p and B cells, as well as their daughters, and granddaughters, and weakly in P10.p and its daughters. the reporter fusion does not reveal expression in P7.p, Z1, Z4, and T [Source: WormBase]	cell surface receptor linked signal transduction, gonad development, regulation of asymmetric cell division, 	membrane, 	G-protein coupled receptor activity, non-G-protein coupled 7TM receptor activity, 
dnj-30	Y71F9B.16	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
Y71F9B.6	Y71F9B.6	Y71F9B.6 [Source:RefSeq_peptide;Acc:NP_491031]			cyclin-dependent protein kinase regulator activity, 
snr-7	Y71F9B.4	snr-7 encodes the C. elegans ortholog of the small nuclear ribonucleoprotein G, one of seven subunits of the heptameric Sm complex required for the biogenesis and function of snRNPs that catalyze mRNA splicing. in addition to its predicted role in pre-mRNA processing, SNR-7 activity is essential for embryogenesis and for several aspects of germ cell specification including localization and subcellular distribution of P granules and maintenance of transcriptional quiescence. snr-7 is also required for RNA interference and for the overall health and fertility of the animal. immunostaining of adults and embryos using antibodies raised against mammalian Sm proteins and mammalian SmG, in particular, suggests that SNR-7 localizes to the nucleus and cytoplasm in many cell types, as well as to P granules in germ cells and their embryonic precursors. [Source: WormBase]	mRNA metabolic process, biological_process, 	ribonucleoprotein complex, 	
Y71F9B.3	Y71F9B.3	Y71F9B.3 [Source:RefSeq_peptide;Acc:NP_491033]			protein binding, 
Y71F9B.2	Y71F9B.2	MMP37-like protein, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q9N4G7]	protein import into mitochondrial matrix, 	extrinsic to mitochondrial inner membrane, 	
Y71F9B.8	Y71F9B.8	Y71F9B.8 [Source:RefSeq_peptide;Acc:NP_491035]			protein binding, 
plk-2	Y71F9B.7	Serine/threonine-protein kinase plk-2 (EC 2.7.11.21) (Polo-like kinase 2). [Source:Uniprot/SWISSPROT;Acc:Q9N2L7]	protein amino acid phosphorylation, cell cycle, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
Y71F9B.9	Y71F9B.9	Y71F9B.9 [Source:RefSeq_peptide;Acc:NP_491037]	fatty acid metabolic process, 		oxidoreductase activity, 
sop-3	Y71F9B.10	The sop-3 gene encodes a novel protein that regulates Hox gene expression by modulating Wnt signaling. [Source: WormBase]	positive regulation of growth rate, 		
Y71F9B.1	Y71F9B.1	Y71F9B.1 [Source:RefSeq_peptide;Acc:NP_491039]			
Y71F9B.13	Y71F9B.13	Y71F9B.13c [Source:RefSeq_peptide;Acc:NP_871845]			
Y71F9B.14	Y71F9B.14	Y71F9B.14 [Source:RefSeq_peptide;Acc:NP_491042]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	endothelin receptor activity, 
Y71F9B.15	Y71F9B.15	Y71F9B.15 [Source:RefSeq_peptide;Acc:NP_491043]			
W03D8.9	W03D8.9	W03D8.9 [Source:RefSeq_peptide;Acc:NP_491044]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
W03D8.10	W03D8.10	W03D8.10 [Source:RefSeq_peptide;Acc:NP_491045]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
W03D8.1	W03D8.1	W03D8.1 [Source:RefSeq_peptide;Acc:NP_491046]			
W03D8.8	W03D8.8	W03D8.8 [Source:RefSeq_peptide;Acc:NP_491047]	lipid metabolic process, 		protein binding, palmitoyl-CoA hydrolase activity, 
W03D8.7	W03D8.7	W03D8.7 [Source:RefSeq_peptide;Acc:NP_491048]			
W03D8.2	W03D8.2	W03D8.2 [Source:RefSeq_peptide;Acc:NP_491049]			hydrolase activity, 
itx-1	W03D8.6	itx-1 encodes one of two Caspr orthologues found in the C. elegans genome. Caspr proteins belong to the Neurexin superfamily and are involved in mediating cell-cell contacts and in the formation of specialized membrane-domains in polarized epithelial and nerve cells. RNA interference of itx-1 suggests that itx-1 is involved in the correct positioning and maintenance of apical junctions and in maintaining epithelial integrity in the gut. gfp-reporter studies indicate that ITX-1 is expressed in intestinal cell epithelia and in the socket cells of the inner and outer labial sensilla. immunofluorescence studies indicate that ITX-1 localizes to the baso-lateral membranes of intestinal epithelia. [Source: WormBase]	intercellular junction assembly and maintenance, 		calcium ion binding, 
W03D8.5	W03D8.5	W03D8.5 [Source:RefSeq_peptide;Acc:NP_491051]			structural molecule activity, 
W03D8.11	W03D8.11	W03D8.11 [Source:RefSeq_peptide;Acc:NP_001040695]			
W03D8.3	W03D8.3	W03D8.3 [Source:RefSeq_peptide;Acc:NP_491052]			
pop-1	W10C8.2	pop-1 encodes an HMG box-containing protein that is the sole C. elegans member of the TCF/LEF family of transcription factors. in C. elegans, POP-1 functions as a component of the canonical and noncanonical Wnt signaling pathways that are required for cell migrations and binary cell fate decisions associated with asymmetric cell division, respectively. in yeast two-hybrid assays, the POP-1 N-terminal beta-catenin binding domain interacts with BAR-1/beta-catenin as well as with the more divergent beta-catenin, SYS-1. when coexpressed with SYS-1, POP-1 is able to activate transcription from a promoter with TCF binding sites. during development, maternally provided POP-1 is first detected in the nuclei of maturing oocytes and then in nearly all cells of the early embryo. in sister blastomeres in the early embryo, POP-1 is detected at lower levels in posterior blastomeres, such as E and P3, than in corresponding anterior blastomeres, MS and C. in later developmental stages, POP-1 is detected in a subset of tissues including hypodermal seam cells, gonadal precursors, and the developing vulva. in the vulva, POP-1 also exhibits an asymmetric staining pattern, with sister cells showing high or low levels of POP-1 depending upon their orientation along the anterior/posterior axis of the vulva. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, polarity specification of proximal/distal axis, 		DNA binding, 
W10C8.3	W10C8.3	W10C8.3 [Source:RefSeq_peptide;Acc:NP_491054]			
ccb-2	W10C8.1	Calcium Channel, Beta subunit family member (ccb-2) [Source:RefSeq_peptide;Acc:NP_491055]	calcium ion transport, 		voltage-gated calcium channel activity, 
W10C8.4	W10C8.4	W10C8.4a [Source:RefSeq_peptide;Acc:NP_491056]			
W10C8.5	W10C8.5	W10C8.5 [Source:RefSeq_peptide;Acc:NP_491057]			transferase activity, transferring phosphorus-containing groups, kinase activity, 
W10C8.6	W10C8.6	W10C8.6 [Source:RefSeq_peptide;Acc:NP_001021675]		integral to membrane, 	
Y71F9AL.11	Y71F9AL.11	Y71F9AL.11 [Source:RefSeq_peptide;Acc:NP_491058]			
Y71F9AL.10	Y71F9AL.10	Y71F9AL.10 [Source:RefSeq_peptide;Acc:NP_491059]			protein binding, zinc ion binding, 
Y71F9AL.12	Y71F9AL.12	Y71F9AL.12 [Source:RefSeq_peptide;Acc:NP_491060]	embryonic development ending in birth or egg hatching, 		
rpl-1	Y71F9AL.13	rpl-1 encodes a large ribosomal subunit L10a protein. by homology, RPL-1 is predicted to function in protein biosynthesis. in C. elegans, RPL-1 activity is essential for embryonic development. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
Y71F9AL.9	Y71F9AL.9	Y71F9AL.9 [Source:RefSeq_peptide;Acc:NP_491063]	type I hypersensitivity, 		
Y71F9AL.8	Y71F9AL.8	Y71F9AL.8 [Source:RefSeq_peptide;Acc:NP_491064]			
Y71F9AL.14	Y71F9AL.14	Y71F9AL.14 [Source:RefSeq_peptide;Acc:NP_491065]	embryonic development ending in birth or egg hatching, 		acyltransferase activity, 
arx-1	Y71F9AL.16	arx-1 encodes the C. elegans ortholog of the Arp3 subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y71F9AL.7	Y71F9AL.7	Y71F9AL.7 [Source:RefSeq_peptide;Acc:NP_491067]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y71F9AL.6	Y71F9AL.6	Y71F9AL.6 [Source:RefSeq_peptide;Acc:NP_491068]	embryonic development ending in birth or egg hatching, 		
Y71F9AL.17	Y71F9AL.17	Y71F9AL.17 encodes an alpha subunit of the coatomer (COPI) complex. in mass RNAi assays, Y71F9AL.17 is required for embryonic viability, fertility, normal locomotion, and normally rapid growth. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane coat, COPI vesicle coat, 	protein transporter activity, protein binding, structural molecule activity, 
gst-43	Y71F9AL.5	Glutathione S-Transferase family member (gst-43) [Source:RefSeq_peptide;Acc:NP_491070]	aromatic amino acid family metabolic process, 	cytoplasm, 	catalytic activity, 
Y71F9AL.4	Y71F9AL.4	Y71F9AL.4 [Source:RefSeq_peptide;Acc:NP_491071]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
pme-1	Y71F9AL.18	pme-1 encodes a poly(ADP-ribose) polymerase (PARP) orthologous to human PARP1 (OMIM:173870). PME-1 has two N-terminal zinc fingers that probably bind DNA, and a C-terminal catalytic domain. PME-1 has PARP activity in vitro, which is blocked by mammalian PARP inhibitors. since these inhibitors also cause embryonic lethality in worms exposed to ionizing radiation, PME-1 is likely to be required in vivo for repairing broken DNA. [Source: WormBase]	DNA repair, protein amino acid ADP-ribosylation, pathogenesis, 	nucleus, 	zinc ion binding, DNA binding, NAD+ ADP-ribosyltransferase activity, 
Y71F9AL.2	Y71F9AL.2	Y71F9AL.2 [Source:RefSeq_peptide;Acc:NP_491074]	protein amino acid phosphorylation, DNA repair, nucleosome assembly, 	nucleus, nucleosome, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, DNA binding, 
Y71F9AL.1	Y71F9AL.1	Y71F9AL.1 [Source:RefSeq_peptide;Acc:NP_491075]	methylation, 		methyltransferase activity, nucleic acid binding, 
Y71F9AM.6	Y71F9AM.6	Y71F9AM.6 [Source:RefSeq_peptide;Acc:NP_491076]	embryonic development ending in birth or egg hatching, 		
nxt-1	Y71F9AM.5	NTF2-related export protein. [Source:Uniprot/SWISSPROT;Acc:Q9U757]	transport, embryonic development ending in birth or egg hatching, 	intracellular, 	
cogc-3	Y71F9AM.4	cogc-3 encodes an ortholog of mammalian COG-3/Sec34, a subunit of lobe A of the conserved oligomeric Golgi complex (COGC). COGC-3 is required for normal gonadal distal tip cell migration, a process that also requires COGC-1 and six other orthologs of COGC subunits. COGC-3 is also required for normal vulval morphology, growth rate, ventral nerve cord fasciculation, and adult locomotion. COGC-3 has a predicted coiled-coil N-terminal domain, and a C-terminal EEA1-like domain that might link vesicles to endosomes. COGC-3 protein is found in most somatic cells but absent from germline. COGC-1 co-precipitates with COGC-3, and the amount of COGC-3 is lowered in a cogc-1 mutant, implying that these proteins not only bind one another but stabilize one another in vivo. in cogc-3 mutants, MIG-23 is abnormally localized and expressed within cells. in cogc-3 mutants, MIG-23's substrate MIG-17 is underglycosylated and fails to bind to the gonadal basement membrane, but is still secreted normally from muscle cells. transgenic expression of cogc-3 in muscle cells, but not in touch neurons, partially rescues cogc-3's migration phenotype. however, coexpression of cogc-3 with mig-17 in touch neurons does partially rescue migration. cogc-1, cogc-3, and mig-17 null mutants do not enhance one another, indicating a shared genetic pathway. like other lobe A subunits in both C. elegans and S. cerevisiae, COGC-3 is strongly required for normal function, while lobe B subunits are only partially required in either worms or yeast. [Source: WormBase]	intracellular protein transport, regulation of cell migration, morphogenesis of an epithelium, 	membrane, cis-Golgi network, 	
NR_003395.1	Y71F9AM.7	Y71F9AM.7, snoRNA [Source:RefSeq_dna;Acc:NR_003395]			
Y71F9AM.8	Y71F9AM.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8Q1]			
bam-2	Y71F9AR.1	bam-2 encodes a 1007-residue protein with a predicted N-terminal signal sequence and C-terminal transmembrane sequence, and a central concanavalin A-like lectin/glucanase motif, but no obvious homologs outside of nematodes. BAM-2 is alleged to be [Source: WormBase]			
Y71F9AR.4	Y71F9AR.4	Y71F9AR.4 [Source:RefSeq_peptide;Acc:NP_001076625]			
Y71F9AR.2	Y71F9AR.2	Y71F9AR.2 [Source:RefSeq_peptide;Acc:NP_491082]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	ATP binding, GTP binding, 
Y71F9AR.3	Y71F9AR.3	Y71F9AR.3 [Source:RefSeq_peptide;Acc:NP_491083]			
dnj-28	Y54E10BL.4	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
Y54E10BL.5	Y54E10BL.5	Y54E10BL.5 encodes the C. elegans ortholog of the NDUFS5/15 kDa subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]			
Y54E10BL.3	Y54E10BL.3	Y54E10BL.3 [Source:RefSeq_peptide;Acc:NP_491086]			
mek-2	Y54E10BL.6	Dual specificity mitogen-activated protein kinase kinase mek-2 (EC 2.7.12.2) (MAP kinase kinase mek-2). [Source:Uniprot/SWISSPROT;Acc:Q10664]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, vulval development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
col-48	Y54E10BL.2	col-48 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, nutrient reservoir activity, alpha2-adrenergic receptor activity, 
Y54E10BL.1	Y54E10BL.1	Y54E10BL.1 [Source:RefSeq_peptide;Acc:NP_491089]	embryonic development ending in birth or egg hatching, 		
Y54E10BR.4	Y54E10BR.4	Y54E10BR.4 [Source:RefSeq_peptide;Acc:NP_491090]	positive regulation of growth rate, 		
Y54E10BR.3	Y54E10BR.3	Y54E10BR.3 [Source:RefSeq_peptide;Acc:NP_491091]			protein binding, zinc ion binding, 
Y54E10BR.5	Y54E10BR.5	Y54E10BR.5 [Source:RefSeq_peptide;Acc:NP_491092]	proteolysis, signal peptide processing, biological_process, 	membrane, 	serine-type peptidase activity, peptidase activity, 
Y54E10BR.6	Y54E10BR.6	Y54E10BR.6 [Source:RefSeq_peptide;Acc:NP_491093]	electron transport, transcription, response to oxidative stress, embryonic development ending in birth or egg hatching, 		RNA binding, DNA-directed RNA polymerase activity, peroxidase activity, heme binding, 
Y54E10BR.2	Y54E10BR.2	Y54E10BR.2 [Source:RefSeq_peptide;Acc:NP_491094]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, 	intracellular, 	GTP binding, 
mod-5	Y54E10BR.7	mod-5 encodes a Na[+],Cl[-]-dependent serotonin transporter that is required for serotonin uptake by neurosecretory motor neurons and for the experience-dependent enhanced slowing response to food. MOD-5 has serotonin transport activity in cell culture, and is a target of the serotonin uptake inhibitor fluoxetine (Prozac) in vivo. MOD-5 is orthologous to the human serotonin transporter (SLC6A4, OMIM:182138, associated with varying levels of neuroticism, introversion, and anxiety). [Source: WormBase]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
Y54E10BR.8	Y54E10BR.8	Y54E10BR.8 [Source:RefSeq_peptide;Acc:NP_491096]	negative regulation of multicellular organism growth, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
Y54E10BR.1	Y54E10BR.1	Y54E10BR.1 [Source:RefSeq_peptide;Acc:NP_491097]	metabolic process, 		sulfuric ester hydrolase activity, 
arx-7	M01B12.3	arx-7 encodes the C. elegans ortholog of the p16Arc subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	regulation of actin filament polymerization, biological_process, 	cytoskeleton, 	
M01B12.4	M01B12.4	M01B12.4a [Source:RefSeq_peptide;Acc:NP_740823]			
M01B12.5	M01B12.5	M01B12.5a [Source:RefSeq_peptide;Acc:NP_001021570]	biological_process, 		ATP binding, protein serine/threonine kinase activity, 
nhr-64	C45E1.1	nhr-64 encodes a conserved nuclear receptor that is a member of the NR2 subfamily of nuclear receptors that contains Drosophila and human HNF4 (OMIM:600281, mutations in human HNF4A are associated with Type I MODY (maturity-onset diabetes of the young)). by homology, NHR-64 is predicted to function as a transcription factor that may activate or repress transcription in response to a hormonal signal. however, as loss of nhr-64 activity via RNAi does not result in any obvious abnormalities, the precise role of NHR-64 in C. elegans development and/or behavior is not yet known. nhr-64 is broadly expressed and detected in anterior and posterior neurons, the ventral nerve cord, the pharynx, gut, and hypodermis. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
C45E1.4	C45E1.4	C45E1.4 [Source:RefSeq_peptide;Acc:NP_491104]			
K09H9.4	K09H9.4	K09H9.4 [Source:RefSeq_peptide;Acc:NP_491105]	RNA-dependent DNA replication, 		RNA binding, RNA-directed DNA polymerase activity, 
col-49	K09H9.3	col-49 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
K09H9.8	K09H9.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O44990]	transport, 		
K09H9.5	K09H9.5	K09H9.5b [Source:RefSeq_peptide;Acc:NP_871872]			
lpd-6	K09H9.6	lpd-6 encodes a predicted rRNA-binding protein that is orthologous to Drosophila Peter Pan and the Saccharomyces cerevisiae SSF1 and SSF2 proteins that are required for ribosomal large subunit maturation. loss of lpd-6 activity via RNAi indicates that, in C. elegans, LPD-6 is required for fat storage and for larval growth and development. based upon its similarity to yeast SSF1 and SSF2, LPD-6 is predicted to be a nucleolar protein. [Source: WormBase]	positive regulation of growth rate, 		nucleic acid binding, 
K09H9.2	K09H9.2	K09H9.2 [Source:RefSeq_peptide;Acc:NP_491109]			
K09H9.7	K09H9.7	K09H9.7 [Source:RefSeq_peptide;Acc:NP_491110]		intracellular, 	zinc ion binding, nucleic acid binding, 
K09H9.1	K09H9.1	K09H9.1 [Source:RefSeq_peptide;Acc:NP_491111]			
vbh-1	Y54E10A.9	Vasa- and Belle-like Helicase family member (vbh-1) [Source:RefSeq_peptide;Acc:NP_491113]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y54E10A.7	Y54E10A.7	Y54E10A.7 [Source:RefSeq_peptide;Acc:NP_491114]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y54E10A.6	Y54E10A.6	Y54E10A.6 [Source:RefSeq_peptide;Acc:NP_491115]			protein binding, 
Y54E10A.5	Y54E10A.5	Y54E10A.5 [Source:RefSeq_peptide;Acc:NP_491116]			acyltransferase activity, 
Y54E10A.10	Y54E10A.10	Brix domain-containing protein 1 homolog. [Source:Uniprot/SWISSPROT;Acc:Q9N3F0]	reproduction, 		
Y54E10A.11	Y54E10A.11	Y54E10A.11 [Source:RefSeq_peptide;Acc:NP_491118]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
Y54E10A.12	Y54E10A.12	Y54E10A.12 [Source:RefSeq_peptide;Acc:NP_491120]	vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, 
Y54E10A.13	Y54E10A.13	Y54E10A.13 [Source:RefSeq_peptide;Acc:NP_491121]			
Y54E10A.17	Y54E10A.17	Y54E10A.17 [Source:RefSeq_peptide;Acc:NP_491122]	transport, histidine catabolic process, carbohydrate catabolic process, 	membrane, 	transporter activity, catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
fog-1	Y54E10A.4	The fog-1 gene encodes a cytoplasmic polyadenylation element binding (CPEB) protein that is required for specification of the sperm fate. [Source: WormBase]	masculinization of hermaphroditic germ-line, regulation of translation, germ-line sex determination, 	intracellular, cellular_component, 	RNA binding, zinc ion binding, nucleic acid binding, 
rom-5	Y54E10A.14	RhOMboid (Drosophila) related family member (rom-5) [Source:RefSeq_peptide;Acc:NP_491125]		integral to membrane, 	
cdt-1	Y54E10A.15	CDT (S. pombe licensing factor) homolog family member (cdt-1) [Source:RefSeq_peptide;Acc:NP_001040707]	embryonic development ending in birth or egg hatching, 		
Y54E10A.3	Y54E10A.3	Y54E10A.3 [Source:RefSeq_peptide;Acc:NP_491127]	cell redox homeostasis, 		
cogc-1	Y54E10A.2	cogc-1 encodes an ortholog of mammalian COG-1/ldlBp (OMIM:606973, mutated in congenital disorder of glycosylation type II), a subunit of lobe A of the conserved oligomeric Golgi complex (COGC). COGC-1 is required for normal gonadal distal tip cell migration, a process that also requires COGC-3 and six other orthologs of COGC subunits. COGC-1 is also required for normal vulval morphology, growth rate, ventral nerve cord fasciculation, and adult locomotion. COGC-1 has a predicted coiled-coil N-terminal domain. COGC-1 co-precipitates with COGC-3, and the amount of COGC-1 is lowered in a cogc-3 mutant, implying that these proteins not only bind one another but stabilize one another in vivo. in cogc-1 mutants, MIG-23 is abnormally localized and expressed within cells. in cogc-1 mutants, MIG-23's substrate MIG-17 is underglycosylated and fails to bind to the gonadal basement membrane, but is still secreted normally from muscle cells. cogc-1, cogc-3, and mig-17 null mutants do not enhance one another, indicating a shared genetic pathway. like other lobe A subunits in both C. elegans and S. cerevisiae, COGC-1 is strongly required for normal function, while lobe B subunits are only partially required in either worms or yeast. [Source: WormBase]	biological_process, 		
Y54E10A.16	Y54E10A.16	Y54E10A.16a [Source:RefSeq_peptide;Acc:NP_491129]	oviposition, 		
Y44E3B.2	Y44E3B.2	Y44E3B.2 [Source:RefSeq_peptide;Acc:NP_491131]	metabolic process, 		oxidoreductase activity, 
zip-4	Y44E3B.1	bZIP transcription factor family member (zip-4) [Source:RefSeq_peptide;Acc:NP_491133]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
W01B11.3	W01B11.3	W01B11.3 [Source:RefSeq_peptide;Acc:NP_491134]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
pqn-72	W01B11.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
sulp-6	W01B11.2	sulp-6 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-6 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a sulp-6::GFP transcriptional fusion is expressed in the posterior intestine. [Source: WormBase]	transport, 	integral to membrane, 	transporter activity, 
W01B11.6	W01B11.6	W01B11.6a [Source:RefSeq_peptide;Acc:NP_491139]	cell redox homeostasis, 		
W01B11.1	W01B11.1	W01B11.1 [Source:RefSeq_peptide;Acc:NP_491140]			
ace-2	Y44E3A.2	An acetylcholineesterase involved in the termination of cholinergic nerve transmission. it is predominantly expressed in motoneurons. [Source: WormBase]	regulation of locomotion, synaptic transmission, cholinergic, 		cholinesterase activity, 
Y44E3A.3	Y44E3A.3	Y44E3A.3 [Source:RefSeq_peptide;Acc:NP_491142]	cell redox homeostasis, 		
Y44E3A.4	Y44E3A.4	Y44E3A.4 [Source:RefSeq_peptide;Acc:NP_491143]	regulation of transcription, DNA-dependent, homoiothermy, response to freezing, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, ice binding, 
Y44E3A.1	Y44E3A.1	Y44E3A.1a [Source:RefSeq_peptide;Acc:NP_491145]			
Y44E3A.6	Y44E3A.6	Y44E3A.6a [Source:RefSeq_peptide;Acc:NP_740827]	proteolysis, 		protein binding, serine-type endopeptidase activity, 
W05F2.7	W05F2.7	W05F2.7 [Source:RefSeq_peptide;Acc:NP_491147]			
W05F2.2	W05F2.2	W05F2.2 [Source:RefSeq_peptide;Acc:NP_001032982]			
W05F2.3	W05F2.3	W05F2.3 [Source:RefSeq_peptide;Acc:NP_491150]			
W05F2.6	W05F2.6	W05F2.6 [Source:RefSeq_peptide;Acc:NP_491151]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	nucleic acid binding, dopamine receptor activity, 
fbxa-203	W05F2.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
W05F2.4	W05F2.4	W05F2.4a [Source:RefSeq_peptide;Acc:NP_001032983]			
cdk-2	K03E5.3	Cyclin-Dependent Kinase family member (cdk-2) [Source:RefSeq_peptide;Acc:NP_001021537]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
K03E5.2	K03E5.2	K03E5.2a [Source:RefSeq_peptide;Acc:NP_001021535]			
K03E5.1	K03E5.1	K03E5.1 [Source:RefSeq_peptide;Acc:NP_491159]			
sep-1	Y47G6A.12	The sep-1 gene encodes a homolog of separase, a protease that splits segregating chromosomes at their centromeres during anaphase by proteolyzing the Scc1 subunit of cohesin. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, peptidase activity, 
tag-63	Y47G6A.28	Temporarily Assigned Gene name family member (tag-63) [Source:RefSeq_peptide;Acc:NP_491161]			
Y47G6A.13	Y47G6A.13	Y47G6A.13 [Source:RefSeq_peptide;Acc:NP_491162]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msh-6	Y47G6A.11	msh-6 is orthologous to the human gene MUTS (E. COLI) HOMOLOG 6 (MSH6. OMIM:600678), which when mutated leads to disease. [Source: WormBase]	DNA repair, mismatch repair, 		ATP binding, mismatched DNA binding, damaged DNA binding, 
Y47G6A.14	Y47G6A.14	Y47G6A.14 [Source:RefSeq_peptide;Acc:NP_491164]			protein binding, zinc ion binding, 
spg-7	Y47G6A.10	Y47G6A.10 [Source:RefSeq_peptide;Acc:NP_491165]	proteolysis, protein catabolic process, embryonic cleavage, 	membrane, integral to membrane, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, zinc ion binding, metalloendopeptidase activity, 
Y47G6A.15	Y47G6A.15	Y47G6A.15b [Source:RefSeq_peptide;Acc:NP_001021761]	reproduction, 		nucleotide binding, 
Y47G6A.9	Y47G6A.9	Y47G6A.9 [Source:RefSeq_peptide;Acc:NP_491167]			
crn-1	Y47G6A.8	Y47G6A.8 [Source:RefSeq_peptide;Acc:NP_491168]	DNA repair, embryonic development ending in birth or egg hatching, DNA fragmentation during apoptosis, 		DNA binding, 5'-3' exonuclease activity, nuclease activity, 
Y47G6A.17	Y47G6A.17	Y47G6A.17 [Source:RefSeq_peptide;Acc:NP_491170]	vesicle-mediated transport, 	membrane, 	protein binding, 
Y47G6A.7	Y47G6A.7	Y47G6A.7a [Source:RefSeq_peptide;Acc:NP_001021769]	metabolic process, 	intracellular, 	zinc ion binding, oxidoreductase activity, nucleic acid binding, 
Y47G6A.18	Y47G6A.18	Y47G6A.18 [Source:RefSeq_peptide;Acc:NP_491172]	locomotory behavior, 		
pcaf-1	Y47G6A.6	pcaf-1 encodes the sole C. elegans PCAF/GCN5-like histone acetyltransferase. [Source: WormBase]	metabolic process, 		N-acetyltransferase activity, 
Y47G6A.19	Y47G6A.19	Y47G6A.19 encodes, by alternative splicing, two isoforms of a putative metallocarboxypeptidase orthologous to human carboxypeptidase A and B precursors (CPA1-6 and CPB1-2). the larger Y47G6A.19 isoform contains a C-terminal metridin-like ShK toxin domain absent from the smaller one. Y47G6A.19 and its human orthologs, along with other proteins, comprise an M14A peptidase family. Y47G6A.19 is downregulated 2.5-fold in daf-2(c) dauer larvae. however, Y47G6A.19 has no obvious function in nondauer animals, since Y47G6A.19(RNAi) hermaphrodites are superficially normal. [Source: WormBase]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, carboxypeptidase activity, 
Y47G6A.30	Y47G6A.30	Y47G6A.30 [Source:RefSeq_peptide;Acc:NP_001021766]			
Y47G6A.5	Y47G6A.5	Y47G6A.5b [Source:RefSeq_peptide;Acc:NP_871806]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
rnp-6	Y47G6A.20	rnp-6 encodes an ortholog of HALF-PINT in D. melanogaster and FBP Interacting Repressor (FIR)/PUF60 in mammals, predicted to be involved in mRNA splicing regulation, mRNA localization, or transcriptional regulation via TFIIH. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, 		nucleotide binding, nucleic acid binding, monooxygenase activity, ice binding, 
Y47G6A.4	Y47G6A.4	Y47G6A.4 [Source:RefSeq_peptide;Acc:NP_491178]			
Y47G6A.21	Y47G6A.21	Y47G6A.21 [Source:RefSeq_peptide;Acc:NP_001021764]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
Y47G6A.27	Y47G6A.27	Y47G6A.27 [Source:RefSeq_peptide;Acc:NP_491179]	small GTPase mediated signal transduction, biological_process, 	intracellular, 	GTP binding, 
Y47G6A.22	Y47G6A.22	Y47G6A.22 [Source:RefSeq_peptide;Acc:NP_001021765]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
Y47G6A.33	Y47G6A.33	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8P5]			
lpd-3	Y47G6A.23	lpd-3 encodes a novel protein that is nevertheless conserved amongst humans, mice, and Drosophila. in C. elegans, LPD-3 activity is required for normal lipid metabolism, as animals that have reduced lpd-3 activity as a result of RNA-mediated gene interference (RNAi) lack lipid storage granules in the intestine and are paler and skinnier than wild-type animals. lpd-3 is expressed prominently in the intestine, the major site of fat storage. [Source: WormBase]			
Y47G6A.29	Y47G6A.29	Y47G6A.29 [Source:RefSeq_peptide;Acc:NP_740830]		proteinaceous extracellular matrix, 	
Y47G6A.3	Y47G6A.3	Y47G6A.3 [Source:RefSeq_peptide;Acc:NP_491183]			
Y47G6A.31	Y47G6A.31	Y47G6A.31 [Source:RefSeq_peptide;Acc:NP_001021767]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
mis-12	Y47G6A.24	mis-12 encodes the C. elegans homolog of human and Schizosaccharomyces pombe Mis12 protein. mis-12 activity is required for proper attachment of chromosomes to the mitotic spindle and thus, for embryonic development. MIS-12 localizes to the kinetochore throughout mitosis, and this localization requires the activity of KNL-3, a novel kinetochore component with which MIS-12 co-purifies as part of a large complex of interacting kinetochore proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y47G6A.25	Y47G6A.25	Y47G6A.25 [Source:RefSeq_peptide;Acc:NP_491185]			
inx-22	Y47G6A.2	INneXin family member (inx-22) [Source:RefSeq_peptide;Acc:NP_491186]		gap junction, 	
inx-21	Y47G6A.1	inx-21 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. as loss of INX-21 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of INX-21 in C. elegans development and/or behavior is not yet known. the INX-21 expression pattern has not been determined. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	gap junction, 	
Y47G6A.26	Y47G6A.26	Y47G6A.26 [Source:RefSeq_peptide;Acc:NP_491188]			
Y47G6A.32	Y47G6A.32	Y47G6A.32 [Source:RefSeq_peptide;Acc:NP_001021768]			
cah-6	T28F2.3	cah-6 encodes a predicted carbonic anhydrase. [Source: WormBase]	one-carbon compound metabolic process, 		zinc ion binding, carbonate dehydratase activity, 
T28F2.4	T28F2.4	T28F2.4a [Source:RefSeq_peptide;Acc:NP_001021644]			GTPase activator activity, growth factor activity, 
T28F2.2	T28F2.2	T28F2.2 [Source:RefSeq_peptide;Acc:NP_491191]	positive regulation of growth rate, 		
T28F2.t1	T28F2.t1				
T28F2.1	T28F2.1	T28F2.1 [Source:RefSeq_peptide;Acc:NP_491192]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
ccb-1	T28F2.5	ccb-1 encodes a homolog of the beta subunits of dihydropyridine sensitive L-type calcium channels that, in RNAi screens, is dispensable for viability or grossly normal morphology. a mutant allele of ccb-1 exists, but its phenotype has not yet been described. [Source: WormBase]	calcium ion transport, oviposition, 		voltage-gated calcium channel activity, 
col-50	T28F2.6	col-50 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, regulation of transcription, DNA-dependent, potassium ion transport, G-protein coupled receptor protein signaling pathway, homoiothermy, response to freezing, 	integral to membrane, cytoplasm, proteinaceous extracellular matrix, nucleus, extracellular region, voltage-gated potassium channel complex, 	DNA binding, structural constituent of cuticle, extracellular matrix structural constituent, ligand-dependent nuclear receptor activity, hormone activity, voltage-gated potassium channel activity, galanin receptor activity, ice binding, histamine receptor activity, 
col-51	T28F2.8	col-51 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, potassium ion transport, protein homooligomerization, 	membrane, integral to membrane, cytoplasm, 	calcium ion binding, structural constituent of cuticle, voltage-gated potassium channel activity, 
T28F2.7	T28F2.7	T28F2.7 [Source:RefSeq_peptide;Acc:NP_491196]	sodium ion transport, ATP synthesis coupled electron transport, 	membrane, 	sodium channel activity, NADH dehydrogenase (ubiquinone) activity, 
smp-2	D1037.2	SeMaPhorin related family member (smp-2) [Source:RefSeq_peptide;Acc:NP_491197]	multicellular organismal development, 		
ftn-2	D1037.3	ftn-2 encodes one of two C. elegans ferritin heavy chain homologs. loss of ftn-2 activity via deletion mutation results in slightly lower brood sizes and, under iron stress conditions, slightly faster growth from the L4 to adult stage of development, and slightly reduced lifespan. an ftn-2::gfp reporter fusion is expressed in diverse tissues, including the pharynx, intestine, and hypodermis, and its expression, along with that of ftn-2 mRNA, does not appear to change significantly under iron stress conditions. [Source: WormBase]	cellular iron ion homeostasis, 		protein binding, oxidoreductase activity, transition metal ion binding, ferric iron binding, identical protein binding, 
rab-8	D1037.4	rab-8 encodes a rab related protein of the Ras GTPase superfamily that affects ovarian morphology and function, thereby affecting fertility. acts downstream of let-60 with respect to vulval development based on genetic analysis. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
D1037.1	D1037.1	D1037.1 [Source:RefSeq_peptide;Acc:NP_491200]		intracellular, 	double-stranded RNA binding, nucleic acid binding, 
D1037.5	D1037.5	D1037.5 [Source:RefSeq_peptide;Acc:NP_491201]	lipid metabolic process, 		
msh-2	H26D21.2	The msh-2 gene encodes a DNA mismatch repair protein homolog that is orthologous to human MSH2 (OMIM:120435). mutation of the human MSH2 gene leads to hereditary non-polyposis colon cancer (OMIM:120436). [Source: WormBase]	DNA repair, mismatch repair, 		ATP binding, mismatched DNA binding, damaged DNA binding, 
hus-1	H26D21.1	hus-1 encodes the C. elegans ortholog of the Schizosaccharomyces pombe Hus1 DNA damage checkpoint protein. in C. elegans, hus-1 activity is required for DNA damage-induced cell cycle arrest and apoptosis, telomere maintenance, and hence, genome stability and development. specifically, hus-1 is required for the CEP-1/p53-dependent increase in germline egl-1 expression following irradiation. a HUS-1::GFP fusion protein is detected in the nuclei of mitotic and meiotic germ cells, mature oocytes, embryos, and somatic larval cells, particularly those that are proliferating. while HUS-1 localization is generally diffuse throughout these nuclei, following irradiation, HUS-1 localizes to discrete foci that overlap with chromatin. HUS-1 nuclear localization is dependent upon the Rad9 homologue HPR-9 and upon the checkpoint protein MRT-2, with which it interacts in yeast two-hybrid and in vitro assays. [Source: WormBase]	DNA damage response, signal transduction resulting in induction of apoptosis, 		protein binding, 
F21A9.2	F21A9.2	F21A9.2 [Source:RefSeq_peptide;Acc:NP_491204]		intracellular, 	zinc ion binding, nucleic acid binding, 
F21A9.1	F21A9.1	F21A9.1 [Source:RefSeq_peptide;Acc:NP_491205]			
lin-59	T12F5.4	Probable histone-lysine N-methyltransferase lin-59 (EC 2.1.1.43) (Abnormal cell lineage protein 59). [Source:Uniprot/SWISSPROT;Acc:O44757]	oviposition, 	nucleus, 	protein binding, zinc ion binding, DNA binding, 
glh-4	T12F5.3	glh-4 encodes a putative germline RNA helicase that affects germline proliferation, oogenesis, spermatogenesis, and hence fertility in combination with glh-1, and is partially redundant with glh-1. glh-4 is a constituent of P granules and expression is most abundant in newly fertilized embryos. [Source: WormBase]	regulation of cell proliferation, 		ATP binding, zinc ion binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
T12F5.2	T12F5.2	T12F5.2 [Source:RefSeq_peptide;Acc:NP_491208]			
larp-2	T12F5.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
T12F5.1	T12F5.1	T12F5.1 [Source:RefSeq_peptide;Acc:NP_491210]	embryonic development ending in birth or egg hatching, 		
math-46	Y8G1A.1	MATH (meprin-associated Traf homology) domain containing family member (math-46) [Source:RefSeq_peptide;Acc:NP_001040714]			
inx-13	Y8G1A.2	inx-13 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. INX-13 is essential for larval development and osmoregulation, and may be a component of the gap junctions that link the excretory and hypodermal cells. INX-13 is expressed embryonically in hypodermis and post-embryonically, in hypodermal seam cells, the excretory cell, and the developing vulva and spermatheca. in hypodermal cells, INX-13 localizes to the plasma membrane at points of contact between adjacent cells. [Source: WormBase]	morphogenesis of an epithelium, 	gap junction, 	
inx-12	ZK770.3	inx-12 (innexin=invertebrate connexin analogue) encodes a protein of the innexin family. innexins are gap junction proteins similar in function, though dissimilar in sequence to the vertebrate connexins. innexins are the only known gap junction proteins in invertebrates. inx-12 and inx-13 appear to be a tandom duplication. RNA interference of inx-12 results in an arrest at the L1 larval stage with fluid filled dead rods. this phenotype and sequence homology to Drosophila innexins suggest that INX-12 may be required to form gap junctions between the excretory canal and hypodermis, thus playing an essential role in osmoregulation. an INX-12::GFP fusion protein is expressed in the excretory canal. [Source: WormBase]	sodium ion transport, positive regulation of growth rate, gap junction assembly, 	membrane, gap junction, 	sodium:amino acid symporter activity, 
asic-1	ZK770.1	ZK770.1 [Source:RefSeq_peptide;Acc:NP_491214]	ion transport, sodium ion transport, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, 
C32E8.6	C32E8.6	C32E8.6a [Source:RefSeq_peptide;Acc:NP_740831]	metabolic process, 		catalytic activity, 
ric-19	C32E8.7	The ric-19 gene encodes an evolutionarily conserved cytosolic protein involved in neuroendocrine secretion via association with secretory vesicles. [Source: WormBase]	response to chemical stimulus, regulation of neurotransmitter secretion, 	cytoplasm, 	molecular_function, 
C32E8.5	C32E8.5	C32E8.5 [Source:RefSeq_peptide;Acc:NP_491217]	positive regulation of growth rate, 		
C32E8.4	C32E8.4	C32E8.4 [Source:RefSeq_peptide;Acc:NP_491218]			
C32E8.3	C32E8.3	TPPP family protein C32E8.3. [Source:Uniprot/SWISSPROT;Acc:P91127]	growth, 		
rpl-13	C32E8.2	rpl-13 encodes a large ribosomal subunit L13 protein. [Source: WormBase]	translation, nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, ribosome, nucleosome, 	DNA binding, structural constituent of ribosome, 
ptr-2	C32E8.8	ptr-2 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-2 is required for cytokinesis in somatic cells, but not in the germline (the converse of PTC-1's function). PTR-2 is partially required for normal molting from L4 to adult stages. PTR-2 is also required for normal male tail development, growth to full size, locomotion, and viability. [Source: WormBase]	positive regulation of growth rate, 	membrane, integral to membrane, 	hedgehog receptor activity, 
C32E8.9	C32E8.9	C32E8.9 [Source:RefSeq_peptide;Acc:NP_491222]	metabolic process, 		catalytic activity, 
C32E8.1	C32E8.1	C32E8.1 [Source:RefSeq_peptide;Acc:NP_491223]			protein binding, zinc ion binding, 
unc-11	C32E8.10	unc-11 encodes multiple isoforms of a clathrin-adaptor protein AP180 (OMIM:603025) that functions in clathrin-mediated endocytosis. UNC-11 is essential for embryogenesis, locomotion, and pharyngeal pumping, and regulates neurotransmitter release by controlling vesicle trafficking and fusion. UNC-11 is also required for localization of SNB-1/synaptobrevin to synaptic vesicles, thus acting as a sorting protein as well as a clathrin-adaptor protein. UNC-11 is expressed at high levels in nearly all neurons, where it is enriched at presynaptic terminals, and is also expressed in coelomocytes, the uv1 secretory cells of the vulva, and the intestine. [Source: WormBase]	embryonic development ending in birth or egg hatching, locomotion, receptor-mediated endocytosis, homoiothermy, response to freezing, 	coated pit, 	phospholipid binding, phosphatidylinositol binding, ice binding, 
C32E8.11	C32E8.11	C32E8.11 [Source:RefSeq_peptide;Acc:NP_491231]	ubiquitin cycle, 	intracellular, 	protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
npp-11	F53F10.5	Nuclear Pore complex Protein family member (npp-11) [Source:RefSeq_peptide;Acc:NP_491232]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, type I hypersensitivity, 	nucleus, 	protein binding, DNA binding, ligand-dependent nuclear receptor activity, structural constituent of nuclear pore, ice binding, 
NR_000052.1	F53F10.7	F53F10.7, miscRNA [Source:RefSeq_dna;Acc:NR_000052]			
unc-108	F53F10.4	unc-108 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. the precise biological role and expression pattern of unc-108 are not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, locomotory behavior, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
F53F10.3	F53F10.3	UPF0041 protein F53F10.3. [Source:Uniprot/SWISSPROT;Acc:O01578]			
F53F10.8	F53F10.8	F53F10.8 [Source:RefSeq_peptide;Acc:NP_001021488]			
NR_000060.1	F53F10.6	F53F10.6, miscRNA [Source:RefSeq_dna;Acc:NR_000060]			
F53F10.2	F53F10.2	F53F10.2b [Source:RefSeq_peptide;Acc:NP_740834]	polyamine biosynthetic process, 		protein binding, catalytic activity, 
F53F10.1	F53F10.1	F53F10.1 [Source:RefSeq_peptide;Acc:NP_491236]			
gsp-4	T03F1.5	yeast Glc Seven-like Phosphatases family member (gsp-4) [Source:RefSeq_peptide;Acc:NP_491237]			hydrolase activity, 
T03F1.6	T03F1.6	T03F1.6b [Source:RefSeq_peptide;Acc:NP_491238]			
T03F1.11	T03F1.11	T03F1.11 [Source:RefSeq_peptide;Acc:NP_491241]			calcium ion binding, 
T03F1.7	T03F1.7	Mitochondrial dimethyladenosine transferase 1, mitochondrial precursor (EC 2.1.1.-) (S-adenosylmethionine-6-N', N'-adenosyl(rRNA) dimethyltransferase 1) (Mitochondrial 12S rRNA dimethylase 1) (Mitochondrial transcription factor B1). [Source:Uniprot/SWISSPROT;Acc:P91424]	rRNA modification, 		rRNA (adenine-N6,N6-)-dimethyltransferase activity, rRNA methyltransferase activity, 
T03F1.8	T03F1.8	T03F1.8 [Source:RefSeq_peptide;Acc:NP_491243]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		ATP binding, nucleotide kinase activity, 
hcp-4	T03F1.9	The hcp-4 gene encodes a centromere protein (CENP)-C homolog, holocentric protein (HCP)-4. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
pgk-1	T03F1.3	T03F1.3 is orthologous to the human gene PHOSPHOGLYCERETE KINASE 1 (PGK1. OMIM:311800), which when mutated leads to hemolytic anemia and neurologic disturbances. [Source: WormBase]	glycolysis, phosphorylation, 		ATP binding, phosphoglycerate kinase activity, 
coq-4	T03F1.2	coq-4 encodes an ortholog of S. cerevisiae COQ4. while COQ-4 is conserved between eukaryotes and bacteria, its biochemical function is unknown. by orthology, COQ-4 is predicted to peripherally associate with the matrix face of the mitochondrial inner membrane, in a complex with COQ-3 (and perhaps COQ-6), and to be required to maintain a steady-state level of CLK-1/COQ-7 protein. COQ-4 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-4(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. [Source: WormBase]	determination of adult life span, 		
clec-53	T03F1.10	C-type LECtin family member (clec-53) [Source:RefSeq_peptide;Acc:NP_491247]	immune response, 		sugar binding, 
T03F1.1	T03F1.1	T03F1.1 [Source:RefSeq_peptide;Acc:NP_491248]	defense response, 		protein binding, cofactor binding, catalytic activity, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, 
T03F1.12	T03F1.12	T03F1.12 [Source:RefSeq_peptide;Acc:NP_001021606]			
C50F2.3	C50F2.3	C50F2.3 [Source:RefSeq_peptide;Acc:NP_491250]	RNA processing, positive regulation of growth rate, 	intracellular, 	
C50F2.2	C50F2.2	C50F2.2 [Source:RefSeq_peptide;Acc:NP_491251]	embryonic development ending in birth or egg hatching, 		
abf-2	C50F2.10	The abf-2 gene encodes an antimicrobial peptide that is homologous to antibacterial factor ASABF from Ascaris suum and closely related to ABF-1. [Source: WormBase]			
abf-1	C50F2.9	The abf-1 gene encodes a homolog of the antibacterial factor ASABF from Ascaris suum. it is closely related to abf-2. [Source: WormBase]			
C50F2.4	C50F2.4	C50F2.4 [Source:RefSeq_peptide;Acc:NP_491254]			
C50F2.1	C50F2.1	C50F2.1 [Source:RefSeq_peptide;Acc:NP_491255]			protein binding, 
C50F2.5	C50F2.5	C50F2.5 [Source:RefSeq_peptide;Acc:NP_491256]	protein amino acid dephosphorylation, 		protein binding, protein tyrosine phosphatase activity, 
fkb-5	C50F2.6	fkb-5 encodes a homolog of human FK506 binding protein 9. [Source: WormBase]	protein folding, 	endoplasmic reticulum, 	
C50F2.7	C50F2.7	C50F2.7 [Source:RefSeq_peptide;Acc:NP_491259]			
C50F2.8	C50F2.8	C50F2.8 [Source:RefSeq_peptide;Acc:NP_491260]			protein binding, 
pbs-4	T20F5.2	pbs-4 encodes a B-type subunit of the 26S proteasome's 20S protease core particle. by homology, PBS-4 is predicted to function in ATP/ubiquitin-dependent nonlysosomal protein degradation. loss of pbs-4 activity via RNAi indicates that, in C. elegans, PBS-4 is required for embryonic, germline, and larval development. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic cleavage, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
T20F5.3	T20F5.3	Uncharacterized protein T20F5.3. [Source:Uniprot/SWISSPROT;Acc:P91478]	translation, 		
T20F5.4	T20F5.4	T20F5.4 [Source:RefSeq_peptide;Acc:NP_491263]			protein binding, 
NR_002609.1	T20F5.1	T20F5.1, miscRNA [Source:RefSeq_dna;Acc:NR_002609]			
T20F5.5	T20F5.5	T20F5.5 [Source:RefSeq_peptide;Acc:NP_491265]			
T20F5.6	T20F5.6	T20F5.6 [Source:RefSeq_peptide;Acc:NP_491266]		intracellular, 	protein binding, zinc ion binding, 
T20F5.7	T20F5.7	T20F5.7 [Source:RefSeq_peptide;Acc:NP_491267]			protein binding, zinc ion binding, 
T21E3.2	T21E3.2	T21E3.2 [Source:RefSeq_peptide;Acc:NP_491268]			
T21E3.1	T21E3.1	T21E3.1 [Source:RefSeq_peptide;Acc:NP_491269]	protein amino acid dephosphorylation, dephosphorylation, reproduction, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
lrp-2	T21E3.3	Low-density lipoprotein Receptor Related family member (lrp-2) [Source:RefSeq_peptide;Acc:NP_491270]	cell migration, 	membrane, 	calcium ion binding, 
tag-162	F47B3.8	Temporarily Assigned Gene name family member (tag-162) [Source:RefSeq_peptide;Acc:NP_491271]		membrane, 	catalytic activity, calcium ion binding, 
F47B3.4	F47B3.4	F47B3.4 [Source:RefSeq_peptide;Acc:NP_491272]	cell adhesion, 	nucleus, chromatin, actin cytoskeleton, viral capsid, 	DNA binding, structural molecule activity, 
F47B3.5	F47B3.5	F47B3.5 [Source:RefSeq_peptide;Acc:NP_491273]			
F47B3.3	F47B3.3	F47B3.3 [Source:RefSeq_peptide;Acc:NP_491274]	biological_process, 	membrane, integral to membrane, 	molecular_function, 
F47B3.6	F47B3.6	F47B3.6 [Source:RefSeq_peptide;Acc:NP_491275]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F47B3.7	F47B3.7	F47B3.7 [Source:RefSeq_peptide;Acc:NP_491276]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F47B3.2	F47B3.2	F47B3.2 [Source:RefSeq_peptide;Acc:NP_491277]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F47B3.1	F47B3.1	F47B3.1 [Source:RefSeq_peptide;Acc:NP_491278]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F28H1.4	F28H1.4	F28H1.4a [Source:RefSeq_peptide;Acc:NP_001021426]		membrane, 	
F28H1.5	F28H1.5	F28H1.5 [Source:RefSeq_peptide;Acc:NP_491280]			
ars-2	F28H1.3	ars-2 encodes a predicted cytoplasmic alanyl-tRNA synthetase (AlaRS), a class II aminoacyl-tRNA synthetase that catalyzes the attachment of alanine to its cognate tRNA and is thus required for protein biosynthesis. ARS-2 is essential for embryogenesis, and is required for fertility and a normal rate of postembryonic development. ARS-2 expression is likely ubiquitous and detected in hypodermis, intestine, neurons, and the pharynx from late embryogenesis through the adult stage of development. [Source: WormBase]	translation, alanyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, alanine-tRNA ligase activity, 
cpn-3	F28H1.2	cpn-3 encodes a calponin homolog, most closely related to its paralog CPN-4 in C. elegans. CPN-3 is more similar to the calponin paralogs transgelin (SM22 alpha) or neuronal protein NP25 than to calponin per se. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F28H1.1	F28H1.1	F28H1.1 [Source:RefSeq_peptide;Acc:NP_491283]			
unc-73	F55C7.7	The unc-73 gene encodes a guanine nucleotide exchange factor (GNEF) similar to the Trio protein. UNC-73 is required for vulval morphogenesis, for the migration of QL, QR, and hypodermal P cells, the commisure outgrowth of D type motoneurons, and amphid axon outgrowth. UNC-73 has GNEF activity for both CED-10 and MIG-2 in vitro. the requirement for UNC-73 in P cell migration can be suppressed by transgenic overexpression of rho-1. UNC-73 activates several small GTPases: RHO-1 in P cell migration, and both CED-10 and MIG-2 in vulval morphogenesis, P cell migration, and axon outgrowth. [Source: WormBase]	intracellular signaling cascade, regulation of Rho protein signal transduction, embryonic development ending in birth or egg hatching, regulation of locomotion, regulation of vulval development, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
F55C7.2	F55C7.2	F55C7.2 [Source:RefSeq_peptide;Acc:NP_491288]			
unc-89	C09D1.1	unc-89 encodes several protein isoforms variably characterized by the presence or absence of SH3, DH, PH, immunoglobulin and myosin light chain kinase (MLCK)-like protein kinase domains. during development, unc-89 is required for proper organization of A bands in striated muscle and thus for fully normal locomotion, pharyngeal muscle contractions, and body size. unc-89 is expressed in body wall muscle, pharyngeal muscle and some cells in the tail. UNC-89 protein isoforms localize to the middle of A-bands. [Source: WormBase]	protein amino acid phosphorylation, carbohydrate metabolic process, regulation of Rho protein signal transduction, locomotory behavior, 	intracellular, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, Rho guanyl-nucleotide exchange factor activity, vascular endothelial growth factor receptor activity, 
C09D1.2	C09D1.2	C09D1.2 [Source:RefSeq_peptide;Acc:NP_491291]			sugar binding, 
C24G7.4	C24G7.4	C24G7.4 [Source:RefSeq_peptide;Acc:NP_491293]	sodium ion transport, 	membrane, 	sodium channel activity, 
C24G7.2	C24G7.2	C24G7.2 [Source:RefSeq_peptide;Acc:NP_491295]	sodium ion transport, 	membrane, 	sodium channel activity, 
C24G7.1	C24G7.1	C24G7.1 [Source:RefSeq_peptide;Acc:NP_491296]	sodium ion transport, 	membrane, 	sodium channel activity, 
cyb-2.2	H31G24.4	H31G24.4 [Source:RefSeq_peptide;Acc:NP_491297]	embryonic development ending in birth or egg hatching, oocyte maturation, 	nucleus, 	
H31G24.3	H31G24.3		embryonic development ending in birth or egg hatching, 		
H31G24.2	H31G24.2				
H31G24.1	H31G24.1	H31G24.1 [Source:RefSeq_peptide;Acc:NP_491299]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	transcription factor activity, rhodopsin-like receptor activity, 
lin-44	E01A2.3	lin-44 encodes one of five C. elegans Wnt signaling ligands. during development, LIN-44 activity is required non-cell-autonomously for polarity specification of asymmetric cell divisions of the B, U, and F cells in the male, and the T cell in males and hermaphrodites. in addition, LIN-44 functions redundantly with MOM-2 and CWN-2 to pattern the P7.p lineage during vulval development. lin-44 expression begins at the 1.5-fold stage of embryogenesis in the posterior hypodermal cells hyp10 and hyp11. during later embryonic stages additional expression in hyp8 and hyp9 is detected. reporter fusions and in situ hybridization studies also reveal weak and inconsistent expression in the anchor cell of the somatic gonad. [Source: WormBase]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	extracellular region, 	signal transducer activity, 
E01A2.4	E01A2.4	E01A2.4 [Source:RefSeq_peptide;Acc:NP_491301]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
E01A2.2	E01A2.2	Arsenite-resistance protein 2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q966L5]	oviposition, 		
E01A2.5	E01A2.5	E01A2.5 [Source:RefSeq_peptide;Acc:NP_491303]			
E01A2.6	E01A2.6	E01A2.6 [Source:RefSeq_peptide;Acc:NP_491304]	embryonic development ending in birth or egg hatching, 		
E01A2.1	E01A2.1	E01A2.1 [Source:RefSeq_peptide;Acc:NP_491305]			protein binding, oxidoreductase activity, 
E01A2.7	E01A2.7	The E01A2.7 gene encodes one of five paraoxonase-like proteins. it is homologous to the human genes PARAOXONASE 1 gene (PON1, OMIM:168820) and PARAOXONASE 2 (OMIM:602447), which in some allelic forms are associated with susceptibility to coronary artery disease or to variations in fasting plasma glucose. [Source: WormBase]			arylesterase activity, 
E01A2.8	E01A2.8	The E01A2.8 gene encodes one of five paraoxonase-like proteins. it is homologous to the human PARAOXONASE 1 gene (PON1, OMIM:168820), which in some allelic forms is associated with susceptibility to coronary artery disease. [Source: WormBase]			arylesterase activity, 
R12E2.15	R12E2.15	R12E2.15 [Source:RefSeq_peptide;Acc:NP_491308]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
R12E2.14	R12E2.14	R12E2.14 [Source:RefSeq_peptide;Acc:NP_491309]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
R12E2.6	R12E2.6	R12E2.6 [Source:RefSeq_peptide;Acc:NP_491310]			
R12E2.7	R12E2.7	R12E2.7 [Source:RefSeq_peptide;Acc:NP_491311]			
R12E2.8	R12E2.8	R12E2.8 [Source:RefSeq_peptide;Acc:NP_491312]			
inx-15	R12E2.9	INneXin family member (inx-15) [Source:RefSeq_peptide;Acc:NP_491313]		gap junction, 	
inx-16	R12E2.5	inx-16 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. as loss of INX-16 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of INX-16 in C. elegans development and/or behavior is not yet known. the INX-16 expression pattern has not been determined. [Source: WormBase]	positive regulation of growth rate, 	gap junction, 	
inx-17	R12E2.4	Innexin-17 (Protein opu-17) (Gap junction innexin). [Source:Uniprot/SWISSPROT;Acc:O61788]	biological_process, 	gap junction, 	
R12E2.10	R12E2.10	R12E2.10 [Source:RefSeq_peptide;Acc:NP_491316]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
NR_002608.1	R12E2.16	R12E2.16, snRNA [Source:RefSeq_dna;Acc:NR_002608]			
R12E2.11	R12E2.11	R12E2.11 [Source:RefSeq_peptide;Acc:NP_491317]	nucleoside metabolic process, pyrimidine nucleotide biosynthetic process, embryonic development ending in birth or egg hatching, 		transferase activity, orotate phosphoribosyltransferase activity, 
R12E2.12	R12E2.12	R12E2.12 [Source:RefSeq_peptide;Acc:NP_491318]	growth, 		structural constituent of ribosome, 
rpn-8	R12E2.3	proteasome Regulatory Particle, Non-ATPase-like family member (rpn-8) [Source:RefSeq_peptide;Acc:NP_491319]	embryonic cleavage, 		
NR_003385.1	R12E2.17	R12E2.17, snoRNA [Source:RefSeq_dna;Acc:NR_003385]			
R12E2.13	R12E2.13	R12E2.13 [Source:RefSeq_peptide;Acc:NP_491320]		membrane, 	
R12E2.2	R12E2.2	R12E2.2 [Source:RefSeq_peptide;Acc:NP_491321]	positive regulation of growth rate, 		
R12E2.1	R12E2.1	R12E2.1 [Source:RefSeq_peptide;Acc:NP_491322]			protein binding, 
ppw-1	C18E3.7	PAZ/PIWI domain-containing family member (ppw-1) [Source:RefSeq_peptide;Acc:NP_740835]	embryonic development ending in birth or egg hatching, 		
C18E3.6	C18E3.6	C18E3.6 [Source:RefSeq_peptide;Acc:NP_491324]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, regulation of adenylate cyclase activity, 	membrane, nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, adenylate cyclase binding, 
C18E3.5	C18E3.5	C18E3.5 [Source:RefSeq_peptide;Acc:NP_491325]	biological_process, 		
C18E3.4	C18E3.4	C18E3.4 [Source:RefSeq_peptide;Acc:NP_491326]			
C18E3.3	C18E3.3	C18E3.3 [Source:RefSeq_peptide;Acc:NP_491327]	embryonic development ending in birth or egg hatching, 		
hop-1	C18E3.8	Presenilin hop-1. [Source:Uniprot/SWISSPROT;Acc:O02100]	intracellular signaling cascade, embryonic development ending in birth or egg hatching, 	integral to membrane, 	
C18E3.2	C18E3.2	The C18E3.2 gene encodes a homolog of Swp73/BAF60, a component of the SWI/SNF complex that is conserved from yeast to mammals and that is involved in chromatin remodeling. C18E3.2 is probably required during mitosis of the T cells for asymmetric cell division. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	nucleus, 	
C18E3.1	C18E3.1	C18E3.1 [Source:RefSeq_peptide;Acc:NP_491330]			
C18E3.9	C18E3.9	C18E3.9 [Source:RefSeq_peptide;Acc:NP_491331]			
nab-1	C43E11.6	nab-1 encodes a PDZ and SAM domain-containing protein that is the sole C. elegans ortholog of the mammalian Neurabin/Spinophilin proteins. by homology, NAB-1 is predicted to interact with F-actin, ZYG-8/Doublecortin and the SAD-1 serine/threonine kinase to regulate interactions between the actin and microtubule networks during cell migration, growth cone guidance, and cell division. loss of nab-1 activity via RNAi has been reported to result in early embryonic lethality, dumpy and left-handed roller animals, as well as abnormalities in germ-line development and vulval morphogenesis. in large-scale screens, nab-1 RNAi did not result in any obvious abnormalities. NAB-1 translational reporter fusions show expression in hypodermal cells, neurons, and muscle. [Source: WormBase]			protein binding, 
C43E11.5	C43E11.5	C43E11.5 [Source:RefSeq_peptide;Acc:NP_491335]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
ndx-7	C43E11.7	ndx-7 encodes a NUDIX hydrolase. by sequence comparison, NDX-7 is predicted to function as a pyrophosphatase, and is most closely related to the mouse RP2 protein that has unknown substrate specificity but is regulated transcriptionally by the presence of androgens. in C. elegans, loss of ndx-7 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, consistent with the proposed nonessential roles for Nudix proteins in eliminating potentially toxic nucleotide metabolites from cells and modulating levels of metabolic intermediates by shuttling them into alternative biochemical pathways. [Source: WormBase]			hydrolase activity, 
exoc-7	C43E11.8	EXOCyst component family member (exoc-7) [Source:RefSeq_peptide;Acc:NP_491337]	signal transduction, exocytosis, 	intracellular, exocyst, 	
tufm-2	C43E11.4	TU elongation Factor (EF-Tu), Mitochondrial family member (tufm-2) [Source:RefSeq_peptide;Acc:NP_491338]	biological_process, 		GTP binding, GTPase activity, 
C43E11.11	C43E11.11	C43E11.11 [Source:RefSeq_peptide;Acc:NP_491339]	positive regulation of growth rate, 		
C43E11.12	C43E11.12	C43E11.12a [Source:RefSeq_peptide;Acc:NP_001040642]			
met-1	C43E11.3	C43E11.3 is orthologous to human NUCLEAR RECEPTOR-BINDING Su-var, ENHANCER OF ZESTE, AND TRITHORAX DOMAIN PROTEIN 1 (NSD1. OMIM:606681), which when mutated leads to sporadic Sotos syndrome (OMIM:117550). [Source: WormBase]		nucleus, 	protein binding, 
mus-81	C43E11.2	MUS (Drosophila mutagen sensitive) related family member (mus-81) [Source:RefSeq_peptide;Acc:NP_491341]	DNA metabolic process, 	intracellular, nucleus, 	protein binding, DNA binding, sequence-specific DNA binding, nuclease activity, 
C43E11.9	C43E11.9	C43E11.9 [Source:RefSeq_peptide;Acc:NP_491342]	positive regulation of growth rate, 		RNA binding, 
cdc-6	C43E11.10	cdc-6 encodes a homolog of an origin complex component (CDC6) which in yeast controls the start of DNA replication, and also has a distant paralog (Y39A1A.12) within the C. elegans genome. CDC-6 is superficially dispensable for embryonic viability, perhaps because of redundancy with Y39A1A.12. [Source: WormBase]	small GTPase mediated signal transduction, microtubule-based movement, defense response, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, GTP binding, microtubule motor activity, 
cogc-5	C43E11.1	cogc-5 encodes an ortholog of mammalian COG-5, a subunit of lobe B of the conserved oligomeric Golgi complex (COGC). COGC-5 is also orthologous to Drosophila FOUR WAY STOP (required for fly spermatogenesis). COGC-5 is weakly required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe B subunits in both C. elegans and S. cerevisiae, COGC-5 is only partially required for normal function, while lobe A subunits are strongly required in either worms or yeast. [Source: WormBase]	regulation of cell migration, embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
Y47D9A.4	Y47D9A.4	Y47D9A.4 [Source:RefSeq_peptide;Acc:NP_491345]			
Y47D9A.3	Y47D9A.3	Y47D9A.3 [Source:RefSeq_peptide;Acc:NP_491346]			
Y47D9A.5	Y47D9A.5	Y47D9A.5 [Source:RefSeq_peptide;Acc:NP_491347]			
scpl-3	Y47D9A.2	scpl-3 encodes, by alternative splicing, two protein isoforms of a putative protein phosphatase, orthologous to budding yeast PSR1 and PSR2 and human CTDSPL2, and paralogous to C. elegans SCPL-1 and human CTDSP1 (OMIM:605323), CTDSP2 (OMIM:608711, amplified in sarcoma), and CTDSPL (OMIM:608592, deleted in epithelial cancer). more distantly, SCPL-3 (and its paralog SCPL-1) are similar to SCPL-2, SCPL-4, and FCP-1. by homology, SCPL-3 is expected to mediate transcriptional activation or repression. [Source: WormBase]			phosphoric monoester hydrolase activity, 
Y47D9A.1	Y47D9A.1	Y47D9A.1a [Source:RefSeq_peptide;Acc:NP_491349]	biosynthetic process, 		acyltransferase activity, nucleotidyltransferase activity, 
anc-1	ZK973.6	anc-1 encodes a 8546-residue protein, orthologous to Drosophila Msp-300 and mammalian SYNE1 and SYNE2 proteins, which may extend more than 0.5 micrometers in vivo. ANC-1 has coiled regions, a nuclear envelope localization domain (the KASH domain) and an actin-binding domain. ANC-1 affects the positioning of nuclei and mitochondria within the cytoskeleton. ANC-1 is expressed in the cytoplasm, but localized to the nuclear periphery in an UNC-84-dependent manner. [Source: WormBase]	signal transduction, apoptosis, chemotaxis, biological_process, localization, 	membrane, integral to membrane, 	protein binding, signal transducer activity, actin binding, 
acr-6	ZK973.5	AcetylCholine Receptor family member (acr-6) [Source:RefSeq_peptide;Acc:NP_491354]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
ZK973.4	ZK973.4	ZK973.4 [Source:RefSeq_peptide;Acc:NP_491355]			
ZK973.8	ZK973.8	ZK973.8 [Source:RefSeq_peptide;Acc:NP_491356]			
ZK973.3	ZK973.3	ZK973.3 [Source:RefSeq_peptide;Acc:NP_491357]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
ZK973.9	ZK973.9	ZK973.9 [Source:RefSeq_peptide;Acc:NP_491358]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
lpd-5	ZK973.10	lpd-5 is orthologous to the human gene NADH DEHYDROGENASE (UBIQUINONE) FE-S PROTEIN 4 (18KD) (NADH-COENZYME Q REDUCTASE) (NDUFS4. OMIM:602694), which when mutated leads to NADH:ubiquinone oxidoreductase (complex I) deficiency. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, sequestering of lipid, 		oxidoreductase activity, acting on NADH or NADPH, 
ZK973.2	ZK973.2	ZK973.2 [Source:RefSeq_peptide;Acc:NP_491360]	chromatin assembly or disassembly, 	nucleus, chromatin, 	chromatin binding, 
ZK973.11	ZK973.11	ZK973.11 [Source:RefSeq_peptide;Acc:NP_491361]	cell redox homeostasis, embryonic development ending in birth or egg hatching, 		
ZK973.1	ZK973.1	ZK973.1 [Source:RefSeq_peptide;Acc:NP_491362]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		RNA binding, sequence-specific DNA binding, hydrolase activity, acting on ester bonds, 
dhc-1	T21E12.4	dhc-1 encodes a cytoplasmic dynein heavy chain homolog required in one-cell embryos for pronuclear migration, centrosome separation, centrosome proximity to the male pronucleus, and mitotic spindle orientation, suggesting that DHC-1 helps position the microtubule organizing center. DHC-1 genetically interacts with SPD-5, a coiled-coil centrosomal protein. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	dynein complex, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, microtubule motor activity, 
T21E12.3	T21E12.3	T21E12.3 [Source:RefSeq_peptide;Acc:NP_491364]			
T21E12.2	T21E12.2	T21E12.2 [Source:RefSeq_peptide;Acc:NP_491365]			phosphopantetheine binding, 
T21E12.5	T21E12.5	T21E12.5 [Source:RefSeq_peptide;Acc:NP_491366]			
C11D9.1	C11D9.1	C11D9.1 [Source:RefSeq_peptide;Acc:NP_491367]	regulation of Rho protein signal transduction, 	intracellular, 	protein binding, Rho guanyl-nucleotide exchange factor activity, 
C41D11.3	C41D11.3	C41D11.3 [Source:RefSeq_peptide;Acc:NP_491368]			
C41D11.4	C41D11.4	C41D11.4 [Source:RefSeq_peptide;Acc:NP_491369]			
eif-3.H	C41D11.2	Eukaryotic Initiation Factor family member (eif-3.H) [Source:RefSeq_peptide;Acc:NP_491370]	positive regulation of growth rate, 		
cps-6	C41D11.8	cps-6 encodes an ortholog of human mitochondrial endonuclease G (EndoG) that promotes apoptosis, and is required to degrade nicked (TUNEL-positive) DNA in apoptotic cells. transgenic CPS-6 is localized to mitochondria, but transgenic CPS-6 lacking a mitochondrial localization sequence is found in nuclei, and nuclei may be the in vivo target of CPS-6 after its activation by CED-3. CPS-6 has magnesium-dependent nuclease activity in vitro. cps-6(sm116) and cps-6(RNAi) animals have delayed CED-3-induced apoptosis, and cps-6(sm116) suppresses a constitutively active ced-3 transgene. cps-6(sm116) can be transgenically rescued by mouse EndoG. CPS-6 binds WAH-1 (an apoptosis-inducing factor ortholog) in vitro, WAH-1 binding enhances CPS-6's endonuclease activity, and constitutive transgenic coexpression of cps-6 with wah-1 induces cell death not seen with constitutive expression of either cps-6 or wah-1 alone. CPS-6 binds CRN-1 (a flap endonuclease ortholog) in vitro, and may form a large complex in vivo with CRN-1, CRN-4, CRN-5, CYP-13, and WAH-1. CRN-1 enhances CPS-6's endonuclease activity in vitro, CPS-6 enhances CRN-1's gap-dependent endonuclease and 5'-3' exonuclease activities, and cps-6 is required for excess cell deaths induced by a crn-1 transgene. [Source: WormBase]	apoptosis, cell death, 		protein binding, nucleic acid binding, endonuclease activity, 
C41D11.9	C41D11.9	C41D11.9 encodes an ortholog of Drosophila ALMONDEX, and thus may participate in GLP-1/LIN-12 signalling. [Source: WormBase]			
C41D11.5	C41D11.5	Uncharacterized protein C41D11.5. [Source:Uniprot/SWISSPROT;Acc:O01975]			
C41D11.7	C41D11.7	C41D11.7 [Source:RefSeq_peptide;Acc:NP_491374]	reproduction, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, ATP-dependent helicase activity, 
C41D11.1	C41D11.1	C41D11.1 [Source:RefSeq_peptide;Acc:NP_491375]	reproduction, 		
C41D11.6	C41D11.6	C41D11.6 [Source:RefSeq_peptide;Acc:NP_491376]			
T01A4.3	T01A4.3	T01A4.3 [Source:RefSeq_peptide;Acc:NP_491377]			
T01A4.2	T01A4.2	T01A4.2 [Source:RefSeq_peptide;Acc:NP_491378]			
gcy-28	T01A4.1	Guanylyl CYclase family member (gcy-28) [Source:RefSeq_peptide;Acc:NP_001021600]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
Y119C1B.4	Y119C1B.4	Probable 39S ribosomal protein L19, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q95Y83]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y119C1B.5	Y119C1B.5	Y119C1B.5 [Source:RefSeq_peptide;Acc:NP_491382]			protein binding, zinc ion binding, 
Y119C1B.6	Y119C1B.6	Y119C1B.6 [Source:RefSeq_peptide;Acc:NP_491383]			
Y119C1B.12	Y119C1B.12	Y119C1B.12 [Source:RefSeq_peptide;Acc:NP_001040699]			
tag-332	Y119C1B.8	Temporarily Assigned Gene name family member (tag-332) [Source:RefSeq_peptide;Acc:NP_491384]	biological_process, 		protein binding, 
Y119C1B.9	Y119C1B.9	Y119C1B.9 [Source:RefSeq_peptide;Acc:NP_491385]			
Y119C1B.3	Y119C1B.3	Y119C1B.3 [Source:RefSeq_peptide;Acc:NP_491386]			
Y119C1B.11	Y119C1B.11	Y119C1B.11 [Source:RefSeq_peptide;Acc:NP_001021720]			
Y119C1B.1	Y119C1B.1	Y119C1B.1 [Source:RefSeq_peptide;Acc:NP_491388]			
Y119C1B.10	Y119C1B.10	Y119C1B.10 [Source:RefSeq_peptide;Acc:NP_491389]			
D1007.15	D1007.15	D1007.15 [Source:RefSeq_peptide;Acc:NP_491390]			
pqn-24	D1007.14	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
D1007.13	D1007.13	D1007.13b [Source:RefSeq_peptide;Acc:NP_001076600]			
ceh-17	D1007.1	ceh-17 encodes a phox-2-like homeodomain protein that is a member of the Q50 paired-like class of homeobox proteins and the vertebrate orthologue of Phox2a and Phox2b. that affects ALA and SIA axonal development. ceh-17 affects ALA and SIA antero-posterior axonal growth and navigation, and is expressed in five neurons of the ring ganglia (ALA and the 4 SIAs) with strongest expression in embryos and in L1 stage larvae. [Source: WormBase]	regulation of transcription, DNA-dependent, axon guidance, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
col-52	D1007.2	COLlagen family member (col-52) [Source:RefSeq_peptide;Acc:NP_491394]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	
D1007.3	D1007.3	D1007.3 [Source:RefSeq_peptide;Acc:NP_491395]			
D1007.18	D1007.18	D1007.18 [Source:RefSeq_peptide;Acc:NP_001021070]			
D1007.4	D1007.4	D1007.4 [Source:RefSeq_peptide;Acc:NP_491396]			
D1007.5	D1007.5	D1007.5a [Source:RefSeq_peptide;Acc:NP_001021071]	positive regulation of growth rate, 		
rps-10	D1007.6	rps-10 encodes a small ribosomal subunit S10 protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
rpl-24.1	D1007.12	rpl-24.1 encodes a large ribosomal subunit L24 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_003379.1	D1007.20	D1007.20, snoRNA [Source:RefSeq_dna;Acc:NR_003379]			
D1007.10	D1007.10	D1007.10b [Source:RefSeq_peptide;Acc:NP_001021068]			
D1007.19	D1007.19	D1007.19 [Source:RefSeq_peptide;Acc:NP_001076601]			
D1007.9	D1007.9	D1007.9 [Source:RefSeq_peptide;Acc:NP_491402]			
D1007.7	D1007.7	D1007.7 [Source:RefSeq_peptide;Acc:NP_491403]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
D1007.16	D1007.16	D1007.16 [Source:RefSeq_peptide;Acc:NP_491404]			
D1007.8	D1007.8	D1007.8 [Source:RefSeq_peptide;Acc:NP_491405]			
C44E4.5	C44E4.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A6PVA1]			
C44E4.8	C44E4.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A6PVA2]			
C44E4.1	C44E4.1	C44E4.1a [Source:RefSeq_peptide;Acc:NP_491407]	DNA replication, 		
C44E4.7	C44E4.7	C44E4.7 [Source:RefSeq_peptide;Acc:NP_491409]	ubiquitin cycle, 		zinc ion binding, ubiquitin-protein ligase activity, 
C44E4.2	C44E4.2	C44E4.2 [Source:RefSeq_peptide;Acc:NP_491410]			
C44E4.4	C44E4.4	C44E4.4 [Source:RefSeq_peptide;Acc:NP_491411]	RNA processing, positive regulation of growth rate, 	nucleus, ribonucleoprotein complex, 	nucleotide binding, RNA binding, nucleic acid binding, 
acbp-1	C44E4.6	acbp-1 encodes an Acyl-CoA-binding protein. loss of acbp-1 activity via RNAi results in reduced fat content indicating that ACBP-1 plays a role in lipid metabolism. [Source: WormBase]			acyl-CoA binding, 
B0041.5	B0041.5	B0041.5 [Source:RefSeq_peptide;Acc:NP_491418]			
C44E4.3	C44E4.3	C44E4.3 [Source:RefSeq_peptide;Acc:NP_491413]	amino acid metabolic process, biosynthetic process, 		catalytic activity, pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, 
Y119C1A.1	Y119C1A.1	Y119C1A.1 [Source:RefSeq_peptide;Acc:NP_491414]	methylation, 	intracellular, 	protein binding, zinc ion binding, methyltransferase activity, nucleic acid binding, 
B0041.3	B0041.3	B0041.3 [Source:RefSeq_peptide;Acc:NP_491415]	cell wall catabolic process, 		
rpl-4	B0041.4	rpl-4 encodes a large ribosomal subunit L4 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
NR_003378.1	B0041.9	B0041.9, snoRNA [Source:RefSeq_dna;Acc:NR_003378]			
B0041.8	B0041.8	B0041.8 [Source:RefSeq_peptide;Acc:NP_491417]			
ptps-1	B0041.6	B0041.6 is orthologous to the human gene 6-PYRUVOYLTETRAHYDROPTERIN SYNTHASE (PTS. OMIM:261640), which when mutated leads to disease. [Source: WormBase]	tetrahydrobiopterin biosynthetic process, 		6-pyruvoyltetrahydropterin synthase activity, identical protein binding, 
B0041.2	B0041.2	B0041.2 encodes, by alternative splicing, three isoforms of an unfamiliar protein paralogous to AIN-1, and homologous to Brugia malayi 14748.m00068, 14052.m00191, and 14963.m01790. B0041.2 protein binds GEI-4 and GEI-16 in yeast two-hybrid experiments. B0041.2 and its nematode homologs have weak similarity to human TNRC6A (GW182. OMIM:610739) and Drosophila GAWKY. B0041.2 has no obvious function in mass RNAi assays. [Source: WormBase]			protein binding, 
B0041.1	B0041.1	B0041.1 [Source:RefSeq_peptide;Acc:NP_491422]			
xnp-1	B0041.7	xnp-1 encodes an ATP-dependent DNA helicase of the SNF2 family that is orthologous to human XNP/ATR-X, which is associated with a number of X-linked mental retardation syndromes. in C. elegans, xnp-1 activity is required at high temperatures for embryogenesis, somatic gonad development, fertility, and vulval morphogenesis. in addition, animals doubly mutant for xnp-1 and lin-35/Rb, hpl-2/HP1, or nucleosome remodelling and histone deacetylase (NuRD) complex members such as lin-53 and let-418, display larval arrest with growth cessation but continued cell proliferation. xnp-1 is also required, with lin-35/Rb and hpl-2/HP1, for proper regulation of transgene expression. xnp-1 mRNA, detectable in embryos and the germline by in situ hybridization, is expressed at highest levels in embryos with decreasing levels seen in successive larval stages. xnp-1 transcriptional reporter fusions exhibit strong expression beginning at mid-embryogenesis but fading by embryonic morphogenesis. at hatching, expression is observed in all dividing cells including the P lineage, and at later larval stages expression is observed in the vulval precursor cells. [Source: WormBase]	actin cytoskeleton organization and biogenesis, nucleosome assembly, reproduction, 	nucleus, actin cytoskeleton, nucleosome, 	ATP binding, DNA binding, nucleic acid binding, actin binding, helicase activity, 
unc-57	T04D1.3	unc-57 encodes an ortholog of endophilin A that is required for synaptic vesicle endocytosis. UNC-57 is expressed in all neurons, at synapses and neuromuscular junctions, and (weakly) in the spermetheca. like other endophilins, UNC-57 has a large BAR domain, an N-terminal coiled-coil domain within the BAR domain, and a C-terminal SH3 domain. UNC-57 protein is necessary for proper localization of UNC-26 (synaptojanin) protein, which in turn is needed for endocytosis. unc-57 and unc-26 mutants are morphologically, ultrastructurally, and electrophysiologically similar both to one another and to double mutants, indicating that UNC-57 and UNC-26 act in a single genetic pathway. [Source: WormBase]		cytoplasm, 	protein binding, 
T04D1.2	T04D1.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
tag-192	T04D1.4	T04D1.4 [Source:RefSeq_peptide;Acc:NP_491426]	chromatin assembly or disassembly, homoiothermy, response to freezing, 	nucleus, chromatin, 	ATP binding, DNA binding, nucleic acid binding, helicase activity, chromatin binding, ice binding, 
W09C3.4	W09C3.4	Probable DNA-directed RNA polymerase III subunit RPC6 (RNA polymerase III subunit C6) (DNA-directed RNA polymerase III subunit F). [Source:Uniprot/SWISSPROT;Acc:P91529]	transcription, reproduction, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
W09C3.3	W09C3.3	W09C3.3 [Source:RefSeq_peptide;Acc:NP_491428]			
gsp-3	W09C3.6	yeast Glc Seven-like Phosphatases family member (gsp-3) [Source:RefSeq_peptide;Acc:NP_491429]	reproduction, 		hydrolase activity, 
W09C3.2	W09C3.2	W09C3.2 [Source:RefSeq_peptide;Acc:NP_491430]			
W09C3.7	W09C3.7	W09C3.7 [Source:RefSeq_peptide;Acc:NP_491431]	electron transport, 		iron ion binding, heme binding, electron carrier activity, 
W09C3.8	W09C3.8	W09C3.8 [Source:RefSeq_peptide;Acc:NP_491432]			
W09C3.1	W09C3.1	W09C3.1 [Source:RefSeq_peptide;Acc:NP_491433]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C10H11.7	C10H11.7	C10H11.7 [Source:RefSeq_peptide;Acc:NP_491434]			structural molecule activity, 
ugt-26	C10H11.6	UDP-GlucuronosylTransferase family member (ugt-26) [Source:RefSeq_peptide;Acc:NP_491435]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-27	C10H11.5	UDP-GlucuronosylTransferase family member (ugt-27) [Source:RefSeq_peptide;Acc:NP_491436]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-28	C10H11.4	UDP-GlucuronosylTransferase family member (ugt-28) [Source:RefSeq_peptide;Acc:NP_491437]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-25	C10H11.3	UDP-GlucuronosylTransferase family member (ugt-25) [Source:RefSeq_peptide;Acc:NP_491438]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C10H11.8	C10H11.8	C10H11.8 [Source:RefSeq_peptide;Acc:NP_491439]	positive regulation of growth rate, 		
let-502	C10H11.9	let-502 encodes a Rho-binding Ser/Thr kinase orthologous to human myotonic dystrophy kinase (DM-kinase). let-502 is required for early embryonic cleavages, embryonic elongation, migration of hypodermal P cells to a ventral position, normal spermathecal contraction, and fertility. LET-502 is required for hypodermal cells to properly change their shape, and is expressed in those cells, during embryonic elongation. let-502 mutations are suppressed by mel-11 mutations, and the pattern of LET-502 expression in the embryonic epidermis and the spermatheca is opposite to that of MEL-11, indicating that LET-502 and MEL-11 have opposing functions (presumably tissue contraction and relaxation). MEL-11 requires LET-502 (along with the nonmuscle myosin NMY-1) for proper localization. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, Rho protein signal transduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C10H11.1	C10H11.1	C10H11.1 [Source:RefSeq_peptide;Acc:NP_491442]	cytoskeleton organization and biogenesis, chromosome segregation, 		actin binding, 
kca-1	C10H11.10	Kinesin Cargo Adaptor family member (kca-1) [Source:RefSeq_peptide;Acc:NP_491443]	negative regulation of multicellular organism growth, 		protein binding, 
M04F3.6	M04F3.6		negative regulation of multicellular organism growth, 		
M04F3.3	M04F3.3	M04F3.3 [Source:RefSeq_peptide;Acc:NP_491444]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
M04F3.2	M04F3.2	M04F3.2 [Source:RefSeq_peptide;Acc:NP_491445]			
rpa-2	M04F3.1	M04F3.1 [Source:RefSeq_peptide;Acc:NP_491446]	embryonic development ending in birth or egg hatching, 		protein binding, nucleic acid binding, 
M04F3.4	M04F3.4	M04F3.4 [Source:RefSeq_peptide;Acc:NP_491447]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
M04F3.5	M04F3.5	M04F3.5 [Source:RefSeq_peptide;Acc:NP_491448]	signal transduction, nervous system development, filopodium formation, 		
zig-7	F54D7.4	2 (Zwei) IG-domain protein family member (zig-7) [Source:RefSeq_peptide;Acc:NP_491451]			
F54D7.3	F54D7.3	F54D7.3 is orthologous to the human gene GONADOTROPIN RELEASING HORMONE RECEPTOR (GNRHR. OMIM:138850), which when mutated leads to disease. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, vasopressin receptor activity, 
F54D7.2	F54D7.2	F54D7.2 [Source:RefSeq_peptide;Acc:NP_491454]	phospholipid biosynthetic process, growth, 	membrane, 	phosphotransferase activity, for other substituted phosphate groups, 
F57C9.6	F57C9.6	F57C9.6 [Source:RefSeq_peptide;Acc:NP_491456]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F57C9.7	F57C9.7	F57C9.7 [Source:RefSeq_peptide;Acc:NP_491457]			
htp-3	F57C9.5	Him-Three Paralog family member (htp-3) [Source:RefSeq_peptide;Acc:NP_491458]	mitosis, chromosome segregation, 		
F57C9.4	F57C9.4	F57C9.4b [Source:RefSeq_peptide;Acc:NP_491459]	DNA repair, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
F57C9.3	F57C9.3	F57C9.3 [Source:RefSeq_peptide;Acc:NP_491461]			
F57C9.2	F57C9.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O01823]			sugar binding, 
F57C9.1	F57C9.1	Putative pyridoxal kinase (EC 2.7.1.35) (Pyridoxine kinase). [Source:Uniprot/SWISSPROT;Acc:O01824]	D-ribose metabolic process, pyridoxine biosynthetic process, 		ribokinase activity, pyridoxal kinase activity, 
C01F4.2	C01F4.2	C01F4.2a [Source:RefSeq_peptide;Acc:NP_491465]	signal transduction, positive regulation of growth rate, 	intracellular, 	
F25F8.1	F25F8.1	F25F8.1 [Source:RefSeq_peptide;Acc:NP_491469]			
glc-2	F25F8.2	glc-2 encodes the beta subunit of a glutamate-gated chloride channel. in vivo, GLC-2 is capable of forming homomeric glutamate-activated channels, as well as heteromeric channels with GLC-1 that can be activated by glutamate and avermectins, antihelmintics that inhibit pharyngeal pumping. as loss of glc-2 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GLC-2 in development and/or behavior is not yet known. however, GLC-2 expression is generally restricted to the pm4 pharyngeal muscles of larvae and adults, suggesting a role for GLC-2 in regulation of glutamatergic inhibition of pharyngeal pumping. [Source: WormBase]	transport, ion transport, chloride transport, G-protein coupled receptor protein signaling pathway, gamma-aminobutyric acid signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, protein-hormone receptor activity, 
F21F3.4	F21F3.4	F21F3.4 [Source:RefSeq_peptide;Acc:NP_491471]			
unc-38	F21F3.5	unc-38 encodes a nicotinic acetylcholine receptor (nAChR) alpha subunit. UNC-38 is required for normal locomotion and egg-laying, and functions as a subunit of a ligand-gated ion channel that likely mediates fast actions of acetylcholine at neuromuscular junctions and in the nervous system. when coexpressed with ACR-2, ACR-3, UNC-29, and LEV-1, non-alpha nAChR subunits, the resulting multimer can form levamisole-gated channels. UNC-38 is expressed postsynaptically in muscles and neurons where it colocalizes with TAX-6, and with ACR-8, ACR-12, and UNC-29, respectively. [Source: WormBase]	transport, ion transport, locomotion, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F21F3.3	F21F3.3	F21F3.3 [Source:RefSeq_peptide;Acc:NP_491473]	response to antibiotic, tetracycline transport, C-terminal protein amino acid methylation, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, protein-S-isoprenylcysteine O-methyltransferase activity, 
F21F3.2	F21F3.2	F21F3.2 [Source:RefSeq_peptide;Acc:NP_491474]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F21F3.1	F21F3.1	Probable peptidyl-alpha-hydroxyglycine alpha-amidating lyase F21F3.1 precursor (EC 4.3.2.5) (Probable peptidylamidoglycolate lyase) (PAL). [Source:Uniprot/SWISSPROT;Acc:P91268]	peptide metabolic process, 	membrane, 	catalytic activity, copper ion binding, peptidylglycine monooxygenase activity, 
F21F3.6	F21F3.6	F21F3.6 [Source:RefSeq_peptide;Acc:NP_491476]			
F21F3.7	F21F3.7	F21F3.7 [Source:RefSeq_peptide;Acc:NP_001021401]			
imb-1	F28B3.8	IMportin Beta family member (imb-1) [Source:RefSeq_peptide;Acc:NP_491477]	intracellular protein transport, protein import into nucleus, docking, embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, binding, 
F28B3.5	F28B3.5	F28B3.5a [Source:RefSeq_peptide;Acc:NP_491478]	determination of adult life span, 		transporter activity, 
acl-11	F28B3.9	ACyLtransferase-like family member (acl-11) [Source:RefSeq_peptide;Acc:NP_491479]	metabolic process, 		acyltransferase activity, 
F28B3.4	F28B3.4	F28B3.4 [Source:RefSeq_peptide;Acc:NP_491480]		nucleus, 	transcription factor binding, 
F28B3.3	F28B3.3	F28B3.3 [Source:RefSeq_peptide;Acc:NP_491481]			
F28B3.1	F28B3.1	F28B3.1 [Source:RefSeq_peptide;Acc:NP_491483]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, cysteine protease inhibitor activity, 
F28B3.10	F28B3.10	F28B3.10 [Source:RefSeq_peptide;Acc:NP_491484]			
F28B3.6	F28B3.6	F28B3.6 [Source:RefSeq_peptide;Acc:NP_001021423]			
him-1	F28B3.7	him-1 encodes a homolog of the conserved eukaryotic protein, SMC1, a member of the SMC (structural maintenance of chromosomes) superfamily that is required for embryonic viability, germline mitosis, chromosome pairing, and the segregation of mitotic chromosomes. HIM-1 can interact with SMC-3 and is required for DPY-28 localization to meiotic chromosomes. associates with the chromatin of transition-zone nuclei. [Source: WormBase]	DNA metabolic process, chromosome organization and biogenesis, embryonic development ending in birth or egg hatching, chromosome segregation, 	chromosome, 	ATP binding, protein binding, 
W03G9.8	W03G9.8	W03G9.8 [Source:RefSeq_peptide;Acc:NP_001021663]			
W03G9.3	W03G9.3	W03G9.3 [Source:RefSeq_peptide;Acc:NP_491487]			
W03G9.2	W03G9.2	W03G9.2 [Source:RefSeq_peptide;Acc:NP_491488]		extracellular region, 	hormone activity, 
app-1	W03G9.4	W03G9.4 [Source:RefSeq_peptide;Acc:NP_491489]	proteolysis, creatine metabolic process, 		protein binding, creatinase activity, metalloexopeptidase activity, 
W03G9.5	W03G9.5	W03G9.5 [Source:RefSeq_peptide;Acc:NP_491490]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W03G9.9	W03G9.9	W03G9.9 [Source:RefSeq_peptide;Acc:NP_001021664]			
snf-1	W03G9.1	Sodium:Neurotransmitter symporter Family family member (snf-1) [Source:RefSeq_peptide;Acc:NP_491491]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
paf-1	W03G9.6	PAF-acetylhydrolase family member (paf-1) [Source:RefSeq_peptide;Acc:NP_491492]	lipid catabolic process, 	2-acetyl-1-alkylglycerophosphocholine esterase complex, 	1-alkyl-2-acetylglycerophosphocholine esterase activity, 
W03G9.7	W03G9.7	W03G9.7 [Source:RefSeq_peptide;Acc:NP_491493]	embryonic development ending in birth or egg hatching, 		
dyf-1	F54C1.5	dyf-1 encodes a ciliary protein, belonging to a conserved but unfamiliar protein family, specifically required for the kinesin OSM-3 to dock onto and move intraflagellar transport (IFT) particles. DYF-1 affects development of the amphid and phasmid neurons, chemotaxis, and dauer formation. DYF-1 function is downstream of BBS-8, which is required for IFT particles to stably bind both kinesin-II and OSM-3. [Source: WormBase]			binding, 
mes-3	F54C1.3	mes-3 encodes a novel protein with no discernible motifs. however, as a member of a Polycomb-like chromatin repressive complex with MES-2 and MES-6, MES-3 is required maternally for normal germline development and during larval development, for anteroposterior patterning. during germline development, the MES-2/MES-3/MES-6 complex is believed to be essential for maintaining repression of the X chromosome, and in transgenic animals, the complex is necessary for germline repression of repetitive transgenes. in axial patterning, the MES-2/MES-3/MES-6 complex is required in somatic tissues for maintaining homeotic gene repression, acting upstream of the Hox genes lin-39, mab-5, and egl-5, as well as the egl-5 target gene lin-32. MES-3 expression is detected in the nuclei of all cells during early embryogenesis, in some somatic cells and the germline precursors Z2 and Z3 during late embryogenesis and the L1 larval stage. in adults, MES-3 is expressed at highest levels in oocytes and germline nuclei in the proximal meiotic region with expression in the pachytene region negatively regulated by the RNA-binding protein GLD-1. MES-3 appears to be localized primarily to the nucleoplasm with some chromosomal association detectable during metaphase and early anaphase. in >24-cell-stage embryos, normal MES-3 levels and localization are dependent upon wild-type activity of MES-2 and MES-6 [Source: WormBase]	gamete generation, 		
dom-3	F54C1.2	Protein dom-3. [Source:Uniprot/SWISSPROT;Acc:Q10660]			
F54C1.8	F54C1.8	F54C1.8 [Source:RefSeq_peptide;Acc:NP_491497]			
sst-20	F54C1.9	Sperm Specific Transcript family member (sst-20) [Source:RefSeq_peptide;Acc:NP_491498]			
F54C1.1	F54C1.1	F54C1.1 [Source:RefSeq_peptide;Acc:NP_491499]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
F54C1.6	F54C1.6	F54C1.6 [Source:RefSeq_peptide;Acc:NP_491500]	GTP biosynthetic process, UTP biosynthetic process, CTP biosynthetic process, 		ATP binding, nucleoside diphosphate kinase activity, 
pat-10	F54C1.7	pat-10 encodes body wall muscle troponin C, the calcium-binding component of the troponin complex of actin thin filaments. PAT-10 is essential for muscle contraction and thus for completion of embryonic morphogenesis and elongation. by homology, PAT-10 likely functions to regulate body wall muscle contraction in response to changes in intracellular calcium. PAT-10 is expressed in body wall muscle but is also detected in vulval and anal muscles. expression in body wall muscle begins during early embryonic morphogenesis, concurrent with expression of other body wall muscle structural components. [Source: WormBase]	ciliary or flagellar motility, reproduction, muscle contraction, 	flagellin-based flagellum, 	calcium ion binding, 
C46H11.6	C46H11.6	C46H11.6 [Source:RefSeq_peptide;Acc:NP_491502]	locomotory behavior, 		protein binding, 
lfe-2	C46H11.4	lfe-2 encodes an inositol (1,4,5) triphosphate-3-kinase (IP3K). lfe-2 activity is required for normal levels of hermaphrodite fertility and for tissue-specific negative regulation of the LET-23 signaling pathway that controls spermathecal dilation and ovulation. in vitro, LFE-2 can exhibit catalytic activity, converting IP3 to IP4. an lfe-2::GFP transcriptional fusion is expressed in the adult spermatheca and in the pharynx and gut throughout larval and adult stages. misexpression of LFE-2 in gravid adults via heat shock results in ovulation defects, consistent with a role for LFE-2 in regulating this process. [Source: WormBase]			inositol trisphosphate 3-kinase activity, 
C46H11.3	C46H11.3	Probable actin-related protein 2/3 complex subunit 5 (ARP2/3 complex 16 kDa subunit) (p16-ARC). [Source:Uniprot/SWISSPROT;Acc:P91167]	regulation of actin filament polymerization, methylation, 	cytoskeleton, 	methyltransferase activity, nucleic acid binding, 
C46H11.7	C46H11.7	C46H11.7 [Source:RefSeq_peptide;Acc:NP_491507]			
phat-1	C46H11.8	PHAryngeal gland Toxin-related family member (phat-1) [Source:RefSeq_peptide;Acc:NP_491508]			protein binding, 
phat-2	C46H11.9	PHAryngeal gland Toxin-related family member (phat-2) [Source:RefSeq_peptide;Acc:NP_491509]			
C46H11.2	C46H11.2	C46H11.2 [Source:RefSeq_peptide;Acc:NP_491510]	electron transport, 		oxidoreductase activity, monooxygenase activity, FAD binding, 
C46H11.10	C46H11.10	C46H11.10a [Source:RefSeq_peptide;Acc:NP_001021045]			
C46H11.1	C46H11.1	C46H11.1 [Source:RefSeq_peptide;Acc:NP_491512]			
fhod-1	C46H11.11	Formactin (Formin homology domain protein 1). [Source:Uniprot/SPTREMBL;Acc:Q1XIS2]	vesicle-mediated transport, actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, 	membrane, 	protein binding, actin binding, 
vha-16	C30F8.2	vha-16 encodes an an ortholog of subunit d of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-16 is predicted to mechanically anchor the V-ATPase cytosolic rotor (stalk) to the membrane, while also providing a hub for the V-ATPase transmembrane rotor. vha-16 is expressed in diverse tissues (e.g., excretory cell, pharynx, intestine, hypodermis, and neurons). [Source: WormBase]	ATP synthesis coupled proton transport, biological_process, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
kin-32	C30F8.4	kin-32 encodes an ortholog of human focal adhesion kinase (FAK1. Q05397. OMIM:600758), also known as cytoplasmic protein-tyrosine kinase (PTK2). [Source: WormBase]	protein amino acid phosphorylation, 	cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C30F8.3	C30F8.3	C30F8.3 [Source:RefSeq_peptide;Acc:NP_491517]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
Y110A7A.20	Y110A7A.20	Y110A7A.20 encodes an ortholog of Chlamydomonas and human IFT20. Y110A7A.20 undergoes intraflagellar transport (IFT) in a manner consistent with its being a component of the OSM-3-driven IFT-particle B subcomplex. Y110A7A.20 is expressed in amphid and phasmid neurons, mechanosensory neurons, and other unidentified head neurons and tail cells. by orthology with human IFT20, Y110A7A.20 may deliver ciliary membrane proteins from the Golgi complex to the cilium. Y110A7A.20 has no obvious function in mass RNAi assays. [Source: WormBase]			
tag-300	Y110A7A.12	tag-300/Y110A7A.12 encodes an ortholog of subunit B of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). TAG-300/Y110A7A.12 is orthologous to human ATP6V1B1 (OMIM:192132, mutated in distal renal tubular acidosis with progressive sensorineural deafness) and ATP6V1B2 (OMIM:606939). TAG-300/Y110A7A.12 and VHA-12 are co-orthologs. tag-300/Y110A7A.12 has been reported to be spe-5, and (like unc-32 and vha-12) mutations of spe-5 suppress necrotic neurodegeneration. TAG-300/Y110A7A.12 is predicted to bind ATP as part of a cytosolic VHA-12/VHA-13 heterohexamer, whose ATP hydrolysis drives the V-ATPase rotor. [Source: WormBase]	ATP synthesis coupled proton transport, ATP biosynthetic process, energy coupled proton transport, against electrochemical gradient, 	cytoplasm, proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, hydrogen-exporting ATPase activity, phosphorylative mechanism, 
chp-1	Y110A7A.13	chp-1 encodes a protein containing two CHORD domains that is required for embryonic polarity, germline development, and vulval development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
pas-3	Y110A7A.14	pas-3 encodes that affects embryonic viability, growth, fertility, and locomotion. [Source: WormBase]	ubiquitin-dependent protein catabolic process, positive regulation of growth rate, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
Y110A7A.11	Y110A7A.11	Vesicle transport protein USE1 (USE1-like protein). [Source:Uniprot/SWISSPROT;Acc:Q9N598]	positive regulation of growth rate, 		
aap-1	Y110A7A.10	aap-1 encodes the C. elegans ortholog of the phosphoinositide 3-kinase (PI3K) p50/p55 adaptor/regulatory subunit. AAP-1 negatively regulates lifespan and dauer development, and likely functions as the sole adaptor subunit for the AGE-1/p110 PI3K catalytic subunit to which it binds in vitro. although AAP-1 potentiates insulin-like signaling, it is not absolutely required for insulin-like signaling under most conditions. [Source: WormBase]	intracellular signaling cascade, determination of adult life span, 		protein binding, 
Y110A7A.21	Y110A7A.21	Y110A7A.21 [Source:RefSeq_peptide;Acc:NP_001076618]			
Y110A7A.15	Y110A7A.15	Y110A7A.15a [Source:RefSeq_peptide;Acc:NP_491523]			
Y110A7A.16	Y110A7A.16	Y110A7A.16 is orthologous to the human gene INHIBITOR OF KAPPA LIGHT POLYPEPTIDE GENE ENHANCER IN B-CELLS, KINASE COMPLEX-ASSOCIATED PROTEIN (IKBKAP. OMIM:603722), which when mutated leads to disease. [Source: WormBase]			
Y110A7A.9	Y110A7A.9	Y110A7A.9 is orthologous to the human gene KIAA1351 PROTEIN (WDR11. OMIM:606417), which when mutated leads to disease. [Source: WormBase]			
mat-1	Y110A7A.17	Metaphase-to-Anaphase Transition defect family member (mat-1) [Source:RefSeq_peptide;Acc:NP_001021714]	microtubule-based movement, positive regulation of growth rate, 	microtubule associated complex, 	ATP binding, protein binding, binding, microtubule motor activity, 
Y110A7A.8	Y110A7A.8	Y110A7A.8 is orthologous to the human gene U4/U6 SNRNP-ASSOCIATED 61 KDA PROTEIN (PRPF31. OMIM:600138), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y110A7A.7	Y110A7A.7	Y110A7A.7 [Source:RefSeq_peptide;Acc:NP_491528]	proteolysis, lipid metabolic process, 		zinc ion binding, catalytic activity, carboxypeptidase A activity, triacylglycerol lipase activity, 
Y110A7A.6	Y110A7A.6	Y110A7A.6b [Source:RefSeq_peptide;Acc:NP_491530]	metabolic process, fructose 2,6-bisphosphate metabolic process, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, catalytic activity, 
mtm-1	Y110A7A.5	mtm-1 encodes an ortholog of human myotubularin (MTM1), which when mutated leads to myotubular myopathy (OMIM:310400). mtm-1(RNAi)suppresses the endocytosis defect of let-512 mutants, indicating that MTM-1 negatively regulates LET-512 (a phosphatidylinositol 3-kinase orthologous to yeast Vps34). [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, phospholipid dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, inositol or phosphatidylinositol phosphatase activity, 
Y110A7A.4	Y110A7A.4	Y110A7A.4 [Source:RefSeq_peptide;Acc:NP_491532]	dTMP biosynthetic process, embryonic development ending in birth or egg hatching, 		thymidylate synthase activity, 
unc-63	Y110A7A.3	unc-63 encodes an alpha subunit of the nicotinic acetylcholine receptor (nAChR) superfamily. UNC-63 is required for normal locomotion, and functions as a subunit of a ligand-gated ion channel that likely mediates fast actions of acetylcholine at neuromuscular junctions and in the nervous system. when coexpressed with UNC-29 and LEV-1, non-alpha nAChR subunits, the resulting multimer can form levamisole-gated channels. UNC-63 is expressed in body wall muscles, vulval muscles, and a large number of neurons. UNC-63 is a member of the UNC-38-like group of nAChR subunits. [Source: WormBase]	transport, ion transport, locomotion, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
Y110A7A.2	Y110A7A.2	Y110A7A.2 [Source:RefSeq_peptide;Acc:NP_491534]	signal transduction, 		
ppw-2	Y110A7A.18	PAZ/PIWI domain-containing family member (ppw-2) [Source:RefSeq_peptide;Acc:NP_491535]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y110A7A.19	Y110A7A.19	Y110A7A.19 [Source:RefSeq_peptide;Acc:NP_491536]	positive regulation of growth rate, 		
hcp-6	Y110A7A.1	hcp-6 encodes a HEAT motif-containing protein that displays similarity to the XCAP-D2/CNAP1/Cnd1/YCS4 family of proteins that are homologous to the condensin complex subunit 1. HCP-6 activity is required during mitosis for some aspects of mitotic chromosome condensation, attachment of microtubules to kinetochores, mitotic chromosome alignment, and mitotic sister chromatid segregation. during interphase, HCP-6 is detectable in a punctate pattern in the nucleoplasm. at prophase, HCP-6 becomes associated with condensed chromosomes, colocalizing with the centromeric component HCP-3. HCP-6 localization to chromosomes depends upon the activity of HCP-3 and HCP-4, a C. elegans CENP-C-like protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, mitotic sister chromatid segregation, 		
spd-5	F56A3.4	Spindle-defective protein 5. [Source:Uniprot/SWISSPROT;Acc:P91349]	vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, 
npp-6	F56A3.3	npp-6 encodes a protein with weak similarity to mouse nuclear pore complex protein Nup160, and affects embryonic and larval viability. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F56A3.2	F56A3.2	F56A3.2 [Source:RefSeq_peptide;Acc:NP_491541]	DNA repair, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, nuclease activity, 
bro-1	F56A3.5	BROther (Drosophila tx factor partner) homolog family member (bro-1) [Source:RefSeq_peptide;Acc:NP_491542]			
F56A3.1	F56A3.1	F56A3.1 [Source:RefSeq_peptide;Acc:NP_491543]	embryonic development ending in birth or egg hatching, 		
pde-5	C32E12.2	Probable 3',5'-cyclic phosphodiesterase pde-5 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:P91119]	signal transduction, 		catalytic activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, 
osr-1	C32E12.3	Osmotic Stress Resistant family member (osr-1) [Source:RefSeq_peptide;Acc:NP_491545]	positive regulation of growth rate, 		
sox-1	C32E12.5	SOX (mammalian SRY box) family member (sox-1) [Source:RefSeq_peptide;Acc:NP_740846]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	DNA binding, 
C32E12.4	C32E12.4	C32E12.4 [Source:RefSeq_peptide;Acc:NP_491546]	positive regulation of growth rate, 		
C32E12.1	C32E12.1	C32E12.1 [Source:RefSeq_peptide;Acc:NP_491547]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
B0261.4	B0261.4	B0261.4a [Source:RefSeq_peptide;Acc:NP_001040632]	translation, positive regulation of growth rate, 	intracellular, mitochondrial ribosome, ribosome, 	structural constituent of ribosome, 
let-363	B0261.2	let-363 encodes, by alternative splicing, two large (>2600-residue) proteins with C-terminal similarity to phosphatidylinositol kinase (PIK). LET-363 proteins are orthologous to S. cerevisiae Tor1p and Tor2p and human FRAP1 (OMIM:601231, mammalian target of FKBP12-rapamycin). LET-363 proteins are required for progression through the L3 stage of larval development and are thought to generally stimulate translation of most or all mRNAs ('global translation'). LET-363 activity is also necessary for normal development and physiology of the intestine. LET-363 proteins are expressed ubiquitously, including a maternal contribution to the early embryo. [Source: WormBase]	nematode larval development, growth, 		phosphotransferase activity, alcohol group as acceptor, 
B0261.5	B0261.5	B0261.5 [Source:RefSeq_peptide;Acc:NP_491550]			
B0261.6	B0261.6	B0261.6a [Source:RefSeq_peptide;Acc:NP_001040634]			
B0261.1	B0261.1	B0261.1 [Source:RefSeq_peptide;Acc:NP_491553]	positive regulation of growth rate, 	nucleus, 	DNA binding, 
B0261.7	B0261.7	B0261.7 [Source:RefSeq_peptide;Acc:NP_491554]			
B0261.8	B0261.8	B0261.8 [Source:RefSeq_peptide;Acc:NP_001020968]			
C01G8.1	C01G8.1	C01G8.1 [Source:RefSeq_peptide;Acc:NP_491555]			
cln-3.2	C01G8.2	cln-3.2 encodes a predicted transmembrane protein that comprises one of three C. elegans homologs of human CLN3 (OMIM:607042, mutations are associated with Batten disease (also known as juvenile neuronal ceroid lipofuscinosis), a recessively inherited childhood neurodegenerative lysosomal storage disease). loss of cln-3.2 activity via large-scale RNAi screens has been reported to result in either no defects or in embryonic lethality. [Source: WormBase]	response to antibiotic, tetracycline transport, embryonic development ending in birth or egg hatching, determination of adult life span, regulation of oviposition, 	membrane, integral to membrane, 	tetracycline:hydrogen antiporter activity, 
dhs-1	C01G8.3	C01G8.3 [Source:RefSeq_peptide;Acc:NP_491557]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
dnj-4	C01G8.4	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
erm-1	C01G8.5	The erm-1 gene encodes an ortholog of the ERM family of cytoskeletal linkers with approximately equal similarity to ezrin, radixin and moesin. [Source: WormBase]	positive regulation of growth rate, morphogenesis of an epithelium, 	cytoplasm, cytoskeleton, extrinsic to membrane, 	protein binding, cytoskeletal protein binding, 
C01G8.6	C01G8.6	C01G8.6 [Source:RefSeq_peptide;Acc:NP_491561]	biological_process, 		
lss-4	C01G8.9	Let-Seven (let-7) Suppressor family member (lss-4) [Source:RefSeq_peptide;Acc:NP_491562]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, intracellular, nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, rhodopsin-like receptor activity, 
F48C1.4	F48C1.4	F48C1.4 [Source:RefSeq_peptide;Acc:NP_491563]	morphogenesis of an epithelium, 		
F48C1.3	F48C1.3	F48C1.3 [Source:RefSeq_peptide;Acc:NP_491564]			
F48C1.5	F48C1.5	F48C1.5 [Source:RefSeq_peptide;Acc:NP_491565]			
F48C1.6	F48C1.6	F48C1.6 [Source:RefSeq_peptide;Acc:NP_491566]			
fbxa-145	F48C1.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
aman-3	F48C1.1	aman-3 encodes a Co(II)-activated alpha-mannosidase II, orthologous to human MAN2C1. AMAN-3 is predicted to remove mannose residues from the N-linked oligosaccharides of glycoproteins. AMAN-3 contains three predicted N-glycosylation sites. AMAN-3 is biochemically active in vitro, with a pH optimum of 6.5. AMAN-3 requires either Co(II) or Mn(II) for activity, preferring the former ion. since aman-2(tm1078) mutants almost completely lack paucimannosidic glycans, the function of AMAN-3 in vivo is unclear. [Source: WormBase]	carbohydrate metabolic process, mannose metabolic process, 		alpha-mannosidase activity, mannosidase activity, 
spe-11	F48C1.7	spe-11 encodes a novel protein that is required for early embryonic development and for regulating the dynamic morphology of sperm pseudopods. although the precise biological role of SPE-11 is not yet known, SPE-11 is one of the few paternally provided proteins known to be essential for embryogenesis, and may constitute a sperm-associated factor required for oocyte activation. SPE-11 is first detected in the nuclei of primary spermatocytes and then remains tightly associated with sperm chromatin until fertilization at which point it appears to be degraded. [Source: WormBase]			
F48C1.9	F48C1.9	F48C1.9 [Source:RefSeq_peptide;Acc:NP_740849]			
F48C1.8	F48C1.8	F48C1.8 [Source:RefSeq_peptide;Acc:NP_491570]	protein homooligomerization, 	membrane, 	
F55A12.6	F55A12.6	F55A12.6 [Source:RefSeq_peptide;Acc:NP_491571]			
apm-1	F55A12.7	The apm-1 gene encodes an adaptin: specifically, it encodes an ortholog of the mu1-II subunit of adaptor protein complex 1 (AP-1). [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, growth, 	clathrin adaptor complex, 	protein transporter activity, protein binding, 
F55A12.5	F55A12.5	F55A12.5 [Source:RefSeq_peptide;Acc:NP_491573]			
F55A12.8	F55A12.8	UPF0202 protein F55A12.8. [Source:Uniprot/SWISSPROT;Acc:O01757]	positive regulation of growth rate, 		
dhs-2	F55A12.4	dhs-2 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
ppk-1	F55A12.3	ppk-1 encodes a putative phosphatidylinositol-4-phosphate 5' kinase that is essential for ovulation, intense gonad sheath contraction and dilation of the spermathecal valve during oocyte maturation, and UNC-54 filament organization. more generally, PPK-1 is required for fertility, progression through larval development, normal locomotion and defecation, and overall health. defects of ppk-1(RNAi) animals in sterility, ovulation, and UNC-54 filaments are suppressed by the gain-of-function itr-1(sy290) allele, presumably through increased IP(3) signalling. PPK-1 is expressed in gonad sheath, spermatheca, uterine and vulva muscles, distal tip cells, intestine, head mesodermal cell, and many neurons (e.g., in the ventral nerve cord, near the nerve ring, and in tail). PPK-1 may be activated by VAV-1. PPK-1 is orthologous to five human proteins (e.g., PIP5K1B, OMIM:602745), and distantly paralogous to PPK-2. [Source: WormBase]	phosphatidylinositol metabolic process, growth, 		phosphatidylinositol phosphate kinase activity, 
F55A12.2	F55A12.2	F55A12.2a [Source:RefSeq_peptide;Acc:NP_740851]	positive regulation of growth rate, 		
F55A12.10	F55A12.10	F55A12.10 [Source:RefSeq_peptide;Acc:NP_491578]			protein binding, zinc ion binding, 
F55A12.1	F55A12.1	F55A12.1 [Source:RefSeq_peptide;Acc:NP_491579]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, 
pqn-44	F55A12.9	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
C24A11.2	C24A11.2	C24A11.2 [Source:RefSeq_peptide;Acc:NP_491582]			
C24A11.5	C24A11.5	C24A11.5 [Source:RefSeq_peptide;Acc:NP_491583]			
C24A11.6	C24A11.6	C24A11.6 [Source:RefSeq_peptide;Acc:NP_491584]			
C24A11.1	C24A11.1	C24A11.1 [Source:RefSeq_peptide;Acc:NP_491585]			
frm-4	C24A11.8	frm-4 encodes a predicted transmembrane protein that contains an N-terminal FERM (Band 4.1-ezrin-radixin-moesin) domain. by homology, FRM-4 is predicted to function as a membrane-cytoskeleton linker protein that plays a role in cell adhesion, migration, or organization of cell surface structures. however, as loss of frm-4 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of FRM-4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		cytoplasm, cytoskeleton, extrinsic to membrane, 	cytoskeletal protein binding, 
coq-1	C24A11.9	coq-1 encodes a putative hexaprenyl pyrophosphate synthetase, orthologous to S. cerevisiae COQ1. COQ-1 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-1 mutants have slowed pharyngeal pumping, and eventually arrest as paralysed larvae before dying. coq-1(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. coq-1 mutants are not rescued by dietary coenzyme Q. [Source: WormBase]	isoprenoid biosynthetic process, determination of adult life span, 		
C30H7.2	C30H7.2	C30H7.2b [Source:RefSeq_peptide;Acc:NP_001040641]	cell redox homeostasis, positive regulation of growth rate, 		
F27C1.6	F27C1.6	F27C1.6 [Source:RefSeq_peptide;Acc:NP_491590]	rRNA processing, biological_process, 	small subunit processome, 	protein binding, 
F27C1.4	F27C1.4	F27C1.4 [Source:RefSeq_peptide;Acc:NP_491591]	biological_process, 		
F27C1.3	F27C1.3	F27C1.3 [Source:RefSeq_peptide;Acc:NP_491592]	biological_process, 		
atp-3	F27C1.7	atp-3 encodes a mitochondrial ATP synthase and is part of a regulatory system that controls and establishes rates of respiration, behavior and aging during development that persist during adulthood. [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	proton-transporting two-sector ATPase complex, 	protein binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
F27C1.2	F27C1.2	F27C1.2b [Source:RefSeq_peptide;Acc:NP_001021419]	copper ion transport, positive regulation of growth rate, 	integral to membrane, 	copper ion transmembrane transporter activity, 
dpy-5	F27C1.8	dpy-5 encodes a Group I cuticle procollagen. dpy-5 activity is required for wild-type body length, cuticle structure (width of the annuli), postembryonic growth rates, and reproduction. dpy-5 is described as an intermediate collagen gene, as its mRNA, which is present in all larval stages, adults, and dauer larvae, increases in abudance two hours prior to the secretion of each new cuticle. a dpy-5::gfp fusion gene is expressed in hypodermal cells from mid-to-late L1 larval stages to adulthood, with notably variable expression in the V lineage-derived seam cells. dpy-5 mutations suppress mutations in bli-4, which encodes a proprotein convertase that may process DPY-5 for normal cuticle production. in addition, dpy-5 is required for normal expression patterns of the COL-19, DPY-7, and DPY-13 cuticle collagens. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
F27C1.10	F27C1.10	F27C1.10 [Source:RefSeq_peptide;Acc:NP_491598]			
F27C1.1	F27C1.1	F27C1.1 [Source:RefSeq_peptide;Acc:NP_491597]			
F27C1.11	F27C1.11	F27C1.11 [Source:RefSeq_peptide;Acc:NP_491599]	intracellular signaling cascade, 		
F27C1.13	F27C1.13	F27C1.13 [Source:RefSeq_peptide;Acc:NP_491601]	intracellular signaling cascade, 		
T05E8.1	T05E8.1	T05E8.1 [Source:RefSeq_peptide;Acc:NP_491602]		integral to membrane, 	
hil-8	T05E8.2	HIstone H1 Like family member (hil-8) [Source:RefSeq_peptide;Acc:NP_491603]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T05E8.3	T05E8.3	The T05E8.3 gene encodes a divergent DEAH helicase that is (apparently) unique to Caenorhabditis. it has no well-characterized orthologs in the complete Drosophila or S. cerevisiae genomes, and no obvious orthologs in the draft human genome sequence either. [Source: WormBase]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C09D4.4	C09D4.4	C09D4.4c [Source:RefSeq_peptide;Acc:NP_491605]			
rpl-19	C09D4.5	rpl-19 encodes a large ribosomal subunit L19 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
C09D4.6	C09D4.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O01732]			
C09D4.3	C09D4.3	C09D4.3 [Source:RefSeq_peptide;Acc:NP_491610]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C09D4.2	C09D4.2	C09D4.2 [Source:RefSeq_peptide;Acc:NP_491611]			
C09D4.1	C09D4.1	Uncharacterized MFS-type transporter C09D4.1. [Source:Uniprot/SWISSPROT;Acc:O01735]	transport, 	integral to membrane, 	transporter activity, 
F59A3.3	F59A3.3	Probable 39S ribosomal protein L24, mitochondrial precursor (L24mt) (MRP-L24). [Source:Uniprot/SWISSPROT;Acc:P91353]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
F59A3.4	F59A3.4	F59A3.4 [Source:RefSeq_peptide;Acc:NP_491614]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
F59A3.6	F59A3.6	F59A3.6 [Source:RefSeq_peptide;Acc:NP_491616]			
F59A3.5	F59A3.5	F59A3.5 [Source:RefSeq_peptide;Acc:NP_001021521]			
F59A3.2	F59A3.2	F59A3.2a [Source:RefSeq_peptide;Acc:NP_491617]			
F59A3.7	F59A3.7	F59A3.7 [Source:RefSeq_peptide;Acc:NP_491618]			
F59A3.1	F59A3.1	F59A3.1 [Source:RefSeq_peptide;Acc:NP_491619]	proteolysis, biological_process, 		zinc ion binding, carboxypeptidase A activity, 
F59A3.8	F59A3.8	F59A3.8 [Source:RefSeq_peptide;Acc:NP_491620]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
pup-3	F59A3.9	pup-3 encodes a template-independent poly(U) polymerase with 3'' end RNA substrates, distantly similar to human ZCCHC6 and ZCCHC11. PUP-3 is paralogous to the GLD-2 family of poly(A) polymerases. PUP-3 has no obvious function in mass RNAi assays. [Source: WormBase]			
F59A3.10	F59A3.10	F59A3.10 [Source:RefSeq_peptide;Acc:NP_491622]			
tom-1	M01A10.2	tom-1 encodes a tomosyn ortholog that inhibits synaptic vesicle priming. TOM-1 is orthologous to human tomosyn-1 and tomosyn-2, and to Drosophila lethal(2)giant larvae. TOM-1 protein binds RIC-4 (SNAP-25) and UNC-64 (syntaxin) in vitro. tom-1 has two hypomorphic mutant alleles, tom-1(nu468) and tom-1(ok285), which confer aldicarb hypersensitivity, probably from excess cholinergic neurotransmission. tom-1 mutants have reduced brood sizes, mildly defective locomotion, and prolonged responses to neurotransmission due to a defect in presynaptic neurons. tom-1 mutants have normal axonal morphology and numbers of synapses, but abnormally high numbers of neuronal vesicles next to the presynaptic membrane. the tom-1(ok285) mutation suppresses the aldicarb resistance and deficient number of presynaptic membrane-apposed vesicles seen in unc-13(s69) mutants. [Source: WormBase]	embryonic development ending in birth or egg hatching, synaptic vesicle priming, 		
M01A10.3	M01A10.3	M01A10.3 [Source:RefSeq_peptide;Acc:NP_491624]	protein amino acid N-linked glycosylation via asparagine, embryonic development ending in birth or egg hatching, 	endoplasmic reticulum membrane, oligosaccharyl transferase complex, 	dolichyl-diphosphooligosaccharide-protein glycotransferase activity, 
M01A10.1	M01A10.1	M01A10.1 encodes a protein, belonging to an ancient family of single-stranded nucleic acid-binding proteins, that is predicted to regulate gene expression through binding either mRNA or (locally) single-stranded DNA. it is most likely to specifically bind one or more discrete mRNAs and regulate their spatial localization or alternative splicing. [Source: WormBase]			RNA binding, 
pqn-52	M01E11.4	pqn-52 encodes, by alternative splicing, three proteins with glutamine/asparagine (Q/N)-rich ('prion') domains. at least one of these isoforms bound KLC-2 in a mass yeast two-hybrid screen. PQN-52 proteins are predicted to be secreted, and have no obvious homologs outside of the nematodes (e.g., Brugia malayi 14952.m01392). [Source: WormBase]			
cey-3	M01E11.5	cey-3 encodes a protein with a cold-shock/Y-box domain. CEY-3 associates with CGH-1, CEY-2, and CEY-4 in cytoplasmic particles of the gonad and early embryo. [Source: WormBase]	regulation of transcription, DNA-dependent, 		DNA binding, nucleic acid binding, 
M01E11.3	M01E11.3	M01E11.3 [Source:RefSeq_peptide;Acc:NP_491632]	embryonic development ending in birth or egg hatching, 		
klp-15	M01E11.6	M01E11.6 [Source:RefSeq_peptide;Acc:NP_491633]	microtubule-based movement, positive regulation of growth rate, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
M01E11.2	M01E11.2	M01E11.2 [Source:RefSeq_peptide;Acc:NP_491634]			protein binding, binding, identical protein binding, 
M01E11.1	M01E11.1	M01E11.1 [Source:RefSeq_peptide;Acc:NP_491635]	C-terminal protein amino acid methylation, 	integral to membrane, 	protein-S-isoprenylcysteine O-methyltransferase activity, 
tag-163	M01E11.7	Temporarily Assigned Gene name family member (tag-163) [Source:RefSeq_peptide;Acc:NP_491637]	intracellular signaling cascade, 		protein binding, 
tag-83	F46F11.3	Putative protein tag-83. [Source:Uniprot/SWISSPROT;Acc:P91301]			
F46F11.11	F46F11.11	F46F11.11 [Source:RefSeq_peptide;Acc:NP_001021471]			
ubl-5	F46F11.4	This gene encodes an ortholog of the human ubiquitin-like gene UBL5, which is a distinct cytoplasmic paralog of nuclear ubiquitin or ubiquitin-like proteins. ubl-5 shares an operon with vha-10, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	protein modification process, growth, 		
vha-10	F46F11.5	vha-10 encodes an ortholog of subunit G of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-10 is required for necrosis, since vha-10(RNAi) suppresses necrotic neurodegeneration and thapsigargin-induced cell death. VHA-10 is a predicted cytosolic stator (stalk) component. [Source: WormBase]	ATP biosynthetic process, proton transport, embryonic development ending in birth or egg hatching, programmed cell death, positive regulation of non-apoptotic programmed cell death, 	vacuolar proton-transporting V-type ATPase complex, 	hydrogen ion transmembrane transporter activity, 
F46F11.9	F46F11.9	F46F11.9 encodes an ortholog of S. cerevisiae GSG1, involved in intracellular transport and meiosis. F46F11.9 shares an operon with vha-10, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
NR_003383.1	F46F11.12	F46F11.12, snoRNA [Source:RefSeq_dna;Acc:NR_003383]			
F46F11.6	F46F11.6	F46F11.6 [Source:RefSeq_peptide;Acc:NP_491644]			
cey-2	F46F11.2	cey-2 encodes a cold-shock/Y-box domain-containing protein. by homology, CEY-2 is predicted to function as either an RNA-binding protein involved in translation or RNA processing, or a DNA-binding protein involved in transcriptional regulation. cey-2 mRNA is expressed maternally in the early embryo, in a pattern characteristic of class II maternal RNAs, which are initially detected throughout the embryo but restricted to the P, or germline, lineage as cell division progresses. CEY-2 associates with CGH-1 and CEY-3/4 in cytoplasmic particles of the gonad and early embryo. as loss of cey-2 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of cey-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 		protein binding, DNA binding, nucleic acid binding, 
F46F11.7	F46F11.7	F46F11.7 [Source:RefSeq_peptide;Acc:NP_491646]			
F46F11.10	F46F11.10	F46F11.10 [Source:RefSeq_peptide;Acc:NP_491647]	tRNA processing, 		RNA binding, tRNA methyltransferase activity, 
F46F11.8	F46F11.8	F46F11.8 [Source:RefSeq_peptide;Acc:NP_491648]			nucleic acid binding, 
F46F11.1	F46F11.1	F46F11.1b [Source:RefSeq_peptide;Acc:NP_740856]			acid phosphatase activity, 
M01A12.4	M01A12.4	M01A12.4 [Source:RefSeq_peptide;Acc:NP_001032978]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
M01A12.3	M01A12.3	M01A12.3 [Source:RefSeq_peptide;Acc:NP_871890]			
col-53	M01A12.1	M01A12.1 [Source:RefSeq_peptide;Acc:NP_491651]	phosphate transport, 	cytoplasm, 	
F55F8.2	F55F8.2	F55F8.2a [Source:RefSeq_peptide;Acc:NP_491652]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	ATP binding, DNA binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
F55F8.3	F55F8.3	Periodic tryptophan protein 2 homolog. [Source:Uniprot/SWISSPROT;Acc:P91341]	protein amino acid phosphorylation, signal transduction, biological_process, 	protein phosphatase type 2A complex, 	protein kinase activity, ATP binding, protein phosphatase type 2A regulator activity, 
cir-1	F55F8.4	CIR (transcription factor CBF1 Interacting coRepressor) homolog family member (cir-1) [Source:RefSeq_peptide;Acc:NP_491654]	embryonic development ending in birth or egg hatching, 		
tag-345	F55F8.5	WD repeat protein tag-345. [Source:Uniprot/SWISSPROT;Acc:P91343]	growth, 		
F55F8.6	F55F8.6	F55F8.6 [Source:RefSeq_peptide;Acc:NP_491656]	embryonic development ending in birth or egg hatching, 		
F55F8.7	F55F8.7	F55F8.7 [Source:RefSeq_peptide;Acc:NP_491657]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ptr-10	F55F8.1	ptr-10 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-10 is weakly required for normal molting from L4 to adult stages. however, PTR-10 in conjunction with PTR-1 and PTR-6 is strongly required for both molting and viability, with triple ptr-1/-6/-10 RNAi animals showing pronounced molting defects and lethality. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
F55F8.8	F55F8.8	F55F8.8 [Source:RefSeq_peptide;Acc:NP_491659]			
F55F8.9	F55F8.9	F55F8.9 [Source:RefSeq_peptide;Acc:NP_491660]	metal ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	metal ion transmembrane transporter activity, 
T19B4.5	T19B4.5	T19B4.5 [Source:RefSeq_peptide;Acc:NP_491661]	embryonic development ending in birth or egg hatching, 		protein binding, 
dnj-21	T19B4.4	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	growth, 		heat shock protein binding, 
T19B4.3	T19B4.3	Adenine phosphoribosyltransferase (EC 2.4.2.7) (APRT). [Source:Uniprot/SWISSPROT;Acc:P91455]	nucleoside metabolic process, adenine salvage, 		adenine phosphoribosyltransferase activity, 
unc-40	T19B4.7	The unc-40 gene encodes a netrin receptor that is required to guide dorsal-ventral cell and axon migrations, and is required for correct polarization and migration of the neuroblasts QL and QR. [Source: WormBase]	cell adhesion, biological_process, 	membrane, 	
npp-7	T19B4.2	Nuclear Pore complex Protein family member (npp-7) [Source:RefSeq_peptide;Acc:NP_491665]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, 
T19B4.1	T19B4.1	Probable peptidyl-glycine alpha-amidating monooxygenase T19B4.1 precursor (PAM) [Includes: Probable peptidylglycine alpha- hydroxylating monooxygenase (EC 1.14.17.3) (PHM); Probable peptidyl- alpha-hydroxyglycine alpha-amidating lyase (EC 4.3.2.5) (Peptid [Source:Uniprot/SWISSPROT;Acc:P83388]	peptide metabolic process, 	membrane, 	catalytic activity, monooxygenase activity, copper ion binding, peptidylglycine monooxygenase activity, 
NR_003388.1	T19B4.8	T19B4.8, snoRNA [Source:RefSeq_dna;Acc:NR_003388]			
lim-7	C04F1.3	lim-7 encodes a LIM homeodomain protein. a lim-7 mutation can result in lethality or sterility. lim-7 reporter fusion are specifically expressed in the somatic gonadal sheath cells during the L4 larval stage and continuing through adulthood. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
C04F1.1	C04F1.1	C04F1.1 [Source:RefSeq_peptide;Acc:NP_491669]			
F56H1.3	F56H1.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O76369]	reproduction, 	intracellular, 	
nhr-266	F56H1.2	Nuclear Hormone Receptor family member (nhr-266) [Source:RefSeq_peptide;Acc:NP_491671]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
rpt-5	F56H1.4	rpt-5 encodes a triple A ATPase subunit of the 26S proteasome's 19S regulatory particle (RP) base subcomplex. RPT-5 is required for embryonic, larval, and germline development and by homology, is predicted to function in unfolding protein substrates and translocating them into the core proteolytic particle (CP) of the proteasome. [Source: WormBase]	protein catabolic process, embryonic cleavage, 	cytoplasm, nucleus, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, hydrolase activity, 
F56H1.6	F56H1.6	F56H1.6 [Source:RefSeq_peptide;Acc:NP_001021512]			zinc ion binding, 
che-14	F56H1.1	che-14 encodes a protein with a sterol-sensing domain. CHE-14 protein is involved in the exocytotic secretion of lipid-modified proteins at the apical surface of certain epithelial cells. [Source: WormBase]	proteolysis, 	membrane, integral to membrane, 	serine-type peptidase activity, 
F56H1.5	F56H1.5	F56H1.5 encodes a putative ATP/ADP-activated metallocarboxypeptidase that may function in vivo as an alpha-tubulin C-terminal tyrosine carboxypeptidase. F56H1.5 is orthologous to murine AGTPBP-1/Nna1/pcd (upregulated in damaged mouse spinal cord and mutated in Purkinje cell degeneration) and human AGTPBP1 (OMIM:606830). murine AGTPBP-1 is genetically required for tubulin carboxypeptidase activity in vivo, and F56H1.5's nearest paralog EEED8.6 has biochemical traits consistent with tubulin carboxypeptidase activity. F56H1.5 and its mammalian AGTPBP1 orthologs, along with other proteins, comprise a M14D3 peptidase subfamily. [Source: WormBase]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
F56H1.7	F56H1.7				
T22E7.2	T22E7.2	T22E7.2 [Source:RefSeq_peptide;Acc:NP_491675]		intracellular, 	zinc ion binding, nucleic acid binding, 
T22E7.1	T22E7.1	T22E7.1a [Source:RefSeq_peptide;Acc:NP_491676]			protein binding, 
hil-5	B0414.3	Histone H1.5 (Histone H1-like protein 5). [Source:Uniprot/SWISSPROT;Acc:O01833]	nucleosome assembly, homoiothermy, response to freezing, 	nucleus, nucleosome, 	DNA binding, ice binding, 
rnt-1	B0414.2	rnt-1 encodes a transcription factor that is the sole C. elegans member of the RUNX family of transcriptional regulators. rnt-1 activity is required for several developmental processes, including regulation of hypodermal seam cell proliferation and proper development of the male tail. RNT-1 can physically interact with SMA-4 and regulates, either directly or indirectly, expression of tlp-1 and cki-1, which encode a C2H2 zinc finger and CDK inhibitor, respectively. RNT-1::GFP reporter fusions are reportedly expressed in the nuclei of hypodermal seam cells, intestinal cells, body wall muscles, and, in males, cells derived from the V5, V6 and T lineages that give rise to the sensory rays. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, DNA binding, 
cpb-3	B0414.5	cpb-3 encodes a CPEB orthologous to Drosophila ORB, zebrafish ZORBA, and human CPEB1, and paralogous to FOG-1 and CPB-1/2. CPB-3 inhibits physiological apoptosis in oocytes, keeping it down to a normal level of ~50% in hermaphrodite gonads. independently of apoptosis, CPB-3 is also required for normal oogenesis, sperm/oocyte switching (upstream of FEM-3), and the transistion from mitosis to meiosis by oocytes (in parallel with GLD-3). cpb-3(RNAi) results in elevated (though not 100%) physiological germ cell apoptosis, independent of CEP-1. in cpb-3(RNAi) animals, excess physiological apoptosis actually promotes fertility, since cpb-3(RNAi) hermaphrodites have larger brood sizes than those with apoptosis suppressed by ced-3(n717), and aging ced-3(n717).cpb-3(RNAi) animals have abnormal oocytes that fail to exit pachytene and proceed through diakinesis. CPB-3 is mainly cytoplasmic, and strongly expressed in pachytene oocytes. cpb-3(bt17).daz-1(tj3) hermaphrodites have a synthetic phenotype of total sterility and masculinization. CPB-3 colocalizes with DAZ-1 in vivo, coimmunoprecipitates with DAZ-1, and binds DAZ-1 in two-hybrid assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleic acid binding, 
glh-3	B0414.6	glh-3 encodes a predicted DEAD-like RNA helicase. GLH-3 interacts with itself and with CSN-5, KGB-1, ZYX-1, and GLH-1 in vitro, and is expressed in association with P granules throughout development. [Source: WormBase]	DNA repair, DNA recombination, 		ATP binding, zinc ion binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, endodeoxyribonuclease activity, 
mtk-1	B0414.7	MTK1/MEKK4 homolog family member (mtk-1) [Source:RefSeq_peptide;Acc:NP_491683]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
srz-4	B0414.1	Serpentine Receptor, class Z family member (srz-4) [Source:RefSeq_peptide;Acc:NP_491684]	embryonic development ending in birth or egg hatching, 		
B0414.8	B0414.8	B0414.8b [Source:RefSeq_peptide;Acc:NP_001020973]			protein binding, 
lin-35	C32F10.2	lin-35 encodes the C. elegans retinoblastoma protein (Rb) ortholog. lin-35 was first identified in screens for synthetic multivulva (synMuv) genes and as a class B synMuv gene, functions redundantly with class A genes to antagonize Ras signaling and negatively regulate vulval development. in addition, lin-35 activity is required redundantly with: 1) pha-1 and ubc-18 for early steps in pharyngeal morphogenesis, 2) fzr-1 for normal patterns of postembryonic proliferation, 3) xnp-1 for somatic gonad development, and 4) psa-1 for fertility and embryonic and larval development. on its own, lin-35 is also required for wild-type levels of fertility. LIN-35 is expressed broadly in embryos and L1 larvae, but in later larvae and adults is detected in vulval precursor cells and their descendants as well as a subset of head and tail cells. [Source: WormBase]	nematode larval development, morphogenesis of an epithelium, 		
C32F10.4	C32F10.4	C32F10.4 [Source:RefSeq_peptide;Acc:NP_491687]			
hmg-3	C32F10.5	FACT complex subunit ssrp1-B (Facilitates chromatin transcription complex subunit ssrp1-B) (Structure-specific recognition protein 1-B) (HMG domain-containing protein 3). [Source:Uniprot/SWISSPROT;Acc:O01683]	regulation of transcription, DNA-dependent, gamete generation, 	nucleus, chromatin, 	DNA binding, 
nhr-2	C32F10.6	nhr-2 encodes a member of the nuclear hormone receptor family that is required for embryonic viability and morphogenesis. expressed during embryogenesis. [Source: WormBase]	regulation of transcription, DNA-dependent, chromosome segregation, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, 
C32F10.8	C32F10.8	C32F10.8b [Source:RefSeq_peptide;Acc:NP_001021022]	biosynthetic process, 		pyridoxal phosphate binding, 1-aminocyclopropane-1-carboxylate synthase activity, transferase activity, transferring nitrogenous groups, 
obr-4	C32F10.1	Oxysterol Binding protein (OSBP) Related family member (obr-4) [Source:RefSeq_peptide;Acc:NP_491691]	steroid metabolic process, 		
F33D11.5	F33D11.5	F33D11.5 [Source:RefSeq_peptide;Acc:NP_491692]	potassium ion transport, reproduction, 	membrane, 	potassium channel activity, 
ceh-12	F33D11.4	ceh-12 is orthologous to the human gene HB9 HOMEOBOX PROTEIN (HLXB9. OMIM:142994), which when mutated leads to disease. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
col-54	F33D11.3	F33D11.3 [Source:RefSeq_peptide;Acc:NP_491694]	phosphate transport, electron transport, response to oxidative stress, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, peroxidase activity, heme binding, 
F33D11.t2	F33D11.t2				
F33D11.6	F33D11.6	F33D11.6 [Source:RefSeq_peptide;Acc:NP_491695]			
F33D11.2	F33D11.2	F33D11.2 [Source:RefSeq_peptide;Acc:NP_491696]			
F33D11.7	F33D11.7	F33D11.7 [Source:RefSeq_peptide;Acc:NP_491697]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F33D11.1	F33D11.1	F33D11.1 [Source:RefSeq_peptide;Acc:NP_491698]			zinc ion binding, 
F33D11.8	F33D11.8	F33D11.8 [Source:RefSeq_peptide;Acc:NP_491699]			
F33D11.t1	F33D11.t1				
F33D11.9	F33D11.9	F33D11.9b [Source:RefSeq_peptide;Acc:NP_491700]	dicarboxylic acid transport, 	membrane, integral to membrane, GPI-anchor transamidase complex, 	sodium:dicarboxylate symporter activity, 
F33D11.12	F33D11.12	F33D11.12 [Source:RefSeq_peptide;Acc:NP_491702]			zinc ion binding, 
F33D11.10	F33D11.10	F33D11.10 [Source:RefSeq_peptide;Acc:NP_491703]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
F33D11.11	F33D11.11	F33D11.11 [Source:RefSeq_peptide;Acc:NP_491704]			protein binding, structural molecule activity, 
C34G6.5	C34G6.5	C34G6.5 [Source:RefSeq_peptide;Acc:NP_491705]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
noah-1	C34G6.6	NOmpA Homolog (Drosophila nompA: no mechanoreceptor potential A) family member (noah-1) [Source:RefSeq_peptide;Acc:NP_740858]	embryonic development ending in birth or egg hatching, 		
pgp-2	C34G6.4	pgp-2 encodes a member of the ABC transporter family with highest similarity to the vertebrate MDR (multidrug resistance) family and that is orthologous to human MDR1 (ABCB1. OMIM:171050, mutated in Crohn disease). during development, pgp-2 activity is required, in parallel with that of the AP-3 adaptor complex, for the proper formation of gut granules, lysosome-related fat storage organelles found in the C. elegans intestine. pgp-2 is expressed in the intestine, from the E2 stage of embryonic development through adulthood. PGP-2 localizes to the gut granule membrane. [Source: WormBase]	transport, organelle organization and biogenesis, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
C34G6.3	C34G6.3	C34G6.3 [Source:RefSeq_peptide;Acc:NP_491708]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
tyr-4	C34G6.2	TYRosinase family member (tyr-4) [Source:RefSeq_peptide;Acc:NP_491709]	metabolic process, protein homooligomerization, 	membrane, 	protein binding, oxidoreductase activity, 
pqn-19	C34G6.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	intracellular protein transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C34G6.1	C34G6.1	C34G6.1 [Source:RefSeq_peptide;Acc:NP_491711]	reproduction, 		
B0207.5	B0207.5	B0207.5 [Source:RefSeq_peptide;Acc:NP_491712]		proteinaceous extracellular matrix, 	
B0207.6	B0207.6	B0207.6 [Source:RefSeq_peptide;Acc:NP_491713]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, 
air-2	B0207.4	air-2 encodes an aurora/Ipl1-related serine/threonine protein kinase that affects embryonic viability and chromosome segregation during meiosis and mitosis and is required for cytokinesis. AIR-2 has two functions during mitosis, one in chromosome segregation, and a second, independent function in cytokinesis through ZEN-4. AIR-2 and ZEN-4 may act in parallel to a second pathway that includes CYK-1. AIR-2 phosphorylates two adjacent, evolutionarily conserved C-terminal serines of the inner centromere protein ICP-1. AIR-2 forms a robust complex with CSC-1, BIR-1, and ICP-1. air-2 is expressed highly in embryos, in the mature oocytes, spermatocytes, and extruded polar bodies. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
gpa-14	B0207.3	gpa-14 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. gpa-14 is expressed in ASI, ASJ, ASH, ASK, ADE, PHA, PHB ALA, AVA, CAN, DVA, PVQ, RIA, and in vulval muscle, and also exhibits faint expression in the vulval hypodermis. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		signal transducer activity, guanyl nucleotide binding, 
B0207.7	B0207.7	B0207.7 [Source:RefSeq_peptide;Acc:NP_491716]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0207.8	B0207.8	B0207.8 [Source:RefSeq_peptide;Acc:NP_491717]			
B0207.2	B0207.2	B0207.2 [Source:RefSeq_peptide;Acc:NP_491718]			
B0207.9	B0207.9	B0207.9 [Source:RefSeq_peptide;Acc:NP_491719]			
B0207.10	B0207.10	B0207.10 [Source:RefSeq_peptide;Acc:NP_491720]			
B0207.11	B0207.11	B0207.11 encodes a nematode-specific protein probably required for a normally high ovulation rate. B0207.11 has no obvious non-nematode homologs, but does have a putative N-terminal coiled-coil domain and an SH2 motif, and is is paralogous to four other C. elegans proteins (F42G4.6, F44F4.10, T08G11.2, and Y81G3A.1). B0207.11(tm322) hermaphrodites show abnormal egg-laying, retaining significantly fewer eggs than wild-type (perhaps due to a lowered ovulation rate) while retaining late-stage embryos. B0207.11 has no obvious phenotype in mass RNAi experiments, possibly because of genetic redundancy with its paralogs. [Source: WormBase]	intracellular signaling cascade, 		
B0207.1	B0207.1	B0207.1 [Source:RefSeq_peptide;Acc:NP_491722]	regulation of transcription, DNA-dependent, protein amino acid dephosphorylation, dephosphorylation, 	intracellular, 	transcription factor activity, sequence-specific DNA binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
avr-14	B0207.12	avr-14 encodes an alpha-type subunit of a glutamate-gated chloride channel homologous to human GLRA2, which when mutated leads to hyperekplexia (OMIM:149400). AVR-14 affects sensitivity to the antiparisitic drug, ivermectin, in parallel with avr-15 and glc-1 and in a genetic pathway with unc-9. it functions in the extrapharyngeal nervous system, and is expressed in a subset of neurons in the ring ganglia, ventral cord, and some mechanosensory neurons. [Source: WormBase]	transport, ion transport, response to drug, locomotion during locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
Y76G2A.2	Y76G2A.2	C06A5.10 [Source:RefSeq_peptide;Acc:NP_491729]			
Y76G2A.1	Y76G2A.1	C06A5.5 [Source:RefSeq_peptide;Acc:NP_491728]			
C06A5.4	C06A5.4	C06A5.4 [Source:RefSeq_peptide;Acc:NP_491727]			
C06A5.5	C06A5.5	C06A5.5 [Source:RefSeq_peptide;Acc:NP_491728]			
C06A5.10	C06A5.10	C06A5.10 [Source:RefSeq_peptide;Acc:NP_491729]			
C06A5.6	C06A5.6	C06A5.6 [Source:RefSeq_peptide;Acc:NP_491730]			
C06A5.3	C06A5.3	C06A5.3a [Source:RefSeq_peptide;Acc:NP_491732]	hermaphrodite genitalia development, 		
sir-2.4	C06A5.11	yeast SIR related family member (sir-2.4) [Source:RefSeq_peptide;Acc:NP_491733]	regulation of transcription, DNA-dependent, chromatin silencing, 	chromatin silencing complex, 	DNA binding, 
tmd-1	C06A5.7	tmd-1 encodes a predicted member of the tropomodulin family and affects egg laying, locomotion, and muscle organization in one analysis using RNAi. [Source: WormBase]		cytoskeleton, 	tropomyosin binding, 
C06A5.12	C06A5.12	C06A5.12 [Source:RefSeq_peptide;Acc:NP_001020982]			
C06A5.2	C06A5.2	C06A5.2 [Source:RefSeq_peptide;Acc:NP_491736]			
C06A5.8	C06A5.8	C06A5.8a [Source:RefSeq_peptide;Acc:NP_491737]			protein binding, zinc ion binding, 
rnf-1	C06A5.9	RiNg Finger protein family member (rnf-1) [Source:RefSeq_peptide;Acc:NP_491738]			protein binding, zinc ion binding, 
C06A5.1	C06A5.1	C06A5.1 [Source:RefSeq_peptide;Acc:NP_491739]	embryonic development ending in birth or egg hatching, 		
csn-2	B0025.2	csn-2 encodes a homolog of COP9 signalosome complex subunit 2 that affects embryonic viability and growth rate. [Source: WormBase]	positive regulation of growth rate, 		protein binding, 
B0025.4	B0025.4	B0025.4 encodes a small, novel protein. microarray analyses suggest that B0025.4 belongs to the class of strictly maternal genes and SAGE experiments detect highest levels of expression in purified oocytes, N2 embryos, and pharynx cells. B0025.4 is part of C. elegans operon CEOP1288. [Source: WormBase]			
vps-34	B0025.1	The vps-34 gene encodes an ortholog of the phosphoinositide 3-kinase VPS34 in S. cerevisiae, a protein that regulates multiple steps in endocytosis, and that is required for growth at normal rates during development. [Source: WormBase]	growth, ecdysis, collagen and cuticulin-based cuticle, phosphoinositide phosphorylation, phosphoinositide-mediated signaling, 	phosphoinositide 3-kinase complex, 	phosphotransferase activity, alcohol group as acceptor, 1-phosphatidylinositol-3-kinase activity, inositol or phosphatidylinositol kinase activity, 
C27A12.4	C27A12.4	C27A12.4 [Source:RefSeq_peptide;Acc:NP_491743]			
tag-146	C27A12.3	Temporarily Assigned Gene name family member (tag-146) [Source:RefSeq_peptide;Acc:NP_491744]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
C27A12.2	C27A12.2	C27A12.2 [Source:RefSeq_peptide;Acc:NP_491745]	positive regulation of growth rate, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
ceh-2	C27A12.5	ceh-2 encodes a homeodomain protein homologous to Drosophila empty spiracles (EMS) and the vertebrate EMX1 and EMX2 proteins (OMIM:600034, 600035). although the exact biological role of CEH-2 in C. elegans development and/or behavior is not yet known, expression in pharyngeal neurons and muscle, as well as vulval cells (vulB1, vulB2, and vulC) at late stages of development suggests that CEH-2 may play a role in terminal differentiation events in diverse cell types. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C27A12.t1	C27A12.t1				
C27A12.6	C27A12.6	C27A12.6 [Source:RefSeq_peptide;Acc:NP_491747]			zinc ion binding, 
C27A12.7	C27A12.7	C27A12.7b [Source:RefSeq_peptide;Acc:NP_871853]			zinc ion binding, 
ari-1	C27A12.8	ARI (ubiquitin ligase Ariadne) homolog family member (ari-1) [Source:RefSeq_peptide;Acc:NP_491749]			zinc ion binding, 
C27A12.9	C27A12.9	C27A12.9 [Source:RefSeq_peptide;Acc:NP_491750]	metabolic process, nucleotide metabolic process, 		hydrolase activity, 
mbd-2	C27A12.10	mbd-2 encodes an truncated ortholog of methyl-CpG-binding-domain (MBD) proteins. this is a surprising orthology, because C. elegans genomic DNA is unmethylated, and may reflect a more general role of MBD proteins in epigenetic regulation independent of methyl-DNA binding. while mbd-2(RNAi) animals have no obvious phenotype, RNAi of the C. briggsae mbd-2 ortholog causes paralysis. MBD-2 may be functionally analogous to MeCP2 proteins, which are required in nonmitotic neurons and deficient in the progressive autism Rett syndrome (OMIM:300005). [Source: WormBase]			
ZK484.3	ZK484.3	ZK484.3 [Source:RefSeq_peptide;Acc:NP_491751]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	
ZK484.4	ZK484.4	ZK484.4b [Source:RefSeq_peptide;Acc:NP_491753]	embryonic development ending in birth or egg hatching, 		
haf-9	ZK484.2	haf-9 is orthologous to the human gene ATP-BINDING CASSETTE, SUB-FAMILY B (MDR/TAP), MEMBER 3 (TAP2. OMIM:170261), which when mutated leads to disease. [Source: WormBase]	transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, 
NR_003397.1	ZK484.9	ZK484.9, snoRNA [Source:RefSeq_dna;Acc:NR_003397]			
ZK484.5	ZK484.5	ZK484.5 [Source:RefSeq_peptide;Acc:NP_491755]			
ZK484.6	ZK484.6	ZK484.6 [Source:RefSeq_peptide;Acc:NP_491756]	metabolic process, 		catalytic activity, 
ZK484.1	ZK484.1	Ornithine decarboxylase antizyme (ODC-Az). [Source:Uniprot/SWISSPROT;Acc:Q9NHZ6]			enzyme inhibitor activity, ornithine decarboxylase inhibitor activity, 
ZK484.7	ZK484.7	ZK484.7 [Source:RefSeq_peptide;Acc:NP_491758]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
nspd-1	ZK484.8	Nematode Specific Peptide family, group D family member (nspd-1) [Source:RefSeq_peptide;Acc:NP_491759]			
T27A3.4	T27A3.4	T27A3.4 [Source:RefSeq_peptide;Acc:NP_491760]			
T27A3.5	T27A3.5	T27A3.5 [Source:RefSeq_peptide;Acc:NP_491761]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ssp-16	T27A3.3	Sperm-specific class P protein 16. [Source:Uniprot/SWISSPROT;Acc:P91499]			structural molecule activity, 
T27A3.8	T27A3.8	T27A3.8 [Source:RefSeq_peptide;Acc:NP_001032981]			
NR_003389.1	T27A3.9	T27A3.9, snoRNA [Source:RefSeq_dna;Acc:NR_003389]			
T27A3.6	T27A3.6	T27A3.6 is orthologous to the human gene MOLYBDENUM COFACTOR BIOSYSTHESIS PROTEIN E (MOCS2. OMIM:603708), which when mutated leads to disease. [Source: WormBase]	Mo-molybdopterin cofactor biosynthetic process, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, uridine kinase activity, 
T27A3.7	T27A3.7	T27A3.7 [Source:RefSeq_peptide;Acc:NP_491764]	intracellular signaling cascade, embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
T27A3.2	T27A3.2	T27A3.2 [Source:RefSeq_peptide;Acc:NP_491765]	ubiquitin-dependent protein catabolic process, arginine catabolic process, positive regulation of growth rate, 		zinc ion binding, ubiquitin thiolesterase activity, arginase activity, 
T27A3.1	T27A3.1	T27A3.1a [Source:RefSeq_peptide;Acc:NP_740861]			protein binding, 
opt-3	F56F4.5	Putative oligopeptide transporter opt-3. [Source:Uniprot/SWISSPROT;Acc:O01840]	oligopeptide transport, chromosome segregation, protein homooligomerization, 	membrane, integral to membrane, 	transporter activity, oligopeptide transporter activity, 
F56F4.t1	F56F4.t1				
F56F4.t2	F56F4.t2				
F56F4.4	F56F4.4	F56F4.4 [Source:RefSeq_peptide;Acc:NP_491768]			
abt-6	F56F4.6	F56F4.6 encodes a protein that contains an ATP-binding cassette (ABC) that is most closely related to that of the ABCA subfamily of ABC transport proteins. as the product of F56F4.6 lacks a predicted transmembrane domain, and as loss of F56F4.6 activity via RNAi results in no obvious defects, the precise role of this gene in C. elegans development and/or behavior is not yet known. [Source: WormBase]	response to antibiotic, defense response, tetracycline transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, tetracycline:hydrogen antiporter activity, 
F56F4.3	F56F4.3	F56F4.3 [Source:RefSeq_peptide;Acc:NP_491770]	response to antibiotic, neurotransmitter transport, tetracycline transport, protein secretion, 	membrane, integral to membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, P-P-bond-hydrolysis-driven protein transmembrane transporter activity, tetracycline:hydrogen antiporter activity, 
F56F4.2	F56F4.2	F56F4.2 [Source:RefSeq_peptide;Acc:NP_491772]			
sdz-22	F56F4.1				
F56F4.8	F56F4.8	SKN-1 Dependent Zygotic transcript family member (sdz-22) [Source:RefSeq_peptide;Acc:NP_001021506]			
T09B4.5	T09B4.5	T09B4.5a [Source:RefSeq_peptide;Acc:NP_491774]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T09B4.6	T09B4.6	T09B4.6 [Source:RefSeq_peptide;Acc:NP_491775]			
T09B4.7	T09B4.7	T09B4.7 [Source:RefSeq_peptide;Acc:NP_491776]	protein amino acid phosphorylation, homoiothermy, response to freezing, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, ice binding, 
T09B4.t2	T09B4.t2				
T09B4.t1	T09B4.t1				
T09B4.8	T09B4.8	T09B4.8 [Source:RefSeq_peptide;Acc:NP_491777]			pyridoxal phosphate binding, transaminase activity, 
T09B4.4	T09B4.4	T09B4.4 [Source:RefSeq_peptide;Acc:NP_491778]			calcium ion binding, 
T09B4.3	T09B4.3	T09B4.3 [Source:RefSeq_peptide;Acc:NP_491779]			
T09B4.9	T09B4.9	Probable import inner membrane translocase subunit TIM44, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:O02161]	intracellular protein transport, positive regulation of growth rate, 	mitochondrial inner membrane presequence translocase complex, 	protein binding, P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
chn-1	T09B4.10	chn-1 encodes an ortholog of mammalian carboxyl-terminus of Hsc70 interacting protein (CHIP), an E4 ubiquitin-chain elongation factor. chn-1 is ubiquitously expressed. chn-1(by155) mutants are viable and superficially normal, but have reduced fertility and arrest as larvae if subjected to heat shock. chn-1 overexpression causes either embryonic lethality (if strong) or defective egg-laying and locomotion, along with constitutive dauer formation (if weak). chn-1(by155) mutations suppress viable unc-45(e286ts) and unc-45(m94ts) mutations, but not lethal unc-45(st604) ones. chn-1(by155) mutants, unlike wild-type, show defective sarcomeres if overexpressing unc-45 from a extrachromosomal array. CHN-1 binds the ubiquitin conjugating enzyme UFD-2, which in turn binds the Hsp90 cochaperone UNC-45. UNC-45 is a substrate for CHN-1- and UFD-2-dependent multiubiquitination. the parkin ortholog PDR-1 binds CHN-1, and requires CHN-1 for self-ubiquitination. chn-1(RNAi) animals accumulate abnormally phosphorylated tau proteins. [Source: WormBase]	protein ubiquitination, biological_process, oviposition, 	ubiquitin ligase complex, 	ubiquitin-protein ligase activity, 
T09B4.2	T09B4.2	T09B4.2 [Source:RefSeq_peptide;Acc:NP_491782]	embryonic development ending in birth or egg hatching, 		
T09B4.1	T09B4.1	T09B4.1 [Source:RefSeq_peptide;Acc:NP_491783]			
T05E7.3	T05E7.3	T05E7.3 [Source:RefSeq_peptide;Acc:NP_491784]	transport, 		transporter activity, lipid binding, 
T05E7.4	T05E7.4	T05E7.4 [Source:RefSeq_peptide;Acc:NP_491785]			
col-55	T05E7.2	COLlagen family member (col-55) [Source:RefSeq_peptide;Acc:NP_491786]			structural constituent of cuticle, 
T05E7.5	T05E7.5	T05E7.5 [Source:RefSeq_peptide;Acc:NP_491787]			
T05E7.1	T05E7.1	T05E7.1 [Source:RefSeq_peptide;Acc:NP_491788]	lipid metabolic process, 		palmitoyl-CoA hydrolase activity, 
T08B2.7	T08B2.7	T08B2.7 is orthologous to the human gene HYDROXYACYL-COENZYME A DEHYDROGENASE/3-KETOACYL-COENZYME A THIOLASE/ENOYL-COENZYME A HYDRATASE (TRIFUNCTIONAL PROTEIN), ALPHA SUBUNIT (HADHA. OMIM:600890), which when mutated leads to disease [Source: WormBase]	metabolic process, fatty acid metabolic process, fatty acid beta-oxidation, growth, 	mitochondrion, fatty acid beta-oxidation multienzyme complex, 	oxidoreductase activity, catalytic activity, 3-hydroxyacyl-CoA dehydrogenase activity, enoyl-CoA hydratase activity, 
T08B2.8	T08B2.8	Probable mitochondrial 39S ribosomal protein L23 (L23mt) (MRP-L23). [Source:Uniprot/SWISSPROT;Acc:Q9GYS9]	growth, 		
frs-1	T08B2.9	frs-1 encodes a predicted phenylalanyl-t-RNA synthetase. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, phenylalanyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, phenylalanine-tRNA ligase activity, 
NR_003387.1	T08B2.13	T08B2.13, snoRNA [Source:RefSeq_dna;Acc:NR_003387]			
T08B2.t1	T08B2.t1		reproduction, 		
T08B2.5	T08B2.5	T08B2.5c [Source:RefSeq_peptide;Acc:NP_740866]	reproduction, 	intracellular, 	nucleotide binding, protein binding, zinc ion binding, nucleic acid binding, 
rps-17	T08B2.10	rps-17 encodes a small ribosomal subunit S17 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
T08B2.11	T08B2.11	T08B2.11 [Source:RefSeq_peptide;Acc:NP_491796]	embryonic development ending in birth or egg hatching, 		
T08B2.4	T08B2.4	T08B2.4 [Source:RefSeq_peptide;Acc:NP_491797]			
T08B2.3	T08B2.3	T08B2.3 [Source:RefSeq_peptide;Acc:NP_491798]	RNA-dependent DNA replication, 		RNA binding, RNA-directed DNA polymerase activity, 
T08B2.12	T08B2.12	T08B2.12 [Source:RefSeq_peptide;Acc:NP_491799]			
col-56	T08B2.2	COLlagen family member (col-56) [Source:RefSeq_peptide;Acc:NP_491800]	phosphate transport, 	cytoplasm, 	
C48E7.7	C48E7.7	C48E7.7 [Source:RefSeq_peptide;Acc:NP_491801]			
C48E7.6	C48E7.6	C48E7.6 [Source:RefSeq_peptide;Acc:NP_491802]	embryonic development ending in birth or egg hatching, 		
spp-15	C48E7.10	SaPosin-like Protein family member (spp-15) [Source:RefSeq_peptide;Acc:NP_491803]	lipid metabolic process, 		
cof-2	C48E7.5	cof-2 encodes a homolog of human GLC1A, which when mutated leads to glaucome primary open angle (OMIM:137750) [Source: WormBase]	phosphate transport, 	cytoplasm, 	
C48E7.11	C48E7.11	C48E7.11 [Source:RefSeq_peptide;Acc:NP_871835]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
lpd-2	C48E7.3	lpd-2 encodes a predicted transcription factor with homology to transcription factors of the CCAAT/Enhancer Binding Protein family (C/EBPA and B, OMIM:116897, 189965, associated with the regulation of mammalian adipocyte differentiation). in C. elegans, LPD-2 activity is required for normal lipid metabolism and wild-type levels of lipogenic enzyme expression, as well as for larval development. in addition, LPD-2 may be part of a conserved pathway regulating lipogenesis, as LPD-2 appears to positively regulate expression of sbp-1, which encodes the C. elegans Sterol Regulatory Element Binding Protein (SREBP) homolog, a basic helix-loop-helix-type transcription factor also required for normal lipid metabolism and larval development. [Source: WormBase]	biological_process, 		
C48E7.2	C48E7.2	C48E7.2 [Source:RefSeq_peptide;Acc:NP_491807]	transcription, growth, 		DNA binding, DNA-directed RNA polymerase activity, 
C48E7.1	C48E7.1	C48E7.1 [Source:RefSeq_peptide;Acc:NP_491808]			
C48E7.8	C48E7.8	C48E7.8 [Source:RefSeq_peptide;Acc:NP_491809]			transferase activity, transferring groups other than amino-acyl groups, 
twk-37	C48E7.9	TWiK family of potassium channels family member (twk-37) [Source:RefSeq_peptide;Acc:NP_491810]	potassium ion transport, 	membrane, 	protein binding, voltage-gated potassium channel activity, potassium channel activity, 
C10G11.8	C10G11.8	C10G11.8 [Source:RefSeq_peptide;Acc:NP_491811]	protein catabolic process, DNA replication initiation, regulation of DNA replication, 	cytoplasm, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, hydrolase activity, DNA replication origin binding, 
C10G11.9	C10G11.9	C10G11.9 [Source:RefSeq_peptide;Acc:NP_491812]			
C10G11.7	C10G11.7	C10G11.7 [Source:RefSeq_peptide;Acc:NP_491813]			protein binding, 
C10G11.6	C10G11.6	C10G11.6 [Source:RefSeq_peptide;Acc:NP_491814]			
pnk-1	C10G11.5	PaNtothenate Kinase family member (pnk-1) [Source:RefSeq_peptide;Acc:NP_740868]	coenzyme A biosynthetic process, positive regulation of growth rate, 		ATP binding, pantothenate kinase activity, 
srh-49	C10G11.4	Serpentine Receptor, class H family member (srh-49) [Source:RefSeq_peptide;Acc:NP_491816]			
srh-51	C10G11.3	Serpentine Receptor, class H family member (srh-51) [Source:RefSeq_peptide;Acc:NP_491817]			
srh-50	C10G11.2	Serpentine Receptor, class H family member (srh-50) [Source:RefSeq_peptide;Acc:NP_491818]			
C10G11.10	C10G11.10	C10G11.10 [Source:RefSeq_peptide;Acc:NP_491819]	positive regulation of growth rate, 		
C10G11.1	C10G11.1	C10G11.1 [Source:RefSeq_peptide;Acc:NP_491820]	positive regulation of growth rate, 		
F26B1.5	F26B1.5	F26B1.5 [Source:RefSeq_peptide;Acc:NP_001040654]			hydrolase activity, 
col-58	F26B1.4	COLlagen family member (col-58) [Source:RefSeq_peptide;Acc:NP_491822]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
srg-14	F26B1.6	Serpentine receptor class gamma-14 (Protein srg-14). [Source:Uniprot/SWISSPROT;Acc:P91275]	signal transduction, 	membrane, 	transmembrane receptor activity, 
ima-2	F26B1.3	ima-2 encodes one of three C. elegans importin alpha proteins. IMA-2 is predicted to function as an adaptor protein that regulates import of nuclear proteins. during development, ima-2 activity is required for normal germline and embryonic mitoses, specifically for proper chromosome segregration and nuclear reassembly. IMA-2 expression is detected in germ cells, oocytes, and early embryonic cells in a dynamic pattern that depends upon the stage of the cell cycle: in germ cells and early embryonic cells at interphase, IMA-2 is cytoplasmic and nuclear envelope-associated, while in oocytes, IMA-2 is cytoplasmic and intranuclear. during mitoses (prometaphase until telophase), IMA-2 surrounds condensed chromosomes, but does not associate with the mitotic spindle. early somatic expression of maternal IMA-2 is diluted upon cell division, with appreciable expression subsequently seen only in the germ line. [Source: WormBase]	intracellular protein transport, protein import into nucleus, embryonic development ending in birth or egg hatching, regulation of chromosome segregation, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, protein binding, 
F26B1.2	F26B1.2	F26B1.2a [Source:RefSeq_peptide;Acc:NP_740869]	embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	RNA binding, protein binding, extracellular matrix structural constituent, 
let-381	F26B1.7	let-381 encodes a forkhead transcription factor and was identified in a screen for essential genes. let-381 is essential for development at different times as mutants exhibit embryonic and early larval lethality, with a few developing to sterile adults. inactivation of let-381 using RNA interference results in adults with mesodermal cell lineage defects and a reduced number of coelomocytes. reporter-gene assays indicate LET-318 is expressed when the embryo starts to elongate and continues to be expressed through all larval stages and into the adult. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F26B1.1	F26B1.1	F26B1.1 [Source:RefSeq_peptide;Acc:NP_491827]			
bli-4	K04F10.4	bli-4 encodes a variety of related subtilases (serine endoproteases of the KEX2/subtilisin class), with shared N-termini but varying C-termini, that are collectively required both for larval viability and for stable adhesion of the adult cuticle. [Source: WormBase]	proteolysis, growth, collagen and cuticulin-based cuticle development, protein-based cuticle development, 	integral to membrane, 	protein binding, subtilase activity, serine-type endopeptidase activity, 
mut-2	K04F10.6	mut-2 encodes a nucleotidyltransferase that is a member of the polymerase beta nucleotidyltransferase superfamily that includes poly(A) polymerases, 2-5 oligoadenylate synthetases, C. elegans GLD-2, and S. cerevisiae Trf4p. MUT-2 activity is required for meiotic chromosome segregation, negative regulation of DNA transposition, non-transgene-induced RNAi (i.e. RNAi via feeding is affected, whereas RNAi via expression of sense and antisense RNA from a transgene is not), fertility, and viability. analysis of siRNA levels in mut-2 mutant animals indicates that during RNAi, MUT-2 activity is required at a point upstream of siRNA accumulation. neither the precise mechanistic role of MUT-2 in posttranscriptional silencing, nor the MUT-2 expression pattern, is yet known. although it is homologous to GLD-2, CID-1, and related polynucleotide polymerases, MUT-2 neither promotes mRNA translation nor exhibits poly(A) or poly(U) activity on mRNA substrates when tested in Xenopus oocytes. [Source: WormBase]	embryonic development ending in birth or egg hatching, RNA interference, 		nucleotidyltransferase activity, 
K04F10.3	K04F10.3	Putative uncharacterized protein (Endoplasmic reticulum-like protein). [Source:Uniprot/SPTREMBL;Acc:O44769]	embryonic development ending in birth or egg hatching, 		
K04F10.2	K04F10.2	K04F10.2 [Source:RefSeq_peptide;Acc:NP_491836]			
K04F10.1	K04F10.1	The K04F10.1 gene encodes a homolog of SCA1, which when mutated leads to spinocerebellar ataxia 1 (OMIM:164400). [Source: WormBase]			
K04F10.7	K04F10.7	K04F10.7 [Source:RefSeq_peptide;Acc:NP_491838]			protein binding, 
ZC308.4	ZC308.4	ZC308.4 [Source:RefSeq_peptide;Acc:NP_491839]			
gld-2	ZC308.1	gld-2 encodes the catalytic subunit of a cytoplasmic poly(A) polymerase (PAP) associated with P granules in early embryos, which encodes the central catalytic domain but lacks the normal RNA-binding (RRM) domain of eukaryotic PAPs. GLD-2 regulates the switch from mitosis to meiosis in the germline, is necessary for formation of functional sperm or oocytes, requires activation by GLD-3 for PAP activity in vitro, and contains a glutamine/asparagine-rich domain perhaps involved in epigenetic gene control. [Source: WormBase]	reproduction, 		
ZC328.2	ZC328.2	ZC328.2 [Source:RefSeq_peptide;Acc:NP_491843]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
ZC328.1	ZC328.1	ZC328.1 [Source:RefSeq_peptide;Acc:NP_491844]	biological_process, 		
ZC328.5	ZC328.5	ZC328.5 [Source:RefSeq_peptide;Acc:NP_491845]			
san-1	ZC328.4	Suspended ANimation (anoxia-induced) defective family member (san-1) [Source:RefSeq_peptide;Acc:NP_491846]	embryonic development ending in birth or egg hatching, 		protein binding, 
ZC328.3	ZC328.3	ZC328.3a [Source:RefSeq_peptide;Acc:NP_001040716]	embryonic development ending in birth or egg hatching, 		
R10A10.1	R10A10.1	R10A10.1 [Source:RefSeq_peptide;Acc:NP_491848]			
rbx-2	R10A10.2	The R10A10.2 gene encodes an ortholog of the mammalian zinc RING finger protein SAG, which protects cells from apoptosis induced by redox agents and is a component of ubiquitin-ligase (E3) complexes. mammalian SAG binds to the yeast Cul1 protein, complements the lethality of a mutation in yeast Sag, and (when bound to yeast Cul1) has ubiquitin ligase activity and promotes poly-ubiquitination of E2/Cdc34. [Source: WormBase]			protein binding, zinc ion binding, 
ncbp-1	F37E3.1	F37E3.1 encodes a putative nuclear cap-binding complex subunit ('CBP80') orthologous to budding yeast STO1 and human NCBP1 (OMIM:600469). in RNAi assays, F37E3.1 is required for embryonic and vulval development, normal locomotion, and general viability. by orthology to NCBP1, F37E3.1 is expected to participate in nonsense-mediated mRNA decay via a pioneer round of translation. F37E3.1(RNAi) induces expression of a gpdh-1::GFP transgene, perhaps because F37E3.1 prevents protein misfolding. [Source: WormBase]	RNA metabolic process, positive regulation of growth rate, 		protein binding, 
F37E3.2	F37E3.2	F37E3.2 [Source:RefSeq_peptide;Acc:NP_491851]			protein binding, 
F37E3.3	F37E3.3	F37E3.3 [Source:RefSeq_peptide;Acc:NP_491852]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
snt-4	T23H2.2	SyNapTotagmin family member (snt-4) [Source:RefSeq_peptide;Acc:NP_491853]	transport, 	membrane, synaptic vesicle, 	transporter activity, protein binding, 
T23H2.3	T23H2.3	T23H2.3 [Source:RefSeq_peptide;Acc:NP_001032980]			ATP binding, DNA binding, nucleic acid binding, helicase activity, 
npp-12	T23H2.1	npp-12 encodes Gp210, an evolutionarily conserved membrane protein of the nuclear pore complex (NPC). NPP-12 is required for embryonic viability and normal nuclear membrane structures. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T23H2.4	T23H2.4	T23H2.4 [Source:RefSeq_peptide;Acc:NP_491856]			
rab-10	T23H2.5	rab-10 encodes a Rab-like GTPase that is a member of the Ras superfamily of small GTPases. rab-10 activity is required, upstream of rme-1, for basolateral endocytic recycling in the intestine, but not in oocytes or coelomocytes. a RAB-10::GFP fusion protein is widely expressed and in the intestine, localizes to endosomes and the Golgi. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
knl-2	K06A5.4	K06A5.4 [Source:RefSeq_peptide;Acc:NP_491858]	embryonic development ending in birth or egg hatching, 		
K06A5.6	K06A5.6	K06A5.6 [Source:RefSeq_peptide;Acc:NP_491859]	metabolic process, electron transport, embryonic development ending in birth or egg hatching, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
K06A5.3	K06A5.3	K06A5.3 [Source:RefSeq_peptide;Acc:NP_491860]			structural molecule activity, 
K06A5.2	K06A5.2	K06A5.2 [Source:RefSeq_peptide;Acc:NP_491861]	dicarboxylic acid transport, embryonic development ending in birth or egg hatching, 	membrane, 	sodium:dicarboxylate symporter activity, 
cdc-25.1	K06A5.7	cdc-25.1 encodes a CDC25 phosphatase homolog that affects embryonic viability, meiosis, mitosis, proliferation of the intestine (E cell lineage), and germ line proliferation. it is expressed in the developing germline, in the nuclei of oocytes, embryonic nuclei, nuclei of embryonic cortical membranes, and sperm pronuclei, and in the germline precursors Z2 and Z3. [Source: WormBase]	protein amino acid dephosphorylation, M phase of mitotic cell cycle, reproduction, 	intracellular, 	protein tyrosine phosphatase activity, 
K06A5.1	K06A5.1	K06A5.1 [Source:RefSeq_peptide;Acc:NP_491863]			
K06A5.8	K06A5.8	K06A5.8d [Source:RefSeq_peptide;Acc:NP_491867]			protein binding, 
sulp-1	C55B7.6	sulp-1 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-1 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a sulp-1::GFP transcriptional fusion is expressed strongly in several neurons, weakly in hypodermal cells and the intestine, and very faintly in the excretory cell and body wall muscle. [Source: WormBase]	transport, 	integral to membrane, 	transporter activity, 
dbr-1	C55B7.8	dbr-1 encodes a homolog of the RNA lariat-debranching enzyme. DBR-1 is predicted to function in RNA processing by hydrolyzing the 2'-5' phosphodiester bond at the branchpoint of excised lariat intron RNA, thus converting the introns into linear molecules that can subsequently be degraded by exonucleases. in C. elegans, DBR-1 activity is required for embryonic and germline development, as well as for normal rates of postembryonic growth. overexpression of C. elegans DBR-1 in Saccharomyces cerevisiae can complement the RNA processing defects of a dbr1 null mutant strain, restoring debranching activity and intron degradation to near wild-type levels. [Source: WormBase]	translation, mRNA processing, positive regulation of growth rate, RNA splicing, via transesterification reactions, 	intracellular, nucleus, ribosome, 	hydrolase activity, hydrolase activity, acting on ester bonds, structural constituent of ribosome, RNA lariat debranching enzyme activity, 
mdt-18	C55B7.9	MeDiaTor family member (mdt-18) [Source:RefSeq_peptide;Acc:NP_491869]	embryonic development ending in birth or egg hatching, 		protein binding, 
uri-1	C55B7.5	uri-1 encodes a molecular chaperone orthologous to the unconventional prefoldin RPB5 (RNA polymerase subunit 5) interactor, URI. in C.elegans, URI-1 activity is required for suppressing endogenous genotoxic DNA damage and thus, is essential for maintenance of genome integrity (DNA stability) and progression through the mitotic and meiotic cell cycles, particularly during germ cell development. URI-1 activity is also required for development of some somatic structures, such as the vulva, and for RNA interference. uri-1 mRNA is germline-enriched. [Source: WormBase]	protein folding, morphogenesis of an epithelium, positive regulation of cell proliferation, 	prefoldin complex, 	protein binding, unfolded protein binding, 
acdh-1	C55B7.4	acdh-1 encodes a short-chain acyl-CoA dehydrogenase. ACDH-1 is predicted to be a mitochondrial enzyme that catalyzes the first step of fatty acid beta-oxidation and thus plays a key role in energy production. steady-state acdh-1 mRNA levels are under the control of the MDT-15 mediator complex subunit. in addition, gene expression studies indicate that acdh-1 expression is upregulated in daf-2 mutant animals, but downregulated in fasted animals. loss of acdh-1 activity via RNAi can shorten lifespan. [Source: WormBase]	metabolic process, electron transport, determination of adult life span, 		protein binding, acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C55B7.3	C55B7.3	C55B7.3 [Source:RefSeq_peptide;Acc:NP_491872]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C55B7.10	C55B7.10	C55B7.10 [Source:RefSeq_peptide;Acc:NP_491873]			protein kinase activity, 
gly-2	C55B7.2	gly-2 encodes a functional homolog of mammalian UDP-N-acetylglucosamine alpha-6-d-mannoside beta-1,6-N-acetylglucosaminyltransferase V (GlcNAc-TV) which regulates polylactosamine-containing N-glycans. gly-2 is functionally interchangeable with the mammalian gene. GLY-2 is expressed in late embryos and in a subset of neurons in larvae, spermathecal and pharyngeal-intestinal valves and in specific vulval cells of adults. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	Golgi stack, 	
C55B7.11	C55B7.11	C55B7.11 [Source:RefSeq_peptide;Acc:NP_491875]	embryonic development ending in birth or egg hatching, 		
glh-2	C55B7.1	glh-2 encodes a putative DEAD-box RNA helicase that contains six CCHC zinc fingers and is homologous to Drosophila VASA, a germ-line-specific, ATP-dependent, RNA helicase. at non-permissive temperatures, GLH-2 plays a role in germ-line development and fertility, specifically in regulating the normal extent of germ-line proliferation, oogenesis, and the production of functional sperm. GLH-2 activity may also be required for the wild-type morphology of P granules and for localization of several protein components, but not accumulation of P granule mRNA components. GLH-2 interacts in vitro with itself and with KGB-1, a JNK-like MAP kinase. GLH-2 is a constitutive P granule component and thus, with the exception of mature sperm, is expressed in germ cells at all stages of development. GLH-2 is cytoplasmic in oocytes and the early embryo, while perinuclear in all later developmental stages as well as in the distal and medial regions of the hermaphrodite gonad. GLH-2 is expressed at barely detectable levels in males. [Source: WormBase]	post-embryonic development, protein homooligomerization, 	membrane, 	ATP binding, zinc ion binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
che-1	C55B7.12	che-1 encodes a C2H2-type zinc finger-containing transcription factor orthologous to Drosophila GLASS, which is required for photoreceptor cell differentiation. CHE-1 is required for determining the identity and function of the amphid ASE neurons, the major neurons that mediate chemotaxis to water-soluble attractants. CHE-1 is expressed predominantly in the ASE neurons and regulates, either directly or indirectly, the expression of a number of ASE-specific genes. [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
T10E9.5	T10E9.5	T10E9.5 [Source:RefSeq_peptide;Acc:NP_491878]			
T10E9.4	T10E9.4	T10E9.4 [Source:RefSeq_peptide;Acc:NP_491879]			
T10E9.6	T10E9.6	T10E9.6 [Source:RefSeq_peptide;Acc:NP_491880]	embryonic development ending in birth or egg hatching, 		
nuo-2	T10E9.7	NADH Ubiquinone Oxidoreductase family member (nuo-2) [Source:RefSeq_peptide;Acc:NP_491881]	electron transport, mitochondrial electron transport, NADH to ubiquinone, pathogenesis, positive regulation of growth rate, determination of adult life span, 		RNA binding, oxidoreductase activity, acting on NADH or NADPH, NADH dehydrogenase (ubiquinone) activity, 
T10E9.3	T10E9.3	T10E9.3 [Source:RefSeq_peptide;Acc:NP_491882]	histidine catabolic process, 		dopamine beta-monooxygenase activity, 
T10E9.8	T10E9.8	T10E9.8 [Source:RefSeq_peptide;Acc:NP_491883]			
T10E9.2	T10E9.2	T10E9.2 [Source:RefSeq_peptide;Acc:NP_491884]			nucleic acid binding, 
T10E9.1	T10E9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T10E9.9	T10E9.9	T10E9.9 [Source:RefSeq_peptide;Acc:NP_491886]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
F57B10.8	F57B10.8	F57B10.8 [Source:RefSeq_peptide;Acc:NP_491887]	positive regulation of growth rate, 		
F57B10.9	F57B10.9	F57B10.9 is orthologous to the human gene SPARTIN (TAHCCP1. OMIM:607111), which when mutated leads to disease. [Source: WormBase]	proteolysis, 		cysteine-type endopeptidase activity, 
F57B10.14	F57B10.14	F57B10.14 [Source:RefSeq_peptide;Acc:NP_740874]	embryonic development ending in birth or egg hatching, 		
dad-1	F57B10.10	dad-1 encodes an ortholog of human DAD1 (OMIM:600243) that inhibits cell death and can functionally complement the hamster protein in cultured cells. [Source: WormBase]	negative regulation of apoptosis, positive regulation of growth rate, 		protein binding, 
tre-1	F57B10.7	TREhalase family member (tre-1) [Source:RefSeq_peptide;Acc:NP_491890]	trehalose metabolic process, embryonic development ending in birth or egg hatching, 		alpha,alpha-trehalase activity, 
xpg-1	F57B10.6	F57B10.6 is orthologous to the human gene EXCISION REPAIR CROSS-COMPLEMENTING RODENT REPAIR DEFICIENCY, COMPLEMENTATION GROUP 5 (XERODERMA PIGMENTOSUM, COMPLEMENTATION GROUP G (COCKAYNE SYNDROME)) (ERCC5. OMIM:133530), which when mutated leads to disease. [Source: WormBase]	DNA repair, nucleotide-excision repair, embryonic development ending in birth or egg hatching, 	nucleus, 	endonuclease activity, nuclease activity, single-stranded DNA binding, 
F57B10.5	F57B10.5	F57B10.5 [Source:RefSeq_peptide;Acc:NP_491892]	transport, 	integral to membrane, 	
bag-1	F57B10.11	A homolog of the human BAG-family of co-chaperone proteins, negatively regulates Hsp70 and affects cell stress and cell growth. [Source: WormBase]	apoptosis, protein modification process, 	cellular_component, 	protein binding, 
mei-2	F57B10.12	mei-2 encodes a novel protein that contains a region similar to the p80-targeting subunit of katanin that is required for embryonic viability, alignment of chromosomes at the metaphase plate, and establishment of the oocyte meiotic spindle together with MEI-1. can interact with MEI-1 in HeLa cells and this complex can function to disassemble microtubules, expressed in the germ line, throughout the cytoplasm of most mature oocytes within the proximal gonad, and localization is mutually dependent upon MEI-1 [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
F57B10.4	F57B10.4	F57B10.4 [Source:RefSeq_peptide;Acc:NP_491895]			protein binding, 
F57B10.3	F57B10.3	F57B10.3 encodes an experimentally confirmed cofactor-independent phosphoglycerate mutase that is essential for embryonic and larval viability, and for normal body morphology. paradoxically, F57B10.3 is also required for normally short livespan (in mass RNAi screens for Age phenotypes). F57B10.3 is expressed widely in larvae and adults, with highest expression in the nerve ring, intestine and body wall muscles. F57B10.3 probably functions in glycolytic and gluconeogenic metabolism. [Source: WormBase]	metabolic process, glucose catabolic process, positive regulation of growth rate, 	cytoplasm, 	metal ion binding, catalytic activity, manganese ion binding, phosphoglycerate mutase activity, 
F57B10.1	F57B10.1	F57B10.1 [Source:RefSeq_peptide;Acc:NP_491897]	metabolic process, regulation of transcription, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	oxidoreductase activity, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
try-6	F48A9.3	F48A9.3 [Source:RefSeq_peptide;Acc:NP_491898]	proteolysis, 		serine-type endopeptidase activity, 
F48A9.2	F48A9.2	F48A9.2 [Source:RefSeq_peptide;Acc:NP_491899]			
F48A9.1	F48A9.1	F48A9.1 [Source:RefSeq_peptide;Acc:NP_491900]			
D2092.6	D2092.6	D2092.6 [Source:RefSeq_peptide;Acc:NP_491901]			
D2092.5	D2092.5	D2092.5 [Source:RefSeq_peptide;Acc:NP_491902]			
D2092.4	D2092.4	D2092.4 [Source:RefSeq_peptide;Acc:NP_491903]			isomerase activity, 
tsp-19	D2092.7	D2092.7 [Source:RefSeq_peptide;Acc:NP_491904]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
D2092.8	D2092.8	D2092.8 [Source:RefSeq_peptide;Acc:NP_491905]			
acr-11	D2092.3	A homolog of an alpha type nicotinic acetylcholine receptor subunit involved in the mediation of fast synaptic transmission at neuromuscular junctions. [Source: WormBase]	transport, ion transport, synaptic transmission, 	membrane, integral to membrane, postsynaptic membrane, synapse, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
ppfr-2	D2092.2	D2092.2 [Source:RefSeq_peptide;Acc:NP_491907]			
D2092.10	D2092.10	D2092.10 [Source:RefSeq_peptide;Acc:NP_001032973]		intracellular, 	zinc ion binding, nucleic acid binding, 
D2092.1	D2092.1	D2092.1b [Source:RefSeq_peptide;Acc:NP_491908]	embryonic development ending in birth or egg hatching, 		protein binding, 
try-7	ZC581.6	TRYpsin-like Protease family member (try-7) [Source:RefSeq_peptide;Acc:NP_491910]	proteolysis, 		serine-type endopeptidase activity, 
ZC581.3	ZC581.3	ZC581.3 [Source:RefSeq_peptide;Acc:NP_491911]			
ZC581.2	ZC581.2	ZC581.2 [Source:RefSeq_peptide;Acc:NP_491912]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZC581.7	ZC581.7	ZC581.7 [Source:RefSeq_peptide;Acc:NP_491913]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
nekl-2	ZC581.1	nekl-2 encodes a putative serine/threonine protein kinase orthologous to Aspergillus nidulans nimA and human NEK8 (OMIM:609799), and paralogous to C. elegans D1044.3, D1044.8, F19H6.1, and Y39G10AR.3. nekl-2 interacts with two or more components of the EGF/RAS signalling pathway, and is required for such signalling in vulval development. [Source: WormBase]	protein amino acid phosphorylation, biological_process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
ZC581.9	ZC581.9	ZC581.9 encodes a serine/threonine protein kinase related to the vertebrate SCY1-like family of protein kinases. loss of ZC581.9 activity in an RNAi-hypersensitive strain results in axon guidance defects indicating that ZC581.9 likely plays a role in regulation of axon navigation. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C17F3.1	C17F3.1	C17F3.1 [Source:RefSeq_peptide;Acc:NP_491916]			
C17F3.3	C17F3.3	C17F3.3 [Source:RefSeq_peptide;Acc:NP_491917]	intracellular signaling cascade, nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T23B3.4	T23B3.4	T23B3.4 [Source:RefSeq_peptide;Acc:NP_491918]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, galanin receptor activity, gastrin receptor activity, 
T23B3.5	T23B3.5	T23B3.5 [Source:RefSeq_peptide;Acc:NP_491919]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T23B3.6	T23B3.6	T23B3.6 [Source:RefSeq_peptide;Acc:NP_491920]			
T23B3.3	T23B3.3	T23B3.3 [Source:RefSeq_peptide;Acc:NP_491921]			
T23B3.2	T23B3.2	T23B3.2 [Source:RefSeq_peptide;Acc:NP_491922]		integral to membrane, 	
T23B3.1	T23B3.1	T23B3.1 [Source:RefSeq_peptide;Acc:NP_491923]			
W02D3.4	W02D3.4	W02D3.4 [Source:RefSeq_peptide;Acc:NP_491924]	biological_process, 		
mec-6	W02D3.3	mec-6 is homologous to the human PARAOXONASE 1 gene (PON1, OMIM:168820), which in some allelic forms is associated with susceptibility to coronary artery disease. MEC-6 protein interacts physically with the MEC-4 degenerin ion channel, is colocalized with it in vivo, and is required for MEC-4 punctate expression along touch-receptor neural processes. [Source: WormBase]	mechanosensory behavior, 		arylesterase activity, 
lbp-6	W02D3.5	Fatty acid-binding protein homolog 6. [Source:Uniprot/SWISSPROT;Acc:O01812]	transport, 		transporter activity, protein binding, binding, lipid binding, 
tag-194	W02D3.6	Temporarily Assigned Gene name family member (tag-194) [Source:RefSeq_peptide;Acc:NP_491927]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
lbp-5	W02D3.7	lbp-5 encodes a predicted intracellular fatty acid binding protein (iFABP) that is most similar to the vertebrate muscle and heart FABPs. by homology, LBP-5 is predicted to function as an intracellular transporter for small hydrophobic molecules such as lipids and steroid hormones. loss of lbp-5 activity via large-scale RNAi screens indicates that, in C. elegans, LBP-5 is required for movement. [Source: WormBase]	transport, locomotory behavior, 		transporter activity, binding, lipid binding, 
smg-5	W02D3.8	smg-5 encodes a novel protein that contains two N-terminal tetratricopeptide (TPR) repeats and a C-terminal PINc domain found in nucleotide-binding proteins. SMG-5 is a component of the nonsense-mediated mRNA decay (NMD) pathway and likely functions in regulation of dephosphorylation of SMG-2, the C. elegans UPF1 ortholog, an ATPase and RNA helicase required for NMD in worms, yeast, and mammals. SMG-5 physically interacts with SMG-7, SMG-2, and the PAA-1 and LET-92 structural and catalytic subunits, respectively, of a protein phosphatase 2A (PP2A), suggesting that SMG-5 may function to direct SMG-2 to a PP2A phosphatase that regulates its activity in vivo. SMG-5 also interacts, in vivo, with components of the RNA interference (RNAi) pathway, suggesting a potential link between RNAi and NMD. SMG-5::GFP fusion proteins localize to both the nucleus and the cytoplasm. [Source: WormBase]	RNA interference, mRNA catabolic process, nonsense-mediated decay, 		protein phosphatase type 2A regulator activity, 
W02D3.2	W02D3.2	W02D3.2 [Source:RefSeq_peptide;Acc:NP_491930]	'de novo' pyrimidine base biosynthetic process, 	membrane, 	catalytic activity, dihydroorotate oxidase activity, dihydroorotate dehydrogenase activity, 
W02D3.1	W02D3.1	W02D3.1 [Source:RefSeq_peptide;Acc:NP_491931]	embryonic development ending in birth or egg hatching, 		heme binding, transition metal ion binding, 
W02D3.12	W02D3.12	W02D3.12 [Source:RefSeq_peptide;Acc:NP_740875]			
unc-37	W02D3.9	The unc-37 gene encodes a transducin-like WD-repeat protein homologous to Drosophila GROUCHO that genetically interacts with components of the transcriptional Mediator complex. [Source: WormBase]	regulation of transcription, embryonic development ending in birth or egg hatching, synaptic transmission, 	nucleus, 	protein binding, 
W02D3.10	W02D3.10	W02D3.10a [Source:RefSeq_peptide;Acc:NP_001021652]	embryonic development ending in birth or egg hatching, 		
hrpf-1	W02D3.11	W02D3.11 encodes, by alternative splicing, two protein isoforms orthologous to human hnRNP F and hnRNP H proteins, which activate alternative mRNA splicing in neurons. W02D3.11A-B proteins localize to nuclear speckles thought to represent foci of pre-mRNA. with EXC-7 and UNC-75, W02D3.11A-B may act as pre-mRNA splicing factors. [Source: WormBase]			nucleotide binding, protein binding, nucleic acid binding, 
gpc-2	F08B6.2	gpc-2 encodes one of two C. elegans heterotrimeric G protein gamma subunits. gpc-2 is required, along with its partner GPB-1, a G protein beta subunit, for proper mitotic spindle positioning and orientation during early embryonic cell divisions. to date, GPC-2 expression has been reported in electrically excitable cells (all neurons and muscles). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	heterotrimeric G-protein complex, 	signal transducer activity, 
F08B6.3	F08B6.3	F08B6.3 [Source:RefSeq_peptide;Acc:NP_491936]		endoplasmic reticulum, 	calcium ion binding, 
F08B6.1	F08B6.1	F08B6.1 [Source:RefSeq_peptide;Acc:NP_491937]			
unc-87	F08B6.4	unc-87 encodes, through alternative splicing, two proteins that are required to maintain the structure of myofilaments in body wall muscle cells. UNC-87 proteins resemble the C-terminal repeat region of calponin but have no obvious orthologs outside of nematodes. in vitro, UNC-87 proteins exist as monomers in solution, associate with thin (F-actin) filaments but not with monomeric G-actin, and bundle F-actin filaments. in vivo, UNC-87 proteins reside in the I-band of bodywall muscle, and GFP-tagged UNC-87 associates with actin stress fibers. unc-87 mutants show degeneration of myofilaments, are profoundly immobile, and have noticeable defects in egg-laying. the unc-87 mutant phenotype is partially suppressed by the unc-54(s95) mutation, which lowers myosin activity but leaves myofilaments intact, indicating that UNC-87 prevents damage by mechanical stress on myofilaments. [Source: WormBase]	locomotory behavior, 		protein binding, 
pqn-21	C37A2.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
cye-1	C37A2.4	cye-1 encodes a homolog of the G1 cell cycle regulator cyclin E. CYE-1 is required for progression through the G1 phase of the cell cycle and for endoreduplication in intestinal cells, and is required maternally both for embryonic development and for the proper execution of several post-embryonic lineages (e.g. vulval development). CYE-1 is provided maternally and expressed ubiquitously in nuclei during embryonic development. postembryonic expression is restricted to actively proliferating blast cells, including the germline. [Source: WormBase]	embryonic development ending in birth or egg hatching, DNA endoreduplication, G1/S transition of mitotic cell cycle, regulation of mitosis, 	nucleus, 	cyclin-dependent protein kinase regulator activity, 
C37A2.t1	C37A2.t1				
C37A2.3	C37A2.3	C37A2.3 [Source:RefSeq_peptide;Acc:NP_491942]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C37A2.6	C37A2.6	C37A2.6 [Source:RefSeq_peptide;Acc:NP_491943]	protein amino acid methylation, 	cytoplasm, 	protein methyltransferase activity, 
C37A2.7	C37A2.7	60S acidic ribosomal protein P2. [Source:Uniprot/SWISSPROT;Acc:O01504]	translation, translational elongation, positive regulation of growth rate, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
pqn-20	C37A2.2	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, positive regulation of multicellular organism growth, 	integral to membrane, 	rhodopsin-like receptor activity, 
C37A2.8	C37A2.8	C37A2.8b [Source:RefSeq_peptide;Acc:NP_491947]			
E02D9.1	E02D9.1	E02D9.1c [Source:RefSeq_peptide;Acc:NP_740879]	protein amino acid phosphorylation, molting cycle, protein-based cuticle, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, RNA binding, 
K02F2.5	K02F2.5	K02F2.5 [Source:RefSeq_peptide;Acc:NP_491951]			
ulp-5	K02F2.4	Ubiquitin-Like Protease family member (ulp-5) [Source:RefSeq_peptide;Acc:NP_491952]	proteolysis, 		cysteine-type peptidase activity, 
tag-203	K02F2.3	Temporarily Assigned Gene name family member (tag-203) [Source:RefSeq_peptide;Acc:NP_491953]	embryonic development ending in birth or egg hatching, 	nucleus, 	nucleic acid binding, 
ser-3	K02F2.6	ser-3 encodes a putative homolog of mammalian 5-HT4 metabotropic serotonin receptors. SER-3 is required for normal inhibition of movement by 5-HT, with ser-3 mutants being hyperactive and excessively curling their male tails (but this phenotype is reversed by exogenous 5-HT, with ser-3 mutants then becoming sluggish). SER-3 activity is required for normally high brood sizes and for embryonic development, and weakly required for pharyngeal pumping. SER-3 is expressed in pharynx, head and tail neurons, nerve ring, and intestine. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, adrenoceptor activity, 
K02F2.2	K02F2.2	Adenosylhomocysteinase (EC 3.3.1.1) (S-adenosyl-L-homocysteine hydrolase) (AdoHcyase) (Protein dumpy-14). [Source:Uniprot/SWISSPROT;Acc:P27604]	one-carbon compound metabolic process, negative regulation of multicellular organism growth, 		protein binding, adenosylhomocysteinase activity, 
dpf-3	K02F2.1	K02F2.1b [Source:RefSeq_peptide;Acc:NP_491957]	proteolysis, 	membrane, 	serine-type peptidase activity, dipeptidyl-peptidase IV activity, aminopeptidase activity, 
dpy-14	H27M09.4	dpy-14 encodes a type III (alpha 1) collagen that is required for embryonic, larval, and vulval development, proper amphid morphology, and regulation of body shape and size. a dpy-14 promoter-GFP fusion construct is reportedly expressed in embryonic neurons. [Source: WormBase]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
H27M09.5	H27M09.5	H27M09.5 [Source:RefSeq_peptide;Acc:NP_491959]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
H27M09.3	H27M09.3	H27M09.3 [Source:RefSeq_peptide;Acc:NP_491960]			
H27M09.2	H27M09.2	H27M09.2 encodes the C.elegans ortholog of RPB5 which, in eukaryotes, is a key, shared component of all three nuclear RNA polymerases. RNAi experiments indicate that H27M09.2 gene activity is required for fertility and for embryonic development. [Source: WormBase]	transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
H27M09.1	H27M09.1	H27M09.1 [Source:RefSeq_peptide;Acc:NP_491962]	embryonic development ending in birth or egg hatching, 		ATP binding, zinc ion binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
glh-1	T21G5.3	glh-1 encodes a putative DEAD-box RNA helicase that contains four CCHC zinc fingers and is homologous to Drosophila VASA, a germ-line-specific, ATP-dependent RNA helicase. at permissive temperature, GLH-1 is required redundantly with GLH-4 for proper germ-line development and fertility, specifically for regulating the normal extent of germ-line proliferation, oogenesis, and the production of functional sperm. GLH-1 activity is also likely required for the wild-type morphology of P granules and for localization of several protein components, such as PGL-1, but not for accumulation of P granule mRNAs. GLH-1 interacts in vivo with CSN-5, a COP9 signalosome component, and in vitro with itself and with KGB-1, a JNK-like MAP kinase, ZYX-1, a LIM domain-containing zyxin homologue, and GLH-3. GLH-1 is a constitutive P granule component and thus, with the exception of mature sperm, is expressed in germ cells at all stages of development. consistent with its P granule localization, GLH-1 is cytoplasmic in oocytes and the early embryo, while perinuclear in all later developmental stages as well as in the distal and medial regions of the hermaphrodite gonad. GLH-1 is also expressed in males. [Source: WormBase]	post-embryonic development, 		ATP binding, zinc ion binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
T21G5.6	T21G5.6	T21G5.6 [Source:RefSeq_peptide;Acc:NP_001076612]			
T21G5.2	T21G5.2	T21G5.2 [Source:RefSeq_peptide;Acc:NP_491964]			
T21G5.4	T21G5.4	T21G5.4 [Source:RefSeq_peptide;Acc:NP_491965]	growth, 		protein binding, 
T21G5.1	T21G5.1	T21G5.1 [Source:RefSeq_peptide;Acc:NP_491966]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
asd-2	T21G5.5	STAR (RNA binding protein) family member (star-2) [Source:RefSeq_peptide;Acc:NP_001021626]	positive regulation of growth rate, 		RNA binding, protein binding, 
C48B6.4	C48B6.4	C48B6.4 [Source:RefSeq_peptide;Acc:NP_491968]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
srb-15	C48B6.5	Serpentine receptor class beta-15 (Protein srb-15). [Source:Uniprot/SWISSPROT;Acc:O01509]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
smg-1	C48B6.6	smg-1 encodes a phosphatidylinositol kinase-related protein kinase. smg-1 functions as a key component of the nonsense-mediated mRNA decay (NMD) pathway that identifies and degrades mRNAs that contain premature stop codons. in vitro, SMG-1 is capable of phosphorylating SMG-2/UPF1, an RNA helicase whose activity is also required for NMD and with which SMG-1 coimmunoprecipitates from crude extracts. [Source: WormBase]	hermaphrodite genitalia development, mRNA catabolic process, nonsense-mediated decay, 	cellular_component, 	phosphotransferase activity, alcohol group as acceptor, 
C48B6.3	C48B6.3	C48B6.3 [Source:RefSeq_peptide;Acc:NP_491971]			
C48B6.2	C48B6.2	Putative 40S ribosomal protein S4-like. [Source:Uniprot/SWISSPROT;Acc:O01513]	positive regulation of growth rate, 		RNA binding, rRNA binding, 
bbs-9	C48B6.8	C48B6.8 [Source:RefSeq_peptide;Acc:NP_491973]			
C48B6.10	C48B6.10	C48B6.10 [Source:RefSeq_peptide;Acc:NP_491974]			
C48B6.9	C48B6.9	C48B6.9 [Source:RefSeq_peptide;Acc:NP_491975]		membrane, 	mating-type factor pheromone receptor activity, 
ztf-4	T10B11.3	T10B11.3 [Source:RefSeq_peptide;Acc:NP_491976]		intracellular, 	nucleotide binding, protein binding, zinc ion binding, nucleic acid binding, 
T10B11.2	T10B11.2	T10B11.2 [Source:RefSeq_peptide;Acc:NP_491977]	protein kinase C activation, 		diacylglycerol kinase activity, 
T10B11.4	T10B11.4	T10B11.4 [Source:RefSeq_peptide;Acc:NP_491978]			
T10B11.5	T10B11.5	T10B11.5 [Source:RefSeq_peptide;Acc:NP_491979]			
T10B11.6	T10B11.6	T10B11.6 [Source:RefSeq_peptide;Acc:NP_491980]			protein binding, 
T10B11.7	T10B11.7	T10B11.7a [Source:RefSeq_peptide;Acc:NP_001040682]			
pcbd-1	T10B11.1	T10B11.1 is orthologous to the human gene PTERIN-4-ALPHA-CARBINOLAMINE DEHYDRATASE (PCBD or TCF1. OMIM:126090), which when mutated leads to hyperphenylalaninemia with primapterinuria. [Source: WormBase]			
T10B11.8	T10B11.8	T10B11.8 [Source:RefSeq_peptide;Acc:NP_001032979]	embryonic development ending in birth or egg hatching, 		
C30F12.1	C30F12.1	C30F12.1 [Source:RefSeq_peptide;Acc:NP_491985]	morphogenesis of an epithelium, 		protein binding, zinc ion binding, nucleic acid binding, 
C30F12.2	C30F12.2	C30F12.2 [Source:RefSeq_peptide;Acc:NP_491986]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, 
C30F12.3	C30F12.3	C30F12.3 [Source:RefSeq_peptide;Acc:NP_491987]			
C30F12.4	C30F12.4	C30F12.4 [Source:RefSeq_peptide;Acc:NP_491988]			
C30F12.7	C30F12.7	C30F12.7 [Source:RefSeq_peptide;Acc:NP_491989]	metabolic process, tricarboxylic acid cycle, 	mitochondrion, 	oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NAD+) activity, 
C30F12.6	C30F12.6	C30F12.6 [Source:RefSeq_peptide;Acc:NP_491990]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, thyrotropin-releasing hormone receptor activity, 
C30F12.5	C30F12.5	C30F12.5 [Source:RefSeq_peptide;Acc:NP_491991]			
H06O01.4	H06O01.4	H06O01.4 [Source:RefSeq_peptide;Acc:NP_491992]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ctg-1	H06O01.3	CRAL/TRIO and GOLD domain containing family member (ctg-1) [Source:RefSeq_peptide;Acc:NP_491993]	transport, 	integral to membrane, intracellular, 	transporter activity, 
H06O01.2	H06O01.2	H06O01.2 [Source:RefSeq_peptide;Acc:NP_491994]	chromatin assembly or disassembly, 	nucleus, chromatin, 	ATP binding, DNA binding, nucleic acid binding, helicase activity, chromatin binding, ATP-dependent helicase activity, 
pdi-3	H06O01.1	pdi-3 encodes a protein disulfide isomerase (PDI) required for normal cuticle collagen deposition and, subliminally, for maintenance of normal body shape. PDI-3 has both PDI and calcium-dependent transglutaminase activity in vitro, crosslinking proteins through a gamma-glutamyl epsilon-lysine dual residue. PDI-3 is homologous to the human PDI ERp60, as well as a homolog in the dog heartworm Dirofilaria immitis that is required for larval molting. the joint PDI/transglutaminase activity of PDI-3 is biochemically conserved in nematodes and mammals. pdi-3 is constitutively and broadly expressed, particularly in gut and hypodermis. [Source: WormBase]	cell redox homeostasis, positive regulation of multicellular organism growth, collagen and cuticulin-based cuticle development, body morphogenesis, 	endoplasmic reticulum, 	isomerase activity, 
F15C11.2	F15C11.2	F15C11.2a [Source:RefSeq_peptide;Acc:NP_740883]	protein modification process, 		
sem-4	F15C11.1	SEx Muscle abnormal family member (sem-4) [Source:RefSeq_peptide;Acc:NP_491997]	oviposition, 	intracellular, nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
W01A8.7	W01A8.7	W01A8.7 [Source:RefSeq_peptide;Acc:NP_001040694]	RNA processing, 		RNA binding, adenosine deaminase activity, 
W01A8.2	W01A8.2	W01A8.2 [Source:RefSeq_peptide;Acc:NP_001076616]			
W01A8.8	W01A8.8	W01A8.8 [Source:RefSeq_peptide;Acc:NP_001076617]			
mdt-28	W01A8.1	MeDiaTor family member (mdt-28) [Source:RefSeq_peptide;Acc:NP_001021647]			
W01A8.3	W01A8.3	W01A8.3 [Source:RefSeq_peptide;Acc:NP_492000]			
W01A8.4	W01A8.4	W01A8.4 encodes the C. elegans ortholog of the NDUFB4/B15 subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 	mitochondrion, 	NADH dehydrogenase (ubiquinone) activity, 
W01A8.5	W01A8.5	W01A8.5 [Source:RefSeq_peptide;Acc:NP_492002]	photosynthesis, embryonic development ending in birth or egg hatching, 	phycobilisome, 	
W01A8.6	W01A8.6	W01A8.6 [Source:RefSeq_peptide;Acc:NP_492003]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
kin-14	F22D6.1	kin-14 encodes a member of the tyrosine-specific subfamily of kinases that contains an SH2 domain, and has with similarity to the human proto-oncogene tyrosine-protein kinase FER. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, positive regulation of multicellular organism growth, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F22D6.2	F22D6.2	F22D6.2 [Source:RefSeq_peptide;Acc:NP_492005]			zinc ion binding, DNA binding, 
nrs-1	F22D6.3	nrs-1 encodes an asparaginyl-tRNA synthetase that is required for embryonic viability and fertility [Source: WormBase]	translation, tRNA aminoacylation for protein translation, aspartyl-tRNA aminoacylation, asparaginyl-tRNA aminoacylation, reproduction, 	cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, aminoacyl-tRNA ligase activity, aspartate-tRNA ligase activity, asparagine-tRNA ligase activity, 
F22D6.4	F22D6.4	F22D6.4 encodes an NDUFS6/13 kDa subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). F22D6.4 is required for oxidative phosphorylation and for resistance to volatile anesthetics. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
prpf-4	F22D6.5	yeast PRP (splicing factor) related family member (prp-4) [Source:RefSeq_peptide;Acc:NP_492008]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
NR_003380.1	F22D6.16	F22D6.16, snoRNA [Source:RefSeq_dna;Acc:NR_003380]			
ekl-1	F22D6.6	Enhancer of Ksr-1 Lethality family member (ekl-1) [Source:RefSeq_peptide;Acc:NP_492009]	embryonic development ending in birth or egg hatching, 		nucleic acid binding, 
F22D6.14	F22D6.14				
F22D6.8	F22D6.8	F22D6.8 [Source:RefSeq_peptide;Acc:NP_001040651]			
F22D6.7	F22D6.7	F22D6.7 [Source:RefSeq_peptide;Acc:NP_492011]			
F22D6.9	F22D6.9	F22D6.9 [Source:RefSeq_peptide;Acc:NP_492012]			hydrolase activity, 
F22D6.15	F22D6.15	F22D6.15 [Source:RefSeq_peptide;Acc:NP_001021404]			transferase activity, transferring hexosyl groups, 
col-60	F22D6.10	F22D6.10 [Source:RefSeq_peptide;Acc:NP_492013]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
gly-18	F22D6.11	GLY-18 is similar to 2/I N-acetylglucosaminyltransferase. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
gly-19	F22D6.12	gly-19 encodes a protein similar to 2/I N-acetylglucosaminyltransferase. it is probably coexpressed with gly-18 in the anal sphincter muscle. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
K10D3.6	K10D3.6	K10D3.6 [Source:RefSeq_peptide;Acc:NP_492016]			
glr-3	K10D3.1	glr-3 encodes a protein that contains a ligand-gated ion channel domain and a receptor family ligand binding domain with similarity to kainate-selective ionotropic glutamate receptor 2 (human GRIK2). expressed in the RIA neuron. [Source: WormBase]	transport, ion transport, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, sugar binding, 
unc-14	K10D3.2	The unc-14 gene encodes an activity required for both axonogenesis and sex myoblast migration. [Source: WormBase]	locomotory behavior, 		
taf-11.2	K10D3.3	TAF (TBP-associated transcription factor) family member (taf-11.2) [Source:RefSeq_peptide;Acc:NP_492019]	regulation of transcription, 	nucleus, 	RNA polymerase II transcription factor activity, 
K10D3.4	K10D3.4	K10D3.4 [Source:RefSeq_peptide;Acc:NP_492020]			protein binding, serine-type endopeptidase inhibitor activity, 
H37N21.1	H37N21.1	H37N21.1 [Source:RefSeq_peptide;Acc:NP_492022]	protein amino acid phosphorylation, G-protein coupled receptor protein signaling pathway, oviposition, 	integral to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
K07G5.6	K07G5.6	K07G5.6 [Source:RefSeq_peptide;Acc:NP_492023]	heme biosynthetic process, 		ferrochelatase activity, 
crml-1	K07G5.1	K07G5.1 [Source:RefSeq_peptide;Acc:NP_492024]			protein binding, 
xpa-1	K07G5.2	xpa-1 encodes an ortholog of human XPA, the xeroderma pigmentosum complementation group A protein (OMIM:278700, mutations are associated with sensitivity to ultraviolet light and carcinomata at an early age). by homology, XPA-1 is predicted to function as a DNA-binding protein that is required for nucleotide excision repair of damaged DNA. in C. elegans, loss of xpa-1 activity via mutation or RNA-mediated interference (RNAi) results in increased sensitivity to UV irradiation at all stages of development. xpa-1 mRNA is detected in eggs and mixed stage populations. [Source: WormBase]	nucleotide-excision repair, 	nucleus, 	nucleotide binding, damaged DNA binding, 
K07G5.3	K07G5.3	K07G5.3 [Source:RefSeq_peptide;Acc:NP_492026]			
K07G5.4	K07G5.4	K07G5.4 [Source:RefSeq_peptide;Acc:NP_492027]			calcium ion binding, 
K07G5.5	K07G5.5	K07G5.5 [Source:RefSeq_peptide;Acc:NP_492028]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
M05B5.2	M05B5.2	M05B5.2 [Source:RefSeq_peptide;Acc:NP_492029]	positive regulation of growth rate, 		
M05B5.1	M05B5.1	M05B5.1 [Source:RefSeq_peptide;Acc:NP_492030]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
M05B5.6	M05B5.6	M05B5.6 [Source:RefSeq_peptide;Acc:NP_492031]			
M05B5.3	M05B5.3	M05B5.3 [Source:RefSeq_peptide;Acc:NP_492032]			
M05B5.4	M05B5.4	The M05B5.4 gene encodes an ortholog of the human gene LECITHIN-CHOLESTEROL ACYLTRANSFERASE (LCAT. OMIM:606967), which when mutated leads to lecithin-cholesterol acyltransferase deficiency (OMIM:245900). [Source: WormBase]	lipid metabolic process, 		phosphatidylcholine-sterol O-acyltransferase activity, 
hlh-2	M05B5.5	hlh-2 encodes a Class I basic helix-loop-helix (bHLH) transcription factor that is the C. elegans ortholog of the mammalian E and Drosophila Daughterless transcriptional activators. HLH-2 activity is required for cell fate specifications occuring during embryonic and larval development that affect such processes as gonadogenesis, male tail formation, and programmed cell death. HLH-2 has been shown to dimerize with at least two C. elegans Acheate-scute homologs, LIN-32, a neural-specific protein with which it functions in male tail development and HLH-3, with which it is coexpressed in the nuclei of embryonic neuronal prescursors and with which it regulates the transcription of the EGL-1 cell death activator in the NSM sister cells. in gonadogenesis, HLH-2 is required for bestowing proAC competence on the cells that undergo the AC/VU (anchor cell/ventral uterine precursor) cell fate decision, for specification, differentiation, and function of the distal tip cell (DTC) and AC, including transcriptional regulation of the LAG-2 Delta-like ligand in the latter, and for formation of the uterine seam cell (utse). genetic analysis also suggests that HLH-2 functions with HLH-14, an additional Acaete-scute homolog, to specify the PVQ/HSN/PHB neuroblast cell lineage. HLH-2 is expressed in all nuclei of early embryos until the ~200-cell stage, when expression becomes increasingly restricted to neuronal cells and their immediate precursors. later expression is detected in, but not limited to, pharyngeal cells, anterior neurons, vulval and uterine muscles, the DTCs, the presumptive and mature AC, the Q neuroblast, and enteric muscles. comparative analysis of transcriptional and translational reporters indicates that hlh-2 is expressed in both the anchor cell and the ventral uterine (VU) precursor, but that expression in the latter is subject to post-transcriptional down-regulation. HLH-2 accumulation in the presumptive AC is the first detectable difference between the AC and VU precursors during the lateral specification event that distinguishes these two cell fates. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, cell fate specification, tail tip morphogenesis, 	nucleus, 	transcription regulator activity, transcription factor activity, 
col-61	C01H6.1	C01H6.1 [Source:RefSeq_peptide;Acc:NP_492035]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C01H6.2	C01H6.2	C01H6.2 [Source:RefSeq_peptide;Acc:NP_492036]			
C01H6.3	C01H6.3	C01H6.3 [Source:RefSeq_peptide;Acc:NP_492037]			
C01H6.4	C01H6.4	C01H6.4 [Source:RefSeq_peptide;Acc:NP_492038]	electron transport, 		oxidoreductase activity, monooxygenase activity, FAD binding, 
nhr-23	C01H6.5	The nhr-23 gene encodes a nuclear hormone receptor homolog that is required in all larval molts. NHR-23 is highly similar to Drosophila DHR3, an ecdysone-inducible gene product involved in metamorphosis. NHR-23 is required for hypodermal expression of acn-1 and, probably, of dpy-7. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, thyroid hormone receptor activity, 
C01H6.6	C01H6.6	C01H6.6 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C33D12.2, C52D10.12, M02F4.3, R04E5.2, and R13G10.4. by orthology with MAM3, C01H6.6 may participate in metal homoeostasis. C01H6.6, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. C01H6.6 has no obvious function in RNAi assays. [Source: WormBase]			
tag-298	C01H6.7	C01H6.7 [Source:RefSeq_peptide;Acc:NP_492041]	positive regulation of growth rate, 		protein binding, 
C01H6.8	C01H6.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYT3]			
C01H6.9	C01H6.9	C01H6.9 encodes a homolog of haploid germ cell-specific nuclear protein kinase (haspin) that specifically binds GOA-1 in yeast two-hybrid assays. C01H6.9 is expressed in PHB sensory neurons and PVT interneurons in the tail, several unidentified neurons in the head (with projections to the nose and nerve ring), and intestinal cells, with mainly nuclear localization. C01H6.9 has no obvious function or phenotype in RNAi assays, either alone or with inactivation of a close paralog (F22H10.5). [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R06C7.2	R06C7.2	R06C7.2 [Source:RefSeq_peptide;Acc:NP_492044]			
R06C7.1	R06C7.1	Germ cell-expressed protein R06C7.1. [Source:Uniprot/SWISSPROT;Acc:Q21770]			
dhp-1	R06C7.3	dhp-1 encodes a homolog of the human gene DPYS, which when mutated leads to dihydropyrimidinuria (OMIM:222748). [Source: WormBase]			hydrolase activity, 
cpg-3	R06C7.4	cgp-3 encodes a putatively secreted protein with an N-terminal low-complexity domain containing 15 potential chondroitin attachment sites, and a C-terminal EGF-like region. cpg-3 mRNA is enriched in oogenesis, but CPG-3 has no obvious function in mass RNAi assays. [Source: WormBase]			
R06C7.6	R06C7.6	R06C7.6 [Source:RefSeq_peptide;Acc:NP_492048]			
R06C7.5	R06C7.5	The R06C7.5 gene encodes an ortholog of the human gene ADSL, which when mutated leads to adenylosuccinate lyase deficiency (OMIM:103050). [Source: WormBase]	purine ribonucleotide biosynthetic process, embryonic development ending in birth or egg hatching, 		catalytic activity, adenylosuccinate lyase activity, 
lin-61	R06C7.7	lin-61 encodes a protein that contains mbt repeats and has similarity to the Drosophila Polycomb group protein Sex Comb on Midleg and human protein H-l-(3)mbl-like. by homology, LIN-61 is predicted to function as part of a transcriptional regulatory complex that may play a role in transcriptional repression during development. loss of lin-61 activity via RNAi and forward mutations indicates that LIN-61 is required for: 1) genome stability in the soma and germline, and 2) postembryonic developmental processes such as vulval development, in which lin-61 acts as a class B synthetic multivulval (SynMuv) gene. [Source: WormBase]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	
bub-1	R06C7.8	bub-1 encodes a serine/threonine kinase orthologous to Saccharomyces cerevisiae BUB1 which is required for proper function of the mitotic spindle assembly checkpoint and human BUB1 (OMIM:602452) which is mutated in some colorectal cancers. BUB-1 activity is required at several stages of development, including embryogenesis. BUB-1 is expressed predominantly in the anterior of the embryo and in hypodermal seam cells during the L1 and L2 larval stages. [Source: WormBase]	protein amino acid phosphorylation, morphogenesis of an epithelium, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
R06C7.9	R06C7.9	R06C7.9 [Source:RefSeq_peptide;Acc:NP_492052]		intracellular, 	zinc ion binding, nucleic acid binding, 
let-75	R06C7.10	let-75 encodes a pharynx-specific type II myosin heavy chain (MHC D). LET-75 is required for pharyngeal muscle contraction and thus for normal feeding behavior and post-embryonic development. in vitro, the LET-75 tail domain interacts with ITR-1, an IP3 receptor, and this interaction has been proposed to mediate, in vivo, increased pharnygeal pumping in response to food. LET-75 is expressed exclusively in pharyngeal muscle. [Source: WormBase]	signal transduction, chemotaxis, growth, muscle contraction, 	membrane, myosin complex, 	ATP binding, nucleotide binding, signal transducer activity, motor activity, 
twk-1	F21C3.1	TWiK family of potassium channels family member (twk-1) [Source:RefSeq_peptide;Acc:NP_492054]	potassium ion transport, 	membrane, 	potassium channel activity, 
tyr-3	F21C3.2	Putative tyrosinase-like protein tyr-3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19673]	metabolic process, 		oxidoreductase activity, 
F21C3.t1	F21C3.t1				
tag-202	F21C3.3	HIT-like protein tag-202. [Source:Uniprot/SWISSPROT;Acc:P53795]			
rde-2	F21C3.4	rde-2 encodes a novel protein that is conserved in at least two other Caenorhabditis species. rde-2 is required for the functional silencing of chromosomal loci by transgenes (cosuppression) and promotes the effects of RNAi in a step after the formation of a heritable interfering agent, also affects X-chromosome nondisjunction and transposon activation. functions downstream of rde-1 in the RNAi pathway most effective against germline, but not somatically expressed, genes. RDE-2 is present predominantly in the cytosol, in complexes with MUT-7, a predicted exoribonuclease also required for RNA interference. [Source: WormBase]	RNA interference, 		protein binding, 
pfd-6	F21C3.5	Probable prefoldin subunit 6. [Source:Uniprot/SWISSPROT;Acc:P52554]	protein folding, positive regulation of growth rate, 	prefoldin complex, 	unfolded protein binding, 
F21C3.6	F21C3.6	F21C3.6 [Source:RefSeq_peptide;Acc:NP_492059]			
ztf-2	F13G3.1	Zinc finger Transcription Factor family member (ztf-2) [Source:RefSeq_peptide;Acc:NP_492060]		intracellular, 	zinc ion binding, nucleic acid binding, 
srd-53	F13G3.2	Serpentine Receptor, class D (delta) family member (srd-53) [Source:RefSeq_peptide;Acc:NP_492061]			
F13G3.12	F13G3.12	F13G3.12 [Source:RefSeq_peptide;Acc:NP_001021102]			
F13G3.3	F13G3.3	UPF0392 protein F13G3.3. [Source:Uniprot/SWISSPROT;Acc:Q19417]			
dylt-1	F13G3.4	DYnein Light chain (Tctex type] family member (dylt-1) [Source:RefSeq_peptide;Acc:NP_492063]			protein binding, 
ttx-7	F13G3.5	ttx-7 encodes, by alternative splicing, two isoforms of a myo-inositol monophosphatase (IMPase) required for normal thermotaxis and chemotaxis to sodium, as well as for subcellular localization of SNB-1 and SNG-1 in RIA interneurons. one isoform ('ttx-7a') has much higher transgenic rescuing activity of ttx-7(nj40) than the other ('ttx-7b'), so ttx-7a is considered the major isoform in vivo. a rescuing translational fusion of TTX-7 to EGFP is strongly expressed in coelomocytes and a few head and tail neurons, with weaker expression in motor neurons, intestine, and somatic gonad. TTX-7::EGFP is cytoplasmic, and can rescue mutant phenotypes when transiently expressed in adults. TTX-7 proteins are orthologous to human IMPA1 (OMIM:602064) and IMPA2 (OMIM:605922), possible mediators of manic depressive psychosis. ttx-7 mutations display ahtermic and chemotactic phenotypes, partially suppress the thermophilic phenotype of tax-6 mutations, and cause mislocalization of SNB-1 and SNG-1. while ttx-7 expression is required in RIA to rescue thermotaxis phenotypes, RIA in ttx-7 mutants is morphologically normal. ttx-7 mutant phenotypes can be rescued by exogenous inositol applied to adults. ttx-7 mutations can be phenocopied in wild-type worms by lithium treatment of adults, and this phenocopy can be suppressed by overexpression of a ttx-7 transgene, or by exogenous inositol or sorbitol. ttx-7 mutant development is delayed by exogenous galactose, implying a link between TTX-7/IMPase and galactose metabolism. [Source: WormBase]	carbohydrate metabolic process, 		phosphoric ester hydrolase activity, inositol or phosphatidylinositol phosphatase activity, 
F13G3.6	F13G3.6	F13G3.6 [Source:RefSeq_peptide;Acc:NP_492065]			
F13G3.7	F13G3.7	F13G3.7b [Source:RefSeq_peptide;Acc:NP_001021104]	transport, determination of adult life span, 	membrane, mitochondrial inner membrane, 	binding, 
F13G3.11	F13G3.11	F13G3.11 [Source:RefSeq_peptide;Acc:NP_492067]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
eat-5	F13G3.8	eat-5 encodes an innexin, expressed in pharyngeal muscle cell groups pm4 and pm5, that is required for synchronized pharyngeal muscle contractions, and for normal electrical connections between pharyngeal muscle cells. EAT-5 forms electrically permeable intercellular channels (gap junctions), with a predicted membrane topology analogous to that of connexins, which affects electrical coupling between different parts of the pharynx and thus affects feeding. [Source: WormBase]		gap junction, 	
mif-3	F13G3.9	MIF-like protein mif-3. [Source:Uniprot/SWISSPROT;Acc:P90835]			
F13G3.10	F13G3.10	F13G3.10 [Source:RefSeq_peptide;Acc:NP_492070]			
F52A8.1	F52A8.1	F52A8.1 [Source:RefSeq_peptide;Acc:NP_492071]			
gpb-2	F52A8.2	gpb-2 encodes an ortholog of Gbeta(5), that is dispensable for viability, but required for normal egg-laying, locomotion, and pharyngeal pumping. GBP-2 may regulate the interaction between the GOA-1 and EGL-30 signaling pathways based on genetic analysis. gpb-2 is expressed throughout development in the nervous system and in muscle, and expression is dependent upon expression of both EAT-16 and EGL-10. [Source: WormBase]	regulation of oviposition, regulation of G-protein coupled receptor protein signaling pathway, 		
F52A8.3	F52A8.3	F52A8.3a [Source:RefSeq_peptide;Acc:NP_001021475]			
F52A8.4	F52A8.4	F52A8.4 [Source:RefSeq_peptide;Acc:NP_492074]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
F52A8.5	F52A8.5	F52A8.5 is orthologous to the human gene GLYCINE CLEAVAGE SYSTEM PROTEIN H (GCSH. OMIM:238330), which when mutated leads to glycine encephalopathy. [Source: WormBase]	glycine catabolic process, embryonic development ending in birth or egg hatching, 	glycine cleavage complex, 	
F52A8.6	F52A8.6	NF-kappa-B inhibitor-interacting Ras-like protein (Kappa B-Ras) (KappaB-Ras). [Source:Uniprot/SWISSPROT;Acc:Q19143]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
inx-14	F07A5.1	inx-14 encodes a predicted member of the innexin family that affects embryonic viability and fertility. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	gap junction, 	
F07A5.2	F07A5.2	F07A5.2 [Source:RefSeq_peptide;Acc:NP_492080]			
F07A5.3	F07A5.3	F07A5.3 [Source:RefSeq_peptide;Acc:NP_492081]	cell adhesion, 	membrane, 	
F07A5.4	F07A5.4	F07A5.4 [Source:RefSeq_peptide;Acc:NP_492082]			
sue-1	F07A5.5	SUppressor of Elongation defect family member (sue-1) [Source:RefSeq_peptide;Acc:NP_492083]			
F07A5.6	F07A5.6	F07A5.6 [Source:RefSeq_peptide;Acc:NP_492084]			
unc-15	F07A5.7	The unc-15 gene encodes a paramyosin ortholog. UNC-15 protein physically interacts with MHC A, one isoform of myosin heavy chain (MHC) in striated muscle. UNC-15 accumulation is decreased in the absence of UNC-54 (myosin B), implying that degradation of UNC-15 is inhibited by its binding myosin B. conversely, myosin B (but not MYO-3/myosin A) fails to accumulate in unc-15 mutants. [Source: WormBase]	carbohydrate metabolic process, oviposition, 	myosin complex, 	protein binding, hydrolase activity, hydrolyzing O-glycosyl compounds, motor activity, 
col-35	C15A11.1	col-35 encodes a collagen that is individually dispensable for viability and gross morphology in mass RNAi screens. the amino- and carboxyl-terminal cysteine-rich regions of COL-35 are most closely related to those of COL-8, COL-19, and COL-39. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, cytoplasm, 	alpha2-adrenergic receptor activity, 
C15A11.2	C15A11.2	C15A11.2 [Source:RefSeq_peptide;Acc:NP_492087]			
sol-1	C15A11.3	Suppressor of lurcher protein 1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q93212]			
C15A11.4	C15A11.4	C15A11.4 [Source:RefSeq_peptide;Acc:NP_492089]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
col-7	C15A11.5	col-7 encodes a member of the collagen superfamily containing collagen triple helix repeats (20 copies). expressed during the L2-to-dauer molt and the L4-to-adult molt. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-62	C15A11.6	C15A11.6 [Source:RefSeq_peptide;Acc:NP_492091]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
C15A11.7	C15A11.7	C15A11.7 [Source:RefSeq_peptide;Acc:NP_492092]	response to antibiotic, tetracycline transport, 	integral to membrane, 	protein binding, tetracycline:hydrogen antiporter activity, 
unc-13	ZK524.2	unc-13 encodes at least five protein isoforms that regulate neurotransmitter release by altering the conformation of syntaxin. UNC-13 proteins are required for normal pharyngeal pumping and thrashing in liquid, normally short lifespan, normally large brood sizes, and full adult body sizes. UNC-13 proteins have orthologs in vertebrates and Drosophila. UNC-13 proteins are complex, with multiple C2, phorbol ester-binding, and DUF1041 domains. UNC-13 protein form is localized to most or all synapses. many of the unc-13 mutant alleles with viable phenotypes are transcript-specific, while homozygotes with an unc-13 null (deletion) allele die as paralyzed first-stage larvae. [Source: WormBase]	intracellular signaling cascade, regulation of oviposition, 		
spe-4	ZK524.1	spe-4 encodes a transmembrane protein that is a divergent member of the presenilin family of proteins that have been implicated in early-onset Alzheimer's disease (OMIM:104300). spe-4 activity is required for proper formation and function of the fibrous body-membranous organelles that are asymmetrically localized to spermatids during spermatogeneis. spe-4 is also required for proper partitioning of tubulin as spermatids bud from the residual body. spe-4 localizes to the fibrous body-membranous organelles of developing spermatocytes and also to the spermatozoon cell body. [Source: WormBase]	intracellular signaling cascade, spermatid development, 	integral to membrane, 	molecular_function, 
lrs-2	ZK524.3	Leucyl tRNA Synthetase family member (lrs-2) [Source:RefSeq_peptide;Acc:NP_001021875]	translation, tRNA aminoacylation for protein translation, leucyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, leucine-tRNA ligase activity, 
ZK524.4	ZK524.4	ZK524.4 [Source:RefSeq_peptide;Acc:NP_492097]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T28F4.1	T28F4.1	T28F4.1 [Source:RefSeq_peptide;Acc:NP_492098]			protein binding, 
asic-2	T28F4.2	Degenerin-like protein asic-2 (Acid-sensing/amiloride-sensitive ion channel protein 2). [Source:Uniprot/SWISSPROT;Acc:Q22851]	ion transport, sodium ion transport, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, 
T28F4.3	T28F4.3	T28F4.3 [Source:RefSeq_peptide;Acc:NP_492100]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
T28F4.4	T28F4.4	T28F4.4 [Source:RefSeq_peptide;Acc:NP_492101]			
T28F4.5	T28F4.5	The T28F4.5 gene encodes a homolog of Death Associated Protein 1 (DAP-1) protein that may be involved in apoptosis. [Source: WormBase]			
T28F4.6	T28F4.6	T28F4.6 [Source:RefSeq_peptide;Acc:NP_492103]			
tag-185	C26C6.1	tag-185/C26C6.1 encodes an ortholog of human polybromo 1 (OMIM:606083) that interacts with two or more components of the EGF/RAS signalling pathway, and is required for such signalling in vulval development. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	intracellular, nucleus, chromatin, 	zinc ion binding, DNA binding, nucleic acid binding, 
C26C6.8	C26C6.8	C26C6.8 [Source:RefSeq_peptide;Acc:NP_492105]			
C26C6.6	C26C6.6	C26C6.6 [Source:RefSeq_peptide;Acc:NP_492106]			zinc ion binding, 
C26C6.7	C26C6.7	C26C6.7 [Source:RefSeq_peptide;Acc:NP_492107]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C26C6.9	C26C6.9	C26C6.9 [Source:RefSeq_peptide;Acc:NP_001021011]			
goa-1	C26C6.2	The goa-1 gene encodes an ortholog of the heterotrimeric G protein alpha subunit Go (Go/Gi class) that affects normal locomotion, egg-laying, and male mating. it genetically interacts with the egl-30 pathway, and is expressed in all neurons and sex-specific muscles. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, regulation of pharyngeal pumping, 	intracellular, 	protein binding, GTP binding, signal transducer activity, guanyl nucleotide binding, 
nas-36	C26C6.3	nas-36 encodes an astacin-like protease. nas-36 activity is required for molting. a nas-36::gfp reporter is expressed in hypodermal cells. [Source: WormBase]	proteolysis, locomotory behavior, 		zinc ion binding, metallopeptidase activity, astacin activity, 
C26C6.4	C26C6.4	C26C6.4a [Source:RefSeq_peptide;Acc:NP_001040638]			
dcp-66	C26C6.5	dcp-66 encodes an ortholog of the NuRD component p66, and is required for excretory cell differentiation and vulval development. DCP-66 is predicted, by orthology, to be a member of the transcriptionally inhibitory nucleosomal remodelling and deacetylase (NuRD) complex. DCP-66 binds the Ex-1 pgp-12 promoter element both in vivo and in vitro, is expressed in excretory cells from embryos through adults, and is required for pgp-12 expression in excretory cells. DCP-66 is dispensable for excretory cell expression of pgp-4. DCP-66 is also expressed in adult pharynx, vulva, and posterior neurons, and negatively regulates lag-2 expression. dcp-66(gk370) mutants generally die as small adults with desiccated germlines and shrunken intestines, implying a fatal defect in osmoregulation, as well as defective vulvas. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T25G3.1	T25G3.1	T25G3.1 [Source:RefSeq_peptide;Acc:NP_492112]			
chs-1	T25G3.2	chs-1 encodes a chitin synthase, paralogous to CHS-2. chs-1 is required for embryonic chitin synthesis, eggshell synthesis and osmotic integrity, error-free chromosomal segregation during meiosis, polar body extrusion, association of the sperm pronucleus/centrosome complex (SPCC) with the early embryonic cortex, localization of PAR-2 in early embryos, posterior localization of P granules or PIE-1, and pseudocleavage. CHS-1 is also, independently of chitin synthesis, required for normal localization of MBK-2 to cortex and punctae in early embryos. CHS-1 is dispensable for synthesis of pharyngeal cuticle, since chs-1(ok1120) mutants have it normally. CHS-1 is predicted to be in the plasma membrane rather than the Golgi apparatus. [Source: WormBase]	positive regulation of growth rate, 		transferase activity, transferring hexosyl groups, 
T25G3.3	T25G3.3	T25G3.3 encodes an ortholog of S. cerevisiae NMD3. by orthology, T25G3.3 is predicted to help export large ribosomal subunits from the nucleus to IMB-4. T25G3.3 transcripts are enriched during oogenesis, and T25G3.3 is predicted to be coexpressed in an operon with chs-1. however, there is no obvious connection between T25G3.3 and CHS-1 function, so their coexpression may simply reflect their both being required for oogenesis. T25G3.3 is required for viability, growth, and fertility in mass RNAi assays. [Source: WormBase]	positive regulation of growth rate, 		
T25G3.4	T25G3.4	T25G3.4 encodes a putative mitochondrial glycerol-3-phosphate dehydrogenase, paralogous to Y50E8A.6 and orthologous to human GPD2 (OMIM:138430, mutated in type II diabetes mellitus). T25G3.4 transcripts are not obviously enriched during oogenesis, but T25G3.4 is predicted to be coexpressed in an operon with chs-1 and T25G3.3. such coexpression, if real, may simply reflect all three genes being required for oogenesis, rather than some more detailed functional connection. T25G3.4 has no obvious function in mass RNAi assays. [Source: WormBase]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, calcium ion binding, glycerol-3-phosphate dehydrogenase activity, 
D2030.1	D2030.1	D2030.1 [Source:RefSeq_peptide;Acc:NP_492116]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
D2030.2	D2030.2	D2030.2a [Source:RefSeq_peptide;Acc:NP_001021076]	protein transport, defense response, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
D2030.3	D2030.3	D2030.3 [Source:RefSeq_peptide;Acc:NP_492118]	positive regulation of growth rate, 		
D2030.4	D2030.4	D2030.4 encodes the C. elegans ortholog of the NDUFB7/B18 subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	electron transport, positive regulation of growth rate, 	mitochondrion, 	NADH dehydrogenase (ubiquinone) activity, NADH dehydrogenase activity, 
mce-1	D2030.5	Methylmalonyl-CoA Epimerase family member (mce-1) [Source:RefSeq_peptide;Acc:NP_492120]			
D2030.12	D2030.12	D2030.12 [Source:RefSeq_peptide;Acc:NP_001021075]			
D2030.6	D2030.6	D2030.6 [Source:RefSeq_peptide;Acc:NP_492121]			protein binding, 
D2030.7	D2030.7	D2030.7 [Source:RefSeq_peptide;Acc:NP_492122]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
D2030.11	D2030.11	D2030.11 [Source:RefSeq_peptide;Acc:NP_740890]			
D2030.8	D2030.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:P90793]			ATP binding, 
wdr-23	D2030.9	Uncharacterized WD repeat protein D2030.9. [Source:Uniprot/SWISSPROT;Acc:P90794]	proteolysis, positive regulation of growth rate, 		subtilase activity, 
aex-1	D2030.10	AEX-1 is a novel C2 domain protein. C2 is a proposed calcium binding domain. AEX-1 is weakly similar to the rat protein Munc13, which regulates vesicle exocytosis. AEX-1 regulates UNC-13 localization. mutation of dgk-1, or a gain-of-function mutation of egl-30, suppresses the aex-1 mutant phenotype. [Source: WormBase]	defecation, synaptic vesicle exocytosis, 		
lrp-1	F29D11.1	lrp-1 encodes a low-density lipoprotein (LDL) receptor-like protein most closely related to the vertebrate gp330/megalin/LRP-2 proteins. during development, lrp-1 activity is required in the hyp7 syncytium for completion of molting and for growth beyond the third larval stage. LRP-1 is expressed on the apical surface of the hyp6 and hyp7 syncytia in hermaphrodites and males from hatching through adulthood. as sterol starvation mimics the lrp-1 mutant phenotype, LRP-1 is likely to function as a receptor for sterols normally endocytosed by the hyp7 syncytium. [Source: WormBase]	metabolic process, positive regulation of growth rate, 	membrane, 	calcium ion binding, transferase activity, 
F29D11.2	F29D11.2	F29D11.2 [Source:RefSeq_peptide;Acc:NP_492128]	positive regulation of multicellular organism growth, 		
F26A3.1	F26A3.1	F26A3.1 [Source:RefSeq_peptide;Acc:NP_492129]			catalytic activity, 
ncbp-2	F26A3.2	F26A3.2 encodes the C. elegans ortholog of the CBP20 subunit of the nuclear cap binding complex. by homology, the product of F26A3.2 is predicted to play a role in mRNA decay. loss of F26A3.2 activity via RNAi indicates that this gene is essential for embryonic and larval development and in addition, plays a role in reproduction and vulval morphogenesis. staining of C. elegans embryos with an antibody to human CBP20 suggests that the product of F26A3.2 localizes predominantly to the nuclear envelope. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
rrf-1	F26A3.8	rrf-1 encodes an RNA-directed RNA polymerase (RdRP) homolog required for somatic (but not germline) RNAi. RRF-1 is also required for 'transitive interference'. [Source: WormBase]	biological_process, 	nuclear RNA-directed RNA polymerase complex, 	nucleotide binding, RNA-directed RNA polymerase activity, 
ego-1	F26A3.3	The ego-1 gene encodes a homolog of RNA-directed RNA polymerase that is essential for germ-line development. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, nuclear RNA-directed RNA polymerase complex, 	nucleotide binding, rhodopsin-like receptor activity, RNA-directed RNA polymerase activity, 
F26A3.4	F26A3.4	F26A3.4 [Source:RefSeq_peptide;Acc:NP_492133]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F26A3.5	F26A3.5	F26A3.5 [Source:RefSeq_peptide;Acc:NP_492134]			
F26A3.6	F26A3.6	F26A3.6 [Source:RefSeq_peptide;Acc:NP_492135]			
F26A3.7	F26A3.7	Uncharacterized protein F26A3.7. [Source:Uniprot/SWISSPROT;Acc:Q93591]			
T24B1.1	T24B1.1	T24B1.1 is orthologous to the human gene GOLGI AUTOANTIGEN, GOLGIN SUBFAMILY A, 5 (GOLGA5. OMIM:606918), which when mutated leads to disease. [Source: WormBase]	Golgi organization and biogenesis, Golgi vesicle transport, 	Golgi apparatus, 	protein homodimerization activity, 
T23G11.7	T23G11.7	T23G11.7a [Source:RefSeq_peptide;Acc:NP_492138]			
rlbp-1	T23G11.5	RaL Binding Protein family member (rlbp-1) [Source:RefSeq_peptide;Acc:NP_492140]	signal transduction, 	intracellular, 	
T23G11.6	T23G11.6	T23G11.6b [Source:RefSeq_peptide;Acc:NP_001021638]			protein binding, 
T23G11.4	T23G11.4	T23G11.4 [Source:RefSeq_peptide;Acc:NP_492142]			
gld-1	T23G11.3	gld-1 encodes a protein containing a K homology RNA binding domain that is required for meiotic cell cycle progression during oogenesis in parallel with gld-2, and also affects spermatogenesis. it physically interacts with its putative mRNA targets in vitro and with FOG-2, and is expressed in the cytoplasm at high levels during meiotic prophase. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		RNA binding, 
T23G11.10	T23G11.10	T23G11.10 [Source:RefSeq_peptide;Acc:NP_001021637]	regulation of meiosis, 		
gna-2	T23G11.2	gna-2 encodes a glucosamine 6-phosphate N-acetyltransferase required for synthesis of UDP-N-acetylglucosamine (UDP-GlcNAc), N-acetylgalactosamine (UDP-GalNAc), alpha-GalNAc-modifications of mucin-like proteins, and chitin. GNA-2 is also required for eggshell synthesis and osmotic integrity, progression past meiosis metaphase I, error-free chromosomal segregation during meiosis, polar body extrusion, association of the sperm pronucleus/centrosome complex (SPCC) with the early embryonic cortex, localization of PAR-2 in early embryos, posterior localization of P granules or PIE-1, and pseudocleavage. gna-2 transcription is elevated during oogenesis. gna-2 mRNA is posttranslationally inhibited both by GLD-1 repression and by nonsense-mediated mRNA decay (NMD), with GLD-1 predominating in distal gonads and NMD (incompletely) predominating in proximal ones. gna-2 mRNA has two upstream open reading frames (uORFs) with premature stop codons, which normally cause NMD of this mRNA unless it is protected by GLD-1 binding to the gna-2 mRNA's 5' UTR. conversely, gna-2 mRNA is translationally repressed by bound GLD-1 during pachytene meiosis, and must be freed from this repression during diplotene meiosis for eggshell synthesis to proceed. gna-2(qa705) is suppressed by sup-46 mutations, but only in a gna-1(+) background. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 		N-acetyltransferase activity, 
T23G11.1	T23G11.1	T23G11.1 [Source:RefSeq_peptide;Acc:NP_492145]			
F27D4.1	F27D4.1	The F27D4.1 gene encodes an ortholog of the human gene ELECTRON-TRANSFER-FLAVOPROTEIN, ALPHA POLYPEPTIDE (ETFA), which when mutated leads to glutaricaciduria type IIA (OMIM:231680). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		electron carrier activity, 
F27D4.2	F27D4.2	F27D4.2 [Source:RefSeq_peptide;Acc:NP_492147]	embryonic development ending in birth or egg hatching, 		
F27D4.t1	F27D4.t1				
F27D4.3	F27D4.3				
F27D4.7	F27D4.7	F27D4.7 [Source:RefSeq_peptide;Acc:NP_001021422]			
F27D4.4	F27D4.4	F27D4.4b [Source:RefSeq_peptide;Acc:NP_001040657]			zinc ion binding, nucleic acid binding, 
tag-173	F27D4.5	tag-173/F27D4.5 is orthologous to the human gene BRANCHED CHAIN KETO ACID DEHYDROGENASE E1, ALPHA POLYPEPTIDE (BCKDHB. OMIM:248600), which when mutated leads to maple syrup urine disease, type 1a. F27D4.5 protein is predicted to be mitochondrial. [Source: WormBase]	positive regulation of growth rate, 		protein binding, 1-deoxy-D-xylulose-5-phosphate synthase activity, 
F27D4.6	F27D4.6	F27D4.6 [Source:RefSeq_peptide;Acc:NP_492150]		intracellular, 	zinc ion binding, nucleic acid binding, 
F58H10.1	F58H10.1	F58H10.1 [Source:RefSeq_peptide;Acc:NP_492151]			
nsf-1	H15N14.2	Vesicle-fusing ATPase (EC 3.6.4.6) (Vesicular-fusion protein NSF) (N- ethylmaleimide sensitive fusion protein) (NEM-sensitive fusion protein). [Source:Uniprot/SWISSPROT;Acc:Q94392]	biological_process, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
adr-1	H15N14.1	adr-1 encodes, through alternative splicing, at least five isoforms of an adenosine deaminase that acts on RNA (ADAR). ADARs are RNA-editing enzymes that deaminate adenosines to create inosines in double-stranded RNA (dsRNA). adr-1 is expressed in embryos, most or all neurons (e.g., sensory neurons and cilia, the ventral nerve cord, motor neurons and interneurons) and in the developing (but not the adult) vulva. ADR-1 is required for ADAR activity in vivo, and for normal chemotaxis and vulval development. ADR-1 is also required (redundantly with ADR-2) to prevent the silencing of transgenes in somatic tissues by RNAi. ADR-1 (with ADR-2) may protect transgenic RNA from RNAi silencing by deaminating transgenic dsRNA. ADR-1 contains a glutamine/asparagine-rich domain, as well as two N-terminal double-stranded RNA-binding motifs. [Source: WormBase]	RNA processing, growth, 	intracellular, 	RNA binding, adenosine deaminase activity, double-stranded RNA binding, 
VH15N14R.1	VH15N14R.1	VH15N14R.1 [Source:RefSeq_peptide;Acc:NP_492155]			
D2005.1	D2005.1	D2005.1 [Source:RefSeq_peptide;Acc:NP_492156]	RNA processing, growth, 		RNA binding, adenosine deaminase activity, 
D2005.6	D2005.6	D2005.6 [Source:RefSeq_peptide;Acc:NP_492157]			
nlp-8	D2005.2	Neuropeptide-Like Protein family member (nlp-8) [Source:RefSeq_peptide;Acc:NP_492158]			
D2005.3	D2005.3	Uncharacterized protein D2005.3. [Source:Uniprot/SWISSPROT;Acc:Q93408]			
D2005.4	D2005.4	D2005.4 [Source:RefSeq_peptide;Acc:NP_492160]			protein binding, 
drh-3	D2005.5	drh-3 encodes a DExH-box helicase. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, 
F30F8.2	F30F8.2	Putative glutaminase F30F8.2 (EC 3.5.1.2) (GLS) (L-glutamine amidohydrolase). [Source:Uniprot/SWISSPROT;Acc:Q93650]	glutamine metabolic process, 		glutaminase activity, 
F30F8.1	F30F8.1	F30F8.1 [Source:RefSeq_peptide;Acc:NP_492163]			
F30F8.3	F30F8.3	F30F8.3 [Source:RefSeq_peptide;Acc:NP_492164]	embryonic development ending in birth or egg hatching, 		protein binding, 
F30F8.9	F30F8.9	F30F8.9a [Source:RefSeq_peptide;Acc:NP_492165]	embryonic development ending in birth or egg hatching, 		
F30F8.10	F30F8.10	F30F8.10 [Source:RefSeq_peptide;Acc:NP_001021431]	metabolic process, 		N-acetyltransferase activity, 
F30F8.t1	F30F8.t1				
F30F8.5	F30F8.5	F30F8.5 [Source:RefSeq_peptide;Acc:NP_492168]			
taf-5	F30F8.8	TAF (TBP-associated transcription factor) family member (taf-5) [Source:RefSeq_peptide;Acc:NP_492169]	regulation of transcription, transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, sugar binding, 
apb-3	R11A5.1	apb-3 encodes an adaptin, orthologous to the beta3 subunit of adaptor protein complex 3 (AP-3). based on structural similarity, APB-3 is predicted to be involved in the formation of intracellular transport vesicles, and genetic analyses indicate that apb-3 activity is required for biogenesis of lysosome-related gut granules. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, lysosome organization and biogenesis, embryonic development ending in birth or egg hatching, 	membrane coat, 	protein transporter activity, protein binding, 
nud-2	R11A5.2	nud-2 encodes an ortholog of human NDE1 (OMIM:609449) and NDEL1 (OMIM:607538), effectors of LIS1 (OMIM:601545). NUD-2, along with other orthologs of LIS1-associated proteins (NUD-1, DHC-1, CDK-5, and CDKA-1), is required to prevent convulsions induced by exposure to the GABA antagonist pentylenetetrazole (PTZ). nud-2(RNAi), like RNAi of nud-1 et al., not only induces PTZ susceptibility but also causes GABA-containing synaptic vesicles in the ventral nerve cord to be distributed raggedly, and nud-2(RNAi) animals are abnormally susceptible to paralysis by the GABA agonist muscimol. nud-2(RNAi) phenotypes are dominantly enhanced by a heterozygous lis-1 allele, and nud-2(RNAi) delays the recovery from PTZ-induced paralysis of lis-1 heterozygotes. [Source: WormBase]	gamete generation, 		
R11A5.3	R11A5.3	R11A5.3 [Source:RefSeq_peptide;Acc:NP_492173]			
R11A5.4	R11A5.4	R11A5.4b [Source:RefSeq_peptide;Acc:NP_001021588]	gluconeogenesis, 		GTP binding, phosphoenolpyruvate carboxykinase activity, 
R11A5.6	R11A5.6	R11A5.6 [Source:RefSeq_peptide;Acc:NP_492175]			
R11A5.7	R11A5.7	R11A5.7 [Source:RefSeq_peptide;Acc:NP_492177]	proteolysis, positive regulation of multicellular organism growth, 		zinc ion binding, carboxypeptidase A activity, carboxypeptidase activity, 
F55D12.1	F55D12.1	F55D12.1 [Source:RefSeq_peptide;Acc:NP_492178]			
F55D12.2	F55D12.2	F55D12.2 [Source:RefSeq_peptide;Acc:NP_492179]			
nhr-191	F55D12.3	Nuclear Hormone Receptor family member (nhr-191) [Source:RefSeq_peptide;Acc:NP_492180]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
unc-55	F55D12.4	unc-55 encodes a nuclear receptor that is most closely related to Drosophila Seven-up and the vertebrate COUP (chicken ovalbumin upstream promoter) transcription factors. unc-55 activity is required for the VD motor neurons to adopt their normal synaptic pattern. unc-55 is expressed in a number of neurons, including the VD motor neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, locomotory behavior, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
F55D12.6	F55D12.6	F55D12.6 [Source:RefSeq_peptide;Acc:NP_492182]	translation, homoiothermy, response to freezing, type I hypersensitivity, 	intracellular, ribosome, 	structural constituent of ribosome, ice binding, 
F55D12.5	F55D12.5	F55D12.5 [Source:RefSeq_peptide;Acc:NP_492183]		membrane, 	transmembrane receptor protein serine/threonine kinase activity, transforming growth factor beta receptor activity, 
F20G4.2	F20G4.2	F20G4.2 [Source:RefSeq_peptide;Acc:NP_492184]			
smgl-1	F20G4.1	F20G4.1 [Source:RefSeq_peptide;Acc:NP_492185]	embryonic development ending in birth or egg hatching, 		
nmy-2	F20G4.3	nmy-2 encodes a maternally expressed nonmuscle myosin II required for polarized cytoplasmic flow, polarized distribution of the PAR proteins, cytokinesis, and for proper anterior-posterior polarity in early embryos. NMY-2 functions with PAR-5 in the onset of the establishment phase of polarization in the C. elegans zygote along the anterior-posterior axis, and nmy-2 is partially redundant with nmy-1 with respect to embryonic elongation. localization of NMY-2 is dynamic in oocytes and embryos. [Source: WormBase]	embryonic development ending in birth or egg hatching, shape changes of embryonic cells, 	myosin complex, 	ATP binding, nucleotide binding, protein binding, motor activity, 
T22C1.1	T22C1.1	T22C1.1 [Source:RefSeq_peptide;Acc:NP_492187]	ubiquitin cycle, 		protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
T22C1.2	T22C1.2	T22C1.2 [Source:RefSeq_peptide;Acc:NP_492188]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
T22C1.3	T22C1.3	T22C1.3 [Source:RefSeq_peptide;Acc:NP_492189]	GPI anchor biosynthetic process, embryonic development ending in birth or egg hatching, 	integral to membrane, endoplasmic reticulum membrane, 	
T22C1.4	T22C1.4	T22C1.4 [Source:RefSeq_peptide;Acc:NP_492190]			
T22C1.5	T22C1.5	T22C1.5 [Source:RefSeq_peptide;Acc:NP_492191]			
T22C1.6	T22C1.6	T22C1.6 [Source:RefSeq_peptide;Acc:NP_492192]			
jph-1	T22C1.7	jph-1 encodes a junctophilin, a protein that belongs to a transmembrane family of proteins implicated in the formation of the junctional membrane complex that forms between the plasma membrane and the endoplasmic reticulum in excitable cells. this complex facilitates cross-talk between the cell surface and intracellular ionic channels. RNA interference of jph-1 results in a locomotion defect suggesting impaired body-wall muscle function. a jph-1 promoter-gfp fusion reporter is expressed in all muscle cells and certain neurons of the nerve ring. [Source: WormBase]	locomotory behavior, muscle contraction, 		
T22C1.8	T22C1.8	T22C1.8 [Source:RefSeq_peptide;Acc:NP_492194]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
T22C1.9	T22C1.9	T22C1.9 [Source:RefSeq_peptide;Acc:NP_492195]			
T22C1.12	T22C1.12	T22C1.12 [Source:RefSeq_peptide;Acc:NP_001021633]			
T22C1.t1	T22C1.t1				
rbg-2	T22C1.10	Rab3 GTPase-activating protein regulatory subunit (Rab3 GTPase- activating protein 2). [Source:Uniprot/SWISSPROT;Acc:Q22670]	regulation of GTPase activity, 	soluble fraction, 	enzyme regulator activity, protein heterodimerization activity, 
T22C1.11	T22C1.11	T22C1.11 [Source:RefSeq_peptide;Acc:NP_492197]			
H05L14.1	H05L14.1	H05L14.1 [Source:RefSeq_peptide;Acc:NP_492198]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
H05L14.2	H05L14.2	H05L14.2 [Source:RefSeq_peptide;Acc:NP_492199]			protein binding, zinc ion binding, 
C54G4.5	C54G4.5	C54G4.5 [Source:RefSeq_peptide;Acc:NP_492200]			
C54G4.4	C54G4.4	C54G4.4 [Source:RefSeq_peptide;Acc:NP_492201]	cell adhesion, 	membrane, 	sugar binding, 
C54G4.3	C54G4.3	C54G4.3 [Source:RefSeq_peptide;Acc:NP_492202]			
C54G4.2	C54G4.2	C54G4.2 [Source:RefSeq_peptide;Acc:NP_492203]			
rskn-2	C54G4.1	Putative ribosomal protein S6 kinase alpha-2 (EC 2.7.11.1) (Ribosomal protein S6 kinase alpha-5 homolog). [Source:Uniprot/SWISSPROT;Acc:Q18846]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
C54G4.7	C54G4.7	C54G4.7 [Source:RefSeq_peptide;Acc:NP_492206]			protein binding, 
dod-18	C54G4.6	dod-18 encodes a Maf-like protein required for normally short lifespan. dod-18 is repressed in daf-2 mutants and induced in daf-16 mutants, and dod-18(RNAi) lengthens lifespan by 30%. MAF-like proteins are ubiquitous among eukarya, bacteria, and archaea. DOD-18 is orthologous to the N-terminal ~200 residues of human ASMTL (OMIM:300162), and to Bacillus subtilis Maf (Multicopy Associated Filamentation) protein, which inhibits septum formation. while the specific biochemical function of Maf-like proteins is unknown, the tertiary structure of B. subtilis Maf is consistent with its binding nucleic acid. [Source: WormBase]	determination of adult life span, 		protein binding, 
cyc-1	C54G4.8	cyc-1 encodes a component of complex III ( cytochrome c reductase) required for normal ATP production. reduction of ATP production by cyc-1(RNAi) decreases growth rate and body size, slows behavior, and increases lifespan. cyc-1 encodes a protein predicted by Eisenberg and coworkers, with 52% accuracy, to be mitochondrial [Source: WormBase]	electron transport, positive regulation of growth rate, 		iron ion binding, heme binding, electron carrier activity, 
C54G4.9	C54G4.9	C54G4.9 [Source:RefSeq_peptide;Acc:NP_492208]	embryonic development ending in birth or egg hatching, 		
iftb-1	K04G2.1	Putative eukaryotic translation initiation factor 2 subunit beta (eIF- 2-beta). [Source:Uniprot/SWISSPROT;Acc:Q21230]	translational initiation, embryonic development ending in birth or egg hatching, 		translation initiation factor activity, 
K04G2.2	K04G2.2	K04G2.2 [Source:RefSeq_peptide;Acc:NP_492210]			
cdc-48.3	K04G2.3	K04G2.3 [Source:RefSeq_peptide;Acc:NP_492211]	positive regulation of growth rate, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
K04G2.4	K04G2.4	K04G2.4 [Source:RefSeq_peptide;Acc:NP_492212]	embryonic development ending in birth or egg hatching, 		
ath-1	K04G2.5	K04G2.5 [Source:RefSeq_peptide;Acc:NP_492213]	aromatic compound metabolic process, 		hydrolase activity, 
K04G2.11	K04G2.11	K04G2.11 [Source:RefSeq_peptide;Acc:NP_492214]			
K04G2.6	K04G2.6	K04G2.6 [Source:RefSeq_peptide;Acc:NP_492215]			protein binding, 
K04G2.7	K04G2.7	K04G2.7 [Source:RefSeq_peptide;Acc:NP_492216]			
apr-1	K04G2.8	The apr-1 gene encodes an ortholog of human APC (OMIM:175100, mutated in familial adenomatous polyposis) that is required for germline fertility, the control of homeodomain expression (CEH-13 and LIN-39) during embryogenesis and vulval development, and for the migration and elongation of hypodermal cells during embryo morphogenesis. APR-1 is thought to reside in adherens junctions, while also stimulating two beta-catenins in Wnt signalling (HMP-2 in migrating epithelial cells, and BAR-1 in the vulval precursor cells). however, APR-1 also binds PRY-1/axin, and with PRY-1 inhibits RAS-independent Wnt induction of LIN-39. [Source: WormBase]	embryonic development ending in birth or egg hatching, vulval development, 		binding, 
K04G2.9	K04G2.9	K04G2.9 [Source:RefSeq_peptide;Acc:NP_492219]		membrane, 	
K04G2.10	K04G2.10	K04G2.10 [Source:RefSeq_peptide;Acc:NP_492220]			protein binding, 
F18C12.4	F18C12.4	F18C12.4 [Source:RefSeq_peptide;Acc:NP_001021396]			
che-3	F18C12.1	The dynein heavy chain (DHC) 1b isoform that affects the establishment and maintainance of the structural integrity of sensory cilia and also has a role in intraflagellar transport. it is expressed in ciliated sensory neurons. [Source: WormBase]	proteolysis, microtubule-based movement, negative regulation of transforming growth factor beta receptor signaling pathway, cilium biogenesis, 	dynein complex, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, microtubule motor activity, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
rme-8	F18C12.2	The rme-8 gene encodes a J-domain protein that is required for both receptor-mediated and fluid-phase endocytosis in coelomocytes and other cell types, and that is also required for development and viability. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, receptor-mediated endocytosis, 		heat shock protein binding, unfolded protein binding, 
F18C12.3	F18C12.3	F18C12.3 [Source:RefSeq_peptide;Acc:NP_492224]	positive regulation of growth rate, 		
spr-4	C09H6.1	Suppressor of presenilin protein 4. [Source:Uniprot/SWISSPROT;Acc:O17582]		intracellular, 	zinc ion binding, nucleic acid binding, 
lin-10	C09H6.2	The lin-10 gene encodes a PDZ and PTB domain-containing protein that is homologous to mammalian Munc interacting proteins (Mint1, OMIM:602414) and is required for polarized protein localization. LIN-10 is required for proper localization of the LET-23 EGF receptor to the basolateral membrane of the vulval precursor cells and for proper postsynaptic localization of GLR-1, an AMPA-type glutamate receptor in interneurons. LIN-10 is detected in the cytoplasm, membrane, and at particularly high levels in the Golgi. [Source: WormBase]	nerve-nerve synaptic transmission, 		protein binding, 
mau-2	C09H6.3	mau-2 encodes an ortholog of budding yeast Scc4p, Drosophila CG4203, and human KIAA0892. MAU-2 is required (with PQN-85 and SCC-3) for normal mitotic chromosome segregation, and for cellular (e.g., neuronal) or axonal migration. MAU-2 is required for migration both embryonically and postembryonically, along both dorsoventral and longitudinal body axes. MAU-2 guides the axonal projection of AVM (and probably other neurons) by some cell-autonomous mechanism independent of SLT-1. MAU-2 is also required for normal larval development, locomotion, excretory canals and osmoregulation, phasmid morphology, and egg-laying. the primary sequences of MAU-2 and its Scc4-like orthologs are composed of tetratricopeptide repeats, and are highly divergent between yeast and metazoa. MAU-2 is expressed ubiquitously in embryos during late gastrulation, subsequently becoming restricted to neurons. mau-2 transcripts are abundant in oocytes, and maternal transcripts alone can support normal MAU-2 protein synthesis through the L3 larval stage (but not in L4 larvae or adults). MAU-2's N-terminal 371 residues of MAU-2 are its most conserved domain, and are sufficient to transgenically rescue mau-2 mutants. despite its behavioral phenotype, MAU-2 is thought to act early in development, since the uncoordinated phenotype of mau-2 mutants is maternal. while the uncoordinated phenotype of mau-2 mutants can be rescued either maternally or zygotically, the egg-laying phenotype of mau-2 mutants is purely zygotic. partially penetrant mau-2 dye-filling phenotypes occur on one side of the body, suggesting that MAU-2 acts on a whole side of an embryo at a time. while mau-2(RNAi) has no obvious early embryonic phenotype, joint mau-2/scc-3(RNAi) grossly deranges chromosomal segregation in early embryos, and mau-2(RNAi) enhances the lagging of anaphase chromosomes induced by pqn-85(RNAi). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T28B8.1	T28B8.1	T28B8.1 [Source:RefSeq_peptide;Acc:NP_492229]			
T28B8.5	T28B8.5	T28B8.5 [Source:RefSeq_peptide;Acc:NP_492230]	sodium ion transport, 	membrane, 	sodium channel activity, 
ins-18	T28B8.2	The ins-18 gene encodes an insulin/IGF-like peptide that may act in a common pathway with daf-2 to regulate lifespan. [Source: WormBase]	determination of adult life span, 	extracellular region, 	hormone activity, 
T28B8.6	T28B8.6	T28B8.6 [Source:RefSeq_peptide;Acc:NP_001021643]			
T28B8.3	T28B8.3	T28B8.3a [Source:RefSeq_peptide;Acc:NP_001040692]			
T28B8.4	T28B8.4		embryonic development ending in birth or egg hatching, 		
H31B20.2	H31B20.2	H31B20.2 [Source:RefSeq_peptide;Acc:NP_001021531]			
H31B20.1	H31B20.1	H31B20.1 [Source:RefSeq_peptide;Acc:NP_001021530]			
srz-3	F08A10.2	Serpentine Receptor, class Z family member (srz-3) [Source:RefSeq_peptide;Acc:NP_001021088]			
F08A10.1	F08A10.1	F08A10.1d [Source:RefSeq_peptide;Acc:NP_001021087]	potassium ion transport, 	membrane, integral to membrane, 	potassium channel activity, calmodulin binding, calcium-activated potassium channel activity, small conductance calcium-activated potassium channel activity, 
T02E1.7	T02E1.7	Uncharacterized protein T02E1.7. [Source:Uniprot/SWISSPROT;Acc:O45731]			
T02E1.6	T02E1.6	T02E1.6 [Source:RefSeq_peptide;Acc:NP_492236]			
dhs-3	T02E1.5	dhs-3 encodes a member of the short-chain dehydrogenases/reductases family (SDR) predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
gla-3	T02E1.3	gla-3 encodes a TIS11-like protein with two CCCH-like zinc-finger domains that inhibits apoptosis in the germline, and weakly inhibits RAS signalling in vulval development along with RAS-induced muscle protein degradation. GLA-3 inhibits physiological apoptosis in oocytes, keeping it down to a normal level of ~50% in hermaphrodite gonads. gla-3 is expressed in the germline of L4 larvae and adults, and interacts with mpk-1 both genetically and physically. gla-3 requires core apoptotic proteins (CED-3 and CED-4) for its excess apoptotic mutant phenotype, but not others (CEP-1, CLK-2, or HUS-1) required for DNA damage-induced apoptosis. gla-3 mutants have increased germline apoptosis and reduced brood size due to defective pachytene exit from meiosis I, and also show weak enhancment of the multivulva phenotype of let-60(gf) or lip-1(zh15) mutations. gla-3 mutants have temperature-sensitive progressive muscle dystrophy, consistent with hyperactivation of the RAS/MAPK pathway in muscle cells. gla-3(RNAi) hermaphrodites display elevated levels of physiological germline apoptosis, independent of CEP-1. [Source: WormBase]	biological_process, reproduction, 	nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
T02E1.2	T02E1.2	T02E1.2 [Source:RefSeq_peptide;Acc:NP_492241]			
NR_003386.1	T02E1.9	T02E1.9, snoRNA [Source:RefSeq_dna;Acc:NR_003386]			
spe-12	T02E1.1	defective SPErmatogenesis family member (spe-12) [Source:RefSeq_peptide;Acc:NP_492242]			
kri-1	ZK265.1	human KRIT 1 (Krev interaction trapped/cerebral cavernous malformation 1) homolog family member (kri-1) [Source:RefSeq_peptide;Acc:NP_001021863]		cytoskeleton, 	
T02E1.8	T02E1.8	T02E1.8 [Source:RefSeq_peptide;Acc:NP_001021605]			electron carrier activity, 
ZK265.3	ZK265.3	ZK265.3 [Source:RefSeq_peptide;Acc:NP_492244]			
col-63	ZK265.2	ZK265.2 [Source:RefSeq_peptide;Acc:NP_492245]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
ZK265.11	ZK265.11				
ceh-8	ZK265.4	ceh-8 encodes a paired-like homeodomain protein of the Q50 class orthologous to the Rx homeobox protein of humans (RAX. OMIM:601881) and Drosophila (CG10052-PA). CEH-8 and RX belong to one of at least 18 distinct families of paired-like homeodomain proteins, including 12 families in the Q50 class. [Source: WormBase]	regulation of transcription, DNA-dependent, pattern specification process, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ZK265.9	ZK265.9	ZK265.9 [Source:RefSeq_peptide;Acc:NP_001021865]			
ZK265.6	ZK265.6	UPF0384 protein ZK265.6. [Source:Uniprot/SWISSPROT;Acc:Q94402]	positive regulation of growth rate, 		
sre-23	ZK265.5	Serpentine Receptor, class E (epsilon) family member (sre-23) [Source:RefSeq_peptide;Acc:NP_492247]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
NR_003396.1	ZK265.10	ZK265.10, snoRNA [Source:RefSeq_dna;Acc:NR_003396]			
ZK265.7	ZK265.7	ZK265.7 [Source:RefSeq_peptide;Acc:NP_492249]			
ZK265.8	ZK265.8	ZK265.8 [Source:RefSeq_peptide;Acc:NP_492250]			
T01G9.1	T01G9.1	T01G9.1 [Source:RefSeq_peptide;Acc:NP_492251]			
T01G9.2	T01G9.2	UPF0183 protein T01G9.2. [Source:Uniprot/SWISSPROT;Acc:P34692]			protein binding, 
T01G9.3	T01G9.3	T01G9.3 [Source:RefSeq_peptide;Acc:NP_492253]			protein binding, 
kin-10	T01G9.6	Casein kinase II subunit beta (CK II beta). [Source:Uniprot/SWISSPROT;Acc:P28548]	positive regulation of growth rate, 	protein kinase CK2 complex, 	protein binding, protein kinase CK2 regulator activity, 
npp-2	T01G9.4	npp-2 encodes a protein with low similarity to rat nucleoporin Nup75 that affects embryonic viability and has a variety of other defects in RNAi screens including: nuclear morphology, growth, fertility, locomotion, and egg laying. enriched in oocytes. [Source: WormBase]	transport, positive regulation of growth rate, 	extracellular space, 	
mei-1	T01G9.5	mei-1 encodes, by alternative splicing, two slightly different isoforms of an ortholog of the catalytic subunit of katanin (OMIM:606696) that is required for oocyte meiotic spindle formation, for stable association of the meiosis I spindle with the oocyte cortex, and for microtubule severing. MEI-1 exists in a physical complex with MEI-2 at the polar ends of meiotic spindle microtubules and meiotic chromatin. MEI-1 must be inactivated for meiosis to give way to mitosis, and ectopic expression of MEI-1/MEI-2 during mitosis is normally lethal. MEI-1 is bound by the BTB protein MEL-26 (both in vivo and in vitro), which physically links MEI-1 to CUL-3 (an E3 ubiquitin ligase). CUL-3, in turn, promotes MEI-1 proteolysis by the 26S proteasome during the transition from meiosis to mitosis. the MEI-1/MEI-2 complex requires tubules containing the germline-enriched beta tubulin TBB-2 in vivo, but does not require tubules made from TBB-2's (superficially) redundant paralog TBB-1. [Source: WormBase]	embryonic development ending in birth or egg hatching, female meiosis, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
abts-1	F52B5.1	Anion/Bicarbonate TranSporter family member (abts-1) [Source:RefSeq_peptide;Acc:NP_492258]	anion transport, 	membrane, integral to membrane, 	anion exchanger activity, inorganic anion exchanger activity, 
F52B5.7	F52B5.7	F52B5.7 [Source:RefSeq_peptide;Acc:NP_001021480]		intracellular, 	zinc ion binding, nucleic acid binding, 
F52B5.2	F52B5.2	F52B5.2 [Source:RefSeq_peptide;Acc:NP_492259]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F52B5.3	F52B5.3	The F52B5.3 gene encodes a DEAH helicase orthologous to the Drosophila SpindleE protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
cep-1	F52B5.5	cep-1 encodes an ortholog of the human tumor suppressor p53 (OMIM:191170, mutated in Li-Fraumeni syndrome) that promotes DNA damage-induced apoptosis and is required for normal meiotic segregation in the germ line, and affects sensitivity to hypoxia-induced lethality and longevity in response to starvation. CEP-1 is expressed ubiquitously in embryos and in the nucleoli of a subset of pharyngeal cells. [Source: WormBase]	embryonic development ending in birth or egg hatching, DNA damage response, signal transduction by p53 class mediator resulting in induction of apoptosis, 		transcription factor activity, 
rpl-25.2	F52B5.6	rpl-25.2 encodes a large ribosomal subunit L23a protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	nucleotide binding, RNA binding, structural constituent of ribosome, 
C34B7.1	C34B7.1	The C34B7.1 gene encodes a divergent MYST acetyltransferase that is (apparently) unique to Caenorhabditis. it has no well-characterized orthologs in the complete Drosophila or S. cerevisiae genomes, and no obvious orthologs in the draft human genome sequence either. [Source: WormBase]			
C34B7.4	C34B7.4	C34B7.4 encodes a MYST family histone acetyltransferase. based upon sequence similarity, the product of C34B7.4 is predicted to be the enzymatic component of an NuA4-like histone acetyltransferase (HAT) complex that functions in transcriptional activation. C34B7.4 is likely required for regulating gene expression in multiple tissues, as loss of its activity via RNAi results in suppression of ectopic lag-2 reporter expression seen in intestinal tissue in SynMuv B mutants as well as in some suppression of the lin-15AB SynMuv phenotype. [Source: WormBase]			protein binding, zinc ion binding, 
C34B7.2	C34B7.2	C34B7.2 [Source:RefSeq_peptide;Acc:NP_492266]			
cyp-36A1	C34B7.3	Probable cytochrome P450 CYP36A1 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:P90771]	electron transport, 		iron ion binding, protein binding, monooxygenase activity, heme binding, 
tba-5	F16D3.1	tba-5 encodes one of nine C. elegans alpha tubulins. by homology, TBA-5 is predicted to be a component of microtubules. as loss of tba-5 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, TBA-5 likely functions redundantly with other alpha tubulins as a basic component of cellular architecture that may play additional roles in processes such as cell division, cell movement, and intracellular transport. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
rsd-6	F16D3.2	RNAi Spreading Defective (see also sid) family member (rsd-6) [Source:RefSeq_peptide;Acc:NP_492269]	transport, 	membrane, 	ATP binding, nucleic acid binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
F16D3.4	F16D3.4	F16D3.4 encodes an ortholog of human TUBULIN-SPECIFIC CHAPERONE D (TBCD. OMIM:604649), also known as tubulin-folding cofactor D. F16D3.4 may be a ligand and effector of the ARL2 ortholog EVL-20. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F16D3.6	F16D3.6	F16D3.6 [Source:RefSeq_peptide;Acc:NP_492272]	amino acid transport, 	membrane, 	
T19A6.1	T19A6.1	T19A6.1b (T19A6.1) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_182066]			
F16D3.7	F16D3.7	F16D3.7 encodes a homolog of mammalian alpha-adrenergic receptors that is expressed in vulval and bodywall muscle cells, intestine, and head neurons. heterologously expressed F16D3.7 has no effect on adenylate cyclase signalling. F16D3.7 has no obvious function in RNAi assays of brood size, egg laying, pharyngeal pumping, locomotion, or male mating. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, adrenoceptor activity, 
ngp-1	T19A6.2	Nuclear/nucleolar GTP-binding Protein family member (ngp-1) [Source:RefSeq_peptide;Acc:NP_492275]	embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
T19A6.3	T19A6.3	UPF0427 protein T19A6.3. [Source:Uniprot/SWISSPROT;Acc:Q9XXN3]			
T19A6.4	T19A6.4	T19A6.4 [Source:RefSeq_peptide;Acc:NP_492278]			
F02E9.3	F02E9.3	F02E9.3 [Source:RefSeq_peptide;Acc:NP_492279]			
F02E9.1	F02E9.1	F02E9.1 encodes a divergent ortholog of S. cerevisiae VMA22. like VMA22, F02E9.1 may be required for vacuolar proton-translocating ATPase (V-ATPase) assembly in the endoplasmic reticulum. [Source: WormBase]			
lin-28	F02E9.2	lin-28 encodes a cytoplasmic protein with a cold shock domain and retroviral-type (CCHC) zinc finger motifs. LIN-28 is required for events specific to the second larval stage, which in lin-28 mutants are skipped, and is itself subject both to negative regulation (by binding of the lin-4 stRNA to an element in the lin-28 3' UTR) and to positive regulation (by LIN-14, which negatively regulates lin-4-independent inhibition also acting on the lin-28 3' UTR). [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, cell fate specification, regulation of development, heterochronic, 	cytoplasm, 	zinc ion binding, DNA binding, nucleic acid binding, 
F02E9.7	F02E9.7	F02E9.7 [Source:RefSeq_peptide;Acc:NP_492283]			hydrolase activity, 
sin-3	F02E9.4	pqn-28 encodes an ortholog of the SIN3 family of histone deacetylase subunits, which also has a glutamine/asparagine-rich domain, possibly involved in epigenetic regulation. pqn-28 has no obvious phenotype in mass RNAi screens. on the basis of its homology, PQN-28, when activated by promoter-specific transcription factors, is expected to work in conjunction with other histone deacetylase components to induce chromatin silencing. PQN-28 may also silence genes by colocating to them with the O-GlcNAc transferase homolog OGT-1. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	
F02E9.5	F02E9.5	F02E9.5 [Source:RefSeq_peptide;Acc:NP_492285]			
F02E9.10	F02E9.10	F02E9.10b [Source:RefSeq_peptide;Acc:NP_001021084]			
F02E9.9	F02E9.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q2XMY9]	proteolysis, 	cytoplasm, 	dipeptidyl-peptidase III activity, 
F02E9.8	F02E9.8				
sod-2	F10D11.1	sod-2 encodes a iron/manganese superoxide dismutase, predicted to be mitochondrial, that might defend against oxidative stress and promote normal lifespan. sod-2 mRNA levels are diminished by mutation of daf-16, and heterologously expressed SOD-2 in E. coli protects against methyl viologen-induced oxidative stress. [Source: WormBase]	superoxide metabolic process, 		metal ion binding, superoxide dismutase activity, 
F10D11.2	F10D11.2	F10D11.2 [Source:RefSeq_peptide;Acc:NP_492291]			
F10D11.3	F10D11.3	F10D11.3 [Source:RefSeq_peptide;Acc:NP_492292]			
F10D11.4	F10D11.4	F10D11.4 [Source:RefSeq_peptide;Acc:NP_492293]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F10D11.5	F10D11.5	F10D11.5 [Source:RefSeq_peptide;Acc:NP_492294]			protein binding, 
F10D11.6	F10D11.6	F10D11.6 [Source:RefSeq_peptide;Acc:NP_492295]			lipid binding, 
unc-120	D1081.2	unc-120 encodes a member of the MADS-box family of transcription factors that is most closely related to Drosophila blistered and the vertebrate serum response factors (SRFs). UNC-120 is required for locomotion and muscle development and for formation of the normal number of muscle A and I bands. UNC-120 is also required for maintaining wild-type expression levels of the muscle components actin and myosin. UNC-120 is first expressed in the early embryo in body wall muscle precursors and later is expressed in both body wall and vulval muscles. [Source: WormBase]	regulation of transcription, DNA-dependent, locomotory behavior, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
D1081.3	D1081.3				
D1081.1	D1081.1				
D1081.10	D1081.10				
D1081.4	D1081.4	D1081.4 [Source:RefSeq_peptide;Acc:NP_492298]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
D1081.5	D1081.5	D1081.5 [Source:RefSeq_peptide;Acc:NP_492299]			
D1081.6	D1081.6	D1081.6 [Source:RefSeq_peptide;Acc:NP_492300]			
D1081.9	D1081.9	D1081.9 [Source:RefSeq_peptide;Acc:NP_492301]	biosynthetic process, 		iron ion binding, protein binding, zinc ion binding, oxidoreductase activity, 
D1081.7	D1081.7	D1081.7 [Source:RefSeq_peptide;Acc:NP_492302]			
D1081.8	D1081.8	D1081.8 [Source:RefSeq_peptide;Acc:NP_492303]	embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, 
ceh-6	K02B12.1	ceh-6 encodes a POU family homeodomain protein, homologous to human POU3F4 (OMIM:304400, mutated in conductive deafness 3) that affects embryonic viability, locomotion, and molting, and that regulates ectodermal and excretory function. CEH-6 is expressed dynamically during development and expression includes neurons, the excretory cell, and ectodermal cells. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, molting cycle, protein-based cuticle, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
K02B12.3	K02B12.3	K02B12.3 [Source:RefSeq_peptide;Acc:NP_492305]	positive regulation of growth rate, 		
K02B12.2	K02B12.2	K02B12.2 [Source:RefSeq_peptide;Acc:NP_492306]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
axl-1	K02B12.4	K02B12.4b [Source:RefSeq_peptide;Acc:NP_001040672]	multicellular organismal development, 	intracellular, 	signal transducer activity, catalase activity, 
K02B12.5	K02B12.5	K02B12.5 [Source:RefSeq_peptide;Acc:NP_492308]			
K02B12.6	K02B12.6	K02B12.6 [Source:RefSeq_peptide;Acc:NP_492309]			
K02B12.9	K02B12.9	K02B12.9 [Source:RefSeq_peptide;Acc:NP_001040673]			
K02B12.7	K02B12.7	K02B12.7 [Source:RefSeq_peptide;Acc:NP_492310]	regulation of GTPase activity, 		
zhp-3	K02B12.8	zhp-3 encodes a RING finger protein that is related to the Saccharomyces cerevisiae meiotically expressed protein Zip3p. in C. elegans, ZHP-3 activity is required during meiosis for crossover recombination and chiasma formation. ZHP-3 activity is thus essential for proper chromosome segregation and normal levels of fertility. a ZHP-3::GFP fusion protein localizes along synapsed chromosomes in a manner that is dependent upon the presence of mature synaptonemal complexes. [Source: WormBase]	chromosome segregation, 		protein binding, zinc ion binding, 
K02B12.t1	K02B12.t1				
gpa-15	M04C7.1	gpa-15 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ADL, ASH, ASK, PHA, PHB, the distal tip cell, the anchor cell, and many male-specific neurons. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
M04C7.4	M04C7.4	M04C7.4 [Source:RefSeq_peptide;Acc:NP_001021580]			
M04C7.3	M04C7.3	M04C7.3 [Source:RefSeq_peptide;Acc:NP_492314]			
gon-2	T01H8.5	The gon-2 gene encodes a predicted transmembrane cation channel homologous to the long transient receptor potential channel (LTRPC) subfamily of TRP channels including Drosophila DLTRP and mammalian melastatin and LTRPC7. GON-2 regulates the onset and continuation of post-embryonic mitotic cell divisions in the somatic gonad precursor cells perhaps by mediating an increase in intracellular calcium in response to activating signals. [Source: WormBase]	ion transport, cation transport, mitosis, gonad development, mitotic cell cycle, 	membrane, integral to membrane, 	ion channel activity, calcium ion binding, cation channel activity, 
T01H8.2	T01H8.2	T01H8.2 [Source:RefSeq_peptide;Acc:NP_492318]	metabolic process, amino acid metabolic process, 		catalytic activity, pyridoxal phosphate binding, 
rskn-1	T01H8.1	Putative ribosomal protein S6 kinase alpha-1 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:Q21734]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
daf-8	R05D11.1	daf-8 encodes a Smad protein that represses dauer development, perhaps by antagonizing DAF-3 activity, and promotes a commitment to reproductive growth. genetic interactions suggest partial functional redundancy with daf-14 with respect to the TGF-beta signaling pathway that regulates dauer formation. [Source: WormBase]	regulation of transcription, DNA-dependent, dauer larval development, 	intracellular, 	
ran-4	R05D11.3	ran-4 encodes a ortholog of NUCLEAR TRANSPORT FACTOR 2 (NTF2) from S. cerevisiae and metazoa, which is predicted to interact with nucleoporins and to promote transport of RAN-1(+GDP) into the nucleus. RAN-4/NTF2 proteins are paralogous to the N-terminal domain of RasGAP SH3 binding proteins such as Drosophila RASPUTIN, and to delta-5-3-ketosteroid isomerases, while having no homology to Ran proteins per se. RAN-4 is essential for early embryogenesis. in mass RNAi assays, ran-4 is needed for embryonic viability, normally rapid growth, fertility, and normal pronuclear envelopes in the embryo. [Source: WormBase]	transport, positive regulation of growth rate, 	intracellular, 	
R05D11.5	R05D11.5	R05D11.5 [Source:RefSeq_peptide;Acc:NP_492323]			
R05D11.9	R05D11.9	R05D11.9 [Source:RefSeq_peptide;Acc:NP_492324]	sphingomyelin catabolic process, embryonic development ending in birth or egg hatching, 	endoplasmic reticulum, Golgi apparatus, trans-Golgi network, 	sphingomyelin phosphodiesterase D activity, 
R05D11.6	R05D11.6	R05D11.6 [Source:RefSeq_peptide;Acc:NP_492325]			
R05D11.4	R05D11.4	R05D11.4 [Source:RefSeq_peptide;Acc:NP_492326]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
R05D11.7	R05D11.7	R05D11.7 [Source:RefSeq_peptide;Acc:NP_492327]	positive regulation of growth rate, 		
edc-3	R05D11.8	yeast Enhancer of DeCapping homolog family member (edc-3) [Source:RefSeq_peptide;Acc:NP_492328]			protein binding, 
F43G9.13	F43G9.13	F43G9.13 [Source:RefSeq_peptide;Acc:NP_492329]			
F43G9.1	F43G9.1	Probable isocitrate dehydrogenase [NAD] subunit alpha, mitochondrial precursor (EC 1.1.1.41) (Isocitric dehydrogenase) (NAD(+)-specific ICDH). [Source:Uniprot/SWISSPROT;Acc:Q93714]	metabolic process, tricarboxylic acid cycle, embryonic development ending in birth or egg hatching, 	mitochondrion, 	protein binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NAD+) activity, 
F43G9.2	F43G9.2	F43G9.2 [Source:RefSeq_peptide;Acc:NP_492331]	cell wall catabolic process, 		
F43G9.4	F43G9.4	F43G9.4 [Source:RefSeq_peptide;Acc:NP_492332]			
F43G9.3	F43G9.3	F43G9.3 [Source:RefSeq_peptide;Acc:NP_492333]	transport, positive regulation of growth rate, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
F43G9.5	F43G9.5	F43G9.5 encodes a NUDIX hydrolase that is a (perhaps evolutionarily conserved) target of transcriptional activation by DAF-16. loss of F43G9.5 function has no obvious effect on lifespan, dauer formation, or fat storage. [Source: WormBase]	biological_process, 		protein binding, identical protein binding, 
F43G9.8	F43G9.8	F43G9.8 [Source:RefSeq_peptide;Acc:NP_492335]			
fer-1	F43G9.6	fer-1 encodes a C2-domain containing protein required during spermatogenesis for fusion of membranous vesicles with the spermatid plasma membrane, a process which promotes maturation of spermatids to motile spermatozoa. FER-1 is orthologous to the membrane-anchored cytosolic human protein dysferlin (FLJ00175 or DYSF. OMIM:603009), which when mutated leads to Miyoshi myopathy (OMIM:254130). FER-1 is also homologous to myoferlin (MYOF, OMIM:604603) and otoferlin (OTOF, OMIM:603681), which when mutated leads to autosomal recessive deafness 9 (OMIM:601071). FER-1 mRNA is detected in primary spermatocytes. [Source: WormBase]	pseudopodium organization and biogenesis, 	integral to membrane, 	
ces-1	F43G9.11	ces-1 encodes a C2H2-type zinc finger transcription factor that is a member of the Snail family of proteins that includes Drosophila Scratch, Snail, and Slug, and human SNAIL and SLUG. although the normal function of CES-1 is not fully understood, gain-of-function mutations indicate that CES-1 can function as a transcriptional repressor that blocks programmed cell death in specific neurons by inhibiting expression of the cell-death activator EGL-1. in regulating EGL-1 expression, CES-1 appears to antagonize the transcriptional activity of the bHLH proteins, HLH-2 and HLH-3. despite its cell-type specific role in apoptosis, CES-1 expression is reportedly detected in many embryonic nuclei from the 100-cell stage of embryogenesis through the beginning of morphogenesis, with some CES-1 expression remaining at later embryonic stages. genetic studies indicate that CES-1 is negatively regulated by the bZIP transcription factor CES-2, which can bind CES-1 upstream sequences in vitro and thus may directly regulate CES-1 transcription in vivo [Source: WormBase]	negative regulation of transcription from RNA polymerase II promoter, 	intracellular, nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
cpn-1	F43G9.9	cpn-1 encodes a calponin homolog, more closely related to calponin per se than to its paralogs transgelin (SM22 alpha) or neuronal protein NP25, that is is dispensable for viability and gross morphology in mass RNAi screens, and that has no obvious mutant phenotype in a rearrangement that probably disrupts cpn-1. [Source: WormBase]	proteolysis, actomyosin structure organization and biogenesis, 		actin binding, serine carboxypeptidase activity, 
F43G9.10	F43G9.10	F43G9.10 [Source:RefSeq_peptide;Acc:NP_492340]	positive regulation of growth rate, 	extracellular region, 	
F43G9.12	F43G9.12	F43G9.12 [Source:RefSeq_peptide;Acc:NP_492341]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	DNA binding, transcription factor activity, 
VF39H2L.1	VF39H2L.1	VF39H2L.1 [Source:RefSeq_peptide;Acc:NP_492342]	vesicle-mediated transport, 	membrane, 	protein binding, 
sig-7	F39H2.2	sig-7 encodes a predicted cyclophilin. loss of sig-7 activity via large-scale RNAi screens results in embryonic and larval lethality as well as reduced brood sizes, suggesting that SIG-7 plays an essential role during C. elegans development. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, peptidyl-prolyl cis-trans isomerase activity, 
flp-22	F39H2.1	FMRF-Like Peptide family member (flp-22) [Source:RefSeq_peptide;Acc:NP_492344]	neuropeptide signaling pathway, 	extracellular region, 	hormone activity, 
F39H2.5	F39H2.5	F39H2.5 [Source:RefSeq_peptide;Acc:NP_740895]			
syp-3	F39H2.4	SYnaPsis in meiosis abnormal family member (syp-3) [Source:RefSeq_peptide;Acc:NP_492345]	embryonic development ending in birth or egg hatching, 		
F39H2.3	F39H2.3	F39H2.3 [Source:RefSeq_peptide;Acc:NP_492346]	glycine catabolic process, 	cytoplasm, 	aminomethyltransferase activity, 
K07A12.1	K07A12.1	K07A12.1 [Source:RefSeq_peptide;Acc:NP_492347]		extracellular region, 	calcium ion binding, 
K07A12.2	K07A12.2	K07A12.2 [Source:RefSeq_peptide;Acc:NP_492348]	embryonic development ending in birth or egg hatching, 		protein binding, 
hot-5	K07A12.6	hot-5 encodes a predicted membrane-associated protein that is a member of the Ly-6 superfamily of glycosylphosphatidylinositol (GPI)-linked signaling proteins and is homologous to ODR-2, a neuronally expressed protein required for olfaction. as loss of hot-5 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of HOT-5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
K07A12.4	K07A12.4	K07A12.4b [Source:RefSeq_peptide;Acc:NP_001021556]			GTP binding, GTPase activity, 
K07A12.7	K07A12.7	28S ribosomal protein S15, mitochondrial precursor (MRS-S15). [Source:Uniprot/SWISSPROT;Acc:Q9NAP9]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
asg-1	K07A12.3	asg-1 encodes a homolog of the proton-translocating F0 ATP synthase complex subunit g. by homology, ASG-1 is predicted to function in ATP synthesis, although its precise role in ATP anabolism is not yet known. in C. elegans, asg-1 activity is required for transposon silencing in the germline, suggesting that healthy energy metabolism is necessary for this process. in addition, large-scale RNAi screens indicate that asg-1 activity is required for embryonic and germline development, normal post-embryonic growth rates, and normal body morphology. [Source: WormBase]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
K07A12.5	K07A12.5	K07A12.5 [Source:RefSeq_peptide;Acc:NP_492353]	positive regulation of growth rate, 		
pbs-7	F39H11.5	pbs-7 encodes a B-type subunit of the 26S proteasome's 20S protease core particle. by homology, PBS-7 is predicted to function in ATP/ubiquitin-dependent nonlysosomal protein degradation. loss of pbs-7 activity via large-scale RNAi screens indicates that, in C. elegans, PBS-7 is required for normal movement and for embryonic, germline, and larval development. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic cleavage, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, 
F39H11.1	F39H11.1	F39H11.1 [Source:RefSeq_peptide;Acc:NP_492355]	pathogenesis, 	extracellular region, 	
tlf-1	F39H11.2	The tlf-1 gene encodes a TATA binding protein (TBP)-like factor (TLF-1). TLF-1 is a functional transcriptional factor, and is required in vivo for zygotic embryonic RNA polymerase II transcription. [Source: WormBase]	regulation of transcription, DNA-dependent, transcription initiation from RNA polymerase II promoter, embryonic development ending in birth or egg hatching, 	nucleus, transcription factor TFIID complex, 	DNA binding, RNA polymerase II transcription factor activity, 
cdk-8	F39H11.3	cdk-8 encodes a member of the cyclin-dependent serine/threonine protein kinase family orthologous to human CDK8 (OMIM:603184) which functions in transcriptional regulation with the positive regulatory factor cyclin C, is associated with the RNA polymerase II holoenzyme, and may regulate gene-specific activators. CDK-8 also contains a glutamine/asparagine-rich domain. loss of cdk-8 function via RNA-mediated interference (RNAi) results in sterility in the injected hermaphrodite, suggesting that in C. elegans, CDK-8 may play a role in germ-line development. [Source: WormBase]	protein amino acid phosphorylation, reproduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
cle-1	C36B1.1	The cle-1 gene encodes three developmentally regulated protein isoforms expressed predominantly in neurons. [Source: WormBase]	phosphate transport, cell adhesion, hermaphrodite genitalia development, 	cytoplasm, extracellular matrix, 	structural molecule activity, 
pas-4	C36B1.4	Proteasome subunit alpha type 7 (EC 3.4.25.1) (Proteasome subunit alpha 4). [Source:Uniprot/SWISSPROT;Acc:Q95005]	ubiquitin-dependent protein catabolic process, positive regulation of growth rate, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
C36B1.3	C36B1.3	C36B1.3 [Source:RefSeq_peptide;Acc:NP_492361]	transcription, positive regulation of growth rate, 		DNA-directed RNA polymerase activity, protein dimerization activity, 
C36B1.14	C36B1.14	C36B1.14 [Source:RefSeq_peptide;Acc:NP_001032972]	positive regulation of growth rate, 		
C36B1.13	C36B1.13	C36B1.13 [Source:RefSeq_peptide;Acc:NP_001021026]			
C36B1.6	C36B1.6	C36B1.6 [Source:RefSeq_peptide;Acc:NP_492362]	embryonic development ending in birth or egg hatching, 		
prp-4	C36B1.5	C36B1.5 [Source:RefSeq_peptide;Acc:NP_492363]	RNA splicing, positive regulation of growth rate, 		protein binding, 
C36B1.7	C36B1.7	Putative dihydrofolate reductase (EC 1.5.1.3). [Source:Uniprot/SWISSPROT;Acc:Q93341]	glycine biosynthetic process, nucleotide biosynthetic process, embryonic development ending in birth or egg hatching, 		dihydrofolate reductase activity, 
C36B1.8	C36B1.8	C36B1.8b [Source:RefSeq_peptide;Acc:NP_871882]			
C36B1.9	C36B1.9	C36B1.9 [Source:RefSeq_peptide;Acc:NP_492366]	proton transport, 	membrane, proton-transporting two-sector ATPase complex, 	protein binding, zinc ion binding, nucleic acid binding, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, 
gska-3	C36B1.10	Glycogen Synthase Kinase Alpha subunit family member (gska-3) [Source:RefSeq_peptide;Acc:NP_492367]	protein amino acid phosphorylation, biological_process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
imp-1	C36B1.12	IntraMembrane Protease (IMPAS) family member (imp-1) [Source:RefSeq_peptide;Acc:NP_001021024]		integral to membrane, 	protein binding, aspartic-type endopeptidase activity, 
C36B1.11	C36B1.11	C36B1.11 [Source:RefSeq_peptide;Acc:NP_492369]	glycolysis, 		phosphoglycerate kinase activity, 
DY3.8	DY3.8	DY3.8 [Source:RefSeq_peptide;Acc:NP_001021080]			
tin-13	DY3.1	Mitochondrial import inner membrane translocase subunit tim-13. [Source:Uniprot/SWISSPROT;Acc:O45319]	protein targeting to mitochondrion, protein import into mitochondrial inner membrane, 	mitochondrial intermembrane space protein transporter complex, 	
lmn-1	DY3.2	The lmn-1 gene encodes a nuclear lamin. LMN-1 protein is essential for the nuclear envelope localization of emerin (EMR-1) protein during during early development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural molecule activity, 
hlh-16	DY3.3	Helix Loop Helix family member (hlh-16) [Source:RefSeq_peptide;Acc:NP_492372]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
trt-1	DY3.4	trt-1 encodes C. elegans telomerase reverse transcriptase that affects fertility, maintenance of telomere length, and chromosome nondisjunction. [Source: WormBase]	RNA-dependent DNA replication, 	nucleus, 	RNA binding, DNA binding, RNA-directed DNA polymerase activity, telomeric template RNA reverse transcriptase activity, 
pqn-26	DY3.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	electron transport, 		
mfb-1	DY3.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	proteolysis, dauer larval development, 		protein binding, aspartic-type endopeptidase activity, 
DY3.t2	DY3.t2				
DY3.t1	DY3.t1				
sup-17	DY3.7	sup-17 encodes an ADAM protein, an integral membrane disintegrin and zinc-activated metalloproteinase, orthologous to Drosophila and mouse KUZBANIAN and the vertebrate ADAM10 proteins. SUP-17 is required maternally for embryonic development and plays a role in LIN-12/Notch-mediated cell signaling required for several cell fate decisions during vulval development. SUP-17 is also required for normal body morphology and male tail development. SUP-17 functions cell autonomously to facilitate LIN-12 signaling and requires the LIN-12 extracellular domain to do so. [Source: WormBase]	proteolysis, Notch signaling pathway, embryonic development, 	cellular_component, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
F36A2.3	F36A2.3	F36A2.3 [Source:RefSeq_peptide;Acc:NP_492378]	metabolic process, oviposition, 		oxidoreductase activity, 
F36A2.2	F36A2.2	F36A2.2 [Source:RefSeq_peptide;Acc:NP_492379]	tRNA processing, 		oxidoreductase activity, catalytic activity, FAD binding, 
F36A2.1	F36A2.1	F36A2.1a [Source:RefSeq_peptide;Acc:NP_492380]			protein binding, 
F36A2.8	F36A2.8	F36A2.8 [Source:RefSeq_peptide;Acc:NP_492382]			
twk-30	F36A2.4	TWiK family of potassium channels family member (twk-30) [Source:RefSeq_peptide;Acc:NP_492381]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
F36A2.7	F36A2.7	F36A2.7 [Source:RefSeq_peptide;Acc:NP_492383]	positive regulation of growth rate, 		
rps-15	F36A2.6	rps-15 encodes a small ribosomal subunit S15 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, small ribosomal subunit, ribosome, 	structural constituent of ribosome, 
F36A2.9	F36A2.9	F36A2.9b [Source:RefSeq_peptide;Acc:NP_871868]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
F36A2.10	F36A2.10	F36A2.10 [Source:RefSeq_peptide;Acc:NP_492386]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F36A2.11	F36A2.11	F36A2.11 [Source:RefSeq_peptide;Acc:NP_492387]			
F36A2.14	F36A2.14	F36A2.14 [Source:RefSeq_peptide;Acc:NP_001021451]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F36A2.12	F36A2.12	F36A2.12 [Source:RefSeq_peptide;Acc:NP_492388]			
F36A2.13	F36A2.13	F36A2.13 [Source:RefSeq_peptide;Acc:NP_492389]	protein modification process, ubiquitin cycle, 	intracellular, 	zinc ion binding, ubiquitin-protein ligase activity, 
F29D10.1	F29D10.1	F29D10.1 [Source:RefSeq_peptide;Acc:NP_492390]			
F29D10.2	F29D10.2	F29D10.2 [Source:RefSeq_peptide;Acc:NP_492391]	DNA repair, 		metal ion binding, endonuclease activity, calcium ion binding, 
F29D10.3	F29D10.3	F29D10.3 [Source:RefSeq_peptide;Acc:NP_492392]			
hum-1	F29D10.4	hum-1 encodes a class I unconventional myosin heavy chain that, within this class, is most closely related to the amoeboid myosin I subclass. loss of hum-1 activity via RNAi results in a low frequency of aldicarb resistance, suggesting that hum-1 may play a role in regulating synapse structure and/or function. when expressed in the DA cholinergic motor neurons, a HUM-1 reporter fusion protein localizes solely to punctate structures. [Source: WormBase]	proteolysis, 	myosin complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, cysteine-type endopeptidase activity, motor activity, 
F55H12.6	F55H12.6	F55H12.6a [Source:RefSeq_peptide;Acc:NP_001021502]		intracellular, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
F55H12.2	F55H12.2	F55H12.2 [Source:RefSeq_peptide;Acc:NP_871889]			
F55H12.5	F55H12.5	F55H12.5 [Source:RefSeq_peptide;Acc:NP_492395]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
snf-2	F55H12.1	Sodium:Neurotransmitter symporter Family family member (snf-2) [Source:RefSeq_peptide;Acc:NP_492396]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
F55H12.3	F55H12.3	F55H12.3 [Source:RefSeq_peptide;Acc:NP_492397]			calcium ion binding, sugar binding, 
F55H12.4	F55H12.4	F55H12.4 [Source:RefSeq_peptide;Acc:NP_492398]			
unc-29	T08G11.5	unc-29 encodes an non-alpha subunit of the nicotinic acetylcholine receptor (nAChR) superfamily. UNC-29 is required for normal locomotion and egg-laying, and functions as a subunit of a ligand-gated ion channel that likely mediates fast actions of acetylcholine at neuromuscular junctions and in the nervous system. when coexpressed with LEV-1, a non-alpha nAChR subunit, and UNC-38 or UNC-63, alpha AChR subunits, the resulting multimer can form levamisole-gated channels. UNC-29 is expressed in body wall muscle. [Source: WormBase]	transport, ion transport, locomotion, regulation of pharyngeal pumping, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
T08G11.4	T08G11.4	T08G11.4 [Source:RefSeq_peptide;Acc:NP_492400]	metabolic process, positive regulation of growth rate, 		protein binding, methyltransferase activity, 
T08G11.1	T08G11.1	T08G11.1b [Source:RefSeq_peptide;Acc:NP_740899]	protein localization, 		
T08G11.2	T08G11.2	T08G11.2 encodes a nematode-specific sperm protein, required for a normally high ovulation rate, that interacts with EGL-32. despite not being EGL-32, and although T08G11.2(tm336) complements egl-32(n155), T08G11.2 can partially rescue egl-32 mutants when expressed transgenically, implying that T08G11.2 can be a nonorthologous replacement for EGL-32 function in vivo. T08G11.2 has an SH2 motif, but this motif lacks a critical arginine residue. T08G11.2 has no obvious non-nematode homologs, but is paralogous to four other C. elegans proteins (B0207.11, F42G4.6, F44F4.10, and Y81G3A.1). T08G11.2(tm336) hermaphrodites have a lowered ovulation rate (and thus a lowered rate of egg-laying), retaining significantly fewer eggs than wild-type, yet also retaining late-stage embryos. T08G11.2 has no obvious phenotype in mass RNAi experiments, possibly because of genetic redundancy with its paralogs. T08G11.2 expression is strongly enriched in spermatogenesis. [Source: WormBase]	intracellular signaling cascade, 		
T08G11.3	T08G11.3	T08G11.3 [Source:RefSeq_peptide;Acc:NP_492403]			
tsp-15	F53B6.1	F53B6.1 [Source:RefSeq_peptide;Acc:NP_492404]	collagen and cuticulin-based cuticle attachment to epithelium, 	membrane, integral to membrane, 	
F53B6.2	F53B6.2	F53B6.2a [Source:RefSeq_peptide;Acc:NP_492405]		proteinaceous extracellular matrix, 	zinc ion binding, metallopeptidase activity, peptidase activity, 
fip-6	F53B6.9	F53B6.9 [Source:RefSeq_peptide;Acc:NP_740901]			
fipr-26	F53B6.8	F53B6.8 [Source:RefSeq_peptide;Acc:NP_492406]			
F53B6.4	F53B6.4	F53B6.4 [Source:RefSeq_peptide;Acc:NP_492407]			structural molecule activity, 
F53B6.7	F53B6.7	F53B6.7 encodes a member of the histidine phosphatase superfamily orthologous to Bombyx mori ecdysteroid phosphate phosphatase (EPP), human STS1 (OMIM:609201) and human UBASH3A (OMIM:605736). F53B6.7 lacks the consensus sequence for phosphatase activity, and thus is predicted to be catalytically inactive. F53B6.7 is paralogous to C. elegans C52E4.7, F09C12.8, F55A11.11, and T07F12.1. loss of F53B6.7 activity via large-scale RNAi results in no obvious defects. [Source: WormBase]			
F53B6.5	F53B6.5	F53B6.5 [Source:RefSeq_peptide;Acc:NP_492408]	proteolysis, 		metalloexopeptidase activity, methionyl aminopeptidase activity, 
F53B6.t1	F53B6.t1				
F53B6.6	F53B6.6	F53B6.6 [Source:RefSeq_peptide;Acc:NP_492410]			
F32H2.11	F32H2.11	F32H2.11 [Source:RefSeq_peptide;Acc:NP_001021442]			
gei-11	F32H2.1	gei-11 encodes a protein that contains Myb DNA-binding domains and is homologous to mammalian SNAPC4, required for RNA polymerase II and III transcription of snRNA genes. GEI-11 is required for ventral enclosure during embryonic development, as well as for normal rates of postembryonic growth. GEI-11 interacts with GEX-3, a homolog of mammalian protein ligands of the small GTPase Rac1 that is also essential for embryonic morphogenesis. [Source: WormBase]	positive regulation of growth rate, 	nucleus, 	DNA binding, 
mdt-31	F32H2.2	Mediator of RNA polymerase II transcription subunit 31 (Mediator complex subunit 31) (Mediator complex subunit soh-1). [Source:Uniprot/SWISSPROT;Acc:P91869]	regulation of transcription, embryonic development ending in birth or egg hatching, 	mediator complex, 	RNA polymerase II transcription mediator activity, 
spd-2	F32H2.3	spd-2 encodes a protein with three predicted coiled-coil domains. SPD-2 activity is essential for centrosome maturation and duplication, and hence for proper mitotic spindle assembly. in regulating the early steps of centrosome maturation, SPD-2 acts together with the coiled-coil protein SPD-5, the Aurora-A kinase AIR-1, and the cytoplasmic dynein DHC-1. in regulating centrosome duplication, SPD-2 likely acts together with the ZYG-1 kinase. in both processes, SPD-2 may function to recruit centrosomal components such as ZYG-9 and microtubule-nucleating gamma-tubulin complexes to the developing centrosome. within centrosomes, SPD-2 localizes to both centrioles and the pericentriolar material. efficient centrosomal localization depends upon AIR-1 and DHC-1, while localization specifically to the pericentriolar material depends upon SPD-5. [Source: WormBase]	microtubule cytoskeleton organization and biogenesis, embryonic development ending in birth or egg hatching, 		protein binding, molecular_function, 
F32H2.10	F32H2.10	F32H2.10 [Source:RefSeq_peptide;Acc:NP_492415]			
thoc-3	F32H2.4	F32H2.4 [Source:RefSeq_peptide;Acc:NP_492416]			
fasn-1	F32H2.5	fasn-1 encodes a putative fatty acid synthase, orthologous to human FASN (OMIM:600212). CEP-1 is required for fully normal fasn-1 expression in vivo. CEP-1 drives transcription of luciferase reporters whose promoters contains either of two putative CEP-1 binding sites (FAS-T1 and FAS-T2) found in the fasn-1 gene, and this activity is partially lost by mutation of conserved CEP-1 residues (R298 or H310). in humans, the CEP-1 ortholog isoforms TAp73alpha and deltaNp63alpha bind the human FASN gene, suggesting that FASN genes might be a conserved direct target of p53-like proteins in metazoa. fasn-1 transcription is moderately activated (2 to 4-fold) in L1 or L2 larvae starved for 12 hours, but is not so activated in later larvae or adults. [Source: WormBase]	metabolic process, biosynthetic process, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, cofactor binding, hydrolase activity, acting on ester bonds, transferase activity, 
F32H2.8	F32H2.8	F32H2.8 [Source:RefSeq_peptide;Acc:NP_492418]			
tba-6	F32H2.9	TuBulin, Alpha family member (tba-6) [Source:RefSeq_peptide;Acc:NP_492419]	microtubule-based process, microtubule-based movement, protein polymerization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
F32H2.7	F32H2.7	F32H2.7 [Source:RefSeq_peptide;Acc:NP_492420]			
F32H2.6	F32H2.6	F32H2.6 [Source:RefSeq_peptide;Acc:NP_492421]	embryonic development ending in birth or egg hatching, 		catalytic activity, 
F36F2.7	F36F2.7	F36F2.7 [Source:RefSeq_peptide;Acc:NP_001021455]			nutrient reservoir activity, 
syn-13	F36F2.4	F36F2.4 [Source:RefSeq_peptide;Acc:NP_492422]	intracellular protein transport, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein transporter activity, protein binding, 
fcp-1	F36F2.6	fcp-1 encodes the C. elegans ortholog of FCP1 phosphatase, an enzyme required for dephosphorylation of the C-terminal domain (CTD) of RNA polymerase II and hence, transcriptional regulation. loss of fcp-1 via large-scale RNAi experiments results in nearly 100% embryonic lethality. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	phosphoprotein phosphatase activity, 
tag-214	F36F2.3	Temporarily Assigned Gene name family member (tag-214) [Source:RefSeq_peptide;Acc:NP_001032976]	protein ubiquitination, embryonic development ending in birth or egg hatching, 	ubiquitin ligase complex, 	protein binding, zinc ion binding, nucleic acid binding, ubiquitin-protein ligase activity, 
F36F2.8	F36F2.8	F36F2.8 [Source:RefSeq_peptide;Acc:NP_001021456]			endopeptidase inhibitor activity, 
F36F2.2	F36F2.2	F36F2.2 [Source:RefSeq_peptide;Acc:NP_492425]			
F36F2.1	F36F2.1	F36F2.1 [Source:RefSeq_peptide;Acc:NP_492426]			
tax-2	F36F2.5	tax-2 is orthologous to the human gene ROD PHOTORECEPTOR CNG-CHANNEL BETA SUBUNIT (CNGB1. OMIM:600724), which when mutated leads to disease. [Source: WormBase]	protein amino acid phosphorylation, ion transport, potassium ion transport, neurite morphogenesis, 	membrane, cAMP-dependent protein kinase complex, 	ion channel activity, protein binding, cAMP-dependent protein kinase regulator activity, voltage-gated potassium channel activity, 
C31H5.1	C31H5.1	C31H5.1 [Source:RefSeq_peptide;Acc:NP_492428]			catalytic activity, 
C31H5.2	C31H5.2				
acr-19	C31H5.3	acr-19 encodes a predicted member of the alpha subunit family of nicotinic acetylcholine receptors. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
C31H5.7	C31H5.7	C31H5.7 [Source:RefSeq_peptide;Acc:NP_001021013]			
C31H5.4	C31H5.4	C31H5.4 [Source:RefSeq_peptide;Acc:NP_492430]			
C31H5.6	C31H5.6	C31H5.6 [Source:RefSeq_peptide;Acc:NP_492431]	lipid metabolic process, 		palmitoyl-CoA hydrolase activity, 
C31H5.5	C31H5.5	C31H5.5 [Source:RefSeq_peptide;Acc:NP_492432]			
hgo-1	W06D4.1	hgo-1 is orthologous to the human gene SIMILAR TO HOMOGENTISATE 1,2-DIOXYGENASE (HOMOGENTISATE OXIDASE) (HGD. OMIM:203500), which when mutated leads to disease. [Source: WormBase]	L-phenylalanine catabolic process, tyrosine metabolic process, 		homogentisate 1,2-dioxygenase activity, identical protein binding, 
W06D4.t1	W06D4.t1				
NR_002610.1	W06D4.7	W06D4.7, snRNA [Source:RefSeq_dna;Acc:NR_002610]			
W06D4.2	W06D4.2	W06D4.2 [Source:RefSeq_peptide;Acc:NP_492434]			
NR_002611.1	W06D4.8	W06D4.8, snRNA [Source:RefSeq_dna;Acc:NR_002611]			
W06D4.3	W06D4.3	W06D4.3 [Source:RefSeq_peptide;Acc:NP_492435]		cytoplasm, 	protein binding, 
W06D4.4	W06D4.4	W06D4.4 [Source:RefSeq_peptide;Acc:NP_492436]			
snx-3	W06D4.5	Temporarily Assigned Gene name family member (tag-157) [Source:RefSeq_peptide;Acc:NP_492437]	cell communication, 		protein binding, phosphoinositide binding, 
rad-54	W06D4.6	rad-54 is orthologous to the human gene RAD54 (RAD54L. OMIM:603615), which when mutated leads to disease. [Source: WormBase]			ATP binding, protein binding, DNA binding, nucleic acid binding, helicase activity, 
T06D10.1	T06D10.1	T06D10.1 [Source:RefSeq_peptide;Acc:NP_492439]			
T06D10.2	T06D10.2	T06D10.2 [Source:RefSeq_peptide;Acc:NP_492440]	embryonic development ending in birth or egg hatching, 		
mef-2	W10D5.1	mef-2 encodes a transcription factor that is the sole C. elegans member of the MEF2 subgroup of MADS box transcription factors. loss of mef-2 activity does not result in a strong visible phenotype, although mef-2 mutant adults are slightly dumpy (Dpy). in vitro, MEF-2 is able to bind a consensus MEF2 DNA binding site and interact with the class II histone deacetylase encoded by C10E2.3 (hda-4/hda-7). mef-2 mRNA is detected at all stages of development and expression of mef-2 reporter gene fusions begins in neurons during late embryogenesis and continues in all tissues throughout postembryonic development. mef-2 mutations do not appear to interact with mutations in other myogenic factors such as hlh-1, hlh-8, pha-1, and unc-120. [Source: WormBase]	regulation of transcription, DNA-dependent, translation, potassium ion transport, homoiothermy, response to freezing, 	intracellular, nucleus, voltage-gated potassium channel complex, ribosome, 	transcription factor activity, sequence-specific DNA binding, voltage-gated potassium channel activity, structural constituent of ribosome, ice binding, 
gei-17	W10D5.3	gei-17 encodes a protein containing a MIZ domain (Msx-interacting-zinc finger) that affects embryonic viability, vulval development, and body morphology. interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		zinc ion binding, 
W10D5.2	W10D5.2	W10D5.2 is orthologous to the human gene NADH-UBIQUINONE OXIDOREDUCTASE Fe-S PROTEIN 7 (NDUFS7. OMIM:601825), which when mutated leads to Leigh syndrome (OMIM:256000). [Source: WormBase]	electron transport, mitochondrial electron transport, NADH to ubiquinone, embryonic development ending in birth or egg hatching, 	ferredoxin hydrogenase complex, 	iron-sulfur cluster binding, NADH dehydrogenase (ubiquinone) activity, ferredoxin hydrogenase activity, 
ZK858.1	ZK858.1	ZK858.1 [Source:RefSeq_peptide;Acc:NP_492446]	positive regulation of growth rate, 		nucleotidyltransferase activity, 
ZK858.2	ZK858.2	ZK858.2 [Source:RefSeq_peptide;Acc:NP_492447]			protein binding, 
ZK858.8	ZK858.8	ZK858.8 [Source:RefSeq_peptide;Acc:NP_001021881]			
ZK858.3	ZK858.3	C-type lectin domain-containing protein ZK858.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q94417]			sugar binding, 
mel-26	ZK858.4	mel-26 encodes a MATH and BTB/POZ domain-containing protein that functions as a novel substrate-specific adaptor of the CUL-3-containing E3 ubiquitin ligase. MEL-26 is required maternally for formation of mitotic spindles in the early embryo, and as a component of a ubiquitin ligase complex, for degradation of the microtubule-severing protein MEI-1 at the meiosis to mitosis transition. MEL-26 is also required maternally for embryonic morphogenesis. since MEL-26 contains a meprin-associated Traf homology (MATH) domain, it might be involved in apoptosis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, identical protein binding, 
ZK858.5	ZK858.5	TM2 domain-containing protein ZK858.5. [Source:Uniprot/SWISSPROT;Acc:Q94421]	embryonic development ending in birth or egg hatching, 		
ZK858.6	ZK858.6	ZK858.6 [Source:RefSeq_peptide;Acc:NP_492451]		integral to membrane, 	
ZK858.7	ZK858.7	ZK858.7 [Source:RefSeq_peptide;Acc:NP_492452]	regulation of translational initiation, embryonic development ending in birth or egg hatching, 		translation initiation factor activity, 
H32K16.1	H32K16.1	H32K16.1 [Source:RefSeq_peptide;Acc:NP_492453]			
H32K16.2	H32K16.2	H32K16.2 [Source:RefSeq_peptide;Acc:NP_001021532]	type I hypersensitivity, 		
F25H5.7	F25H5.7	F25H5.7 [Source:RefSeq_peptide;Acc:NP_492454]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F25H5.6	F25H5.6	F25H5.6 [Source:RefSeq_peptide;Acc:NP_492455]	growth, 		
F25H5.5	F25H5.5	F25H5.5 [Source:RefSeq_peptide;Acc:NP_492456]	embryonic development ending in birth or egg hatching, 		
eft-2	F25H5.4	eft-2 encodes a homolog of translation elongation factor 2 (EF-2), a GTP-binding protein essential for the elongation phase of protein synthesis. eft-2 is required for embryogenesis and vulval morphogenesis, and is expressed during all stages of development, including the dauer larval stage. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		GTP binding, GTPase activity, 
F25H5.3	F25H5.3	F25H5.3a [Source:RefSeq_peptide;Acc:NP_492458]	glycolysis, embryonic development ending in birth or egg hatching, 		protein binding, magnesium ion binding, pyruvate kinase activity, potassium ion binding, 
F25H5.9	F25H5.9				
F25H5.8	F25H5.8	F25H5.8 [Source:RefSeq_peptide;Acc:NP_492460]		integral to membrane, 	
F25H5.2	F25H5.2	F25H5.2 [Source:RefSeq_peptide;Acc:NP_492461]			
lim-9	F25H5.1	tag-15 encodes a ortholog of Drosophila LIMPET. TAG-15 enables Wnt-directed planar cell polarity. TAG-15 is required for the fully asymmetrical division of B.a versus B.p cells, though this requirement is quantitatively weak. [Source: WormBase]			zinc ion binding, 
C45G3.4	C45G3.4	C45G3.4 [Source:RefSeq_peptide;Acc:NP_001025229]			
aspm-1	C45G3.1	The C45G3.1 gene encodes a protein, with one N-terminal calponin-like actin-binding domain and two IQ calmodulin-binding domains, that is likely to be required for spindle structure and function, and (indirectly) for neural function, based on its orthology to Drosophila ABNORMAL SPINDLE and on its joint sterile and uncoordinated RNAi phenotypes. C45G3.1 is also orthologous to human ASPM (OMIM:605481), which when mutated leads to primary microcephaly. C45G3.1 is required for embryonic and larval viability, germline maintenance, vulval morphogenesis, meiosis, and locomotion. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
gip-2	C45G3.3	gip-2 encodes a member of the Biotin/lipoate A/B protein ligase family. [Source: WormBase]	protein modification process, embryonic development ending in birth or egg hatching, 		protein binding, catalytic activity, 
C45G3.5	C45G3.5	C45G3.5 [Source:RefSeq_peptide;Acc:NP_001021044]	embryonic development ending in birth or egg hatching, 		
aph-1	VF36H2L.1	aph-1 encodes an unfamiliar protein predicted to have seven transmembrane domains. APH-1 is a component of the GLP-1/LIN-12 (Notch) pathway, is required maternally for embryonic viability, and also affects morphogenesis, egg laying, germ line proliferation, and translocation of APH-2 to the cell surface. with PEN-2, APH-1 is required for Notch pathway signaling, gamma-secretase cleavage of beta-amyloid precursor protein, and presenilin protein accumulation. [Source: WormBase]	protein processing, positive regulation of catalytic activity, locomotory behavior, 	integral to membrane, 	protein binding, 
tat-5	F36H2.1	Transbilayer Amphipath Transporters (subfamily IV P-type ATPase) family member (tat-5) [Source:RefSeq_peptide;Acc:NP_001021458]	transport, metabolic process, cation transport, phospholipid transport, positive regulation of growth rate, 	membrane, integral to membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
F36H2.2	F36H2.2	F36H2.2 [Source:RefSeq_peptide;Acc:NP_492471]	transport, 	membrane, 	nucleoside transmembrane transporter activity, 
F36H2.4	F36H2.4	F36H2.4 [Source:RefSeq_peptide;Acc:NP_001021460]			
F36H2.5	F36H2.5	F36H2.5 [Source:RefSeq_peptide;Acc:NP_001021461]			complement binding, 
F36H2.3	F36H2.3	F36H2.3 [Source:RefSeq_peptide;Acc:NP_001021459]			complement binding, 
F14B4.1	F14B4.1	F14B4.1 [Source:RefSeq_peptide;Acc:NP_492474]		membrane, 	calcium ion binding, 
F14B4.t1	F14B4.t1				
F14B4.t2	F14B4.t2				
F14B4.2	F14B4.2	F14B4.2b [Source:RefSeq_peptide;Acc:NP_001021107]	glycolysis, embryonic development ending in birth or egg hatching, 		ATP binding, protein binding, hexokinase activity, 
F14B4.3	F14B4.3	F14B4.3 [Source:RefSeq_peptide;Acc:NP_492476]	transcription, biological_process, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
F26H9.1	F26H9.1	CHIasma Stabilization family member (chis-1) [Source:RefSeq_peptide;Acc:NP_492477]			
F26H9.2	F26H9.2	F26H9.2 [Source:RefSeq_peptide;Acc:NP_492478]			
F26H9.4	F26H9.4	Uncharacterized protein F26H9.4. [Source:Uniprot/SWISSPROT;Acc:P91851]	biosynthetic process, NAD biosynthetic process, embryonic development ending in birth or egg hatching, 		nucleotidyltransferase activity, 
rab-5	F26H9.6	rab-5 encodes a rab related protein of the Ras GTPase superfamily that affects both the localization of P-granules and of PAR-2, and also affects embryonic and larval viability and the cytoplasmic appearance of cells in the early embryo. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, asymmetric protein localization, 	intracellular, 	protein binding, GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, 
uev-3	F26H9.7	uev-3 encodes a ubiquitin-conjugating enzyme (UBC or E2) variant that contains the UBC motif, but lacks the critical active-site cysteine residue necessary for catalytic activity. as loss of UEV-3 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UEV-3 in C. elegans development and/or behavior is not yet known. based on similarity to Saccharomyces cerevisiae and human proteins, however, UEV-3 may play a role in cell cycle control or response to stress or DNA damage. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
F26H9.5	F26H9.5	Probable phosphoserine aminotransferase (EC 2.6.1.52) (Phosphohydroxythreonine aminotransferase) (PSAT). [Source:Uniprot/SWISSPROT;Acc:P91856]	metabolic process, L-serine biosynthetic process, 		transaminase activity, 
F26H9.8	F26H9.8	F26H9.8 [Source:RefSeq_peptide;Acc:NP_492484]	protein amino acid glycosylation, carbohydrate biosynthetic process, 	endoplasmic reticulum, 	transferase activity, transferring hexosyl groups, UDP-glucose:glycoprotein glucosyltransferase activity, 
C12C8.t6	C12C8.t6				
C12C8.t1	C12C8.t1				
hsp-70	C12C8.1	hsp-70 encodes a member of the hsp70 family. [Source: WormBase]	unfolded protein response, 		ATP binding, 
C12C8.t5	C12C8.t5				
C12C8.t2	C12C8.t2				
C12C8.2	C12C8.2	C12C8.2 [Source:RefSeq_peptide;Acc:NP_492486]	amino acid metabolic process, 		pyridoxal phosphate binding, 
C12C8.t4	C12C8.t4				
C12C8.t3	C12C8.t3				
lin-41	C12C8.3	The lin-41 gene encodes a novel RBCC (Ring finger-B box-Coiled coil) protein that is a member of the NHL (NCL-1, HT2A, and LIN-41) family of proteins and is required for the proper temporal control of specific postembryonic cell fates. lin-41 translation is negatively regulated during L4 and adult stages by let-7, a small temporally regulated RNA (stRNA) that is complementary to two sites in the lin-41 3'UTR. LIN-41 is a widely expressed cytoplasmic protein and negatively regulates post-transcriptional expression of LIN-29, a transcription factor required for adult cell fates. [Source: WormBase]	biological_process, regulation of development, heterochronic, amine metabolic process, 	intracellular, 	protein binding, zinc ion binding, catalytic activity, copper ion binding, amine oxidase activity, quinone binding, 
M04C9.2	M04C9.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:P90931]			pyroglutamyl-peptidase I activity, 
M04C9.1	M04C9.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYY8]			
M04C9.3	M04C9.3	M04C9.3 [Source:RefSeq_peptide;Acc:NP_492491]	proteolysis, 		pyroglutamyl-peptidase I activity, 
M04C9.4	M04C9.4	M04C9.4 [Source:RefSeq_peptide;Acc:NP_492492]			protein binding, 
dyf-5	M04C9.5	dyf-5 encodes a putative MAP kinase orthologous to human MAK/ICK (OMIM:154235), Chlamydomonas reinhardtii LF4, and Leishmania mexicana MPK9. DYF-5 negatively regulates cilial length, restricts KAP-1 to middle ciliary segments, is required for normal localization of six IFT components, and is required for OSM-3 to comigrate normally with IFT particles. DYF-5 is also required for dye-filling of amphid and phasmid neurons and for normal chemotaxis, dauer formation, and male mating. DYF-5 is expressed in head neurons (including amphid neurons), tail neurons (including phasmid neurons), CAN cells, excretory canal neurons, posterior lateral ganglion neurons and in many male tail cells. dyf-5 mutant cilia are abnormally elongated, either failing to enter the amphid channel or accumulating IFT proteins at their distal ends, whereas DYF-5 overexpression results in truncated cilia. the dyf-5 promoter region contains an X-box, predicted to be bound and transcriptionally activated by DAF-19, and dyf-5 is regulated by DAF-19 in vivo. dyf-5 animals are slightly shorter than normal. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ppfr-1	F16A11.3	F16A11.3a [Source:RefSeq_peptide;Acc:NP_001021388]			binding, 
F16A11.5	F16A11.5				
F16A11.2	F16A11.2	UPF0027 protein F16A11.2. [Source:Uniprot/SWISSPROT;Acc:P90838]	positive regulation of growth rate, 		
F16A11.1	F16A11.1	F16A11.1 [Source:RefSeq_peptide;Acc:NP_492499]			protein binding, zinc ion binding, 
C17E4.12	C17E4.12				
C17E4.1	C17E4.1	C17E4.1 [Source:RefSeq_peptide;Acc:NP_492500]			
C17E4.2	C17E4.2	C17E4.2 [Source:RefSeq_peptide;Acc:NP_492501]	embryonic development ending in birth or egg hatching, 		protein binding, 
C17E4.3	C17E4.3	C17E4.3 [Source:RefSeq_peptide;Acc:NP_492502]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
C17E4.4	C17E4.4	C17E4.4 [Source:RefSeq_peptide;Acc:NP_492503]	embryonic development ending in birth or egg hatching, 		
C17E4.11	C17E4.11	C17E4.11 [Source:RefSeq_peptide;Acc:NP_001021001]	metabolic process, embryonic development ending in birth or egg hatching, 		methyltransferase activity, 
pabp-2	C17E4.5	pab-3 is orthologous to human PABPN1 (OMIM:602279, mutated in oculopharyngeal muscular dystrophy). [Source: WormBase]	positive regulation of embryonic development, 		nucleotide binding, protein binding, nucleic acid binding, 
C17E4.6	C17E4.6	C17E4.6 [Source:RefSeq_peptide;Acc:NP_492505]	regulation of transcription, 	nucleus, 	DNA binding, transcription factor activity, 
C17E4.9	C17E4.9	Sodium/potassium-transporting ATPase subunit beta-1 (Sodium/potassium- dependent ATPase beta subunit 1). [Source:Uniprot/SWISSPROT;Acc:Q93235]	sodium ion transport, potassium ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	sodium:potassium-exchanging ATPase activity, 
C17E4.10	C17E4.10	C17E4.10 [Source:RefSeq_peptide;Acc:NP_492507]			protein binding, 
mec-8	F46A9.6	MEChanosensory abnormality family member (mec-8) [Source:RefSeq_peptide;Acc:NP_492508]	embryonic development ending in birth or egg hatching, mechanosensory behavior, 		protein binding, nucleic acid binding, 
F46A9.1	F46A9.1	F46A9.1 [Source:RefSeq_peptide;Acc:NP_492509]			
F46A9.2	F46A9.2	F46A9.2 [Source:RefSeq_peptide;Acc:NP_492510]			
twk-29	F46A9.3	TWiK family of potassium channels family member (twk-29) [Source:RefSeq_peptide;Acc:NP_001021468]	potassium ion transport, 	membrane, 	potassium channel activity, 
skr-2	F46A9.4	skr-2 encodes a homolog of Skp1 in S. cerevisiae, a core component of the SCF (Skp1p, Cullin, F-box) ubiquitin-ligase complex that facilitates ubiquitin-mediated protein degradation. SKR-2 is required for the restraint of cell proliferation, progression through the pachytene stage of meiosis, and the formation of bivalent chromosomes at diakinesis. SKR-2::GFP is detected exclusively in the intestine. [Source: WormBase]	positive regulation of growth rate, 		protein binding, molecular_function, 
skr-1	F46A9.5	The skr-1 gene encodes a homolog of Skp1 in S. cerevisiae that is required for the restraint of cell proliferation, progression through the pachytene stage of meiosis, and the formation of bivalent chromosomes at diakinesis. [Source: WormBase]	positive regulation of growth rate, 		protein binding, 
F30A10.1	F30A10.1	F30A10.1 [Source:RefSeq_peptide;Acc:NP_492514]	negative regulation of multicellular organism growth, 		calcium ion binding, 
F30A10.14	F30A10.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2U9]			
F30A10.11	F30A10.11	F30A10.11 [Source:RefSeq_peptide;Acc:NP_001021429]			
F30A10.13	F30A10.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2U8]			
F30A10.2	F30A10.2	F30A10.2 [Source:RefSeq_peptide;Acc:NP_492515]	biological_process, 		
F30A10.12	F30A10.12	F30A10.12 [Source:RefSeq_peptide;Acc:NP_001021430]			
F30A10.4	F30A10.4	F30A10.4 [Source:RefSeq_peptide;Acc:NP_492516]		membrane, 	acetylglucosaminyltransferase activity, 
stl-1	F30A10.5	STomatin-Like family member (stl-1) [Source:RefSeq_peptide;Acc:NP_492517]		membrane, 	
F30A10.6	F30A10.6	F30A10.6 [Source:RefSeq_peptide;Acc:NP_492518]	positive regulation of growth rate, 		
F30A10.3	F30A10.3	F30A10.3 [Source:RefSeq_peptide;Acc:NP_492519]			inositol trisphosphate 3-kinase activity, 
F30A10.7	F30A10.7				
stn-1	F30A10.8	Syntrophin-1. [Source:Uniprot/SWISSPROT;Acc:Q93646]	biological_process, positive regulation of locomotion, acetylcholine transport, muscle maintenance, neuromuscular junction development, 	dystrophin-associated glycoprotein complex, 	protein binding, acetylcholine transmembrane transporter activity, calcium channel regulator activity, 
F30A10.9	F30A10.9	F30A10.9 [Source:RefSeq_peptide;Acc:NP_492523]	biological_process, 		
F30A10.10	F30A10.10	F30A10.10 [Source:RefSeq_peptide;Acc:NP_492524]	ubiquitin-dependent protein catabolic process, gamete generation, 		ubiquitin thiolesterase activity, 
smn-1	C41G7.1	smn-1 encodes a homolog of human SMN, which when mutated leads to spinal muscular atrophy (OMIM:253300). [Source: WormBase]	mRNA processing, spliceosome assembly, biological_process, 	cytoplasm, nucleus, 	RNA binding, nucleic acid binding, 
klp-16	C41G7.2	klp-16 encodes a C-terminal motor kinesin orthologous to the Drosophila melanogaster Ncd and Saccharomyces cerevisiae Kar3. however KLP-16 along with KLP-3, KLP-15 and KLP-17 form an unique subgroup based on amino acid sequence and secondary structure analysis. klp-16 is involved in development of the nervous system in embryos and in chromosome segregation. in situ RNA hybridization experiments indicate that klp-16 is localized in the anterior nervous system in the head region of late embryos. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, embryonic development, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
C41G7.3	C41G7.3	C41G7.3 [Source:RefSeq_peptide;Acc:NP_492528]	chromosome segregation, 	integral to membrane, 	RNA binding, 
set-32	C41G7.4	Temporarily Assigned Gene name family member (tag-328) [Source:RefSeq_peptide;Acc:NP_492529]		nucleus, 	
ahr-1	C41G7.5	ahr-1 encodes an aryl hydrocarbon receptor (ligand-activated basic helix-loop-helix transcription factor) ortholog that biochemically resembles its vertebrate relatives (OMIM:600253) which mediate the carcinogenic and teratogenic effects of environmental toxins. AHR-1 binds HSP90 tightly, and forms a dimer with AHA-1 that binds DNA fragments containing the mammalian xenobiotic response element. AHR-1 is expressed in neurons, and may play a role in neuronal migration. [Source: WormBase]	signal transduction, regulation of transcription, regulation of transcription, DNA-dependent, intracellular receptor-mediated signaling pathway, 	nucleus, 	signal transducer activity, transcription regulator activity, transcription factor activity, 
C41G7.6	C41G7.6	C41G7.6 [Source:RefSeq_peptide;Acc:NP_492531]			
C41G7.7	C41G7.7	Uncharacterized protein C41G7.7. [Source:Uniprot/SWISSPROT;Acc:Q93364]			
irx-1	C36F7.1	irx-1 encodes a homeodomain-containing protein that is most similar to members of the Iroquois subclass of TALE (three amino acid loop extension) superclass atypical homeodomain proteins. IRX-1 is predicted to function as a transcriptional regulator during development, but as loss of irx-1 activity via RNAi results in no obvious defects, the precise role of irx-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
C36F7.2	C36F7.2	C36F7.2 [Source:RefSeq_peptide;Acc:NP_492534]			
C36F7.t1	C36F7.t1				
C36F7.t2	C36F7.t2				
C36F7.t3	C36F7.t3				
rig-5	C36F7.4	neuRonal IGCAM family member (rig-5) [Source:RefSeq_peptide;Acc:NP_492535]			
C36F7.5	C36F7.5	C36F7.5 [Source:RefSeq_peptide;Acc:NP_492537]		proteinaceous extracellular matrix, 	extracellular matrix structural constituent, 
F42H11.1	F42H11.1	F42H11.1 [Source:RefSeq_peptide;Acc:NP_492538]			calmodulin binding, 
lem-3	F42H11.2	LEM domain protein family member (lem-3) [Source:RefSeq_peptide;Acc:NP_492539]		nuclear envelope, 	
K07A1.17	K07A1.17	K07A1.17 [Source:RefSeq_peptide;Acc:NP_001076605]			
K07A1.1	K07A1.1	K07A1.1 [Source:RefSeq_peptide;Acc:NP_492540]			protein binding, 
K07A1.13	K07A1.13	K07A1.13 [Source:RefSeq_peptide;Acc:NP_492541]			
dut-1	K07A1.2	DeoxyUTPase family member (dut-1) [Source:RefSeq_peptide;Acc:NP_001021553]	dUTP metabolic process, reproduction, 		hydrolase activity, 
K07A1.3	K07A1.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:P90910]	proteolysis, reproduction, 	integral to membrane, 	ATP binding, peptidase activity, 
K07A1.4	K07A1.4	K07A1.4 [Source:RefSeq_peptide;Acc:NP_492544]			
K07A1.5	K07A1.5	K07A1.5 [Source:RefSeq_peptide;Acc:NP_492545]	translation, pathogenesis, cytolysis, response to bacterium, 	intracellular, ribosome, 	endonuclease activity, structural constituent of ribosome, receptor binding, 
K07A1.6	K07A1.6	K07A1.6 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. K07A1.6 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. K07A1.6 has no obvious function in mass RNAi assays. [Source: WormBase]			
K07A1.7	K07A1.7	K07A1.7 [Source:RefSeq_peptide;Acc:NP_492547]			
K07A1.14	K07A1.14	K07A1.14 [Source:RefSeq_peptide;Acc:NP_001021550]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, 
K07A1.t1	K07A1.t1				
aqp-9	K07A1.16	AQuaPorin or aquaglyceroporin related family member (aqp-9) [Source:RefSeq_peptide;Acc:NP_001021552]	transport, 	membrane, 	transporter activity, 
ile-1	K07A1.8	ile-1 is orthologous to the human gene human ERGIC-53, which when mutated leads to deficiency of coagulation factors V/VIII (OMIM:227300). [Source: WormBase]		membrane, 	
K07A1.15	K07A1.15	K07A1.15 [Source:RefSeq_peptide;Acc:NP_001021551]	mRNA metabolic process, 	ribonucleoprotein complex, 	
K07A1.9	K07A1.9	K07A1.9c [Source:RefSeq_peptide;Acc:NP_871830]	protein arginylation, regulation of protein catabolic process, 		arginyltransferase activity, 
K07A1.10	K07A1.10	K07A1.10 [Source:RefSeq_peptide;Acc:NP_492550]	neuropeptide signaling pathway, synaptic transmission, 		
rba-1	K07A1.11	Probable histone-binding protein rba-1. [Source:Uniprot/SWISSPROT;Acc:P90917]	embryonic development ending in birth or egg hatching, 		
lin-53	K07A1.12	Probable histone-binding protein lin-53 (Abnormal cell lineage protein 53). [Source:Uniprot/SWISSPROT;Acc:P90916]	embryonic development ending in birth or egg hatching, embryonic digestive tract morphogenesis, 		
T05F1.1	T05F1.1	T05F1.1 [Source:RefSeq_peptide;Acc:NP_492553]	protein processing, reproduction, 	integral to membrane, 	calcium ion binding, 
T05F1.2	T05F1.2	T05F1.2 [Source:RefSeq_peptide;Acc:NP_492554]			
rps-19	T05F1.3	rps-19 encodes a small ribosomal subunit S19 protein, orthologous to human RPS19 (OMIM:603474, mutated in Diamond-Blackfan anemia). [Source: WormBase]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
hsr-9	T05F1.6	hsr-9 encodes a protein containing a BRCT (BRCA 1 C terminus) domain that is found in proteins that regulate the cell cycle checkpoint in response to DNA damage. HSR-9 activity is required for a normal response to DNA damage caused by gamma-irradiation. loss of HSR-9 function via RNA-mediated interference after gamma-irradiation results in defects in mitotic cell cycle arrest, reduction of apoptosis of pachytene nuclei, and radiation sensitivity of progeny. the expression pattern and subcellular localization of HSR-9 are not yet known. [Source: WormBase]		intracellular, 	
T05F1.4	T05F1.4	T05F1.4 [Source:RefSeq_peptide;Acc:NP_492558]			protein binding, 
T05F1.5	T05F1.5	T05F1.5 [Source:RefSeq_peptide;Acc:NP_492559]			
T05F1.7	T05F1.7	T05F1.7 [Source:RefSeq_peptide;Acc:NP_492560]			
T05F1.8	T05F1.8	T05F1.8 [Source:RefSeq_peptide;Acc:NP_492561]	transport, 	membrane, integral to membrane, mitochondrial inner membrane, 	transporter activity, binding, arsenite transmembrane transporter activity, 
T05F1.9	T05F1.9	T05F1.9 [Source:RefSeq_peptide;Acc:NP_492562]			
dhs-4	T05F1.10	dhs-4 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T05F1.13	T05F1.13	T05F1.13 [Source:RefSeq_peptide;Acc:NP_871891]	glycolysis, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, 
T05F1.11	T05F1.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	cell redox homeostasis, 		
C03D6.6	C03D6.6	C03D6.6 [Source:RefSeq_peptide;Acc:NP_492566]	embryonic development ending in birth or egg hatching, 		
asfl-1	C03D6.5	Probable histone chaperone asf-1-like protein (Anti-silencing function protein 1-like). [Source:Uniprot/SWISSPROT;Acc:Q17603]	chromatin assembly or disassembly, 	nucleus, 	
npp-14	C03D6.4	npp-14 is orthologous to the human gene NUCLEOPORIN, 214-KD (NUP214. OMIM:114350), which encodes part of the nucleopore complex mediating nucleocytoplasmic transport. NUP214, as a fusion gene with DEK (OMIM:125264), is found in a subset of acute myeloid leukemia. [Source: WormBase]			
cel-1	C03D6.3	cel-1 encodes a mRNA capping enzyme, with a N-terminal region with RNA triphosphatase activity and a C-terminal region containing motifs found in yeast and vaccinia virus capping enzyme guanylytransferases. cel-1 is required for embryonic viability, body morphology, and vulval development. [Source: WormBase]	DNA repair, protein amino acid dephosphorylation, dephosphorylation, mRNA capping, mRNA processing, DNA replication, DNA recombination, post-embryonic body morphogenesis, 	intracellular, 	ATP binding, protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, mRNA guanylyltransferase activity, DNA ligase (ATP) activity, 
C03D6.1	C03D6.1	C03D6.1 [Source:RefSeq_peptide;Acc:NP_492571]	positive regulation of growth rate, 		
rpl-24.2	C03D6.8	rpl-24.2 encodes a large ribosomal subunit L24 protein paralog. its orthologs include ribosomal protein L30 isologs from mammals and 'Ribosomal Like Protein 24' (Rlp24p) from S. cerevisiae. it therefore appears to actually represent an ancient paralogy between two varieties of eukaryotic L24 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
C04F12.1	C04F12.1	C04F12.1 [Source:RefSeq_peptide;Acc:NP_492573]	defense response, 		
C04F12.t1	C04F12.t1				
ikb-1	C04F12.3	ikb-1 encodes an ortholog of human BCL3 (OMIM:109560) that physically interacts with the checkpoint protein MRT-2. ikb-1(nr2019) and ikb-1(nr2027) mutants display no obvious phenotype other than shortened lifespan. mutation of BCL3 is frequently associated with recurring translocations found in the neoplastic cells of patients with chronic lymphocytic leukemia, and has been implicated in cell cycle control (perhaps via apoptosis). [Source: WormBase]	signal transduction, 		protein binding, identical protein binding, 
rpl-14	C04F12.4	rpl-14 encodes a large ribosomal subunit L14 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
C04F12.5	C04F12.5	C04F12.5 [Source:RefSeq_peptide;Acc:NP_492577]			
C04F12.6	C04F12.6	C04F12.6 [Source:RefSeq_peptide;Acc:NP_492578]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	extracellular region, 	signal transducer activity, 
C04F12.7	C04F12.7	C04F12.7 [Source:RefSeq_peptide;Acc:NP_492579]			
C04F12.8	C04F12.8	C04F12.8 [Source:RefSeq_peptide;Acc:NP_492580]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
rnh-1.3	C04F12.9	RNase H family member (rnh-1.3) [Source:RefSeq_peptide;Acc:NP_492581]			protein binding, nucleic acid binding, ribonuclease H activity, 
fce-1	C04F12.10	fce-1 encodes an ortholog of 'farnesylated-proteins converting enzyme 1' (FACE-1), and thus probably enables post-translational processing of proteins (such as LET-60/RAS) carrying a C-terminal CaaX motif. FCE-1 protein probably accounts for the EDTA-sensitive, tosylphenylalanylchloromethane-insensitive component of CaaX-proteolytic activity in membrane extracts from C. elegans, and FCE-1 can cleave a farnesylated peptide in vitro. the S. cerevisiae homolog of FCE-1 (Ste24p) cleaves the precursor of yeast a-factor mating pheromone after its farnesylated cysteine residue, and transgenic FCE-1 rescues a mating defect of mutant yeast lacking both the Ste24p and the Rce1p CaaX-proteases. [Source: WormBase]	proteolysis, 	membrane, 	metalloendopeptidase activity, 
C16C2.4	C16C2.4	C16C2.4 [Source:RefSeq_peptide;Acc:NP_492583]			
ocrl-1	C16C2.3	The C16C2.3 gene encodes an inositol-1,4,5-triphosphate 5-phosphatase homolog that is homologous to human OCRL. [Source: WormBase]	signal transduction, 	intracellular, 	inositol or phosphatidylinositol phosphatase activity, 
eat-16	C16C2.2	The eat-16 gene encodes an RGS protein that affects movement, pharyngeal pumping, egg laying, and synaptic transmission. it genetically interacts with the egl-30 and goa-1 signaling pathways, and is expressed in excitable cells and in the spermatheca. [Source: WormBase]	intracellular signaling cascade, G-protein coupled receptor protein signaling pathway, nematode larval development, regulation of pharyngeal pumping, 	heterotrimeric G-protein complex, 	signal transducer activity, 
ceh-5	C16C2.1	ceh-5 encodes a homeodomain protein, similar to the human VENTRAL ANTERIOR HOMEO BOX 2 gene (VAX2. OMIM:604295). CEH-5 is dispensable for viability and gross morphology. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
gfi-2	K02A11.1	GEI-4(Four) Interacting protein family member (gfi-2) [Source:RefSeq_peptide;Acc:NP_492587]	morphogenesis of an epithelium, 		
K02A11.2	K02A11.2	K02A11.2 [Source:RefSeq_peptide;Acc:NP_492589]			
K02A11.3	K02A11.3	K02A11.3 [Source:RefSeq_peptide;Acc:NP_492590]			
K02A11.4	K02A11.4	K02A11.4 [Source:RefSeq_peptide;Acc:NP_001032977]			
sur-6	F26E4.1	SUppressor of activated let-60 Ras family member (sur-6) [Source:RefSeq_peptide;Acc:NP_492591]	signal transduction, embryonic development ending in birth or egg hatching, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
F26E4.2	F26E4.2	F26E4.2 [Source:RefSeq_peptide;Acc:NP_492592]	spindle organization and biogenesis, 		protein binding, 
F26E4.3	F26E4.3	Uncharacterized peptidase C1-like protein F26E4.3. [Source:Uniprot/SWISSPROT;Acc:P90850]	proteolysis, ATP synthesis coupled electron transport, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, NADH dehydrogenase (ubiquinone) activity, 
F26E4.5	F26E4.5	F26E4.5 encodes an SH2 domain-containing tyrosine kinase related to the vertebrate FER non-receptor protein tyrosine kinase. loss of F26E4.5 activity in an RNAi-hypersensitive strain results in axon guidance defects indicating that F26E4.5 likely plays a role in regulation of axon navigation. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F26E4.4	F26E4.4	F26E4.4 [Source:RefSeq_peptide;Acc:NP_492595]	embryonic development ending in birth or egg hatching, 		
F26E4.6	F26E4.6	F26E4.6 [Source:RefSeq_peptide;Acc:NP_492596]	electron transport, positive regulation of growth rate, 		protein binding, cytochrome-c oxidase activity, 
F26E4.7	F26E4.7	The F26E4.7 gene encodes a homolog of human BIGH3, which when mutated leads to Groenouw granular dystrophy, type 1 (OMIM:122200). [Source: WormBase]	cell adhesion, 		
F26E4.12	F26E4.12	Probable glutathione peroxidase F26E4.12 (EC 1.11.1.9). [Source:Uniprot/SWISSPROT;Acc:O02621]	response to oxidative stress, 		glutathione peroxidase activity, 
drsh-1	F26E4.10	drsh-1 encodes a predicted RNase III-type ribonuclease that is orthologous to Drosophila and human Drosha. by homology, DRSH-1 is predicted to function as an endoribonuclease that, in the nucleus, initiates cleavage of primary miRNA transcripts (pri-mRNAs) into pre-miRNAs that are then exported to the cytoplasm for further processing. loss of drsh-1 activity via RNAi results in re-expression of a let-7-silenced reporter in adults, suggesting that DRSH-1 is required for let-7 processing. in addition, DRSH-1 also appears to be required for fertility, as adults lacking drsh-1 activity are sterile. along with PASH-1, a double-stranded RNA binding protein, DRSH-1 may be part of a conserved multiprotein complex that regulates nuclear pri-miRNA splicing. [Source: WormBase]	RNA processing, embryonic development ending in birth or egg hatching, 	intracellular, 	RNA binding, double-stranded RNA binding, ribonuclease III activity, 
tba-1	F26E4.8	TuBulin, Alpha family member (tba-1) [Source:RefSeq_peptide;Acc:NP_492600]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, 	cytoplasm, microtubule, protein complex, 	protein binding, GTP binding, GTPase activity, structural molecule activity, 
cco-1	F26E4.9	Cytochrome C Oxidase family member (cco-1) [Source:RefSeq_peptide;Acc:NP_492601]	electron transport, positive regulation of growth rate, sequestering of lipid, 	mitochondrial envelope, 	cytochrome-c oxidase activity, 
F26E4.14	F26E4.14				
hrdl-1	F26E4.11	Uncharacterized RING finger protein F26E4.11. [Source:Uniprot/SWISSPROT;Acc:P90859]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
F35C12.1	F35C12.1	F35C12.1 [Source:RefSeq_peptide;Acc:NP_492603]			
ncx-4	F35C12.2	Na/Ca eXchangers family member (ncx-4) [Source:RefSeq_peptide;Acc:NP_001040663]	calcium ion transport, 	membrane, integral to membrane, 	calcium:sodium antiporter activity, 
F35C12.3	F35C12.3	F35C12.3c [Source:RefSeq_peptide;Acc:NP_001021450]			
Y67A6A.1	Y67A6A.1	Y67A6A.1 [Source:RefSeq_peptide;Acc:NP_492606]			
nhr-62	Y67A6A.2	Nuclear hormone receptor family member nhr-62. [Source:Uniprot/SWISSPROT;Acc:O02279]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
zig-1	K10C3.3	2 (Zwei) IG-domain protein family member (zig-1) [Source:RefSeq_peptide;Acc:NP_492608]	pathogenesis, 	extracellular region, 	interleukin-1 receptor activity, 
K10C3.2	K10C3.2	K10C3.2 [Source:RefSeq_peptide;Acc:NP_492609]			
K10C3.4	K10C3.4	K10C3.4 [Source:RefSeq_peptide;Acc:NP_492610]			
K10C3.5	K10C3.5	K10C3.5a [Source:RefSeq_peptide;Acc:NP_001021564]			GTP binding, GTPase activity, 
nhr-49	K10C3.6	Nuclear hormone receptor family member nhr-49. [Source:Uniprot/SWISSPROT;Acc:O45666]	regulation of transcription, DNA-dependent, locomotory behavior, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
inx-20	T23H4.1	INneXin family member (inx-20) [Source:RefSeq_peptide;Acc:NP_492614]		gap junction, 	
nhr-69	T23H4.2	nhr-69 encodes a conserved nuclear receptor that is a member of the NR2 subfamily of nuclear receptors that contains Drosophila and human HNF4 (OMIM:600281, mutations in human HNF4A are associated with Type I MODY (maturity-onset diabetes of the young)). by homology, NHR-69 is predicted to function as a transcription factor that may activate or repress transcription in response to a hormonal signal. however, as loss of nhr-69 activity via RNAi does not result in any obvious abnormalities, the precise role of NHR-69 in C. elegans development and/or behavior is not yet known. nhr-69 is expressed strongly in the gut and hypodermis at all stages and is detected in the uterus during the late L4 and adult stages. nhr-69 expression is also occasionally detected in the rectal epithelia and posterior pharynx. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, identical protein binding, 
T23H4.t1	T23H4.t1				
nas-5	T23H4.3	Zinc metalloproteinase nas-5 precursor (EC 3.4.24.21) (Nematode astacin 5). [Source:Uniprot/SWISSPROT;Acc:P91828]	proteolysis, 		zinc ion binding, metallopeptidase activity, peptidase activity, astacin activity, 
oct-1	F52F12.1	oct-1 encodes a organic cation transporter predicted to contain twelve transmembrane domains. OCT-1 induces the transport of the prototypical organic cation tetraethylammonium when expressed in mammalian cells, and has broad substrate specificity. OCT-1 is orthologous to human OCTN2 (OMIM:603377, mutated in primary carnitine deficiency). [Source: WormBase]	transport, organic cation transport, 	integral to membrane, 	transporter activity, organic cation transmembrane transporter activity, 
col-64	F52F12.2	F52F12.2 [Source:RefSeq_peptide;Acc:NP_492619]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
mom-4	F52F12.3	mom-4 encodes a MAP kinase kinase kinase-related protein orthologous to Drosophila Tak1 and the vertebrate MAPKKK7 proteins. during embryonic development, mom-4 activity is required for positive regulation of the Wnt pathway signaling that governs anterior/posterior (A/P) polarity: MOM-4 stimulates the WRM-1/LIT-1-dependent phosphorylation of POP-1, a TCF/LEF-related transcription factor, leading to its downregulation in posterior daughters of A/P cell divisions. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
lsl-1	F52F12.4	LSY-2-Like family member (lsl-1) [Source:RefSeq_peptide;Acc:NP_492621]	embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
ekl-2	F52F12.6	Enhancer of Ksr-1 Lethality family member (ekl-2) [Source:RefSeq_peptide;Acc:NP_492622]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, transcription factor activity, 
F52F12.5	F52F12.5	F52F12.5 [Source:RefSeq_peptide;Acc:NP_492623]			
F52F12.8	F52F12.8	F52F12.8 [Source:RefSeq_peptide;Acc:NP_001021485]			structural molecule activity, 
F52F12.9	F52F12.9	F52F12.9 [Source:RefSeq_peptide;Acc:NP_001021486]			
F52F12.7	F52F12.7	F52F12.7 is orthologous to the human gene STEROIDOGENIC ACUTE REGULATORY PROTEIN (STAR. OMIM:600617), which when mutated leads to disease. [Source: WormBase]	steroid biosynthetic process, 		cholesterol binding, cholesterol transporter activity, 
Y106G6A.4	Y106G6A.4	Y106G6A.4 [Source:RefSeq_peptide;Acc:NP_492625]			
Y106G6A.2	Y106G6A.2	Y106G6A.2a [Source:RefSeq_peptide;Acc:NP_740908]	positive regulation of growth rate, 		
Y106G6A.5	Y106G6A.5	Y106G6A.5 is an divergent ortholog of human dysbindin (OMIM:607145, associated with schizophrenia and mutated in Hermansky-Pudlak syndrome). [Source: WormBase]			
Y106G6A.1	Y106G6A.1	Y106G6A.1 [Source:RefSeq_peptide;Acc:NP_492629]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
sqv-5	T24D1.1	sqv-5 encodes a chondroitin synthase that both initiates and elongates chondroitin chains (unlike human chondroitin synthase, which only elongates them). SQV-5 is required for cytokinesis (e.g., at the one-cell embryo stage), gonad migration, and vulval morphogenesis (by expanding the extracellular space of the vulva in L4 larvae). the common requirement for SQV-5 in both processes may be to promote filling an extracellular space with fluid (either in the eggshell, or underneath the L4 cuticle). SQV-5 colocalizes with SQV-1 at punctate foci (probably the Golgi apparatus) in the cytoplasm of the vulva, the uterus and oocytes. SQV-5 is most similar to human chondroitin synthase (KIAA0990) and Drosophila CG9220. [Source: WormBase]	embryonic development ending in birth or egg hatching, morphogenesis of an epithelium, 		
T24D1.2	T24D1.2	T24D1.2 [Source:RefSeq_peptide;Acc:NP_492631]			protein binding, zinc ion binding, 
T24D1.5	T24D1.5	T24D1.5 [Source:RefSeq_peptide;Acc:NP_492632]			protein binding, zinc ion binding, 
T24D1.3	T24D1.3	T24D1.3 [Source:RefSeq_peptide;Acc:NP_492633]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
tag-179	T24D1.4	Temporarily Assigned Gene name family member (tag-179) [Source:RefSeq_peptide;Acc:NP_492634]			
mom-5	T23D8.1	More Of MS family member (mom-5) [Source:RefSeq_peptide;Acc:NP_492635]	cell surface receptor linked signal transduction, ATP synthesis coupled electron transport, post-embryonic body morphogenesis, endodermal cell fate specification, 	membrane, 	G-protein coupled receptor activity, non-G-protein coupled 7TM receptor activity, NADH dehydrogenase (ubiquinone) activity, 
tsp-7	T23D8.2	T23D8.2 [Source:RefSeq_peptide;Acc:NP_492636]		integral to membrane, 	
T23D8.3	T23D8.3	T23D8.3 [Source:RefSeq_peptide;Acc:NP_492637]	positive regulation of growth rate, 		protein binding, 
eif-3.C	T23D8.4	Probable eukaryotic translation initiation factor 3 subunit 8 (eIF3 p110) (eIF3c). [Source:Uniprot/SWISSPROT;Acc:O02328]	translational initiation, reproduction, 	eukaryotic translation initiation factor 3 complex, 	translation initiation factor activity, 
sys-1	T23D8.9	sys-1 encodes a novel protein that contains three divergent armadillo repeats. during gonadogenesis, SYS-1 functions in a Wnt/MAPK signaling pathway as a dosage-dependent beta-catenin-like transcriptional coactivator required for specification of distal cell fates. consistent with its role as a beta-catenin, SYS-1 interacts, in yeast two-hybrid and coimmunoprecipitation assays, with the POP-1/TCF transcription factor with which it can stimulate transcription via TCF binding sites. in two hybrid-assays, the POP-1/SYS-1 interaction requires the N-terminal beta-catenin binding domain of POP-1, and most of the SYS-1 protein. the SYS-1 expression pattern is not yet known. [Source: WormBase]	embryonic development ending in birth or egg hatching, polarity specification of proximal/distal axis, female gonad development, 		
his-67	T23D8.5	his-67 encodes an H4 histone required for embryonic viability and growth. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-68	T23D8.6	his-68 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
T23D8.7	T23D8.7	T23D8.7 [Source:RefSeq_peptide;Acc:NP_492643]			
cfi-1	T23D8.8	cfi-1 encodes a DNA-binding protein containing an AT-rich interaction domain (ARID) that affects differentiation of the URA sensory neurons, AVD, and PVC interneurons. acts downstream of UNC-86 and LIN-32 in controlling URA and IL2 cell fate, and is expressed in some neurons and muscle cells. [Source: WormBase]	neuron differentiation, 	intracellular, 	DNA binding, 
C03C11.1	C03C11.1	C03C11.1 [Source:RefSeq_peptide;Acc:NP_492645]			
fog-3	C03C11.2	fog-3 encodes a protein that has similarity, in its N-terminus, to the vertebrate Tob, BTG1, and BTG2 proteins that function in growth control and/or differentiation. in C. elegans, FOG-3 activity is required in the germ line throughout development for initiation and maintenance of spermatogenesis. fog-3 mRNA is expressed at highest levels in the L3, L4, and young adult stages of development, when spermatogenesis occurs. fog-3 transcription appears to be under the control of TRA-1A, which interacts with predicted TRA-1A binding sites in the fog-3 promoter in vitro. [Source: WormBase]	masculinization of hermaphroditic germ-line, 		
F10G8.1	F10G8.1	F10G8.1 [Source:RefSeq_peptide;Acc:NP_492647]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F10G8.2	F10G8.2	F10G8.2 [Source:RefSeq_peptide;Acc:NP_492648]			
eak-6	F10G8.4	eak-6 encodes a protein tyrosine phosphatase paralogous to SDF-9. eak-6 acts in parallel to akt-1 to regulate insulin-like signaling and dauer formation. EAK-6 is expressed in the neuroendocrine XXXL/R cells, where it localizes to the plasma membrane. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, dauer larval development, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
npp-17	F10G8.3	Nucleoporin-17 (Nuclear pore complex protein 17) (CeRAE1). [Source:Uniprot/SWISSPROT;Acc:Q93454]	negative regulation of locomotion, 		
F10G8.7	F10G8.7	F10G8.7 [Source:RefSeq_peptide;Acc:NP_492652]	DNA repair, 	intracellular, nucleus, 	DNA binding, endonuclease activity, damaged DNA binding, 
ncs-2	F10G8.5	Neuronal calcium sensor 2 (NCS-2). [Source:Uniprot/SWISSPROT;Acc:P36609]			calcium ion binding, 
F10G8.6	F10G8.6	F10G8.6 encodes an homolog of S. cerevisiae CFD1 (also known as YIL003W/DRE3), a putative P-loop ATPase conserved in eukaryotes and required in yeast for 4Fe-4S cluster assembly. F10G8.6 is also homologous to yeast NBP35/YGL091C. in C. elegans, F10G8.6 is required for normally rapid growth and maintenance of the germline. F10G8.6 protein was predicted to be mitochondrial on the basis of its phylogenetic profile. [Source: WormBase]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F10G8.9	F10G8.9	F10G8.9b [Source:RefSeq_peptide;Acc:NP_001021098]			catalytic activity, 
F10G8.8	F10G8.8	F10G8.8 [Source:RefSeq_peptide;Acc:NP_492655]			protein binding, 
B0379.2	B0379.2	B0379.2 [Source:RefSeq_peptide;Acc:NP_492656]			
B0379.7	B0379.7	B0379.7 [Source:RefSeq_peptide;Acc:NP_740910]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
B0379.1	B0379.1	B0379.1 [Source:RefSeq_peptide;Acc:NP_492659]			
mut-16	B0379.3	mut-16 encodes a glutamine/asparagine (Q/N)-rich domain-containing protein that lacks obvious homologs outside of other nematode species. MUT-16 activity is required for RNA-mediated interference (RNAi), transgene silencing in germ-line and somatic tissues, and for maintaining low levels of transposon mobilization. MUT-16 is thus predicted to play a role in chromatin organizataion and/or regulation of gene expression. [Source: WormBase]	RNA interference, 		molecular_function, 
scpl-1	B0379.4	scpl-1 encodes, by alternative splicing, two protein isoforms of a putative class-C RNA polymerase II (RNAPII) carboxyl-terminal domain (CTD) phosphatase, orthologous to budding yeast PSR1 and PSR2 and human CTDSP1 (OMIM:605323), CTDSP2 (OMIM:608711, amplified in sarcoma), and CTDSPL (OMIM:608592, deleted in epithelial cancer), and paralogous to C. elegans SCPL-3 and human CTDSPL2. more distantly, SCPL-1 (and its paralog SCPL-3) are similar to SCPL-2, SCPL-4, and FCP-1. by orthology, SCPL-1 is expected to mediate transcriptional repression (perhaps of neuronal genes). [Source: WormBase]	oviposition, 		phosphoric monoester hydrolase activity, 
B0379.6	B0379.6	B0379.6 [Source:RefSeq_peptide;Acc:NP_492664]			
Y106G6D.1	Y106G6D.1	Y106G6D.1 [Source:RefSeq_peptide;Acc:NP_492665]			
Y106G6D.2	Y106G6D.2	Y106G6D.2 [Source:RefSeq_peptide;Acc:NP_492666]			
Y106G6D.3	Y106G6D.3	Y106G6D.3 [Source:RefSeq_peptide;Acc:NP_492667]			
Y106G6D.4	Y106G6D.4	Y106G6D.4 [Source:RefSeq_peptide;Acc:NP_492668]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y106G6D.8	Y106G6D.8	Y106G6D.8 [Source:RefSeq_peptide;Acc:NP_001021706]			
Y106G6D.6	Y106G6D.6	Y106G6D.6 [Source:RefSeq_peptide;Acc:NP_492669]			
Y106G6D.5	Y106G6D.5				
Y106G6D.7	Y106G6D.7	Y106G6D.7 [Source:RefSeq_peptide;Acc:NP_492671]			nucleotide binding, protein binding, nucleic acid binding, 
Y106G6D.t1	Y106G6D.t1				
F16C3.1	F16C3.1	F16C3.1 [Source:RefSeq_peptide;Acc:NP_492672]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, extracellular region, 	hormone activity, rhodopsin-like receptor activity, 
F16C3.2	F16C3.2	F16C3.2 [Source:RefSeq_peptide;Acc:NP_492673]			
F16C3.3	F16C3.3	F16C3.3 [Source:RefSeq_peptide;Acc:NP_001021391]			
F16C3.4	F16C3.4	F16C3.4 [Source:RefSeq_peptide;Acc:NP_001021392]			
tag-72	C25A1.3	mRNA cap guanine-N7 methyltransferase (EC 2.1.1.56) (mRNA (guanine- N(7)-)-methyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q9XVS1]	metabolic process, mRNA capping, methylation, 	nucleus, 	RNA binding, methyltransferase activity, nucleic acid binding, mRNA (guanine-N7-)-methyltransferase activity, 
C25A1.1	C25A1.1	C25A1.1 [Source:RefSeq_peptide;Acc:NP_492675]			
fkh-10	C25A1.2	fkh-10 encodes one of 15 forkhead transcriptional regulators encoded by the C. elegans genome. by homology, FKH-10 is predicted to function as a transcription factor that regulates gene expression during development. however, as loss of fkh-10 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of FKH-10 in C. elegans development and/or behavior is not yet known. nevertheless, reporter gene studies indicate that throughout larval and adult stages, fkh-10 expression is detected almost exclusively in six pairs of neuronal nuclei near the terminal bulb of the pharynx, suggesting that FKH-10 may have a specific function in neuronal differentiation. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C25A1.4	C25A1.4	C25A1.4 [Source:RefSeq_peptide;Acc:NP_492677]			nucleotide binding, protein binding, nucleic acid binding, 
C25A1.5	C25A1.5	C25A1.5 [Source:RefSeq_peptide;Acc:NP_492678]	biological_process, 		protein binding, heme binding, transition metal ion binding, 
C25A1.6	C25A1.6	Putative H/ACA ribonucleoprotein complex subunit 3-like protein. [Source:Uniprot/SWISSPROT;Acc:Q9XVR8]	positive regulation of growth rate, 		
irs-2	C25A1.7	irs-2 encodes a predicted mitochondrial isoleucyl-tRNA synthetase (IleRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of isoleucine to its cognate tRNA and is thus required for protein biosynthesis. loss of irs-2 activity via RNA-mediated interference (RNAi) in the hypersensitive rrf-3 strain results in thin animals who grow at slower rates than wild type, indicating that IRS-2 plays a role in regulation of postembryonic growth. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, isoleucyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, isoleucine-tRNA ligase activity, 
clec-87	C25A1.8	clec-87 encodes a putatively secreted C-type lectin, paralogous to CLEC-88, C25B8.4, F26D10.12, and ZK858.3. CLEC-87 has a single chondroitin attachment site verified by mass spectrometry. CLEC-87 has no obvious function in mass RNAi assays. [Source: WormBase]			sugar binding, 
rsa-1	C25A1.9	C25A1.9 [Source:RefSeq_peptide;Acc:NP_492683]			calcium ion binding, 
dao-5	C25A1.10	dao-5 encodes a predicted nucleolar phosphoprotein related to Saccharomyces cerevisiae SRP40 and the vertebrate Nopp140 proteins that may play a role in rRNA gene transcription and nucleolar structural organization. dao-5 expression is negatively regulated by the DAF-2/insulin-like receptor and positively regulated by the DAF-16/fork-head transcription factor, suggesting that dao-5 may be involved in life-span determination. dao-5 is strongly expressed in dauer larvae. [Source: WormBase]	nucleosome assembly, pathogenesis, dauer larval development, insulin receptor signaling pathway, 	nucleus, extracellular region, nucleosome, 	DNA binding, 
C25A1.12	C25A1.12	C25A1.12 [Source:RefSeq_peptide;Acc:NP_492685]	proteolysis, aromatic compound metabolic process, 		hydrolase activity, aminopeptidase activity, 
C25A1.13	C25A1.13	C25A1.13 [Source:RefSeq_peptide;Acc:NP_492686]	embryonic development ending in birth or egg hatching, 		
aha-1	C25A1.11	aha-1 encodes an ortholog of human aryl-hydrocarbon receptor nuclear translocator. interacts with AHR-1 and HIF-1 in vitro, requires HIF-1 for proper localization, and is expressed ubiquitously. [Source: WormBase]	signal transduction, regulation of transcription, regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, intracellular receptor-mediated signaling pathway, 	nucleus, 	signal transducer activity, transcription regulator activity, transcription factor activity, 
C25A1.15	C25A1.15	C25A1.15 [Source:RefSeq_peptide;Acc:NP_492688]			
Y106G6E.1	Y106G6E.1	Y106G6E.1 [Source:RefSeq_peptide;Acc:NP_492689]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y106G6E.2	Y106G6E.2				
Y106G6E.3	Y106G6E.3	Y106G6E.3 [Source:RefSeq_peptide;Acc:NP_492691]			
Y106G6E.4	Y106G6E.4	Putative 5-formyltetrahydrofolate cyclo-ligase (EC 6.3.3.2) (5,10- methenyl-tetrahydrofolate synthetase) (Methenyl-THF synthetase) (MTHFS). [Source:Uniprot/SWISSPROT;Acc:Q9XWE6]	folic acid and derivative biosynthetic process, 		ATP binding, 5-formyltetrahydrofolate cyclo-ligase activity, 
ced-12	Y106G6E.5	ced-12 is required both for phagocytotic engulfment of dying (apoptotic) cells, and for normal migrations of healthy cells during development. [Source: WormBase]	phagocytosis, engulfment of apoptotic cell, 	cytoskeleton, 	SH3 domain binding, 
csnk-1	Y106G6E.6	CaSeiN Kinase family member (csnk-1) [Source:RefSeq_peptide;Acc:NP_492694]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
lin-11	ZC247.3	lin-11 encodes a predicted LIM homeodomain transcription factor that affects vulval development, neuronal development and fate specification, utse cell differentiation, and fertility. it is expressed in some neurons, the vulva, pi cells and their progeny, and the spermatheca. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
ZC247.2	ZC247.2	ZC247.2 [Source:RefSeq_peptide;Acc:NP_492697]			
ZC247.1	ZC247.1	ZC247.1 [Source:RefSeq_peptide;Acc:NP_492698]	positive regulation of growth rate, 	proteinaceous extracellular matrix, 	
tag-181	T20F10.1	Temporarily Assigned Gene name family member (tag-181) [Source:RefSeq_peptide;Acc:NP_492699]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
T20F10.2	T20F10.2	T20F10.2a [Source:RefSeq_peptide;Acc:NP_001040684]			
T20F10.5	T20F10.5	T20F10.5 [Source:RefSeq_peptide;Acc:NP_492702]			
NM_060892.1	T20F10.7	Y26D4A.11 (Y26D4A.11) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_060892]			
T20F10.4	T20F10.4	T20F10.4 [Source:RefSeq_peptide;Acc:NP_492703]			
T20F10.6	T20F10.6				
Y106G6G.7	Y106G6G.7				
Y106G6G.5	Y106G6G.5				
Y106G6G.6	Y106G6G.6	Y106G6G.6 [Source:RefSeq_peptide;Acc:NP_001021708]			
Y106G6G.4	Y106G6G.4	Y106G6G.4 [Source:RefSeq_peptide;Acc:NP_492705]			
Y106G6G.3	Y106G6G.3	Y106G6G.3 [Source:RefSeq_peptide;Acc:NP_492706]			microtubule motor activity, 
Y106G6G.2	Y106G6G.2	Y106G6G.2 [Source:RefSeq_peptide;Acc:NP_492701]	regulation of ARF protein signal transduction, 	intracellular, 	ARF guanyl-nucleotide exchange factor activity, 
Y106G6G.1	Y106G6G.1	Y106G6G.1 [Source:RefSeq_peptide;Acc:NP_492707]			
rps-7	ZC434.2	rps-7 encodes a small ribosomal subunit S7 protein. [Source: WormBase]	transport, translation, embryonic development ending in birth or egg hatching, 	membrane, intracellular, ribosome, 	transporter activity, structural constituent of ribosome, 
ZC434.4	ZC434.4	Uncharacterized protein ZC434.4. [Source:Uniprot/SWISSPROT;Acc:Q23314]	positive regulation of growth rate, 		
ZC434.3	ZC434.3	ZC434.3 [Source:RefSeq_peptide;Acc:NP_492710]	cell adhesion, viral infectious cycle, cell recognition, 		
ers-2	ZC434.5	ers-2 encodes a predicted mitochondrial glutamyl-tRNA synthetase (GluRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of glutamate to its cognate tRNA and is thus required for protein biosynthesis. ERS-2 contains, at its C-terminus, six tandemly repeated WHEP-TRS domains that have been predicted to function as general RNA-binding domains that may act as cis tRNA-binding cofactors. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, glutamyl-tRNA aminoacylation, biological_process, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, glutamate-tRNA ligase activity, 
aph-2	ZC434.6	aph-2 encodes an ortholog of nicastrin, which associates with presenilin and membrane-bound Notchl in aph-2 mutants, the specification of pi-cells is compromised. [Source: WormBase]	protein processing, 	integral to membrane, 	
ZC434.7	ZC434.7	ZC434.7 [Source:RefSeq_peptide;Acc:NP_492713]			
ZC434.8	ZC434.8	Probable arginine kinase ZC434.8 (EC 2.7.3.3) (AK). [Source:Uniprot/SWISSPROT;Acc:Q27535]			protein binding, transferase activity, transferring phosphorus-containing groups, kinase activity, 
ZC434.9	ZC434.9	ZC434.9a [Source:RefSeq_peptide;Acc:NP_001021851]	proteolysis, translation, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, zinc ion binding, aminoacyl-tRNA ligase activity, carboxypeptidase A activity, carboxypeptidase activity, 
sptf-1	F45H11.1	Specificity Protein) Transcription Factor family member (sptf-1) [Source:RefSeq_peptide;Acc:NP_001021466]		intracellular, 	zinc ion binding, nucleic acid binding, 
ned-8	F45H11.2	The ned-8 gene encodes a ubiquitin-like protein that is required for both embryogenesis and terminal hypodermal differentiation. [Source: WormBase]	protein modification process, positive regulation of growth rate, 		protein binding, 
F45H11.3	F45H11.3	F45H11.3 [Source:RefSeq_peptide;Acc:NP_492718]	embryonic development ending in birth or egg hatching, 		
F45H11.5	F45H11.5	F45H11.5 [Source:RefSeq_peptide;Acc:NP_492719]			
mgl-2	F45H11.4	mgl-2 encodes a Group I metabotropic glutamate receptor (OMIM:604473, 604102, loss-of-function mutations in mice are associated with defects in long-term potentiation). by homology, MGL-2 is predicted to function as a post-synaptic G protein-coupled receptor that, in response to glutamate binding, stimulates phospholipase C activity and increases neuronal excitation, and in mammalian tissue culture cells, glutamate stimulation of MGL-2 does result in increased phosphoinositide turnover. a mutation in mgl-2 indicates that it is required for normal head movements and tap reversal reflexes, while loss of mgl-2 activity via large-scale RNAi screens indicates that MGL-2 is also required for embryogenesis. a mgl-2::GFP reporter is expressed in interneurons. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	membrane, nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, G-protein coupled receptor activity, metabotropic glutamate, GABA-B-like receptor activity, 
cup-2	F25D7.1	The primary phenotype of cup-2 animals is an accumulation of secreted GFP in the pseudocoelom, suggesting a decrease in, or the absence of, endocytosis in coelomocytes. [Source: WormBase]	endocytosis, gamete generation, 	cellular_component, 	
tag-353	F25D7.2	Temporarily Assigned Gene name family member (tag-353) [Source:RefSeq_peptide;Acc:NP_492722]	protein modification process, 		
blmp-1	F25D7.3	Blimp1 (B Lymphocyte-induced Maturation Protein-1) homolog family member (blmp-1) [Source:RefSeq_peptide;Acc:NP_492723]	positive regulation of multicellular organism growth, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
F25D7.4	F25D7.4	F25D7.4 [Source:RefSeq_peptide;Acc:NP_492724]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F25D7.5	F25D7.5	F25D7.5 [Source:RefSeq_peptide;Acc:NP_492725]			
Y106G6H.1	Y106G6H.1	Y106G6H.1 [Source:RefSeq_peptide;Acc:NP_492726]		endoplasmic reticulum, 	
pab-1	Y106G6H.2	pab-1 encodes a polyadenylate-binding protein (i.e., poly(A)-binding protein, or PAB). while not extensively characterized, PAB-1 has been successfully used as an epitope-tagged transgenic reagent for tissue-specific isolation of mRNAs. [Source: WormBase]	positive regulation of growth rate, 		nucleotide binding, RNA binding, nucleic acid binding, 
rpl-30	Y106G6H.3	rpl-30 encodes a large ribosomal subunit L30 protein. by homology, RPL-30 is predicted to function in protein biosynthesis. in C. elegans, loss of rpl-30 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. [Source: WormBase]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y106G6H.4	Y106G6H.4	Y106G6H.4 [Source:RefSeq_peptide;Acc:NP_492729]			
Y106G6H.5	Y106G6H.5	The Y106G6H.5 gene encodes a homolog of the human gene SARDH, which when mutated leads to sarcosinemia, (OMIM:268900). [Source: WormBase]	electron transport, glycine catabolic process, 	cytoplasm, 	oxidoreductase activity, electron carrier activity, iron-sulfur cluster binding, aminomethyltransferase activity, 
Y106G6H.6	Y106G6H.6	Y106G6H.6 [Source:RefSeq_peptide;Acc:NP_492731]	embryonic development ending in birth or egg hatching, 		
sec-8	Y106G6H.7	The sec-8 gene encodes an ortholog of SEC8 in S. cerevisiae, a component of the exocyst complex required genetically for endocytosis, for normal cellular morphology in the intestine, and for growth at normal rates during development. [Source: WormBase]	protein transport, vesicle docking during exocytosis, positive regulation of growth rate, 	exocyst, 	
Y106G6H.8	Y106G6H.8	Y106G6H.8 [Source:RefSeq_peptide;Acc:NP_492733]			
Y106G6H.9	Y106G6H.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y106G6H.10	Y106G6H.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
duo-3	Y106G6H.12	Deubiquitylating with USP/UBP and OTU domains family member (duo-3) [Source:RefSeq_peptide;Acc:NP_492736]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
Y106G6H.13	Y106G6H.13	Y106G6H.13 [Source:RefSeq_peptide;Acc:NP_492737]			
Y106G6H.14	Y106G6H.14	Y106G6H.14 [Source:RefSeq_peptide;Acc:NP_492738]	reproduction, 		protein binding, 
Y106G6H.15	Y106G6H.15	Y106G6H.15 [Source:RefSeq_peptide;Acc:NP_492739]			protein binding, 
Y106G6H.16	Y106G6H.16	Y106G6H.16 [Source:RefSeq_peptide;Acc:NP_492740]			
F37D6.2	F37D6.2	F37D6.2a [Source:RefSeq_peptide;Acc:NP_492741]		intracellular, 	zinc ion binding, nucleic acid binding, 
mus-101	F37D6.1	MUS (Drosophila mutagen sensitive) related family member (mus-101) [Source:RefSeq_peptide;Acc:NP_492743]	embryonic development ending in birth or egg hatching, 	intracellular, 	
F37D6.3	F37D6.3	F37D6.3 [Source:RefSeq_peptide;Acc:NP_492744]			
F37D6.4	F37D6.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
tag-68	F37D6.6	Temporarily Assigned Gene name family member (tag-68) [Source:RefSeq_peptide;Acc:NP_492746]	regulation of transcription, DNA-dependent, 	intracellular, 	
che-13	F59C6.7	che-13 encodes a novel protein homologous to mammalian IFT57/Hippi (OMIM:606621, protein interactor of Huntingtin-interacting protein 1 that is implicated in neuronal apoptosis in the Huntington disease state). CHE-13 is a proposed component of the intraflagellar transport (IFT) complex B, and is required for the construction and maintenance of cilia on a subset of sensory neurons. in addition, CHE-13 is required for proper localization of OSM-5, a murine polaris homolog, to IFT complex B. CHE-13 is expressed in ciliated sensory neurons including the amphids, phasmids, inner and outer labial neurons, and sensory rays of the male tail, localizing to the cilia base (transition zone) as well as to the axoneme. che-13 expression, like that of ciliogenic genes osm-1, osm-5, osm-6, and che-2, is positively regulated by the DAF-19 RFX-type transcription factor. [Source: WormBase]	vesicle-mediated transport, chemosensory behavior, 	membrane, cellular_component, 	protein binding, 
F59C6.8	F59C6.8	UPF0392 protein F59C6.8. [Source:Uniprot/SWISSPROT;Acc:Q93834]			
nlp-4	F59C6.6	nlp-4 encodes three predicted neuropeptide-like proteins. nlp-4 has no none homologs in other nematode species, and its expression pattern has not been determined. in addition, as loss of nlp-4 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of nlp-4-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]	phosphate metabolic process, 	cytoplasm, 	magnesium ion binding, inorganic diphosphatase activity, 
F59C6.15	F59C6.15				
exos-3	F59C6.4	F59C6.4 [Source:RefSeq_peptide;Acc:NP_492751]	growth, 		RNA binding, 
F59C6.5	F59C6.5	F59C6.5 [Source:RefSeq_peptide;Acc:NP_492752]	embryonic development ending in birth or egg hatching, 		protein binding, 
F59C6.12	F59C6.12	F59C6.12 [Source:RefSeq_peptide;Acc:NP_001021522]	embryonic development ending in birth or egg hatching, 		
F59C6.2	F59C6.2	F59C6.2 [Source:RefSeq_peptide;Acc:NP_492753]			zinc ion binding, 
F59C6.3	F59C6.3	F59C6.3 [Source:RefSeq_peptide;Acc:NP_492754]			
F59C6.14	F59C6.14	F59C6.14a [Source:RefSeq_peptide;Acc:NP_001040669]			
F59C6.10	F59C6.10				
F59C6.11	F59C6.11	F59C6.11 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. F59C6.11 is worm-specific, with obvious homologs only in C. elegans. F59C6.11 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
tli-1	F25H2.1	ToLlIp homolog family member (tli-1) [Source:RefSeq_peptide;Acc:NP_492757]			
F25H2.2	F25H2.2	F25H2.2 [Source:RefSeq_peptide;Acc:NP_492758]	cell communication, positive regulation of growth rate, 		protein binding, calcium ion binding, phosphoinositide binding, 
F25H2.3	F25H2.3	F25H2.3 [Source:RefSeq_peptide;Acc:NP_492759]			
F25H2.4	F25H2.4	F25H2.4 [Source:RefSeq_peptide;Acc:NP_492760]	positive regulation of growth rate, 		protein binding, 
F25H2.5	F25H2.5	F25H2.5 [Source:RefSeq_peptide;Acc:NP_492761]	GTP biosynthetic process, UTP biosynthetic process, CTP biosynthetic process, embryonic development ending in birth or egg hatching, 		ATP binding, nucleoside diphosphate kinase activity, 
F25H2.6	F25H2.6	F25H2.6 [Source:RefSeq_peptide;Acc:NP_492762]			
F25H2.7	F25H2.7	F25H2.7 [Source:RefSeq_peptide;Acc:NP_492763]			
ubc-25	F25H2.8	UBiquitin Conjugating enzyme family member (ubc-25) [Source:RefSeq_peptide;Acc:NP_492764]	protein modification process, ubiquitin cycle, morphogenesis of an epithelium, 		calcium ion binding, small conjugating protein ligase activity, 
F25H2.15	F25H2.15				
pas-5	F25H2.9	Proteasome subunit alpha type 5 (EC 3.4.25.1) (Proteasome subunit alpha 5). [Source:Uniprot/SWISSPROT;Acc:Q95008]	ubiquitin-dependent protein catabolic process, embryonic cleavage, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
rpa-0	F25H2.10	rpa-0 encodes an acidic ribosomal subunit protein P0. [Source: WormBase]	translational elongation, ribosome biogenesis and assembly, reproduction, homoiothermy, response to freezing, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, ice binding, 
tct-1	F25H2.11	Translationally-controlled tumor protein homolog (TCTP). [Source:Uniprot/SWISSPROT;Acc:Q93573]	positive regulation of growth rate, 	cytoplasm, 	protein binding, 
NR_003381.1	F25H2.14	F25H2.14, snoRNA [Source:RefSeq_dna;Acc:NR_003381]			
F25H2.12	F25H2.12	F25H2.12b [Source:RefSeq_peptide;Acc:NP_871828]	embryonic development ending in birth or egg hatching, 		
bch-1	F25H2.13	human BACH helicase related family member (bch-1) [Source:RefSeq_peptide;Acc:NP_492769]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, ATP-dependent helicase activity, ATP-dependent DNA helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
F29C6.1	F29C6.1	F29C6.1a [Source:RefSeq_peptide;Acc:NP_001040660]	reproduction, 	cytoplasm, 	
hsp-12.1	T22A3.2	hsp-12.1 encodes a member of the small heat shock family of proteins. [Source: WormBase]			structural constituent of eye lens, 
lst-1	T22A3.3	lst-1 encodes an unfamiliar protein with no known homologs outside of nematodes. in two-hybrid assays, LST-1 does not interact with control baits, but does interact with GPA-6, LAG-1, MPK-1 and K06A1.4, suggesting broad or unspecific interaction activity. however, T22A3.3 solely binds the normal form of GPA-6, without binding its constitutively active mutant form. LST-1 is expressed in head neurons (AWB, ADF, ASG, various interlabial sensory), socket cells, sheath cells in the nose tip, pharyngeal muscle, and intestine. LST-1 has no obvious function or phenotype in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
set-18	T22A3.4	Temporarily Assigned Gene name family member (tag-237) [Source:RefSeq_peptide;Acc:NP_871849]			protein binding, zinc ion binding, 
T22A3.t1	T22A3.t1				
T22A3.6	T22A3.6	T22A3.6 [Source:RefSeq_peptide;Acc:NP_492773]			
pash-1	T22A3.5	pash-1 encodes an RNA-binding protein that is orthologous to Drosophila Pasha and mammalian DGCR8. pash-1 activity is required for processing of primary miRNA transripts (pri-miRNAs), such as that of let-7, to generate pre-miRNAs that will then be processed by DCR-1 to generate mature miRNAs. accordingly, pash-1 mutants show defects in let-7-mediated developmental processes, namely the transition from late larval to adult cell fates. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, double-stranded RNA binding, 
T22A3.t4	T22A3.t4				
T22A3.t2	T22A3.t2				
T22A3.t3	T22A3.t3				
lam-3	T22A3.8	lam-3 is orthologous to human LAMININ ALPHA-2 (LAMA2. OMIM:156225), which when mutated leads to merosin-deficient congenital muscular dystrophy. [Source: WormBase]	cell adhesion, regulation of cell adhesion, regulation of cell migration, regulation of embryonic development, growth, 	proteinaceous extracellular matrix, extracellular matrix, basement membrane, laminin-1 complex, 	zinc ion binding, receptor binding, 
C43H8.2	C43H8.2	C43H8.2 [Source:RefSeq_peptide;Acc:NP_492777]	positive regulation of growth rate, 		
C43H8.1	C43H8.1	Protein archease-like. [Source:Uniprot/SWISSPROT;Acc:Q9TZN1]	reproduction, 		
B0511.6	B0511.6	B0511.6 [Source:RefSeq_peptide;Acc:NP_492779]	growth, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
B0511.5	B0511.5	B0511.5 [Source:RefSeq_peptide;Acc:NP_492780]			protein binding, 
B0511.7	B0511.7	B0511.7 [Source:RefSeq_peptide;Acc:NP_492781]			
B0511.13	B0511.13	B0511.13 [Source:RefSeq_peptide;Acc:NP_492782]			hydrolase activity, 
tag-264	B0511.8	Temporarily Assigned Gene name family member (tag-264) [Source:RefSeq_peptide;Acc:NP_492783]	translation, embryonic development ending in birth or egg hatching, 	mitochondrion, ribosome, 	structural constituent of ribosome, 
cdc-26	B0511.9	cdc-26 encodes, by alternative splicing, two isoforms of a probable anaphase-promoting complex/cyclosome (APC/C) component that has cryptic orthology to budding yeast Cdc26p, and that is required for normal meiosis and asymmetric one-cell embryonic division. although CDC-26 and Cdc26p have little obvious sequence similarity, they do share a common motif in their N-terminal domains, and yeast cdc26 mutants can be rescued by transgenic C. elegans CDC-26. CDC-26 binds EMB-27 in yeast two-hybrid experiments. weak cdc-26(RNAi) induces loss of asymmetry during the first embryonic cell division of AB/P1, while strong cdc-26(RNAi) arrests embryos at meiotic metaphase I. in weakly defective one-cell cdc-26(RNAi) embryos, PAR-3 is mislocalized from the anterior to the entire cortex, while PAR-2 is mislocalized from the posterior cortex to cytoplasm. [Source: WormBase]	embryonic cleavage, 		protein binding, 
eif-3.E	B0511.10	eif-3.E encodes the C. elegans ortholog of the translation initiation factor 3 subunit e (eIF3e/Int-6). by homology, EIF-3.E is predicted to be a component of three different protein complexes, the eIF3 translation initiation factor, the 26S proteasome, and the COP9 signalosome. such association suggests that EIF-3.E may serve as a regulatory factor that coordinates the translational and degradative activities of these various complexes. in C. elegans, large-scale RNAi screens indicate that eif-3.E is required for embryonic, larval, and germline development, as well as proper vulval morphogenesis. [Source: WormBase]	reproduction, 		
tag-344	B0511.4	Temporarily Assigned Gene name family member (tag-344) [Source:RefSeq_peptide;Acc:NP_492786]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
fbxa-125	B0511.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
B0511.11	B0511.11	B0511.11 [Source:RefSeq_peptide;Acc:NP_492788]			
B0511.2	B0511.2	B0511.2 [Source:RefSeq_peptide;Acc:NP_492789]			nucleotide binding, 
B0511.12	B0511.12	B0511.12 encodes an ortholog of Drosophila PECANEX, and thus may participate in GLP-1/LIN-12 signalling. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	urotensin II receptor activity, 
B0511.14	B0511.14	B0511.14a [Source:RefSeq_peptide;Acc:NP_492791]			
fkb-7	B0511.1	fkb-7 encodes a peptidylprolyl cis/trans isomerase homologous to mammalian FK506-binding proteins. by homology, FKB-7 could function in a number of different processes including protein folding, signal transduction, and regulation of muscle contraction. however, as loss of fkb-7 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of FKB-7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein folding, 	endoplasmic reticulum, 	calcium ion binding, 
C34B2.4	C34B2.4	C34B2.4 [Source:RefSeq_peptide;Acc:NP_492793]	chromosome segregation, 		zinc ion binding, 
C34B2.3	C34B2.3	C34B2.3 [Source:RefSeq_peptide;Acc:NP_492794]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C34B2.5	C34B2.5	C34B2.5 [Source:RefSeq_peptide;Acc:NP_492795]			binding, 
C34B2.6	C34B2.6	Lon protease homolog, mitochondrial precursor (EC 3.4.21.-). [Source:Uniprot/SWISSPROT;Acc:O44952]	proteolysis, defense response, ATP-dependent proteolysis, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
C34B2.10	C34B2.10	Probable signal peptidase complex subunit 1 (EC 3.4.-.-) (Microsomal signal peptidase 12 kDa subunit) (SPase 12 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:O44953]	signal peptide processing, embryonic development ending in birth or egg hatching, 	integral to membrane, microsome, signal peptidase complex, 	signal peptidase activity, 
sdha-2	C34B2.7	C34B2.7 [Source:RefSeq_peptide;Acc:NP_492798]	tricarboxylic acid cycle, electron transport, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, FAD binding, oxidoreductase activity, acting on the CH-CH group of donors, 
C34B2.8	C34B2.8	C34B2.8 [Source:RefSeq_peptide;Acc:NP_492799]	positive regulation of growth rate, 		
kbp-5	C34B2.2	KNL (kinetochore null) Binding Protein family member (kbp-5) [Source:RefSeq_peptide;Acc:NP_492800]			protein binding, 
tag-272	C34B2.1	Temporarily Assigned Gene name family member (tag-272) [Source:RefSeq_peptide;Acc:NP_492801]			
C34B2.11	C34B2.11	C34B2.11 [Source:RefSeq_peptide;Acc:NP_492802]			
C34B2.9	C34B2.9	C34B2.9 [Source:RefSeq_peptide;Acc:NP_492803]	cell-matrix adhesion, 	cytoskeleton, 	
B0205.10	B0205.10	B0205.10 [Source:RefSeq_peptide;Acc:NP_492804]			
B0205.1	B0205.1	B0205.1b [Source:RefSeq_peptide;Acc:NP_001040629]			
B0205.9	B0205.9	B0205.9 [Source:RefSeq_peptide;Acc:NP_492806]	embryonic development ending in birth or egg hatching, 		
srz-85	B0205.2	Serpentine Receptor, class Z family member (srz-85) [Source:RefSeq_peptide;Acc:NP_001020961]			
B0205.14	B0205.14	B0205.14 is a predicted gene that can encode a small, novel protein conserved in C. remanei and C. briggsae. [Source: WormBase]			
B0205.13	B0205.13	B0205.13 encodes a small, novel protein conserved in C. remanei and C. briggsae. [Source: WormBase]			
B0205.8	B0205.8	B0205.8 [Source:RefSeq_peptide;Acc:NP_492808]			
B0205.12	B0205.12	B0205.12 [Source:RefSeq_peptide;Acc:NP_001020959]			
rpn-10	B0205.3	rpn-10 encodes a protein that contains two ubiquitin interaction motifs and is a member of the von Willebrand factor, type A superfamily similar to the mouse 26S proteasome non-ATP regulatory subunit 4. [Source: WormBase]	ubiquitin-dependent protein catabolic process, homoiothermy, response to freezing, 		ice binding, 
B0205.11	B0205.11	B0205.11 [Source:RefSeq_peptide;Acc:NP_492810]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
kin-3	B0205.7	kin-3 encodes an ortholog of the catalytic subunit of casein kinase II alpha, which in Drosophila and mammals is required for normal circadian rhythms, and which directly phosphorylates the Drosophila PERIOD protein (which itself regulates circadian rhythms). by analogy, KIN-3 might be expected to help regulate heterochronic functions dependent on such proteins as LIN-42. [Source: WormBase]	protein amino acid phosphorylation, reproduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0205.6	B0205.6	B0205.6 [Source:RefSeq_peptide;Acc:NP_492812]	metabolic process, amino acid metabolic process, embryonic development ending in birth or egg hatching, 		lyase activity, transaminase activity, 
B0205.5	B0205.5	B0205.5 [Source:RefSeq_peptide;Acc:NP_492813]			
B0205.4	B0205.4	The B0205.4 gene encodes a homolog of the human gene FUT1, which when mutated leads to leukocyte adhesion deficiency, type II (OMIM:266265). [Source: WormBase]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
daf-16	R13H8.1	daf-16 encodes a transcription factor of the HNF-3/forkhead family (orthologous to mammalian AFX, FKHR, and FKHRL1) that acts in an insulin-mediated pathway to affect dauer formation, and that also affects life span and reproduction. DAF-16 can interact with CBP-1 in vitro, and interacts genetically both with other genes in the insulin signaling and with the nuclear hormone receptor DAF-12. daf-16 is broadly expressed in most if not all cells (though expression in the pharynx and in the somatic gonad differ for the two isoforms). DAF-16 is homologous to human FORKHEAD BOX O1A (FOXO1A), which when mutated leads to rhabdomyosarcoma (OMIM:136533). [Source: WormBase]	regulation of transcription, DNA-dependent, defense response, determination of adult life span, dauer larval development, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
F55A3.5	F55A3.5	F55A3.5 [Source:RefSeq_peptide;Acc:NP_492818]	regulation of transcription, DNA-dependent, response to oxidative stress, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, glutathione peroxidase activity, 
F55A3.6	F55A3.6	F55A3.6 [Source:RefSeq_peptide;Acc:NP_492819]	GTP biosynthetic process, UTP biosynthetic process, CTP biosynthetic process, 		ATP binding, nucleoside diphosphate kinase activity, 
F55A3.7	F55A3.7	F55A3.7 [Source:RefSeq_peptide;Acc:NP_492820]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
F55A3.3	F55A3.3	FACT complex subunit spt-16 (Facilitates chromatin transcription complex subunit spt-16). [Source:Uniprot/SWISSPROT;Acc:Q9N5R9]	proteolysis, embryonic development ending in birth or egg hatching, 		metalloexopeptidase activity, 
F55A3.2	F55A3.2	F55A3.2 [Source:RefSeq_peptide;Acc:NP_492822]	proteolysis, reproduction, 	intracellular, 	zinc ion binding, subtilase activity, 
marc-6	F55A3.1	MARCH (Membrane-Associated Ring finger (C3HC4)) homolog family member (marc-6) [Source:RefSeq_peptide;Acc:NP_492823]			protein binding, zinc ion binding, 
C35E7.9	C35E7.9	C35E7.9 [Source:RefSeq_peptide;Acc:NP_492824]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, structural molecule activity, 
C35E7.t1	C35E7.t1				
C35E7.8	C35E7.8	C35E7.8 [Source:RefSeq_peptide;Acc:NP_492825]	positive regulation of growth rate, 		
C35E7.10	C35E7.10	C35E7.10a [Source:RefSeq_peptide;Acc:NP_492826]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C35E7.7	C35E7.7	C35E7.7 [Source:RefSeq_peptide;Acc:NP_492828]			
C35E7.6	C35E7.6	C35E7.6 [Source:RefSeq_peptide;Acc:NP_492829]			
C35E7.5	C35E7.5	C35E7.5a [Source:RefSeq_peptide;Acc:NP_492830]			
C35E7.4	C35E7.4	C35E7.4 [Source:RefSeq_peptide;Acc:NP_492831]			
C35E7.3	C35E7.3	C35E7.3 [Source:RefSeq_peptide;Acc:NP_492832]			
C35E7.2	C35E7.2	C35E7.2a [Source:RefSeq_peptide;Acc:NP_492833]			protein binding, 
C35E7.11	C35E7.11	C35E7.11 [Source:RefSeq_peptide;Acc:NP_492835]			
C35E7.1	C35E7.1	C35E7.1 [Source:RefSeq_peptide;Acc:NP_492836]			protein binding, 
Y37F4.3	Y37F4.3	Y37F4.3 [Source:RefSeq_peptide;Acc:NP_740915]			
Y37F4.4	Y37F4.4	Y37F4.4 [Source:RefSeq_peptide;Acc:NP_740916]			
Y37F4.2	Y37F4.2	Y37F4.2 [Source:RefSeq_peptide;Acc:NP_740917]			
Y37F4.1	Y37F4.1	Y37F4.1 [Source:RefSeq_peptide;Acc:NP_740918]			
Y37F4.5	Y37F4.5	Y37F4.5 [Source:RefSeq_peptide;Acc:NP_001021748]			
Y37F4.7	Y37F4.7	Y37F4.7 [Source:RefSeq_peptide;Acc:NP_001021750]			
Y37F4.8	Y37F4.8	Y37F4.8 [Source:RefSeq_peptide;Acc:NP_001021751]			
Y37F4.6	Y37F4.6	Y37F4.6 [Source:RefSeq_peptide;Acc:NP_001021749]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y37F4.t1	Y37F4.t1				
Y37F4.t2	Y37F4.t2				
bath-25	T27C10.4	BTB and MATH domain containing family member (bath-25) [Source:RefSeq_peptide;Acc:NP_492837]	ciliary or flagellar motility, 	flagellin-based flagellum, 	protein binding, calcium ion binding, 
nspd-10	T27C10.7	Nematode Specific Peptide family, group D family member (nspd-10) [Source:RefSeq_peptide;Acc:NP_871892]			
lrk-1	T27C10.6	lrk-1 encodes a homolog of GbpC, the primary high-affinity cGMP-binding protein in Dictyostelium discoideum, which is required for normal phosphorylation and cytoskeletal assembly of myosin during chemotaxis. GbpC is generally conserved in eukaryotes, with homologs in mammals and flies. [Source: WormBase]	protein amino acid phosphorylation, small GTPase mediated signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, GTP binding, 
T27C10.3	T27C10.3	Uncharacterized MO25-like protein T27C10.3. [Source:Uniprot/SWISSPROT;Acc:Q9TZM2]	embryonic development ending in birth or egg hatching, 		
srt-62	T27C10.2	Serpentine Receptor, class T family member (srt-62) [Source:RefSeq_peptide;Acc:NP_492841]			
srt-61	T27C10.1	Serpentine Receptor, class T family member (srt-61) [Source:RefSeq_peptide;Acc:NP_492842]			
F49D11.6	F49D11.6	F49D11.6 [Source:RefSeq_peptide;Acc:NP_492843]			
F49D11.4	F49D11.4	F49D11.4 [Source:RefSeq_peptide;Acc:NP_492845]			
F49D11.3	F49D11.3	F49D11.3a [Source:RefSeq_peptide;Acc:NP_001040666]			
F49D11.2	F49D11.2	F49D11.2 [Source:RefSeq_peptide;Acc:NP_492847]			
F49D11.7	F49D11.7	F49D11.7 [Source:RefSeq_peptide;Acc:NP_492848]			
cpn-4	F49D11.8	cpn-4 encodes a calponin homolog, most closely related to its paralog CPN-3 in C. elegans. CPN-4 is somewhat more similar to calponins per se (such as CLP1 and CLP2 in humans) than to the to the calponin paralogs transgelin (SM22 alpha) or neuronal protein NP25. [Source: WormBase]			
F49D11.10	F49D11.10	Temporarily Assigned Gene name family member (tag-296) [Source:RefSeq_peptide;Acc:NP_492850]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	
F49D11.t2	F49D11.t2				
F49D11.t1	F49D11.t1				
tag-296	F49D11.9	Temporarily Assigned Gene name family member (tag-296) [Source:RefSeq_peptide;Acc:NP_871847]			
prp-17	F49D11.1	yeast PRP (splicing factor) related family member (prp-17) [Source:RefSeq_peptide;Acc:NP_492851]	embryonic development ending in birth or egg hatching, 		
Y95D11A.3	Y95D11A.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5PEX9]			
Y95D11A.1	Y95D11A.1	Y95D11A.1 [Source:RefSeq_peptide;Acc:NP_492852]	positive regulation of growth rate, 		
Y95D11A.t1	Y95D11A.t1				
Y95D11A.2	Y95D11A.2	Y95D11A.2 [Source:RefSeq_peptide;Acc:NP_001021841]			
spe-38	Y52B11A.1	defective SPErmatogenesis family member (spe-38) [Source:RefSeq_peptide;Acc:NP_492853]			
Y52B11A.2	Y52B11A.2	Y52B11A.2a [Source:RefSeq_peptide;Acc:NP_001021782]			small conjugating protein ligase activity, 
Y52B11A.3	Y52B11A.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XWF1]	electron transport, 		oxidoreductase activity, heme binding, transition metal ion binding, 
Y52B11A.4	Y52B11A.4	Y52B11A.4 [Source:RefSeq_peptide;Acc:NP_492856]	protein transport, small GTPase mediated signal transduction, regulation of transcription, DNA-dependent, 	intracellular, 	ATP binding, GTP binding, transcription factor binding, 
Y52B11A.5	Y52B11A.5	Y52B11A.5 [Source:RefSeq_peptide;Acc:NP_492857]			sugar binding, 
Y52B11A.7	Y52B11A.7	Y52B11A.7 [Source:RefSeq_peptide;Acc:NP_492858]			
Y52B11A.6	Y52B11A.6				
Y52B11A.8	Y52B11A.8	Phospholipase A2-like protein Y52B11A.8 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9U256]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
Y52B11A.9	Y52B11A.9	Y52B11A.9 [Source:RefSeq_peptide;Acc:NP_492860]	translation, morphogenesis of an epithelium, 	intracellular, ribosome, 	zinc ion binding, nucleic acid binding, structural constituent of ribosome, 
Y52B11A.10	Y52B11A.10	Y52B11A.10 [Source:RefSeq_peptide;Acc:NP_492861]	RNA metabolic process, biological_process, 		protein binding, 
Y52B11A.11	Y52B11A.11		embryonic development ending in birth or egg hatching, 		
W02B9.2	W02B9.2	W02B9.2 [Source:RefSeq_peptide;Acc:NP_001021651]	embryonic development ending in birth or egg hatching, 		
hmr-1	W02B9.1	hmr-1 encodes two isoforms of a classical cadherin that contain extracellular cadherin, EGF-like, and laminin G domains as well as a highly conserved intracellular domain that binds beta-catenin. by homology, the HMR-1 proteins are predicted to function as calcium-dependent, homophilic cell-cell adhesion receptors. in vivo, HMR-1A activity is required for mediating the cell migrations, cell shape changes, and presumably actin cytoskeleton rearrangements that occur during embryonic morphogenesis. HMR-1B is required for fasciculation and outgrowth of a subset of motor neuron processes. HMR-1 antibodies detect expression in all embryonic blastomeres at early stages of development but as hypodermal adherens junctions form and morphogenesis begins, HMR-1 becomes highly expressed in the apical junctions of all hypodermal cells. later, HMR-1 is expressed primarily at the apical margins of hypodermal, pharyngeal, and intestinal cells in a pattern consistent with localization to adherens junctions. an HMR-1B reporter fusion is expressed in neurons, including the DD, VD, and AS class of motor neurons. HMR-1 activity is required for proper localization of other junctional components, such as HMP-1/alpha-catenin and HMP-2/beta-catenin, but not for localization of AJM-1, the junctional component recognized by the MH27 antibody. [Source: WormBase]	homophilic cell adhesion, embryonic development ending in birth or egg hatching, embryonic development, 	membrane, 	calcium ion binding, 
Y52B11B.1	Y52B11B.1	Y52B11B.1 [Source:RefSeq_peptide;Acc:NP_492864]	positive regulation of multicellular organism growth, 		
ZK39.4	ZK39.4	ZK39.4 [Source:RefSeq_peptide;Acc:NP_492866]			sugar binding, 
ZK39.9	ZK39.9	ZK39.9 [Source:RefSeq_peptide;Acc:NP_001021868]			sugar binding, 
ZK39.3	ZK39.3	ZK39.3 [Source:RefSeq_peptide;Acc:NP_492867]			sugar binding, 
ZK39.2	ZK39.2	ZK39.2 [Source:RefSeq_peptide;Acc:NP_492868]			sugar binding, 
ZK39.5	ZK39.5	ZK39.5 [Source:RefSeq_peptide;Acc:NP_492869]			protein binding, sugar binding, 
ZK39.6	ZK39.6	ZK39.6 [Source:RefSeq_peptide;Acc:NP_492870]			sugar binding, 
ZK39.7	ZK39.7	ZK39.7 [Source:RefSeq_peptide;Acc:NP_492871]			sugar binding, 
ZK39.8	ZK39.8	ZK39.8 [Source:RefSeq_peptide;Acc:NP_492872]			sugar binding, 
ZK39.t1	ZK39.t1				
F28D9.4	F28D9.4	F28D9.4 [Source:RefSeq_peptide;Acc:NP_492874]	embryonic development, 		
F28D9.3	F28D9.3				
rsr-1	F28D9.1	SR protein related family member (rsr-1) [Source:RefSeq_peptide;Acc:NP_492875]	mRNA processing, G-protein coupled receptor protein signaling pathway, nucleosome assembly, biological_process, 	integral to membrane, nucleus, nucleosome, 	DNA binding, dopamine receptor activity, 
sri-5	F28D9.2	Serpentine Receptor, class I family member (sri-5) [Source:RefSeq_peptide;Acc:NP_001021425]			
ztf-6	W06H12.1	Zinc finger Transcription Factor family member (ztf-6) [Source:RefSeq_peptide;Acc:NP_492877]		intracellular, 	zinc ion binding, nucleic acid binding, 
ins-36	Y53H1A.4	ins-36 encodes an insulin-like peptide. [Source: WormBase]			
Y53H1A.1	Y53H1A.1	Y53H1A.1 [Source:RefSeq_peptide;Acc:NP_492878]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
Y53H1A.2	Y53H1A.2	Y53H1A.2 [Source:RefSeq_peptide;Acc:NP_492879]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
Y53H1A.5	Y53H1A.5	Y53H1A.5 [Source:RefSeq_peptide;Acc:NP_001021787]	regulation of transcription, DNA-dependent, cell growth, 	nucleus, 	transcription factor activity, transforming growth factor beta receptor binding, 
Y53H1A.3	Y53H1A.3	Y53H1A.3 [Source:RefSeq_peptide;Acc:NP_492880]			sugar binding, 
Y53H1A.6	Y53H1A.6				
F46A8.8	F46A8.8	F46A8.8 [Source:RefSeq_peptide;Acc:NP_492881]			sugar binding, 
F46A8.7	F46A8.7	F46A8.7 [Source:RefSeq_peptide;Acc:NP_492882]			
F46A8.5	F46A8.5	F46A8.5 [Source:RefSeq_peptide;Acc:NP_492883]			sugar binding, 
F46A8.4	F46A8.4	F46A8.4 [Source:RefSeq_peptide;Acc:NP_492884]			sugar binding, 
F46A8.3	F46A8.3	F46A8.3 [Source:RefSeq_peptide;Acc:NP_492885]	reproduction, 		sugar binding, 
F46A8.6	F46A8.6	F46A8.6 [Source:RefSeq_peptide;Acc:NP_492886]			
F46A8.2	F46A8.2				
F46A8.11	F46A8.11				
F46A8.1	F46A8.1				
F46A8.9	F46A8.9				
scrm-6	F46A8.10	scrm-6 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). scrm-6(RNAi) animals have no obvious phenotype. [Source: WormBase]			protein binding, 
F36D1.8	F36D1.8	F36D1.8 [Source:RefSeq_peptide;Acc:NP_492891]			
F36D1.7	F36D1.7	F36D1.7 [Source:RefSeq_peptide;Acc:NP_492892]			
F36D1.5	F36D1.5	F36D1.5 [Source:RefSeq_peptide;Acc:NP_492893]			
F36D1.10	F36D1.10	F36D1.10 [Source:RefSeq_peptide;Acc:NP_001021452]			
F36D1.6	F36D1.6	F36D1.6 [Source:RefSeq_peptide;Acc:NP_492894]			
F36D1.4	F36D1.4	F36D1.4 [Source:RefSeq_peptide;Acc:NP_492895]			
F36D1.9	F36D1.9	F36D1.9 [Source:RefSeq_peptide;Acc:NP_001021453]			
F36D1.1	F36D1.1	F36D1.1 [Source:RefSeq_peptide;Acc:NP_492896]			protein binding, 
sre-22	F36D1.2	Serpentine Receptor, class E (epsilon) family member (sre-22) [Source:RefSeq_peptide;Acc:NP_492897]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sru-47	F36D1.3	Serpentine Receptor, class U family member (sru-47) [Source:RefSeq_peptide;Acc:NP_492898]			
Y53H1B.2	Y53H1B.2	Y53H1B.2 [Source:RefSeq_peptide;Acc:NP_492899]			
Y53H1B.1	Y53H1B.1	Y53H1B.1 [Source:RefSeq_peptide;Acc:NP_492900]			
Y53H1B.4	Y53H1B.4	Y53H1B.4 [Source:RefSeq_peptide;Acc:NP_492902]			
Y53H1B.6	Y53H1B.6	Y53H1B.6 [Source:RefSeq_peptide;Acc:NP_492903]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
H25P06.4	H25P06.4	H25P06.4 [Source:RefSeq_peptide;Acc:NP_492904]	proteolysis, 	intracellular, 	protein dimerization activity, calcium-dependent cysteine-type endopeptidase activity, 
H25P06.3	H25P06.3				
H25P06.1	H25P06.1	H25P06.1 [Source:RefSeq_peptide;Acc:NP_492905]	glycolysis, embryonic development ending in birth or egg hatching, 		ATP binding, hexokinase activity, 
cdk-9	H25P06.2	cdk-9 encodes an ortholog of the metazoan transcription elongation factor kinase CDK-9. it is required for general expression of early embryonic genes, and thought (in conjunction with partners such as cyclin T) to form a transcription factor (P-TEFb) that which prevents transcription from stalling in vitro. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M04D5.1	M04D5.1				
M04D5.2	M04D5.2				
F56G4.1	F56G4.1	F56G4.1 [Source:RefSeq_peptide;Acc:NP_492908]			transferase activity, transferring groups other than amino-acyl groups, 
pes-2	F56G4.2	pes-2 encodes a protein containing a predicted signal sequence and an F-box, a motif believed to mediate protein-protein interactions either with homologs of yeast Skp1p or with other proteins. pes-2 was identified in two different molecular screens, a promoter-trapping screen and a screen for genes that are preferentially transcribed in pre-gastrulation embryos. by homology, pes-2 is predicted to function in ubiquitin-proteasome mediated protein degradation. pes-2 may also play a role in lifespan determination, as its expression is downregulated in young adult worms containing loss-of-function mutations in the daf-2 insulin/IGF-1 receptor, and loss of pes-2 function via RNA-mediated interference (RNAi) can enhance animal survival rates. pes-2 expression is first detected in 4- to 8-cell stage embryos, continues in early embryogenesis in cells from the AB, MS, and E founder cell lineages, and in later embryogenesis is becomes restricted to hypodermal cells. expression in larvae and adults has not yet been reported. [Source: WormBase]	determination of adult life span, 		
F56G4.3	F56G4.3	F56G4.3 [Source:RefSeq_peptide;Acc:NP_492910]			
F56G4.7	F56G4.7	F56G4.7 [Source:RefSeq_peptide;Acc:NP_001021510]			
F56G4.6	F56G4.6	F56G4.6 [Source:RefSeq_peptide;Acc:NP_492911]			heat shock protein binding, 
F56G4.4	F56G4.4	F56G4.4 [Source:RefSeq_peptide;Acc:NP_492912]	biological_process, 		protein binding, zinc ion binding, nucleic acid binding, 
png-1	F56G4.5	png-1 encodes a peptide-N[4]-(N-acetyl-beta-D-glucosaminyl) asparagine amidase (i.e., peptide:N-glycanase or PNGase) orthologous to budding yeast PNG1 and human NGLY1. PNG-1 is atypically organized, with an N-terminal thioredoxin-like domain, a central transglutaminase domain, and a C-terminal DUF750 domain, while lacking the PUB domain found in mammalian or insect PNGases. both in vitro and in vivo, PNG-1 shows both protein disulfide reductase and PNGase activities, which require its N-terminal and central domains respectively. PNG-1 has PNGase activity on denatured but not natively folded RNAse B, and releases both high mannose- and sialo-complex-type N-glycans from glycopeptides and denatured glycoproteins. in vivo, the png-1(cy8) mutation C251Y (predicted to destroy the PNGase active site) abolishes PNGase activity while leaving PNG-1's reductase activity intact. conversely, PNG-1's reductase activity is abolished by the dual missense mutation C34S/C37S, which alters its predicted N-terminal active site. by orthology, PNG-1 is expected to aid proteasomal degradation of misfolded proteins. PNG-1 activity is inhibited by Zn(2+) and the caspase inhibitor z-VAD-fmk, but not by EDTA. PNG-1 is expressed in renal gland cells and intestine. although W04G5.5 and Y50D4B.7 have some similarity to the transglutaminase domain of PNG-1, they lack a predicted catalytic triad active site. [Source: WormBase]	cell redox homeostasis, glycerol ether metabolic process, glycoprotein catabolic process, 	cytoplasm, 	protein binding, electron carrier activity, protein disulfide oxidoreductase activity, 
aat-9	Y53H1C.1	aat-9 encodes an amino acid transporter catalytic subunit. AAT-9 lacks the conserved cysteine residue proposed to be essential for association with a glycoprotein subunit, and when expressed alone in Xenopus ooctyes, AAT-9 can localize to the cell surface and function as an aromatic amino acid exchanger that displays substrate-activated anion conductance. nevertheless, AAT-9 activity is enhanced by co-expression with the ATG-1 and ATG-2 glycoprotein subunits. an aat-9::gfp promoter fusion directs expression in anterior neurons, including some chemosensory neurons, as well as in some anterior body wall muscles. [Source: WormBase]	amino acid transport, transport, neurotransmitter transport, 	membrane, integral to plasma membrane, 	amino acid transmembrane transporter activity, neurotransmitter:sodium symporter activity, 
Y53H1C.2	Y53H1C.2	Y53H1C.2a [Source:RefSeq_peptide;Acc:NP_001076622]	collagen and cuticulin-based cuticle attachment to epithelium, 		
Y53H1C.3	Y53H1C.3	Y53H1C.3 [Source:RefSeq_peptide;Acc:NP_492916]			
C27C7.7	C27C7.7	C27C7.7 [Source:RefSeq_peptide;Acc:NP_492917]			
C27C7.5	C27C7.5	C27C7.5 [Source:RefSeq_peptide;Acc:NP_492918]	locomotory behavior, 		sugar binding, 
nhr-74	C27C7.3	Nuclear Hormone Receptor family member (nhr-74) [Source:RefSeq_peptide;Acc:NP_492919]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C27C7.9	C27C7.9				
C27C7.2	C27C7.2	C27C7.2 [Source:RefSeq_peptide;Acc:NP_492920]			
nhr-73	C27C7.4	nhr-73 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. expression studies using GFP fusions indicate that nhr-73 is expressed exclusively in lateral seam cells. expression of nhr-73 is seen in early embryonic lateral hypodermal cells and continues to persist in the daughter cell that continues to divide and is lost in the daughter cell that differentiates. nhr-73 expression is diminished by knocking down genes (via RNA interference) that are involved in seam cell development like elt-5 and ceh-16/engrailed. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-259	C27C7.8	Nuclear Hormone Receptor family member (nhr-259) [Source:RefSeq_peptide;Acc:NP_492922]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
C27C7.1	C27C7.1	C27C7.1 [Source:RefSeq_peptide;Acc:NP_492923]			
ZK1025.1	ZK1025.1				
ZK1025.2	ZK1025.2	ZK1025.8 [Source:RefSeq_peptide;Acc:NP_492930]			
ZK1025.5	ZK1025.5				
nhr-244	ZK1025.6	Nuclear Hormone Receptor family member (nhr-244) [Source:RefSeq_peptide;Acc:NP_492926]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
ZK1025.4	ZK1025.4	ZK1025.4a [Source:RefSeq_peptide;Acc:NP_001040718]			
ZK1025.3	ZK1025.3	ZK1025.3 [Source:RefSeq_peptide;Acc:NP_492928]			
ZK1025.7	ZK1025.7	ZK1025.7 [Source:RefSeq_peptide;Acc:NP_492929]			
ZK1025.8	ZK1025.8	ZK1025.8 [Source:RefSeq_peptide;Acc:NP_492930]			
nhr-113	ZK1025.9	nhr-113 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-245	ZK1025.10	Nuclear Hormone Receptor family member (nhr-245) [Source:RefSeq_peptide;Acc:NP_492932]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
K08C9.5	K08C9.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
K08C9.1	K08C9.1	K08C9.1 [Source:RefSeq_peptide;Acc:NP_492934]			
K08C9.2	K08C9.2	K08C9.2 [Source:RefSeq_peptide;Acc:NP_492935]	reproduction, 		
col-65	K08C9.4	COLlagen family member (col-65) [Source:RefSeq_peptide;Acc:NP_492936]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
K08C9.8	K08C9.8				
K08C9.7	K08C9.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XUT3]			
K08C9.6	K08C9.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XUT2]			
F32B4.8	F32B4.8	F32B4.8 [Source:RefSeq_peptide;Acc:NP_492939]			
F32B4.t1	F32B4.t1				
F32B4.1	F32B4.1	F32B4.1 [Source:RefSeq_peptide;Acc:NP_492940]			
F32B4.2	F32B4.2	F32B4.2 [Source:RefSeq_peptide;Acc:NP_492941]	protein targeting, 		
F32B4.6	F32B4.6	F32B4.6 [Source:RefSeq_peptide;Acc:NP_492942]			
F32B4.4	F32B4.4	F32B4.4b [Source:RefSeq_peptide;Acc:NP_001021441]			nucleotide binding, protein binding, nucleic acid binding, 
F32B4.5	F32B4.5	F32B4.5 [Source:RefSeq_peptide;Acc:NP_492944]			
dys-1	F15D3.1	The dys-1 gene encodes an ortholog of human DMD, which when mutated leads to Duchenne muscular dystrophy (OMIM:310200). [Source: WormBase]	positive regulation of locomotion, synaptic transmission, cholinergic, acetylcholine transport, muscle maintenance, 	intracellular, dystrophin-associated glycoprotein complex, 	protein binding, zinc ion binding, nucleic acid binding, actin binding, acetylcholine transmembrane transporter activity, 
col-66	F15D3.3	Putative uncharacterized protein col-66. [Source:Uniprot/SPTREMBL;Acc:O62172]	phosphate transport, 		
F15D3.2	F15D3.2	F15D3.2 [Source:RefSeq_peptide;Acc:NP_492949]			sugar binding, 
F15D3.4	F15D3.4	F15D3.4 [Source:RefSeq_peptide;Acc:NP_492950]	biological_process, 		serine-type endopeptidase inhibitor activity, 
F15D3.5	F15D3.5	F15D3.5 [Source:RefSeq_peptide;Acc:NP_492951]			
F15D3.6	F15D3.6	F15D3.6 [Source:RefSeq_peptide;Acc:NP_492952]	positive regulation of growth rate, 		
F15D3.7	F15D3.7	F15D3.7 [Source:RefSeq_peptide;Acc:NP_492953]	protein transport, reproduction, 	mitochondrial inner membrane, 	protein transporter activity, 
F15D3.t1	F15D3.t1				
F15D3.8	F15D3.8	F15D3.8 [Source:RefSeq_peptide;Acc:NP_492954]			
spe-9	C17D12.6	spe-9 encodes a predicted plasma membrane protein with a short intracellular domain and external EGF-like repeats most closely resembling those of the Delta, Serrate, APX-1, and LAG-2 signaling ligands. SPE-9 is required autonomously in sperm for fertilization, and by homology, likely mediates an adhesive or signaling event necessary for proper oocyte fertilization. spe-9 mRNA is detected solely in animals that are engaged in spermatogenesis. the receptor for SPE-9 is not yet known. [Source: WormBase]	single fertilization, 		calcium ion binding, 
C17D12.t1	C17D12.t1				
C17D12.t2	C17D12.t2				
C17D12.t3	C17D12.t3				
C17D12.5	C17D12.5	C17D12.5 [Source:RefSeq_peptide;Acc:NP_492956]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
unc-75	C17D12.2	unc-75 encodes an RNA-binding protein with two N-terminal RNA recognition motifs (RRMs), a glutamine/asparagine-rich linker domain, and a third C-terminal RRM. UNC-75 is orthologous to mammalian CELF/BrunoL proteins that control pre-mRNA splicing. unc-75 is expressed in all neurons and in neurosecretory gland cells, and is required for normal modulation of GABA- and acetylcholine-mediated neurotransmission. UNC-75 protein is found with other RRM proteins in dynamic nuclear speckles, consistent with a role in alternative mRNA splicing. unc-75 mutations can be rescued in vivo by a human unc-75 transgene, but not by exc-7 or W02D3.11, indicating that UNC-75 acts on evolutionarily conserved but highly specific pre-mRNA substrates. both UNC-75 and EXC-7 are required in parallel for normal cholinergic neurotransmission. [Source: WormBase]			nucleotide binding, RNA binding, nucleic acid binding, 
C17D12.7	C17D12.7	C17D12.7 [Source:RefSeq_peptide;Acc:NP_492959]			
C17D12.8	C17D12.8				
C17D12.1	C17D12.1	C17D12.1a [Source:RefSeq_peptide;Acc:NP_492960]			zinc ion binding, 
C17D12.3	C17D12.3	C17D12.3 [Source:RefSeq_peptide;Acc:NP_492962]			
Y47H9A.1	Y47H9A.1	Y47H9A.1 [Source:RefSeq_peptide;Acc:NP_492963]			
NR_000124.1	Y47H9A.2	Y47H9A.2, snRNA [Source:RefSeq_dna;Acc:NR_000124]			
W04G5.3	W04G5.3	W04G5.3 [Source:RefSeq_peptide;Acc:NP_492964]			
W04G5.4	W04G5.4	W04G5.4 [Source:RefSeq_peptide;Acc:NP_492965]			
rab-11.2	W04G5.2	RAB family member (rab-11.2) [Source:RefSeq_peptide;Acc:NP_001040696]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, positive regulation of growth rate, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
W04G5.5	W04G5.5	W04G5.5 [Source:RefSeq_peptide;Acc:NP_492967]			
W04G5.10	W04G5.10	W04G5.10 [Source:RefSeq_peptide;Acc:NP_492969]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
kin-23	W04G5.6	kin-23 encodes a predicted protein tyrosine kinase. like KIN-30, KIN-23 contains an unusual K to R substitution in kinase subdomain VII. kin-23 mRNA is expressed strongly during the L1/L2 larval stages, weakly in L3 and L4 stages, and at undetectable levels in adults. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W04G5.9	W04G5.9	W04G5.9 [Source:RefSeq_peptide;Acc:NP_492971]			
W04G5.12	W04G5.12				
W04G5.13	W04G5.13				
NR_000125.1	W04G5.11	W04G5.11, snRNA [Source:RefSeq_dna;Acc:NR_000125]			
W04G5.8	W04G5.8	W04G5.8 [Source:RefSeq_peptide;Acc:NP_492972]			
W04G5.7	W04G5.7	W04G5.7 [Source:RefSeq_peptide;Acc:NP_492973]			
kpc-1	F11A6.1	kpc-1 encodes two isoforms of a Kex2/subtilisin-like proprotein convertase that is a member of the subtilase family of calcium-dependent serine endoproteinases that includes mammalian furin (OMIM:136950) and Saccharomyces cerevisiae Kex2p. KPC-1 is required for normal growth and locomotion and is likely responsible for the processing of transforming growth factor (TGF) beta proproteins encoded by daf-7, dbl-1, and unc-129. [Source: WormBase]	proteolysis, 		subtilase activity, 
scrm-4	F11A6.2	scrm-4 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). in apoptotic germline cells, SCRM-4 is fully dispensable for normally rapid engulfment and largely dispensable for phosphatidylserine exposure. SCRM-4 does not bind WAH-1 in vitro, and scrm-4(tm624) mutants have no obvious phenotype. [Source: WormBase]			
scrm-1	T22H2.5	scrm-1 encodes, by alternative splicing, two isoforms of a putative phospholipid scramblase required for phosphatidylserine exposure and the normally rapid engulfment of apoptotic cells in the germline. SCRM-1 is localized to plasma membranes of embryonic cells from early embryogenesis onward. SCRM-1 is specifically bound by residues 380-550 of WAH-1 in vitro, and WAH-1 binding is required in liposomes for more than residual SCRM-1 activity. in scrm-1(tm698) or scrm-1(tm805) embryos, apoptotic cells do eventually disappear, but their removal is delayed. SCRM-1 is homologous to human PLSCR1-5, and paralogous to SCRM-2 through SCRM-8. [Source: WormBase]			protein binding, 
T22H2.4	T22H2.4	T22H2.4 [Source:RefSeq_peptide;Acc:NP_492978]			
sri-11	T22H2.3	Serpentine Receptor, class I family member (sri-11) [Source:RefSeq_peptide;Acc:NP_492979]			
sri-12	T22H2.1	Serpentine Receptor, class I family member (sri-12) [Source:RefSeq_peptide;Acc:NP_492980]			
T22H2.6	T22H2.6	T22H2.6 encodes an ortholog of human progranulin (OMIM:138945, mutated in ubiquitin-positive frontotemporal dementia). granulin participates in various developmental events (cavitation in preimplantation embryos and male-specific brain differentiation), promotes granulation and neovascularization during wound healing, and is strongly expressed in various tumors. [Source: WormBase]			
T22H2.2	T22H2.2	T22H2.2 [Source:RefSeq_peptide;Acc:NP_492983]			transferase activity, transferring groups other than amino-acyl groups, 
F35E2.6	F35E2.6	F35E2.6 [Source:RefSeq_peptide;Acc:NP_492984]			transferase activity, transferring groups other than amino-acyl groups, 
F35E2.7	F35E2.7	F35E2.7 [Source:RefSeq_peptide;Acc:NP_492985]			transferase activity, transferring groups other than amino-acyl groups, 
F35E2.8	F35E2.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F35E2.10	F35E2.10				
F35E2.9	F35E2.9	F35E2.9 [Source:RefSeq_peptide;Acc:NP_492987]			
F35E2.4	F35E2.4				
F35E2.3	F35E2.3	F35E2.3 [Source:RefSeq_peptide;Acc:NP_492989]			
F35E2.2	F35E2.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F35E2.1	F35E2.1	F35E2.1 [Source:RefSeq_peptide;Acc:NP_492991]	amino acid transport, 	membrane, 	
F35E2.5	F35E2.5	F35E2.5 [Source:RefSeq_peptide;Acc:NP_492992]			
Y47H9B.2	Y47H9B.2	Y47H9B.2 [Source:RefSeq_peptide;Acc:NP_492993]	biological_process, 		
vab-10	ZK1151.1	vab-10 encodes, by alternative splicing, two spectraplakins (VAB-10A and VAB-10B) that are jointly required for mechanical resilience of the epidermis under strain by the contraction of actin microfilaments mechanically linked to fibrous organelles (FOs). VAB-10A/B are, accordingly, required for elongation during embryonic morphogenesis. VAB-10A has C-terminal plectin repeats while VAB-10B has spectrin repeats. VAB-10A is required to keep the epidermis and extracellular matrix attached via FOs, while VAB-10B is required to keep the apical and basal epidermal plasma membranes connected during morphogenesis. vab-10a and vab-10b mutations complement one another. vab-10 is orthologous to human BPAG1 (dystonin or MACF2, OMIM:113810, encoding an autoantigen of bullous pemphigoid blistering disease) and dJ562N20.1 (MACF1), and to Drosophila SHORT STOP. [Source: WormBase]	signal transduction, chemotaxis, cell cycle arrest, embryonic development ending in birth or egg hatching, 	membrane, 	signal transducer activity, actin binding, 
T02G6.1	T02G6.1	T02G6.1 [Source:RefSeq_peptide;Acc:NP_492999]			
T02G6.2	T02G6.2	T02G6.2 [Source:RefSeq_peptide;Acc:NP_493000]			
T02G6.t1	T02G6.t1				
T02G6.4	T02G6.4	T02G6.4 [Source:RefSeq_peptide;Acc:NP_493001]			
T02G6.3	T02G6.3	T02G6.3 [Source:RefSeq_peptide;Acc:NP_493002]			
T02G6.5	T02G6.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
T02G6.6	T02G6.6	T02G6.6 [Source:RefSeq_peptide;Acc:NP_493004]			
T02G6.7	T02G6.7	T02G6.7 [Source:RefSeq_peptide;Acc:NP_493005]			sugar binding, 
Y47H9C.1	Y47H9C.1	Y47H9C.1 [Source:RefSeq_peptide;Acc:NP_493006]			
Y47H9C.2	Y47H9C.2	Y47H9C.2 [Source:RefSeq_peptide;Acc:NP_493007]			zinc ion binding, 
ced-1	Y47H9C.4	The ced-1 gene encodes a transmembrane protein on phagocytic cells that is homologous to human CD91, a low density lipoprotein receptor paralog. the cytoplasmic tail of CED-1 contains two motifs important for engulfment. [Source: WormBase]			calcium ion binding, 
dnj-27	Y47H9C.5	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, cell redox homeostasis, 	endoplasmic reticulum, 	heat shock protein binding, unfolded protein binding, 
csp-3	Y47H9C.6	csp-3 encodes a protein that is homologous to the C-terminal domain of caspase-like cysteine proteases. unlike other caspases, CSP-3 does not contain a middle or N-terminal domain, and thus may either function in concert with the middle domains of other caspases or may play a regulatory (dominant negative) role in caspase activation. as loss of csp-3 activity via large-scale RNAi does not result in any obvious abnormalities, the precise role of CSP-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	proteolysis, apoptosis, 		cysteine-type peptidase activity, caspase activity, 
Y47H9C.15	Y47H9C.15	Y47H9C.15 [Source:RefSeq_peptide;Acc:NP_493013]			caspase activity, 
Y47H9C.7	Y47H9C.7	Y47H9C.7 is orthologous to the human gene EUKARYOTIC TRANSLATION INITIATION FACTOR 2B, SUBUNIT 2 (BETA, 39KD) (EIF2B2. OMIM:606454), which when mutated leads to disease. [Source: WormBase]	cellular metabolic process, positive regulation of growth rate, 		
Y47H9C.8	Y47H9C.8	Y47H9C.8 [Source:RefSeq_peptide;Acc:NP_493015]			
Y47H9C.12	Y47H9C.12	Y47H9C.12 [Source:RefSeq_peptide;Acc:NP_493016]			
Y47H9C.14	Y47H9C.14	Y47H9C.14 [Source:RefSeq_peptide;Acc:NP_493017]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y47H9C.9	Y47H9C.9	Y47H9C.9 [Source:RefSeq_peptide;Acc:NP_493018]		cytoplasm, extrinsic to membrane, 	cytoskeletal protein binding, 
fbxa-216	Y47H9C.10	Y47H9C.10 [Source:RefSeq_peptide;Acc:NP_493019]			
fbxa-217	Y47H9C.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
R09B3.6	R09B3.6				
exo-3	R09B3.1	exo-3 encodes an ortholog of human APEX/REF1 and rat apurinic/apyrimidinic endonuclease (AP endonuclease 1). EXO-3 is implicated in a DNA damage checkpoint pathway that affects embryonic and larval viability. [Source: WormBase]	DNA repair, embryonic development ending in birth or egg hatching, embryonic development, 	intracellular, 	DNA binding, endonuclease activity, nuclease activity, 
R09B3.2	R09B3.2	R09B3.2 [Source:RefSeq_peptide;Acc:NP_493022]			nucleotide binding, nucleic acid binding, 
R09B3.3	R09B3.3	R09B3.3 [Source:RefSeq_peptide;Acc:NP_493023]			nucleotide binding, nucleic acid binding, 
ubc-12	R09B3.4	The ubc-12 gene encodes a ubiquitin-conjugating enzyme whose substrate is NED-8, and which is required for both embryogenesis and terminal hypodermal differentiation. ubc-12(RNAi) mutants either arrest during embryonic development or show pleotropic defects (e.g., vulval eversion during the L4 stage), as well as defective alae. [Source: WormBase]	protein modification process, ubiquitin cycle, biological_process, protein neddylation, 	cellular_component, 	small conjugating protein ligase activity, NEDD8 conjugating enzyme activity, 
mag-1	R09B3.5	Protein mago nashi homolog (Ce-mago). [Source:Uniprot/SWISSPROT;Acc:P49029]	positive regulation of growth rate, 	nucleus, 	protein binding, 
hda-3	R06C1.1	hda-3 encodes a member of the histone deacetylase family most similar to human histone deacetylase 1 (HD1) that affects radiation sensitivity. [Source: WormBase]	DNA repair, histone deacetylation, DNA protection, 	nucleus, 	histone deacetylase activity, 
R06C1.2	R06C1.2	R06C1.2 [Source:RefSeq_peptide;Acc:NP_493027]	isoprenoid biosynthetic process, growth, 		
wve-1	R06C1.3	wve-1 encodes a homolog of the mammalian WAVE protein. based on homology WVE-1 might be involved in actin cytoskeletal dynamics. wve-1 is required for early cell migrations in the epidermis during embryonic morphogenesis and may require gex-2 and gex-3 for its function. [Source: WormBase]	positive regulation of growth rate, 		protein binding, nutrient reservoir activity, 
R06C1.4	R06C1.4	R06C1.4 [Source:RefSeq_peptide;Acc:NP_493029]			nucleotide binding, RNA binding, nucleic acid binding, 
R06C1.5	R06C1.5				
R06C1.6	R06C1.6	R06C1.6 [Source:RefSeq_peptide;Acc:NP_493030]			
hsf-1	Y53C10A.12	hsf-1 encodes the C. elegans heat-shock transcription factor ortholog. HSF-1 functions as a transcriptional regulator of stress-induced gene expression whose activity is required for heat-shock and proteotoxicity response, larval development, innate immunity, and regulation of adult lifespan. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y53C10A.1	Y53C10A.1				
Y53C10A.2	Y53C10A.2	Y53C10A.2 [Source:RefSeq_peptide;Acc:NP_493033]			
Y53C10A.3	Y53C10A.3	Y53C10A.3 encodes a paralog of HSF-1 that might regulate ubq-1, since ubq-1 has 5'-flanking sequences resembling heat shock regulatory elements, yet is uninduced by heat shock. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y53C10A.15	Y53C10A.15	Y53C10A.15 [Source:RefSeq_peptide;Acc:NP_001040706]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, structural molecule activity, 
Y53C10A.t3	Y53C10A.t3				
Y53C10A.t1	Y53C10A.t1				
Y53C10A.t2	Y53C10A.t2				
rga-2	Y53C10A.4	Rho GTPase Activating protein family member (rga-2) [Source:RefSeq_peptide;Acc:NP_493035]	signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, 
Y53C10A.5	Y53C10A.5	Y53C10A.5 [Source:RefSeq_peptide;Acc:NP_493036]			small conjugating protein ligase activity, 
Y53C10A.6	Y53C10A.6	Y53C10A.6 [Source:RefSeq_peptide;Acc:NP_493037]			protein binding, 
fbxa-124	Y53C10A.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-122	Y53C10A.13	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-123	Y53C10A.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
abt-5	Y53C10A.9	abt-5 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. ABT-5 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of abt-5 activity via RNAi results in no obvious defects, the precise role of abt-5 in C. elegans development and/or behavior is not yet known. abt-5 promoter-gfp fusion proteins are expressed in larvae and adults in the intestine and in unidentified cells in the head. [Source: WormBase]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, heat shock protein binding, 
Y53C10A.10	Y53C10A.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XW47]			
F58D5.8	F58D5.8	F58D5.8 [Source:RefSeq_peptide;Acc:NP_493043]			
F58D5.7	F58D5.7	F58D5.7 [Source:RefSeq_peptide;Acc:NP_493044]			
F58D5.6	F58D5.6	F58D5.6 [Source:RefSeq_peptide;Acc:NP_493045]			
F58D5.5	F58D5.5	F58D5.5 [Source:RefSeq_peptide;Acc:NP_493046]			
F58D5.9	F58D5.9	F58D5.9 [Source:RefSeq_peptide;Acc:NP_001021520]			
ksr-2	F58D5.4	Kinase Suppressor of activated Ras family member (ksr-2) [Source:RefSeq_peptide;Acc:NP_001021518]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
hrp-2	F58D5.1	human HnRNP A1 homolog family member (hrp-2) [Source:RefSeq_peptide;Acc:NP_493049]	biological_process, 	nucleus, 	nucleic acid binding, 
F58D5.t1	F58D5.t1				
F58D5.2	F58D5.2	F58D5.2a [Source:RefSeq_peptide;Acc:NP_001021516]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
F58D5.3	F58D5.3	F58D5.3 [Source:RefSeq_peptide;Acc:NP_493051]			
clp-3	Y47H10A.1	A calpain protease involved in neurodegeneration caused by necrotic cell death. [Source: WormBase]	proteolysis, cell death, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
Y47H10A.2	Y47H10A.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y47H10A.3	Y47H10A.3	Y47H10A.3 [Source:RefSeq_peptide;Acc:NP_493054]			
Y47H10A.4	Y47H10A.4	Y47H10A.4 [Source:RefSeq_peptide;Acc:NP_493055]			
Y47H10A.5	Y47H10A.5	Y47H10A.5 [Source:RefSeq_peptide;Acc:NP_493056]			
rrf-2	M01G12.12	rrf-2 encodes an RNA-directed RNA polymerase (RdRP) homolog of unknown function. RRF-2 is not obviously required for either somatic or germline RNAi, or for transitive RNAi. [Source: WormBase]	biological_process, 	nuclear RNA-directed RNA polymerase complex, 	nucleotide binding, RNA-directed RNA polymerase activity, 
M01G12.14	M01G12.14	M01G12.14 [Source:RefSeq_peptide;Acc:NP_493058]			
M01G12.9	M01G12.9	M01G12.9 [Source:RefSeq_peptide;Acc:NP_493059]			
M01G12.8	M01G12.8				
M01G12.7	M01G12.7	M01G12.7 [Source:RefSeq_peptide;Acc:NP_493060]			
M01G12.11	M01G12.11				
M01G12.6	M01G12.6	M01G12.6 [Source:RefSeq_peptide;Acc:NP_493062]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
M01G12.10	M01G12.10	M01G12.10 [Source:RefSeq_peptide;Acc:NP_493063]			
srw-111	M01G12.4	Serpentine Receptor, class W family member (srw-111) [Source:RefSeq_peptide;Acc:NP_493064]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srt-21	M01G12.3				
M01G12.5	M01G12.5	M01G12.5 [Source:RefSeq_peptide;Acc:NP_493066]			serine-type endopeptidase inhibitor activity, 
M01G12.2	M01G12.2	M01G12.2 [Source:RefSeq_peptide;Acc:NP_493067]			serine-type endopeptidase inhibitor activity, 
sri-14	M01G12.1	Serpentine Receptor, class I family member (sri-14) [Source:RefSeq_peptide;Acc:NP_493068]			
sri-13	M01G12.13	Serpentine Receptor, class I family member (sri-13) [Source:RefSeq_peptide;Acc:NP_493069]			
F15H9.t1	F15H9.t1				
sri-17	F15H9.3	Serpentine Receptor, class I family member (sri-17) [Source:RefSeq_peptide;Acc:NP_493070]	embryonic development ending in birth or egg hatching, 		
NR_000138.1	F15H9.5	F15H9.6, snRNA [Source:RefSeq_dna;Acc:NR_000138]			
sri-16	F15H9.4	Serpentine Receptor, class I family member (sri-16) [Source:RefSeq_peptide;Acc:NP_493071]			
NR_000138.1	F15H9.6	F15H9.6, snRNA [Source:RefSeq_dna;Acc:NR_000138]			
sri-15	F15H9.2	Serpentine Receptor, class I family member (sri-15) [Source:RefSeq_peptide;Acc:NP_493072]			
F15H9.1	F15H9.1	F15H9.1 [Source:RefSeq_peptide;Acc:NP_493073]			
R05D7.1	R05D7.1	R05D7.1 [Source:RefSeq_peptide;Acc:NP_493074]			
R05D7.2	R05D7.2	R05D7.2 [Source:RefSeq_peptide;Acc:NP_493075]			
R05D7.3	R05D7.3	R05D7.3 [Source:RefSeq_peptide;Acc:NP_493076]			
NR_000905.1	R05D7.6	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
R05D7.4	R05D7.4	R05D7.4 [Source:RefSeq_peptide;Acc:NP_493077]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
R05D7.5	R05D7.5	R05D7.5 [Source:RefSeq_peptide;Acc:NP_493078]			
C15C6.t1	C15C6.t1				
C15C6.1	C15C6.1	C15C6.1 [Source:RefSeq_peptide;Acc:NP_493079]			
C15C6.2	C15C6.2	C15C6.2b [Source:RefSeq_peptide;Acc:NP_493080]			
C15C6.3	C15C6.3	C15C6.3 [Source:RefSeq_peptide;Acc:NP_493082]	cell adhesion, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, actin cytoskeleton, 	structural molecule activity, histamine receptor activity, 
C15C6.4	C15C6.4	C15C6.4 encodes an ortholog of Pop4 (Rpp29), a protein subunit of the endoribonuclease RNAse P, which cleaves tRNA precursors to produce their mature 5' end. C15C6.4 is evolutionarily ubiquitous among eukaryotes. [Source: WormBase]	tRNA processing, positive regulation of growth rate, 	ribonuclease P complex, 	ribonuclease activity, 
sdz-14	F14B6.1	SKN-1 Dependent Zygotic transcript family member (sdz-14) [Source:RefSeq_peptide;Acc:NP_493084]			
F14B6.2	F14B6.2	F14B6.2 [Source:RefSeq_peptide;Acc:NP_493085]			
F14B6.t2	F14B6.t2				
F14B6.t1	F14B6.t1				
F14B6.3	F14B6.3	F14B6.3 [Source:RefSeq_peptide;Acc:NP_493086]			protein binding, 
F14B6.6	F14B6.6	F14B6.6a [Source:RefSeq_peptide;Acc:NP_001021108]	protein amino acid glycosylation, positive regulation of growth rate, 	membrane, 	protein binding, galactosyltransferase activity, 
F14B6.4	F14B6.4	F14B6.4 [Source:RefSeq_peptide;Acc:NP_493088]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
F14B6.5	F14B6.5	F14B6.5 [Source:RefSeq_peptide;Acc:NP_493089]			transferase activity, transferring groups other than amino-acyl groups, 
nhr-82	F41D3.1	Nuclear Hormone Receptor family member (nhr-82) [Source:RefSeq_peptide;Acc:NP_493090]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F41D3.2	F41D3.2	F41D3.2 [Source:RefSeq_peptide;Acc:NP_493091]			transferase activity, transferring groups other than amino-acyl groups, 
nhr-265	F41D3.3	Nuclear Hormone Receptor family member (nhr-265) [Source:RefSeq_peptide;Acc:NP_493092]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F41D3.4	F41D3.4	F41D3.4 [Source:RefSeq_peptide;Acc:NP_493093]	reproduction, 		transferase activity, transferring groups other than amino-acyl groups, 
F41D3.5	F41D3.5	F41D3.10 [Source:RefSeq_peptide;Acc:NP_493098]		cell surface, 	transferase activity, transferring groups other than amino-acyl groups, 
F41D3.13	F41D3.13				
F41D3.6	F41D3.6	F41D3.6 [Source:RefSeq_peptide;Acc:NP_493095]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
F41D3.7	F41D3.7	F41D3.7 [Source:RefSeq_peptide;Acc:NP_493096]			
F41D3.8	F41D3.8	F41D3.8 [Source:RefSeq_peptide;Acc:NP_493097]			
F41D3.10	F41D3.10	F41D3.10 [Source:RefSeq_peptide;Acc:NP_493098]		cell surface, 	transferase activity, transferring groups other than amino-acyl groups, 
F41D3.9	F41D3.9	F41D3.9 [Source:RefSeq_peptide;Acc:NP_493099]			
F41D3.11	F41D3.11	F41D3.11 [Source:RefSeq_peptide;Acc:NP_493100]			
F41D3.12	F41D3.12				
F56H6.1	F56H6.1	F56H6.1 [Source:RefSeq_peptide;Acc:NP_493101]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
F56H6.13	F56H6.13	F56H6.13 [Source:RefSeq_peptide;Acc:NP_493102]			
NR_000905.1	F56H6.16	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
NR_000905.1	F56H6.14	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
F56H6.2	F56H6.2	F56H6.2 [Source:RefSeq_peptide;Acc:NP_493103]			
NR_000143.1	F56H6.15	F56H6.15, snRNA [Source:RefSeq_dna;Acc:NR_000143]			
F56H6.3	F56H6.3	F56H6.3 [Source:RefSeq_peptide;Acc:NP_493104]			
F56H6.4	F56H6.4	F56H6.4 [Source:RefSeq_peptide;Acc:NP_493105]			
gmd-2	F56H6.5	gmd-2 encodes one of two C. elegans GDP-mannose dehydratases. in vitro, and when coexpressed with GER-1, GMD-2 catalyzes the formation of GDP-fucose from GDP-mannose. gmd-2 transcripts are generally present throughout larval and adult stages. [Source: WormBase]	metabolic process, cellular metabolic process, GDP-mannose metabolic process, biological_process, 	intracellular, 	oxidoreductase activity, catalytic activity, coenzyme binding, GDP-mannose 4,6-dehydratase activity, 
F56H6.6	F56H6.6	F56H6.6 [Source:RefSeq_peptide;Acc:NP_493107]			
F56H6.7	F56H6.7	F56H6.7 [Source:RefSeq_peptide;Acc:NP_493108]	histidine biosynthetic process, 		histidinol dehydrogenase activity, 
clec-18	F56H6.8	C-type LECtin family member (clec-18) [Source:RefSeq_peptide;Acc:NP_493109]	positive regulation of growth rate, 		sugar binding, 
F56H6.9	F56H6.9	F56H6.9 [Source:RefSeq_peptide;Acc:NP_493110]			
F56H6.11	F56H6.11	F56H6.11 [Source:RefSeq_peptide;Acc:NP_493111]			transferase activity, transferring groups other than amino-acyl groups, 
F56H6.12	F56H6.12	F56H6.12 [Source:RefSeq_peptide;Acc:NP_493112]			transferase activity, transferring groups other than amino-acyl groups, 
C47F8.3	C47F8.3	C47F8.3 [Source:RefSeq_peptide;Acc:NP_493113]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
C47F8.4	C47F8.4	C47F8.4 [Source:RefSeq_peptide;Acc:NP_493114]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
C47F8.6	C47F8.6	C47F8.6 [Source:RefSeq_peptide;Acc:NP_493115]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
C47F8.5	C47F8.5	C47F8.5 [Source:RefSeq_peptide;Acc:NP_493116]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
NR_000905.1	C47F8.9	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
C47F8.7	C47F8.7	C47F8.7 [Source:RefSeq_peptide;Acc:NP_493117]			
nhr-81	C47F8.8	Nuclear Hormone Receptor family member (nhr-81) [Source:RefSeq_peptide;Acc:NP_493118]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-165	C47F8.2	Nuclear Hormone Receptor family member (nhr-165) [Source:RefSeq_peptide;Acc:NP_493119]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
C47F8.1	C47F8.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T09E11.1	T09E11.1	T09E11.1 [Source:RefSeq_peptide;Acc:NP_493121]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
nhr-217	T09E11.2	Nuclear hormone receptor family member nhr-217. [Source:Uniprot/SWISSPROT;Acc:O02305]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
T09E11.11	T09E11.11	T09E11.11 [Source:RefSeq_peptide;Acc:NP_493123]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
T09E11.10	T09E11.10	T09E11.10 [Source:RefSeq_peptide;Acc:NP_493124]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
T09E11.9	T09E11.9	T09E11.9 [Source:RefSeq_peptide;Acc:NP_493125]		membrane, 	acetylglucosaminyltransferase activity, 
T09E11.8	T09E11.8	T09E11.8 [Source:RefSeq_peptide;Acc:NP_493126]			
T09E11.7	T09E11.7	T09E11.7 [Source:RefSeq_peptide;Acc:NP_493127]	growth, 		transferase activity, transferring groups other than amino-acyl groups, 
T09E11.5	T09E11.5	T09E11.5 [Source:RefSeq_peptide;Acc:NP_493128]			transferase activity, transferring groups other than amino-acyl groups, 
T09E11.4	T09E11.4	T09E11.4 [Source:RefSeq_peptide;Acc:NP_493129]			transferase activity, transferring groups other than amino-acyl groups, 
T09E11.12	T09E11.12	T09E11.12 [Source:RefSeq_peptide;Acc:NP_001076611]			
T09E11.6	T09E11.6	T09E11.6 [Source:RefSeq_peptide;Acc:NP_493130]		membrane, 	acetylglucosaminyltransferase activity, 
T09E11.3	T09E11.3	T09E11.3 [Source:RefSeq_peptide;Acc:NP_493131]			
T15D6.1	T15D6.1	T15D6.1 [Source:RefSeq_peptide;Acc:NP_493132]			
T15D6.4	T15D6.4	T15D6.4 [Source:RefSeq_peptide;Acc:NP_493133]			
gly-17	T15D6.3	gly-17 encodes a protein similar to 2/I N-acetylglucosaminyltransferase. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
gly-16	T15D6.2	gly-16 encodes a protein similar to 2/I N-acetylglucosaminyltransferase. gly-16 is expressed in the seam cells during embryonic stages. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
T15D6.5	T15D6.5	T15D6.5 [Source:RefSeq_peptide;Acc:NP_493136]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
nhr-77	T15D6.6	Nuclear hormone receptor family member nhr-77. [Source:Uniprot/SWISSPROT;Acc:O02316]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
T15D6.7	T15D6.7	T15D6.7 [Source:RefSeq_peptide;Acc:NP_493138]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
T15D6.8	T15D6.8	T15D6.8 [Source:RefSeq_peptide;Acc:NP_493139]			
T15D6.9	T15D6.9	T15D6.9 [Source:RefSeq_peptide;Acc:NP_493140]			
T15D6.10	T15D6.10	T15D6.10 [Source:RefSeq_peptide;Acc:NP_493141]			
T15D6.11	T15D6.11	T15D6.11 [Source:RefSeq_peptide;Acc:NP_493142]			
T15D6.12	T15D6.12	T15D6.12 [Source:RefSeq_peptide;Acc:NP_493143]			
E03H4.2	E03H4.2	E03H4.2 [Source:RefSeq_peptide;Acc:NP_493145]	locomotory behavior, 		
E03H4.3	E03H4.3	E03H4.3 [Source:RefSeq_peptide;Acc:NP_493146]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
E03H4.4	E03H4.4	E03H4.4 [Source:RefSeq_peptide;Acc:NP_493147]			
E03H4.5	E03H4.5	E03H4.5 [Source:RefSeq_peptide;Acc:NP_493148]			
nhr-174	E03H4.6	Nuclear hormone receptor family member nhr-174. [Source:Uniprot/SWISSPROT;Acc:O17748]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, protease inhibitor activity, 
E03H4.7	E03H4.7	E03H4.7 [Source:RefSeq_peptide;Acc:NP_493150]			transferase activity, transferring groups other than amino-acyl groups, 
E03H4.8	E03H4.8	E03H4.8 [Source:RefSeq_peptide;Acc:NP_493151]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, positive regulation of growth rate, 	membrane coat, 	protein transporter activity, protein binding, structural molecule activity, 
E03H4.9	E03H4.9				
clec-17	E03H4.10	C-type LECtin family member (clec-17) [Source:RefSeq_peptide;Acc:NP_493152]			sugar binding, 
E03H4.11	E03H4.11	E03H4.11 [Source:RefSeq_peptide;Acc:NP_493153]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
E03H4.12	E03H4.12	E03H4.12 [Source:RefSeq_peptide;Acc:NP_493154]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
nhr-89	E03H4.13	Nuclear hormone receptor family member nhr-89. [Source:Uniprot/SWISSPROT;Acc:O02235]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-169	C54C8.1	Nuclear hormone receptor family member nhr-169. [Source:Uniprot/SWISSPROT;Acc:O17706]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
C54C8.2	C54C8.2	C54C8.2 [Source:RefSeq_peptide;Acc:NP_493157]			
C54C8.3	C54C8.3	C54C8.3 [Source:RefSeq_peptide;Acc:NP_493158]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
C54C8.4	C54C8.4	C54C8.4 [Source:RefSeq_peptide;Acc:NP_493159]			
C54C8.5	C54C8.5	C54C8.5 [Source:RefSeq_peptide;Acc:NP_493160]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
lys-9	C54C8.6	LYSozyme family member (lys-9) [Source:RefSeq_peptide;Acc:NP_493161]			
C54C8.12	C54C8.12	C54C8.12 [Source:RefSeq_peptide;Acc:NP_001021061]			
C54C8.8	C54C8.8				
clec-11	C54C8.7	C-type LECtin family member (clec-11) [Source:RefSeq_peptide;Acc:NP_493162]			sugar binding, 
nlp-39	C54C8.9	Neuropeptide-Like Protein family member (nlp-39) [Source:RefSeq_peptide;Acc:NP_493163]	embryonic development ending in birth or egg hatching, 		
gly-15	C54C8.11	gly-15 encodes a protein similar to 2/I N-acetylglucosaminyltransferase. gly-15 expressed only in cellular processes that are probably part of the secretory network of the G2 gland cells. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
T27F6.1	T27F6.1	T27F6.1 [Source:RefSeq_peptide;Acc:NP_493165]		membrane, 	acetylglucosaminyltransferase activity, 
clec-12	T27F6.2	C-type LECtin family member (clec-12) [Source:RefSeq_peptide;Acc:NP_493166]			sugar binding, 
T27F6.9	T27F6.9				
T27F6.4	T27F6.4	T27F6.4 [Source:RefSeq_peptide;Acc:NP_493167]			
prs-2	T27F6.5	Prolyl tRNA Synthetase family member (prs-2) [Source:RefSeq_peptide;Acc:NP_001040689]	translation, tRNA aminoacylation for protein translation, prolyl-tRNA aminoacylation, biological_process, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, proline-tRNA ligase activity, 
T27F6.6	T27F6.6	Putative neutral sphingomyelinase (EC 3.1.4.12). [Source:Uniprot/SWISSPROT;Acc:O45870]			
T27F6.7	T27F6.7	T27F6.7 [Source:RefSeq_peptide;Acc:NP_493170]			
T27F6.8	T27F6.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
K11D2.1	K11D2.1	K11D2.1 [Source:RefSeq_peptide;Acc:NP_493172]			
asah-1	K11D2.2	K11D2.2 is orthologous to the human gene N-ACYLSPHINGOSINE AMIDOHYDROLASE (ASAH. OMIM:228000), which when mutated leads to Farber lipogranulomatosis. [Source: WormBase]	determination of adult life span, 		protein binding, 
unc-101	K11D2.3	unc-101 encodes an adaptin orthologous to the mu1-I subunit of adaptor protein complex 1 (AP-1) that is involved in motility, egg-laying, negative regulation of LET-23 / EGF-receptor signalling, and localization of the neuronal receptors ODR-10 and GLR-1. it is broadly expressed. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, ciliary or flagellar motility, locomotory behavior, vulval development, 	clathrin adaptor complex, membrane coat, flagellin-based flagellum, AP-1 adaptor complex, 	protein transporter activity, protein binding, motor activity, molecular_function, 
K11D2.5	K11D2.5	K11D2.5 [Source:RefSeq_peptide;Acc:NP_001021568]			
K11D2.4	K11D2.4	K11D2.4a [Source:RefSeq_peptide;Acc:NP_001040677]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
pri-2	W02D9.1	pri-2 encodes a homolog of the DNA polymerase alpha-primase subunit C that is required in embryos for the normal timing of embryonic cell divisions (much as DIV-1 is) and for normal mitosis in the germline. [Source: WormBase]	DNA replication, synthesis of RNA primer, embryonic development ending in birth or egg hatching, 	alpha DNA polymerase:primase complex, 	DNA primase activity, 
W02D9.2	W02D9.2	W02D9.2 [Source:RefSeq_peptide;Acc:NP_493177]	embryonic development ending in birth or egg hatching, 		
W02D9.3	W02D9.3	W02D9.3 [Source:RefSeq_peptide;Acc:NP_493178]	regulation of transcription, DNA-dependent, chromosome segregation, 		DNA binding, 
W02D9.4	W02D9.4	W02D9.4 [Source:RefSeq_peptide;Acc:NP_493179]			
W02D9.10	W02D9.10	W02D9.10 [Source:RefSeq_peptide;Acc:NP_493180]			
W02D9.9	W02D9.9	W02D9.9 [Source:RefSeq_peptide;Acc:NP_493181]			
W02D9.8	W02D9.8	W02D9.8 [Source:RefSeq_peptide;Acc:NP_493182]	protein secretion, 	integral to membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
W02D9.7	W02D9.7	W02D9.7 [Source:RefSeq_peptide;Acc:NP_493183]			
W02D9.6	W02D9.6	W02D9.6 [Source:RefSeq_peptide;Acc:NP_493184]			
W02D9.5	W02D9.5	W02D9.5 [Source:RefSeq_peptide;Acc:NP_493185]			structural molecule activity, 
C49G9.2	C49G9.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5PEW9]			
C49G9.1	C49G9.1	C49G9.1 [Source:RefSeq_peptide;Acc:NP_493186]	biological_process, 		
dlk-1	F33E2.2	dlk-1 encodes a homolog of mammalian mitogen-activated protein kinase kinase kinase 12. DLK-1 is dispensable for embryonic development and gross morphology in mass RNAi screens. [Source: WormBase]	protein amino acid phosphorylation, biological_process, regulation of synapse organization and biogenesis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F33E2.3	F33E2.3	F33E2.3 [Source:RefSeq_peptide;Acc:NP_493188]			sugar binding, 
F33E2.4	F33E2.4	F33E2.4 [Source:RefSeq_peptide;Acc:NP_493189]			
F33E2.8	F33E2.8				
F33E2.7	F33E2.7	F33E2.7 [Source:RefSeq_peptide;Acc:NP_001021446]			
F33E2.6	F33E2.6	F33E2.6 [Source:RefSeq_peptide;Acc:NP_493190]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F33E2.5	F33E2.5	F33E2.5 [Source:RefSeq_peptide;Acc:NP_493191]			
T07D10.8	T07D10.8				
T07D10.t1	T07D10.t1				
T07D10.1	T07D10.1	T07D10.1 [Source:RefSeq_peptide;Acc:NP_493192]			
T07D10.2	T07D10.2	T07D10.2 is orthologous to the human gene VASOPRESSIN RECEPTOR TYPE 2 (AVPR2. OMIM:304800), which when mutated leads to nephrogenic diabetes insipidus. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, vasopressin receptor activity, purinergic nucleotide receptor activity, G-protein coupled, 
T07D10.6	T07D10.6	T07D10.6 [Source:RefSeq_peptide;Acc:NP_871818]			
T07D10.3	T07D10.3	T07D10.3 [Source:RefSeq_peptide;Acc:NP_493194]		intracellular, 	zinc ion binding, nucleic acid binding, 
clec-16	T07D10.5				
clec-15	T07D10.4	C-type LECtin family member (clec-13) [Source:RefSeq_peptide;Acc:NP_493197]			sugar binding, 
clec-13	H16D19.1	C-type LECtin family member (clec-13) [Source:RefSeq_peptide;Acc:NP_493197]			sugar binding, 
clec-14	H16D19.2				
H16D19.3	H16D19.3	H16D19.3 [Source:RefSeq_peptide;Acc:NP_493199]		intracellular, 	zinc ion binding, nucleic acid binding, 
H16D19.4	H16D19.4	H16D19.4 [Source:RefSeq_peptide;Acc:NP_493200]			
H28O16.2	H28O16.2	H28O16.2 [Source:RefSeq_peptide;Acc:NP_493201]			
H28O16.1	H28O16.1	ATP synthase subunit alpha, mitochondrial precursor (EC 3.6.3.14). [Source:Uniprot/SWISSPROT;Acc:Q9XXK1]	ATP synthesis coupled proton transport, ATP biosynthetic process, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	ATP binding, protein binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, 
T26E3.7	T26E3.7	T26E3.7 [Source:RefSeq_peptide;Acc:NP_493203]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
T26E3.8	T26E3.8	T26E3.8 [Source:RefSeq_peptide;Acc:NP_493204]			
T26E3.11	T26E3.11				
T26E3.6	T26E3.6	T26E3.6 [Source:RefSeq_peptide;Acc:NP_493205]			
T26E3.5	T26E3.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T26E3.4	T26E3.4	T26E3.4 [Source:RefSeq_peptide;Acc:NP_493207]	positive regulation of growth rate, 		small conjugating protein ligase activity, 
par-6	T26E3.3	par-6 encodes a PDZ-domain-containing protein that is conserved in Drosophila and mammals. during development, maternally provided PAR-6 is required for establishing anterior-posterior polarity in the early C. elegans embryo. par-6 activity is also essential for determining proper apicobasal asymmetries associated with cell adhesion and gastrulation. PAR-6 localizes to the periphery of the newly fertilized embryo, and then becomes more prominent in the anterior periphery as well as the advancing cleavage furrow during the first mitosis. in germline precursors, PAR-6 localizes asymmetrically to sites that correspond to the future EMS and C blastomeres. in somatic cells, by the end of the four-cell stage, PAR-6 is seen as a 'cap' centered on the apical surface. in embryos, PAR-6 colocalizes with PAR-3 and is mutually dependent upon PAR-3 and PKC-3 for proper localization, suggesting that these proteins may act in a complex to establish embryonic polarity. PAR-6 localization is also dependent upon wild-type activity of par-4. [Source: WormBase]	cell adhesion, embryonic development ending in birth or egg hatching, establishment of mitotic spindle localization, gonad development, gastrulation, establishment and/or maintenance of cell polarity, 	integral to membrane, cytoplasm, 	protein binding, 
ndx-1	T26E3.2	The ndx-1 gene encodes a NUDIX hydrolase. [Source: WormBase]			hydrolase activity, 
T26E3.10	T26E3.10	T26E3.10 [Source:RefSeq_peptide;Acc:NP_001021641]			
T26E3.1	T26E3.1	T26E3.1 [Source:RefSeq_peptide;Acc:NP_493210]			sugar binding, 
sra-25	T26E3.9	Serpentine receptor class alpha-25 (Protein sra-25). [Source:Uniprot/SWISSPROT;Acc:O17847]	sensory perception of chemical stimulus, ATP synthesis coupled electron transport, 	integral to membrane, 	NADH dehydrogenase (ubiquinone) activity, transmembrane receptor activity, 
sra-17	F28C12.1	Serpentine receptor class alpha-17 (Protein sra-17). [Source:Uniprot/SWISSPROT;Acc:O17842]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F28C12.6	F28C12.6	F28C12.6 [Source:RefSeq_peptide;Acc:NP_493213]			
sra-18	F28C12.2	Serpentine receptor class alpha-18 (Protein sra-18). [Source:Uniprot/SWISSPROT;Acc:O18689]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-19	F28C12.3				
sra-20	F28C12.4	Serpentine receptor class alpha-20 (Protein sra-20). [Source:Uniprot/SWISSPROT;Acc:O17844]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-21	F28C12.5	Serpentine receptor class alpha-21 (Protein sra-21). [Source:Uniprot/SWISSPROT;Acc:O18690]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-22	F28C12.7	Serpentine receptor class alpha-22 (Protein sra-22). [Source:Uniprot/SWISSPROT;Acc:O17846]	sodium ion transport, sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, sodium:amino acid symporter activity, 
sra-23	T06G6.1	Serpentine receptor class alpha-23 (Protein sra-23). [Source:Uniprot/SWISSPROT;Acc:O62367]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-24	T06G6.2	Serpentine receptor class alpha-24 (Protein sra-24). [Source:Uniprot/SWISSPROT;Acc:O62368]	small GTPase mediated signal transduction, sensory perception of chemical stimulus, 	integral to membrane, intracellular, 	guanyl-nucleotide exchange factor activity, transmembrane receptor activity, 
T06G6.11	T06G6.11		oviposition, 		
T06G6.3	T06G6.3	T06G6.3b [Source:RefSeq_peptide;Acc:NP_001021615]			protein binding, 
T06G6.4	T06G6.4	T06G6.4 [Source:RefSeq_peptide;Acc:NP_493223]			
T06G6.5	T06G6.5	T06G6.5 [Source:RefSeq_peptide;Acc:NP_493224]			nucleic acid binding, 
T06G6.6	T06G6.6	T06G6.6 [Source:RefSeq_peptide;Acc:NP_493225]			
srw-88	T06G6.7	Serpentine Receptor, class W family member (srw-88) [Source:RefSeq_peptide;Acc:NP_493226]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T06G6.12	T06G6.12	T06G6.12 [Source:RefSeq_peptide;Acc:NP_001021613]			
T06G6.8	T06G6.8	T06G6.8 [Source:RefSeq_peptide;Acc:NP_493227]	chromosome segregation, 		
pfd-3	T06G6.9	Probable prefoldin subunit 3. [Source:Uniprot/SWISSPROT;Acc:O18054]	protein folding, embryonic development ending in birth or egg hatching, 	prefoldin complex, 	unfolded protein binding, 
W02A11.1	W02A11.1	W02A11.1 [Source:RefSeq_peptide;Acc:NP_493229]	gamete generation, 		
W02A11.t1	W02A11.t1				
W02A11.2	W02A11.2	W02A11.2 [Source:RefSeq_peptide;Acc:NP_493230]			
W02A11.3	W02A11.3	W02A11.3 [Source:RefSeq_peptide;Acc:NP_493231]			protein binding, zinc ion binding, 
uba-2	W02A11.4	uba-2 encodes the C. elegans ortholog of Saccharomyces cerevisiae Uba2p and human ubiquitin-like 2 activating enzyme E1B. by homology, UBA-2 is predicted to form, with a regulatory subunit, AOS-1, a heterodimeric enzyme that activates the ubiquitin-like protein SMO-1/SUMO in preparation for its covalent attachment to target proteins to regulate their subcellular localization and/or stability. in C. elegans, UBA-2 is required for embryogenesis and vulval development, as well as for proper Hox gene regulation. uba-2/aos-1(RNAi) animals that survive embryogenesis show ectopic expression of EGL-5 and ectopic anterior sensory ray formation. [Source: WormBase]	protein modification process, ubiquitin cycle, oviposition, 		catalytic activity, small protein activating enzyme activity, 
bath-34	W02A11.5	BTB and MATH domain-containing protein 34. [Source:Uniprot/SWISSPROT;Acc:Q9XUM6]			protein binding, 
W02A11.6	W02A11.6		embryonic development ending in birth or egg hatching, 		
bath-35	W02A11.8	BTB and MATH domain containing family member (bath-35) [Source:RefSeq_peptide;Acc:NP_493235]	locomotory behavior, 		protein binding, 
amx-2	B0019.1	Putative uncharacterized protein amx-2. [Source:Uniprot/SPTREMBL;Acc:Q9XXU5]	electron transport, 		oxidoreductase activity, 
B0019.2	B0019.2	B0019.2 [Source:RefSeq_peptide;Acc:NP_493237]			
Y18D10A.26	Y18D10A.26	Y18D10A.26 [Source:RefSeq_peptide;Acc:NP_001021726]			
Y18D10A.1	Y18D10A.1	Y18D10A.1 [Source:RefSeq_peptide;Acc:NP_871800]	embryonic development ending in birth or egg hatching, 		DNA binding, 
Y18D10A.2	Y18D10A.2	Y18D10A.2 [Source:RefSeq_peptide;Acc:NP_493240]			
Y18D10A.3	Y18D10A.3	Y18D10A.3 [Source:RefSeq_peptide;Acc:NP_493241]			
Y18D10A.4	Y18D10A.4	Y18D10A.4 [Source:RefSeq_peptide;Acc:NP_493242]			
gsk-3	Y18D10A.5	Glycogen Synthase Kinase family member (gsk-3) [Source:RefSeq_peptide;Acc:NP_493243]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
nhx-8	Y18D10A.6	nhx-8 encodes two isoforms of a sodium/proton exchanger expressed intracellularly within hypodermal seam cells, pharyngeal muscles, pharyngeal-intestinal and intestinal-rectal valve cells, and vulval cells. nhx-8 has no obvious phenotype in mass RNAi screens. NHX-8 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of vesicular sodium for an intracellular proton. [Source: WormBase]	sodium ion transport, regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
ptr-17	Y18D10A.7	ptr-17 encodes a divergent ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-17 is required for normal adult alae formation. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
Y18D10A.8	Y18D10A.8	Y18D10A.8 [Source:RefSeq_peptide;Acc:NP_493246]			RNA binding, protein binding, 
Y18D10A.9	Y18D10A.9	Y18D10A.9 [Source:RefSeq_peptide;Acc:NP_493247]	embryonic development ending in birth or egg hatching, 		
Y18D10A.10	Y18D10A.10	Y18D10A.10 [Source:RefSeq_peptide;Acc:NP_493248]			sugar binding, 
Y18D10A.11	Y18D10A.11	Y18D10A.11 [Source:RefSeq_peptide;Acc:NP_493249]			protein binding, 
Y18D10A.24	Y18D10A.24	Y18D10A.24 [Source:RefSeq_peptide;Acc:NP_001021724]			sugar binding, 
Y18D10A.12	Y18D10A.12	Y18D10A.12 [Source:RefSeq_peptide;Acc:NP_493250]			sugar binding, 
Y18D10A.23	Y18D10A.23	Y18D10A.23 [Source:RefSeq_peptide;Acc:NP_493251]	amino acid transport, 	membrane, integral to membrane, 	
pad-1	Y18D10A.13	The pad-1 gene encodes a highly conserved, but unfamiliar, protein that is required for embryonic development. [Source: WormBase]	embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, 	proteinaceous extracellular matrix, 	ice binding, 
Y18D10A.16	Y18D10A.16	Y18D10A.16 [Source:RefSeq_peptide;Acc:NP_493253]	positive regulation of growth rate, 		
car-1	Y18D10A.17	car-1 encodes a putative RNA-binding protein orthologous to budding yeast Scd6p, fission yeast Sum2p, Drosophila TRAL, and human LSM14A and LSM14B. CAR-1 inhibits physiological apoptosis in oocytes, keeping it down to a normal level of ~50% in hermaphrodite gonads. independently of apoptosis, CAR-1 is also required for normal oogenesis, early embryonic cytokinesis, and normally organized endoplasmic reticulum (ER). CAR-1 has an N-terminal Sm-related domain that is dispensable for subcellular localization, but directly binds RNA and is critical for CAR-1's function. CAR-1 expressed in the germline. CAR-1 associates with CGH-1, DCAP-1, and CEY-2/3/4, in P granules and other cytoplasmic particles of the early embryo. CAR-1 also localizes to the mitotic spindle of dividing 1-cell embryos, and to ER. CAR-1 requires CGH-1 for normal localization in meiotic germ cells, and binds CGH-1 in an RNA-dependent manner. car-1(tm1753) or car-1(RNAi) embryos display abnormal cytokinesis, with aberrant cleavage furrow ingression and anaphase spindle structure, and mislocalized AIR-2, SPD-1, and ZEN-4. car-1(RNAi) also results in elevated (though not 100%) physiological germ cell apoptosis, reduced fertility, and failed oocyte diakinesis. maternal CAR-1 is sufficient to rescue car-1(tm1753) homozygotes through development to adulthood. in car-1(RNAi) animals, excess physiological apoptosis actually promotes fertility, since car-1(RNAi) hermaphrodites have larger brood sizes than those with apoptosis suppressed by ced-3(n717). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
fbxa-121	Y18D10A.18	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fkb-8	Y18D10A.25	fkb-8 encodes a predicted FKBP-type peptidylprolyl isomerase. [Source: WormBase]	proteolysis, protein folding, 	membrane, 	serine-type peptidase activity, 
fkb-2	Y18D10A.19	fkb-2 encodes a peptidylprolyl cis/trans isomerase homologous to the mammalian FK506 immunosuppressant-binding protein 1A (FKBP1A, OMIM:186945, mutations associated with myocardial noncompaction). by homology, FKB-2 could function in a number of processes including protein folding, signal transduction, and regulation of muscle contraction. however, the precise role of FKB-2 in C. elegans development and/or behavior is not yet known,. [Source: WormBase]	protein folding, 		ATP binding, ATPase activity, 
pfn-1	Y18D10A.20	Profilin-1. [Source:Uniprot/SWISSPROT;Acc:Q9XW16]	cytoskeleton organization and biogenesis, embryonic development ending in birth or egg hatching, 	actin cytoskeleton, 	actin binding, 
Y18D10A.21	Y18D10A.21	Y18D10A.21 [Source:RefSeq_peptide;Acc:NP_493259]			
Y18D10A.22	Y18D10A.22	Y18D10A.22 [Source:RefSeq_peptide;Acc:NP_001021723]			phospholipid binding, 
tag-138	F08A8.6	Temporarily Assigned Gene name family member (tag-138) [Source:RefSeq_peptide;Acc:NP_493260]	protein amino acid phosphorylation, glycogen biosynthetic process, 	phosphorylase kinase complex, 	ATP binding, calmodulin binding, phospholipid binding, 
F08A8.1	F08A8.1	F08A8.1 is orthologous to the human gene ACYL-CoA OXIDASE 1, PALMITOYL (ACOX1. OMIM:264470), which when mutated leads to pseudoneonatal adrenoleukodystrophy. [Source: WormBase]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F08A8.2	F08A8.2	F08A8.2 [Source:RefSeq_peptide;Acc:NP_493262]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F08A8.3	F08A8.3	F08A8.3 [Source:RefSeq_peptide;Acc:NP_493263]	metabolic process, electron transport, fatty acid metabolic process, fatty acid beta-oxidation, 	peroxisome, 	FAD binding, acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F08A8.4	F08A8.4	F08A8.4 [Source:RefSeq_peptide;Acc:NP_493264]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F08A8.8	F08A8.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2X4]			
F08A8.5	F08A8.5	F08A8.5 [Source:RefSeq_peptide;Acc:NP_493265]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
fbxa-101	F08A8.7	F-box A protein family member (fbxa-101) [Source:RefSeq_peptide;Acc:NP_493266]			
fbxa-140	C47B2.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C47B2.2	C47B2.2	C47B2.2a [Source:RefSeq_peptide;Acc:NP_493269]			uracil phosphoribosyltransferase activity, 
tba-2	C47B2.3	tba-2 encodes a tubulin with similarity to the murine alpha-2 chain. in small scale assays tba-1(RNAi) has no phenotype and was found to function redundantly with its isotype tba-1 to form spindle structures in embryos with the tbb-1 and tbb-2 beta-isotypes. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, centrosome localization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
pbs-2	C47B2.4	Proteasome Beta Subunit family member (pbs-2) [Source:RefSeq_peptide;Acc:NP_493271]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
eif-6	C47B2.5	eif-6 encodes the C. elegans ortholog of vertebrate anti-association factor eIF6 and Saccharomyces cerevisiae TIF6. EIF-6 is required for lin-4 miRNA-mediated repression of lin-14 and lin-28 mRNA and protein levels and in addition, is required for normal rates of growth and control of cell division in the germline. by homology to eIF6, EIF-6 is likely required for ribosome biogenesis, suggesting a link between ribosome assembly and several processes, including miRNA-mediated gene silencing, germline proliferation, and regulation of growth rates. [Source: WormBase]	mature ribosome assembly, positive regulation of growth rate, 		ribosome binding, 
prx-11	C47B2.8	PeRoXisome assembly factor family member (prx-11) [Source:RefSeq_peptide;Acc:NP_493273]	defense response, 		
gale-1	C47B2.6	gale-1 encodes a putative UDP-galactose-4-epimerase, orthologous to human GALE (OMIM:606953, mutated in galactose epimerase deficiency). GALE-1 is thought to interconvert UDP-N-acetylglucosamine and UDP-N-acetylgalactosamine at the end of the hexosamine pathway. gale-1 is expressed in neurons, intestine and the developing reproductive system, but has no observed function in mass RNAi assays. [Source: WormBase]	biosynthetic process, cellular metabolic process, carbohydrate metabolic process, galactose metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, 		protein binding, catalytic activity, coenzyme binding, UDP-glucose 4-epimerase activity, racemase and epimerase activity, acting on carbohydrates and derivatives, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
selb-1	C47B2.7	C47B2.7 encodes an ortholog of the mammalian selenocysteine-specific elongation factor SelB (e.g., murine mSelB). mSelB binds GTP, recognizes the Sec-tRNA(Sec) in vitro and in vivo, and is required for efficient selenoprotein translation in vivo, but is unable to bind specifically the eukaryotic SECIS RNA hairpin (apparently requiring at least one other specialized protein). [Source: WormBase]			GTP binding, GTPase activity, 
C47B2.9	C47B2.9	C47B2.9 [Source:RefSeq_peptide;Acc:NP_493277]			RNA binding, 
nlp-15	CC4.2	Neuropeptide-Like Protein family member (nlp-15) [Source:RefSeq_peptide;Acc:NP_493278]			
smu-1	CC4.3	Suppressor of Mec and Unc defects family member (smu-1) [Source:RefSeq_peptide;Acc:NP_493279]			
pmr-1	ZK256.1	The pmr-1 gene encodes a Golgi P-type ATPase Ca^2+/Mn^2+-pump. mutations in its human ortholog, ATP2C1, cause Hailey-Hailey disease (OMIM:169600). [Source: WormBase]	transport, metabolic process, response to stress, calcium ion transport, cation transport, proton transport, response to manganese ion, 	membrane, integral to membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, calcium-transporting ATPase activity, 
W05B5.4	W05B5.4	W05B5.4 [Source:RefSeq_peptide;Acc:NP_001040697]			
W05B5.1	W05B5.1	W05B5.1 [Source:RefSeq_peptide;Acc:NP_493282]			
W05B5.2	W05B5.2	W05B5.2 [Source:RefSeq_peptide;Acc:NP_493283]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, purinergic nucleotide receptor activity, G-protein coupled, 
nhr-85	W05B5.3	nhr-85 encodes a nuclear receptor of the NR1 subfamily that is orthologous to the insect E75 nuclear receptors that regulate molting and metamorphosis, and human NR1D1, which is involved in mammalian circadian rhythms. by homology, NHR-85 likely functions as a transcription factor that,based upon RNAi experiments, is required for development of the egg-laying system and formation of SDS-resistant dauer larvae. an nhr-85 reporter fusion is expressed in the hypodermis, the excretory and rectal epithelia, and the vulva. nhr-85 mRNA is expressed in an oscillating manner throughout larval development, in a pattern that is slightly irregular with respect to the timing of larval molts. [Source: WormBase]	regulation of transcription, DNA-dependent, dauer larval development, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y26D4A.2	Y26D4A.2	Y26D4A.2 [Source:RefSeq_peptide;Acc:NP_493285]			sugar binding, 
Y26D4A.4	Y26D4A.4	Y26D4A.4 [Source:RefSeq_peptide;Acc:NP_493286]			sugar binding, 
Y26D4A.3	Y26D4A.3	Y26D4A.3 [Source:RefSeq_peptide;Acc:NP_493287]			
Y26D4A.15	Y26D4A.15				
Y26D4A.16	Y26D4A.16				
Y26D4A.5	Y26D4A.5	Y26D4A.5 [Source:RefSeq_peptide;Acc:NP_493288]			
Y26D4A.17	Y26D4A.17	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2VA02]			
Y26D4A.18	Y26D4A.18				
Y26D4A.19	Y26D4A.19				
Y26D4A.6	Y26D4A.6	Y26D4A.6 [Source:RefSeq_peptide;Acc:NP_493289]			sugar binding, 
Y26D4A.12	Y26D4A.12	Y26D4A.12 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. Y26D4A.12 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. Y26D4A.12 has no obvious function in mass RNAi assays. [Source: WormBase]			
Y26D4A.8	Y26D4A.8	Y26D4A.8 [Source:RefSeq_peptide;Acc:NP_493290]			
Y26D4A.9	Y26D4A.9	Y26D4A.9 [Source:RefSeq_peptide;Acc:NP_493291]	DNA replication, phosphate metabolic process, 	cytoplasm, 	nucleotide binding, DNA binding, serine-type endopeptidase inhibitor activity, magnesium ion binding, 3'-5' exonuclease activity, inorganic diphosphatase activity, DNA-directed DNA polymerase activity, 
Y26D4A.13	Y26D4A.13	Y26D4A.13 [Source:RefSeq_peptide;Acc:NP_001021739]			
Y26D4A.14	Y26D4A.14	Y26D4A.14 [Source:RefSeq_peptide;Acc:NP_001021740]			
Y26D4A.10	Y26D4A.10	Y26D4A.10 [Source:RefSeq_peptide;Acc:NP_493292]			
C17H1.2	C17H1.2	C17H1.2 [Source:RefSeq_peptide;Acc:NP_493294]			
C17H1.3	C17H1.3	C17H1.3 [Source:RefSeq_peptide;Acc:NP_493295]			
C17H1.11	C17H1.11				
C17H1.14	C17H1.14	C17H1.14 [Source:RefSeq_peptide;Acc:NP_001040637]			
C17H1.4	C17H1.4	C17H1.4 [Source:RefSeq_peptide;Acc:NP_493296]			
C17H1.5	C17H1.5	C17H1.5 [Source:RefSeq_peptide;Acc:NP_493297]			
C17H1.1	C17H1.1				
C17H1.9	C17H1.9	C17H1.9 [Source:RefSeq_peptide;Acc:NP_001021003]			
C17H1.13	C17H1.13	C17H1.13 [Source:RefSeq_peptide;Acc:NP_001040636]	vesicle-mediated transport, 	membrane, 	protein binding, 
C17H1.12	C17H1.12				
C17H1.8	C17H1.8	C17H1.8 [Source:RefSeq_peptide;Acc:NP_493299]	vesicle-mediated transport, 	membrane, 	protein binding, 
C17H1.6	C17H1.6	C17H1.6 [Source:RefSeq_peptide;Acc:NP_493300]			
C17H1.10	C17H1.10	C17H1.10 [Source:RefSeq_peptide;Acc:NP_001021002]			
C17H1.7	C17H1.7	C17H1.7 [Source:RefSeq_peptide;Acc:NP_493301]			
F22G12.1	F22G12.1	F22G12.1 [Source:RefSeq_peptide;Acc:NP_493302]	ciliary or flagellar motility, 	flagellin-based flagellum, 	motor activity, 
F22G12.7	F22G12.7	F22G12.7 [Source:RefSeq_peptide;Acc:NP_001040652]			
F22G12.8	F22G12.8	F22G12.8 [Source:RefSeq_peptide;Acc:NP_001040653]			
F22G12.3	F22G12.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	reproduction, 		
F22G12.4	F22G12.4	F22G12.4 [Source:RefSeq_peptide;Acc:NP_493305]	embryonic development ending in birth or egg hatching, 		zinc ion binding, 
F22G12.t2	F22G12.t2				
F22G12.6	F22G12.6	F22G12.6 [Source:RefSeq_peptide;Acc:NP_493306]			protein binding, 
F22G12.t1	F22G12.t1				
F22G12.5	F22G12.5	F22G12.5 [Source:RefSeq_peptide;Acc:NP_493307]			GTP binding, guanyl-nucleotide exchange factor activity, GTPase binding, 
F17B5.1	F17B5.1	F17B5.1a [Source:RefSeq_peptide;Acc:NP_001040650]			
F17B5.2	F17B5.2	F17B5.2 [Source:RefSeq_peptide;Acc:NP_493309]			sugar binding, transferase activity, transferring groups other than amino-acyl groups, 
F17B5.8	F17B5.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2U7]			
F17B5.3	F17B5.3	F17B5.3 [Source:RefSeq_peptide;Acc:NP_493310]			sugar binding, 
F17B5.7	F17B5.7				
F17B5.4	F17B5.4	F17B5.4 [Source:RefSeq_peptide;Acc:NP_493311]			
F17B5.6	F17B5.6	F17B5.6 [Source:RefSeq_peptide;Acc:NP_001021393]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
F17B5.5	F17B5.5	F17B5.5 [Source:RefSeq_peptide;Acc:NP_493312]			sugar binding, 
ZK1225.1	ZK1225.1	ZK1225.1 [Source:RefSeq_peptide;Acc:NP_493313]			
ZK1225.2	ZK1225.2	ZK1225.2 [Source:RefSeq_peptide;Acc:NP_493314]		membrane, 	acetylglucosaminyltransferase activity, 
ZK1225.9	ZK1225.9				
ZK1225.10	ZK1225.10				
ZK1225.4	ZK1225.4	ZK1225.4 [Source:RefSeq_peptide;Acc:NP_493316]			
ZK1225.5	ZK1225.5	ZK1225.5 [Source:RefSeq_peptide;Acc:NP_493317]			
ssp-31	ZK1225.6	Sperm-specific class P protein 31. [Source:Uniprot/SWISSPROT;Acc:Q9XXL3]			protein binding, structural molecule activity, 
ZK1225.11	ZK1225.11				
ZK1225.12	ZK1225.12				
ZK1225.7	ZK1225.7				
ZK1225.8	ZK1225.8				
ZK1225.13	ZK1225.13				
ZK1053.1	ZK1053.1	ZK1053.1 [Source:RefSeq_peptide;Acc:NP_493319]			
ZK1053.2	ZK1053.2	ZK1053.2 [Source:RefSeq_peptide;Acc:NP_493320]			
scrm-2	ZK1053.5	scrm-2 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). in apoptotic germline cells, SCRM-2 is fully dispensable for normally rapid engulfment and largely dispensable for phosphatidylserine exposure. SCRM-2 does not bind WAH-1 in vitro, and scrm-2(tm650) mutants have no obvious phenotype. [Source: WormBase]			protein binding, 
ZK1053.7	ZK1053.7	ZK1053.7 [Source:RefSeq_peptide;Acc:NP_001040720]			
ZK1053.6	ZK1053.6	ZK1053.6 [Source:RefSeq_peptide;Acc:NP_493322]	cation transport, sensory perception of chemical stimulus, 	integral to membrane, 	cation transmembrane transporter activity, transmembrane receptor activity, 
ZK1053.4	ZK1053.4	ZK1053.4 [Source:RefSeq_peptide;Acc:NP_493323]			
ZK1053.3	ZK1053.3	ZK1053.3 [Source:RefSeq_peptide;Acc:NP_493324]			protein binding, 
F44F1.1	F44F1.1				
F44F1.2	F44F1.2	F44F1.2 [Source:RefSeq_peptide;Acc:NP_493326]			
F44F1.3	F44F1.3	F44F1.3 [Source:RefSeq_peptide;Acc:NP_493327]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
F44F1.5	F44F1.5	F44F1.5 [Source:RefSeq_peptide;Acc:NP_493328]			
F44F1.6	F44F1.6	F44F1.6a [Source:RefSeq_peptide;Acc:NP_493329]			
F44F1.4	F44F1.4	F44F1.4 [Source:RefSeq_peptide;Acc:NP_493331]			
vet-6	F44F1.7	vet-6 encodes a protein that contains a spectrin repeat. vet-6 is preferentially transcribed in embryos prior to gastrulation. [Source: WormBase]			protein binding, 
M01E5.1	M01E5.1	M01E5.1 [Source:RefSeq_peptide;Acc:NP_493333]			
M01E5.2	M01E5.2	M01E5.2 [Source:RefSeq_peptide;Acc:NP_493334]		intracellular, 	protein binding, GTP binding, 
M01E5.3	M01E5.3	M01E5.3 [Source:RefSeq_peptide;Acc:NP_493335]			
M01E5.4	M01E5.4	M01E5.4 [Source:RefSeq_peptide;Acc:NP_493336]			
top-1	M01E5.5	top-1 encodes the C. elegans DNA topoisomerase I ortholog. TOP-1 exhibits DNA topoisomerase I activity in vitro and in vivo, this activity is required for normal gonad, germline, and embryonic development. top-1 mRNA is expressed throughout the gonad and during early embryogenesis, with mRNA levels nearly gone by hatching. TOP-1 protein levels are highest in embryos and L1 larvae, decrease by the L3 larval stage and then increase again during L4 and adult stages. in meiotic cells, oocytes, and early embryos, TOP-1 localizes to nuclei, while in later embryos TOP-1 is found in gut nucleoli. during cell division of 1-, 2-, and 4-cell embryos, TOP-1 also localizes to centrosomes. [Source: WormBase]	DNA topological change, DNA unwinding during replication, morphogenesis of an epithelium, 	chromosome, 	DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, DNA topoisomerase type I activity, 
M01E5.t1	M01E5.t1				
NR_002607.1	M01E5.7	M01E5.7, snRNA [Source:RefSeq_dna;Acc:NR_002607]			
M01E5.6	M01E5.6	M01E5.6 [Source:RefSeq_peptide;Acc:NP_493339]	regulation of transcription, DNA-dependent, 		protein binding, transcription cofactor activity, 
T04D3.1	T04D3.1	T04D3.1 [Source:RefSeq_peptide;Acc:NP_493340]			
sdz-30	T04D3.2	SKN-1 Dependent Zygotic transcript family member (sdz-30) [Source:RefSeq_peptide;Acc:NP_493341]	positive regulation of growth rate, 		calcium ion binding, 
T04D3.8	T04D3.8	T04D3.8 [Source:RefSeq_peptide;Acc:NP_493342]			
T04D3.t4	T04D3.t4				
pde-1	T04D3.3	Probable 3',5'-cyclic phosphodiesterase pde-1 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:O18696]	signal transduction, 		catalytic activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, 
T04D3.t3	T04D3.t3				
T04D3.t1	T04D3.t1				
gcy-35	T04D3.4	Soluble guanylate cyclase gcy-35 (EC 4.6.1.2). [Source:Uniprot/SWISSPROT;Acc:O02298]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
T04D3.5	T04D3.5	T04D3.5 [Source:RefSeq_peptide;Acc:NP_493345]	growth, 		
T04D3.t2	T04D3.t2				
W08E3.2	W08E3.2	W08E3.2 [Source:RefSeq_peptide;Acc:NP_493346]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
W08E3.4	W08E3.4	W08E3.4 [Source:RefSeq_peptide;Acc:NP_493347]			
snr-2	W08E3.1	Probable small nuclear ribonucleoprotein-associated protein B (snRNP- B) (Sm protein B) (Sm-B) (SmB). [Source:Uniprot/SWISSPROT;Acc:P91918]	mRNA metabolic process, morphogenesis of an epithelium, 	ribonucleoprotein complex, 	
tag-210	W08E3.3	Putative GTP-binding protein tag-210. [Source:Uniprot/SWISSPROT;Acc:P91917]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, GTP binding, 
Y40B1A.1	Y40B1A.1	Y40B1A.1 [Source:RefSeq_peptide;Acc:NP_493350]			
Y40B1A.2	Y40B1A.2	Y40B1A.2 [Source:RefSeq_peptide;Acc:NP_493351]			protein binding, 
Y40B1A.5	Y40B1A.5	Y40B1A.5 [Source:RefSeq_peptide;Acc:NP_001021757]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y40B1A.3	Y40B1A.3	Y40B1A.3 [Source:RefSeq_peptide;Acc:NP_493352]			
sptf-3	Y40B1A.4	Specificity Protein) Transcription Factor family member (sptf-3) [Source:RefSeq_peptide;Acc:NP_493353]	post-embryonic body morphogenesis, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
C01A2.6	C01A2.6	C01A2.6 [Source:RefSeq_peptide;Acc:NP_493354]			
C01A2.5	C01A2.5	C01A2.5 [Source:RefSeq_peptide;Acc:NP_493355]	positive regulation of growth rate, 		
C01A2.3	C01A2.3	C01A2.3 [Source:RefSeq_peptide;Acc:NP_493356]	protein insertion into membrane, embryonic development ending in birth or egg hatching, 	integral to membrane, 	
C01A2.4	C01A2.4	C01A2.4 [Source:RefSeq_peptide;Acc:NP_493357]	protein transport, 		
C01A2.2	C01A2.2	C01A2.2 [Source:RefSeq_peptide;Acc:NP_493358]			
nlp-38	C01A2.7	Neuropeptide-Like Protein family member (nlp-38) [Source:RefSeq_peptide;Acc:NP_740928]			
NR_003183.1	C01A2.8	ZK402.6, miscRNA [Source:RefSeq_dna;Acc:NR_003183]			
C01A2.1	C01A2.1	C01A2.1 [Source:RefSeq_peptide;Acc:NP_493359]	signal transduction, positive regulation of growth rate, 	intracellular, 	
W05H12.2	W05H12.2	W05H12.2 [Source:RefSeq_peptide;Acc:NP_493360]		intracellular, 	nucleic acid binding, 3'-5' exonuclease activity, 
W05H12.1	W05H12.1	W05H12.1 [Source:RefSeq_peptide;Acc:NP_493361]		membrane, 	transmembrane receptor protein serine/threonine kinase activity, transforming growth factor beta receptor activity, 
fbxb-66	Y40B1B.3	F-box B protein family member (fbxb-66) [Source:RefSeq_peptide;Acc:NP_493362]			
Y40B1B.7	Y40B1B.7	Y40B1B.7 [Source:RefSeq_peptide;Acc:NP_493363]	embryonic development ending in birth or egg hatching, 		
Y40B1B.8	Y40B1B.8	Y40B1B.8 [Source:RefSeq_peptide;Acc:NP_493364]	transport, 	membrane, 	binding, 
Y40B1B.5	Y40B1B.5	Y40B1B.5 [Source:RefSeq_peptide;Acc:NP_493365]	positive regulation of growth rate, 		
spr-5	Y40B1B.6	Probable lysine-specific histone demethylase 1 (EC 1.-.-.-) (Suppressor of presenilin 5) (P110b homolog). [Source:Uniprot/SWISSPROT;Acc:Q9XWP6]	electron transport, 		protein binding, oxidoreductase activity, 
Y48G10A.6	Y48G10A.6	Y48G10A.6 [Source:RefSeq_peptide;Acc:NP_001021775]			
Y48G10A.4	Y48G10A.4	Y48G10A.4 [Source:RefSeq_peptide;Acc:NP_493368]	embryonic development ending in birth or egg hatching, 		
rpr-1	Y48G10A.7				
Y48G10A.3	Y48G10A.3	Y48G10A.3 [Source:RefSeq_peptide;Acc:NP_493369]	cell differentiation, 		
Y48G10A.2	Y48G10A.2	Y48G10A.2 [Source:RefSeq_peptide;Acc:NP_493370]			protein binding, 
Y48G10A.1	Y48G10A.1	Y48G10A.1 [Source:RefSeq_peptide;Acc:NP_493371]			
Y87G2A.17	Y87G2A.17	Y87G2A.17 [Source:RefSeq_peptide;Acc:NP_001021833]	intracellular signaling cascade, 		
ndx-8	Y87G2A.14	The ndx-8 gene encodes a peroxisomal CoA diphosphatase with catalytic activity towards CoA and its derivatives, that is functionally homologous to the S. cerevisiae PCD1 enzyme. more generally, NDX-8 protein belongs to the family of NUDIX hydrolases. [Source: WormBase]			hydrolase activity, 
Y87G2A.19	Y87G2A.19	Y87G2A.19 [Source:RefSeq_peptide;Acc:NP_001021835]			
Y87G2A.18	Y87G2A.18	Y87G2A.18 [Source:RefSeq_peptide;Acc:NP_001021834]	metal ion transport, 		metal ion binding, 
Y87G2A.1	Y87G2A.1	Y87G2A.1 [Source:RefSeq_peptide;Acc:NP_493373]	positive regulation of growth rate, 		
Y87G2A.20	Y87G2A.20	Y87G2A.20 [Source:RefSeq_peptide;Acc:NP_001021836]	regulation of transcription, DNA-dependent, nucleosome assembly, 	nucleus, chromatin, nucleosome, 	DNA binding, 
Y87G2A.2	Y87G2A.2	Y87G2A.2 [Source:RefSeq_peptide;Acc:NP_493374]	acyl-CoA metabolic process, 		acyl-CoA thioesterase activity, 
Y87G2A.3	Y87G2A.3	Y87G2A.3 [Source:RefSeq_peptide;Acc:NP_493375]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
aex-6	Y87G2A.4	aex-6 encodes a Rab small GTPase. aex-6 was identified in screens for defecation defective mutants and high-temperature-induced dauer formation mutants. aex-6 appears to act in the insulin branch of the dauer pathway. aex-6 is genetically required for two different steps of normal defecation in the hermaphrodite digestive tract. since its mutant phenotype resembles that induced by ablation of the interneuron AVL and the motor neuron DVB, aex-6 is likely to be required for the function or activation of these neurons rather than for any of their specific neurotransmitter systems. aex-6::gfp reporter fusions are expressed in neurons and in the intestine. in the nervous system, AEX-6 localizes to synapse-rich regions and partially colocalizes with synaptic vesicle-associated RAB-3. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, growth, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
vrs-2	Y87G2A.5	vrs-2 encodes a predicted cytoplasmic valyl-tRNA synthetase (ValRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of valine to its cognate tRNA and is thus required for protein biosynthesis. in C. elegans, VRS-2 activity is required for embryonic and germline development. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, valyl-tRNA aminoacylation, reproduction, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, valine-tRNA ligase activity, 
Y87G2A.16	Y87G2A.16	Y87G2A.16 [Source:RefSeq_peptide;Acc:NP_001021832]			
grd-15	Y87G2A.15	grd-15 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. GRD-15 is expressed in amphid socket cells. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. grd-15 has no obvious function in RNAi assays. [Source: WormBase]			
cyn-15	Y87G2A.6	cyn-15 encodes a little-characterized cyclophilin homolog. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
Y87G2A.7	Y87G2A.7	Y87G2A.7 [Source:RefSeq_peptide;Acc:NP_493379]			
gpi-1	Y87G2A.8	gpi-1 encodes two isoforms of a putative glucose 6-phosphate isomerase orthologous to human GPI (OMIM:172400, mutated in chronic hemolytic anemia). gpi-1 is required both for embryonic viability and (paradoxically) for normally short lifespan. gpi-1 is expressed in neurons and intestine. [Source: WormBase]	glycolysis, gluconeogenesis, embryonic development ending in birth or egg hatching, 		protein binding, glucose-6-phosphate isomerase activity, 
ubc-14	Y87G2A.9	UBiquitin Conjugating enzyme family member (ubc-14) [Source:RefSeq_peptide;Acc:NP_493381]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
Y87G2A.10	Y87G2A.10	Vacuolar protein sorting-associated protein 28 homolog. [Source:Uniprot/SWISSPROT;Acc:Q9NA26]	locomotory behavior, 		
Y87G2A.11	Y87G2A.11	Y87G2A.11 [Source:RefSeq_peptide;Acc:NP_493383]			
Y87G2A.12	Y87G2A.12	Y87G2A.12 [Source:RefSeq_peptide;Acc:NP_493384]			
Y87G2A.13	Y87G2A.13	Y87G2A.13 [Source:RefSeq_peptide;Acc:NP_493385]			
Y6B3A.1	Y6B3A.1	Y6B3A.1a [Source:RefSeq_peptide;Acc:NP_001021798]	regulation of ARF protein signal transduction, positive regulation of growth rate, 	intracellular, 	ARF guanyl-nucleotide exchange factor activity, 
W09C5.1	W09C5.1	W09C5.1 [Source:RefSeq_peptide;Acc:NP_493387]	reproduction, 	intracellular, 	
unc-59	W09C5.2	unc-59, by alternative splicing, encodes two septin isoforms required (like the septins UNC-61A/B) for normal axonal migration, distal tip cell migration, and postembryonic cytokinesis (at the cellular level) and for normal locomotion and formation of the postembryonic vulva, somatic gonad, and male tail (at the organismal level). both UNC-59 and UNC-61A/B are dispensable for embryonic cytokinesis and development, but are thought to be required for all postembryonic cytokinesis. UNC-59 and UNC-61A/B depend on each other for localization to the cytokinetic furrow. [Source: WormBase]	cell cycle, oviposition, morphogenesis of an epithelium, 		GTP binding, 
W09C5.3	W09C5.3				
ins-33	W09C5.4	ins-33 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-33 is one of 38 insulin-like peptides in C. elegans. loss of INS-33 function can result in embryonic lethality, slow growth, and lack of coordination. additionally, INS-33 appears to be a direct downstream target of LIN-14, a nuclear protein and key regulator of the temporal sequence of postembryonic developmental events. [Source: WormBase]	positive regulation of growth rate, 	extracellular region, 	hormone activity, 
W09C5.5	W09C5.5	W09C5.5 [Source:RefSeq_peptide;Acc:NP_493390]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
rpl-31	W09C5.6	rpl-31 encodes a large ribosomal subunit L31 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
W09C5.7	W09C5.7	W09C5.7 [Source:RefSeq_peptide;Acc:NP_493393]			
W09C5.8	W09C5.8	W09C5.8 [Source:RefSeq_peptide;Acc:NP_493394]	electron transport, positive regulation of growth rate, 		cytochrome-c oxidase activity, 
W09C5.9	W09C5.9	W09C5.9 [Source:RefSeq_peptide;Acc:NP_493395]			
W04A4.5	W04A4.5	W04A4.5 [Source:RefSeq_peptide;Acc:NP_493396]	positive regulation of growth rate, 		binding, 
W04A4.4	W04A4.4	W04A4.4 [Source:RefSeq_peptide;Acc:NP_493397]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
W04A4.3	W04A4.3	W04A4.3 [Source:RefSeq_peptide;Acc:NP_493398]			
W04A4.2	W04A4.2	W04A4.2 [Source:RefSeq_peptide;Acc:NP_493399]			
W04A4.6	W04A4.6	W04A4.6 [Source:RefSeq_peptide;Acc:NP_001021665]			
Y6B3B.1	Y6B3B.1	Y6B3B.1 [Source:RefSeq_peptide;Acc:NP_493400]			
Y6B3B.3	Y6B3B.3	Y6B3B.3 [Source:RefSeq_peptide;Acc:NP_493401]			
Y6B3B.2	Y6B3B.2				
hsd-1	Y6B3B.11	Y6B3B.11 [Source:RefSeq_peptide;Acc:NP_493402]	cellular metabolic process, steroid biosynthetic process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
lagr-1	Y6B3B.10	Temporarily Assigned Gene name family member (tag-160) [Source:RefSeq_peptide;Acc:NP_493403]		integral to membrane, 	
Y6B3B.9	Y6B3B.9	Y6B3B.9 [Source:RefSeq_peptide;Acc:NP_493404]	positive regulation of growth rate, 		
Y6B3B.7	Y6B3B.7	Y6B3B.7 [Source:RefSeq_peptide;Acc:NP_493406]			
Y6B3B.5	Y6B3B.5	Y6B3B.5a [Source:RefSeq_peptide;Acc:NP_001021801]	isoprenoid biosynthetic process, 		inositol or phosphatidylinositol phosphatase activity, 
Y6B3B.12	Y6B3B.12	Y6B3B.12 [Source:RefSeq_peptide;Acc:NP_001021800]			
Y6B3B.4	Y6B3B.4	Y6B3B.4 [Source:RefSeq_peptide;Acc:NP_493409]			
Y37H9A.1	Y37H9A.1	Y37H9A.1b [Source:RefSeq_peptide;Acc:NP_001021753]			
Y37H9A.3	Y37H9A.3	Coiled-coil and C2 domain-containing protein 1-like. [Source:Uniprot/SWISSPROT;Acc:Q9U2M8]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, DNA binding, ligand-dependent nuclear receptor activity, 
Y37H9A.2	Y37H9A.2	Y37H9A.2 [Source:RefSeq_peptide;Acc:NP_493411]			
ndx-4	Y37H9A.6	The ndx-4 gene encodes a homodimeric diadenosine tetraphosphate (Ap(4)A) hydrolase that belongs to the NUDIX hydrolase family. [Source: WormBase]	induction of apoptosis, 	cellular_component, 	hydrolase activity, bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) activity, bis(5'-nucleosyl)-tetraphosphatase activity, 
Y37H9A.4	Y37H9A.4				
Y37H9A.5	Y37H9A.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5HW97]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
W09G3.7	W09G3.7	W09G3.7b [Source:RefSeq_peptide;Acc:NP_001021672]	chromosome segregation, 		
tag-229	W09G3.3	Temporarily Assigned Gene name family member (tag-229) [Source:RefSeq_peptide;Acc:NP_001021670]			
W09G3.2	W09G3.2	W09G3.2 [Source:RefSeq_peptide;Acc:NP_493416]			
W09G3.8	W09G3.8	W09G3.8 [Source:RefSeq_peptide;Acc:NP_001021673]			
W09G3.6	W09G3.6	W09G3.6 [Source:RefSeq_peptide;Acc:NP_493417]			protein binding, zinc ion binding, magnesium ion binding, transferase activity, thiamin pyrophosphate binding, 
W09G3.1	W09G3.1	W09G3.1a [Source:RefSeq_peptide;Acc:NP_493418]			
fbxa-93	W09G3.5				
W04A8.1	W04A8.1	W04A8.1 encodes a protein weakly similar to human microcephalin (MCPH1. OMIM:607117, mutated in primary microcephaly). while their primary sequence similarity is very subtle (only being detectable with psi-BLAST on NCBI-nr, using C. briggsae CBG13622 as a query sequence), both W04A8.1 and microcephalin has similar ordering of BRCT domains (one N-terminal, two C-terminal). W04A8.1 has no obvious function in mass RNAi screens. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, intracellular, 	alpha2-adrenergic receptor activity, 
W04A8.2	W04A8.2	W04A8.2 [Source:RefSeq_peptide;Acc:NP_493421]			
W04A8.4	W04A8.4	W04A8.4 [Source:RefSeq_peptide;Acc:NP_493422]		intracellular, 	nucleic acid binding, 3'-5' exonuclease activity, 
W04A8.3	W04A8.3	W04A8.3 [Source:RefSeq_peptide;Acc:NP_493423]			
W04A8.5	W04A8.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
W04A8.6	W04A8.6	W04A8.6 [Source:RefSeq_peptide;Acc:NP_493425]			protein binding, 
taf-1	W04A8.7	The taf-1 gene encodes an ortholog of human TATA-binding protein associated factor TAF1L (TAFII250) that possesses histone acetyl transferase (HAT) activity and is a component of the TFIID general transcription factor that recognizes the transcription start site. TAF-1 is required for proper embryonic and larval development. [Source: WormBase]	embryonic development ending in birth or egg hatching, positive regulation of transcription from RNA polymerase II promoter, 	transcription factor TFIID complex, 	protein binding, 
Y71A12B.2	Y71A12B.2	Y71A12B.3 [Source:RefSeq_peptide;Acc:NP_493428]			
Y71A12B.3	Y71A12B.3	Y71A12B.3 [Source:RefSeq_peptide;Acc:NP_493428]			
trp-4	Y71A12B.4	TRP (transient receptor potential) channel family member (trp-4) [Source:RefSeq_peptide;Acc:NP_493429]	ion transport, calcium ion transport, 	membrane, 	ion channel activity, calcium channel activity, 
Y71A12B.5	Y71A12B.5	Y71A12B.5 [Source:RefSeq_peptide;Acc:NP_493430]			sugar binding, 
Y71A12B.6	Y71A12B.6	Y71A12B.6 [Source:RefSeq_peptide;Acc:NP_493431]			sugar binding, 
Y71A12B.8	Y71A12B.8	Y71A12B.8 [Source:RefSeq_peptide;Acc:NP_493433]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y71A12B.9	Y71A12B.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9GRV2]	ubiquitin-dependent protein catabolic process, 		zinc ion binding, ubiquitin thiolesterase activity, 
rps-6	Y71A12B.1	rps-6 encodes a small ribosomal subunit S6 protein. [Source: WormBase]	translation, reproduction, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y71A12B.10	Y71A12B.10	Y71A12B.10 [Source:RefSeq_peptide;Acc:NP_493436]			
Y71A12B.13	Y71A12B.13	Y71A12B.13a [Source:RefSeq_peptide;Acc:NP_001040710]	biological_process, 	intracellular, 	
Y71A12B.14	Y71A12B.14		embryonic development ending in birth or egg hatching, 		
Y71A12B.11	Y71A12B.11	Y71A12B.11 [Source:RefSeq_peptide;Acc:NP_493439]	cell adhesion, ossification, 		
Y71A12B.17	Y71A12B.17	Y71A12B.17 [Source:RefSeq_peptide;Acc:NP_001076624]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, thromboxane receptor activity, 
Y71A12B.15	Y71A12B.15	Y71A12B.15 [Source:RefSeq_peptide;Acc:NP_001021804]			protein binding, 
Y71A12B.18	Y71A12B.18				
Y71A12B.12	Y71A12B.12	Y71A12B.12a [Source:RefSeq_peptide;Acc:NP_001040708]			protein binding, 
ZC334.7	ZC334.7	ZC334.7 [Source:RefSeq_peptide;Acc:NP_001021848]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
ins-28	ZC334.9	ins-28 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-29	ZC334.10	ins-29 encodes predicted type-alpha insulin-like molecule that lacks a C peptide domain and does not have an A6/A11 disulfide bond. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-25	ZC334.8	ins-25 encodes predicted type-alpha insulin-like molecule that lacks a C peptide domain and does not have an A6/A11 disulfide bond. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-27	ZC334.11	ins-27 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
ZC334.12	ZC334.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYY1]			
ins-24	ZC334.3	ins-24 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-24 is one of 38 insulin-like peptides in C. elegans, but as loss of INS-24 function via RNA-mediated interference does not result in any abnormalities, the precise role of INS-24 in C. elegans development is not yet clear. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-30	ZC334.2	ins-30 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-26	ZC334.1	ins-26 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
nhr-276	Y71A12C.1	Nuclear Hormone Receptor family member (nhr-276) [Source:RefSeq_peptide;Acc:NP_493446]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
Y71A12C.2	Y71A12C.2	Y71A12C.2 [Source:RefSeq_peptide;Acc:NP_493447]			
smd-1	F47G4.7	S-adenosylmethionine decarboxylase proenzyme (EC 4.1.1.50) (AdoMetDC) (SamDC) [Contains: S-adenosylmethionine decarboxylase alpha chain; S- adenosylmethionine decarboxylase beta chain]. [Source:Uniprot/SWISSPROT;Acc:O02655]	spermine biosynthetic process, spermidine biosynthetic process, 		adenosylmethionine decarboxylase activity, 
F47G4.8	F47G4.8	F47G4.8 [Source:RefSeq_peptide;Acc:NP_493449]			
F47G4.1	F47G4.1	F47G4.1 [Source:RefSeq_peptide;Acc:NP_493450]			sugar binding, 
NR_003384.1	F47G4.9	F47G4.9, snoRNA [Source:RefSeq_dna;Acc:NR_003384]			
F47G4.6	F47G4.6	F47G4.6 [Source:RefSeq_peptide;Acc:NP_493451]	regulation of transcription, DNA-dependent, 		DNA binding, 
F47G4.5	F47G4.5	F47G4.5 encodes a paralog of MEI-2 that, like MEI-2, binds MEI-1 in vitro. F47G4.5 might thus be an alternative ligand of MEI-1 in vivo. [Source: WormBase]			
F47G4.4	F47G4.4	F47G4.4 encodes a paralog of MEI-2 that, like MEI-2, binds MEI-1 in vitro. F47G4.4 might thus be an alternative ligand of MEI-1 in vivo. [Source: WormBase]			protein binding, 
gpdh-1	F47G4.3	gpdh-1 encodes one of two C. elegans glycerol 3-phosphate dehydrogenases. although loss of gpdh-1 activity via large-scale RNAi screens results in no obvious defects, gpdh-1 mRNA expression is upregulated in response to hypertonicity, suggesting that GPDH-1 does play a role in osmotic stress adaptation in C. elegans. [Source: WormBase]	carbohydrate metabolic process, glycerol-3-phosphate metabolic process, glycerol-3-phosphate catabolic process, hyperosmotic salinity response, 	cytoplasm, glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, oxidoreductase activity, acting on CH-OH group of donors, glycerol-3-phosphate dehydrogenase (NAD+) activity, 
F47G4.2	F47G4.2	F47G4.2 [Source:RefSeq_peptide;Acc:NP_493455]			
fbxb-93	Y63D3A.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-56	Y63D3A.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-94	Y63D3A.11	F-box B protein family member (fbxb-94) [Source:RefSeq_peptide;Acc:NP_493458]			
fbxb-101	Y63D3A.3	F-box B protein family member (fbxb-101) [Source:RefSeq_peptide;Acc:NP_493459]			
fbxb-100	Y63D3A.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y63D3A.4	Y63D3A.4	Y63D3A.4 [Source:RefSeq_peptide;Acc:NP_493461]			protein binding, DNA binding, inositol or phosphatidylinositol phosphatase activity, 
tfg-1	Y63D3A.5	human TFG related family member (tfg-1) [Source:RefSeq_peptide;Acc:NP_493462]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
dnj-29	Y63D3A.6	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, biological_process, 		heat shock protein binding, unfolded protein binding, 
Y63D3A.7	Y63D3A.7	Y63D3A.7 encodes the C. elegans ortholog of the NDUFA2/B8 subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	biological_process, 		
Y63D3A.8	Y63D3A.8	Y63D3A.8 [Source:RefSeq_peptide;Acc:NP_493466]	phosphoenolpyruvate-dependent sugar phosphotransferase system, biological_process, 	integral to membrane, 	sugar:hydrogen ion symporter activity, 
K03D10.3	K03D10.3	The K03D10.3 gene encodes a MYST acetyltransferase orthologous to the Drosophila MALES-ABSENT-ON-THE-FIRST (MOF) and CG1894 proteins, the human MOF protein, and the S. cerevisiae SAS2 protein. [Source: WormBase]	chromatin assembly or disassembly, 	nucleus, chromatin, 	chromatin binding, 
kal-1	K03D10.1	kal-1 encodes a cell surface protein that contains a WAP-type protease inhibitor domain and Type III fibronectin domains and is the C. elegans ortholog of human KAL-1, mutated in the X-linked form of the neurological disorder Kallmann syndrome. in C. elegans, both kal-1 loss-of-function mutations and kal-1 overexpression result in similar phenotypes that indicate KAL-1 activity is required for epithelial morphogenesis and axon branching. kal-1 transcriptional reporters reveal expression beginning in the 50-cell stage embryo in 2-3 cells with later embryonic expression in at least 8-10 AB-derived ventral neuroblasts that are a substrate for migrating epidermal cells during ventral enclosure. later expression in larvae and adults is restricted to anterior neurons, including AIY, AIZ, RID, M5, ASI, and labial sensory neurons, ventral nerve cord motorneurons, midbody neurons HSN, CAN, and PVM, tail neurons DVB, DVC, and PDB, and the nonneuronal excretory cell as well as in uterine muscles. in the AIY interneurons, kal-1 is part of a gene battery whose expression is under the control of the CEH-10 and TTX-3 Paired and LIM-type homeodomains, respectively. [Source: WormBase]			protease inhibitor activity, 
C37A5.6	C37A5.6				
C37A5.5	C37A5.5				
fipr-23	C37A5.4	C37A5.4 [Source:RefSeq_peptide;Acc:NP_493469]			
C37A5.3	C37A5.3				
fipr-22	C37A5.2	C37A5.2 [Source:RefSeq_peptide;Acc:NP_493470]			
fipr-24	C37A5.8	C37A5.8 [Source:RefSeq_peptide;Acc:NP_493471]			
C37A5.1	C37A5.1	C37A5.1 [Source:RefSeq_peptide;Acc:NP_493472]		membrane, tight junction, 	structural molecule activity, 
C37A5.t1	C37A5.t1				
C37A5.7	C37A5.7	C37A5.7 [Source:RefSeq_peptide;Acc:NP_493473]			
pry-1	C37A5.9	PolyRaY family member (pry-1) [Source:RefSeq_peptide;Acc:NP_493474]	multicellular organismal development, negative regulation of vulval development, cell migration, 	intracellular, 	signal transducer activity, 
ZK849.1	ZK849.1	ZK849.1 [Source:RefSeq_peptide;Acc:NP_493476]			protein binding, 
ZK849.2	ZK849.2	ZK849.2a [Source:RefSeq_peptide;Acc:NP_001021877]			protein binding, identical protein binding, 
ZK849.6	ZK849.6	ZK849.6 [Source:RefSeq_peptide;Acc:NP_001021879]			
ZK849.5	ZK849.5	Uncharacterized protein ZK849.5. [Source:Uniprot/SWISSPROT;Acc:O18304]			
ZK849.4	ZK849.4	Uncharacterized protein ZK849.4. [Source:Uniprot/SWISSPROT;Acc:O18303]			
C49A1.2	C49A1.2	C49A1.2 [Source:RefSeq_peptide;Acc:NP_493480]			
C49A1.1	C49A1.1	C49A1.1 [Source:RefSeq_peptide;Acc:NP_493481]			
C49A1.3	C49A1.3	C49A1.3 [Source:RefSeq_peptide;Acc:NP_493482]			
eya-1	C49A1.4	eya-1 encodes a protein orthologous to the Eyes absent/Eya Drosophila protein which is involved in eye development and has protein tyrosine phosphatase . RNA interference and mutant studies indicate that eya-1 is involved in embryonic and larval tissue morphogenesis as well as larval viability. eya-1 mutants show increased embryonic cell deaths due to activation of the cell death pathway. eya-1 functions redundantly with vab-3/eyeless to control larval viability and anterior body morphogenesis. GFP studies show that eya-1 is expressed in a subset of nuclei during embryonic morphogenesis. the human genes EYA1 and EYA4, when mutated, lead to disease syndromes. [Source: WormBase]	multicellular organismal development, nematode larval development, post-embryonic body morphogenesis, 		protein binding, 
C49A1.9	C49A1.9	C49A1.9 [Source:RefSeq_peptide;Acc:NP_493484]			sugar binding, 
C49A1.5	C49A1.5	C49A1.5 [Source:RefSeq_peptide;Acc:NP_493485]			
C49A1.10	C49A1.10	C49A1.10 [Source:RefSeq_peptide;Acc:NP_493486]			
C49A1.6	C49A1.6	C49A1.6 [Source:RefSeq_peptide;Acc:NP_493487]			sugar binding, 
K04H8.1	K04H8.1	K04H8.1 [Source:RefSeq_peptide;Acc:NP_493489]			sugar binding, 
K04H8.2	K04H8.2	K04H8.2 [Source:RefSeq_peptide;Acc:NP_493490]			
K04H8.3	K04H8.3	K04H8.3 [Source:RefSeq_peptide;Acc:NP_493491]			
pes-7	F09C3.1	pes-7 encodes an IQGAP ortholog. IQGAP proteins bind actin and CLIP-170, effect activities of the Rho family GTPases Rac1 and Cdc42, and function in cytokinesis. PES-7 is required for completing meiosis and mitosis, and for germline formation and maintenance. IQGAP's alpha-actinin domain is related distantly to alpha-actinin domains in calponin, transgelin (SM22 alpha), and the proto-oncogene Vav. a pes-7 reporter is first expressed in the ventral nerve cord of the elongating embryo and in later stages of development is also expressed in all major ganglia, the vulva, and in the spermathecal valves. in the ventral nerve cord, pes-7 expression is detected in nuclei as well as in cell bodies and neural processes. [Source: WormBase]	small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, DNA topological change, 	intracellular, chromosome, 	ATP binding, GTPase activator activity, DNA binding, Ras GTPase activator activity, DNA topoisomerase (ATP-hydrolyzing) activity, 
F09C3.2	F09C3.2	F09C3.2 [Source:RefSeq_peptide;Acc:NP_493493]	metabolic process, 		catalytic activity, hydrolase activity, 
fbxb-69	F09C3.5	F-box B protein family member (fbxb-69) [Source:RefSeq_peptide;Acc:NP_493494]			
fbxb-68	F09C3.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxa-103	F09C3.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxb-67	F49B2.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-8	F49B2.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F49B2.3	F49B2.3	F49B2.3 [Source:RefSeq_peptide;Acc:NP_493500]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
F49B2.4	F49B2.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
src-2	F49B2.5	SRC oncogene related family member (src-2) [Source:RefSeq_peptide;Acc:NP_493502]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F49B2.6	F49B2.6	F49B2.6 [Source:RefSeq_peptide;Acc:NP_493503]	proteolysis, positive regulation of growth rate, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
Y105E8A.1	Y105E8A.1	Y105E8A.1 [Source:RefSeq_peptide;Acc:NP_740929]			protein binding, 
Y105E8A.2	Y105E8A.2	Y105E8A.2 [Source:RefSeq_peptide;Acc:NP_740930]			protein binding, 
Y105E8A.3	Y105E8A.3	Y105E8A.3 [Source:RefSeq_peptide;Acc:NP_740931]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
ech-7	Y105E8A.4	Enoyl-CoA Hydratase family member (ech-7) [Source:RefSeq_peptide;Acc:NP_740932]	metabolic process, 		catalytic activity, 
bbs-1	Y105E8A.5	BBS (Bardet-Biedl Syndrome) protein family member (bbs-1) [Source:RefSeq_peptide;Acc:NP_740933]			
Y105E8A.32	Y105E8A.32	Y105E8A.32 [Source:RefSeq_peptide;Acc:NP_001021690]			
unc-95	Y105E8A.6	unc-95 encodes a LIM domain-containing protein related to Drosophila and vertebrate paxillins. UNC-95 is required for locomotion and organization of thick and thin filaments in body wall muscle. by homology, UNC-95 may function as an anchor protein that links signaling and cytoskeletal proteins at focal adhesions. in vitro, UNC-95 interacts with RNF-5, a RING finger protein that may function as an E3 ligase to regulate UNC-95 levels via ubiquitin-mediated degradation. UNC-95 is expressed in body-wall and vulval muscles, and co-localizes with RNF-5 to muscle dense bodies (focal adhesion-like attachment sites). [Source: WormBase]	locomotory behavior, 		zinc ion binding, 
leat-1	Y105E8A.7	EATing: abnormal pharyngeal pumping family member (eat-18) [Source:RefSeq_peptide;Acc:NP_001021691]			calcium ion binding, 
Y105E8A.8	Y105E8A.8	Y105E8A.8 [Source:RefSeq_peptide;Acc:NP_740936]			
apg-1	Y105E8A.9	apg-1 encodes an adaptin: specifically, it encodes an ortholog of the gamma subunit of adaptor protein complex 1 (AP-1). [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, positive regulation of growth rate, 	clathrin adaptor complex, membrane coat, 	protein transporter activity, protein binding, 
Y105E8A.10	Y105E8A.10	Y105E8A.10a [Source:RefSeq_peptide;Acc:NP_001021680]			
Y105E8A.11	Y105E8A.11	Y105E8A.11 [Source:RefSeq_peptide;Acc:NP_740939]			protein binding, 
catp-1	Y105E8A.12	Putative uncharacterized protein catp-1 (Cation transporting ATPase). [Source:Uniprot/SPTREMBL;Acc:Q8WQB1]	transport, metabolic process, cation transport, proton transport, 	membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
Y105E8A.27	Y105E8A.27	Y105E8A.27 [Source:RefSeq_peptide;Acc:NP_001021687]			
Y105E8A.13	Y105E8A.13	Y105E8A.13 [Source:RefSeq_peptide;Acc:NP_740941]			
Y105E8A.14	Y105E8A.14	Y105E8A.14 [Source:RefSeq_peptide;Acc:NP_740943]			protein binding, zinc ion binding, 
Y105E8A.15	Y105E8A.15	Y105E8A.15 [Source:RefSeq_peptide;Acc:NP_740942]			
rps-20	Y105E8A.16	rps-20 encodes a small ribosomal subunit S20 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, small ribosomal subunit, ribosome, 	structural constituent of ribosome, 
ekl-4	Y105E8A.17	Enhancer of Ksr-1 Lethality family member (ekl-4) [Source:RefSeq_peptide;Acc:NP_740945]	negative regulation of transcription, positive regulation of growth rate, 	nucleus, 	DNA binding, 
Y105E8A.19	Y105E8A.19	Y105E8A.19 [Source:RefSeq_peptide;Acc:NP_740947]	translation, tRNA aminoacylation for protein translation, tyrosyl-tRNA aminoacylation, reproduction, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, tyrosine-tRNA ligase activity, 
Y105E8A.20	Y105E8A.20	Y105E8A.20 [Source:RefSeq_peptide;Acc:NP_740948]	translation, tRNA aminoacylation for protein translation, methionyl-tRNA aminoacylation, biological_process, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, methionine-tRNA ligase activity, 
Y105E8A.28	Y105E8A.28	Y105E8A.28 [Source:RefSeq_peptide;Acc:NP_001021688]			
Y105E8A.21	Y105E8A.21	Y105E8A.21 [Source:RefSeq_peptide;Acc:NP_740949]	DNA repair, 		DNA binding, 
exc-4	Y105E8A.22	exc-4 encodes a highly conserved member of the chloride intracellular channel (CLIC) family of anion channels. EXC-4 is required during early stages of excretory cell tubulogenesis and appears also to play a role in vulval and seam cell development, which subsequently affects viability, fertility, and locomotion. EXC-4 is localized to the apical/lumenal membrane of the excretory cell and is also expressed in the hypodermis, vulva, and rectal gland cell. [Source: WormBase]			voltage-gated chloride channel activity, 
tag-301	Y105E8A.26	Temporarily Assigned Gene name family member (tag-301) [Source:RefSeq_peptide;Acc:NP_001021685]			protein binding, 
Y105E8A.33	Y105E8A.33				
Y105E8A.23	Y105E8A.23	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q8WQA3]	transcription, 		DNA binding, DNA-directed RNA polymerase activity, 
Y105E8A.24	Y105E8A.24	Y105E8A.24a [Source:RefSeq_peptide;Acc:NP_001021683]	regulation of Rho protein signal transduction, biological_process, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
Y105E8A.29	Y105E8A.29	Y105E8A.29 [Source:RefSeq_peptide;Acc:NP_001021689]	biological_process, 		
Y105E8A.25	Y105E8A.25	Y105E8A.25 [Source:RefSeq_peptide;Acc:NP_740953]	biological_process, 		
Y105E8B.11	Y105E8B.11	Y105E8B.11 [Source:RefSeq_peptide;Acc:NP_001021701]			
lev-11	Y105E8B.1	lev-11 encodes tropomyosin, an actin-binding contractile structural protein orthologous to human TROPOMYOSIN 1 (TPM1. OMIM:191010), which when mutated leads to familial hypertrophic cardiomyopathy. LEV-11 is required for embryonic development, normal body morphology, and locomotion. expressed as multiple tissue-specific isoforms generated by alternative mRNA splicing and promoter use, LEV-11 is detected in several tissues including muscle, pharynx, intestine, and the germ line. [Source: WormBase]	signal transduction, potassium ion transport, negative regulation of multicellular organism growth, 	intracellular, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, structural constituent of cytoskeleton, 
exoc-8	Y105E8B.2	EXOCyst component family member (exoc-8) [Source:RefSeq_peptide;Acc:NP_001021703]	positive regulation of growth rate, 		
Y105E8B.7	Y105E8B.7	Y105E8B.7 [Source:RefSeq_peptide;Acc:NP_493542]	regulation of transcription, DNA-dependent, 	nucleus, 	
bath-40	Y105E8B.4	BTB and MATH domain-containing protein 40. [Source:Uniprot/SWISSPROT;Acc:Q9NF14]			protein binding, 
Y105E8B.3	Y105E8B.3	Y105E8B.3 [Source:RefSeq_peptide;Acc:NP_493544]	embryonic development ending in birth or egg hatching, 		ATP binding, protein serine/threonine kinase activity, 
Y105E8B.5	Y105E8B.5	The Y105E8B. [Source: WormBase]	purine ribonucleoside salvage, nucleoside metabolic process, 	cytoplasm, 	protein binding, hypoxanthine phosphoribosyltransferase activity, identical protein binding, 
Y105E8B.6	Y105E8B.6	Y105E8B.6 [Source:RefSeq_peptide;Acc:NP_493546]			
ero-1	Y105E8B.8	ero-1 encodes an endoplasmic reticulum oxidoreductase that affects ER-stress response and affects reactive oxygen species levels. [Source: WormBase]	growth, 		
Y105E8B.9	Y105E8B.9	Y105E8B.9 is orthologous to the human gene GLUTATHIONE TRANSFERASE ZETA 1 (MALEYLACETOACETATE ISOMERASE) (GUSB. OMIM:603758), which when mutated leads to disease. [Source: WormBase]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
Y105E8B.10	Y105E8B.10				
Y54E5A.1	Y54E5A.1	Y54E5A.1 [Source:RefSeq_peptide;Acc:NP_493549]			protein binding, oxidoreductase activity, 
Y54E5A.2	Y54E5A.2	Y54E5A.2 [Source:RefSeq_peptide;Acc:NP_493550]			
Y54E5A.3	Y54E5A.3	Y54E5A.3 [Source:RefSeq_peptide;Acc:NP_493551]			
npp-4	Y54E5A.4	Nuclear Pore complex Protein family member (npp-4) [Source:RefSeq_peptide;Acc:NP_493552]	positive regulation of growth rate, type I hypersensitivity, 		protein binding, structural constituent of nuclear pore, 
Y54E5A.5	Y54E5A.5	Y54E5A.5 [Source:RefSeq_peptide;Acc:NP_493553]			
Y54E5A.6	Y54E5A.6	Y54E5A.6 [Source:RefSeq_peptide;Acc:NP_493554]	intracellular protein transport, tRNA processing, 	intracellular, 	double-stranded RNA binding, oxidoreductase activity, catalytic activity, FAD binding, Rab escort protein activity, 
Y54E5A.7	Y54E5A.7	Y54E5A.7 [Source:RefSeq_peptide;Acc:NP_493555]			
Y54E5A.8	Y54E5A.8	Y54E5A.8a [Source:RefSeq_peptide;Acc:NP_493556]			
pbs-5	K05C4.1	Proteasome Beta Subunit family member (pbs-5) [Source:RefSeq_peptide;Acc:NP_493558]	ubiquitin-dependent protein catabolic process, phosphoenolpyruvate-dependent sugar phosphotransferase system, embryonic cleavage, 	proteasome core complex (sensu Eukaryota), 	sugar:hydrogen ion symporter activity, threonine endopeptidase activity, endopeptidase activity, 
K05C4.2	K05C4.2	K05C4.2 [Source:RefSeq_peptide;Acc:NP_493559]	locomotory behavior, 		
K05C4.11	K05C4.11	K05C4.11 [Source:RefSeq_peptide;Acc:NP_493560]			serine-type endopeptidase activity, 
K05C4.10	K05C4.10	K05C4.10 [Source:RefSeq_peptide;Acc:NP_493561]			
K05C4.9	K05C4.9	K05C4.9 [Source:RefSeq_peptide;Acc:NP_493562]			protein binding, 
K05C4.8	K05C4.8	K05C4.8 [Source:RefSeq_peptide;Acc:NP_493563]			
K05C4.4	K05C4.4	K05C4.4 [Source:RefSeq_peptide;Acc:NP_493564]	embryonic development ending in birth or egg hatching, 		
K05C4.7	K05C4.7	K05C4.7 [Source:RefSeq_peptide;Acc:NP_493565]			
hmp-2	K05C4.6	hmp-2 encodes a beta-catenin. HMP-2 activity is required during embryonic development for cell adhesion at adherens junctions, cell migration, and body morphogenesis. as a beta-catenin, HMP-2 likely functions solely as part of a cadherin-catenin complex, as in yeast two-hybrid assays, HMP-2 is the only C. elegans beta-catenin that binds HMP-1/alpha-catenin and HMR-1/cadherin. additionally, in the embryo, HMP-2 co-localizes to sites of epithelial cell contacts with HMP-1 and HMR-1/cadherin. however, despite its normal role in embryonic cell adhesion, HMP-2 can activate transcription and when overexpressed in vivo, can partially rescue vulval defects produced by loss of BAR-1/beta-catenin, suggesting that HMP-2 has retained the ability to interact with the Wnt signaling pathway. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
K05C4.5	K05C4.5	K05C4.5 [Source:RefSeq_peptide;Acc:NP_493567]	metabolic process, 		
K05C4.3	K05C4.3	K05C4.3 [Source:RefSeq_peptide;Acc:NP_493568]			
mtx-1	F39B2.11	Metaxin-1 homolog. [Source:Uniprot/SWISSPROT;Acc:O45503]	reproduction, 		protein binding, 
dnj-12	F39B2.10	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, 		heat shock protein binding, unfolded protein binding, 
rps-26	F39B2.6	rps-26 encodes a small ribosomal subunit S26 protein. by homology, RPS-26 is predicted to function in protein biosynthesis. in C. elegans, RPS-26 activity is required for embryonic, larval, and germline development, as well as normal locomotion and body morphology. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
F39B2.8	F39B2.8	F39B2.8 [Source:RefSeq_peptide;Acc:NP_493572]		membrane, 	metabotropic glutamate, GABA-B-like receptor activity, 
F39B2.7	F39B2.7	F39B2.7 [Source:RefSeq_peptide;Acc:NP_493573]	small GTPase mediated signal transduction, tRNA modification, 	intracellular, 	nucleotide binding, nucleoside-triphosphatase activity, GTP binding, GTPase activity, 
F39B2.5	F39B2.5	F39B2.5 [Source:RefSeq_peptide;Acc:NP_493574]	intracellular signaling cascade, 		
sur-2	F39B2.4	sur-2 encodes a novel protein that is orthologous to the Drosophila and human MED23 mediator subunits. sur-2 is a downstream component of the let-60-ras-mediated signaling pathway and likely functions by regulating transcription of genes essential for a number of developmental processes, including vulval development, larval development, and formation of the gonad and mail tail. sur-2 is expressed in all Pn.p cells from the mid-L1 through the L3 larval stage, and then in the vulval precursor cells as they divide, with strongest staining observed in the primary and secondary lineages. sur-2 is also expressed in embryonic and other larval stage cells, including the distal tip cells of the gonad. [Source: WormBase]	biological_process, 		
F39B2.3	F39B2.3	F39B2.3 [Source:RefSeq_peptide;Acc:NP_493577]			zinc ion binding, 
uev-1	F39B2.2	uev-1 encodes a ubiquitin-conjugating enzyme (UBC or E2) variant that contains the characteristic UBC motif, but lacks the critical active-site cysteine residue necessary for catalytic activity. as loss of UEV-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UEV-1 in C. elegans development and/or behavior is not yet known. UEV-1 does, however, interact with a number of proteins, such as UBC-13, that are likely involved in the response to DNA damage. thus, UEV-1 may play a role in ubiquitination and protein turnover in conjunction with DNA repair or the DNA damage checkpoint pathway. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
F39B2.1	F39B2.1	F39B2.1 [Source:RefSeq_peptide;Acc:NP_493579]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
K11B4.1	K11B4.1	K11B4.1 [Source:RefSeq_peptide;Acc:NP_493580]	embryonic development ending in birth or egg hatching, 		
K11B4.2	K11B4.2	UPF0402 protein K11B4.2. [Source:Uniprot/SWISSPROT;Acc:O45685]			
smp-1	Y54E5B.1	Semaphorin-1A precursor (CeSema). [Source:Uniprot/SWISSPROT;Acc:Q17330]	multicellular organismal development, 	membrane, 	receptor activity, 
Y54E5B.2	Y54E5B.2	Y54E5B.2 [Source:RefSeq_peptide;Acc:NP_493584]			
let-49	Y54E5B.3	let-49 encodes a putative mediator complex subunit zygotically required for postembryonic development and viability past larval stages, while being maternally required for germline and embryonic development. LET-49 is an ortholog of human CRSP9 (OMIM:605045) and of S. cerevisiae Med7p. Med7p is a component of a mediator complex that serves as a transcriptional coactivator, while CRSP9 mediates transcriptional activation by Sp1. [Source: WormBase]	vesicle-mediated transport, positive regulation of transcription, morphogenesis of an epithelium, 	membrane, nucleus, 	protein binding, transcription coactivator activity, 
ubc-16	Y54E5B.4	UBiquitin Conjugating enzyme family member (ubc-16) [Source:RefSeq_peptide;Acc:NP_493587]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
Y54E5B.5	Y54E5B.5				
srw-92	F32A7.1				
srw-93	F32A7.2				
tag-271	F32A7.3	Temporarily Assigned Gene name family member (tag-271) [Source:RefSeq_peptide;Acc:NP_493590]			sugar binding, 
F32A7.8	F32A7.8	F32A7.8 [Source:RefSeq_peptide;Acc:NP_001021439]			
F32A7.4	F32A7.4	F32A7.4 [Source:RefSeq_peptide;Acc:NP_493592]	embryonic development ending in birth or egg hatching, 		
F32A7.5	F32A7.5	F32A7.5b [Source:RefSeq_peptide;Acc:NP_001021437]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
aex-5	F32A7.6	an ortholog of calcium-dependent serine endoproteinases, the kex2/subtilisin-like proprotein convertase that affects defecation cycle and anterior body contractions. and is expressed in all muscle cells except pharyngeal muscles. [Source: WormBase]	proteolysis, positive regulation of growth rate, 	intracellular, 	subtilase activity, 
unc-54	F11C3.3	unc-54 encodes a muscle myosin class II heavy chain (MHC B). UNC-54 is the major myosin heavy chain expressed in C. elegans and is required for locomotion and egg-laying. in vivo and in vitro, UNC-54 interacts with ITR-1, an IP3 receptor, and this interaction may provide a link between calcium signaling and the muscle cytoskeleton. UNC-54 is a thick filament component that is expressed in multiple muscle cell classes including body wall, intestinal, anal depressor, and sphincter muscles as well as sex-specific muscles that develop postembryonically. [Source: WormBase]	post-embryonic body morphogenesis, muscle thick filament assembly, 	myosin complex, 	ATP binding, nucleotide binding, motor activity, 
str-245	F32A7.7	Seven TM Receptor family member (str-245) [Source:RefSeq_peptide;Acc:NP_493595]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
F11C3.1	F11C3.1	F11C3.1 [Source:RefSeq_peptide;Acc:NP_493597]			
unc-122	F11C3.2	unc-122 encodes a predicted type II transmembrane protein with extracellular collagen-like domains and a highly conserved olfactomedin (OLF) domain that is found in a family of secreted proteins involved in formation and function of nervous systems. UNC-122 is required for proper locomotion and for normal morphology of the DVB motorneuron, and may regulate neuromuscular function by acting in an aminergic/peptidergic pathway parallel to cholinergic neurotransmission. although mosaic analysis indicates that UNC-122 activity is required in muscle cells, the precise expression and localization patterns of UNC-122 are not yet known. [Source: WormBase]	phosphate transport, 	cytoplasm, 	
frm-1	ZK270.2	FERM domain (protein4.1-ezrin-radixin-moesin) family member (frm-1) [Source:RefSeq_peptide;Acc:NP_493600]		cytoplasm, cytoskeleton, extrinsic to membrane, 	protein binding, actin binding, structural molecule activity, cytoskeletal protein binding, 
ptr-23	ZK270.1	ptr-23 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-23 is strongly required for normal molting from L4 to adult stages (a role conserved in C. briggsae). PTR-23 is also required for normal male tail development, vulval morphogenesis, adult alae formation, and (partly) for endocytosis of yolk by oocytes. [Source: WormBase]	locomotory behavior, 	membrane, integral to membrane, 	hedgehog receptor activity, 
F21F12.1	F21F12.1	F21F12.1 [Source:RefSeq_peptide;Acc:NP_493604]			
kin-1	ZK909.2	kin-1 encodes multiple isoforms of a serine/threonine protein kinase that is orthologous to cAMP-dependent protein kinase (protein kinase A or PKA) catalytic subunits. KIN-1 is able to phosphorylate histone H2B in vitro and is associated with both particulate (~65%) and cytosolic (35%) cellular fractions. KIN-1 is expressed at low levels during embryogenesis, but its expression level increases in late embryogenesis, whereupon KIN-1 expression remains relatively high throughout larval and adult development. kin-1 mRNA levels, however, are fairly constant throughout development, suggesting that KIN-1 expression is regulated post-transcriptionally. as loss of kin-1 activity via large-scale RNAi screens results in no obvious defects, the precise role of kin-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein amino acid phosphorylation, morphogenesis of an epithelium, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZK909.3	ZK909.3	ZK909.3 [Source:RefSeq_peptide;Acc:NP_493608]			catalytic activity, 
fbxb-70	ZK909.5	F-box B protein family member (fbxb-70) [Source:RefSeq_peptide;Acc:NP_493609]			
ces-2	ZK909.4	ces-2 encodes a basic region leucine-zipper (bZIP) transcription factor, most similar in sequence and binding specificity to the PAR (proline- and acid-rich) subfamily of bZIP proteins. ces-2 is required to activate programmed cell death in the sister cells of the serotoninergic neurosecretory motor (NSM) neurons, and is transcriptionally inhibited by activated LET-60(G12V). [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, apoptosis, negative regulation of anti-apoptosis, 	nucleus, cellular_component, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
ZK909.6	ZK909.6	ZK909.6 [Source:RefSeq_peptide;Acc:NP_001021882]			
ZK337.2	ZK337.2	ZK337.2 [Source:RefSeq_peptide;Acc:NP_493611]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
tag-4	ZK337.4	tag-4 encodes a novel protein with low similarity to human putative splicing factor YT521 [Source: WormBase]			
ZK337.1	ZK337.1	ZK337.1b [Source:RefSeq_peptide;Acc:NP_493613]	metabolic process, peptide cross-linking, 	extracellular region, 	protein binding, transferase activity, endopeptidase inhibitor activity, protein-glutamine gamma-glutamyltransferase activity, 
nspd-11	ZK337.6				
mtd-1	ZK337.5	mtd-1 encodes a novel protein, with an N-terminal extracellular domain and a C-terminal transmembrane domain, that is expressed in touch receptor neurons. loss of mtd-1 function (by either RNAi or a deletion mutation) has no obvious phenotype alone, but specifically enhances touch insensitivity of the temperature-sensitive mec-6(u247). [Source: WormBase]	mechanosensory behavior, 		
F33H2.5	F33H2.5	F33H2.5 [Source:RefSeq_peptide;Acc:NP_493616]	DNA replication, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 	intracellular, 	nucleotide binding, zinc ion binding, DNA binding, nucleic acid binding, exonuclease activity, DNA-directed DNA polymerase activity, 
F33H2.6	F33H2.6	F33H2.6 [Source:RefSeq_peptide;Acc:NP_493617]	chromosome segregation, 		protein binding, binding, 
dog-1	F33H2.1	dog-1 encodes a predicted DEAH helicase, orthologous to the human BRCA1-binding protein BACH1 (OMIM:605882, mutated in early-onset breast cancer). DOG-1 is required for maintenance of polyguanine tracts of germline and somatic DNA, and is proposed to resolve the secondary structure that can occur in guanine-rich DNA during lagging-strand DNA synthesis. [Source: WormBase]	DNA repair, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, ATP-dependent helicase activity, ATP-dependent DNA helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
F33H2.2	F33H2.2	F33H2.2 [Source:RefSeq_peptide;Acc:NP_493619]	morphogenesis of an epithelium, 		
F33H2.7	F33H2.7	F33H2.7 [Source:RefSeq_peptide;Acc:NP_493620]			zinc ion binding, 
F33H2.8	F33H2.8	F33H2.8 [Source:RefSeq_peptide;Acc:NP_493621]	locomotory behavior, 		
F33H2.3	F33H2.3	Acidic leucine-rich nuclear phosphoprotein 32-related protein 1 (ANP32/acidic nuclear phosphoprotein-like protein 1). [Source:Uniprot/SWISSPROT;Acc:O62220]			protein binding, 
F31C3.2	F31C3.2	F31C3.2 encodes, by alternative splicing, two isoforms of a putative nucleotidyl tranferase orthologous to human PAPD4, and paralogous to GLD-2 and MUT-2. although it is homologous to GLD-2, CID-1, and related polynucleotide polymerases, F31C3.2 neither promotes mRNA translation nor exhibits poly(A) or poly(U) activity on mRNA substrates when tested in Xenopus oocytes. in mass RNAi assays, F31C3.2 is required for normal meiotic chromosome segregation. [Source: WormBase]	chromosome segregation, 		protein binding, 
cyn-5	F31C3.1	cyn-5 encodes a cyclophilin that is functional in vitro and is predicted to be a secreted protein that is structurally most similar to human cyclophilin B. expressed in the intestine. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
F31C3.3	F31C3.3	F31C3.3 [Source:RefSeq_peptide;Acc:NP_493625]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
F31C3.4	F31C3.4	F31C3.4 [Source:RefSeq_peptide;Acc:NP_493626]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
F31C3.5	F31C3.5	Probable DNA replication complex GINS protein PSF2. [Source:Uniprot/SWISSPROT;Acc:O62193]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, 	
F31C3.6	F31C3.6	F31C3.6a [Source:RefSeq_peptide;Acc:NP_001021435]			
rrn-3.56	F31C3.10				
rrn-1.1	F31C3.7				
rrn-2.1	F31C3.11				
rrn-3.1	F31C3.9				
rrn-1.2	F31C3.8				
2L52.1	2L52.1	2L52.1 [Source:RefSeq_peptide;Acc:NP_493629]		intracellular, 	zinc ion binding, nucleic acid binding, 
NR_000801.1	C01B12.9	C01B12.9, miscRNA [Source:RefSeq_dna;Acc:NR_000801]			
C01B12.4	C01B12.4	C01B12.4 [Source:RefSeq_peptide;Acc:NP_493630]			
C01B12.5	C01B12.5	C01B12.5 [Source:RefSeq_peptide;Acc:NP_493631]		integral to membrane, 	arsenite transmembrane transporter activity, 
C01B12.3	C01B12.3	C01B12.3 is orthologous to the human gene VITELLIFORM MACULAR DYSTROPHY PROTEIN (VMD2. OMIM:153700), which when mutated leads to disease. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 		G-protein coupled receptor activity, 
C01B12.2	C01B12.2	C01B12.2 [Source:RefSeq_peptide;Acc:NP_493634]		nucleus, 	binding, DNA binding, 
sqt-2	C01B12.1	sqt-2 encodes a collagen required for normal alae formation and body morphology. sqt-2 mutants exhibit a slightly dumpy phenotype and the bodies of mutants are helically twisted. [Source: WormBase]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	cytoplasm, extracellular region, 	signal transducer activity, structural constituent of cuticle, 
C01B12.8	C01B12.8	C01B12.8 [Source:RefSeq_peptide;Acc:NP_493636]	embryonic development ending in birth or egg hatching, 		
F23F1.4	F23F1.4	C01B12.7 [Source:RefSeq_peptide;Acc:NP_493637]			
F23F1.5	F23F1.5	F23F1.5 [Source:RefSeq_peptide;Acc:NP_493639]	intracellular protein transport, DNA repair, DNA replication, DNA recombination, protein import into nucleus, positive regulation of growth rate, 	cytoplasm, nucleus, nuclear pore, 	ATP binding, protein transporter activity, protein binding, DNA ligase (ATP) activity, 
F23F1.3	F23F1.3	F23F1.3 [Source:RefSeq_peptide;Acc:NP_493640]			
F23F1.2	F23F1.2	F23F1.2 [Source:RefSeq_peptide;Acc:NP_493641]			calcium ion binding, 
F23F1.6	F23F1.6	F23F1.6 [Source:RefSeq_peptide;Acc:NP_493642]	amino acid transport, transport, 	membrane, integral to membrane, 	amino acid transmembrane transporter activity, 
F23F1.7	F23F1.7	F23F1.7 [Source:RefSeq_peptide;Acc:NP_493643]			
F23F1.10	F23F1.10	F23F1.10 [Source:RefSeq_peptide;Acc:NP_001022112]			
rpt-4	F23F1.8	rpt-4 encodes a predicted ATPase subunit of the 19S regulatory complex of the proteasome that affects body morphology, embryonic viability, growth, movement, and fertility. interacts with itself in yeast two-hybrid assays. [Source: WormBase]	protein catabolic process, positive regulation of growth rate, 	cytoplasm, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, hydrolase activity, 
nfyc-1	F23F1.1	F23F1.1 [Source:RefSeq_peptide;Acc:NP_493645]	growth, 	intracellular, 	DNA binding, sequence-specific DNA binding, 
F23F1.9	F23F1.9	F23F1.9 [Source:RefSeq_peptide;Acc:NP_493646]	transcription, growth, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
C23H3.5	C23H3.5	C23H3.5 [Source:RefSeq_peptide;Acc:NP_493647]	positive regulation of growth rate, 		
sptl-1	C23H3.4	C23H3.4 encodes a putative serine palmitoyltransferase required for normal embryonic and larval developement, locomotion, and speed of growth. [Source: WormBase]	biosynthetic process, embryonic development ending in birth or egg hatching, 		pyridoxal phosphate binding, transferase activity, transferring nitrogenous groups, 
tre-5	C23H3.7	C23H3.7 [Source:RefSeq_peptide;Acc:NP_493649]	trehalose metabolic process, embryonic development ending in birth or egg hatching, 		alpha,alpha-trehalase activity, 
C23H3.3	C23H3.3	C23H3.3 [Source:RefSeq_peptide;Acc:NP_493650]	regulation of transcription, 		RNA binding, protein binding, 
C23H3.2	C23H3.2	C23H3.2a [Source:RefSeq_peptide;Acc:NP_493651]			
egl-26	C23H3.1	egl-26 encodes a novel protein that contains an H-box/NC domain that is highly conserved with CBP01801 in C. briggsae and is required for embryonic and larval viability, egg-laying, fertility, and affects the connection of the uterus to the vulva. required in the primary vulval lineage for vulF morphogenesis and is expressed in many cells, but is expressed near the vulva and uterus only during the L4 larval stage. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
C23H3.9	C23H3.9	C23H3.9d [Source:RefSeq_peptide;Acc:NP_001021980]			hydrolase activity, 
C50D2.6	C50D2.6	C50D2.6 [Source:RefSeq_peptide;Acc:NP_493656]			
C50D2.9	C50D2.9	C50D2.9 [Source:RefSeq_peptide;Acc:NP_871954]			transferase activity, 
C50D2.7	C50D2.7	C50D2.7 [Source:RefSeq_peptide;Acc:NP_493657]	carbohydrate metabolic process, 		phosphotransferase activity, alcohol group as acceptor, 
C50D2.8	C50D2.8	C50D2.8 [Source:RefSeq_peptide;Acc:NP_493658]			
C50D2.5	C50D2.5	Pre-mRNA branch site p14-like protein. [Source:Uniprot/SWISSPROT;Acc:Q8ITY4]			nucleotide binding, RNA binding, nucleic acid binding, 
C50D2.10	C50D2.10	C50D2.10 [Source:RefSeq_peptide;Acc:NP_001022037]			
col-68	C50D2.4	COLlagen family member (col-68) [Source:RefSeq_peptide;Acc:NP_493660]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C50D2.3	C50D2.3	C50D2.3 [Source:RefSeq_peptide;Acc:NP_493661]			protein binding, 
C50D2.2	C50D2.2	C50D2.2 [Source:RefSeq_peptide;Acc:NP_493662]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
C50D2.1	C50D2.1	C50D2.1 [Source:RefSeq_peptide;Acc:NP_493663]	positive regulation of growth rate, 		
K10B4.3	K10B4.3	Protein melted homolog. [Source:Uniprot/SWISSPROT;Acc:O17237]			
srt-54	K10B4.2	Serpentine Receptor, class T family member (srt-54) [Source:RefSeq_peptide;Acc:NP_493665]			
K10B4.4	K10B4.4	K10B4.4 [Source:RefSeq_peptide;Acc:NP_493666]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, purinergic nucleotide receptor activity, G-protein coupled, neuromedin U receptor activity, 
srd-3	K10B4.5	Serpentine receptor class delta-3 (Protein srd-3). [Source:Uniprot/SWISSPROT;Acc:O17240]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
cwn-1	K10B4.6	cwn-1 encodes one of five C. elegans Wnt signaling ligands. although the precise developmental role of cwn-1 is not yet known, during embryogenesis cwn-1 likely functions as a downstream target of the PAL-1 homeodomain protein in the regulatory network that specifies cell fates in the C lineage that gives rise to ectodermal and muscle tissue. consistent with this role, loss of cwn-1 activity via RNAi results in rare larval tail defects that may result, in part, from abnormal morphogenesis of C lineage descendants. a cwn-1 reporter is expressed in C and D muscle cells, as well as in two posterior C ectodermal cells. cwn-1 mRNA is detectable at all developmental stages, with highest levels of expression seen in embryonic stages. [Source: WormBase]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	extracellular region, 	signal transducer activity, 
K10B4.1	K10B4.1	K10B4.1 [Source:RefSeq_peptide;Acc:NP_493669]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
T25D3.4	T25D3.4	T25D3.4 [Source:RefSeq_peptide;Acc:NP_493670]	transport, response to antibiotic, tetracycline transport, 	membrane, integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
T25D3.3	T25D3.3	T25D3.3 [Source:RefSeq_peptide;Acc:NP_493671]	proteolysis, metabolic process, 		zinc ion binding, metallopeptidase activity, catalytic activity, pyridoxal phosphate binding, 
T25D3.2	T25D3.2	T25D3.2 [Source:RefSeq_peptide;Acc:NP_493672]	positive regulation of growth rate, 		
etr-1	T01D1.2	etr-1 encodes a muscle-specific ELAV-type RNA-binding protein, whose homologs include Drosophila ELAV and human CUG-BINDING PROTEIN (CUGBP1. OMIM:601074). etr-1 function is required for embryonic muscle development, which suggests that ETR-1's homology to CUG-BP (implicated in myotonic dystrophy) might reflect conserved roles in development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	extracellular region, 	nucleotide binding, RNA binding, protein binding, nucleic acid binding, 
T01D1.7	T01D1.7	T01D1.7 [Source:RefSeq_peptide;Acc:NP_001022297]			
T01D1.3	T01D1.3	T01D1.3 [Source:RefSeq_peptide;Acc:NP_493675]			
T01D1.4	T01D1.4	T01D1.4 [Source:RefSeq_peptide;Acc:NP_493676]	embryonic development ending in birth or egg hatching, 		
T01D1.1	T01D1.1	T01D1.1 [Source:RefSeq_peptide;Acc:NP_493677]			
T01D1.5	T01D1.5	T01D1.5 [Source:RefSeq_peptide;Acc:NP_493678]			
T01D1.8	T01D1.8	T01D1.8 [Source:RefSeq_peptide;Acc:NP_001033338]			
abu-11	T01D1.6	abu-11 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-11 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-11 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, nutrient reservoir activity, identical protein binding, 
F48A11.2	F48A11.2	F48A11.2 [Source:RefSeq_peptide;Acc:NP_493681]			
chs-2	F48A11.1	chs-2 encodes a putative chitin synthase, paralogous to CHS-1. CHS-2 is required for synthesis of chitin lining the inner pharyngeal surface (primarily in the buccal cavity and grinder), while CHS-1 is dispensable for pharyngeal chitin. CHS-2 is also required for normal pharyngeal shape and function, and for larval viability. chs-2(RNAi) animals have abnormally large, misshapen grinders, and arrest as early larvae. chs-2 is expressed by the glandular pharyngeal g1 and g2 cells, and by m3 and m4 myoepithelial cells. chs-2 is transcribed in short periods before each larval molt. the pharyngeal expression of chs-2 parallels gna-1. CHS-2 is predicted to be in the plasma membrane rather than the Golgi apparatus. [Source: WormBase]	reproduction, 		transferase activity, transferring hexosyl groups, 
F48A11.4	F48A11.4	F48A11.4 [Source:RefSeq_peptide;Acc:NP_493683]			
ubxn-3	F48A11.5	UBX-containing protein in Nematode family member (ubxn-3) [Source:RefSeq_peptide;Acc:NP_001022181]	embryonic development ending in birth or egg hatching, 		
NR_003408.1	F48A11.7	F48A11.7, snoRNA [Source:RefSeq_dna;Acc:NR_003408]			
Y43H11AL.1	Y43H11AL.1	Y43H11AL.1 [Source:RefSeq_peptide;Acc:NP_493685]			protein binding, 
Y43H11AL.2	Y43H11AL.2	Y43H11AL.2 [Source:RefSeq_peptide;Acc:NP_493686]			
pqn-85	Y43H11AL.3	pqn-85 encodes an ortholog of budding yeast Scc2p, Drosophila NIPPED-B, and human NIPBL (OMIM:608667, mutated in Cornelia de Lange syndrome) that is required for resistance to double-stranded DNA breakage. PQN-85 is also required, with MAU-2 and SCC-3, for normal chromosome segregation and embryonic viability. pqn-85(RNAi) induces hypersensitivity to double-stranded breaks in DNA (manifested by abnormal sterility induced by ionizing radiation, cisplatin, or camptothecin). pqn-85(RNAi) of early embryos produces lagging of anaphase chromosomes and 100% embryonic lethality. pqn-85(RNAi) is phenotypically enhanced by joint RNAi with mau-2, and joint pqn-85/scc-3(RNAi) grossly deranges chromosomal segregation in early embryos. by orthology with NIPPED-B, PQN-85 might also enable regulatory interactions between promoters and distant enhancers by antagonizing SCC-3. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		binding, 
cat-2	B0432.5	cat-2 encodes a putative tyrosine hydroxylase that affects dopamine levels that in turn affect locomotory slowing in response to food. expressed in dopamanergic as well as other neurons, male spicules, and male ray neurons. [Source: WormBase]	aromatic amino acid family metabolic process, response to food, 		iron ion binding, monooxygenase activity, tyrosine 3-monooxygenase activity, 
B0432.14	B0432.14	B0432.14 [Source:RefSeq_peptide;Acc:NP_001033326]			
B0432.6	B0432.6	B0432.6 [Source:RefSeq_peptide;Acc:NP_493689]			
B0432.7	B0432.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:P90988]			
B0432.8	B0432.8	B0432.8 [Source:RefSeq_peptide;Acc:NP_493691]			
B0432.13	B0432.13	B0432.13 [Source:RefSeq_peptide;Acc:NP_740965]			protein binding, zinc ion binding, 
B0432.9	B0432.9	B0432.9 [Source:RefSeq_peptide;Acc:NP_493692]			hydrolase activity, 
B0432.10	B0432.10	B0432.10 [Source:RefSeq_peptide;Acc:NP_493693]			
B0432.4	B0432.4	B0432.4 [Source:RefSeq_peptide;Acc:NP_493694]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
B0432.3	B0432.3	39S ribosomal protein L41, mitochondrial precursor (L41mt) (MRP-L41). [Source:Uniprot/SWISSPROT;Acc:P90993]	translation, biological_process, 	ribonucleoprotein complex, mitochondrial large ribosomal subunit, 	structural constituent of ribosome, 
djr-1.1	B0432.2	djr-1.1 encodes an ortholog of DJ-1 (OMIM:602533, mutated in early-onset Parkinson disease). DJR-1.1 is required for resistance to rotenone, a mitochondrial complex I inhibitors that mimics Parkinson disease (PD). djr-1.1(RNAi) animals are partly rescued from PD-like sensitivity by D-beta-hydroxybutyrate or tauroursodeoxycholic acid, and fully rescued by both. by orthology with DJ-1, DJR-1.1 may promote stability of the transcription factors SKN-1 or SKNR-1 (homologs of mammalian NFE2L2). [Source: WormBase]			hydrolase activity, acting on glycosyl bonds, 
B0432.11	B0432.11	B0432.11 [Source:RefSeq_peptide;Acc:NP_493697]			GTP binding, GTPase activity, 
B0432.12	B0432.12	B0432.12 [Source:RefSeq_peptide;Acc:NP_493698]	cell adhesion, positive regulation of growth rate, 		sugar binding, hyaluronic acid binding, 
B0432.1	B0432.1	B0432.1 [Source:RefSeq_peptide;Acc:NP_493699]			
K01A2.6	K01A2.6	K01A2.6 [Source:RefSeq_peptide;Acc:NP_493700]			
K01A2.5	K01A2.5	K01A2.5 [Source:RefSeq_peptide;Acc:NP_493701]	aromatic compound metabolic process, 	cytoplasm, 	hydrolase activity, 
col-69	K01A2.7	COLlagen family member (col-69) [Source:RefSeq_peptide;Acc:NP_493702]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
K01A2.4	K01A2.4	K01A2.4 [Source:RefSeq_peptide;Acc:NP_001022228]	regulation of transcription, DNA-dependent, transcription initiation from RNA polymerase II promoter, 	nucleus, transcription factor TFIID complex, 	DNA binding, RNA polymerase II transcription factor activity, 
mps-2	K01A2.8	mps-2 encodes single-pass transmembrane proteins that are related to the vertebrate KCNE proteins, also known as MinK-related peptides (MiRPs) that associate with, and regulate, pore-forming ion channels. mps-1 is required for the normal function of several neurons and thus for normal body touch sensation, chemotaxis to select molecules, osmotic avoidance, and nose-touch. when coexpressed in tissue culture cells with C. elegans KVS-1, MPS-2 is able to alter the activity of this potassium-selective channel, suggesting that MPS-2 functions in vivo to regulate KVS-1 activity in neurons in which the two proteins are coexpressed. in addition, activity of MPS-2, MPS-3, and KVS-1 coexpressed in culture suggests that these three proteins can form a functional ternary complex that genetic analyses indicate likely plays a role in regulating responsiveness to sodium. MPS-2 reporter fusions are expressed in the ADF amphid sensory neuron and in the enteric muscle. [Source: WormBase]	regulation of chemotaxis, 		
K01A2.3	K01A2.3	K01A2.3 [Source:RefSeq_peptide;Acc:NP_001022227]			
K01A2.9	K01A2.9	K01A2.9 [Source:RefSeq_peptide;Acc:NP_493707]		membrane, 	
far-7	K01A2.2	Fatty Acid/Retinol binding protein family member (far-7) [Source:RefSeq_peptide;Acc:NP_493708]			lipid binding, 
K01A2.10	K01A2.10	K01A2.10 [Source:RefSeq_peptide;Acc:NP_493709]			protein binding, 
sgcb-1	K01A2.1	K01A2.1 is orthologous to the human gene SARCOGLYCAN, BETA (43KD DYSTROPHIN-ASSOCIATED GLYCOPROTEIN) (SGCB. OMIM:600900), which when mutated leads to disease. [Source: WormBase]			
cbn-1	K01A2.11	Calcium BiNding protein homolog family member (cbn-1) [Source:RefSeq_peptide;Acc:NP_001022226]			calcium ion binding, 
cpn-2	D1069.2	cpn-2 encodes a calponin homolog, more similar to the calponin paralogs transgelin (SM22 alpha) or neuronal protein NP25 than to calponin per se. [Source: WormBase]			
D1069.1	D1069.1	D1069.1 [Source:RefSeq_peptide;Acc:NP_493714]		membrane, 	
D1069.3	D1069.3	D1069.3b [Source:RefSeq_peptide;Acc:NP_001022050]	positive regulation of growth rate, 		
D1069.4	D1069.4	D1069.4 [Source:RefSeq_peptide;Acc:NP_493716]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C41D7.1	C41D7.1	C41D7.1 [Source:RefSeq_peptide;Acc:NP_493717]			
ptr-3	C41D7.2	ptr-3 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-3 is weakly required for normal molting from L4 to adult stages. PTR-3 is also required for normal adult alae formation, growth to full size, and vulval morphogenesis. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
C03H5.4	C03H5.4	C03H5.4 [Source:RefSeq_peptide;Acc:NP_493719]	phospholipid metabolic process, lipid catabolic process, 		calcium ion binding, phospholipase A2 activity, 
C03H5.7	C03H5.7	C03H5.7 [Source:RefSeq_peptide;Acc:NP_493720]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
C03H5.5	C03H5.5	C03H5.5 [Source:RefSeq_peptide;Acc:NP_493721]			
C03H5.3	C03H5.3	C03H5.3 [Source:RefSeq_peptide;Acc:NP_493722]		extracellular region, 	hormone activity, 
C03H5.2	C03H5.2	C03H5.2 encodes a transproter of UDP-N-acetylglucosamine (UDP-GlcNAc) and UDP-N-acetylgalactosamine (UDP-GalNAc), orthologous to human SLC35A3 (OMIM:605632). C03H5.2 is expressed in many tissues, including pharynx, intestine, various muscles, hypodermis, and neurons. C03H5.2 transports both UDP-GlcNAc and UDP-GalNAc independently and simultaneously, with these two molecules neither competing with one another nor being transported as a heterodimer. C03H5.2's two transport activities are genetically separable, since a 16-residue internally deleted version of C03H5.2 retains normal levels of UDP-GlcNAc transport while losing 85-90% of its UDP-GalNAc transport activity. C03H5.2's activity has been experimentally validated through heterologous expression in budding yeast Golgi apparatus, and mutation of C03H5.2 in conserved residues greatly reduces this activity. C03H5.2 is required for fertility in mass RNAi assays. [Source: WormBase]	carbohydrate transport, nucleotide-sugar transport, reproduction, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
C03H5.6	C03H5.6	C03H5.6 [Source:RefSeq_peptide;Acc:NP_493724]			protein binding, 
clec-10	C03H5.1	C-type LECtin family member (clec-10) [Source:RefSeq_peptide;Acc:NP_493725]	transport, 		transporter activity, binding, sugar binding, 
C24H12.5	C24H12.5	C24H12.5b [Source:RefSeq_peptide;Acc:NP_493726]	biological_process, 		
C24H12.4	C24H12.4	C24H12.4b [Source:RefSeq_peptide;Acc:NP_740967]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C24H12.6	C24H12.6	C24H12.6 [Source:RefSeq_peptide;Acc:NP_493729]			
C24H12.7	C24H12.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C24H12.8	C24H12.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
NM_061331.2	C24H12.9	C24H12.9 (C24H12.9) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_061331]			
C24H12.10	C24H12.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C24H12.11	C24H12.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
C24H12.3	C24H12.3				
C24H12.12	C24H12.12	C24H12.12 [Source:RefSeq_peptide;Acc:NP_001033328]			
C24H12.2	C24H12.2	C24H12.2 [Source:RefSeq_peptide;Acc:NP_493735]			
C24H12.1	C24H12.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
W10D9.2	W10D9.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
W10D9.1	W10D9.1	W10D9.1 [Source:RefSeq_peptide;Acc:NP_493738]	protein complex assembly, 		
W10D9.3	W10D9.3	W10D9.3 [Source:RefSeq_peptide;Acc:NP_493739]			protein binding, 
nfyb-1	W10D9.4	W10D9.4 [Source:RefSeq_peptide;Acc:NP_493740]		intracellular, nucleus, 	protein binding, DNA binding, sequence-specific DNA binding, 
W10D9.5	W10D9.5	W10D9.5 [Source:RefSeq_peptide;Acc:NP_493741]	positive regulation of growth rate, 		P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
W07E6.1	W07E6.1	W07E6.1 [Source:RefSeq_peptide;Acc:NP_493742]	rRNA processing, positive regulation of growth rate, 		
W07E6.5	W07E6.5	W07E6.5 [Source:RefSeq_peptide;Acc:NP_493743]			
W07E6.2	W07E6.2	W07E6.2 encodes an ortholog of S. cerevisiae RSA4 that may suppress tumorous growth in the germline. like PRO-1, -2, and -3, W07E6.2 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. [Source: WormBase]	signal transduction, positive regulation of growth rate, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
prp-21	W07E6.4	yeast PRP (splicing factor) related family member (prp-21) [Source:RefSeq_peptide;Acc:NP_493746]	RNA processing, protein modification process, biological_process, 		RNA binding, protein binding, 
W07E6.3	W07E6.3	Sphingomyelin synthase-related 2. [Source:Uniprot/SWISSPROT;Acc:Q9TYV2]	sphingomyelin biosynthetic process, 	integral to membrane, 	molecular_function, 
T27A1.1	T27A1.1	T27A1.1 [Source:RefSeq_peptide;Acc:NP_493748]			
srh-105	T27A1.7	Serpentine Receptor, class H family member (srh-105) [Source:RefSeq_peptide;Acc:NP_493749]			
mab-9	T27A1.6	mab-9 encodes a member of the T-box family of transcriptional regulators containing a 200-amino acid T-box DNA-binding domain most similar to mouse Brachyury. mab-9 is involved in hindgut and mail tail development, specifically affecting the fate of two posterior blast cells in the hindgut, B and F. in the male this results in a grossly abnormal tail lacking spicules, and renders them incapable of mating. in the hermaphrodite this results in hindgut defects. mab-9 may also be part of a network of T-box genes that includes tbx-8, tbx-9 and vab-7 and is important for the correct patterning of posterior cells in the developing embryo. mab-9 affects movement to some extent though the basis for this defect is unknown. MAB-9 localizes to the nucleus of B and F and their descendents during development. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, 
T27A1.5	T27A1.5	T27A1.5a [Source:RefSeq_peptide;Acc:NP_001040812]			
T27A1.4	T27A1.4	T27A1.4 [Source:RefSeq_peptide;Acc:NP_493752]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, metal ion binding, catalytic activity, GABA-A receptor activity, 
T27A1.2	T27A1.2	T27A1.2 [Source:RefSeq_peptide;Acc:NP_493753]			
T27A1.3	T27A1.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
mlt-10	C09E8.3	MoLTing defective family member (mlt-10) [Source:RefSeq_peptide;Acc:NP_493755]			
C09E8.2	C09E8.2	C09E8.2a [Source:RefSeq_peptide;Acc:NP_493756]	lipid catabolic process, 		catalytic activity, lipase activity, 
C09E8.1	C09E8.1	C09E8.1a [Source:RefSeq_peptide;Acc:NP_493757]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
W08F4.5	W08F4.5	W08F4.5 [Source:RefSeq_peptide;Acc:NP_493758]			
mlt-8	W08F4.6	mlt-8 encodes a novel protein. during development, mlt-8 activity is required for molting. a mlt-8::gfp reporter is expressed in hypodermal cells and in a single posterior neuron. [Source: WormBase]	biological_process, 		
W08F4.7	W08F4.7	W08F4.7 [Source:RefSeq_peptide;Acc:NP_493760]			
cdc-37	W08F4.8	Probable Hsp90 co-chaperone cdc37 (Hsp90 chaperone protein kinase- targeting subunit) (Cell division cycle-related protein 37). [Source:Uniprot/SWISSPROT;Acc:O02108]	positive regulation of growth rate, 		protein binding, 
W08F4.3	W08F4.3	W08F4.3 [Source:RefSeq_peptide;Acc:NP_493762]	ergosterol biosynthetic process, 	endoplasmic reticulum, 	C-8 sterol isomerase activity, 
fbxb-14	W08F4.9	F-box B protein family member (fbxb-14) [Source:RefSeq_peptide;Acc:NP_493763]			
W08F4.12	W08F4.12	W08F4.12 [Source:RefSeq_peptide;Acc:NP_740968]			
W08F4.13	W08F4.13	W08F4.13 [Source:RefSeq_peptide;Acc:NP_001040819]			
fbxb-34	W08F4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
W08F4.10	W08F4.10	W08F4.10 [Source:RefSeq_peptide;Acc:NP_493765]	proteolysis, 		cysteine-type endopeptidase activity, 
W08F4.11	W08F4.11	W08F4.11 [Source:RefSeq_peptide;Acc:NP_493766]			
W08F4.1	W08F4.1	W08F4.1 [Source:RefSeq_peptide;Acc:NP_493767]			
nhl-3	W04H10.3	NHL (ring finger b-box coiled coil) domain containing family member (nhl-3) [Source:RefSeq_peptide;Acc:NP_001040818]		intracellular, 	protein binding, zinc ion binding, 
W04H10.2	W04H10.2	W04H10.2 [Source:RefSeq_peptide;Acc:NP_493769]			
W04H10.1	W04H10.1	W04H10.1 [Source:RefSeq_peptide;Acc:NP_493770]			
W04H10.4	W04H10.4	W04H10.4 [Source:RefSeq_peptide;Acc:NP_493771]			sugar binding, 
T04B8.5	T04B8.5	T04B8.5a [Source:RefSeq_peptide;Acc:NP_001022305]	transport, 	membrane, 	
T04B8.3	T04B8.3	T04B8.3 [Source:RefSeq_peptide;Acc:NP_493774]			
T04B8.2	T04B8.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
T04B8.1	T04B8.1	T04B8.1 [Source:RefSeq_peptide;Acc:NP_493776]			
K07E8.6	K07E8.6	K07E8.6 [Source:RefSeq_peptide;Acc:NP_493777]			
K07E8.7	K07E8.7	Uncharacterized protein K07E8.7. [Source:Uniprot/SWISSPROT;Acc:O16686]	RNA processing, 		RNA binding, pseudouridylate synthase activity, pseudouridine synthase activity, 
K07E8.5	K07E8.5	K07E8.5 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that K07E8.5 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K07E8.8	K07E8.8				
K07E8.4	K07E8.4				
sdz-24	K07E8.3	SKN-1 Dependent Zygotic transcript family member (sdz-24) [Source:RefSeq_peptide;Acc:NP_493781]	biological_process, 		nucleic acid binding, 
sri-45	K07E8.9	Serpentine Receptor, class I family member (sri-45) [Source:RefSeq_peptide;Acc:NP_493782]			
K07E8.2	K07E8.2				
K07E8.10	K07E8.10	K07E8.10 [Source:RefSeq_peptide;Acc:NP_493783]			
K07E8.1	K07E8.1	K07E8.1 [Source:RefSeq_peptide;Acc:NP_493784]			
sri-46	K07E8.11	Serpentine Receptor, class I family member (sri-46) [Source:RefSeq_peptide;Acc:NP_493785]			
sri-44	K07E8.12				
Y39F10C.1	Y39F10C.1	Y39F10C.1 [Source:RefSeq_peptide;Acc:NP_493786]			
T02H6.9	T02H6.9	T02H6.9 [Source:RefSeq_peptide;Acc:NP_493787]			
T02H6.10	T02H6.10	T02H6.10 [Source:RefSeq_peptide;Acc:NP_493788]			
T02H6.8	T02H6.8	T02H6.8 [Source:RefSeq_peptide;Acc:NP_493789]			
T02H6.7	T02H6.7	T02H6.7 [Source:RefSeq_peptide;Acc:NP_493790]			
T02H6.6	T02H6.6	T02H6.6 [Source:RefSeq_peptide;Acc:NP_493791]			
T02H6.5	T02H6.5	T02H6.5 [Source:RefSeq_peptide;Acc:NP_493792]			
T02H6.4	T02H6.4	T02H6.4 [Source:RefSeq_peptide;Acc:NP_493793]			
T02H6.3	T02H6.3	T02H6.3 [Source:RefSeq_peptide;Acc:NP_493794]			
T02H6.11	T02H6.11	T02H6.11 [Source:RefSeq_peptide;Acc:NP_493795]	electron transport, mitochondrial electron transport, ubiquinol to cytochrome c, embryonic development ending in birth or egg hatching, 		ubiquinol-cytochrome-c reductase activity, 
thoc-1	T02H6.2	T02H6.2 [Source:RefSeq_peptide;Acc:NP_493796]			
T02H6.1	T02H6.1	T02H6.1b [Source:RefSeq_peptide;Acc:NP_872030]	protein homooligomerization, 	membrane, 	
Y39F10B.1	Y39F10B.1	Y39F10B.1a [Source:RefSeq_peptide;Acc:NP_493798]	biological_process, 		
C08G5.1	C08G5.1	C08G5.1 [Source:RefSeq_peptide;Acc:NP_493799]			
C08G5.2	C08G5.2	C08G5.2 [Source:RefSeq_peptide;Acc:NP_493800]			
C08G5.3	C08G5.3	C08G5.3 [Source:RefSeq_peptide;Acc:NP_493801]			
snt-6	C08G5.4	SyNapTotagmin family member (snt-6) [Source:RefSeq_peptide;Acc:NP_493802]	transport, 	membrane, synaptic vesicle, 	transporter activity, 
C08G5.5	C08G5.5	C08G5.5 [Source:RefSeq_peptide;Acc:NP_493803]			structural constituent of cell wall, 
C08G5.7	C08G5.7	C08G5.7a [Source:RefSeq_peptide;Acc:NP_001040737]			
C08G5.6	C08G5.6	C08G5.6 [Source:RefSeq_peptide;Acc:NP_493804]			
Y39F10A.1	Y39F10A.1	Y39F10A.1 [Source:RefSeq_peptide;Acc:NP_493805]			
Y39F10A.2	Y39F10A.2	Y39F10A.2 [Source:RefSeq_peptide;Acc:NP_493806]			
Y39F10A.3	Y39F10A.3	Y39F10A.3 [Source:RefSeq_peptide;Acc:NP_493807]			
F46F5.16	F46F5.16	F46F5.16 [Source:RefSeq_peptide;Acc:NP_493809]			
F46F5.15	F46F5.15	F46F5.15 [Source:RefSeq_peptide;Acc:NP_493810]			
F46F5.1	F46F5.1	F46F5.1 [Source:RefSeq_peptide;Acc:NP_493811]			
NM_061411.1	F46F5.2	F46F5.2 (F46F5.2) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_061411]			
F46F5.14	F46F5.14	F46F5.14 [Source:RefSeq_peptide;Acc:NP_493813]			
F46F5.3	F46F5.3				
F46F5.13	F46F5.13	F46F5.13 [Source:RefSeq_peptide;Acc:NP_493814]			
F46F5.4	F46F5.4	F46F5.4 [Source:RefSeq_peptide;Acc:NP_493815]			
F46F5.12	F46F5.12	F46F5.12 [Source:RefSeq_peptide;Acc:NP_493816]			
F46F5.11	F46F5.11	F46F5.11 [Source:RefSeq_peptide;Acc:NP_493817]			
F46F5.5	F46F5.5	F46F5.5 [Source:RefSeq_peptide;Acc:NP_493818]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
F46F5.6	F46F5.6	F46F5.6 [Source:RefSeq_peptide;Acc:NP_493819]	homoiothermy, response to freezing, 		ice binding, 
F46F5.7	F46F5.7	F46F5.7 [Source:RefSeq_peptide;Acc:NP_493820]			
F46F5.8	F46F5.8	F46F5.8 [Source:RefSeq_peptide;Acc:NP_493821]			
F46F5.9	F46F5.9	F46F5.9 [Source:RefSeq_peptide;Acc:NP_493822]	homoiothermy, response to freezing, 		ice binding, 
F46F5.10	F46F5.10	F46F5.10 [Source:RefSeq_peptide;Acc:NP_493823]			
F28A10.1	F28A10.1	F28A10.1 encodes a putative small-molecule methyltransferase, belonging to a large nematode-specific expanded family. F28A10.1 inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. F28A10.1 is expressed in neurons, and F28A10.1 transcripts are enriched in spermatogenesis. although F's obvious homologs are all Caenorhabditis proteins, it has distant similarity to 31-O-demethyl-FK506 methyltransferase (FkbM) from Streptomyces, to other bacterial FkbM homologs, and to other metazoan homologs such as human LOC728464. [Source: WormBase]			
F28A10.2	F28A10.2	F28A10.2 [Source:RefSeq_peptide;Acc:NP_493825]			
F28A10.10	F28A10.10	F28A10.10 [Source:RefSeq_peptide;Acc:NP_493826]	biosynthetic process, 		catalytic activity, nucleotidyltransferase activity, 
F28A10.9	F28A10.9	F28A10.9 [Source:RefSeq_peptide;Acc:NP_493827]			
F28A10.8	F28A10.8	F28A10.8 [Source:RefSeq_peptide;Acc:NP_493828]			
F28A10.3	F28A10.3	F28A10.3 [Source:RefSeq_peptide;Acc:NP_493829]			
F28A10.4	F28A10.4	F28A10.4 [Source:RefSeq_peptide;Acc:NP_493830]			
F28A10.7	F28A10.7	F28A10.7 [Source:RefSeq_peptide;Acc:NP_493831]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
F28A10.6	F28A10.6	F28A10.6 [Source:RefSeq_peptide;Acc:NP_493832]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
F28A10.5	F28A10.5	F28A10.5 [Source:RefSeq_peptide;Acc:NP_493833]			
Y46B2A.2	Y46B2A.2	Y46B2A.2 [Source:RefSeq_peptide;Acc:NP_493834]	amino acid metabolic process, 		nucleotide binding, nucleoside-triphosphatase activity, 
Y46B2A.3	Y46B2A.3	Y46B2A.3 [Source:RefSeq_peptide;Acc:NP_493835]			
Y46B2A.1	Y46B2A.1	Y46B2A.1 [Source:RefSeq_peptide;Acc:NP_493836]			
alg-2	T07D3.7	alg-2 encodes a PAZ and PIWI-domain containing protein that is a member of the highly conserved eukaryotic RDE-1/AGO1/PIWI family of proteins that regulate posttranscriptional gene silencing (PTGS). ALG-2 functions with ALG-1 to control specific developmental timing events by positively regulating expression of small temporal RNAs (stRNAs) encoded by lin-4 and let-7. ALG-2 and ALG-1 are also required for RNAi in the germline, although they are not required for RNAi in the soma. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 		
T07D3.6	T07D3.6	T07D3.6 [Source:RefSeq_peptide;Acc:NP_493838]			
T07D3.5	T07D3.5	T07D3.5 [Source:RefSeq_peptide;Acc:NP_493839]	embryonic development ending in birth or egg hatching, 		
T07D3.4	T07D3.4	T07D3.4 is orthologous to the human gene FUKUTIN (FCMD. OMIM:253800), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T07D3.3	T07D3.3	T07D3.3 [Source:RefSeq_peptide;Acc:NP_493841]			
T07D3.9	T07D3.9	T07D3.9b [Source:RefSeq_peptide;Acc:NP_871990]			catalytic activity, 
T07D3.2	T07D3.2	T07D3.2 [Source:RefSeq_peptide;Acc:NP_493844]			
fbxa-200	T07D3.1	T07D3.1 [Source:RefSeq_peptide;Acc:NP_493845]			
R07C3.11	R07C3.11	R07C3.11 [Source:RefSeq_peptide;Acc:NP_493846]			
R07C3.10	R07C3.10	R07C3.10 [Source:RefSeq_peptide;Acc:NP_493847]			
R07C3.9	R07C3.9	R07C3.9 [Source:RefSeq_peptide;Acc:NP_493848]			
R07C3.8	R07C3.8	R07C3.8 [Source:RefSeq_peptide;Acc:NP_493849]			
R07C3.7	R07C3.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFD9]			
R07C3.15	R07C3.15	R07C3.7 [Source:RefSeq_peptide;Acc:NP_493850]			
clec-44	R07C3.12	C-type LECtin family member (clec-44) [Source:RefSeq_peptide;Acc:NP_493851]			sugar binding, 
R07C3.6	R07C3.6	R07C3.6 [Source:RefSeq_peptide;Acc:NP_493852]			
R07C3.13	R07C3.13	R07C3.13 [Source:RefSeq_peptide;Acc:NP_493853]			
R07C3.14	R07C3.14	R07C3.14 [Source:RefSeq_peptide;Acc:NP_493854]			
R07C3.5	R07C3.5	R07C3.5 [Source:RefSeq_peptide;Acc:NP_493855]			
R07C3.4	R07C3.4	R07C3.4 [Source:RefSeq_peptide;Acc:NP_493856]	metabolic process, 		catalytic activity, 
R07C3.3	R07C3.3	R07C3.3 [Source:RefSeq_peptide;Acc:NP_493857]		membrane, 	acetylglucosaminyltransferase activity, 
R07C3.2	R07C3.2	R07C3.2 [Source:RefSeq_peptide;Acc:NP_493858]			
clec-43	R07C3.1	C-type LECtin family member (clec-43) [Source:RefSeq_peptide;Acc:NP_493859]			sugar binding, 
C32B5.10	C32B5.10	C32B5.10 [Source:RefSeq_peptide;Acc:NP_493860]			
C32B5.11	C32B5.11	C32B5.11 [Source:RefSeq_peptide;Acc:NP_493861]			
C32B5.12	C32B5.12	C32B5.12 [Source:RefSeq_peptide;Acc:NP_493862]			
C32B5.9	C32B5.9	C32B5.9 [Source:RefSeq_peptide;Acc:NP_493863]			
C32B5.8	C32B5.8				
sdz-4	C32B5.16	SKN-1 Dependent Zygotic transcript family member (sdz-4) [Source:RefSeq_peptide;Acc:NP_493865]			
C32B5.13	C32B5.13	C32B5.13 [Source:RefSeq_peptide;Acc:NP_493866]	proteolysis, 		cysteine-type peptidase activity, 
C32B5.7	C32B5.7	C32B5.7 [Source:RefSeq_peptide;Acc:NP_493867]	proteolysis, 		cysteine-type peptidase activity, 
C32B5.14	C32B5.14	C32B5.14 [Source:RefSeq_peptide;Acc:NP_493868]			
C32B5.6	C32B5.6	C32B5.6 [Source:RefSeq_peptide;Acc:NP_493869]			
C32B5.15	C32B5.15	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C32B5.5	C32B5.5	C32B5.5 [Source:RefSeq_peptide;Acc:NP_493871]			
C32B5.17	C32B5.17	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q4TT83]			
C32B5.4	C32B5.4	C32B5.4 [Source:RefSeq_peptide;Acc:NP_493872]	cell adhesion, viral infectious cycle, cell recognition, 		
C32B5.3	C32B5.3	C32B5.3 [Source:RefSeq_peptide;Acc:NP_493873]			
srh-274	C32B5.2	Serpentine Receptor, class H family member (srh-274) [Source:RefSeq_peptide;Acc:NP_493874]			
C32B5.1	C32B5.1	C32B5.1a [Source:RefSeq_peptide;Acc:NP_493875]			
F45D11.10	F45D11.10	F45D11.10 [Source:RefSeq_peptide;Acc:NP_493876]			
F45D11.9	F45D11.9	F45D11.9 [Source:RefSeq_peptide;Acc:NP_493877]			
fbxb-28	F45D11.8	F-box B protein family member (fbxb-28) [Source:RefSeq_peptide;Acc:NP_493878]			
F45D11.6	F45D11.6	F45D11.6 [Source:RefSeq_peptide;Acc:NP_493879]		nucleus, 	nucleic acid binding, 
fbxb-29	F45D11.12	F-box B protein family member (fbxb-29) [Source:RefSeq_peptide;Acc:NP_493880]			
fbxb-30	F45D11.13	F-box B protein family member (fbxb-30) [Source:RefSeq_peptide;Acc:NP_493881]			
F45D11.5	F45D11.5	F45D11.5 [Source:RefSeq_peptide;Acc:NP_493882]			protein binding, 
F45D11.14	F45D11.14	F45D11.14 [Source:RefSeq_peptide;Acc:NP_493883]			
F45D11.4	F45D11.4	F45D11.4, with F45D11.2 and F45D11.3, encodes a nematode-specific protein that entirely consists of one large (~300-residue) 'domain of unknown function' (DUF684) that is found in several other C. elegans proteins. a transcription unit of either F45D11.4, F45D11.2, or F45D11.3 (genes of essentially identical sequence) has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that at least one of these three genes is a natural substrate for SMG-mediated nonsense suppresssion. since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, F45D11.4 protein may may function in translation as well. [Source: WormBase]			
F45D11.15	F45D11.15	F45D11.16 [Source:RefSeq_peptide;Acc:NP_493887]			
F45D11.3	F45D11.3	F45D11.3, with F45D11.2 and F45D11.4, encodes a nematode-specific protein that entirely consists of one large (~300-residue) 'domain of unknown function' (DUF684) that is found in several other C. elegans proteins. a transcription unit of either F45D11.3, F45D11.2, or F45D11.4 (genes of essentially identical sequence) has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that at least one of these three genes is a natural substrate for SMG-mediated nonsense suppresssion. since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, F45D11.3 protein may may function in translation as well. [Source: WormBase]			
F45D11.16	F45D11.16	F45D11.16 [Source:RefSeq_peptide;Acc:NP_493887]			
F45D11.2	F45D11.2	F45D11.2, with F45D11.3 and F45D11.4, encodes a nematode-specific protein that entirely consists of one large (~300-residue) 'domain of unknown function' (DUF684) that is found in several other C. elegans proteins. a transcription unit of either F45D11.2, F45D11.3, or F45D11.4 (genes of essentially identical sequence) has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that at least one of these three genes is a natural substrate for SMG-mediated nonsense suppresssion. F45D11.2 has no obvious function in mass RNAi assays, but, since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, F45D11.2 protein may may function in translation as well. [Source: WormBase]			
F45D11.1	F45D11.1	F45D11.1 [Source:RefSeq_peptide;Acc:NP_493889]			
M01D1.3	M01D1.3	M01D1.3 [Source:RefSeq_peptide;Acc:NP_493890]			protein binding, 
math-34	M01D1.2	MATH (meprin-associated Traf homology) domain containing family member (math-34) [Source:RefSeq_peptide;Acc:NP_001040792]			
fbxb-39	M01D1.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-41	M01D1.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-45	M01D1.10	F-box B protein family member (fbxb-45) [Source:RefSeq_peptide;Acc:NP_493897]			
str-148	M01D1.1	Seven TM Receptor family member (str-148) [Source:RefSeq_peptide;Acc:NP_493898]	amino acid transport, 	membrane, 	
fbxb-40	M01D1.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
K02E7.8	K02E7.8				
K02E7.7	K02E7.7	K02E7.7 [Source:RefSeq_peptide;Acc:NP_493900]			
K02E7.6	K02E7.6	K02E7.6 [Source:RefSeq_peptide;Acc:NP_493901]			
K02E7.9	K02E7.9	K02E7.9 [Source:RefSeq_peptide;Acc:NP_493902]			protein binding, 
K02E7.5	K02E7.5				
K02E7.10	K02E7.10	K02E7.10 [Source:RefSeq_peptide;Acc:NP_493904]	proteolysis, 		cysteine-type peptidase activity, 
K02E7.12	K02E7.12	K02E7.12 [Source:RefSeq_peptide;Acc:NP_493905]			
K02E7.4	K02E7.4	K02E7.4 [Source:RefSeq_peptide;Acc:NP_872071]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
K02E7.11	K02E7.11	K02E7.11 [Source:RefSeq_peptide;Acc:NP_493906]			
K02E7.3	K02E7.3	K02E7.3 [Source:RefSeq_peptide;Acc:NP_493907]	embryonic development ending in birth or egg hatching, 		
K02E7.2	K02E7.2	K02E7.2 [Source:RefSeq_peptide;Acc:NP_493908]			
K02E7.1	K02E7.1	K02E7.1a [Source:RefSeq_peptide;Acc:NP_001033336]			
K02E7.t1	K02E7.t1				
snf-3	T13B5.1	Sodium:Neurotransmitter symporter Family family member (snf-3) [Source:RefSeq_peptide;Acc:NP_493910]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
T13B5.3	T13B5.3	T13B5.3 [Source:RefSeq_peptide;Acc:NP_493911]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, acid phosphatase activity, 
T13B5.9	T13B5.9	T13B5.9 [Source:RefSeq_peptide;Acc:NP_493912]	proteolysis, 		zinc ion binding, metallopeptidase activity, 
T13B5.t1	T13B5.t1				
T13B5.t2	T13B5.t2				
col-40	T13B5.4	col-40 encodes a cuticle collagen protein that belongs to the col-6 cuticle collagen family. col-40 transcript is present in L1 larvae and at the L2d-dauer molt. [Source: WormBase]	phosphate transport, collagen and cuticulin-based cuticle development, 	cytoplasm, extracellular region, 	structural constituent of cuticle, 
T13B5.5	T13B5.5	T13B5.5 [Source:RefSeq_peptide;Acc:NP_493914]	lipid catabolic process, 		lipase activity, 
T13B5.6	T13B5.6	T13B5.6 [Source:RefSeq_peptide;Acc:NP_493915]	lipid catabolic process, 		lipase activity, 
T13B5.7	T13B5.7	T13B5.7 [Source:RefSeq_peptide;Acc:NP_493916]	lipid catabolic process, 		lipase activity, 
sut-1	T13B5.8	sut-1 encodes an RNA- and snRNP-binding protein (SUT-1/SL26p) orthologous to Brugia 14704.m00455, and paralogous to Ascaris SL30p (SL 30kd) and Brugia 13258.m00169. SUT-1 is found in the Sm snRNP Y, but not in SL1 or SL2. in snRNP Y, SUT-1 associates with the SNA-2/SL75p protein, while being replaced by SNA-1/SL21p (a paralog of SUT-1) in snRNP SL1. sut-1(bk79) mutants, like sna-1(RNAi) animals, have cold-sensitive sterility, whereas sut-1(bk79) combined with sna-1(RNAi) is synthetically lethal. these data indicate that SUT-1 and SNA-1 are partially redundant, and suggest that snRNP Y (like snRNP SL1) may participate in trans-splicing. SUT-1 can bind SNA-2 even in the absence of RNA. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, 
eri-3	W09B6.3	Enhanced RNAI (RNA interference) family member (eri-3) [Source:RefSeq_peptide;Acc:NP_493918]			
taf-6.1	W09B6.2	TAF (TBP-associated transcription factor) family member (taf-6.1) [Source:RefSeq_peptide;Acc:NP_493919]	transcription initiation, regulation of transcription factor activity, 	nucleus, 	RNA polymerase II transcription factor activity, transcription initiation factor activity, 
W09B6.4	W09B6.4	W09B6.4a [Source:RefSeq_peptide;Acc:NP_001040822]	calcium ion transport, 	integral to membrane, 	calcium channel activity, 
W09B6.5	W09B6.5	W09B6.5 [Source:RefSeq_peptide;Acc:NP_493921]			
pod-2	W09B6.1	pod-2 is required for proper organization of the early embryonic cytoplasm. mutation of pod-2 causes a specific syndrome of embryonic defects both in polarity (maternal defects in anterior-posterior polarity of 1-2 cell stage embryos) and in osmotic resistance (abnormal sensitivity of early embryos to osmotic shock). [Source: WormBase]	metabolic process, biological_process, 		ATP binding, catalytic activity, ligase activity, biotin binding, 
T23F4.2	T23F4.2	T23F4.2 [Source:RefSeq_peptide;Acc:NP_493923]			
T23F4.1	T23F4.1	T23F4.1 [Source:RefSeq_peptide;Acc:NP_493924]			hydrolase activity, 
T23F4.3	T23F4.3	T23F4.3 [Source:RefSeq_peptide;Acc:NP_493925]			hydrolase activity, 
T23F4.5	T23F4.5	T23F4.5 [Source:RefSeq_peptide;Acc:NP_001022354]			
nas-27	T23F4.4	Zinc metalloproteinase nas-27 precursor (EC 3.4.24.21) (Nematode astacin 27). [Source:Uniprot/SWISSPROT;Acc:O17264]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
Y50F7A.2	Y50F7A.2	Y50F7A.2 [Source:RefSeq_peptide;Acc:NP_493927]			
F53A10.2	F53A10.2	F53A10.2 encodes a Rap1GAP homolog. a region of F53A10.2 encompassing one GoLoco motif specifically binds GOA-1 in yeast two-hybrid assays, and also binds itself. F53A10.2 is expressed in hypodermal seam cells, various neurons, and intestinal cells. F53A10.2 has no obvious function or phenotype in RNAi assays, whether in a normal background or in goa-1(-) or goa-1(gf) mutant backgrounds. [Source: WormBase]	signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	protein binding, GTPase activator activity, 
lin-42	F47F6.1	lin-42 encodes a PAS domain-containing protein orthologous to the insect and mammalian Period proteins that function in the timing of circadian rhythms. during postembryonic development, lin-42 activity is required for the switch from larval to adult fates that occurs in the hypodermal seam cells during the fourth and final molt. as a component of the heterochronic pathway, genetic analysis suggests that lin-42 likely acts early in the heterochronic pathway, either downstream of or in parallel to lin-46, which encodes a predicted scaffolding protein required for L3- and adult-specific cell fates. during larval development, lin-42 mRNA levels oscillate with peak levels apparent during larval intermolts and low levels seen during ecdysis and after the L4-to-adult molt. a rescuing LIN-42::GFP fusion protein is expressed in lateral hypodermal cells, the hypodermal syncytium, and head and tail hypodermal cells beginning during late embryogenesis and continuing through adulthood. within cells, LIN-42 is detected at generally higher levels in nuclei than in cytoplasm, although expression in the latter is enhanced during the larval molts. [Source: WormBase]	signal transduction, regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, homoiothermy, response to freezing, 		protein binding, signal transducer activity, ice binding, 
F47F6.5	F47F6.5	F47F6.5 [Source:RefSeq_peptide;Acc:NP_493933]	positive regulation of growth rate, 		sugar binding, 
F47F6.9	F47F6.9	F47F6.9 [Source:RefSeq_peptide;Acc:NP_001022179]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
F47F6.4	F47F6.4	F47F6.4 [Source:RefSeq_peptide;Acc:NP_493934]			
F47F6.3	F47F6.3	F47F6.3 [Source:RefSeq_peptide;Acc:NP_493935]			transferase activity, transferring groups other than amino-acyl groups, 
srw-66	Y57G7A.4	Serpentine Receptor, class W family member (srw-66) [Source:RefSeq_peptide;Acc:NP_493936]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y57G7A.5	Y57G7A.5	Y57G7A.5 [Source:RefSeq_peptide;Acc:NP_493937]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y57G7A.11	Y57G7A.11	Y57G7A.11 [Source:RefSeq_peptide;Acc:NP_740969]			
srz-63	Y57G7A.12	Serpentine Receptor, class Z family member (srz-63) [Source:RefSeq_peptide;Acc:NP_001022483]			
Y57G7A.6	Y57G7A.6	Y57G7A.6 [Source:RefSeq_peptide;Acc:NP_493938]			
Y57G7A.3	Y57G7A.3	Y57G7A.3a [Source:RefSeq_peptide;Acc:NP_001022484]			
srz-64	Y57G7A.7	Serpentine Receptor, class Z family member (srz-64) [Source:RefSeq_peptide;Acc:NP_493940]			
Y57G7A.8	Y57G7A.8	Y57G7A.8 [Source:RefSeq_peptide;Acc:NP_493941]			
Y57G7A.2	Y57G7A.2	Y57G7A.2 [Source:RefSeq_peptide;Acc:NP_493942]			
Y57G7A.1	Y57G7A.1	Y57G7A.1 [Source:RefSeq_peptide;Acc:NP_493943]			
Y57G7A.9	Y57G7A.9	Y57G7A.9 [Source:RefSeq_peptide;Acc:NP_493944]			
Y57G7A.10	Y57G7A.10	Y57G7A.10a [Source:RefSeq_peptide;Acc:NP_493945]	positive regulation of growth rate, 		protein binding, binding, protein domain specific binding, 
alh-6	F56D12.1	alh-6 is orthologous to the human gene ALDEHYDE DEHYDROGENASE 4 FAMILY, MEMBER A1 (ALDH4A1. OMIM:606811), which when mutated leads to hyperprolinemia type II. [Source: WormBase]	metabolic process, proline biosynthetic process, positive regulation of growth rate, 	mitochondrial matrix, 	oxidoreductase activity, 1-pyrroline-5-carboxylate dehydrogenase activity, 
F56D12.6	F56D12.6	F56D12.6a [Source:RefSeq_peptide;Acc:NP_493947]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, 	clathrin adaptor complex, 	protein transporter activity, protein binding, 
vig-1	F56D12.5	vig-1 encodes a predicted RNA-binding protein orthologous to Drosophila VIG (Vasa Intronic Gene). vig-1 activity is required for proper function of the let-7 miRNA in vivo and thus, for regulating the transition from late larval to adult cell fates. VIG-1 is a component of the 250 kDa RNA-induced silencing complex (RISC) complex and co-immunoprecipates with both TSN-1, the C. elegans Tudor-SN ortholog, and the let-7 miRNA. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	somatostatin receptor activity, 
jip-1	F56D12.4	JIP-1 is partly similar to the human gene ISLET-BRAIN 1 (MAPK8IP1. OMIM:604641), which when mutated leads to type II diabetes. [Source: WormBase]			
F56D12.t1	F56D12.t1				
F56D12.t2	F56D12.t2				
F56D12.t3	F56D12.t3				
F56D12.t4	F56D12.t4				
C13A10.1	C13A10.1	C13A10.1 [Source:RefSeq_peptide;Acc:NP_493954]			
C13A10.2	C13A10.2	C13A10.2 [Source:RefSeq_peptide;Acc:NP_493955]			
F54D12.t1	F54D12.t1				
F54D12.t2	F54D12.t2				
F54D12.4	F54D12.4	F54D12.4 [Source:RefSeq_peptide;Acc:NP_493956]	biological_process, 		
F54D12.5	F54D12.5	F54D12.5 [Source:RefSeq_peptide;Acc:NP_493957]	reproduction, homoiothermy, response to freezing, 		ice binding, 
rog-1	F54D12.6	F54D12.6 [Source:RefSeq_peptide;Acc:NP_493958]			insulin receptor binding, 
F54D12.10	F54D12.10	F54D12.10 [Source:RefSeq_peptide;Acc:NP_001022194]			
F54D12.9	F54D12.9	F54D12.9 [Source:RefSeq_peptide;Acc:NP_001022196]			
F54D12.7	F54D12.7	F54D12.7 [Source:RefSeq_peptide;Acc:NP_493959]			
aat-7	F54D12.3	aat-7 encodes a predicted amino acid transporter catalytic subunit. unlike catalytic subunits in other organisms, however, AAT-7 does not contain the highly conserved cysteine residue known to facilitate covalent interaction with a glycoprotein subunit, suggesting that AAT-7 does not require this residue for heterodimer formation or alternatively, does not require the glycoprotein subunit for function. [Source: WormBase]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
F54D12.11	F54D12.11	F54D12.11 [Source:RefSeq_peptide;Acc:NP_001022195]			
F54D12.8	F54D12.8	F54D12.8 [Source:RefSeq_peptide;Acc:NP_493961]			
F54D12.2	F54D12.2	F54D12.2 [Source:RefSeq_peptide;Acc:NP_493962]			
F54D12.1	F54D12.1	F54D12.1 [Source:RefSeq_peptide;Acc:NP_493963]			
Y51H7C.8	Y51H7C.8	Y51H7C.8 [Source:RefSeq_peptide;Acc:NP_493964]			
Y51H7C.7	Y51H7C.7	Y51H7C.7 [Source:RefSeq_peptide;Acc:NP_493965]			
cogc-4	Y51H7C.6	cogc-4 encodes an ortholog of mammalian COG-4, a subunit of lobe A of the conserved oligomeric Golgi complex (COGC). COGC-4 is required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe A subunits in both C. elegans and S. cerevisiae, COGC-4 is strongly required for normal function, while lobe B subunits are only partially required in either worms or yeast. [Source: WormBase]	regulation of cell migration, oviposition, 		
Y51H7C.9	Y51H7C.9	Y51H7C.9 [Source:RefSeq_peptide;Acc:NP_493968]	metabolic process, positive regulation of growth rate, 		catalytic activity, pyridoxal phosphate binding, amino acid binding, 
Y51H7C.5	Y51H7C.5	Y51H7C.5 [Source:RefSeq_peptide;Acc:NP_493969]	DNA repair, 		
Y51H7C.4	Y51H7C.4	Y51H7C.4 [Source:RefSeq_peptide;Acc:NP_493970]			
Y51H7C.10	Y51H7C.10	Y51H7C.10 [Source:RefSeq_peptide;Acc:NP_493971]			
Y51H7C.11	Y51H7C.11	Y51H7C.11 [Source:RefSeq_peptide;Acc:NP_493972]			
Y51H7C.3	Y51H7C.3	Y51H7C.3 [Source:RefSeq_peptide;Acc:NP_493973]			
Y51H7C.12	Y51H7C.12	Y51H7C.12 [Source:RefSeq_peptide;Acc:NP_493974]		extracellular region, 	
Y51H7C.2	Y51H7C.2	Y51H7C.2 [Source:RefSeq_peptide;Acc:NP_493975]		extracellular region, 	
Y51H7C.15	Y51H7C.15	Y51H7C.15 [Source:RefSeq_peptide;Acc:NP_001022460]			
Y51H7C.13	Y51H7C.13	Y51H7C.13 [Source:RefSeq_peptide;Acc:NP_493976]			
Y51H7C.1	Y51H7C.1	Y51H7C.1 [Source:RefSeq_peptide;Acc:NP_493977]			structural constituent of cell wall, 
col-70	H17B01.2	H17B01.2 [Source:RefSeq_peptide;Acc:NP_493978]			
H17B01.5	H17B01.5	H17B01.5 [Source:RefSeq_peptide;Acc:NP_001033334]			
H17B01.t1	H17B01.t1				
H17B01.t2	H17B01.t2				
H17B01.t3	H17B01.t3				
H17B01.t4	H17B01.t4				
H17B01.3	H17B01.3	H17B01.3 [Source:RefSeq_peptide;Acc:NP_493979]	lipid catabolic process, 		lipase activity, 
H17B01.4	H17B01.4	H17B01.4a [Source:RefSeq_peptide;Acc:NP_493980]	positive regulation of growth rate, 		
H17B01.1	H17B01.1	H17B01.1a [Source:RefSeq_peptide;Acc:NP_493981]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
math-45	Y51H7BM.1	MATH (meprin-associated Traf homology) domain containing family member (math-45) [Source:RefSeq_peptide;Acc:NP_493983]			
Y51H7BR.8	Y51H7BR.8	Y51H7BR.8 [Source:RefSeq_peptide;Acc:NP_001033340]	positive regulation of growth rate, 		
Y51H7BR.t1	Y51H7BR.t1				
sru-41	Y51H7BR.6		positive regulation of growth rate, 		
Y51H7BR.7	Y51H7BR.7	Y51H7BR.7 [Source:RefSeq_peptide;Acc:NP_493985]			
Y51H7BR.5	Y51H7BR.5	Y51H7BR.5 [Source:RefSeq_peptide;Acc:NP_493986]			
Y51H7BR.4	Y51H7BR.4	Y51H7BR.4 [Source:RefSeq_peptide;Acc:NP_493987]			
Y51H7BR.3	Y51H7BR.3	Y51H7BR.3 [Source:RefSeq_peptide;Acc:NP_493988]			protein binding, 
fbxb-43	Y51H7BR.2	F-box B protein family member (fbxb-43) [Source:RefSeq_peptide;Acc:NP_493989]			
fbxb-42	Y51H7BR.1	F-box B protein family member (fbxb-42) [Source:RefSeq_peptide;Acc:NP_493990]			
fbxb-44	K05F6.5	K05F6.5 encodes an unusual paraoxonase-like protein with an N-terminal F-box domain. it is homologous to the human PARAOXONASE 1 gene (PON1, OMIM:168820), which in some allelic forms is associated with susceptibility to coronary artery disease. [Source: WormBase]			
K05F6.11	K05F6.11	K05F6.11 [Source:RefSeq_peptide;Acc:NP_001040790]			arylesterase activity, 
K05F6.4	K05F6.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
K05F6.12	K05F6.12				
fbxb-52	K05F6.6	F-box B protein family member (fbxb-52) [Source:RefSeq_peptide;Acc:NP_493993]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
fbxb-51	K05F6.3	F-box B protein family member (fbxb-51) [Source:RefSeq_peptide;Acc:NP_493994]			
fbxb-54	K05F6.7	F-box B protein family member (fbxb-54) [Source:RefSeq_peptide;Acc:NP_493995]	protein folding, 		unfolded protein binding, 
fbxb-50	K05F6.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
K05F6.8	K05F6.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-49	K05F6.1	F-box B protein family member (fbxb-49) [Source:RefSeq_peptide;Acc:NP_493998]			
fbxb-46	K05F6.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
K05F6.10	K05F6.10				
math-38	T07H3.3	MATH (meprin-associated Traf homology) domain containing family member (math-38) [Source:RefSeq_peptide;Acc:NP_001040801]			
clec-21	T07H3.4	C-type LECtin family member (clec-21) [Source:RefSeq_peptide;Acc:NP_494002]			sugar binding, 
T07H3.7	T07H3.7	T07H3.7 [Source:RefSeq_peptide;Acc:NP_001022325]			
clec-20	T07H3.5	C-type LECtin family member (clec-20) [Source:RefSeq_peptide;Acc:NP_494003]			sugar binding, 
bath-46	T07H3.2	BTB and MATH domain containing family member (bath-46) [Source:RefSeq_peptide;Acc:NP_494004]			protein binding, 
bath-26	T07H3.6	BTB and MATH domain containing family member (bath-26) [Source:RefSeq_peptide;Acc:NP_494005]			protein binding, 
bath-47	T07H3.1	BTB and MATH domain-containing protein 47. [Source:Uniprot/SWISSPROT;Acc:O76612]			protein binding, 
bath-33	C08E3.3	BTB and MATH domain containing family member (bath-33) [Source:RefSeq_peptide;Acc:NP_494007]			protein binding, 
fbxa-161	C08E3.4	C08E3.4 [Source:RefSeq_peptide;Acc:NP_494008]			
fbxa-162	C08E3.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-163	C08E3.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C08E3.2	C08E3.2	C08E3.2 [Source:RefSeq_peptide;Acc:NP_494011]			protein binding, 
fbxa-164	C08E3.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
fbxa-165	C08E3.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-166	C08E3.9	C08E3.9 [Source:RefSeq_peptide;Acc:NP_494014]			protein binding, 
fbxa-158	C08E3.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-159	C08E3.11	C08E3.11 [Source:RefSeq_peptide;Acc:NP_494016]			
fbxa-160	C08E3.12	C08E3.12 [Source:RefSeq_peptide;Acc:NP_494017]			
C08E3.14	C08E3.14	C08E3.14 [Source:RefSeq_peptide;Acc:NP_001021935]			
C08E3.15	C08E3.15	C08E3.15 [Source:RefSeq_peptide;Acc:NP_001021936]			
C08E3.13	C08E3.13	C08E3.1 [Source:RefSeq_peptide;Acc:NP_494019]			
C08E3.1	C08E3.1	C08E3.1 [Source:RefSeq_peptide;Acc:NP_494019]			
srg-20	ZC204.4	Serpentine receptor class gamma-20 (Protein srg-20). [Source:Uniprot/SWISSPROT;Acc:P91535]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srh-72	ZC204.5	Serpentine receptor class H-72 (Protein srh-72). [Source:Uniprot/SWISSPROT;Acc:P91536]			
ZC204.6	ZC204.6	ZC204.6 [Source:RefSeq_peptide;Acc:NP_494022]	embryonic development ending in birth or egg hatching, 		
fbxb-27	ZC204.16				
fbxb-21	ZC204.8	fbxb-21 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXB-21 also contains a C-terminal type 2 F-box-associated domain of presently unknown function. [Source: WormBase]			
fbxb-20	ZC204.9	fbxb-20 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXB-20 also contains a C-terminal type 2 F-box-associated domain of presently unknown function. [Source: WormBase]			
fbxb-16	ZC204.10	fbxb-16 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXB-16 also contains a C-terminal type 2 F-box-associated domain of presently unknown function. [Source: WormBase]			
fbxb-15	ZC204.7	F-box B protein family member (fbxb-15) [Source:RefSeq_peptide;Acc:NP_494026]			
ZC204.11	ZC204.11	ZC204.11 [Source:RefSeq_peptide;Acc:NP_494027]	proteolysis, embryonic development ending in birth or egg hatching, 		protein binding, subtilase activity, 
ZC204.3	ZC204.3	ZC204.3 [Source:RefSeq_peptide;Acc:NP_494028]			protein binding, 
ZC204.12	ZC204.12	ZC204.12 [Source:RefSeq_peptide;Acc:NP_494029]			protein binding, 
ZC204.13	ZC204.13	ZC204.13 [Source:RefSeq_peptide;Acc:NP_494030]			
ZC204.14	ZC204.14	ZC204.14 [Source:RefSeq_peptide;Acc:NP_494031]			
ZC204.2	ZC204.2	ZC204.2 [Source:RefSeq_peptide;Acc:NP_494032]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ZC204.1	ZC204.1	ZC204.1 [Source:RefSeq_peptide;Acc:NP_494033]			
srw-97	ZC204.15	Serpentine Receptor, class W family member (srw-97) [Source:RefSeq_peptide;Acc:NP_494034]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhx-6	F58E1.6	nhx-6 encodes a sodium/proton exchanger expressed mainly in the basolateral plasma membranes of the most posterior and anterior cells of the intestine, but mainly in the apical surface of medial intestinal cells. nhx-6 has no obvious phenotype in mass RNAi screens. NHX-6 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of extracellular sodium for an intracellular proton. [Source: WormBase]	sodium ion transport, regulation of pH, embryonic development ending in birth or egg hatching, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
fbxb-17	F58E1.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F58E1.7	F58E1.7	F58E1.7 [Source:RefSeq_peptide;Acc:NP_494037]		membrane, 	
F58E1.4	F58E1.4	F58E1.4 [Source:RefSeq_peptide;Acc:NP_494038]		membrane, 	
fbxb-26	F58E1.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-25	F58E1.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-18	F58E1.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains leucine-rich repeats. [Source: WormBase]			protein binding, 
fbxb-19	F58E1.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F58E1.10	F58E1.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9TZG2]			
F58E1.11	F58E1.11	F58E1.11 [Source:RefSeq_peptide;Acc:NP_494044]	carboxylic acid metabolic process, 		transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer, 
F58E1.12	F58E1.12	F58E1.12 [Source:RefSeq_peptide;Acc:NP_494045]			
F58E1.13	F58E1.13	F58E1.13 [Source:RefSeq_peptide;Acc:NP_494046]			
fbxb-47	F58E1.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
sdz-18	F45C12.11	SKN-1 Dependent Zygotic transcript family member (sdz-18) [Source:RefSeq_peptide;Acc:NP_494049]			protein binding, 
math-29	F45C12.10	MATH (meprin-associated Traf homology) domain containing family member (math-29) [Source:RefSeq_peptide;Acc:NP_001040781]			protein binding, 
F45C12.9	F45C12.9	F45C12.9 [Source:RefSeq_peptide;Acc:NP_494051]			
fbxa-184	F45C12.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F45C12.12	F45C12.12	F45C12.12 [Source:RefSeq_peptide;Acc:NP_494053]	embryonic development ending in birth or egg hatching, 		protein binding, 
F45C12.7	F45C12.7	F45C12.7 [Source:RefSeq_peptide;Acc:NP_494054]	positive regulation of embryonic development, 		protein binding, 
fbxb-48	F45C12.13	F-box B protein family member (fbxb-48) [Source:RefSeq_peptide;Acc:NP_494055]			
fbxb-5	F45C12.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F45C12.6	F45C12.6	F45C12.6 [Source:RefSeq_peptide;Acc:NP_494057]			protein binding, 
fbxb-11	F45C12.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F45C12.4	F45C12.4	F45C12.4 [Source:RefSeq_peptide;Acc:NP_494059]			protein binding, 
F45C12.3	F45C12.3	F45C12.3 [Source:RefSeq_peptide;Acc:NP_494060]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F45C12.2	F45C12.2	F45C12.2 [Source:RefSeq_peptide;Acc:NP_494061]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F45C12.15	F45C12.15	F45C12.15 [Source:RefSeq_peptide;Acc:NP_494062]	intracellular protein transport, regulation of transcription, DNA-dependent, protein targeting, 	membrane, nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F45C12.16	F45C12.16	F45C12.16 [Source:RefSeq_peptide;Acc:NP_494063]		membrane, 	
F45C12.1	F45C12.1	F45C12.1 [Source:RefSeq_peptide;Acc:NP_494064]		membrane, intracellular, 	zinc ion binding, nucleic acid binding, 
K07G6.1	K07G6.1	K07G6.1 [Source:RefSeq_peptide;Acc:NP_494065]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
clec-19	F36H5.6	C-type LECtin family member (clec-19) [Source:RefSeq_peptide;Acc:NP_494066]	transport, 		transporter activity, binding, sugar binding, 
str-179	F36H5.7				
F36H5.8	F36H5.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	proteolysis, 	membrane, 	serine-type peptidase activity, 
F36H5.9	F36H5.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-12	F36H5.11	F-box B protein family member (fbxb-12) [Source:RefSeq_peptide;Acc:NP_494069]			
F36H5.10	F36H5.10	F36H5.10 [Source:RefSeq_peptide;Acc:NP_494070]			
fbxb-53	F36H5.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F36H5.4	F36H5.4	F36H5.4 [Source:RefSeq_peptide;Acc:NP_494072]			
math-28	F36H5.3	MATH (meprin-associated Traf homology) domain containing family member (math-28) [Source:RefSeq_peptide;Acc:NP_001040773]			
math-27	F36H5.2	The F36H5.2 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			
math-26	F36H5.1	The F36H5.1 gene encodes a protein closely similar to F36H5.2, which has a meprin-associated Traf homology (MATH) domain and may be involved in apoptosis. [Source: WormBase]			
math-3	C08F1.4	The C08F1.4 gene encodes a protein closely similar to F36H5.2, which has a meprin-associated Traf homology (MATH) domain and may be involved in apoptosis. [Source: WormBase]			
math-4	C08F1.5	MATH (meprin-associated Traf homology) domain containing family member (math-4) [Source:RefSeq_peptide;Acc:NP_001040735]			
C08F1.11	C08F1.11	C08F1.11 [Source:RefSeq_peptide;Acc:NP_001021937]			
C08F1.10	C08F1.10	C08F1.10 [Source:RefSeq_peptide;Acc:NP_872027]			
C08F1.6	C08F1.6	C08F1.6 [Source:RefSeq_peptide;Acc:NP_494078]			
fbxb-13	C08F1.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]	positive regulation of growth rate, 		
str-21	C08F1.2				
math-2	C08F1.1	MATH (meprin-associated Traf homology) domain containing family member (math-2) [Source:RefSeq_peptide;Acc:NP_494080]			
str-22	C08F1.7				
C08F1.8	C08F1.8	C08F1.8 [Source:RefSeq_peptide;Acc:NP_494081]			
fbxb-10	T08E11.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxa-3	T08E11.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T08E11.5	T08E11.5	T08E11.5 [Source:RefSeq_peptide;Acc:NP_494085]			
math-41	T08E11.4	MATH (meprin-associated Traf homology) domain containing family member (math-41) [Source:RefSeq_peptide;Acc:NP_494086]			protein binding, 
math-40	T08E11.3	MATH (meprin-associated Traf homology) domain containing family member (math-40) [Source:RefSeq_peptide;Acc:NP_494087]			
math-39	T08E11.2	MATH (meprin-associated Traf homology) domain containing family member (math-39) [Source:RefSeq_peptide;Acc:NP_494088]			
T08E11.8	T08E11.8	T08E11.8 [Source:RefSeq_peptide;Acc:NP_494089]			
T08E11.1	T08E11.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C52E2.5	C52E2.5	C52E2.5 [Source:RefSeq_peptide;Acc:NP_494091]			
C52E2.4	C52E2.4	C52E2.4 [Source:RefSeq_peptide;Acc:NP_494092]			
fbxb-97	C52E2.6	F-box B protein family member (fbxb-97) [Source:RefSeq_peptide;Acc:NP_494093]			
fbxb-96	C52E2.7	F-box B protein family member (fbxb-96) [Source:RefSeq_peptide;Acc:NP_494094]			
C52E2.3	C52E2.3	C52E2.3 [Source:RefSeq_peptide;Acc:NP_494095]			
C52E2.2	C52E2.2	C52E2.2 [Source:RefSeq_peptide;Acc:NP_494096]			
fbxb-95	C52E2.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C52E2.8	C52E2.8	C52E2.8 [Source:RefSeq_peptide;Acc:NP_494098]		cytoplasm, 	
C16C4.7	C16C4.7	C16C4.7 [Source:RefSeq_peptide;Acc:NP_494099]			
fbxb-98	C16C4.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
C16C4.17	C16C4.17	C16C4.17 [Source:RefSeq_peptide;Acc:NP_001021961]			
math-15	C16C4.5	MATH (meprin-associated Traf homology) domain containing family member (math-15) [Source:RefSeq_peptide;Acc:NP_494101]			
math-14	C16C4.4	MATH (meprin-associated Traf homology) domain containing family member (math-14) [Source:RefSeq_peptide;Acc:NP_494102]	protein secretion, 	membrane, 	protein binding, 
math-10	C16C4.15	MATH (meprin-associated Traf homology) domain containing family member (math-10) [Source:RefSeq_peptide;Acc:NP_494103]			
math-11	C16C4.16	MATH (meprin-associated Traf homology) domain containing family member (math-11) [Source:RefSeq_peptide;Acc:NP_494104]			
math-13	C16C4.3	MATH (meprin-associated Traf homology) domain containing family member (math-13) [Source:RefSeq_peptide;Acc:NP_494105]			
math-16	C16C4.8	MATH (meprin-associated Traf homology) domain containing family member (math-16) [Source:RefSeq_peptide;Acc:NP_494106]			
math-17	C16C4.9	MATH (meprin-associated Traf homology) domain containing family member (math-17) [Source:RefSeq_peptide;Acc:NP_494107]			
math-5	C16C4.10	MATH (meprin-associated Traf homology) domain containing family member (math-5) [Source:RefSeq_peptide;Acc:NP_494108]			
math-6	C16C4.11	MATH (meprin-associated Traf homology) domain containing family member (math-6) [Source:RefSeq_peptide;Acc:NP_494109]			
math-7	C16C4.12	MATH (meprin-associated Traf homology) domain containing family member (math-7) [Source:RefSeq_peptide;Acc:NP_494110]			
math-8	C16C4.13	MATH (meprin-associated Traf homology) domain containing family member (math-8) [Source:RefSeq_peptide;Acc:NP_494111]			
math-9	C16C4.14	MATH (meprin-associated Traf homology) domain containing family member (math-9) [Source:RefSeq_peptide;Acc:NP_494112]			
math-12	C16C4.2				
C16C4.1	C16C4.1	C16C4.1 [Source:RefSeq_peptide;Acc:NP_494114]			
math-25	C46F9.4	MATH (meprin-associated Traf homology) domain containing family member (math-25) [Source:RefSeq_peptide;Acc:NP_494115]	locomotory behavior, 		
math-24	C46F9.3	The C46F9.3 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			
math-23	C46F9.2	The C46F9.2 gene encodes a protein closely similar to C46F9.3, which has a meprin-associated Traf homology (MATH) domain and may be involved in apoptosis. [Source: WormBase]			
math-22	C46F9.1	MATH (meprin-associated Traf homology) domain containing family member (math-22) [Source:RefSeq_peptide;Acc:NP_494118]			
math-30	F52C6.5	MATH (meprin-associated Traf homology) domain containing family member (math-30) [Source:RefSeq_peptide;Acc:NP_494119]			
math-31	F52C6.6	MATH (meprin-associated Traf homology) domain containing family member (math-31) [Source:RefSeq_peptide;Acc:NP_494120]			
bath-11	F52C6.7				
bath-4	F52C6.8	BTB and MATH domain containing family member (bath-4) [Source:RefSeq_peptide;Acc:NP_494122]			protein binding, 
bath-6	F52C6.9				
bath-7	F52C6.10	BTB and MATH domain containing family member (bath-7) [Source:RefSeq_peptide;Acc:NP_494124]			protein binding, 
bath-2	F52C6.11	BTB and MATH domain containing family member (bath-2) [Source:RefSeq_peptide;Acc:NP_494125]			protein binding, 
F52C6.4	F52C6.4	MATH (meprin-associated Traf homology) domain containing family member (math-32) [Source:RefSeq_peptide;Acc:NP_494126]	protein modification process, 		
F52C6.3	F52C6.3	F52C6.3 [Source:RefSeq_peptide;Acc:NP_494127]	protein modification process, embryonic development ending in birth or egg hatching, 		protein binding, 
F52C6.2	F52C6.2	F52C6.2 [Source:RefSeq_peptide;Acc:NP_494128]	embryonic development ending in birth or egg hatching, 		protein binding, 
bath-22	F52C6.1				
F52C6.12	F52C6.12	F52C6.12 [Source:RefSeq_peptide;Acc:NP_494130]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, 		small conjugating protein ligase activity, 
F52C6.13	F52C6.13	F52C6.13 [Source:RefSeq_peptide;Acc:NP_494131]	positive regulation of growth rate, 		
F52C6.14	F52C6.14	F52C6.14 [Source:RefSeq_peptide;Acc:NP_494132]			
math-47	ZK250.5	math-47 encodes a protein containing a MATH domain and an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. MATH-47 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
math-48	ZK250.6	MATH (meprin-associated Traf homology) domain containing family member (math-48) [Source:RefSeq_peptide;Acc:NP_494136]			
ZK250.2	ZK250.2	ZK250.2 [Source:RefSeq_peptide;Acc:NP_494137]			
math-49	ZK250.7	MATH (meprin-associated Traf homology) domain containing family member (math-49) [Source:RefSeq_peptide;Acc:NP_494138]			
math-50	ZK250.8	math-50 encodes a protein which has a meprin-associated Traf homology (MATH) domain and may be involved in apoptosis. [Source: WormBase]	locomotory behavior, 		acyltransferase activity, 
ZK250.9	ZK250.9	Y16E11A.2 [Source:RefSeq_peptide;Acc:NP_494143]	amino acid metabolic process, 		nucleotide binding, nucleoside-triphosphatase activity, 
ZK250.10	ZK250.10				
Y16E11A.2	Y16E11A.2	Y16E11A.2 [Source:RefSeq_peptide;Acc:NP_494143]	amino acid metabolic process, 		nucleotide binding, nucleoside-triphosphatase activity, 
math-44	Y16E11A.1	MATH (meprin-associated Traf homology) domain containing family member (math-44) [Source:RefSeq_peptide;Acc:NP_494144]			
math-21	C40D2.3	MATH (meprin-associated Traf homology) domain containing family member (math-21) [Source:RefSeq_peptide;Acc:NP_494145]	locomotory behavior, 		
math-20	C40D2.2	The C40D2.2 gene encodes a protein closely similar to C46F9.3, which has a meprin-associated Traf homology (MATH) domain and may be involved in apoptosis. [Source: WormBase]			
math-19	C40D2.1	MATH (meprin-associated Traf homology) domain containing family member (math-19) [Source:RefSeq_peptide;Acc:NP_494147]			
C40D2.4	C40D2.4	C40D2.4 [Source:RefSeq_peptide;Acc:NP_494148]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F59H6.5	F59H6.5	F59H6.5 [Source:RefSeq_peptide;Acc:NP_494149]	amino acid metabolic process, 		nucleotide binding, nucleoside-triphosphatase activity, 
math-32	F59H6.4	F59H6.4 [Source:RefSeq_peptide;Acc:NP_494150]			
F59H6.6	F59H6.6	F59H6.6 [Source:RefSeq_peptide;Acc:NP_494151]			
F59H6.3	F59H6.3	F59H6.3 [Source:RefSeq_peptide;Acc:NP_494152]	embryonic development ending in birth or egg hatching, 		
F59H6.2	F59H6.2	F59H6.2 [Source:RefSeq_peptide;Acc:NP_494153]	signal transduction, chemotaxis, 	intracellular, 	signal transducer activity, 
cya-2	F59H6.7	CYclin A family member (cya-2) [Source:RefSeq_peptide;Acc:NP_494154]			
bath-21	F59H6.8	BTB and MATH domain containing family member (bath-21) [Source:RefSeq_peptide;Acc:NP_494155]			protein binding, 
bath-1	F59H6.9	BTB and MATH domain containing family member (bath-1) [Source:RefSeq_peptide;Acc:NP_494156]	embryonic development ending in birth or egg hatching, 		protein binding, 
bath-3	F59H6.10	BTB and MATH domain containing family member (bath-3) [Source:RefSeq_peptide;Acc:NP_494157]			protein binding, 
bath-5	F59H6.11	BTB and MATH domain containing family member (bath-5) [Source:RefSeq_peptide;Acc:NP_494158]			protein binding, 
F59H6.12	F59H6.12	F59H6.12 [Source:RefSeq_peptide;Acc:NP_494159]	positive regulation of growth rate, 		protein binding, 
bath-19	F59H6.1	Btb and math domain containing protein 19. [Source:Uniprot/SPTREMBL;Acc:Q9N5P6]			protein binding, 
bath-20	B0047.1	BTB and MATH domain containing family member (bath-20) [Source:RefSeq_peptide;Acc:NP_001033322]			protein binding, 
B0047.2	B0047.2	B0047.2 [Source:RefSeq_peptide;Acc:NP_494162]			protein binding, 
bath-24	B0047.3	BTB and MATH domain containing family member (bath-24) [Source:RefSeq_peptide;Acc:NP_494163]			protein binding, 
math-1	B0047.4	MATH (meprin-associated Traf homology) domain containing family member (math-1) [Source:RefSeq_peptide;Acc:NP_494164]	embryonic development ending in birth or egg hatching, 		
bath-14	B0047.5				
F07E5.4	F07E5.4	F07E5.4 [Source:RefSeq_peptide;Acc:NP_494166]			
fbxb-35	F07E5.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F07E5.5	F07E5.5	F07E5.5 [Source:RefSeq_peptide;Acc:NP_494168]	locomotory behavior, 		zinc ion binding, nucleic acid binding, 
fbxb-36	F07E5.6	F-box B protein family member (fbxb-36) [Source:RefSeq_peptide;Acc:NP_494169]			
fbxb-6	F07E5.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F07E5.7	F07E5.7	F07E5.7 [Source:RefSeq_peptide;Acc:NP_494171]			
F07E5.8	F07E5.8	F07E5.8 [Source:RefSeq_peptide;Acc:NP_494172]			
F07E5.9	F07E5.9	F07E5.9 [Source:RefSeq_peptide;Acc:NP_494173]	metabolic process, biological_process, 		oxidoreductase activity, 
F07E5.10	F07E5.10		biological_process, 		
T16A1.4	T16A1.4	T16A1.4 [Source:RefSeq_peptide;Acc:NP_494174]			
T16A1.5	T16A1.5	T16A1.5 [Source:RefSeq_peptide;Acc:NP_494175]			
T16A1.3	T16A1.3	T16A1.3 [Source:RefSeq_peptide;Acc:NP_494176]			
pqn-66	T16A1.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
fbxb-37	T16A1.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
T16A1.2	T16A1.2	T16A1.2 [Source:RefSeq_peptide;Acc:NP_494180]			
math-42	T16A1.1	MATH (meprin-associated Traf homology) domain containing family member (math-42) [Source:RefSeq_peptide;Acc:NP_001040807]			
math-35	R52.3	MATH (meprin-associated Traf homology) domain containing family member (math-35) [Source:RefSeq_peptide;Acc:NP_494182]			
R52.4	R52.4	R52.4 [Source:RefSeq_peptide;Acc:NP_494183]			
R52.5	R52.5	R52.5 [Source:RefSeq_peptide;Acc:NP_494184]			
R52.6	R52.6	R52.6 [Source:RefSeq_peptide;Acc:NP_494185]			
srh-195	R52.7	Serpentine Receptor, class H family member (srh-195) [Source:RefSeq_peptide;Acc:NP_494186]			
math-36	R52.8	MATH (meprin-associated Traf homology) domain containing family member (math-36) [Source:RefSeq_peptide;Acc:NP_494187]			
math-37	R52.9	MATH (meprin-associated Traf homology) domain containing family member (math-37) [Source:RefSeq_peptide;Acc:NP_494188]			
sdz-29	R52.10		embryonic development ending in birth or egg hatching, 		
R52.2	R52.2	R52.2 [Source:RefSeq_peptide;Acc:NP_494191]	proteolysis, 		zinc ion binding, nucleic acid binding, aspartic-type endopeptidase activity, 
sdz-28	R52.1	SKN-1 Dependent Zygotic transcript family member (sdz-28) [Source:RefSeq_peptide;Acc:NP_494192]	embryonic development ending in birth or egg hatching, 		protein binding, 
C40A11.5	C40A11.5	C40A11.5 [Source:RefSeq_peptide;Acc:NP_494193]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C40A11.10	C40A11.10	C40A11.10 [Source:RefSeq_peptide;Acc:NP_494194]			
C40A11.4	C40A11.4	C40A11.4 [Source:RefSeq_peptide;Acc:NP_494195]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
C40A11.3	C40A11.3	C40A11.3 [Source:RefSeq_peptide;Acc:NP_494196]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
C40A11.6	C40A11.6	C40A11.6 [Source:RefSeq_peptide;Acc:NP_494197]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
C40A11.2	C40A11.2	C40A11.2 [Source:RefSeq_peptide;Acc:NP_494198]	potassium ion transport, glycolysis, 	membrane, voltage-gated potassium channel complex, 	ATP binding, protein binding, voltage-gated potassium channel activity, hexokinase activity, 
C40A11.7	C40A11.7	C40A11.7 [Source:RefSeq_peptide;Acc:NP_494199]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
C40A11.8	C40A11.8	C40A11.8 [Source:RefSeq_peptide;Acc:NP_494200]			
math-18	C40A11.1	MATH (meprin-associated Traf homology) domain containing family member (math-18) [Source:RefSeq_peptide;Acc:NP_494201]			
C33C12.11	C33C12.11	C33C12.11 [Source:RefSeq_peptide;Acc:NP_001022010]			
C33C12.4	C33C12.4	C33C12.4 [Source:RefSeq_peptide;Acc:NP_494203]	embryonic development ending in birth or egg hatching, 		
fbxb-38	C33C12.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
srb-14	C33C12.6				
C33C12.7	C33C12.7	C33C12.7 [Source:RefSeq_peptide;Acc:NP_494206]			
C33C12.3	C33C12.3	C33C12.3a [Source:RefSeq_peptide;Acc:NP_001040750]	sphingolipid metabolic process, lysosome organization and biogenesis, 	lysosome, 	glucosylceramidase activity, 
C33C12.8	C33C12.8	C33C12.8 [Source:RefSeq_peptide;Acc:NP_494208]	sphingolipid metabolic process, lysosome organization and biogenesis, 	lysosome, 	glucosylceramidase activity, 
C33C12.9	C33C12.9	C33C12.9 [Source:RefSeq_peptide;Acc:NP_494209]	methylation, 		methyltransferase activity, nucleic acid binding, 
C33C12.10	C33C12.10	C33C12.10 [Source:RefSeq_peptide;Acc:NP_740972]			
C33C12.1	C33C12.1	C33C12.1 [Source:RefSeq_peptide;Acc:NP_494211]			
Y59C2A.2	Y59C2A.2	Y59C2A.2 [Source:RefSeq_peptide;Acc:NP_494212]			
Y59C2A.1	Y59C2A.1	Y59C2A.1 [Source:RefSeq_peptide;Acc:NP_494213]	proteolysis, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	zinc ion binding, rhodopsin-like receptor activity, carboxypeptidase A activity, 
Y59C2A.3	Y59C2A.3	Y59C2A.3 [Source:RefSeq_peptide;Acc:NP_494214]			
F54A3.4	F54A3.4	The F54A3.4 gene encodes a homolog of the human gene CBS, which when mutated leads to homocystinuria (OMIM:236200). [Source: WormBase]	metabolic process, electron transport, 		oxidoreductase activity, catalytic activity, pyridoxal phosphate binding, 
F54A3.5	F54A3.5	UPF0327 protein F54A3.5. [Source:Uniprot/SWISSPROT;Acc:Q9N4K0]			
F54A3.6	F54A3.6	F54A3.6 [Source:RefSeq_peptide;Acc:NP_494217]			
F54A3.3	F54A3.3	F54A3.3 [Source:RefSeq_peptide;Acc:NP_494218]	regulation of transcription, DNA-dependent, protein folding, cellular protein metabolic process, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, protein binding, DNA binding, unfolded protein binding, ligand-dependent nuclear receptor activity, 
F54A3.2	F54A3.2	F54A3.2 [Source:RefSeq_peptide;Acc:NP_494219]			
F54A3.1	F54A3.1	F54A3.1 [Source:RefSeq_peptide;Acc:NP_494220]			
K09F6.3	K09F6.3		protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
K09F6.4	K09F6.4	K09F6.4 [Source:RefSeq_peptide;Acc:NP_494222]			
K09F6.2	K09F6.2	K09F6.2 [Source:RefSeq_peptide;Acc:NP_494223]			
K09F6.5	K09F6.5	K09F6.5 [Source:RefSeq_peptide;Acc:NP_494224]			ribonucleoside-diphosphate reductase activity, 
K09F6.6	K09F6.6	K09F6.6 [Source:RefSeq_peptide;Acc:NP_494225]	embryonic development ending in birth or egg hatching, 		
K09F6.11	K09F6.11	K09F6.11 [Source:RefSeq_peptide;Acc:NP_001022244]		intracellular, 	zinc ion binding, nucleic acid binding, 
K09F6.9	K09F6.9	K09F6.9 [Source:RefSeq_peptide;Acc:NP_740973]		viral capsid, 	structural molecule activity, 
K09F6.10	K09F6.10	K09F6.10 [Source:RefSeq_peptide;Acc:NP_740974]			
K09F6.7	K09F6.7	K09F6.7 [Source:RefSeq_peptide;Acc:NP_494227]		intracellular, 	protein binding, zinc ion binding, 
K09F6.8	K09F6.8	K09F6.8 [Source:RefSeq_peptide;Acc:NP_494228]			
B0281.4	B0281.4	B0281.4 [Source:RefSeq_peptide;Acc:NP_494229]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
B0281.5	B0281.5	B0281.5 [Source:RefSeq_peptide;Acc:NP_494230]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
B0281.6	B0281.6	B0281.6 [Source:RefSeq_peptide;Acc:NP_494231]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
B0281.3	B0281.3	B0281.3 [Source:RefSeq_peptide;Acc:NP_494232]	vesicle-mediated transport, 	membrane, intracellular, 	protein binding, zinc ion binding, 
B0281.7	B0281.7				
B0281.8	B0281.8	B0281.8 [Source:RefSeq_peptide;Acc:NP_494234]		intracellular, 	protein binding, zinc ion binding, 
B0281.1	B0281.1	B0281.1 [Source:RefSeq_peptide;Acc:NP_494235]			
ZK1240.4	ZK1240.4	ZK1240.4 [Source:RefSeq_peptide;Acc:NP_494236]			
ZK1240.5	ZK1240.5	ZK1240.5 [Source:RefSeq_peptide;Acc:NP_494237]		intracellular, 	zinc ion binding, 
ZK1240.9	ZK1240.9	ZK1240.9 [Source:RefSeq_peptide;Acc:NP_494238]		intracellular, 	protein binding, zinc ion binding, 
ZK1240.3	ZK1240.3	ZK1240.3 [Source:RefSeq_peptide;Acc:NP_494239]		intracellular, 	protein binding, zinc ion binding, 
ZK1240.6	ZK1240.6	ZK1240.6 [Source:RefSeq_peptide;Acc:NP_494240]		intracellular, 	protein binding, zinc ion binding, 
ZK1240.2	ZK1240.2	ZK1240.2 [Source:RefSeq_peptide;Acc:NP_494241]		intracellular, 	protein binding, zinc ion binding, 
ZK1240.8	ZK1240.8	ZK1240.8 [Source:RefSeq_peptide;Acc:NP_494242]		intracellular, 	protein binding, zinc ion binding, 
ZK1240.1	ZK1240.1	ZK1240.1 [Source:RefSeq_peptide;Acc:NP_494243]	biological_process, 	intracellular, 	protein binding, zinc ion binding, 
F43C11.8	F43C11.8	F43C11.8 [Source:RefSeq_peptide;Acc:NP_494244]		intracellular, 	protein binding, zinc ion binding, 
F43C11.7	F43C11.7	F43C11.7 [Source:RefSeq_peptide;Acc:NP_494245]		intracellular, 	protein binding, zinc ion binding, 
F43C11.9	F43C11.9	F43C11.9 [Source:RefSeq_peptide;Acc:NP_494246]			
F43C11.6	F43C11.6	F43C11.6 [Source:RefSeq_peptide;Acc:NP_494247]			
F43C11.5	F43C11.5	F43C11.5 [Source:RefSeq_peptide;Acc:NP_494248]			
F43C11.4	F43C11.4	F43C11.4 [Source:RefSeq_peptide;Acc:NP_494249]			
F43C11.10	F43C11.10	F43C11.10 [Source:RefSeq_peptide;Acc:NP_494250]			
F43C11.3	F43C11.3	F43C11.3 [Source:RefSeq_peptide;Acc:NP_494251]			
F43C11.2	F43C11.2	F43C11.2 [Source:RefSeq_peptide;Acc:NP_494252]			
F43C11.1	F43C11.1	F43C11.1 [Source:RefSeq_peptide;Acc:NP_494253]			
F43C11.11	F43C11.11	F43C11.11 [Source:RefSeq_peptide;Acc:NP_494254]			
F43C11.12	F43C11.12	F43C11.12 [Source:RefSeq_peptide;Acc:NP_494255]			
F16G10.5	F16G10.5	F16G10.5 [Source:RefSeq_peptide;Acc:NP_494256]			
F16G10.4	F16G10.4	F16G10.4 [Source:RefSeq_peptide;Acc:NP_494257]	flagellum biogenesis, 	flagellin-based flagellum hook, 	structural molecule activity, 
F16G10.3	F16G10.3	F16G10.3 [Source:RefSeq_peptide;Acc:NP_494258]			
F16G10.2	F16G10.2	F16G10.2 [Source:RefSeq_peptide;Acc:NP_494259]			
F16G10.6	F16G10.6	F16G10.6 [Source:RefSeq_peptide;Acc:NP_494260]			
F16G10.7	F16G10.7	F16G10.7 [Source:RefSeq_peptide;Acc:NP_494261]			
F16G10.8	F16G10.8	F16G10.8 [Source:RefSeq_peptide;Acc:NP_494262]			
F16G10.9	F16G10.9	F16G10.9 [Source:RefSeq_peptide;Acc:NP_494263]			
F16G10.10	F16G10.10	F16G10.10 [Source:RefSeq_peptide;Acc:NP_494264]			
F16G10.11	F16G10.11	F16G10.11 [Source:RefSeq_peptide;Acc:NP_494265]			
F16G10.13	F16G10.13	F16G10.13 [Source:RefSeq_peptide;Acc:NP_494266]			
F16G10.14	F16G10.14	F16G10.14 [Source:RefSeq_peptide;Acc:NP_494267]			
F16G10.1	F16G10.1	F16G10.1 [Source:RefSeq_peptide;Acc:NP_494268]			
F16G10.15	F16G10.15	F16G10.15 [Source:RefSeq_peptide;Acc:NP_494269]			
F30D4.1	F30D4.1				
fbxa-182	F42G2.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-4	F42G2.8	F-box A protein family member (fbxa-4) [Source:RefSeq_peptide;Acc:NP_001040779]			
F42G2.5	F42G2.5	F42G2.5 [Source:RefSeq_peptide;Acc:NP_494271]			protein binding, zinc ion binding, structural molecule activity, 
F42G2.7	F42G2.7	F42G2.7 [Source:RefSeq_peptide;Acc:NP_001022160]			
F42G2.3	F42G2.3	F42G2.3 [Source:RefSeq_peptide;Acc:NP_494272]			protein binding, 
F42G2.2	F42G2.2	F42G2.2 [Source:RefSeq_peptide;Acc:NP_494273]			
F42G2.6	F42G2.6	F42G2.6 [Source:RefSeq_peptide;Acc:NP_494274]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F42G2.t1	F42G2.t1				
vab-19	T22D2.1	vab-19 encodes an ankyrin repeat-containing protein that is a member of a conserved family of proteins that includes human Kank, a predicted tumor suppressor. during embryonic morphogenesis, vab-19 activity is essential for epidermal elongation and proper attachment of muscle to the epidermis, specifically the localization of attachment structures to muscle-adjacent regions of epidermal cells and normal epidermal actin organization. a VAB-19::GFP fusion protein is expressed in dorsal and ventral epidermal cells where it organizes into circumferential bands and colocalizes with components of epidermal attachment structures. VAB-19::GFP is also detected in mechanosensory neuronal processes. recruitment of VAB-19 to epidermal attachment structures requires activity of VAB-10/Spectraplakin, while VAB-19 and LET-805/Myotactin are mutually required for localization into circumferential stripes. [Source: WormBase]	post-embryonic body morphogenesis, 		
pqn-42	F53G2.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
tsr-1	F53G2.6	tsr-1 encodes a homolog of human transportin-SR, a nuclear transport receptor, and affects embryonic viability. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, binding, 
mnat-1	F53G2.7	MNAT (menage a trois) TFIIH subunit family member (mnat-1) [Source:RefSeq_peptide;Acc:NP_494280]	cell cycle, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, 
F53G2.3	F53G2.3	F53G2.3 [Source:RefSeq_peptide;Acc:NP_494281]			
F53G2.2	F53G2.2	F53G2.2 [Source:RefSeq_peptide;Acc:NP_494282]			
F53G2.8	F53G2.8	F53G2.8 [Source:RefSeq_peptide;Acc:NP_494283]			
F53G2.1	F53G2.1	F53G2.1 [Source:RefSeq_peptide;Acc:NP_494284]			protein binding, 
F59H5.1	F59H5.1	F59H5.1 encodes an unfamiliar protein with a low-complexity N-terminal region and a C-terminal DUF545 motif (of unknown function, found solely in nematode proteins). F59H5.1 is expressed in neuronal head ganglia, intestinal cells, hypodermal cells, and coelomocytes, with strong expression in embryos. F59H5.1 has no obvious function or phenotype in RNAi assays, whether in a normal background or in goa-1(-) or goa-1(gf) mutant backgrounds. [Source: WormBase]			
bath-12	F59H5.3				
bath-13	F40B1.1	BTB and MATH domain containing family member (bath-13) [Source:RefSeq_peptide;Acc:NP_494287]			protein binding, 
bath-18	F40B1.2				
K02F6.7	K02F6.7	K02F6.7 [Source:RefSeq_peptide;Acc:NP_494289]			
K02F6.6	K02F6.6	K02F6.6 [Source:RefSeq_peptide;Acc:NP_494290]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
K02F6.8	K02F6.8	K02F6.8 [Source:RefSeq_peptide;Acc:NP_494291]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
K02F6.5	K02F6.5	K02F6.5 [Source:RefSeq_peptide;Acc:NP_494292]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
K02F6.4	K02F6.4	K02F6.4 [Source:RefSeq_peptide;Acc:NP_494293]		intracellular, 	
K02F6.3	K02F6.3	K02F6.3 [Source:RefSeq_peptide;Acc:NP_494294]			
K02F6.2	K02F6.2	K02F6.2 [Source:RefSeq_peptide;Acc:NP_494295]		intracellular, 	
K02F6.1	K02F6.1	K02F6.1 [Source:RefSeq_peptide;Acc:NP_494296]	proteolysis, 		zinc ion binding, nucleic acid binding, aspartic-type endopeptidase activity, 
K02F6.9	K02F6.9	K02F6.9 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. K02F6.9 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F09D1.1	F09D1.1	F09D1.1 [Source:RefSeq_peptide;Acc:NP_494298]	ubiquitin-dependent protein catabolic process, biological_process, 		zinc ion binding, ubiquitin thiolesterase activity, 
sri-75	F33H12.3				
sri-74	F33H12.4	Serpentine Receptor, class I family member (sri-74) [Source:RefSeq_peptide;Acc:NP_494299]	transport, 	membrane, 	hydrogen:sugar symporter activity, 
sri-36	F33H12.5	Serpentine Receptor, class I family member (sri-36) [Source:RefSeq_peptide;Acc:NP_494300]			
F33H12.7	F33H12.7				
sri-39	F33H12.2	Serpentine Receptor, class I family member (sri-39) [Source:RefSeq_peptide;Acc:NP_494301]			
F33H12.6	F33H12.6	F33H12.6 [Source:RefSeq_peptide;Acc:NP_494302]	amino acid metabolic process, 		nucleotide binding, nucleoside-triphosphatase activity, 
F33H12.1	F33H12.1	F33H12.1 [Source:RefSeq_peptide;Acc:NP_494303]		intracellular, 	
sri-77	D2062.9	Serpentine Receptor, class I family member (sri-77) [Source:RefSeq_peptide;Acc:NP_494304]			
sri-76	D2062.10				
sri-38	D2062.8	Serpentine Receptor, class I family member (sri-38) [Source:RefSeq_peptide;Acc:NP_494305]			
D2062.7	D2062.7	D2062.7 [Source:RefSeq_peptide;Acc:NP_494306]			
D2062.6	D2062.6	D2062.6 [Source:RefSeq_peptide;Acc:NP_494307]	homoiothermy, response to freezing, 		ice binding, 
D2062.5	D2062.5	D2062.5 [Source:RefSeq_peptide;Acc:NP_494308]			
D2062.4	D2062.4	D2062.4 [Source:RefSeq_peptide;Acc:NP_494309]			
lgc-28	D2062.12	D2062.12 [Source:RefSeq_peptide;Acc:NP_001022053]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
sri-71	D2062.3	Serpentine Receptor, class I family member (sri-71) [Source:RefSeq_peptide;Acc:NP_494310]			
sri-37	D2062.2	Serpentine Receptor, class I family member (sri-37) [Source:RefSeq_peptide;Acc:NP_494311]			
D2062.1	D2062.1	D2062.1 [Source:RefSeq_peptide;Acc:NP_494312]		extracellular region, 	
sri-41	F22E5.10				
F22E5.21	F22E5.21	F22E5.21 [Source:RefSeq_peptide;Acc:NP_001022111]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
F22E5.9	F22E5.9	F22E5.9 [Source:RefSeq_peptide;Acc:NP_494314]			
F22E5.8	F22E5.8	F22E5.8 [Source:RefSeq_peptide;Acc:NP_494315]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F22E5.7	F22E5.7	F22E5.7 [Source:RefSeq_peptide;Acc:NP_494316]			
F22E5.11	F22E5.11	F22E5.11 [Source:RefSeq_peptide;Acc:NP_494317]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F22E5.12	F22E5.12	F22E5.12 [Source:RefSeq_peptide;Acc:NP_494318]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F22E5.13	F22E5.13	F22E5.13 [Source:RefSeq_peptide;Acc:NP_494319]			
F22E5.6	F22E5.6	F22E5.6 [Source:RefSeq_peptide;Acc:NP_494320]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
sri-49	F22E5.14				
sri-52	F22E5.5				
sri-47	F22E5.4	Serpentine Receptor, class I family member (sri-47) [Source:RefSeq_peptide;Acc:NP_494323]			
F22E5.19	F22E5.19				
gcy-21	F22E5.3	gcy-21 is predicted to encode a guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
F22E5.2	F22E5.2	F22E5.2 [Source:RefSeq_peptide;Acc:NP_494325]			
sri-55	F22E5.15		embryonic development ending in birth or egg hatching, 		
sri-59	F22E5.18		embryonic development ending in birth or egg hatching, 		
sri-57	F22E5.16	Serpentine Receptor, class I family member (sri-57) [Source:RefSeq_peptide;Acc:NP_494328]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
F22E5.20	F22E5.20	F22E5.20 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F22E5.1	F22E5.1	F22E5.1 [Source:RefSeq_peptide;Acc:NP_494329]			
F22E5.17	F22E5.17	F22E5.17 [Source:RefSeq_peptide;Acc:NP_494330]			protein binding, 
F34D6.1	F34D6.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F34D6.2	F34D6.2	F34D6.2 [Source:RefSeq_peptide;Acc:NP_494332]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
sup-9	F34D6.3	sup-9 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. sup-9 was originally defined by gain-of-function mutations that result in defects in pharyngeal, body-wall, egg-laying, and enteric muscle activation. loss of sup-9 function via reversion or RNA-mediated interference (RNAi) does not result in any abnormalities suggesting that SUP-9 may function redundantly with other TWK channels. SUP-9 is expressed in neurons and muscle. [Source: WormBase]	potassium ion transport, regulation of muscle contraction, 	membrane, integral to plasma membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
F34D6.7	F34D6.7	F34D6.7 [Source:RefSeq_peptide;Acc:NP_001022143]			
F34D6.8	F34D6.8	F34D6.8 [Source:RefSeq_peptide;Acc:NP_001022144]			
F34D6.9	F34D6.9	F34D6.9 [Source:RefSeq_peptide;Acc:NP_001022145]			
set-11	F34D6.4	F34D6.4 [Source:RefSeq_peptide;Acc:NP_494334]	chromatin modification, 	nucleus, 	zinc ion binding, histone-lysine N-methyltransferase activity, 
sri-62	F34D6.5	Serpentine Receptor, class I family member (sri-62) [Source:RefSeq_peptide;Acc:NP_494335]	electron transport, photosynthesis, light reaction, 	plasma membrane light-harvesting complex, 	electron transporter, transferring electrons within the cyclic electron transport pathway of photosynthesis activity, 
sri-61	F34D6.6	Serpentine Receptor, class I family member (sri-61) [Source:RefSeq_peptide;Acc:NP_494336]			
sri-60	Y47G7B.3	Serpentine Receptor, class I family member (sri-60) [Source:RefSeq_peptide;Acc:NP_494337]			
srh-128	Y47G7B.1	Serpentine Receptor, class H family member (srh-128) [Source:RefSeq_peptide;Acc:NP_494338]			
Y47G7B.2	Y47G7B.2	Y47G7B.2 [Source:RefSeq_peptide;Acc:NP_494339]			
T05A8.1	T05A8.1	T05A8.1 [Source:RefSeq_peptide;Acc:NP_494340]			
T05A8.2	T05A8.2	T05A8.2 [Source:RefSeq_peptide;Acc:NP_494341]			
T05A8.3	T05A8.3	T05A8.3 [Source:RefSeq_peptide;Acc:NP_494342]			
nep-2	T05A8.4	T05A8.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. while T05A8.4 is an ortholog of mammalian neutral endopeptidase (NEP), expressed on the brush-border membranes of kidney. more generally, T05A8.4 falls into a group of proteins that includes the classical neprilysins found in mammals (e.g., PEX [OMIM:307800] and the enkephalin cleaving enzymes). [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T05A8.5	T05A8.5	T05A8.5 [Source:RefSeq_peptide;Acc:NP_494344]			
T05A8.t2	T05A8.t2				
T05A8.t1	T05A8.t1				
T05A8.8	T05A8.8	T05A8.8 [Source:RefSeq_peptide;Acc:NP_001022313]			
T05A8.6	T05A8.6	T05A8.6 [Source:RefSeq_peptide;Acc:NP_494345]			
T05A8.7	T05A8.7	T05A8.7 [Source:RefSeq_peptide;Acc:NP_494346]			
F29A7.5	F29A7.5	F29A7.5 [Source:RefSeq_peptide;Acc:NP_494347]			
F29A7.4	F29A7.4	F29A7.4 [Source:RefSeq_peptide;Acc:NP_494348]			
F29A7.6	F29A7.6	Protein F29A7.6. [Source:Uniprot/SWISSPROT;Acc:O16207]	positive regulation of growth rate, 		
F29A7.3	F29A7.3	F29A7.3 [Source:RefSeq_peptide;Acc:NP_494350]			
F29A7.7	F29A7.7	F29A7.7 [Source:RefSeq_peptide;Acc:NP_494351]			
F29A7.8	F29A7.8	F29A7.8 [Source:RefSeq_peptide;Acc:NP_494352]			
fbxb-107	F29A7.2	F-box B protein family member (fbxb-107) [Source:RefSeq_peptide;Acc:NP_494353]			
fbxb-106	F29A7.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-108	F08D12.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
F08D12.7	F08D12.7	F08D12.7 encodes a novel protein conserved amongst Caenorhaditis species. although loss of F08D12.7 activity via RNAi results in no obvious defects, F08D12.7 transcripts are enriched in L1-stage muscle and upregulated in L2 larvae in response to overexpression of hlh-2 and hlh-8. in addition, in analyses of the early embryonic transcriptome, F08D12.7 transcripts are classified as strictly maternal. an F08D12.7::gfp reporter fusion is expressed in the vm1 and vm2 vulval muscles, the intestinal and anal depressor muscles, the hypodermis, distal tip cell, ventral nerve cord, head and tail neurons, and body wall muscle. [Source: WormBase]			
fbxb-105	F08D12.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
sdz-10	F08D12.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
sdz-9	F08D12.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-111	F08D12.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F08D12.3	F08D12.3	F08D12.3b [Source:RefSeq_peptide;Acc:NP_494361]			protein binding, 
F08D12.4	F08D12.4	F08D12.4 [Source:RefSeq_peptide;Acc:NP_494362]			sugar binding, 
F08D12.2	F08D12.2	F08D12.2 [Source:RefSeq_peptide;Acc:NP_494364]			
F08D12.12	F08D12.12	F08D12.12 [Source:RefSeq_peptide;Acc:NP_494365]			
F08D12.1	F08D12.1	Signal recognition particle 72 kDa protein homolog (SRP72). [Source:Uniprot/SWISSPROT;Acc:P91240]	SRP-dependent cotranslational protein targeting to membrane, positive regulation of growth rate, 	signal recognition particle, 	binding, 7S RNA binding, 
F08D12.13	F08D12.13	F08D12.13 [Source:RefSeq_peptide;Acc:NP_494367]			
nhr-119	K12H6.1	Nuclear Hormone Receptor family member (nhr-119) [Source:RefSeq_peptide;Acc:NP_494368]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
K12H6.12	K12H6.12	K12H6.12 [Source:RefSeq_peptide;Acc:NP_494369]		intracellular, 	zinc ion binding, nucleic acid binding, 
K12H6.2	K12H6.2	K12H6.2 [Source:RefSeq_peptide;Acc:NP_494370]			
set-13	K12H6.11	K12H6.11 [Source:RefSeq_peptide;Acc:NP_494371]		nucleus, 	
fut-4	K12H6.3	fut-4 encodes a member of the glycosyltransferase 10 family. [Source: WormBase]	protein amino acid glycosylation, 	membrane, 	fucosyltransferase activity, 
K12H6.10	K12H6.10	K12H6.10 [Source:RefSeq_peptide;Acc:NP_494373]			
K12H6.4	K12H6.4	K12H6.4 [Source:RefSeq_peptide;Acc:NP_494374]			
K12H6.9	K12H6.9	K12H6.9 [Source:RefSeq_peptide;Acc:NP_494375]			
K12H6.5	K12H6.5	K12H6.5 [Source:RefSeq_peptide;Acc:NP_494376]			
K12H6.8	K12H6.8	K12H6.8 [Source:RefSeq_peptide;Acc:NP_494377]			
K12H6.6	K12H6.6	K12H6.6a [Source:RefSeq_peptide;Acc:NP_494378]		integral to membrane, 	
K12H6.7	K12H6.7	K12H6.7 [Source:RefSeq_peptide;Acc:NP_494379]			protein binding, 
Y110A2AL.4	Y110A2AL.4	Y110A2AL.4a [Source:RefSeq_peptide;Acc:NP_494380]	positive regulation of growth rate, 		
Y110A2AL.6	Y110A2AL.6	Y110A2AL.6 [Source:RefSeq_peptide;Acc:NP_494381]			
Y110A2AL.7	Y110A2AL.7	Y110A2AL.7 [Source:RefSeq_peptide;Acc:NP_494382]			
ptc-3	Y110A2AL.8	ptc-3 encodes an ortholog of Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome), which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTC-3 is strongly required for normal molting from L1 to L3 larval stages. PTC-3 is also required for normal growth to full size and for viability. [Source: WormBase]	biological_process, 	membrane, integral to membrane, 	hedgehog receptor activity, 
Y110A2AL.t1	Y110A2AL.t1				
Y110A2AL.t2	Y110A2AL.t2				
Y110A2AL.5	Y110A2AL.5	Y110A2AL.5 [Source:RefSeq_peptide;Acc:NP_494385]			
Y110A2AL.9	Y110A2AL.9	Y110A2AL.9 [Source:RefSeq_peptide;Acc:NP_494386]			
Y110A2AL.3	Y110A2AL.3	Y110A2AL.3 [Source:RefSeq_peptide;Acc:NP_494387]			
Y110A2AL.2	Y110A2AL.2	Y110A2AL.2 [Source:RefSeq_peptide;Acc:NP_494388]			
Y110A2AL.10	Y110A2AL.10	Y110A2AL.10 [Source:RefSeq_peptide;Acc:NP_494389]			
Y110A2AL.1	Y110A2AL.1	Y110A2AL.1 [Source:RefSeq_peptide;Acc:NP_494390]			
Y110A2AL.12	Y110A2AL.12	Y110A2AL.12a [Source:RefSeq_peptide;Acc:NP_001022407]	GPI anchor biosynthetic process, 	integral to membrane, endoplasmic reticulum membrane, 	transferase activity, transferring acyl groups, 
Y110A2AL.13	Y110A2AL.13	Y110A2AL.13 [Source:RefSeq_peptide;Acc:NP_494393]			protein binding, isomerase activity, 
sqv-2	Y110A2AL.14	sqv-2 encodes a glycosaminoglycan galactosyltransferase II, biochemically active in vitro, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. the common requirement for SQV-2 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	protein amino acid glycosylation, embryonic development ending in birth or egg hatching, morphogenesis of an epithelium, 	membrane, 	galactosyltransferase activity, 
ubc-26	Y110A2AM.3	UBiquitin Conjugating enzyme family member (ubc-26) [Source:RefSeq_peptide;Acc:NP_871922]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
Y110A2AM.4	Y110A2AM.4	Y110A2AM.4 [Source:RefSeq_peptide;Acc:NP_001022409]			
Y110A2AM.1	Y110A2AM.1	Y110A2AM.1 [Source:RefSeq_peptide;Acc:NP_494396]			amidase activity, 
ubc-15	Y110A2AR.2	ubc-15 encodes an E2 ubiquitin-conjugating enzyme predicted to mediate the covalent attachment of an activated ubiquityl moiety to a substrate protein. as loss of UBC-15 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UBC-15 in C. elegans development and/or behavior is not yet known. by sequence similarity, however, UBC-15 is predicted to function in protein modification and turnover. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
Y110A2AR.3	Y110A2AR.3	Y110A2AR.3a [Source:RefSeq_peptide;Acc:NP_494398]	endocytosis, 	membrane, 	
Y110A2AR.1	Y110A2AR.1	Y110A2AR.1 [Source:RefSeq_peptide;Acc:NP_494399]			
ZK355.2	ZK355.2	ZK355.2a [Source:RefSeq_peptide;Acc:NP_494400]			
ZK355.3	ZK355.3	ZK355.3 [Source:RefSeq_peptide;Acc:NP_494401]			
ZK355.4	ZK355.4	ZK355.4 [Source:RefSeq_peptide;Acc:NP_494402]		membrane, 	
ZK355.1	ZK355.1	ZK355.1 [Source:RefSeq_peptide;Acc:NP_494403]		membrane, 	
ZK355.7	ZK355.7	ZK355.7 [Source:RefSeq_peptide;Acc:NP_001022520]		membrane, 	
ZK355.5	ZK355.5	ZK355.5 [Source:RefSeq_peptide;Acc:NP_494404]		membrane, 	
ZK355.6	ZK355.6	ZK355.6 [Source:RefSeq_peptide;Acc:NP_494405]		membrane, 	
T11F1.7	T11F1.7	T11F1.7a [Source:RefSeq_peptide;Acc:NP_001040803]		membrane, 	
T11F1.6	T11F1.6	T11F1.6 [Source:RefSeq_peptide;Acc:NP_494407]		membrane, 	
srw-79	T11F1.5	Serpentine Receptor, class W family member (srw-79) [Source:RefSeq_peptide;Acc:NP_494408]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T11F1.8	T11F1.8	T11F1.8 [Source:RefSeq_peptide;Acc:NP_494409]		membrane, 	
T11F1.3	T11F1.3	T11F1.3 [Source:RefSeq_peptide;Acc:NP_494410]			
T11F1.2	T11F1.2	T11F1.2 [Source:RefSeq_peptide;Acc:NP_494411]		membrane, 	
srw-60	T11F1.1	Serpentine Receptor, class W family member (srw-60) [Source:RefSeq_peptide;Acc:NP_494412]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-88	K08A2.5	Nuclear Hormone Receptor family member (nhr-88) [Source:RefSeq_peptide;Acc:NP_001022235]	regulation of transcription, DNA-dependent, transposition, DNA-mediated, DNA integration, homoiothermy, response to freezing, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, transposase activity, ice binding, 
K08A2.4	K08A2.4	K08A2.4 [Source:RefSeq_peptide;Acc:NP_494417]			
K08A2.2	K08A2.2	K08A2.2 [Source:RefSeq_peptide;Acc:NP_494418]			
K08A2.1	K08A2.1	K08A2.1 [Source:RefSeq_peptide;Acc:NP_494419]			
C41H7.6	C41H7.6	C41H7.6 [Source:RefSeq_peptide;Acc:NP_494420]	embryonic development ending in birth or egg hatching, 		
C41H7.5	C41H7.5	C41H7.5 [Source:RefSeq_peptide;Acc:NP_494421]			
C41H7.4	C41H7.4	C41H7.4 [Source:RefSeq_peptide;Acc:NP_494422]	positive regulation of growth rate, 		
C41H7.3	C41H7.3	C41H7.3 [Source:RefSeq_peptide;Acc:NP_494423]			
sdz-5	C41H7.8	SKN-1 Dependent Zygotic transcript family member (sdz-5) [Source:RefSeq_peptide;Acc:NP_872062]			
C41H7.9	C41H7.9	C41H7.9 [Source:RefSeq_peptide;Acc:NP_001022025]			
C41H7.2	C41H7.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
C41H7.1	C41H7.1	C41H7.1 [Source:RefSeq_peptide;Acc:NP_494425]			
clec-3	C41H7.7	C-type LECtin family member (clec-3) [Source:RefSeq_peptide;Acc:NP_494426]			sugar binding, 
clec-2	B0454.7	C-type LECtin family member (clec-2) [Source:RefSeq_peptide;Acc:NP_494427]			sugar binding, 
B0454.6	B0454.6	B0454.6 [Source:RefSeq_peptide;Acc:NP_494428]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
B0454.5	B0454.5	B0454.5 [Source:RefSeq_peptide;Acc:NP_494429]			
B0454.8	B0454.8	B0454.8 [Source:RefSeq_peptide;Acc:NP_494430]			protein binding, 
sri-29	B0454.4	Serpentine Receptor, class I family member (sri-29) [Source:RefSeq_peptide;Acc:NP_494431]			
sri-30	B0454.10	Serpentine Receptor, class I family member (sri-30) [Source:RefSeq_peptide;Acc:NP_494432]			
sri-28	B0454.3	Serpentine Receptor, class I family member (sri-28) [Source:RefSeq_peptide;Acc:NP_494433]			
sri-31	B0454.2	Serpentine Receptor, class I family member (sri-31) [Source:RefSeq_peptide;Acc:NP_494434]			
B0454.9	B0454.9	B0454.9 [Source:RefSeq_peptide;Acc:NP_494435]			
lin-8	B0454.1	lin-8 is a class A synthetic multivulva (synMuv) gene that functions redundantly with class B synMuv genes to negatively regulate Ras-mediated signaling during vulval induction. [Source: WormBase]	negative regulation of vulval development, 		protein binding, 
Y25C1A.6	Y25C1A.6	Y25C1A.6 [Source:RefSeq_peptide;Acc:NP_494437]			
Y25C1A.t2	Y25C1A.t2				
Y25C1A.t1	Y25C1A.t1				
Y25C1A.7	Y25C1A.7	Y25C1A.7c [Source:RefSeq_peptide;Acc:NP_001022420]			
Y25C1A.8	Y25C1A.8	Y25C1A.8b [Source:RefSeq_peptide;Acc:NP_871988]		intracellular, 	zinc ion binding, 
Y25C1A.5	Y25C1A.5	Y25C1A.5 encodes a beta subunit of the coatomer (COPI) complex. in mass RNAi assays, Y25C1A.5 is required for fertility, adult viability, osmoregulation, and general health. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	membrane coat, COPI vesicle coat, 	protein transporter activity, protein binding, structural molecule activity, 
srg-21	Y25C1A.9	Serpentine Receptor, class G (gamma) family member (srg-21) [Source:RefSeq_peptide;Acc:NP_494442]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-22	Y25C1A.10	Serpentine Receptor, class G (gamma) family member (srg-22) [Source:RefSeq_peptide;Acc:NP_494443]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-23	Y25C1A.11	Serpentine Receptor, class G (gamma) family member (srg-23) [Source:RefSeq_peptide;Acc:NP_494444]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-24	Y25C1A.12	Serpentine Receptor, class G (gamma) family member (srg-24) [Source:RefSeq_peptide;Acc:NP_494445]	signal transduction, 	membrane, 	transmembrane receptor activity, 
Y25C1A.4	Y25C1A.4	Y25C1A.4 [Source:RefSeq_peptide;Acc:NP_494446]	homoiothermy, response to freezing, 		sugar binding, ice binding, 
Y25C1A.3	Y25C1A.3	Y25C1A.3 [Source:RefSeq_peptide;Acc:NP_494447]	G-protein coupled receptor protein signaling pathway, homoiothermy, response to freezing, 	integral to membrane, 	sugar binding, ice binding, leukotriene receptor activity, 
Y25C1A.13	Y25C1A.13	Y25C1A.13 [Source:RefSeq_peptide;Acc:NP_494448]	metabolic process, growth, 		catalytic activity, 
Y25C1A.2	Y25C1A.2	Y25C1A.2 [Source:RefSeq_peptide;Acc:NP_494449]			
Y25C1A.1	Y25C1A.1	Y25C1A.1 [Source:RefSeq_peptide;Acc:NP_494450]			sugar binding, 
T10D4.7	T10D4.7	T10D4.7 [Source:RefSeq_peptide;Acc:NP_494451]			
T10D4.6	T10D4.6	T10D4.6 [Source:RefSeq_peptide;Acc:NP_494452]			
srh-71	T10D4.5	Serpentine Receptor, class H family member (srh-71) [Source:RefSeq_peptide;Acc:NP_494453]			
ins-19	T10D4.13	ins-19 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-19 is one of 38 insulin-like peptides in C. elegans, and although overexpression with INS-31 can result in low levels of larval lethality, the precise role of INS-19 in C. elegans development is not yet clear. INS-19/31 overexpression does not enhance dauer arrest in either a wild-type or daf-2 mutant background. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-31	T10D4.4	ins-31 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-31 is one of 38 insulin-like peptides in C. elegans, but is unique in that it contains three insulin repeats. although overexpression with INS-19 can result in low levels of larval lethality, the precise role of INS-31 in C. elegans development is not yet clear as INS-31/19 overexpression does not enhance dauer arrest in either a wild-type or daf-2 mutant background, and loss of INS-31 function does not result in a mutant phenotype. [Source: WormBase]		extracellular region, 	hormone activity, 
T10D4.3	T10D4.3	T10D4.3 [Source:RefSeq_peptide;Acc:NP_494455]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
sri-56	T10D4.2				
sri-54	T10D4.8	Serpentine Receptor, class I family member (sri-54) [Source:RefSeq_peptide;Acc:NP_494456]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
sri-42	T10D4.9	Serpentine Receptor, class I family member (sri-42) [Source:RefSeq_peptide;Acc:NP_494457]			
sri-43	T10D4.10	Serpentine Receptor, class I family member (sri-43) [Source:RefSeq_peptide;Acc:NP_494458]			
T10D4.11	T10D4.11	T10D4.11 [Source:RefSeq_peptide;Acc:NP_494459]			
T10D4.1	T10D4.1	T10D4.1 [Source:RefSeq_peptide;Acc:NP_494460]			
T10D4.14	T10D4.14	T10D4.14 [Source:RefSeq_peptide;Acc:NP_001040802]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sri-32	T10D4.12	Serpentine Receptor, class I family member (sri-32) [Source:RefSeq_peptide;Acc:NP_494461]	carbohydrate metabolic process, dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
sri-33	Y27F2A.4	Serpentine Receptor, class I family member (sri-33) [Source:RefSeq_peptide;Acc:NP_494462]			
sri-34	Y27F2A.7	Serpentine Receptor, class I family member (sri-34) [Source:RefSeq_peptide;Acc:NP_494463]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y27F2A.5	Y27F2A.5	Y27F2A.5 [Source:RefSeq_peptide;Acc:NP_494464]			
Y27F2A.10	Y27F2A.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFD0]	Mo-molybdopterin cofactor biosynthetic process, 		
sri-40	Y27F2A.3	Serpentine Receptor, class I family member (sri-40) [Source:RefSeq_peptide;Acc:NP_001022421]			
Y27F2A.6	Y27F2A.6	Y27F2A.6 [Source:RefSeq_peptide;Acc:NP_494466]			
Y27F2A.8	Y27F2A.8	Y27F2A.8 [Source:RefSeq_peptide;Acc:NP_001022423]			
sri-78	Y27F2A.2	Serpentine Receptor, class I family member (sri-78) [Source:RefSeq_peptide;Acc:NP_494467]			
sri-58	Y27F2A.1		embryonic development ending in birth or egg hatching, 		
Y27F2A.11	Y27F2A.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFD1]			
Y27F2A.9	Y27F2A.9	Y27F2A.9 [Source:RefSeq_peptide;Acc:NP_001022424]			
gcy-15	ZC239.7	Guanylyl CYclase family member (gcy-15) [Source:RefSeq_peptide;Acc:NP_494468]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
sri-51	ZC239.8	Serpentine Receptor, class I family member (sri-51) [Source:RefSeq_peptide;Acc:NP_494469]			
sri-48	ZC239.9	Serpentine Receptor, class I family member (sri-48) [Source:RefSeq_peptide;Acc:NP_494470]			
sri-53	ZC239.10	Serpentine Receptor, class I family member (sri-53) [Source:RefSeq_peptide;Acc:NP_494471]			
sri-50	ZC239.19	Serpentine Receptor, class I family member (sri-50) [Source:RefSeq_peptide;Acc:NP_494472]			
ZC239.20	ZC239.20	ZC239.20 [Source:RefSeq_peptide;Acc:NP_001022492]			
ZC239.21	ZC239.21	ZC239.21 [Source:RefSeq_peptide;Acc:NP_001022493]			
sdz-35	ZC239.12	SKN-1 Dependent Zygotic transcript family member (sdz-35) [Source:RefSeq_peptide;Acc:NP_494473]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.6	ZC239.6	ZC239.6 [Source:RefSeq_peptide;Acc:NP_494474]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.5	ZC239.5	ZC239.5 [Source:RefSeq_peptide;Acc:NP_494475]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.4	ZC239.4	ZC239.4 [Source:RefSeq_peptide;Acc:NP_494476]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.3	ZC239.3	ZC239.3 [Source:RefSeq_peptide;Acc:NP_494477]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.2	ZC239.2	ZC239.2 [Source:RefSeq_peptide;Acc:NP_494478]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
ZC239.14	ZC239.14	ZC239.14 [Source:RefSeq_peptide;Acc:NP_494479]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.13	ZC239.13	ZC239.13 [Source:RefSeq_peptide;Acc:NP_494480]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
ZC239.15	ZC239.15	ZC239.15 [Source:RefSeq_peptide;Acc:NP_494481]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.16	ZC239.16	ZC239.16 [Source:RefSeq_peptide;Acc:NP_494482]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.17	ZC239.17	ZC239.17 [Source:RefSeq_peptide;Acc:NP_494483]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
ZC239.1	ZC239.1				
srh-297	C17F4.4	Serpentine Receptor, class H family member (srh-297) [Source:RefSeq_peptide;Acc:NP_494484]	DNA repair, 		nuclease activity, 
C17F4.8	C17F4.8	C17F4.8 [Source:RefSeq_peptide;Acc:NP_494485]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
srz-67	C17F4.10	Serpentine Receptor, class Z family member (srz-67) [Source:RefSeq_peptide;Acc:NP_001021965]			
C17F4.11	C17F4.11	C17F4.11 [Source:RefSeq_peptide;Acc:NP_001021966]			
srz-68	C17F4.9				
C17F4.3	C17F4.3	C17F4.3 [Source:RefSeq_peptide;Acc:NP_494486]			
C17F4.12	C17F4.12	C17F4.12 [Source:RefSeq_peptide;Acc:NP_001021967]			
C17F4.7	C17F4.7	C17F4.7 [Source:RefSeq_peptide;Acc:NP_494487]			
C17F4.5	C17F4.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	positive regulation of multicellular organism growth, 		
C17F4.2	C17F4.2	C17F4.2 [Source:RefSeq_peptide;Acc:NP_494489]			
C17F4.1	C17F4.1	C17F4.1 [Source:RefSeq_peptide;Acc:NP_494490]			
gcy-19	C17F4.6	gcy-19 encodes a predicted transmembrane guanylyl cyclase. as loss of gcy-19 activity via RNA-mediated interference does not result in any abnormalities, the precise role of GCY-19 in C. elegans development and/or behavior is not yet known. by sequence similarity, however, GCY-19 can be predicted to function in chemosensory signal transduction. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
F02E11.2	F02E11.2	F02E11.2 [Source:RefSeq_peptide;Acc:NP_494492]			
F02E11.t1	F02E11.t1				
F02E11.3	F02E11.3	F02E11.3 [Source:RefSeq_peptide;Acc:NP_494493]			
F02E11.4	F02E11.4	F02E11.4 [Source:RefSeq_peptide;Acc:NP_494494]			
wht-4	F02E11.1	F02E11.1 [Source:RefSeq_peptide;Acc:NP_494495]	transport, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
F39E9.4	F39E9.4	F39E9.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F39E9.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F02E11.5	F02E11.5	F02E11.5 [Source:RefSeq_peptide;Acc:NP_494496]		extracellular region, 	
sri-63	F39E9.3	Serpentine Receptor, class I family member (sri-63) [Source:RefSeq_peptide;Acc:NP_494498]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
F39E9.14	F39E9.14	F39E9.14 [Source:RefSeq_peptide;Acc:NP_001022149]			
F39E9.8	F39E9.8				
F39E9.9	F39E9.9				
F39E9.11	F39E9.11	F39E9.11 [Source:RefSeq_peptide;Acc:NP_872000]			protein binding, 
F39E9.2	F39E9.2	F39E9.2 [Source:RefSeq_peptide;Acc:NP_494499]			protein binding, 
F39E9.12	F39E9.12	F39E9.12 [Source:RefSeq_peptide;Acc:NP_872066]			protein binding, 
F39E9.7	F39E9.7	F39E9.7 [Source:RefSeq_peptide;Acc:NP_494501]		intracellular, 	double-stranded RNA binding, 
F39E9.6	F39E9.6	F39E9.6 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F39E9.6 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	neprilysin activity, 
F39E9.1	F39E9.1	F39E9.1 [Source:RefSeq_peptide;Acc:NP_494504]			
Y46D2A.2	Y46D2A.2	Y46D2A.2 [Source:RefSeq_peptide;Acc:NP_494505]			
Y46D2A.1	Y46D2A.1	Y46D2A.1 [Source:RefSeq_peptide;Acc:NP_494506]			
Y46D2A.3	Y46D2A.3	Y46D2A.3 [Source:RefSeq_peptide;Acc:NP_494507]			
F14D2.6	F14D2.6	F14D2.6 [Source:RefSeq_peptide;Acc:NP_494508]		membrane, 	
F14D2.7	F14D2.7	F14D2.7 [Source:RefSeq_peptide;Acc:NP_494509]	DNA repair, 		DNA binding, 
F14D2.5	F14D2.5	F14D2.5 [Source:RefSeq_peptide;Acc:NP_494510]			
F14D2.11	F14D2.11	F14D2.11 [Source:RefSeq_peptide;Acc:NP_494511]	protein modification process, embryonic development ending in birth or egg hatching, 		
F14D2.15	F14D2.15	F14D2.15 [Source:RefSeq_peptide;Acc:NP_001022084]			protein binding, 
bath-28	F14D2.13	BTB and MATH domain containing family member (bath-28) [Source:RefSeq_peptide;Acc:NP_871999]			
bath-30	F14D2.12	BTB and MATH domain containing family member (bath-30) [Source:RefSeq_peptide;Acc:NP_494512]			protein binding, 
F14D2.14	F14D2.14	F14D2.14 [Source:RefSeq_peptide;Acc:NP_001022083]			
F14D2.8	F14D2.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
bath-29	F14D2.4	BTB and MATH domain containing family member (bath-29) [Source:RefSeq_peptide;Acc:NP_001022085]			protein binding, 
F14D2.9	F14D2.9	F14D2.9 [Source:RefSeq_peptide;Acc:NP_494515]			
F14D2.2	F14D2.2	F14D2.2 [Source:RefSeq_peptide;Acc:NP_494517]	embryonic development ending in birth or egg hatching, 		
bath-27	F14D2.1	BTB and MATH domain containing family member (bath-27) [Source:RefSeq_peptide;Acc:NP_494518]			protein binding, 
Y49F6C.6	Y49F6C.6	Y49F6C.6 [Source:RefSeq_peptide;Acc:NP_494519]			
Y49F6C.7	Y49F6C.7	Y49F6C.7 [Source:RefSeq_peptide;Acc:NP_494520]			
Y49F6C.8	Y49F6C.8	Y49F6C.8 [Source:RefSeq_peptide;Acc:NP_494521]			
bath-23	Y49F6C.5	BTB and MATH domain containing family member (bath-23) [Source:RefSeq_peptide;Acc:NP_494522]			protein binding, 
bath-10	Y49F6C.4	BTB and MATH domain containing family member (bath-10) [Source:RefSeq_peptide;Acc:NP_494523]			protein binding, 
bath-9	Y49F6C.3	BTB and MATH domain containing family member (bath-9) [Source:RefSeq_peptide;Acc:NP_494524]			protein binding, 
Y49F6C.2	Y49F6C.2	Y49F6C.2 [Source:RefSeq_peptide;Acc:NP_494525]			
bath-8	Y49F6C.1				
T06D4.1	T06D4.1	T06D4.1 [Source:RefSeq_peptide;Acc:NP_494527]			
T06D4.2	T06D4.2	T06D4.2 [Source:RefSeq_peptide;Acc:NP_494528]			
T06D4.3	T06D4.3	T06D4.3 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T06D4.3 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T06D4.4	T06D4.4	T06D4.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T06D4.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	metallopeptidase activity, neprilysin activity, 
F18A12.5	F18A12.5	F18A12.5 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.5 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	metallopeptidase activity, neprilysin activity, 
F18A12.6	F18A12.6	F18A12.6 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.6 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F18A12.4	F18A12.4	F18A12.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F18A12.3	F18A12.3	F18A12.3 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.3 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F18A12.7	F18A12.7	F18A12.7 [Source:RefSeq_peptide;Acc:NP_494535]			
F18A12.2	F18A12.2	F18A12.2 [Source:RefSeq_peptide;Acc:NP_494536]			
F18A12.1	F18A12.1	F18A12.1 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.1 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	metallopeptidase activity, neprilysin activity, 
F18A12.8	F18A12.8	F18A12.8 encodes two isoforms of a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F18A12.8A is closely paralogous to ZK20.6, and orthologous to CG9761 in Drosophila melanogaster. F18A12.8 is homologous, and possibly orthologous, to human ECE1 (OMIM:600423. mutation leads to Hirschsprung disease, cardiac defects, and autonomic dysfunction). more generally, F18A12.8A falls into a group of proteins that includes the classical neprilysins found in mammals (e.g., PEX [OMIM:307800] and the enkephalin cleaving enzymes). [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
C16C8.18	C16C8.18	C16C8.18 [Source:RefSeq_peptide;Acc:NP_494539]			
C16C8.2	C16C8.2	C16C8.2 [Source:RefSeq_peptide;Acc:NP_494540]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
C16C8.t2	C16C8.t2				
C16C8.t1	C16C8.t1				
C16C8.17	C16C8.17	C16C8.17 [Source:RefSeq_peptide;Acc:NP_494541]			
C16C8.4	C16C8.4	C16C8.4 [Source:RefSeq_peptide;Acc:NP_494542]	protein modification process, embryonic development ending in birth or egg hatching, 		
C16C8.5	C16C8.5	C16C8.5 [Source:RefSeq_peptide;Acc:NP_494543]	protein modification process, 		protein binding, 
C16C8.16	C16C8.16	C16C8.16 [Source:RefSeq_peptide;Acc:NP_494544]	protein modification process, 		
C16C8.14	C16C8.14	C16C8.14 encodes a Caenorhabditis-specific protein, with a central predicted coiled-coil and a C-terminal ubiqutin-like domain. C16C8.14 inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. C16C8.14 is paralogous to C16C8.4, C16C8.11, C16C8.12, C16C8.13, C16C8.15, C16C8.16, and F54D10.7. [Source: WormBase]	protein modification process, embryonic development ending in birth or egg hatching, 		
C16C8.13	C16C8.13	C16C8.13 [Source:RefSeq_peptide;Acc:NP_494546]	protein modification process, 		
C16C8.12	C16C8.12	C16C8.12 [Source:RefSeq_peptide;Acc:NP_494547]			protein binding, 
C16C8.11	C16C8.11	C16C8.11 [Source:RefSeq_peptide;Acc:NP_494548]	protein modification process, 		
C16C8.19	C16C8.19	C16C8.19 [Source:RefSeq_peptide;Acc:NP_494550]			
C16C8.7	C16C8.7	C16C8.7 [Source:RefSeq_peptide;Acc:NP_494551]			
C16C8.8	C16C8.8	C16C8.8 [Source:RefSeq_peptide;Acc:NP_494552]			
C16C8.9	C16C8.9	C16C8.9 [Source:RefSeq_peptide;Acc:NP_494553]			
C16C8.10	C16C8.10	C16C8.10 [Source:RefSeq_peptide;Acc:NP_494554]			
Y49F6B.13	Y49F6B.13	Y49F6B.13 [Source:RefSeq_peptide;Acc:NP_001022458]			
Y49F6B.12	Y49F6B.12	Y49F6B.12 [Source:RefSeq_peptide;Acc:NP_001022457]			
Y49F6B.6	Y49F6B.6	Y49F6B.6 [Source:RefSeq_peptide;Acc:NP_494555]			
sdz-32	Y49F6B.5	SKN-1 Dependent Zygotic transcript family member (sdz-32) [Source:RefSeq_peptide;Acc:NP_494556]	cell adhesion, viral infectious cycle, cell recognition, 		
fbxb-104	Y49F6B.7	F-box B protein family member (fbxb-104) [Source:RefSeq_peptide;Acc:NP_494557]			
Y49F6B.8	Y49F6B.8	Y49F6B.8 [Source:RefSeq_peptide;Acc:NP_494558]			
smu-2	Y49F6B.4	smu-2 encodes a protein with homology to the mammalian nuclear protein RED that affects the accumulation of alternatively spliced unc-52 transcripts. may function in a pathway with smu-1, interacts in vitro with SMU-1, and may be required for normal expression levels of SMU-1. [Source: WormBase]			
fbxb-112	Y49F6B.3	F-box B protein family member (fbxb-112) [Source:RefSeq_peptide;Acc:NP_494560]			
Y49F6B.9	Y49F6B.9	Y49F6B.9b [Source:RefSeq_peptide;Acc:NP_001040826]			protein binding, zinc ion binding, 
col-71	Y49F6B.10	COLlagen family member (col-71) [Source:RefSeq_peptide;Acc:NP_494562]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
Y49F6B.2	Y49F6B.2	Y49F6B.2 [Source:RefSeq_peptide;Acc:NP_494563]	positive regulation of growth rate, 		
cyh-1	Y49F6B.1	CYclin H family member (cyh-1) [Source:RefSeq_peptide;Acc:NP_494564]	cell cycle, biological_process, 		
srz-5	Y49F6B.11	Serpentine Receptor, class Z family member (srz-5) [Source:RefSeq_peptide;Acc:NP_494565]			
Y49F6B.14	Y49F6B.14	Y49F6B.14 [Source:RefSeq_peptide;Acc:NP_001022459]			
W09G10.6	W09G10.6	W09G10.6 [Source:RefSeq_peptide;Acc:NP_494566]			sugar binding, 
W09G10.t3	W09G10.t3				
W09G10.t2	W09G10.t2				
W09G10.5	W09G10.5	W09G10.5 [Source:RefSeq_peptide;Acc:NP_494567]			sugar binding, 
col-72	W09G10.1	W09G10.1 [Source:RefSeq_peptide;Acc:NP_494568]	phosphate transport, 	cytoplasm, 	
W09G10.t1	W09G10.t1				
W09G10.3	W09G10.3	W09G10.3 [Source:RefSeq_peptide;Acc:NP_494569]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
apd-3	W09G10.4	apd-3 encodes an adaptin: specifically, it encodes an ortholog of the delta subunit of adaptor protein complex 3 (AP-3). [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane coat, 	protein transporter activity, protein binding, 
W10G11.19	W10G11.19	W10G11.19 [Source:RefSeq_peptide;Acc:NP_494572]	growth, 	endoplasmic reticulum, 	
W10G11.20	W10G11.20	W10G11.20 [Source:RefSeq_peptide;Acc:NP_494573]			protein binding, 
W10G11.1	W10G11.1	W10G11.1 [Source:RefSeq_peptide;Acc:NP_494574]			
W10G11.2	W10G11.2	W10G11.2 [Source:RefSeq_peptide;Acc:NP_494575]			
W10G11.3	W10G11.3	W10G11.3 [Source:RefSeq_peptide;Acc:NP_494576]			
W10G11.4	W10G11.4	W10G11.4 [Source:RefSeq_peptide;Acc:NP_494577]			
W10G11.17	W10G11.17	W10G11.17 [Source:RefSeq_peptide;Acc:NP_494578]			
W10G11.16	W10G11.16	W10G11.16 [Source:RefSeq_peptide;Acc:NP_494579]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
W10G11.t2	W10G11.t2				
W10G11.t1	W10G11.t1				
W10G11.5	W10G11.5	W10G11.5 [Source:RefSeq_peptide;Acc:NP_494580]			sugar binding, 
W10G11.6	W10G11.6	W10G11.6 [Source:RefSeq_peptide;Acc:NP_494581]		membrane, 	sugar binding, 
W10G11.15	W10G11.15	W10G11.15 [Source:RefSeq_peptide;Acc:NP_494582]			sugar binding, 
W10G11.14	W10G11.14	W10G11.14 [Source:RefSeq_peptide;Acc:NP_494583]			sugar binding, 
W10G11.7	W10G11.7	W10G11.7 [Source:RefSeq_peptide;Acc:NP_494584]			sugar binding, 
W10G11.13	W10G11.13	W10G11.13 [Source:RefSeq_peptide;Acc:NP_494585]			sugar binding, 
W10G11.12	W10G11.12	W10G11.12 [Source:RefSeq_peptide;Acc:NP_494586]			sugar binding, 
W10G11.11	W10G11.11	W10G11.11 [Source:RefSeq_peptide;Acc:NP_494587]			sugar binding, 
srh-59	W10G11.10	Serpentine Receptor, class H family member (srh-59) [Source:RefSeq_peptide;Acc:NP_494588]			
srh-60	W10G11.9	Serpentine Receptor, class H family member (srh-60) [Source:RefSeq_peptide;Acc:NP_494589]			
W10G11.8	W10G11.8				
srh-57	Y49F6A.2	Serpentine Receptor, class H family member (srh-305) [Source:RefSeq_peptide;Acc:NP_494591]			
srh-305	Y49F6A.3	Serpentine Receptor, class H family member (srh-305) [Source:RefSeq_peptide;Acc:NP_494591]			
srh-306	Y49F6A.6				
Y49F6A.1	Y49F6A.1	Y49F6A.1 [Source:RefSeq_peptide;Acc:NP_494593]			
Y49F6A.5	Y49F6A.5	Y49F6A.5 [Source:RefSeq_peptide;Acc:NP_494594]			
F40E12.2	F40E12.2	F40E12.2 [Source:RefSeq_peptide;Acc:NP_494595]		intracellular, 	
F40E12.1	F40E12.1	F40E12.1 [Source:RefSeq_peptide;Acc:NP_494596]			
M151.7	M151.7	M151.7 [Source:RefSeq_peptide;Acc:NP_494597]			
M151.4	M151.4	M151.4 [Source:RefSeq_peptide;Acc:NP_494598]			
M151.3	M151.3	M151.3 [Source:RefSeq_peptide;Acc:NP_494599]			
M151.2	M151.2	M151.2 [Source:RefSeq_peptide;Acc:NP_494600]			
fbxb-31	M151.5	F-box B protein family member (fbxb-31) [Source:RefSeq_peptide;Acc:NP_494601]			
M151.1	M151.1	M151.1 [Source:RefSeq_peptide;Acc:NP_494602]	embryonic development ending in birth or egg hatching, 		
fbxb-32	M151.6	F-box B protein family member (fbxb-32) [Source:RefSeq_peptide;Acc:NP_494603]			
fbxb-33	M151.8	F-box B protein family member (fbxb-33) [Source:RefSeq_peptide;Acc:NP_001022263]			
F19B10.11	F19B10.11	F19B10.11 [Source:RefSeq_peptide;Acc:NP_494604]	transport, 		transporter activity, binding, 
F19B10.5	F19B10.5	F19B10.5 [Source:RefSeq_peptide;Acc:NP_494605]			
F19B10.4	F19B10.4	F19B10.4 [Source:RefSeq_peptide;Acc:NP_494606]			
F19B10.6	F19B10.6	F19B10.6 [Source:RefSeq_peptide;Acc:NP_494607]			
F19B10.3	F19B10.3	F19B10.3 [Source:RefSeq_peptide;Acc:NP_494608]			
srx-97	F19B10.7	Serpentine Receptor, class X family member (srx-97) [Source:RefSeq_peptide;Acc:NP_494609]			
srx-98	F19B10.8	Serpentine Receptor, class X family member (srx-98) [Source:RefSeq_peptide;Acc:NP_494610]			
sea-1	F19B10.9	T-box transcription factor 18 (Signal element on autosome protein 1). [Source:Uniprot/SWISSPROT;Acc:O02073]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
F19B10.2	F19B10.2	F19B10.2 [Source:RefSeq_peptide;Acc:NP_494612]			
F19B10.10	F19B10.10	F19B10.10 [Source:RefSeq_peptide;Acc:NP_494613]			
F19B10.1	F19B10.1	F19B10.1 [Source:RefSeq_peptide;Acc:NP_494614]			protein binding, 
srx-99	F19B10.12				
F40H7.12	F40H7.12	F40H7.12 [Source:RefSeq_peptide;Acc:NP_001022151]			
srx-101	F40H7.4	Serpentine Receptor, class X family member (srx-101) [Source:RefSeq_peptide;Acc:NP_494615]			
srx-100	F40H7.3				
srx-102	F40H7.5	Serpentine Receptor, class X family member (srx-102) [Source:RefSeq_peptide;Acc:NP_494617]			
srx-103	F40H7.11				
F40H7.6	F40H7.6				
srx-104	F40H7.7	Serpentine Receptor, class X family member (srx-104) [Source:RefSeq_peptide;Acc:NP_494618]			
srx-105	F40H7.8	Serpentine Receptor, class X family member (srx-105) [Source:RefSeq_peptide;Acc:NP_494619]			
srx-106	F40H7.9				
srx-107	F40H7.10				
srx-108	F40H7.2	Serpentine Receptor, class X family member (srx-108) [Source:RefSeq_peptide;Acc:NP_494622]			
srx-109	F40H7.1				
srx-110	C46E10.6	Serpentine Receptor, class X family member (srx-110) [Source:RefSeq_peptide;Acc:NP_494624]			
C46E10.5	C46E10.5	C46E10.5 [Source:RefSeq_peptide;Acc:NP_494625]			
srh-100	C46E10.10	Serpentine Receptor, class H family member (srh-100) [Source:RefSeq_peptide;Acc:NP_494626]			
srh-99	C46E10.7	Serpentine Receptor, class H family member (srh-99) [Source:RefSeq_peptide;Acc:NP_494627]			
C46E10.4	C46E10.4	C46E10.4 [Source:RefSeq_peptide;Acc:NP_494628]			
C46E10.3	C46E10.3	C46E10.3 [Source:RefSeq_peptide;Acc:NP_494629]			
C46E10.2	C46E10.2	C46E10.2 [Source:RefSeq_peptide;Acc:NP_494630]			
C46E10.1	C46E10.1	C46E10.1 [Source:RefSeq_peptide;Acc:NP_494631]			
C46E10.8	C46E10.8	C46E10.8 [Source:RefSeq_peptide;Acc:NP_494632]		intracellular, 	zinc ion binding, nucleic acid binding, 
C46E10.9	C46E10.9	C46E10.9 [Source:RefSeq_peptide;Acc:NP_494633]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
sdz-12	F12E12.5	SKN-1 Dependent Zygotic transcript family member (sdz-12) [Source:RefSeq_peptide;Acc:NP_494634]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
bath-31	F12E12.4	BTB and MATH domain containing family member (bath-31) [Source:RefSeq_peptide;Acc:NP_494635]			protein binding, 
F12E12.6	F12E12.6	F12E12.6 [Source:RefSeq_peptide;Acc:NP_494636]			
F12E12.3	F12E12.3	F12E12.3 [Source:RefSeq_peptide;Acc:NP_494637]			
F12E12.2	F12E12.2	F12E12.2 [Source:RefSeq_peptide;Acc:NP_494638]			
F12E12.1	F12E12.1	F12E12.1 [Source:RefSeq_peptide;Acc:NP_494639]			
F12E12.11	F12E12.11	F12E12.11 [Source:RefSeq_peptide;Acc:NP_001040762]	metabolic process, electron transport, cellular metabolic process, folic acid and derivative biosynthetic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
fbxb-92	F12E12.9	F-box B protein family member (fbxb-92) [Source:RefSeq_peptide;Acc:NP_001040764]			
fbxb-90	F12E12.10	F-box B protein family member (fbxb-90) [Source:RefSeq_peptide;Acc:NP_001040761]			
fbxb-91	F12E12.8	F-box B protein family member (fbxb-91) [Source:RefSeq_peptide;Acc:NP_001040763]			
sdz-11	F12E12.7	SKN-1 Dependent Zygotic transcript family member (sdz-11) [Source:RefSeq_peptide;Acc:NP_494640]			
T24E12.5	T24E12.5	T24E12.5 [Source:RefSeq_peptide;Acc:NP_494641]	homoiothermy, response to freezing, 		ice binding, 
srx-111	T24E12.4	Serpentine Receptor, class X family member (srx-111) [Source:RefSeq_peptide;Acc:NP_494642]			
T24E12.12	T24E12.12	T24E12.12 [Source:RefSeq_peptide;Acc:NP_001022360]			
T24E12.6	T24E12.6	T24E12.6 [Source:RefSeq_peptide;Acc:NP_494643]	immune response, embryonic development ending in birth or egg hatching, antigen processing and presentation, 	membrane, 	
T24E12.7	T24E12.7				
srx-112	T24E12.8	Serpentine Receptor, class X family member (srx-112) [Source:RefSeq_peptide;Acc:NP_494644]	embryonic development ending in birth or egg hatching, 		
T24E12.9	T24E12.9	T24E12.9 [Source:RefSeq_peptide;Acc:NP_494645]			
T24E12.10	T24E12.10	T24E12.10 [Source:RefSeq_peptide;Acc:NP_494646]			
T24E12.3	T24E12.3	T24E12.3 [Source:RefSeq_peptide;Acc:NP_494647]			
T24E12.11	T24E12.11	T24E12.11 [Source:RefSeq_peptide;Acc:NP_494648]			
T24E12.2	T24E12.2	T24E12.2 [Source:RefSeq_peptide;Acc:NP_494649]			
T24E12.1	T24E12.1	T24E12.1 [Source:RefSeq_peptide;Acc:NP_494650]			
Y8A9A.4	Y8A9A.4	Y8A9A.4 [Source:RefSeq_peptide;Acc:NP_494651]			
Y8A9A.3	Y8A9A.3	Y8A9A.3 [Source:RefSeq_peptide;Acc:NP_494652]	embryonic development ending in birth or egg hatching, 		
fbxb-99	Y8A9A.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y8A9A.2	Y8A9A.2	Y8A9A.2 [Source:RefSeq_peptide;Acc:NP_494654]			
srh-164	Y8A9A.1				
ins-32	Y8A9A.6	ins-32 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-32 is one of 38 insulin-like peptides in C. elegans and the precise role of INS-32 in C. elegans development is not yet clear as loss of INS-32 function does not result in a mutant phenotype. [Source: WormBase]		extracellular region, 	hormone activity, 
F54D10.4	F54D10.4	F54D10.4 [Source:RefSeq_peptide;Acc:NP_494656]			
F54D10.5	F54D10.5	F54D10.5 [Source:RefSeq_peptide;Acc:NP_494657]			
F54D10.3	F54D10.3	F54D10.3 [Source:RefSeq_peptide;Acc:NP_494658]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
fbxa-146	F54D10.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-24	F54D10.2	F-box A protein family member (fbxa-24) [Source:RefSeq_peptide;Acc:NP_494660]			
F54D10.7	F54D10.7	F54D10.7 [Source:RefSeq_peptide;Acc:NP_494661]	protein modification process, 		protein binding, 
skr-15	F54D10.1	The skr-15 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-15(RNAi) animals are at least superficially normal. [Source: WormBase]	positive regulation of growth rate, 		
F54D10.8	F54D10.8	F54D10.8 [Source:RefSeq_peptide;Acc:NP_494663]			
F54D10.9	F54D10.9	F54D10.9 [Source:RefSeq_peptide;Acc:NP_494664]			
C17A2.5	C17A2.5	C17A2.5 [Source:RefSeq_peptide;Acc:NP_494665]			transferase activity, transferring groups other than amino-acyl groups, 
C17A2.6	C17A2.6				
C17A2.4	C17A2.4	C17A2.4 [Source:RefSeq_peptide;Acc:NP_494667]			
C17A2.7	C17A2.7	C17A2.7 [Source:RefSeq_peptide;Acc:NP_494668]			
C17A2.3	C17A2.3	C17A2.3 [Source:RefSeq_peptide;Acc:NP_494669]			
C17A2.2	C17A2.2	C17A2.2 [Source:RefSeq_peptide;Acc:NP_494670]			
nhr-72	C17A2.8	Nuclear Hormone Receptor family member (nhr-72) [Source:RefSeq_peptide;Acc:NP_494671]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-257	C17A2.1	Nuclear Hormone Receptor family member (nhr-257) [Source:RefSeq_peptide;Acc:NP_494672]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
C49D10.7	C49D10.7	C49D10.7 [Source:RefSeq_peptide;Acc:NP_494673]			transferase activity, transferring groups other than amino-acyl groups, 
C49D10.8	C49D10.8	C49D10.8 [Source:RefSeq_peptide;Acc:NP_494674]			transferase activity, transferring groups other than amino-acyl groups, 
nhr-261	C49D10.9	Nuclear Hormone Receptor family member (nhr-261) [Source:RefSeq_peptide;Acc:NP_494675]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-75	C49D10.6	Nuclear hormone receptor family member nhr-75. [Source:Uniprot/SWISSPROT;Acc:O16604]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
C49D10.4	C49D10.4	C49D10.4 [Source:RefSeq_peptide;Acc:NP_494678]			transferase activity, transferring groups other than amino-acyl groups, 
C49D10.10	C49D10.10	C49D10.10 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. C49D10.10 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
sdz-7	C49D10.11	SKN-1 Dependent Zygotic transcript family member (sdz-7) [Source:RefSeq_peptide;Acc:NP_494680]	embryonic development ending in birth or egg hatching, 		
srh-250	C49D10.3	Serpentine Receptor, class H family member (srh-250) [Source:RefSeq_peptide;Acc:NP_494681]			
nhr-166	C49D10.2	Nuclear Hormone Receptor family member (nhr-166) [Source:RefSeq_peptide;Acc:NP_494682]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srh-90	F53C3.10				
F53C3.8	F53C3.8	F53C3.8 [Source:RefSeq_peptide;Acc:NP_494685]			
F53C3.7	F53C3.7	F53C3.7 [Source:RefSeq_peptide;Acc:NP_494686]	embryonic development ending in birth or egg hatching, 		
F53C3.6	F53C3.6	F53C3.6a [Source:RefSeq_peptide;Acc:NP_494687]			
F53C3.5	F53C3.5	F53C3.5 [Source:RefSeq_peptide;Acc:NP_494689]			
F53C3.4	F53C3.4	F53C3.4 [Source:RefSeq_peptide;Acc:NP_494690]			
F53C3.3	F53C3.3	F53C3.3 [Source:RefSeq_peptide;Acc:NP_494691]			
F53C3.11	F53C3.11	F53C3.11 [Source:RefSeq_peptide;Acc:NP_494692]	embryonic development ending in birth or egg hatching, 		
fbxb-103	F53C3.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F53C3.12	F53C3.12	F53C3.12 [Source:RefSeq_peptide;Acc:NP_494694]			
F53C3.1	F53C3.1	F53C3.1 [Source:RefSeq_peptide;Acc:NP_494695]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F53C3.13	F53C3.13	F53C3.13b [Source:RefSeq_peptide;Acc:NP_872025]	electron transport, 		iron ion binding, monooxygenase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
Y14H12B.2	Y14H12B.2	Y14H12B.2 [Source:RefSeq_peptide;Acc:NP_494697]			
Y14H12B.1	Y14H12B.1	Y14H12B.1b [Source:RefSeq_peptide;Acc:NP_871987]		intracellular, 	zinc ion binding, nucleic acid binding, 
T20H12.1	T20H12.1	T20H12.1 [Source:RefSeq_peptide;Acc:NP_494700]			
sea-2	K10G6.3	sea-2 is an autosomal signal element gene, whose protein product contains four C2H2 zinc finger domains and three involucrin repeats embedded in extensive regions of low-complexity (e.g., glutamine/asparagine-rich) protein sequence. sea-2 has no obvious biological function in mass RNAi assays. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, metallopeptidase activity, nucleic acid binding, 
K10G6.4	K10G6.4	K10G6.4 [Source:RefSeq_peptide;Acc:NP_494702]			
K10G6.2	K10G6.2	K10G6.2 [Source:RefSeq_peptide;Acc:NP_494703]			
lin-31	K10G6.1	lin-31 encodes a winged helix (WH)-like transcription factor that is a member of the HNF3/Forkhead family of DNA-binding proteins. LIN-31 acts as a tissue-specific effector of MAP kinase-mediated signaling in the vulva. when MAP kinase is inactive, LIN-31 forms a complex with LIN-1/Ets that inhibits vulval cell fates. upon MAP kinase activation (vulval induction), LIN-31 becomes phosphorylated, dissociates from LIN-1, and goes on to promote primary and secondary vulval cell fates. LIN-31 is expressed in the vulval precursor cells. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of vulval development, vulval development, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
K10G6.5	K10G6.5	K10G6.5 [Source:RefSeq_peptide;Acc:NP_001022248]			
Y14H12A.2	Y14H12A.2				
Y14H12A.1	Y14H12A.1	Y14H12A.1 [Source:RefSeq_peptide;Acc:NP_494705]			
tag-218	K07D4.7	Temporarily Assigned Gene name family member (tag-218) [Source:RefSeq_peptide;Acc:NP_494706]	regulation of Rho protein signal transduction, reproduction, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
K07D4.6	K07D4.6	K07D4.6 [Source:RefSeq_peptide;Acc:NP_494708]			
K07D4.5	K07D4.5	K07D4.5 [Source:RefSeq_peptide;Acc:NP_494709]			
K07D4.9	K07D4.9	K07D4.9 [Source:RefSeq_peptide;Acc:NP_871962]			
K07D4.4	K07D4.4	K07D4.4 [Source:RefSeq_peptide;Acc:NP_494710]			
pqn-48	K07D4.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
rpn-11	K07D4.3	rpn-11 encodes a predicted non-ATPase subunit of the 19S regulatory complex of the proteasome that affects adult viability, osmoregulation, embryonic viability, and movement. interacts with itself, RPN-9, and F55A11.3, based on yeast two-hybrid assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
K07D4.2	K07D4.2	K07D4.2 [Source:RefSeq_peptide;Acc:NP_494713]			
K07D4.1	K07D4.1				
W06A11.4	W06A11.4	W06A11.4 [Source:RefSeq_peptide;Acc:NP_494715]			
W06A11.2	W06A11.2	W06A11.2 [Source:RefSeq_peptide;Acc:NP_494716]			
fbxb-118	W06A11.3	F-box B protein family member (fbxb-118) [Source:RefSeq_peptide;Acc:NP_494717]			protein binding, 
W06A11.1	W06A11.1	W06A11.1 [Source:RefSeq_peptide;Acc:NP_494718]			
R11F4.3	R11F4.3	R11F4.3 [Source:RefSeq_peptide;Acc:NP_494719]			
R11F4.2	R11F4.2	R11F4.2b [Source:RefSeq_peptide;Acc:NP_001022283]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
R11F4.1	R11F4.1	The R11F4.1 gene encodes a homolog of human glycerol kinase (GK), which when mutated leads to hyperglycerolemia (glycerol kinase deficiency. OMIM:307030). [Source: WormBase]	carbohydrate metabolic process, glycerol-3-phosphate metabolic process, 		glycerol kinase activity, 
T08H4.2	T08H4.2	T08H4.2 [Source:RefSeq_peptide;Acc:NP_494722]	embryonic development ending in birth or egg hatching, 		
rhgf-2	T08H4.1	Temporarily Assigned Gene name family member (tag-127) [Source:RefSeq_peptide;Acc:NP_494723]	regulation of Rho protein signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
ast-1	T08H4.3	ast-1 encodes a novel ETS-box transcription factor. AST-1 is required for the proper navigation of some interneuron axons to their targets, for differentiation of the ventral cord pioneer neuron AVG, and for pharyngeal morphogenesis. AST-1 is transiently expressed in many head neurons late in their differentiation and axon outgrowth, and in a few pharyngeal cells. AST-1 is at first nuclear, but then relocates to spots in cell bodies and even neuronal processes. hypomorphic ast-1 mutants have axons extending laterally, and crossing over from the right axon tract to the left axon bundle. null ast-1(hd92) mutants are inviable, failing to attach a working pharynx to their cuticle during development and then starving as L1 larvae. behaviorally, hypomorphic ast-1 animals are at least superficially normal, indicating that the ventral nerve cord can tolerate at least some miswiring. AST-1 regulates odr-2 expression, while ast-1 expression is itself regulated by lin-11. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y54C5A.1	Y54C5A.1	Y54C5A.1 [Source:RefSeq_peptide;Acc:NP_494725]			
F56D3.1	F56D3.1	F56D3.1 [Source:RefSeq_peptide;Acc:NP_494727]			
R03H10.2	R03H10.2	R03H10.2 [Source:RefSeq_peptide;Acc:NP_494728]			
R03H10.4	R03H10.4	R03H10.4 [Source:RefSeq_peptide;Acc:NP_494730]			
R03H10.5	R03H10.5	R03H10.5 [Source:RefSeq_peptide;Acc:NP_494732]			
R03H10.6	R03H10.6	R03H10.6 [Source:RefSeq_peptide;Acc:NP_494733]			nucleic acid binding, 
R03H10.7	R03H10.7	R03H10.7 [Source:RefSeq_peptide;Acc:NP_494734]			nucleic acid binding, 
R03H10.1	R03H10.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
tag-149	F31D5.3	Temporarily Assigned Gene name family member (tag-149) [Source:RefSeq_peptide;Acc:NP_494736]			
F31D5.4	F31D5.4	F31D5.4 [Source:RefSeq_peptide;Acc:NP_494738]	neuropeptide signaling pathway, 	membrane, 	
F31D5.5	F31D5.5	F31D5.5 [Source:RefSeq_peptide;Acc:NP_494739]	neuropeptide signaling pathway, 	membrane, 	
F31D5.6	F31D5.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F31D5.2	F31D5.2	F31D5.2 [Source:RefSeq_peptide;Acc:NP_494741]			
F31D5.1	F31D5.1	F31D5.1 [Source:RefSeq_peptide;Acc:NP_494742]	potassium ion transport, 	membrane, 	potassium channel activity, 
C16A11.5	C16A11.5	C16A11.5 [Source:RefSeq_peptide;Acc:NP_494743]			
C16A11.4	C16A11.4	C16A11.4 [Source:RefSeq_peptide;Acc:NP_494744]			protein binding, zinc ion binding, 
C16A11.3	C16A11.3	C16A11.3 [Source:RefSeq_peptide;Acc:NP_494745]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, zinc ion binding, 
C16A11.9	C16A11.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFE7]			
C16A11.6	C16A11.6	C16A11.6 [Source:RefSeq_peptide;Acc:NP_494746]			
C16A11.2	C16A11.2	C16A11.2a [Source:RefSeq_peptide;Acc:NP_001021959]		cytoplasm, 	
gpa-11	C16A11.1	gpa-11 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ADL and ASH amphid neurons. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		GTP binding, signal transducer activity, guanyl nucleotide binding, 
C16A11.7	C16A11.7	C16A11.7 [Source:RefSeq_peptide;Acc:NP_494749]			
C16A11.8	C16A11.8	C16A11.8 [Source:RefSeq_peptide;Acc:NP_494750]			sugar binding, 
C01F1.4	C01F1.4	C01F1.4 [Source:RefSeq_peptide;Acc:NP_494751]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C01F1.5	C01F1.5	C01F1.5 [Source:RefSeq_peptide;Acc:NP_494752]	proteolysis, 		astacin activity, 
C01F1.6	C01F1.6	C01F1.6 [Source:RefSeq_peptide;Acc:NP_494753]			
C01F1.3	C01F1.3	C01F1.3a [Source:RefSeq_peptide;Acc:NP_001040727]	biosynthetic process, cellular metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, biological_process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
C01F1.2	C01F1.2	C01F1.2 is orthologous to the human gene SCO (CYTOCHROME OXIDASE DEFICIENT, YEAST) HOMOLOG 1 (SCO1. OMIM:603644), which when mutated leads to early-onset hepatic failure. the C01F1.2 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	transport, electron transport, embryonic development ending in birth or egg hatching, 		transporter activity, binding, 
C01F1.1	C01F1.1	C01F1.1 [Source:RefSeq_peptide;Acc:NP_494756]	positive regulation of transcription, positive regulation of growth rate, 	nucleus, 	DNA binding, transcription activator activity, 
Y52E8A.3	Y52E8A.3	Y52E8A.3 [Source:RefSeq_peptide;Acc:NP_494757]	cell redox homeostasis, 		protein binding, oxidoreductase activity, antioxidant activity, 
Y52E8A.4	Y52E8A.4	Y52E8A.4 [Source:RefSeq_peptide;Acc:NP_494758]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
srw-40	Y52E8A.5	Serpentine Receptor, class W family member (srw-40) [Source:RefSeq_peptide;Acc:NP_494759]	blood coagulation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y52E8A.2	Y52E8A.2	Y52E8A.2 [Source:RefSeq_peptide;Acc:NP_494760]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
Y52E8A.1	Y52E8A.1	Y52E8A.1 [Source:RefSeq_peptide;Acc:NP_494761]	positive regulation of growth rate, 		protein binding, 
H20J04.6	H20J04.6	H20J04.6 encodes a putative transmembrane protein orthologous to Arabidopsis thaliana REVERSION-TO-ETHYLENE SENSITIVITY1 (RTE1) and tomato Green ripe (GR), along with other unannotated metazoan and protozoan proteins. RTE1 and GR negatively regulate the response to ethylene receptors. [Source: WormBase]			
sap-1	H20J04.8	Probable U2 small nuclear ribonucleoprotein A' (U2 snRNP-A') (Spliceosome-associated protein 1). [Source:Uniprot/SWISSPROT;Acc:Q9BLB6]			protein binding, 
pfd-2	H20J04.5	Probable prefoldin subunit 2. [Source:Uniprot/SWISSPROT;Acc:Q9N5M2]	protein folding, embryonic development ending in birth or egg hatching, 	prefoldin complex, 	protein binding, unfolded protein binding, 
H20J04.4	H20J04.4	H20J04.4b [Source:RefSeq_peptide;Acc:NP_001040789]	positive regulation of growth rate, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
H20J04.3	H20J04.3	H20J04.3 [Source:RefSeq_peptide;Acc:NP_494766]			DNA binding, 
H20J04.2	H20J04.2	H20J04.2 [Source:RefSeq_peptide;Acc:NP_494767]	locomotory behavior, 		protein binding, zinc ion binding, 
H20J04.9	H20J04.9	H20J04.9 [Source:RefSeq_peptide;Acc:NP_001022224]	metabolic process, 		methyltransferase activity, 
H20J04.7	H20J04.7	H20J04.7 [Source:RefSeq_peptide;Acc:NP_494768]			
H20J04.1	H20J04.1	H20J04.1 [Source:RefSeq_peptide;Acc:NP_494769]			
lat-2	B0286.2	lat-2 encodes a predicted transmembrane protein that is homologous to vertebrate latrophilins, alpha-latrotoxin binding proteins that are members of the Class B/secretin family of G protein-coupled receptors. by homology, LAT-2 is predicted to function as a peptide hormone receptor that couples ligand binding to heterotrimeric G protein-mediated stimulation of secretion. lat-2 is expressed in the g1 gland cells and in the arcade cells in the head, and its expression has been reported to cycle with larval molts. as loss of lat-2 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of LAT-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	neuropeptide signaling pathway, 	membrane, 	G-protein coupled receptor activity, sugar binding, latrotoxin receptor activity, GABA-B receptor activity, brain-specific angiogenesis inhibitor activity, 
try-9	B0286.6	B0286.6 [Source:RefSeq_peptide;Acc:NP_001021891]	proteolysis, 		serine-type endopeptidase activity, 
B0286.3	B0286.3	Probable multifunctional protein ADE2 [Includes: Phosphoribosylaminoimidazole-succinocarboxamide synthase (EC 6.3.2.6) (SAICAR synthetase); Phosphoribosylaminoimidazole carboxylase (EC 4.1.1.21) (AIR carboxylase) (AIRC)]. [Source:Uniprot/SWISSPROT;Acc:Q10457]	'de novo' IMP biosynthetic process, purine nucleotide biosynthetic process, 	phosphoribosylaminoimidazole carboxylase complex, 	phosphoribosylaminoimidazole carboxylase activity, phosphoribosylaminoimidazolesuccinocarboxamide synthase activity, identical protein binding, 
ntl-2	B0286.4	NOT-Like (yeast CCR4/NOT complex component) family member (ntl-2) [Source:RefSeq_peptide;Acc:NP_001040726]	regulation of transcription, morphogenesis of an epithelium, 	nucleus, 	protein binding, transcription regulator activity, identical protein binding, 
B0286.1	B0286.1	Uncharacterized protein B0286.1. [Source:Uniprot/SWISSPROT;Acc:Q10921]			
fkh-6	B0286.5	fkh-6 encodes one of 15 C. elegans forkhead transcription factors. fkh-6 is required for several aspects of male gonadogenesis including asymmetric cell division, cell migration and sex determination and appears to act downstream of tra-1. FKH-6 is specifically expressed in the gonad. [Source: WormBase]	regulation of transcription, DNA-dependent, morphogenesis of an epithelium, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
mlt-7	ZK430.8	ZK430.8 [Source:RefSeq_peptide;Acc:NP_494777]	electron transport, response to oxidative stress, phospholipid metabolic process, lipid catabolic process, biological_process, 		peroxidase activity, heme binding, phospholipase A2 activity, 
ZK430.5	ZK430.5	ZK430.5 [Source:RefSeq_peptide;Acc:NP_494778]	proteolysis, 	nucleus, 	peptidase activity, 
sod-5	ZK430.3	SOD (superoxide dismutase) family member (sod-5) [Source:RefSeq_peptide;Acc:NP_494779]	superoxide metabolic process, 		metal ion binding, copper, zinc superoxide dismutase activity, 
tag-231	ZK430.2	Temporarily Assigned Gene name family member (tag-231) [Source:RefSeq_peptide;Acc:NP_494780]	carbohydrate metabolic process, 		phosphoric ester hydrolase activity, inositol or phosphatidylinositol phosphatase activity, 
ZK430.7	ZK430.7	ZK430.7 [Source:RefSeq_peptide;Acc:NP_494781]	embryonic development ending in birth or egg hatching, 		
ZK430.1	ZK430.1	Uncharacterized protein ZK430.1. [Source:Uniprot/SWISSPROT;Acc:Q23495]	positive regulation of growth rate, 		binding, 
nhr-109	T12C9.5	nhr-109 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-273	T12C9.1	Nuclear Hormone Receptor family member (nhr-273) [Source:RefSeq_peptide;Acc:NP_494784]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-16	T12C9.6	nhr-16 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
twk-2	T12C9.3	twk-2 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. the precise role of TWK-2 in C. elegans development and/or behavior is not yet known, but TWK-2 may function redundantly with other TWK channels. TWK-2 is expressed in a subset of neurons. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
T12C9.7	T12C9.7	T12C9.7 [Source:RefSeq_peptide;Acc:NP_494787]	biological_process, 	nucleus, 	
W06B4.3	W06B4.3	W06B4.3 [Source:RefSeq_peptide;Acc:NP_494788]	cell death, 		protein binding, zinc ion binding, 
W06B4.2	W06B4.2	W06B4.2 [Source:RefSeq_peptide;Acc:NP_494789]			
W06B4.1	W06B4.1	W06B4.1 [Source:RefSeq_peptide;Acc:NP_494790]			
T05C1.1	T05C1.1	T05C1.1 [Source:RefSeq_peptide;Acc:NP_494791]			
T05C1.2	T05C1.2	T05C1.2 [Source:RefSeq_peptide;Acc:NP_494792]			
T05C1.3	T05C1.3	T05C1.3 [Source:RefSeq_peptide;Acc:NP_494793]			
T05C1.5	T05C1.5	T05C1.5 [Source:RefSeq_peptide;Acc:NP_494794]			
T05C1.4	T05C1.4	T05C1.4 encodes, by alternative splicing, two members of the CAMTA family of calmodulin-binding transcriptional activators that are required for embryonic development. CAMTA proteins are conserved in animals and plants but absent from unicellular eukaryotes, and may thus represent a transcriptional activator specific to multicellular organisms. the common organization of CAMTA proteins is to have two N-terminal DNA-binding domains (CG-1 and TIG), followed by two ankyrin repeats, and then two or more calmodulin-binding IQ repeats. the domain organization of T05C1.4 somewhat resembles that of NF-AT, a non-canonical Wnt transcription factor (TF) in other organisms than C. elegans. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
cyp-23A1	B0304.3	The B0304.3 gene encodes a homolog of the human gene CYP7B1, which when mutated leads to giant cell hepatitis (OMIM:231100). [Source: WormBase]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
hlh-1	B0304.1	hlh-1 encodes a basic helix-loop-helix (bHLH) transcription factor that is the sole C. elegans member of the myogenic regulatory factor (MRF) subgroup of bHLH proteins. in C. elegans, HLH-1 activity is required during embryonic development for the proper differentiation and function of body wall muscle cells, indicating that unlike its vertebrate counterparts, hlh-1 is not absolutely required for body wall muscle specification. however, ectopic expression of hlh-1 in the embryo is sufficient to convert nearly all embryonic cell types to a muscle-like fate. in regulating body wall muscle cell development in some cell lineages, hlh-1 likely lies downstream of the PAL-1 homeodomain protein that is required for specification of the C and D founder cell fates. HLH-1 is expressed in nuclei and first appears in body wall muscle precursors beginning at the ~80-cell stage of embryogenesis. expression then continues in these cells and their differentiated descendants throughout embryonic, larval, and adult stages of development. [Source: WormBase]	regulation of transcription, locomotory behavior, 	nucleus, 	transcription regulator activity, 
B0304.4	B0304.4	Uncharacterized protein B0304.4. [Source:Uniprot/SWISSPROT;Acc:Q10933]			
B0304.2	B0304.2	Uncharacterized protein B0304.2. [Source:Uniprot/SWISSPROT;Acc:Q10932]			
sra-35	B0304.8	Serpentine Receptor, class A (alpha) family member (sra-35) [Source:RefSeq_peptide;Acc:NP_872033]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-32	B0304.5	Serpentine receptor class alpha-32 (Protein sra-32). [Source:Uniprot/SWISSPROT;Acc:Q10934]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-33	B0304.6	Serpentine receptor class alpha-33 (Protein sra-33). [Source:Uniprot/SWISSPROT;Acc:Q10935]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-36	B0304.9	Serpentine Receptor, class A (alpha) family member (sra-36) [Source:RefSeq_peptide;Acc:NP_494803]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-34	B0304.7	Serpentine receptor class alpha-34 (Protein sra-34). [Source:Uniprot/SWISSPROT;Acc:Q10936]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
K07E1.1	K07E1.1	K07E1.1 [Source:RefSeq_peptide;Acc:NP_494804]			
M03A1.3	M03A1.3	M03A1.3 encodes a protein with ~10 predicted transmembrane sequences. it has an internal repeat (in residues 74-351 and 377-668), with some similarity in these repeated domains to worm C05D12.1 and C13B4.1, and to mammalian stromal cell derived factor receptor 2. [Source: WormBase]			
dao-2	M03A1.7	dao-2 encodes a (putatively) secreted protein with a DB module. dao-2 is down-regulated in daf-2 mutant adults by comparison with normal adults, and thus may be involved in dauer formation. [Source: WormBase]			
M03A1.t2	M03A1.t2				
M03A1.t1	M03A1.t1				
vab-1	M03A1.1	vab-1 encodes an ephrin receptor. during development, vab-1 activity is required for neural and epithelial morphogenesis as well as for proper axon targeting and neuronal cell migration. in addition, VAB-1 functions as a major sperm protein receptor in a sperm-sensing control mechanism that regulates oocyte meiotic maturation. VAB-1::GFP reporters are expressed in neuronal cells and in oocytes and sheath cells of the proximal gonad. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, morphogenesis of embryonic epithelium, axon guidance, dorsal closure, 	membrane, integral to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, ephrin receptor activity, 
ipla-1	M03A1.6	Intracelllar PhosphoLipase A family member (ipla-1) [Source:RefSeq_peptide;Acc:NP_740975]			metal ion binding, 
F35D11.5	F35D11.5	F35D11.5 [Source:RefSeq_peptide;Acc:NP_494810]			
F35D11.4	F35D11.4	F35D11.4 [Source:RefSeq_peptide;Acc:NP_494811]	cAMP biosynthetic process, 		adenylate cyclase activity, 
F35D11.3	F35D11.3	F35D11.3 [Source:RefSeq_peptide;Acc:NP_494812]			
pqn-35	F35D11.2	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
F35D11.7	F35D11.7	F35D11.7 [Source:RefSeq_peptide;Acc:NP_494813]			
F35D11.8	F35D11.8	F35D11.8 [Source:RefSeq_peptide;Acc:NP_494814]			sugar binding, 
F35D11.9	F35D11.9	F35D11.9 [Source:RefSeq_peptide;Acc:NP_494815]			
F35D11.10	F35D11.10	F35D11.10 [Source:RefSeq_peptide;Acc:NP_494816]			sugar binding, 
F35D11.1	F35D11.1	F35D11.1 [Source:RefSeq_peptide;Acc:NP_494818]			
dyf-14	F35D11.11	dyf-14 encodes, by alternative splicing, at least four isoforms of a rootletin ortholog required for ciliogenesis. dyf-14(ks69) mutants have strong but not absolute defects in cilium initiation, forming 1-2 short cilia per amphid channel and showing intraflagellar transport (IFT) along these vestigial cilia. dyf-14(ks69) mutants have no remaining cilia in their phasmid channels, and abnormal IFT particle aggregates in their dendritic endings. DYF-14 isoforms are large (1671-1955 residues) proteins with predicted coiled-coils throughout their length, are paralogous to LFI-1, are orthologous to human CROCC (rootletin) and CEP250, and are homologous to the Parascaris univalens Mitotic Antigen, PUMA1. [Source: WormBase]			nucleotide binding, 
lgc-27	Y74E4A.1	Y74E4A.1b [Source:RefSeq_peptide;Acc:NP_740977]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
fut-6	T05A7.5	FUcosyl Transferase family member (fut-6) [Source:RefSeq_peptide;Acc:NP_494823]	protein amino acid glycosylation, 	membrane, 	fucosyltransferase activity, 
T05A7.11	T05A7.11	T05A7.11 [Source:RefSeq_peptide;Acc:NP_001022311]			
fut-5	T05A7.10	FUcosyl Transferase family member (fut-5) [Source:RefSeq_peptide;Acc:NP_001022310]	protein amino acid glycosylation, sphingolipid metabolic process, 	membrane, lysosome, 	fucosyltransferase activity, 
T05A7.6	T05A7.6	T05A7.6 [Source:RefSeq_peptide;Acc:NP_494824]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
hmg-11	T05A7.4	HMG family member (hmg-11) [Source:RefSeq_peptide;Acc:NP_494825]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	DNA binding, 
T05A7.2	T05A7.2	T05A7.2 [Source:RefSeq_peptide;Acc:NP_494826]			sugar binding, 
T05A7.3	T05A7.3	T05A7.3 [Source:RefSeq_peptide;Acc:NP_494827]			
T05A7.1	T05A7.1	T05A7.1 [Source:RefSeq_peptide;Acc:NP_494828]			
T05A7.7	T05A7.7	T05A7.7 [Source:RefSeq_peptide;Acc:NP_494829]			
sre-40	T05A7.8	Serpentine Receptor, class E (epsilon) family member (sre-40) [Source:RefSeq_peptide;Acc:NP_494830]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
T05A7.9	T05A7.9	T05A7.9 [Source:RefSeq_peptide;Acc:NP_494831]			
sre-39	F10G7.7	Serpentine Receptor, class E (epsilon) family member (sre-39) [Source:RefSeq_peptide;Acc:NP_494832]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F10G7.12	F10G7.12	F10G7.12 [Source:RefSeq_peptide;Acc:NP_001040758]			
F10G7.6	F10G7.6	F10G7.6 [Source:RefSeq_peptide;Acc:NP_494833]			
F10G7.5	F10G7.5	F10G7.5b [Source:RefSeq_peptide;Acc:NP_001040760]	transport, positive regulation of growth rate, 	integral to membrane, 	transporter activity, 
rpn-5	F10G7.8	proteasome Regulatory Particle, Non-ATPase-like family member (rpn-5) [Source:RefSeq_peptide;Acc:NP_494835]	embryonic development ending in birth or egg hatching, 		
scc-1	F10G7.4	scc-1 encodes a member of the Rad21/Rec8-like family of cohesion proteins that affects embryonic viability, fertility, the rate of embryonic cell divisions and the incidence of male progeny. interacts with ATL-1, F56D12.5, and F11E6.1 based on yeast two-hybrid assays, and is expressed in nondividing embryonic and germline nuclei. [Source: WormBase]	reproduction, synaptonemal complex assembly, 	nuclear chromosome, 	protein binding, 
asf-1	F10G7.3	Probable histone chaperone asf-1 (Anti-silencing function protein 1). [Source:Uniprot/SWISSPROT;Acc:Q19326]	chromatin assembly or disassembly, embryonic development ending in birth or egg hatching, 	nucleus, 	
F10G7.9	F10G7.9	F10G7.9b [Source:RefSeq_peptide;Acc:NP_871984]			protein binding, 
tsn-1	F10G7.2	tsn-1 encodes the C. elegans ortholog of Tudor-SN (tudor staphylococcal nuclease). TSN-1 is a component of the RNA-induced silencing complex (RISC) and its activity is required for proper function of the let-7 miRNA in vivo. TSN-1 is found in both the nucleus and the cytosol. [Source: WormBase]	positive regulation of growth rate, miRNA-mediated gene silencing, 		nucleic acid binding, 
tag-151	F10G7.1	Temporarily Assigned Gene name family member (tag-151) [Source:RefSeq_peptide;Acc:NP_494840]	positive regulation of growth rate, 		
F10G7.10	F10G7.10	F10G7.10a [Source:RefSeq_peptide;Acc:NP_494841]	ubiquitin cycle, 		protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
F41C3.8	F41C3.8	F41C3.8b [Source:RefSeq_peptide;Acc:NP_001040777]	defense response, 		
F10G7.11	F10G7.11	F10G7.11 [Source:RefSeq_peptide;Acc:NP_871961]			
F41C3.7	F41C3.7	F41C3.7 [Source:RefSeq_peptide;Acc:NP_494843]			
F41C3.11	F41C3.11	F41C3.11 [Source:RefSeq_peptide;Acc:NP_494844]	transport, 		transporter activity, binding, 
F41C3.6	F41C3.6	F41C3.6 [Source:RefSeq_peptide;Acc:NP_494845]			
F41C3.5	F41C3.5	Uncharacterized serine carboxypeptidase F41C3.5 precursor (EC 3.4.16.-). [Source:Uniprot/SWISSPROT;Acc:P52717]	proteolysis, 		serine carboxypeptidase activity, 
F41C3.4	F41C3.4	Probable Golgi transport protein 1. [Source:Uniprot/SWISSPROT;Acc:Q20263]	vesicle-mediated transport, biological_process, 		
acs-11	F41C3.3	fatty Acid CoA Synthetase family member (acs-11) [Source:RefSeq_peptide;Acc:NP_494848]	metabolic process, 		catalytic activity, 
F41C3.2	F41C3.2	F41C3.2 [Source:RefSeq_peptide;Acc:NP_494849]			transporter activity, 
F41C3.1	F41C3.1	F41C3.1 [Source:RefSeq_peptide;Acc:NP_494850]			
C27D9.1	C27D9.1	C27D9.1 [Source:RefSeq_peptide;Acc:NP_494851]	embryonic development ending in birth or egg hatching, 		
C27D9.2	C27D9.2	C27D9.2 [Source:RefSeq_peptide;Acc:NP_494852]			
F26G1.3	F26G1.3	F26G1.3 [Source:RefSeq_peptide;Acc:NP_494853]			
F26G1.2	F26G1.2	F26G1.2a [Source:RefSeq_peptide;Acc:NP_001040768]			
ttm-2	F26G1.4	Toxin-regulated Target of p38MAPK family member (ttm-2) [Source:RefSeq_peptide;Acc:NP_494855]			
F26G1.5	F26G1.5	F26G1.5 [Source:RefSeq_peptide;Acc:NP_494856]			
F26G1.9	F26G1.9	F26G1.9 [Source:RefSeq_peptide;Acc:NP_001040770]			
F26G1.10	F26G1.10	F26G1.10 [Source:RefSeq_peptide;Acc:NP_001040767]			
F26G1.6	F26G1.6	F26G1.6 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. while F26G1.6 has no clear orthologs in other organisms, it falls into a group of proteins that includes the classical neprilysins found in mammals (e.g., PEX [OMIM:307800] and the enkephalin cleaving enzymes). [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F26G1.11	F26G1.11				
msp-3	F26G1.7	msp-3 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-3 is similar in nucleotide sequence to the msp genes from the nematode Onchocerca volvulus. the msp gene family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSP proteins assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
msp-42	F26G1.8	msp-42 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			
F26G1.1	F26G1.1	F26G1.1 [Source:RefSeq_peptide;Acc:NP_494859]	positive regulation of growth rate, 		
C33F10.4	C33F10.4	C33F10.4a [Source:RefSeq_peptide;Acc:NP_001022011]	amino acid metabolic process, cellular metabolic process, regulation of nitrogen utilization, 	cytoplasm, 	oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor, transcription repressor activity, catalytic activity, coenzyme binding, NAD binding, 
rig-6	C33F10.5	rig-6 encodes a protein with immunoglobulin and fibronectin type III domains and is similar to vertebrate contactins. based upon large-scale RNAi screens, rig-6 activity appears to be required for reproduction and positive regulation of body size. rig-6::gfp reporter fusion are expressed in neurons, particularly the URX ring interneurons. [Source: WormBase]	positive regulation of multicellular organism growth, 		
lact-5	C33F10.7	C33F10.7a [Source:RefSeq_peptide;Acc:NP_001022015]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
C33F10.8	C33F10.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
msp-40	C33F10.9	msp-40 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
fbxb-88	C33F10.13	F-box B protein family member (fbxb-88) [Source:RefSeq_peptide;Acc:NP_740980]			
C33F10.2	C33F10.2	C33F10.2 [Source:RefSeq_peptide;Acc:NP_494866]	protein amino acid phosphorylation, regulation of Rab GTPase activity, 	intracellular, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, Rab GTPase activator activity, 
C33F10.11	C33F10.11	C33F10.11 [Source:RefSeq_peptide;Acc:NP_494868]			
C33F10.1	C33F10.1	C33F10.1 [Source:RefSeq_peptide;Acc:NP_494869]			
C33F10.12	C33F10.12	C33F10.12 [Source:RefSeq_peptide;Acc:NP_494870]	transport, 	membrane, integral to membrane, mitochondrial inner membrane, 	transporter activity, binding, arsenite transmembrane transporter activity, 
T23B7.2	T23B7.2	T23B7.2 [Source:RefSeq_peptide;Acc:NP_001022353]			
nspd-4	T23B7.1	Nematode Specific Peptide family, group D family member (nspd-5) [Source:RefSeq_peptide;Acc:NP_494875]			
T23B7.3	T23B7.3	T23B7.3 [Source:RefSeq_peptide;Acc:NP_001040811]			
dnj-9	F11G11.7	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
F11G11.5	F11G11.5	F11G11.5 [Source:RefSeq_peptide;Acc:NP_494874]	embryonic development ending in birth or egg hatching, 		
nspd-5	F11G11.8	Nematode Specific Peptide family, group D family member (nspd-5) [Source:RefSeq_peptide;Acc:NP_494875]	positive regulation of growth rate, 		
F11G11.4	F11G11.4	F11G11.4 [Source:RefSeq_peptide;Acc:NP_494876]			
F11G11.9	F11G11.9	Putative thiosulfate sulfurtransferase F11G11.9 (EC 2.8.1.1). [Source:Uniprot/SWISSPROT;Acc:P91247]			thiosulfate sulfurtransferase activity, 
F11G11.14	F11G11.14	F11G11.14 [Source:RefSeq_peptide;Acc:NP_001022076]			
col-17	F11G11.10	col-17 encodes a collagen which is expressed in all developmental stages except eggs, like col-15, col-16, and col-20. collagen genes with this expression pattern may be used for synthesis of cuticles after the L1 stage (e.g., the L4 cuticle). [Source: WormBase]	positive regulation of multicellular organism growth, 		
col-20	F11G11.11	col-20 encodes a collagen. its expression pattern and mutant phenotypes are unknown. [Source: WormBase]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
col-73	F11G11.12	F11G11.12 [Source:RefSeq_peptide;Acc:NP_494880]	phosphate transport, G-protein coupled receptor protein signaling pathway, positive regulation of multicellular organism growth, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
F11G11.13	F11G11.13	F11G11.13 [Source:RefSeq_peptide;Acc:NP_494881]	embryonic development ending in birth or egg hatching, 		transferase activity, transferring phosphorus-containing groups, kinase activity, 
gst-6	F11G11.3	gst-6 encodes a predicted glutathione S-transferase. [Source: WormBase]	biological_process, 	cellular_component, 	catalytic activity, 
gst-7	F11G11.2	gst-7 encodes a predicted glutathione S-transferase. [Source: WormBase]	biological_process, 	cellular_component, 	protein binding, catalytic activity, 
gst-8	F11G11.1	gst-8 encodes a predicted glutathione S-transferase. [Source: WormBase]	biological_process, 	cellular_component, 	
R05F9.7	R05F9.7	R05F9.7 [Source:RefSeq_peptide;Acc:NP_494885]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
R05F9.6	R05F9.6	R05F9.6 [Source:RefSeq_peptide;Acc:NP_494886]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		intramolecular transferase activity, phosphotransferases, 
gst-9	R05F9.5	gst-9 encodes a predicted glutathione S-transferase. by homology, GST-9 is predicted to play a role in the detoxification of environmental toxins and xenobiotics by transferring glutathione to reactive electrophilic compounds. however, as loss of gst-9 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GST-9 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	biological_process, 	cellular_component, 	
msp-33	R05F9.8	msp-33 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-33 has a C. briggsae homolog as predicted by the Wobble Aware Bulk Aligner (WABA). the MSP family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
msp-32	R05F9.3	msp-32 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-32 has a C. briggsae homolog as predicted by the Wobble Aware Bulk Aligner (WABA). the msp family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
R05F9.9	R05F9.9	R05F9.9 [Source:RefSeq_peptide;Acc:NP_494892]			
sgt-1	R05F9.10	Small Glutamine-rich Tetratrico repeat protein family member (sgt-1) [Source:RefSeq_peptide;Acc:NP_494893]			protein binding, binding, 
R05F9.1	R05F9.1	R05F9.1b [Source:RefSeq_peptide;Acc:NP_740981]	potassium ion transport, locomotory behavior, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
R05F9.11	R05F9.11	R05F9.11 [Source:RefSeq_peptide;Acc:NP_494896]			
R05F9.12	R05F9.12	R05F9.12 [Source:RefSeq_peptide;Acc:NP_494897]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
msp-31	R05F9.13	msp-31 encodes a member of the major sperm protein family. msp-31 has a C. briggsae homolog as predicted by the Wobble Aware Bulk Aligner (WABA). expression is enriched in sperm. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
ZK546.7	ZK546.7	ZK546.7 [Source:RefSeq_peptide;Acc:NP_494900]			
msp-152	ZK546.6	msp-152 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
gst-30	ZK546.11	Glutathione S-Transferase family member (gst-30) [Source:RefSeq_peptide;Acc:NP_494902]			protein binding, 
ZK546.5	ZK546.5	ZK546.5 [Source:RefSeq_peptide;Acc:NP_494903]		intracellular, 	zinc ion binding, nucleic acid binding, 
ZK546.4	ZK546.4	ZK546.4 [Source:RefSeq_peptide;Acc:NP_494904]			
cblc-1	ZK546.17	MMACHC-like protein. [Source:Uniprot/SWISSPROT;Acc:Q7Z144]			
ZK546.3	ZK546.3	ZK546.3 [Source:RefSeq_peptide;Acc:NP_494906]			structural molecule activity, 
mdt-4	ZK546.13	MeDiaTor family member (mdt-4) [Source:RefSeq_peptide;Acc:NP_494905]	morphogenesis of an epithelium, 		
NR_003422.1	ZK546.18	ZK546.18, snoRNA [Source:RefSeq_dna;Acc:NR_003422]			
ZK546.14	ZK546.14	Uncharacterized protein ZK546.14. [Source:Uniprot/SWISSPROT;Acc:Q23525]	positive regulation of growth rate, 		
ZK546.2	ZK546.2	ZK546.2c [Source:RefSeq_peptide;Acc:NP_001022525]			protein binding, 
try-1	ZK546.15	ZK546.15 [Source:RefSeq_peptide;Acc:NP_494910]	proteolysis, embryonic development ending in birth or egg hatching, 		serine-type peptidase activity, serine-type endopeptidase activity, 
zyg-12	ZK546.1	zyg-12 encodes three coiled-coil domain-containing proteins that belong to the Hook protein family, members of which likely act as linker proteins that connect membrane compartments with the microtubule cytoskeleton. during embryonic development, zyg-12 activity is essential and is required continuously for nuclear-centrosome attachment and proper nuclear positioning within cells. in addition, zyg-12 is required after fertilization for proper pronuclear migration. two predicted transmembrane isoforms of ZYG-12 localize to the nuclear envelope and to centrosomes, while a third ZYG-12 isoform lacking a transmembrane domain localizes only to centrosomes. ZYG-12 nuclear envelope localization is seen in the syncytial gonad, oocytes, and early embryonic nuclei and requires SUN-1 function. in turn, ZYG-12 is required for nuclear envelope localization of DHC-1/dynein heavy chain, LIS-1, and ARP-1. ZYG-12 localization to centrosomes requires microtubules. in yeast two-hybrid assays, ZYG-12 interacts with itself and with the DLI-1/dynein light intermediate chain. [Source: WormBase]	signal transduction, chemotaxis, vesicle-mediated transport, embryonic development ending in birth or egg hatching, centrosome localization, 	membrane, 	protein binding, signal transducer activity, 
ndx-3	Y38A8.1	The ndx-3 gene encodes a homolog of peroxisomal CoA diphosphatases in both S. cerevisiae (PCD1) and C. elegans (NDX-8). more generally, NDX-3 protein belongs to the family of NUDIX hydrolases. [Source: WormBase]	nucleoside diphosphate metabolic process, 		hydrolase activity, magnesium ion binding, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, manganese ion binding, 
pbs-3	Y38A8.2	pbs-3 encodes a B-type subunit of the 26S proteasome's 20S protease core particle. by homology, PBS-3 is predicted to function in ATP/ubiquitin-dependent nonlysosomal protein degradation. loss of pbs-3 activity via large-scale RNAi screens indicates that, in C. elegans, PBS-3 is required for embryonic and germline development, movement, normal body coloration, and normal body morphology. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
ulp-2	Y38A8.3	Ubiquitin-Like Protease family member (ulp-2) [Source:RefSeq_peptide;Acc:NP_494914]	proteolysis, positive regulation of growth rate, 		cysteine-type peptidase activity, 
shc-2	T27F7.2	T27F7.2 encodes three proteins by multiple splicing, two of which (T27F7.2A-B) are fully orthologous to vertebrate Shc proteins (e.g., p52/p46SHC and p66SHC). like their orthologs, T27F7.2A-B have a PTB and an SH2 domain in N- to C-terminal order. T27F7.2 is expressed in gastrulating embryos (probably in neural precursors). T27F7.2 might be involved in RAS signal transduction or regulation of apoptosis. [Source: WormBase]	intracellular signaling cascade, 		
T27F7.3	T27F7.3	T27F7.3b [Source:RefSeq_peptide;Acc:NP_001022376]	translational initiation, positive regulation of growth rate, 		translation initiation factor activity, 
T27F7.1	T27F7.1	T27F7.1 [Source:RefSeq_peptide;Acc:NP_494919]	protein transport, biological_process, 		
rnh-1.0	F59A6.6	rnh-1.0 encodes a putative RNAse H that is predicted, by phylogenetic profiling, to be mitochondrial. [Source: WormBase]			nucleic acid binding, ribonuclease H activity, 
F59A6.11	F59A6.11	F59A6.11 [Source:RefSeq_peptide;Acc:NP_001040784]			
F59A6.5	F59A6.5	F59A6.5 [Source:RefSeq_peptide;Acc:NP_494921]	intracellular signaling cascade, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, small GTPase regulator activity, 
F59A6.10	F59A6.10	F59A6.10 [Source:RefSeq_peptide;Acc:NP_001022216]			
F59A6.4	F59A6.4	F59A6.4 [Source:RefSeq_peptide;Acc:NP_494922]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F59A6.3	F59A6.3	F59A6.3 [Source:RefSeq_peptide;Acc:NP_494923]			
F59A6.12	F59A6.12	F59A6.12 [Source:RefSeq_peptide;Acc:NP_001040785]			
msp-71	F59A6.8	msp-71 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			
F59A6.2	F59A6.2	F59A6.2 [Source:RefSeq_peptide;Acc:NP_494924]	embryonic development ending in birth or egg hatching, 		
nsy-1	F59A6.1	nsy-1 encodes a MAP kinase kinase kinase homolog that affects chemotaxis, egg laying, and pathogen response. NSY-1 activity is activated by the calmodulin kinase UNC-43, and is required for lateral signalling that leads to asymmetric olfactory neuron fates. interacts with SEK-1, and is expressed in the intestine, hypodermis, rectal gland cells, and neurons. [Source: WormBase]	protein amino acid phosphorylation, chemotaxis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F33G12.2	F33G12.2	F33G12.2 [Source:RefSeq_peptide;Acc:NP_494926]			
F33G12.3	F33G12.3	F33G12.3 [Source:RefSeq_peptide;Acc:NP_494927]	proteolysis, 		cysteine-type endopeptidase activity, 
F33G12.t1	F33G12.t1				
F33G12.4	F33G12.4	F33G12.4 [Source:RefSeq_peptide;Acc:NP_494928]	embryonic development ending in birth or egg hatching, 		protein binding, 
F33G12.5	F33G12.5	F33G12.5 [Source:RefSeq_peptide;Acc:NP_494929]	vesicle-mediated transport, 	membrane, 	protein binding, 
F33G12.7	F33G12.7	F33G12.7 [Source:RefSeq_peptide;Acc:NP_001040771]			
F33G12.6	F33G12.6	F33G12.6a [Source:RefSeq_peptide;Acc:NP_001022137]			catalytic activity, 
ify-1	C27A2.3	ify-1 encodes a rapidly evolving protein ligand of FZY-1, with only 53% identity between C. elegans and C. briggsae and with no visible homologs in more distant species. IFY-1 binds FZY-1 and SEP-1 in yeast two-hybrid assays. ify-1(RNAi) and sep-1(RNAi) animals arrest as one-cell embryos with disorganized chromosomes, supporting the hypothesis that IFY-1 is a securin. the fzy-1(h1983) mutation blocks FZY-1 binding to IFY-1, but not to MDF-2, another possible FZY-1 ligand. IFY-1 protein accumulates abnormally in developmentally arrested one-cell emb-30 embryos. [Source: WormBase]	embryonic cleavage, 		protein binding, 
rpl-22	C27A2.2	rpl-22 encodes a large ribosomal subunit L22 protein. by homology, RPL-22 is predicted to function in protein biosynthesis. in C. elegans, RPL-22 activity is broadly required for embryonic and germline development, as well as normal body coloration, morphology, and postembryonic growth rates. [Source: WormBase]	translation, negative regulation of multicellular organism growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
C27A2.4	C27A2.4	C27A2.4 [Source:RefSeq_peptide;Acc:NP_494934]			acid phosphatase activity, 
C27A2.t1	C27A2.t1				
C27A2.1	C27A2.1	C27A2.1 [Source:RefSeq_peptide;Acc:NP_494935]	DNA metabolic process, 	chromosome, 	ATP binding, 
C27A2.8	C27A2.8	C27A2.8 [Source:RefSeq_peptide;Acc:NP_001021994]			
C27A2.5	C27A2.5	C27A2.5 [Source:RefSeq_peptide;Acc:NP_494936]	defense response, 	extracellular region, 	protein binding, metal ion binding, 
C27A2.7	C27A2.7	C27A2.7 [Source:RefSeq_peptide;Acc:NP_001021993]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
dsh-2	C27A2.6	dsh-2 encodes a protein containing a DIX domain, a DEP domain, and a PDZ domain that is required for embryonic viability and functions in Wnt pathway signaling between the embryonic blastomeres P2 and EMS with respect to endoderm specification and to orient the division axis of the EMS cell. expressed from the four-cell embryo stage, and is primarily associated with membranes. [Source: WormBase]	intracellular signaling cascade, vesicle-mediated transport, multicellular organismal development, biological_process, 	membrane, intracellular, 	protein binding, signal transducer activity, 
C04G6.4	C04G6.4	C04G6.4 [Source:RefSeq_peptide;Acc:NP_494938]			
pld-1	C04G6.3	PhosphoLipase D family member (pld-1) [Source:RefSeq_peptide;Acc:NP_494939]	metabolic process, cell communication, 		protein binding, catalytic activity, phosphoinositide binding, 
C04G6.5	C04G6.5	UPF0057 membrane protein C04G6.5. [Source:Uniprot/SWISSPROT;Acc:Q17638]		integral to membrane, 	
C04G6.2	C04G6.2	C04G6.2 [Source:RefSeq_peptide;Acc:NP_494941]			
C04G6.6	C04G6.6	C04G6.6 [Source:RefSeq_peptide;Acc:NP_494942]			
C04G6.7	C04G6.7	C04G6.7 [Source:RefSeq_peptide;Acc:NP_494943]	defense response, type I hypersensitivity, 	extracellular region, 	metal ion binding, 
C04G6.10	C04G6.10	C04G6.10 [Source:RefSeq_peptide;Acc:NP_494944]	defense response, 	extracellular region, 	metal ion binding, 
C04G6.11	C04G6.11	C04G6.11 [Source:RefSeq_peptide;Acc:NP_494945]			
mpk-2	C04G6.1	mpk-2 encodes a mitogen activated protein (MAP) kinase. by homology, MPK-2 is predicted to function as a serine/threonine kinase that acts downstream of a receptor tyrosine kinase in a cell signaling pathway. however, as loss of mpk-2 activity via large-scale RNAi screens does not produce any obvious abnormalities, the precise role of MPK-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
NR_003398.1	C04G6.12	C04G6.12, snoRNA [Source:RefSeq_dna;Acc:NR_003398]			
F09C12.2	F09C12.2	F09C12.2 encodes a kinase most closely related to mitogen-activated protein (MAP) kinases. as loss of F09C12.2 activity via mutation or large-scale RNAi results in no obvious defects, the precise role of F09C12.2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
F09C12.8	F09C12.8	F09C12.8 encodes an ortholog, predicted to be catalytically inactive, of Bombyx mori ecdysteroid phosphate phosphatase (EPP), human STS1 (OMIM:609201) and human UBASH3A (OMIM:605736). F09C12.8 is also paralogous to C. elegans C52E4.7, F53B6.7, F55A11.11, and T07F12.1. [Source: WormBase]			
msp-74	F09C12.7	msp-74 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
F09C12.6	F09C12.6	F09C12.6 [Source:RefSeq_peptide;Acc:NP_494950]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ggr-3	F09C12.1	ggr-3 encodes a predicted member of the GABA/ glycine receptor family of ligand-gated chloride channels. expressed in the AVA, AVB, SMDD, DVA, SIAD, and in some other neurons of the nerve ring. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
F58A6.2	F58A6.2	F58A6.2 [Source:RefSeq_peptide;Acc:NP_494952]			
nas-29	F58A6.4	Zinc metalloproteinase nas-29 precursor (EC 3.4.24.21) (Nematode astacin 29). [Source:Uniprot/SWISSPROT;Acc:Q20958]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F58A6.1	F58A6.1	F58A6.1 [Source:RefSeq_peptide;Acc:NP_494954]	metabolic process, positive regulation of growth rate, 		catalytic activity, 
F58A6.5	F58A6.5	F58A6.5 [Source:RefSeq_peptide;Acc:NP_494955]			
srb-16	F58A6.6	Serpentine Receptor, class B (beta) family member (srb-16) [Source:RefSeq_peptide;Acc:NP_494956]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-12	F58A6.10	Serpentine Receptor, class B (beta) family member (srb-12) [Source:RefSeq_peptide;Acc:NP_494957]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-13	F58A6.11	Serpentine Receptor, class B (beta) family member (srb-13) [Source:RefSeq_peptide;Acc:NP_494958]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
msp-45	F58A6.8	msp-45 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
F58A6.9	F58A6.9	F58A6.9 [Source:RefSeq_peptide;Acc:NP_494960]			structural molecule activity, 
C27D6.11	C27D6.11	C27D6.11 [Source:RefSeq_peptide;Acc:NP_001021995]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
srb-5	C27D6.6	Serpentine receptor class beta-5 (Protein srb-5). [Source:Uniprot/SWISSPROT;Acc:Q95ZY4]		membrane, 	transmembrane receptor activity, 
srb-4	C27D6.7				
srb-3	C27D6.8	Serpentine receptor class beta-3 (Protein srb-3). [Source:Uniprot/SWISSPROT;Acc:Q95ZY2]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-2	C27D6.9	Serpentine receptor class beta-2 (Protein srb-2). [Source:Uniprot/SWISSPROT;Acc:Q95ZY1]		membrane, 	transmembrane receptor activity, 
srb-1	C27D6.10	Serpentine receptor class beta-1 (Protein srb-1). [Source:Uniprot/SWISSPROT;Acc:Q95ZY0]		membrane, 	transmembrane receptor activity, 
C27D6.1	C27D6.1	Uncharacterized protein C27D6.1. [Source:Uniprot/SWISSPROT;Acc:Q10030]	locomotory behavior, 		
C27D6.3	C27D6.3	Uncharacterized protein C27D6.3. [Source:Uniprot/SWISSPROT;Acc:Q10032]	locomotory behavior, 		
C27D6.12	C27D6.12	C27D6.12a [Source:RefSeq_peptide;Acc:NP_001040745]			
C27D6.4	C27D6.4	C27D6.4b [Source:RefSeq_peptide;Acc:NP_740986]	regulation of transcription, regulation of transcription, DNA-dependent, transcription, 	nucleus, 	transcription regulator activity, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
msp-49	C34F11.6	msp-49 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
C34F11.5	C34F11.5	C34F11.5 [Source:RefSeq_peptide;Acc:NP_494971]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-50	C34F11.4	msp-50 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]	biological_process, 		structural molecule activity, 
C34F11.3	C34F11.3	C34F11.3a [Source:RefSeq_peptide;Acc:NP_494974]	purine ribonucleoside monophosphate biosynthetic process, positive regulation of growth rate, 		deaminase activity, AMP deaminase activity, 
C34F11.8	C34F11.8	C34F11.8 [Source:RefSeq_peptide;Acc:NP_494975]			
C34F11.2	C34F11.2	C34F11.2 [Source:RefSeq_peptide;Acc:NP_494976]			
C34F11.1	C34F11.1	C34F11.1 [Source:RefSeq_peptide;Acc:NP_494977]			protein binding, zinc ion binding, 
dsh-1	C34F11.9	dsh-1 encodes a homolog of Drosophila DISHEVELED and a paralog of MIG-5 (and DSH-2). DSH-1 appears to be required for Wnt-induced endoderm specification in the EMS blastomere, and may influence HSN migration as well. [Source: WormBase]	intracellular signaling cascade, vesicle-mediated transport, multicellular organismal development, spindle organization and biogenesis, 	membrane, intracellular, 	protein binding, signal transducer activity, 
EGAP2.2	EGAP2.2	EGAP2.2 [Source:RefSeq_peptide;Acc:NP_494981]			
EGAP2.1	EGAP2.1	EGAP2.1 [Source:RefSeq_peptide;Acc:NP_494982]			
pho-1	EGAP2.3	pho-1 encodes the major C. elegans intestinal acid phosphatase. as loss of PHO-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, PHO-1 may function redundantly with other acid phosphatases. PHO-1 intestinal expression appears to be positively regulated by CKI-1, a cyclin-dependent kinase inhibitor, and negatively regulated by POP-1, a TCF/LEF transcription factor. PHO-1 is expressed along the intestinal brush border in all gut cells except the most anterior int-1 and int-2 cells, beginning at the three-fold stage of embryogenesis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		acid phosphatase activity, 
pho-4	T16D1.2	intestinal acid PHOsphatase family member (pho-4) [Source:RefSeq_peptide;Acc:NP_494984]			acid phosphatase activity, 
T16D1.t1	T16D1.t1				
T16D1.1	T16D1.1	T16D1.1 [Source:RefSeq_peptide;Acc:NP_494985]			
ptr-6	C54A12.1	ptr-6 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-6 is weakly required for normal molting from L4 to adult stages. however, PTR-6 in conjunction with PTR-1 and PTR-10 is strongly required for both molting and viability, with triple ptr-1/-6/-10 RNAi animals showing pronounced molting defects and lethality. PTR-6 is also required for normal growth to full size and locomotion. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	hedgehog receptor activity, 
C54A12.2	C54A12.2	C54A12.2 [Source:RefSeq_peptide;Acc:NP_494987]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, GABA-B receptor activity, 
C54A12.3	C54A12.3	C54A12.3 [Source:RefSeq_peptide;Acc:NP_494988]			
drn-1	C54A12.4	Di-Ras/Rig/Noey2 Ras-like protein homolog family member (drn-1) [Source:RefSeq_peptide;Acc:NP_494989]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
pmt-1	ZK622.3	pmt-1 encodes, by alternative splicing, four isoforms of an experimentally validated phosphoethanolamine N-methyltransferase required for phosphocholine biosynthesis and viability. PMT-1 lacks known mammalian orthologs, but has orthologs in parasitic nematodes, fish, amphibians, echinoderms, plants, alveolata, and bacteria. PMT-1 is distantly paralogous to PMT-2. PMT-1 catalyses the conversion of phosphoethanolamine to phospho-monomethylethanolamine (a precursor of phosphocholine) but does not proceed to further methylation steps, as do the multifunctional enzymes of plants or plasmodia. PMT-1 binds its substrates in random order, and is feedback-inhibited by phosphocholine. pmt-1(RNAi) animals fail to grow or develop, but can be rescued by phosphocholine precursors in their food media. given its phylogenetic and enzymatic specificity, coupled with its inviable RNAi phenotype, PMT-1 is a plausible target for nematicides. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 		methyltransferase activity, 
gur-5	ZK622.2	GUstatory Receptor family member (gur-5) [Source:RefSeq_peptide;Acc:NP_494992]			
ZK622.5	ZK622.5	ZK622.5 [Source:RefSeq_peptide;Acc:NP_001040831]			
ZK622.t1	ZK622.t1				
ZK622.4	ZK622.4	ZK622.4 [Source:RefSeq_peptide;Acc:NP_494993]			zinc ion binding, 
ZK622.t2	ZK622.t2				
ZK622.1	ZK622.1	ZK622.1 [Source:RefSeq_peptide;Acc:NP_494994]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
gcy-12	F08B1.2	gcy-12 encodes a predicted guanylate cyclase that affects chemotaxis to isoamyl alcohol. expressed in PHA neurons and in AFD neurons. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
F08B1.3	F08B1.3	F08B1.3 [Source:RefSeq_peptide;Acc:NP_494996]			
vhp-1	F08B1.1	Tyrosine-protein phosphatase vhp-1 (EC 3.1.3.48) (Vh1 dual specificity phosphatase family protein 1). [Source:Uniprot/SWISSPROT;Acc:Q10038]	protein amino acid dephosphorylation, dephosphorylation, biological_process, nematode larval development, response to copper ion, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, MAP kinase tyrosine/serine/threonine phosphatase activity, 
F09E5.14	F09E5.14	F09E5.14 [Source:RefSeq_peptide;Acc:NP_871960]			
F09E5.9	F09E5.9	F09E5.9 [Source:RefSeq_peptide;Acc:NP_494999]			
F09E5.10	F09E5.10	F09E5.10 [Source:RefSeq_peptide;Acc:NP_495000]			
F09E5.8	F09E5.8	UPF0001 protein F09E5.8. [Source:Uniprot/SWISSPROT;Acc:P52057]	embryonic development ending in birth or egg hatching, 		
F09E5.7	F09E5.7	F09E5.7 [Source:RefSeq_peptide;Acc:NP_495002]			protein binding, 
srg-69	F09E5.4	Serpentine receptor class gamma-69 (Protein srg-69). [Source:Uniprot/SWISSPROT;Acc:Q19258]	signal transduction, positive regulation of growth rate, 	membrane, 	transmembrane receptor activity, 
F09E5.11	F09E5.11	F09E5.11 encodes a divergent ortholog of S. cerevisiae VPH2/VMA12. like VPH2, F09E5.11 may be required for vacuolar proton-translocating ATPase (V-ATPase) assembly in the endoplasmic reticulum. [Source: WormBase]	positive regulation of growth rate, 		
bmy-1	F09E5.17	Boca/MESD chaperone for YWTD beta-propeller-EGF family member (bmy-1) [Source:RefSeq_peptide;Acc:NP_495003]			
sec-6	F09E5.5	Probable exocyst complex component 3 (Exocyst complex component Sec6). [Source:Uniprot/SWISSPROT;Acc:Q19262]	biological_process, 		protein binding, 
F09E5.16	F09E5.16	F09E5.16 [Source:RefSeq_peptide;Acc:NP_872053]			
F09E5.12	F09E5.12	F09E5.12 [Source:RefSeq_peptide;Acc:NP_495007]	transcription from RNA polymerase II promoter, 	DNA-directed RNA polymerase II, core complex, 	DNA binding, 
agt-2	F09E5.13	agt-2 encodes a paralog of the DNA repair enzyme O6-Alkylguanine DNA-alkyltransferase (AGT). AGT-2 has AGT biochemical activity and is expressed at all developmental stages. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F09E5.3	F09E5.3	Putative deoxyribose-phosphate aldolase (EC 4.1.2.4) (Phosphodeoxyriboaldolase) (Deoxyriboaldolase) (DERA). [Source:Uniprot/SWISSPROT;Acc:Q19264]	deoxyribonucleotide catabolic process, 	cytoplasm, 	lyase activity, catalytic activity, deoxyribose-phosphate aldolase activity, 
F09E5.2	F09E5.2	F09E5.2 [Source:RefSeq_peptide;Acc:NP_495010]	biosynthetic process, negative regulation of multicellular organism growth, 		
prdx-2	F09E5.15	PeRoxireDoXin family member (prdx-2) [Source:RefSeq_peptide;Acc:NP_872052]	biological_process, 		oxidoreductase activity, antioxidant activity, 
pkc-3	F09E5.1	Protein kinase C-like 3 (EC 2.7.11.13) (Atypical protein kinase C-3) (aPKC3). [Source:Uniprot/SWISSPROT;Acc:Q19266]	intracellular signaling cascade, protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, gonad development, establishment and/or maintenance of cell polarity, 	plasma membrane, cortical actin cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, protein domain specific binding, 
EEED8.6	EEED8.6	EEED8.6 encodes an ATP/ADP-activated metallocarboxypeptidase, orthologous to mammalian AGBL4 proteins, that may function in vivo as an alpha-tubulin C-terminal tyrosine carboxypeptidase. recombinant EEED8.6 is active in vitro on several different C-terminal amino acids of synthetic peptide substrates (with carboxypeptidase A- and B-like, but not O-like specificity). unlike most carboxypeptidases, but like tubulin carboxypeptidase, EEED8.6 is inhibited by high salt or by Z-Glu-Tyr dipeptide. EEED8.6 and its mammalian AGBL4 orthologs, along with other proteins such as mammalian AGBL5, comprise a M14D2 peptidase subfamily. by homolog-based structural modelling, EEED8.6 is predicted to have an unusually open active site. [Source: WormBase]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
rsp-4	EEED8.7	Probable splicing factor, arginine/serine-rich 4 (RNA-binding protein srp-2) (CeSC35). [Source:Uniprot/SWISSPROT;Acc:Q09511]	nuclear mRNA splicing, via spliceosome, 	nucleus, 	RNA binding, nucleic acid binding, 
ndx-6	EEED8.8	The ndx-6 gene encodes a NUDIX hydrolase. [Source: WormBase]			hydrolase activity, 
EEED8.16	EEED8.16	Uncharacterized RING finger protein EEED8.16. [Source:Uniprot/SWISSPROT;Acc:Q95QN6]			protein binding, zinc ion binding, 
pink-1	EEED8.9	pink-1 encodes a predicted serine/threonine protein kinase that is most similar to the Drosophila and human PINK1 (PTEN-induced kinase) protein kinases, the latter of which has been implicated in familial forms of Parkinson's disease. although loss of C. elegans pink-1 activity via large-scale RNAi screens results in no obvious abnormalities, studies in Drosophila indicate that Drosophila PINK1 is a mitochondrial protein that genetically interacts with Drosophila parkin and is essential for maintaining mitochondrial function and integrity in several tissues, including flight muscles and dopaminergic neurons. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
EEED8.10	EEED8.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	defense response, 		nucleotide binding, nucleic acid binding, serine-type endopeptidase inhibitor activity, 
mog-5	EEED8.5	The mog-5 gene encodes a DEAH helicase orthologous to the Drosophila CG8241, the human HRH1, and the S. cerevisiae PRP22 proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, RNA binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
EEED8.11	EEED8.11	Uncharacterized protein EEED8.11 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09300]			sugar binding, 
EEED8.12	EEED8.12	Putative RNA-binding protein EEED8.12. [Source:Uniprot/SWISSPROT;Acc:Q09301]			nucleotide binding, nucleic acid binding, 
EEED8.4	EEED8.4	Putative RNA-binding protein EEED8.4. [Source:Uniprot/SWISSPROT;Acc:Q09295]			nucleotide binding, nucleic acid binding, 
EEED8.13	EEED8.13	EEED8.13 [Source:RefSeq_peptide;Acc:NP_495023]			
EEED8.14	EEED8.14	EEED8.14 [Source:RefSeq_peptide;Acc:NP_495024]			
EEED8.3	EEED8.3	Uncharacterized protein EEED8.3. [Source:Uniprot/SWISSPROT;Acc:Q09294]	transport, embryonic development ending in birth or egg hatching, 		transporter activity, protein binding, binding, lipid binding, 
EEED8.2	EEED8.2	Uncharacterized protein EEED8.2. [Source:Uniprot/SWISSPROT;Acc:Q09529]	transport, 		transporter activity, binding, lipid binding, 
EEED8.15	EEED8.15	EEED8.15 [Source:RefSeq_peptide;Acc:NP_495027]			
mel-47	EEED8.1	Maternal effect lethal protein 47 (Putative RNA-binding protein tudr- 1). [Source:Uniprot/SWISSPROT;Acc:Q09293]	embryonic development ending in birth or egg hatching, 		nucleic acid binding, 
F07F6.7	F07F6.7	F07F6.7 [Source:RefSeq_peptide;Acc:NP_740988]	lipid transport, lipoprotein metabolic process, 	extracellular region, 	lipid binding, 
F07F6.8	F07F6.8	F07F6.8 [Source:RefSeq_peptide;Acc:NP_740989]	lipid transport, lipoprotein metabolic process, 	extracellular region, 	protein binding, lipid binding, 
F07F6.4	F07F6.4	Uncharacterized protein F07F6.4. [Source:Uniprot/SWISSPROT;Acc:Q09531]	regulation of GTPase activity, 		
F07F6.2	F07F6.2	Uncharacterized protein F07F6.2. [Source:Uniprot/SWISSPROT;Acc:Q09303]			
srx-114	F07F6.9	Serpentine Receptor, class X family member (srx-114) [Source:RefSeq_peptide;Acc:NP_740990]			
F07F6.5	F07F6.5	Uncharacterized protein F07F6.5. [Source:Uniprot/SWISSPROT;Acc:Q09304]			
F07F6.1	F07F6.1	Uncharacterized protein F07F6.1. [Source:Uniprot/SWISSPROT;Acc:Q09302]			
nmr-1	F07F6.6	nmr-1 encodes an NMDA-type ionotropic glutamate receptor subunit that affects the duration of forward movement which is important during foraging behavior, and also affects osmotic avoidance. the slow kinetics typical of NMDA-dependent currents are likely important for its effect on forward movement. [Source: WormBase]	transport, ion transport, regulation of forward locomotion, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
cex-1	F56D1.6	Putative calcium-binding protein cex-1. [Source:Uniprot/SWISSPROT;Acc:Q10131]			calcium ion binding, 
dhs-5	F56D1.5	dhs-5 encodes a possible steroid dehydrogenase. DHS-5 generally resembles short chain-type alcohol/other dehydrogenases, but has two predicted N-terminal transmembrane sequences, and its closest relatives in vertebrates are known or putative steroid dehydrogenases such as hydroxysteroid (17-beta) dehydrogenase 12 from mouse (also known as KIK-I or DHBK_MOUSE). [Source: WormBase]	proteolysis, metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, cysteine-type endopeptidase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
daz-1	F56D1.7	daz-1 encodes a protein containing an RNA recognition motif that is required for the progression of meiosis during oogenesis. DAZ-1 is expressed in the germline, and expression levels peak in the proximal pachytene region. cpb-3(bt17).daz-1(tj3) hermaphrodites have a synthetic phenotype of total sterility and masculinization. DAZ-1 colocalizes with CPB-3 in vivo, coimmunoprecipitates with CPB-3, and binds CPB-3 in two-hybrid assays. [Source: WormBase]	RNA processing, gamete generation, 	nucleus, ribonucleoprotein complex, 	RNA binding, nucleic acid binding, 
clr-1	F56D1.4	A receptor tyrosine phosphatase that negatively regulates the FGF receptorsignaling pathway. it localizes to the plasma membrane. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, oviposition, negative regulation of fibroblast growth factor receptor signaling pathway, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, receptor activity, 
F56D1.3	F56D1.3	Probable mitochondrial 28S ribosomal protein S16 (MRP-S16). [Source:Uniprot/SWISSPROT;Acc:Q10129]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F56D1.2	F56D1.2	Uncharacterized protein F56D1.2 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10128]			
F56D1.1	F56D1.1	Putative zinc finger protein F56D1.1. [Source:Uniprot/SWISSPROT;Acc:Q10127]	gamete generation, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F12A10.5	F12A10.5	F12A10.5 [Source:RefSeq_peptide;Acc:NP_495043]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
F12A10.4	F12A10.4	F12A10.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F12A10.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	neprilysin activity, 
F12A10.3	F12A10.3				
F12A10.6	F12A10.6	Uncharacterized protein F12A10.6. [Source:Uniprot/SWISSPROT;Acc:Q09947]	embryonic development ending in birth or egg hatching, 		
F12A10.2	F12A10.2	Uncharacterized protein F12A10.2. [Source:Uniprot/SWISSPROT;Acc:Q09944]	embryonic development ending in birth or egg hatching, 		
F12A10.1	F12A10.1	F12A10.1 [Source:RefSeq_peptide;Acc:NP_495048]			
F12A10.7	F12A10.7	Uncharacterized protein F12A10.7 precursor. [Source:Uniprot/SWISSPROT;Acc:P50438]	protein homooligomerization, 	membrane, 	
F12A10.8	F12A10.8	Uncharacterized protein F12A10.8. [Source:Uniprot/SWISSPROT;Acc:Q09949]			
fzy-1	ZK177.6	fzy-1 encodes an ortholog of S. cerevisiae Cdc20p that is required for the metaphase-to-anaphase transition, the deposition of extra meiotic chromosomes to polar bodies, and postembryonic vulval development. on the basis of orthology, FZY-1 is predicted to regulate anaphase-promoting complex (APC). FZY-1 protein is found in early embryonic cells at prometaphase and metaphase of mitosis and meiosis I, being localized to condensed chromosomes in prometaphase, and chromosomes on the metaphase plate during metaphase. FZY-1 binds IFY-1 and MDF-2 in yeast two-hybrid experiments. the missense fzy-1(h1983) mutation suppresses the lethal phenotype of mdf-1. fzy-1(RNAi) animals have vulval defects reflecting those seen in homozygotes for mat-3(ku233), whereas mat-3(ku233) is partly suppressed by RNAi of the fzy-1 paralog fzr-1. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
cyp-44A1	ZK177.5	cyp-44A1 encodes a cytochrome P450 that is most closely related to the mammalian CYP24A1 enzymes (OMIM:126065, also known as vitamin D 24-hydroxylase, overexpression is associated with albuminuria and hyperlipidemia). by homology, CYP-44A1 is predicted to function as a monooxygenase that, during electron transport, catalyzes the oxidative degradation of various metabolites and the synthesis of cholesterol, steroids, and lipids. however, as loss of cyp-44A1 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of CYP-44A1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
ZK177.4	ZK177.4	Uncharacterized protein ZK177.4. [Source:Uniprot/SWISSPROT;Acc:Q09372]			
ZK177.8	ZK177.8	Uncharacterized protein ZK177.8. [Source:Uniprot/SWISSPROT;Acc:Q09374]	reproduction, 		catalytic activity, 
ZK177.3	ZK177.3	ZK177.3 [Source:RefSeq_peptide;Acc:NP_495056]		intracellular, 	zinc ion binding, nucleic acid binding, 
ZK177.9	ZK177.9	Uncharacterized protein ZK177.9. [Source:Uniprot/SWISSPROT;Acc:Q09375]			
ZK177.2	ZK177.2	Uncharacterized protein ZK177.2. [Source:Uniprot/SWISSPROT;Acc:Q09371]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
ZK177.11	ZK177.11	ZK177.11 [Source:RefSeq_peptide;Acc:NP_001022517]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
tbx-35	ZK177.10	Putative T-box protein 35. [Source:Uniprot/SWISSPROT;Acc:Q09376]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
ZK177.1	ZK177.1	Uncharacterized protein ZK177.1. [Source:Uniprot/SWISSPROT;Acc:Q09370]			
ins-38	C17C3.20	ins-38 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
C17C3.9	C17C3.9	C17C3.9 [Source:RefSeq_peptide;Acc:NP_495061]			
hlh-26	C17C3.8	Helix Loop Helix family member (hlh-26) [Source:RefSeq_peptide;Acc:NP_495062]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
hlh-25	C17C3.7	Helix Loop Helix family member (hlh-25) [Source:RefSeq_peptide;Acc:NP_495063]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, 
C17C3.11	C17C3.11	C17C3.11 [Source:RefSeq_peptide;Acc:NP_495064]	reproduction, 		protein kinase activity, 
hlh-27	C17C3.10	Helix Loop Helix family member (hlh-27) [Source:RefSeq_peptide;Acc:NP_495065]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, 
NR_002617.1	C17C3.16	C17C3.16, snRNA [Source:RefSeq_dna;Acc:NR_002617]			
NR_002618.1	C17C3.17	C17C3.17, snRNA [Source:RefSeq_dna;Acc:NR_002618]			
ins-13	C17C3.18	ins-13 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-13 is one of 38 insulin-like peptides in C. elegans, and the precise role of INS-13 in C. elegans development is not yet clear. [Source: WormBase]		extracellular region, 	hormone activity, 
acdh-2	C17C3.12	acdh-2 encodes a short-chain acyl-CoA dehydrogenase. ACDH-2 is predicted to be a mitochondrial enzyme that catalyzes the first step of fatty acid beta-oxidation and thus plays a key role in energy production. steady-state acdh-2 mRNA levels are under the control of the MDT-15 mediator complex subunit. in addition, gene expression studies indicate that acdh-2 expression is downregulated in fasted animals. loss of acdh-2 activity via large-scale RNAi experiments does not result in any obvious defects. [Source: WormBase]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C17C3.6	C17C3.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C17C3.5	C17C3.5	C17C3.5 [Source:RefSeq_peptide;Acc:NP_495070]			
ins-12	C17C3.19	ins-12 encodes a predicted gamma-type insulin-like molecule that lacks a C peptide domain. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-11	C17C3.4	ins-11 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-11 is one of 38 insulin-like peptides in C. elegans and is expressed in the labial sensory neurons, the nerve ring, and other neurons. although the precise role of INS-11 in C. elegans development is not yet clear, loss of INS-11 function via RNA-mediated interference can result in animals that are smaller than wild type (Sma). [Source: WormBase]	positive regulation of multicellular organism growth, 	extracellular region, 	hormone activity, 
C17C3.3	C17C3.3	C17C3.3 [Source:RefSeq_peptide;Acc:NP_495072]	acyl-CoA metabolic process, 		acyl-CoA thioesterase activity, 
C17C3.2	C17C3.2	C17C3.13 [Source:RefSeq_peptide;Acc:NP_495074]			
C17C3.13	C17C3.13	C17C3.13 [Source:RefSeq_peptide;Acc:NP_495074]			
C17C3.14	C17C3.14				
C17C3.1	C17C3.1	C17C3.1a [Source:RefSeq_peptide;Acc:NP_495075]	acyl-CoA metabolic process, 		acyl-CoA thioesterase activity, 
C17C3.15	C17C3.15	C17C3.15 [Source:RefSeq_peptide;Acc:NP_495078]			
T25E4.t1	T25E4.t1				
T25E4.1	T25E4.1	Uncharacterized protein T25E4.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10014]			
T25E4.2	T25E4.2	Uncharacterized protein T25E4.2. [Source:Uniprot/SWISSPROT;Acc:Q10015]			
C17G10.3	C17G10.3	C17G10.3 [Source:RefSeq_peptide;Acc:NP_495082]			
lys-8	C17G10.5	lys-8 encodes a putative lysozyme required for normal longevity, probably because it prevents killing of C. elegans by bacteria infecting its gut. LYS-8 is expressed in intestine up to the terminal bulb of the pharynx, as well as in g1 and g2 pharyngeal gland cells. LYS-8 expression is induced by infection with Serratia marcescens, Pseudomonas aeruginosa, or (weakly) by Microbacterium nematophilum. LYS-8 expression is promoted by DBL-1, TIR-1 and NSY-1. lys-8 transcripts are increased by both DBL-1 and SMA-2 (though not strongly affected by LON-2), perhaps reflecting a general role of the DBL-1 signalling pathway in activating intestinal genes and susceptibility of dbl-1 mutants to infection. lys-8 transcripts are repressed by DAF-2 (and thus presumably increased by DAF-16), and lys-8(RNAi) animals display reduced lifespan. induction of LSY-8 by any of three different Gram-negative bacteria (E. coli, S. marcescens, or P. aeruginosa) requires DAF-16, DBL-1, and NSY-1. LSY-8 and its paralogs (LYS-1 to -7 and LYS-10) are more similar to lysozymes from the amoeboid protozoon Entamoeba histolytica than to more familiar ones from vertebrates. [Source: WormBase]			protein binding, catalytic activity, 
cdc-14	C17G10.4	cdc-14 encodes a dual-specificity phosphatase, homologous to Cdc14p in S. cerevisiae. CDC-14 localizes to the central spindle in anaphase and to the midbody in telophase, and is required for cytokinesis and embryonic viability. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, positive regulation of growth rate, 	cellular_component, 	nucleic acid binding, protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C17G10.2	C17G10.2	C17G10.2 [Source:RefSeq_peptide;Acc:NP_495087]	embryonic development ending in birth or egg hatching, 		binding, 
C17G10.1	C17G10.1	C17G10.1 [Source:RefSeq_peptide;Acc:NP_495088]	metabolic process, cellular metabolic process, protein metabolic process, 		nucleotide binding, oxidoreductase activity, catalytic activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
C17G10.6	C17G10.6	C17G10.6a [Source:RefSeq_peptide;Acc:NP_001021970]			
C17G10.7	C17G10.7	C17G10.7 [Source:RefSeq_peptide;Acc:NP_495090]			
dhs-6	C17G10.8	The dhs-6 locus is predicted to encode four transcripts derived from alternative splicing and alternative transcriptional initiation sites. the longest transcript is predicted to encode a member of the eukaryotic translation initiation factor family within its amino-terminal end, and is a member of both the SCP-2 sterol transfer family and short-chain dehydrogenase-reductase families within its carboxyl-terminal end. DHS-6 is predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, sterol carrier activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C17G10.9	C17G10.9	C17G10.9a [Source:RefSeq_peptide;Acc:NP_740995]			protein binding, 
npl-4.2	F59E12.5	NPL (yeast Nuclear Protein Localization) homolog family member (npl-4.2) [Source:RefSeq_peptide;Acc:NP_495094]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, 
F59E12.6	F59E12.6	F59E12.6a [Source:RefSeq_peptide;Acc:NP_495095]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 		ubiquitin thiolesterase activity, 
npl-4.1	F59E12.4	NPL (yeast Nuclear Protein Localization) homolog family member (npl-4.1) [Source:RefSeq_peptide;Acc:NP_495097]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, 
F59E12.8	F59E12.8	F59E12.8 [Source:RefSeq_peptide;Acc:NP_495098]			
F59E12.3	F59E12.3	F59E12.3 [Source:RefSeq_peptide;Acc:NP_495099]	positive regulation of growth rate, 		protein kinase activity, 
F59E12.9	F59E12.9	F59E12.9 [Source:RefSeq_peptide;Acc:NP_495100]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, protein binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
ddl-1	F59E12.10	Daf-16-dependent longevity protein 1. [Source:Uniprot/SWISSPROT;Acc:O01901]			protein binding, 
F59E12.11	F59E12.11	F59E12.11 [Source:RefSeq_peptide;Acc:NP_495102]	embryonic development ending in birth or egg hatching, 		protein binding, 
zyg-1	F59E12.2	zyg-1 encodes a homolog of polo-like and calcium-dependent kinases that is required for daughter centriole formation. ZYG-1 localizes transiently to centrosomes and acts at least one cell cycle prior to each spindle assembly event. ZYG-1 activity is required for proper localization of the SAS-5 and SAS-6 coiled-coil proteins that are also required for centriole duplication. [Source: WormBase]	protein amino acid phosphorylation, cell division, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
bli-2	F59E12.12	A cuticle collagen involved in strut assembly in the adult cuticle. [Source: WormBase]	phosphate transport, collagen and cuticulin-based cuticle attachment to epithelium, 	cytoplasm, 	structural constituent of cuticle, 
F59E12.1	F59E12.1	F59E12.1 [Source:RefSeq_peptide;Acc:NP_495105]			
fut-3	F59E12.13	FUcosyl Transferase family member (fut-3) [Source:RefSeq_peptide;Acc:NP_495106]	protein amino acid glycosylation, 	membrane, 	protein binding, fucosyltransferase activity, 
C25H3.12	C25H3.12	C25H3.12 [Source:RefSeq_peptide;Acc:NP_495107]			
C25H3.6	C25H3.6	C25H3.6a [Source:RefSeq_peptide;Acc:NP_740996]	transcription, post-embryonic body morphogenesis, type I hypersensitivity, 	nucleus, 	protein binding, transcription regulator activity, DNA binding, 
C25H3.15	C25H3.15	C25H3.15 [Source:RefSeq_peptide;Acc:NP_001021983]			
C25H3.16	C25H3.16	C25H3.16 [Source:RefSeq_peptide;Acc:NP_001021984]			
C25H3.7	C25H3.7	C25H3.7b [Source:RefSeq_peptide;Acc:NP_740998]	embryonic development ending in birth or egg hatching, 		
C25H3.8	C25H3.8	C25H3.8 [Source:RefSeq_peptide;Acc:NP_495110]	biosynthetic process, protein localization, positive regulation of growth rate, 		hydroxymethylglutaryl-CoA reductase (NADPH) activity, 
flp-27	C25H3.5	FMRF-Like Peptide family member (flp-27) [Source:RefSeq_peptide;Acc:NP_495111]			
C25H3.11	C25H3.11	C25H3.11 [Source:RefSeq_peptide;Acc:NP_495112]	positive regulation of growth rate, 		
C25H3.9	C25H3.9	C25H3.9 encodes the C. elegans ortholog of the NDUFB5/SGDH subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
C25H3.4	C25H3.4	C25H3.4 [Source:RefSeq_peptide;Acc:NP_495114]	translational initiation, 		RNA binding, translation initiation factor activity, 
C25H3.3	C25H3.3	C25H3.3 [Source:RefSeq_peptide;Acc:NP_872068]	embryonic development ending in birth or egg hatching, 		catalytic activity, 
C25H3.14	C25H3.14	C25H3.14 [Source:RefSeq_peptide;Acc:NP_495115]	embryonic development ending in birth or egg hatching, 		catalytic activity, 
C25H3.10	C25H3.10	C25H3.10b [Source:RefSeq_peptide;Acc:NP_001021982]			
C25H3.1	C25H3.1	C25H3.1 [Source:RefSeq_peptide;Acc:NP_495117]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
NR_003152.1	C18A3.12	C18A3.12, snoRNA [Source:RefSeq_dna;Acc:NR_003152]			
C18A3.4	C18A3.4	C18A3.4a [Source:RefSeq_peptide;Acc:NP_741003]	UDP-glucose metabolic process, embryonic development ending in birth or egg hatching, 	membrane, 	cellulose synthase activity, 
C18A3.5	C18A3.5	C18A3.5f [Source:RefSeq_peptide;Acc:NP_871980]	morphogenesis of an epithelium, 		nucleotide binding, nucleic acid binding, 
C18A3.9	C18A3.9	C18A3.9 [Source:RefSeq_peptide;Acc:NP_495124]	embryonic development ending in birth or egg hatching, 		
C18A3.10	C18A3.10	C18A3.10 [Source:RefSeq_peptide;Acc:NP_741004]			
C18A3.3	C18A3.3	Probable rRNA-processing protein EBP2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q09958]	embryonic development ending in birth or egg hatching, 		
C18A3.2	C18A3.2	C18A3.2 [Source:RefSeq_peptide;Acc:NP_495126]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
C18A3.1	C18A3.1	C18A3.1 [Source:RefSeq_peptide;Acc:NP_495127]	methylation, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 	nucleus, 	methyltransferase activity, nucleic acid binding, 
rab-3	C18A3.6	rab-3 encodes a rab3 homolog, a member of the Ras GTPase superfamily, and affects sensitivity to aldicarb and the distribution of synaptic vesicle populations and thereby affects synaptic transmission, track amplitude and speed of movement, chemotaxis to isoamyl alcohol, affects pharyngeal pump durations, and may only slightly affect male mating behavior. requires aex-3 for localization to synapse-rich regions in axons and it is expressed in most or all neurons. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, positive regulation of locomotion, synaptic transmission, cholinergic, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
C18A3.7	C18A3.7	C18A3.7 [Source:RefSeq_peptide;Acc:NP_495130]			
C18A3.11	C18A3.11	C18A3.11 [Source:RefSeq_peptide;Acc:NP_001040744]			
hlh-14	C18A3.8	hlh-14 encodes a basic helix-loop-helix (bHLH) transcription factor that is one of five C. elegans Achaete-Scute family homologs. HLH-14 activity is required generally for normal egg-laying, movement, body morphology, and larval development. more specifically, HLH-14 is required for proper neuronal development, particularly for regulation of the asymmetric cell division that gives rise to the PVQ/HSN/PHB neuroblasts and for normal differentiation of these neuroblast descendants, including their cell division patterns, migrations, and neurotransmitter expression. in specifying neuronal cell fates, genetic evidence suggests that hlh-14 acts together with hlh-2, which encodes the C. elegans E/Daughterless ortholog. HLH-14 is expresed exclusively in the embryo and detected in the left and right PVQ/HSN/PHB neuroblasts and their descendants, as well as in other cells identified, tentatively, as anterior neuroblasts and posterior neuroblasts such as Caapa. [Source: WormBase]	regulation of transcription, post-embryonic body morphogenesis, neuroblast fate specification, 	nucleus, 	transcription regulator activity, 
F10C1.9	F10C1.9	F10C1.9 [Source:RefSeq_peptide;Acc:NP_001022075]			
ifb-2	F10C1.7	ifb-2 encodes a nonessential intermediate filament protein. IFB-2 is predicted to function as a structural component of the cytoskeleton. IFB-2 has no obvious function in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural molecule activity, 
F10C1.8	F10C1.8	F10C1.8a [Source:RefSeq_peptide;Acc:NP_495132]			structural molecule activity, 
F10C1.3	F10C1.3	F10C1.3 [Source:RefSeq_peptide;Acc:NP_495135]			
ifb-1	F10C1.2	ifb-1 (also known as vab-21) encodes two isoforms of an essential intermediate filament protein that is coexpressed with the essential IF proteins IFA-1, IFA-2, and IFA-3, along with IFA-4. IFB-1 is required for embryonic development and epidermal morphogenesis. IFB-1 forms heteropolymeric intermediate filaments in vitro with an equimolar mixture of IFA-1, IFA-2, or IFA-3, and binds IFA-4 in blot overlay assays. IFB-1 resides in attachment structures of epidermal cells, found in sites undergoing mechanical stress. the two isoforms are expressed in different tissues and have distinct functions, since ifb-1A(RNAi) larvae have detached muscle cells, while ifb-1B(RNAi) larvae have detached cuticle. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, structural molecule activity, 
dmd-5	F10C1.5	DM (Doublesex/MAB-3) Domain family member (dmd-5) [Source:RefSeq_peptide;Acc:NP_495138]	regulation of transcription, DNA-dependent, sex differentiation, morphogenesis of an epithelium, 	nucleus, 	DNA binding, transcription factor activity, 
F10C1.t2	F10C1.t2				
F10C1.1	F10C1.1	F10C1.1 [Source:RefSeq_peptide;Acc:NP_495139]			
F10C1.t1	F10C1.t1				
K05F1.6	K05F1.6	K05F1.6a [Source:RefSeq_peptide;Acc:NP_001022233]	transport, 	membrane, integral to membrane, 	transporter activity, 
K05F1.5	K05F1.5	K05F1.5 [Source:RefSeq_peptide;Acc:NP_495141]	proteolysis, 		metalloendopeptidase activity, 
K05F1.3	K05F1.3	K05F1.3 [Source:RefSeq_peptide;Acc:NP_495142]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
msp-63	K05F1.7	msp-63 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
msp-142	K05F1.2	msp-142 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
K05F1.8	K05F1.8	K05F1.8 [Source:RefSeq_peptide;Acc:NP_495145]			
K05F1.9	K05F1.9	K05F1.9 [Source:RefSeq_peptide;Acc:NP_495146]			structural molecule activity, 
K05F1.1	K05F1.1	K05F1.1 [Source:RefSeq_peptide;Acc:NP_495147]			
K05F1.10	K05F1.10	K05F1.10 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. K05F1.10 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. although it has no obvious function in mass RNAi assays, K05F1.10 transcription is reproducibly induced by infection, suggesting that it may participate in innate immunity. [Source: WormBase]			
msp-64	ZK1248.6	msp-64 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
ZK1248.5	ZK1248.5	ZK1248.5 [Source:RefSeq_peptide;Acc:NP_495150]	proteolysis, 		serine-type endopeptidase activity, 
ZK1248.7	ZK1248.7	ZK1248.7 [Source:RefSeq_peptide;Acc:NP_495151]			
ZK1248.8	ZK1248.8	ZK1248.8 [Source:RefSeq_peptide;Acc:NP_495152]			
ZK1248.9	ZK1248.9	ZK1248.9 [Source:RefSeq_peptide;Acc:NP_495153]			
ZK1248.20	ZK1248.20	ZK1248.20 [Source:RefSeq_peptide;Acc:NP_001022498]			
ZK1248.4	ZK1248.4	F58A6.9 [Source:RefSeq_peptide;Acc:NP_494960]			structural molecule activity, 
ehs-1	ZK1248.3	The ehs-1 gene encodes an ortholog of mammalian EPS15 that probably functions in endocytosis. [Source: WormBase]	synaptic transmission, 		calcium ion binding, 
ZK1248.10	ZK1248.10	ZK1248.10 [Source:RefSeq_peptide;Acc:NP_495156]	regulation of Rab GTPase activity, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, Rab GTPase activator activity, 
ZK1248.11	ZK1248.11	ZK1248.11 [Source:RefSeq_peptide;Acc:NP_495157]			
ZK1248.13	ZK1248.13	ZK1248.13 [Source:RefSeq_peptide;Acc:NP_495158]			
col-74	ZK1248.2	COLlagen family member (col-74) [Source:RefSeq_peptide;Acc:NP_495159]	phosphate transport, 	cytoplasm, 	
fzo-1	ZK1248.14	Transmembrane GTPase fzo-1 (EC 3.6.5.-). [Source:Uniprot/SWISSPROT;Acc:Q23424]	G-protein coupled receptor protein signaling pathway, mitochondrial fusion, positive regulation of growth rate, 	integral to membrane, mitochondrial outer membrane, 	GTPase activity, signal transducer activity, guanyl nucleotide binding, 
ZK1248.15	ZK1248.15	ZK1248.15 [Source:RefSeq_peptide;Acc:NP_495162]			protein binding, 
ZK1248.19	ZK1248.19	ZK1248.19 [Source:RefSeq_peptide;Acc:NP_001022497]			
lec-5	ZK1248.16	gaLECtin family member (lec-5) [Source:RefSeq_peptide;Acc:NP_495163]			sugar binding, 
ZK1248.1	ZK1248.1	ZK1248.1 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. ZK1248.1 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
NR_002629.1	ZK1248.18	ZK1248.18, snRNA [Source:RefSeq_dna;Acc:NR_002629]			
ZK1248.17	ZK1248.17	ZK1248.17 [Source:RefSeq_peptide;Acc:NP_495165]			structural molecule activity, 
H41C03.3	H41C03.3	H41C03.3 [Source:RefSeq_peptide;Acc:NP_495166]		membrane, 	acetylglucosaminyltransferase activity, 
H41C03.2	H41C03.2	H41C03.2 [Source:RefSeq_peptide;Acc:NP_495167]	lipid metabolic process, 		triacylglycerol lipase activity, 
H41C03.1	H41C03.1	H41C03.1 [Source:RefSeq_peptide;Acc:NP_495168]	transport, biological_process, 	integral to membrane, 	
F55C12.4	F55C12.4	F55C12.4 [Source:RefSeq_peptide;Acc:NP_495169]			
tag-234	F55C12.7	Temporarily Assigned Gene name family member (tag-234) [Source:RefSeq_peptide;Acc:NP_495170]			
F55C12.5	F55C12.5	F55C12.5b [Source:RefSeq_peptide;Acc:NP_495171]			
F55C12.6	F55C12.6	F55C12.6 [Source:RefSeq_peptide;Acc:NP_495173]			
F55C12.2	F55C12.2	F55C12.2 [Source:RefSeq_peptide;Acc:NP_495174]			
F55C12.1	F55C12.1	F55C12.1d [Source:RefSeq_peptide;Acc:NP_872037]	signal transduction, 	intracellular, 	protein binding, 
F59G1.4	F59G1.4	F59G1.4 (F59G1.4) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_062776]			
tsp-18	F59G1.2	F59G1.2 [Source:RefSeq_peptide;Acc:NP_495178]			
F59G1.8	F59G1.8				
vps-35	F59G1.3	related to yeast Vacuolar Protein Sorting factor family member (vps-35) [Source:RefSeq_peptide;Acc:NP_495180]			
cgt-3	F59G1.1	Ceramide Glucosyl Transferase family member (cgt-3) [Source:RefSeq_peptide;Acc:NP_495181]	potassium ion transport, homoiothermy, response to freezing, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, ice binding, 
frh-1	F59G1.7	frh-1 encodes the C. elegans frataxin ortholog. by homology, FRH-1 is predicted to be a mitochondrial protein required for biogenesis of iron-sulfur clusters, co-factors necessary for proper function of electron transport chain proteins. in C. elegans, loss of frh-1 activity via RNAi results in small body size, pale coloration, reduced egg-laying and fertility, altered responses to oxidative stress, and a significant lifespan extension. [Source: WormBase]	cellular iron ion homeostasis, positive regulation of growth rate, determination of adult life span, 	mitochondrion, 	
ptp-2	F59G1.5	ptp-2 encodes an SH2 domain-containing non-receptor protein tyrosine phosphatase. ptp-2 activity is required during development to regulate activity of several signaling pathways. in particular, ptp-2 activity is essential during oogenesis, where it functions upstream of, or in parallel to, let-60/Ras to positively regulate proper oocyte formation and hence, fertility and embryonic development. ptp-2 also functions downstream of, or in parallel to, let-60/Ras to modulate induction of vulval precursor cells, although this activity is not essential for normal vulval development. in addition, ptp-2 activity also regulates egl-15/FGF signaling to ensure proper body wall muscle membrane extension during formation of neuromuscular junctions. [Source: WormBase]	intracellular signaling cascade, protein amino acid dephosphorylation, dephosphorylation, nematode larval development, locomotory behavior, oogenesis, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
vrk-1	F28B12.3	Vaccinia Related Kinase family member (vrk-1) [Source:RefSeq_peptide;Acc:NP_495185]	protein amino acid phosphorylation, translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, structural constituent of ribosome, 
egl-44	F28B12.2	The egl-44 gene encodes a putative transcription regulatory protein of 471 amino acids similar to vertebrate transcription enhancer factor (TEF) proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, neuron differentiation, 	nucleus, 	transcription factor activity, transcription activator activity, 
F28B12.1	F28B12.1	F28B12.1 [Source:RefSeq_peptide;Acc:NP_495187]			
B0034.2	B0034.2	B0034.2 [Source:RefSeq_peptide;Acc:NP_495188]			
casy-1	B0034.3	A homolog of a member of the cadherin superfamily which is involved in cell-cell adhesion. [Source: WormBase]	homophilic cell adhesion, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, calcium ion binding, 
B0034.7	B0034.7	B0034.7 is a predicted gene that can encode a small, novel protein that has similarity to a predicted C. remanei protein and to a region of a hypothetical protein from the anammox bacterium Candidatus Kuenenia stuttgartiensis. [Source: WormBase]			
B0034.4	B0034.4	Uncharacterized protein B0034.4. [Source:Uniprot/SWISSPROT;Acc:Q10912]			
B0034.1	B0034.1	B0034.1 [Source:RefSeq_peptide;Acc:NP_495192]			
B0034.5	B0034.5	B0034.5 [Source:RefSeq_peptide;Acc:NP_495193]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ins-2	ZK75.2	ins-2 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-3	ZK75.3	ins-3 encodes one of several insulin-related peptides. INS-3 is classified as a Type-beta insulin based on the predicted arrangement of disulfide bonds. gfp gene fusions with the promoter and enhancer regions indicate that INS-3 is expressed in some amphid sensory neurons. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-4	ZK75.1	ins-4 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-5	ZK84.3	ins-5 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-5 is one of 38 insulin-like peptides in C. elegans and is expressed in the amphid sensory neurons, labial neurons, the nerve ring, other neurons, and the vulva. the precise role of INS-5 in C. elegans development is not yet clear as loss of function does not result in a mutant phenotype. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-6	ZK84.6	ins-6 encodes predicted type-beta insulin-like molecule that lacks a C peptide domain. expressed throughout development and in some neurons beginning in the two-fold elongated embryo. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-20	ZK84.7	ins-20 encodes predicted type-alpha insulin-like molecule that lacks a C peptide domain and does not have an A6/A11 disulfide bond. [Source: WormBase]			hormone activity, 
ZK84.2	ZK84.2	ZK84.2 [Source:RefSeq_peptide;Acc:NP_495200]			
ZK84.5	ZK84.5	ZK84.5 [Source:RefSeq_peptide;Acc:NP_495201]			
ZK84.1	ZK84.1	ZK84.1 [Source:RefSeq_peptide;Acc:NP_495202]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
R12C12.9	R12C12.9	R12C12.9a [Source:RefSeq_peptide;Acc:NP_495203]			
R12C12.3	R12C12.3	R12C12.3 [Source:RefSeq_peptide;Acc:NP_495204]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
R12C12.4	R12C12.4	R12C12.4 [Source:RefSeq_peptide;Acc:NP_495205]			
R12C12.10	R12C12.10	R12C12.10 [Source:RefSeq_peptide;Acc:NP_001022284]			
R12C12.5	R12C12.5	R12C12.5 [Source:RefSeq_peptide;Acc:NP_495206]	protein transport, 		
R12C12.6	R12C12.6	R12C12.6a [Source:RefSeq_peptide;Acc:NP_001040796]		integral to membrane, 	
ran-5	R12C12.2	ran-5 encodes a protein containing a RanBP1 domain, domains which are predicted to interact with Ran proteins to inhibit dissociation of GTP and to stimulate GAP-mediated GTP hydrolysis by Ran, that affects body morphology, locomotion, and embryonic viability. [Source: WormBase]	intracellular transport, post-embryonic body morphogenesis, 		
R12C12.1	R12C12.1	R12C12.1 is orthologous to human GLYCINE DECARBOXYLASE (GLDC. OMIM:238300), which when mutated leads to glycine encephalopathy. [Source: WormBase]	glycine metabolic process, 	glycine dehydrogenase complex (decarboxylating), 	glycine dehydrogenase (decarboxylating) activity, 
R12C12.7	R12C12.7	R12C12.7 [Source:RefSeq_peptide;Acc:NP_495210]	embryonic development ending in birth or egg hatching, 		
R12C12.8	R12C12.8	R12C12.8a [Source:RefSeq_peptide;Acc:NP_495211]	protein localization, positive regulation of growth rate, 		
H12I13.1	H12I13.1	H12I13.1 [Source:RefSeq_peptide;Acc:NP_495212]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
H12I13.2	H12I13.2	H12I13.2 [Source:RefSeq_peptide;Acc:NP_495213]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
H12I13.3	H12I13.3	H12I13.3 [Source:RefSeq_peptide;Acc:NP_495214]			
H12I13.6	H12I13.6	H12I13.6 [Source:RefSeq_peptide;Acc:NP_741008]			
H12I13.5	H12I13.5	H12I13.5 [Source:RefSeq_peptide;Acc:NP_495215]			
fbf-1	H12I13.4	fbf-1 encodes an RNA-binding protein that is one of 11 C. elegans members of the PUF family (Pumilio and FBF) of translational regulators. FBF-1 is nearly identical to FBF-2 with which it is largely redundant in regulating two aspects of germline development: 1)maintenance of stem cell proliferation, and 2)the hermaphroditic switch between spermatogenesis and oogenesis. in maintaining germline stem cells, the FBF proteins, acting through NOS-3, negatively regulate the activity of gld-1 mRNA, which encodes a translational repressor required for meiotic entry. in regulating the sperm-to-oocyte switch, the FBFs act downstream of GLD-3 to negatively regulate the activity of fem-3 mRNA, which encodes a novel protein required for germline sex determination. consistent with their role in germline development, FBF-1 and FBF-2 are expressed in the germline cytoplasm, becoming enriched in the mitotic region during the L4 larval and adult stages. [Source: WormBase]	locomotory behavior, 		RNA binding, 
F21H12.3	F21H12.3	Uncharacterized protein F21H12.3. [Source:Uniprot/SWISSPROT;Acc:Q09311]			
ptc-2	F21H12.4	ptc-2 encodes an ortholog of Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome), which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTC-2 is required for normal fat storage. PTC-2 is also required for normal egg osmotic integrity, locomotion, egg laying, and viability in mass RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	hedgehog receptor activity, 
F21H12.2	F21H12.2	Putative uncharacterized protein F21H12.2. [Source:Uniprot/SWISSPROT;Acc:Q09310]	embryonic development ending in birth or egg hatching, 		
fbf-2	F21H12.5	fbf-2 encodes an RNA-binding protein that is one of 11 C. elegans members of the PUF family (Pumilio and FBF) of translational regulators. FBF-2 is nearly identical to FBF-1 with which it is largely redundant in regulating two aspects of germline development: 1)maintenance of stem cell proliferation, and 2)the hermaphroditic switch between spermatogenesis and oogenesis. in maintaining germline stem cells, the FBF proteins, acting through NOS-3, negatively regulate the activity of gld-1 mRNA, which encodes a translational repressor required for meiotic entry. in regulating the sperm-to-oocyte switch, the FBFs act downstream of GLD-3 to negatively regulate the activity of fem-3 mRNA, which encodes a novel protein required for germline sex determination. consistent with their role in germline development, FBF-1 and FBF-2 are expressed in the germline cytoplasm, becoming enriched in the mitotic region during the L4 larval and adult stages. [Source: WormBase]	negative regulation of translation, locomotory behavior, 		RNA binding, binding, 
F21H12.7	F21H12.7	F21H12.7 [Source:RefSeq_peptide;Acc:NP_001022104]			
F21H12.6	F21H12.6	Putative subtilase-type proteinase F21H12.6 (EC 3.4.21.-). [Source:Uniprot/SWISSPROT;Acc:Q09541]	proteolysis, 		subtilase activity, 
F21H12.1	F21H12.1	Uncharacterized WD repeat protein F21H12.1. [Source:Uniprot/SWISSPROT;Acc:Q09309]	locomotory behavior, 		
rgs-3	C29H12.3	rgs-3 encodes three proteins containing two RGS (regulator of G protein signaling) domains, the more C-terminal of which is most similar to those of the mammalian brain-specific RGS, RGS8. rgs-3 activity is required for normal G protein-mediated response to a number of sensory stimuli, including odorants, high osmolarity, and nose touch off food. genetic analyses indicate that RGS-3 functions to decrease G protein signaling in sensory neurons and increase glutamatergic synaptic transmission from sensory to interneurons. RGS-3::GFP fusion proteins are expressed exclusively in nine pairs of sensory neurons from late stages of embryogenesis through adulthood. [Source: WormBase]			signal transducer activity, 
C29H12.5	C29H12.5	C29H12.5 [Source:RefSeq_peptide;Acc:NP_495224]	protein amino acid phosphorylation, chromatin assembly or disassembly, oviposition, 	nucleus, chromatin, 	protein kinase activity, ATP binding, protein serine/threonine kinase activity, chromatin binding, 
C29H12.6	C29H12.6	C29H12.6 [Source:RefSeq_peptide;Acc:NP_495225]			
C29H12.2	C29H12.2	C29H12.2 [Source:RefSeq_peptide;Acc:NP_495226]	positive regulation of growth rate, 	integral to membrane, 	
rrt-2	C29H12.1	aRginyl aa-tRNA syntheTase family member (rrt-2) [Source:RefSeq_peptide;Acc:NP_495227]	translation, tRNA aminoacylation for protein translation, arginyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, arginine-tRNA ligase activity, 
abts-3	F57F10.1	The F57F10.1 gene encodes two proteins, F57F10.1A and F57F10.1B that are homologous to the Arabidopsis and Saccharomyces boron exporters, BOR1 and YNL275w, and closely similar to the to the human BOR1/YNL275w ortholog, BTS1. like BOR1 and YNL275w, F57F10.1A/B proteins might act to export borate ions. [Source: WormBase]	anion transport, 	membrane, integral to membrane, 	anion exchanger activity, inorganic anion exchanger activity, 
exp-1	H35N03.1	exp-1 encodes an excitatory, cation-selective GABA receptor. EXP-1 activity is essential for the enteric muscle contractions that are the third in a series of three independent muscle contractions controlling defecation, and when expressed in Xenopus oocytes, EXP-1 is capable of forming a cation-selective GABA receptor. a rescuing EXP-1::GFP reporter fusion is expressed in the intestinal and anal depressor muscles, where it localizes to regions consistent with the positions of neuromuscular junctions. expression is also observed in neurons, including PDA, RID, ADE, and SABD. [Source: WormBase]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
hst-3.1	F40H3.5	Heparan SulphoTransferase family member (hst-3.1) [Source:RefSeq_peptide;Acc:NP_495230]			sulfotransferase activity, 
F40H3.3	F40H3.3	F40H3.3 [Source:RefSeq_peptide;Acc:NP_495231]			
F40H3.2	F40H3.2	F40H3.2 [Source:RefSeq_peptide;Acc:NP_495232]			protein binding, 
F40H3.1	F40H3.1	F40H3.1a [Source:RefSeq_peptide;Acc:NP_001040774]			protein binding, 
F40H3.6	F40H3.6	F40H3.6 [Source:RefSeq_peptide;Acc:NP_495234]			
fkh-8	F40H3.4	fkh-8 encodes one of 15 C. elegans forkhead transcription factors. loss of fkh-8 activity via RNAi has been reported to result in either no defects or a weakly penetrant aldicarb resistance phenotype. an FKH-8 reporter fusion is expressed in nerve cells in the head and tail ganglia of both males and hermaphrodites with expression beginning in the later stages of embryogenesis and continuing through adulthood. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
cpb-2	C30B5.3	cpb-2 encodes a cytoplasmic polyadenylation element binding (CPEB) protein homolog, expressed specifically in the spermatogenic germ line. CPB-2 is dispensable for oogenesis, in contrast to CPEBs in vertebrates (Xenopus), arthropods (Drosophila), and molluscs (Spisula), which all participate in oogenesis. [Source: WormBase]			nucleic acid binding, 
C30B5.4	C30B5.4	C30B5.4 [Source:RefSeq_peptide;Acc:NP_495237]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, nucleic acid binding, 
C30B5.2	C30B5.2	Uncharacterized protein C30B5.2. [Source:Uniprot/SWISSPROT;Acc:Q18319]			
tag-319	C30B5.1	Temporarily Assigned Gene name family member (tag-319) [Source:RefSeq_peptide;Acc:NP_495240]	embryonic development ending in birth or egg hatching, 		protein binding, 
C30B5.5	C30B5.5	C30B5.5 [Source:RefSeq_peptide;Acc:NP_495241]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C30B5.6	C30B5.6	C30B5.6 [Source:RefSeq_peptide;Acc:NP_495242]			
C30B5.7	C30B5.7	C30B5.7 [Source:RefSeq_peptide;Acc:NP_495243]	blood coagulation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	thrombin receptor activity, 
tat-4	T24H7.5	T24H7.5b [Source:RefSeq_peptide;Acc:NP_495244]	transport, metabolic process, phospholipid transport, 	membrane, integral to membrane, 	ATP binding, catalytic activity, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
T24H7.4	T24H7.4	T24H7.4 [Source:RefSeq_peptide;Acc:NP_495247]			protein binding, 
T24H7.3	T24H7.3	T24H7.3 [Source:RefSeq_peptide;Acc:NP_495248]	embryonic development ending in birth or egg hatching, 		protein binding, 
T24H7.2	T24H7.2	T24H7.2 encodes an ortholog of hypoxia-upregulated vertebrate proteins such as human HYOU1. T24H7.2, its C. elegans paralog T14G8.3, and HYOU1 are ER resident hsp70 family molecular chaperone homologs. the grp (glucose regulated protein) 170 family is a collection of related large hsp70 chaperones confined to the ER. members of this family are present in all eukaryotes, participating in a wide range of cellular functions. [Source: WormBase]			ATP binding, 
NR_003417.1	T24H7.6	T24H7.6, snoRNA [Source:RefSeq_dna;Acc:NR_003417]			
phb-2	T24H7.1	Mitochondrial prohibitin complex protein 2 (Prohibitin-2). [Source:Uniprot/SWISSPROT;Acc:P50093]	positive regulation of growth rate, 	membrane, 	protein binding, 
F13H8.5	F13H8.5	F13H8.5 encodes a protein with a domain of unknown function (DB. IPR002602) that is found in several worm proteins, and a glutamine/asparagine-rich domain. [Source: WormBase]			
F13H8.11	F13H8.11	F13H8.11 [Source:RefSeq_peptide;Acc:NP_495252]			
F13H8.4	F13H8.4	F13H8.4 encodes a homolog of the human neuronal membrane glycoproteins PLP1 (OMIM:300401, mutated in Pelizaeus-Merzbacher disease and spastic paraplegia), M6A (OMIM:601275), and M6B (300051). the presence of a myelin-related protein in C. elegans is currently unexplained, but suggests that some evolutionary precursor of myelin may exist in invertebrates, perhaps involving septate junctions between cells. [Source: WormBase]			
F13H8.12	F13H8.12	F13H8.12 [Source:RefSeq_peptide;Acc:NP_872064]			structural molecule activity, 
F13H8.3	F13H8.3	F13H8.3 [Source:RefSeq_peptide;Acc:NP_495254]			
F13H8.8	F13H8.8	F13H8.8 [Source:RefSeq_peptide;Acc:NP_495255]			
F13H8.2	F13H8.2	F13H8.2 [Source:RefSeq_peptide;Acc:NP_495256]	rRNA processing, positive regulation of growth rate, 	small subunit processome, 	
bpl-1	F13H8.10	bpl-1 encodes an ortholog of biotin ligase/holocarboxylase synthetase (called biotin ligase in bacteria, and holocarboxylase synthetase in mammalian or animal systems). it is orthologous to human HOLOCARBOXYLASE SYNTHETASE (HLCS. OMIM:253270), which when mutated leads to HLCS deficiency. [Source: WormBase]	protein modification process, 		catalytic activity, biotin-[acetyl-CoA-carboxylase] ligase activity, 
F13H8.9	F13H8.9	F13H8.9 [Source:RefSeq_peptide;Acc:NP_495258]	metabolic process, embryonic development ending in birth or egg hatching, 		transaminase activity, 
F13H8.1	F13H8.1	F13H8.1b [Source:RefSeq_peptide;Acc:NP_001022082]			
F13H8.6	F13H8.6	F13H8.6 [Source:RefSeq_peptide;Acc:NP_495260]			
F13H8.7	F13H8.7	F13H8.7 [Source:RefSeq_peptide;Acc:NP_495261]	nitrogen compound metabolic process, reproduction, 		hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, 
C29F5.3	C29F5.3	C29F5.3 [Source:RefSeq_peptide;Acc:NP_495262]			zinc ion binding, hydrolase activity, 
mps-1	C29F5.4	mps-1 encodes single-pass transmembrane proteins that are related to the vertebrate KCNE proteins, also known as MinK-related peptides (MiRPs) that associate with, and regulate, pore-forming ion channels. mps-1 is required for the normal function of several neurons and thus for normal body touch sensation, chemotaxis to select molecules, osmotic avoidance, and nose-touch. when assayed in ASER neurons or in tissue culture cells coexpressing C. elegans KVS-1, MPS-1 is able to alter the activity of this potassium-selective channel, suggesting that MPS-1 functions in vivo to regulate KVS-1 activity in neurons in which the two proteins are coexpressed. mps-1 reporter fusions are expressed in the vulva and in several chemosensory and mechanosensory neurons, including the ADF neuron. [Source: WormBase]	embryonic development ending in birth or egg hatching, mechanosensory behavior, 		
C29F5.5	C29F5.5	C29F5.5 [Source:RefSeq_peptide;Acc:NP_495264]			
sdz-3	C29F5.2	SKN-1 Dependent Zygotic transcript family member (sdz-3) [Source:RefSeq_peptide;Acc:NP_495265]			
C29F5.1	C29F5.1	C29F5.1 [Source:RefSeq_peptide;Acc:NP_495267]			
C29F5.8	C29F5.8	C29F5.8 [Source:RefSeq_peptide;Acc:NP_001033329]			
C29F5.7	C29F5.7	C29F5.7 [Source:RefSeq_peptide;Acc:NP_495268]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C32D5.3	C32D5.3	C32D5.3 encodes an ortholog of ROLLING BLACKOUT (RBO. also called CMP44E or STAMPHA), a eukaryotic protein required for sustained phospholipase C activity during Drosophila phototransduction. RBO homologs have two predicted transmembrane helices, are significantly similar to several acylglycerol lipases, and share motifs characteristic of carboxyesterases and lipases. [Source: WormBase]	reproduction, 		
C32D5.4	C32D5.4	Uncharacterized protein C32D5.4. [Source:Uniprot/SWISSPROT;Acc:Q09264]			
sma-6	C32D5.2	sma-6 encodes a serine/threonine protein kinase that is orthologous to type I TGF-beta receptors. sma-6 activity is required for regulating body length and for proper development of the male tail. sma-6 expression first begins at the 1.5-fold stage of embryogenesis and continues through adulthood. sma-6 is expressed in dorsal and ventral hypodermis, pharyngeal muscle, and the intestine. expression in the hypodermis is necessary and sufficient for body length regulation. [Source: WormBase]	protein amino acid phosphorylation, transmembrane receptor protein serine/threonine kinase signaling pathway, positive regulation of multicellular organism growth, tail tip morphogenesis, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, transmembrane receptor protein serine/threonine kinase activity, receptor signaling protein serine/threonine kinase activity, MAP kinase activity, transforming growth factor beta receptor activity, 
set-4	C32D5.5	Histone-lysine N-methyltransferase Suv4-20 (EC 2.1.1.43) (Suppressor of variegation 4-20 homolog) (Su(var)4-20 homolog) (SET domain- containing protein tag-337). [Source:Uniprot/SWISSPROT;Acc:Q09265]	embryonic development ending in birth or egg hatching, 	nucleus, 	
C32D5.6	C32D5.6	Uncharacterized protein C32D5.6. [Source:Uniprot/SWISSPROT;Acc:Q09266]	DNA repair, 		
C32D5.14	C32D5.14	C32D5.14 [Source:RefSeq_peptide;Acc:NP_001040749]			
C32D5.7	C32D5.7	Uncharacterized protein C32D5.7. [Source:Uniprot/SWISSPROT;Acc:Q09267]			
C32D5.8	C32D5.8	C32D5.8a [Source:RefSeq_peptide;Acc:NP_001022003]	cell redox homeostasis, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, antioxidant activity, 
C32D5.1	C32D5.1	Uncharacterized protein C32D5.1. [Source:Uniprot/SWISSPROT;Acc:Q09262]			
lgg-1	C32D5.9	lgg-1 encodes the C. elegans ortholog of Saccharomyces cerevisiae Atg8p and mammalian MAP-LC3. by homology, LGG-1 is predicted to be required for the degradation of cellular components by autophagy. loss of lgg-1 function via RNAi indicates that, like several other C. elegans genes involved in autophagy, lgg-1 is essential for normal dauer morphogenesis and life-span extension. a GFP::LGG-1 reporter fusion protein is expression in several different stages of development in multiple tissues, including the nervous system, pharynx, intestine, hypodermis, somatic gonad and vulva. under normal growth conditions, GFP::LGG-1 shows a diffuse cytoplasmic localization, but during dauer formation and in long-lived animals, GFP::LGG-1 shows a marked increase in punctate staining in hypodermal seam cells that likely reflects an increase in the number of preautophagosomal and autophagosomal structures. [Source: WormBase]	embryonic development ending in birth or egg hatching, dauer larval development, 		protein binding, 
C32D5.10	C32D5.10	Uncharacterized RING finger protein C32D5.10. [Source:Uniprot/SWISSPROT;Acc:Q09268]	growth, 		protein binding, zinc ion binding, 
C32D5.11	C32D5.11	C32D5.11 [Source:RefSeq_peptide;Acc:NP_495279]			protein binding, zinc ion binding, 
C32D5.12	C32D5.12	C32D5.12 [Source:RefSeq_peptide;Acc:NP_495280]	cellular metabolic process, steroid biosynthetic process, locomotory behavior, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
K10B2.t1	K10B2.t1				
K10B2.4	K10B2.4	UPF0139 protein K10B2.4. [Source:Uniprot/SWISSPROT;Acc:Q09993]			
ani-2	K10B2.5	Anillin-like protein 2. [Source:Uniprot/SWISSPROT;Acc:Q09994]	reproduction, 		
clec-88	K10B2.3	clec-88 encodes, by alternative splicing, two isoforms of a putatively secreted C-type lectin paralogous to CLEC-87, C25B8.4, F26D10.12, and ZK858.3. CLEC-88 has a single chondroitin attachment site verified by mass spectrometry. CLEC-88 has no obvious function in mass RNAi assays. [Source: WormBase]			sugar binding, 
K10B2.2	K10B2.2	Uncharacterized serine carboxypeptidase K10B2.2 precursor (EC 3.4.16.-). [Source:Uniprot/SWISSPROT;Acc:Q09991]	proteolysis, 		serine carboxypeptidase activity, 
lin-23	K10B2.1	lin-23 encodes an F-box- and WD-repeat-containing protein orthologous to Saccharomyces cerevisiae MET30 and human beta TRCP (OMIM:603482), both components of the SCF (Skp1, Cullin, F-box) ubiquitin-ligase complex that regulates ubiquitin-mediated protein degradation. LIN-23 negatively regulates postembryonic cell divsions in all tissue types, and specifically, has been shown to function cell autonomously in the vulva to negatively regulate cell cycle progression and allow for cell cycle exit. LIN-23 also functions cell autonomously in some neurons to regulate neurite outgrowth. LIN-23 expression is first detected broadly during gastrulation, with expression continuing postembryonically in body wall and enteric muscle, hypodermal cells, and many but not all neurons. LIN-23 localizes to the cytoplasm. [Source: WormBase]	negative regulation of multicellular organism growth, neurite morphogenesis, negative regulation of cell proliferation, 	cytoplasm, 	
F58F12.1	F58F12.1	F58F12.1 encodes the delta subunit of the soluble, catalytic F1 portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V). RNAi experiments indicate that F58F12.1 activity is essential for embryonic and larval development, as well as for reproduction and normal rates of growth and development. [Source: WormBase]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
F58F12.4	F58F12.4	F58F12.4 [Source:RefSeq_peptide;Acc:NP_001040783]			
F58F12.2	F58F12.2	Uncharacterized protein F58F12.2. [Source:Uniprot/SWISSPROT;Acc:Q09399]			
F58F12.3	F58F12.3	Uncharacterized protein F58F12.3. [Source:Uniprot/SWISSPROT;Acc:Q09400]			
T25D10.2	T25D10.2	T25D10.2 [Source:RefSeq_peptide;Acc:NP_495289]			
T25D10.5	T25D10.5	T25D10.5 [Source:RefSeq_peptide;Acc:NP_871995]			protein binding, 
T25D10.1	T25D10.1	Uncharacterized protein T25D10.1. [Source:Uniprot/SWISSPROT;Acc:Q10017]			
spp-11	T25D10.3	Saposin-like protein 11 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10018]			
T25D10.4	T25D10.4	Uncharacterized protein T25D10.4. [Source:Uniprot/SWISSPROT;Acc:Q10019]			
K03H9.3	K03H9.3	K03H9.3 [Source:RefSeq_peptide;Acc:NP_495293]			
col-75	K03H9.2	Putative cuticle collagen 75. [Source:Uniprot/SWISSPROT;Acc:Q09578]	phosphate transport, 	cytoplasm, 	
K03H9.1	K03H9.1	K03H9.1 [Source:RefSeq_peptide;Acc:NP_495295]			
K06A1.3	K06A1.3	K06A1.3 [Source:RefSeq_peptide;Acc:NP_495296]			
K06A1.2	K06A1.2	K06A1.2 [Source:RefSeq_peptide;Acc:NP_495297]			
nhr-22	K06A1.4	Nuclear hormone receptor family member nhr-22. [Source:Uniprot/SWISSPROT;Acc:Q09587]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
K06A1.5	K06A1.5	Uncharacterized WD repeat protein K06A1.5. [Source:Uniprot/SWISSPROT;Acc:Q09406]			
K06A1.1	K06A1.1	K06A1.1 encodes an AP-2-like transcription factor. [Source: WormBase]			transcription factor activity, 
K06A1.6	K06A1.6	Putative diacylglycerol kinase K06A1.6 (EC 2.7.1.107) (Diglyceride kinase) (DGK) (DAG kinase). [Source:Uniprot/SWISSPROT;Acc:Q10024]	intracellular signaling cascade, protein kinase C activation, 		diacylglycerol kinase activity, 
T28D9.12	T28D9.12	T28D9.12 [Source:RefSeq_peptide;Acc:NP_001040814]			
T28D9.7	T28D9.7	Degenerin-like protein T28D9.7. [Source:Uniprot/SWISSPROT;Acc:Q10025]	sodium ion transport, 	membrane, 	sodium channel activity, 
T28D9.4	T28D9.4	Uncharacterized protein T28D9.4. [Source:Uniprot/SWISSPROT;Acc:Q10023]			
T28D9.9	T28D9.9	Uncharacterized protein T28D9.9. [Source:Uniprot/SWISSPROT;Acc:Q10026]			
T28D9.3	T28D9.3	Uncharacterized protein T28D9.3. [Source:Uniprot/SWISSPROT;Acc:Q10022]			
snr-3	T28D9.10	snr-3 encodes an ortholog of human small nuclear ribonucleoprotein Sm D1, a protein that forms part of a heptameric complex required for biogenesis and function of the snRNPs that catalyze mRNA splicing. in combination with the gene that encodes the human Sm D2 ortholog (snr-4), snr-3 affects embryonic viability and nuclear association and localization of P granules in embryos, based on an RNAi assay. affects embryonic and larval viability based on large-scale RNAi assays. snr-3 is expressed in embryos and adult gonads. [Source: WormBase]	mRNA metabolic process, biological_process, 	ribonucleoprotein complex, 	
rsp-5	T28D9.2	Probable splicing factor, arginine/serine-rich 5 (RNA-binding protein srp-3) (CeSC35-2). [Source:Uniprot/SWISSPROT;Acc:Q10021]	regulation of transcription, DNA-dependent, RNA splicing, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	RNA binding, DNA binding, nucleic acid binding, 
T28D9.11	T28D9.11	Uncharacterized protein T28D9.11. [Source:Uniprot/SWISSPROT;Acc:Q10027]			
T28D9.1	T28D9.1	Uncharacterized protein T28D9.1. [Source:Uniprot/SWISSPROT;Acc:Q10020]			
R05G9.2	R05G9.2	R05G9.2b [Source:RefSeq_peptide;Acc:NP_001022268]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
R05G9.3	R05G9.3	R05G9.3 [Source:RefSeq_peptide;Acc:NP_495314]	embryonic development ending in birth or egg hatching, 		
R05G9.1	R05G9.1	R05G9.1 [Source:RefSeq_peptide;Acc:NP_495315]			
R05G9R.1	R05G9R.1	R05G9R.1 [Source:RefSeq_peptide;Acc:NP_495316]			
C56E6.7	C56E6.7	C56E6.7 [Source:RefSeq_peptide;Acc:NP_001022044]			
C56E6.3	C56E6.3	C56E6.3a [Source:RefSeq_peptide;Acc:NP_001022042]			protein binding, 
C56E6.2	C56E6.2	C56E6.2 [Source:RefSeq_peptide;Acc:NP_495318]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, potassium ion transport, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, cation transmembrane transporter activity, transcription factor binding, 
C56E6.4	C56E6.4	C56E6.4 [Source:RefSeq_peptide;Acc:NP_495319]	intracellular signaling cascade, 		
abch-1	C56E6.5	C56E6.5 [Source:RefSeq_peptide;Acc:NP_495320]			ATP binding, ATPase activity, 
abcx-1	C56E6.1	Temporarily Assigned Gene name family member (tag-177) [Source:RefSeq_peptide;Acc:NP_495321]	transport, growth, 	extracellular region, 	protein binding, 
C56E6.6	C56E6.6	C56E6.6 [Source:RefSeq_peptide;Acc:NP_495322]			protein binding, 
tag-184	F18C5.3	Temporarily Assigned Gene name family member (tag-184) [Source:RefSeq_peptide;Acc:NP_495323]			
wrn-1	F18C5.2	wrn-1 encodes an ortholog of human WRN, which when mutated leads to Werner syndrome (OMIM:277700), and one of four C. elegans homologs of the RecQ DNA helicase family that includes E. coli RecQ. by homology, WRN-1 is predicted to function as a helicase, DNA-dependent ATPase, and exonuclease that plays a key role in DNA replication, recombination, and repair. RNA interference studies in C. elegans and the enhancement of many of the resulting phenotypes by ionizing radiation indicate that wrn-1 affects life span and aging and acts at a DNA damage checkpoint. the wrn-1 phenotypes such as premature aging are similar to those of Werner syndrome. immunolocalization studies indicate that WRN-1 expression is nuclear in cells at the embryonic, larval and adult stages. [Source: WormBase]	metabolic process, DNA recombination, determination of adult life span, 	intracellular, 	ATP binding, nucleic acid binding, catalytic activity, helicase activity, ATP-dependent helicase activity, 
F18C5.10	F18C5.10	F18C5.10 [Source:RefSeq_peptide;Acc:NP_872024]			
F18C5.4	F18C5.4	F18C5.4 [Source:RefSeq_peptide;Acc:NP_495325]			protein binding, 
F18C5.t1	F18C5.t1				
F18C5.5	F18C5.5	F18C5.5 [Source:RefSeq_peptide;Acc:NP_495326]	protein amino acid phosphorylation, 	cAMP-dependent protein kinase complex, 	cAMP-dependent protein kinase regulator activity, 
F18C5.9	F18C5.9	F18C5.9 [Source:RefSeq_peptide;Acc:NP_495327]			
sra-27	F18C5.1	Serpentine receptor class alpha-27 (Protein sra-27). [Source:Uniprot/SWISSPROT;Acc:Q19549]	G-protein coupled receptor protein signaling pathway, sensory perception of chemical stimulus, 	integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
sra-28	F18C5.6	Serpentine receptor class alpha-28 (Protein sra-28). [Source:Uniprot/SWISSPROT;Acc:Q19550]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-29	F18C5.8	Serpentine receptor class alpha-29 (Protein sra-29). [Source:Uniprot/SWISSPROT;Acc:Q19552]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-31	C56C10.5	Serpentine receptor class alpha-31 (Protein sra-31). [Source:Uniprot/SWISSPROT;Acc:Q18881]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C56C10.6	C56C10.6	C56C10.6 [Source:RefSeq_peptide;Acc:NP_495333]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C56C10.4	C56C10.4	C56C10.4 [Source:RefSeq_peptide;Acc:NP_495334]		extracellular region, 	protein binding, 
C56C10.7	C56C10.7	C56C10.7b [Source:RefSeq_peptide;Acc:NP_741010]			protein binding, 
icd-1	C56C10.8	icd-1 encodes the C. elegans ortholog of the beta-subunit of the nascent polypeptide-associated complex (betaNAC). during development, icd-1 activity is required for prevention of ced-4-dependent, but ced-3-independent, programmed cell death and for normal embryonic development. ICD-1 is widely expressed throughout development and colocalizes primarily with mitochondria. [Source: WormBase]	negative regulation of apoptosis, positive regulation of growth rate, 		protein binding, 
vps-32.1	C56C10.3	Temporarily Assigned Gene name family member (tag-309) [Source:RefSeq_peptide;Acc:NP_495337]	protein transport, embryonic development ending in birth or egg hatching, 		
C56C10.9	C56C10.9	C56C10.9 [Source:RefSeq_peptide;Acc:NP_495338]			protein binding, calcium ion binding, 
C56C10.10	C56C10.10	C56C10.10 [Source:RefSeq_peptide;Acc:NP_495339]	embryonic development ending in birth or egg hatching, 		binding, 
dnj-8	C56C10.13	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, oviposition, 		heat shock protein binding, unfolded protein binding, 
C56C10.11	C56C10.11	C56C10.11 [Source:RefSeq_peptide;Acc:NP_495341]			
vps-33.2	C56C10.1	C56C10.1 [Source:RefSeq_peptide;Acc:NP_495342]	vesicle-mediated transport, vesicle docking during exocytosis, 		
C56C10.12	C56C10.12	C56C10.12 [Source:RefSeq_peptide;Acc:NP_495343]	locomotory behavior, 		
mua-1	F54H5.4	mua-1 encodes predicted transcription factor and xKLF homolog that affects cell matrix attachments that are critical for transmission of muscle contractions to the cuticle and for attachment of the uterus to the body wall, such that mutations result in paralysis of movement and prolapse of the uterus through the vulval opening, and many other secondary defects. its putative activation domain modestly activates transcription in COS cells and mua-1 expression is dynamic during development and includes the hypodermis, anterior pharynx, uv1, uv2, uv3, and utse cells of the uterus, and in the hypodermal nuclei bordering the seam. [Source: WormBase]	cell-matrix adhesion, morphogenesis of an epithelium, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F54H5.3	F54H5.3	F54H5.3 [Source:RefSeq_peptide;Acc:NP_495345]			structural molecule activity, 
F54H5.5	F54H5.5	F54H5.5 [Source:RefSeq_peptide;Acc:NP_495346]			
F54H5.2	F54H5.2	F54H5.2 [Source:RefSeq_peptide;Acc:NP_495347]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T19D12.4	T19D12.4	T19D12.4a [Source:RefSeq_peptide;Acc:NP_495348]	defense response, 		
T19D12.5	T19D12.5	T19D12.5 [Source:RefSeq_peptide;Acc:NP_495349]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T19D12.6	T19D12.6	T19D12.6 [Source:RefSeq_peptide;Acc:NP_495350]			calcium ion binding, 
T19D12.7	T19D12.7	T19D12.7 [Source:RefSeq_peptide;Acc:NP_495351]			
sra-26	T19D12.8	Serpentine Receptor, class A (alpha) family member (sra-26) [Source:RefSeq_peptide;Acc:NP_495352]	sodium ion transport, sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, sodium:amino acid symporter activity, 
T19D12.9	T19D12.9	T19D12.9 [Source:RefSeq_peptide;Acc:NP_495353]	transport, 	integral to membrane, 	transporter activity, 
T19D12.10	T19D12.10	T19D12.10 [Source:RefSeq_peptide;Acc:NP_495354]	transport, 	integral to membrane, 	transporter activity, 
T19D12.3	T19D12.3	T19D12.3 [Source:RefSeq_peptide;Acc:NP_495355]			
T19D12.2	T19D12.2	T19D12.2a [Source:RefSeq_peptide;Acc:NP_495356]	reproduction, 		
T19D12.1	T19D12.1	T19D12.1 [Source:RefSeq_peptide;Acc:NP_495357]	embryonic development ending in birth or egg hatching, 		
H43E16.1	H43E16.1	H43E16.1 [Source:RefSeq_peptide;Acc:NP_495358]			
ift-74	C18H9.8	IFT (Chlamydomonas IntraFlagellar Transport) homolog family member (ift-74) [Source:RefSeq_peptide;Acc:NP_495359]	regulation of transcription, DNA-dependent, 		
C18H9.3	C18H9.3	C18H9.3 [Source:RefSeq_peptide;Acc:NP_495360]			
C18H9.2	C18H9.2	Uncharacterized protein C18H9.2. [Source:Uniprot/SWISSPROT;Acc:Q09237]			
C18H9.5	C18H9.5	C18H9.5 [Source:RefSeq_peptide;Acc:NP_495362]	transport, 	integral to membrane, 	transporter activity, 
C18H9.1	C18H9.1	C18H9.1 [Source:RefSeq_peptide;Acc:NP_495363]			
C18H9.6	C18H9.6	Uncharacterized protein C18H9.6. [Source:Uniprot/SWISSPROT;Acc:Q09238]			
rpy-1	C18H9.7	rpy-1 is orthologous to the human gene 43KDA ACETYLCHOLINE RECEPTOR-ASSOCIATED PROTEIN (RAPSN. OMIM:601592), which when mutated leads to congenital myasthenic syndrome. [Source: WormBase]			protein binding, zinc ion binding, binding, 
dpy-10	T14B4.7	A cuticle collagen protein that afffects body morphology and movement and genetically interacts with the sqt-1 collagen gene. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, post-embryonic body morphogenesis, positive regulation of multicellular organism growth, collagen and cuticulin-based cuticle development, 	integral to membrane, cytoplasm, extracellular region, cellular_component, 	structural constituent of cuticle, cholecystokinin receptor activity, 
dpy-2	T14B4.6	The dpy-2 gene encodes an unusual cuticular collagen that is required for maintaining the normal body length of the animal in later larval stages. dpy-2 interacts with other cuticular collagens such as dpy-10 and sqt-1, and suppresses mutations in glp-1, mup-1, and emb-5. [Source: WormBase]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
T14B4.5	T14B4.5	T14B4.5 [Source:RefSeq_peptide;Acc:NP_495368]			
tsp-10	T14B4.4	TetraSPanin family member (tsp-10) [Source:RefSeq_peptide;Acc:NP_001040805]		integral to membrane, 	
T14B4.8	T14B4.8	T14B4.8 [Source:RefSeq_peptide;Acc:NP_495370]	embryonic development ending in birth or egg hatching, 		
T14B4.t1	T14B4.t1				
T14B4.9	T14B4.9	T14B4.9 [Source:RefSeq_peptide;Acc:NP_495371]		membrane, 	acetylglucosaminyltransferase activity, 
T14B4.3	T14B4.3	T14B4.3 [Source:RefSeq_peptide;Acc:NP_741011]			receptor activity, 
T14B4.2	T14B4.2	T14B4.2 [Source:RefSeq_peptide;Acc:NP_495374]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
T14B4.1	T14B4.1	T14B4.1 [Source:RefSeq_peptide;Acc:NP_495375]	RNA processing, embryonic development ending in birth or egg hatching, 		RNA binding, RNA methyltransferase activity, 
exos-8	F41G3.14	F41G3.14 [Source:RefSeq_peptide;Acc:NP_495376]	RNA processing, biological_process, 		RNA binding, protein binding, 3'-5'-exoribonuclease activity, 
F41G3.6	F41G3.6	F41G3.6 [Source:RefSeq_peptide;Acc:NP_495377]			
ins-15	F41G3.17	ins-15 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-15 is one of 38 insulin-like peptides in C. elegans, and the precise role of INS-15 in C. elegans development is not yet clear. [Source: WormBase]		extracellular region, 	hormone activity, 
ins-14	F41G3.16	ins-14 encodes one of several insulin-related peptides. genetic studies indicate that ins-14 acts as an agonist of daf-2 which is involved in non-dauer development and adult life span. the ins-14::gfp transgene is expressed in many neurons, the instestine and in vulval muscles. [Source: WormBase]	nematode larval development, 	extracellular region, 	hormone activity, 
F41G3.5	F41G3.5	F41G3.5 [Source:RefSeq_peptide;Acc:NP_495378]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
F41G3.10	F41G3.10	F41G3.10 [Source:RefSeq_peptide;Acc:NP_495379]			protein binding, 
F41G3.20	F41G3.20	F41G3.20 [Source:RefSeq_peptide;Acc:NP_001022157]			
F41G3.19	F41G3.19	F41G3.19 [Source:RefSeq_peptide;Acc:NP_001022156]			
F41G3.21	F41G3.21	F41G3.21 [Source:RefSeq_peptide;Acc:NP_001022158]			
srx-95	F41G3.11	Serpentine Receptor, class X family member (srx-95) [Source:RefSeq_peptide;Acc:NP_495380]		membrane, 	calcium ion binding, 
fis-1	F41G3.4	S. cerevisiae FIS1-related family member (fis-1) [Source:RefSeq_peptide;Acc:NP_495381]	embryonic development ending in birth or egg hatching, 		binding, 
F41G3.3	F41G3.3	F41G3.3 [Source:RefSeq_peptide;Acc:NP_495382]			
F41G3.2	F41G3.2	F41G3.2 [Source:RefSeq_peptide;Acc:NP_495383]			
agr-1	F41G3.12	AGRin (synaptic protein) homolog family member (agr-1) [Source:RefSeq_peptide;Acc:NP_001022152]			serine-type endopeptidase inhibitor activity, 
F41G3.1	F41G3.1	F41G3.1 [Source:RefSeq_peptide;Acc:NP_495385]			
F41G3.18	F41G3.18	F41G3.18 [Source:RefSeq_peptide;Acc:NP_001022155]			
T13C2.4	T13C2.4	T13C2.4 [Source:RefSeq_peptide;Acc:NP_495386]			
T13C2.7	T13C2.7	T13C2.7 [Source:RefSeq_peptide;Acc:NP_001022345]			
T13C2.6	T13C2.6	T13C2.6a [Source:RefSeq_peptide;Acc:NP_495387]	embryonic development ending in birth or egg hatching, 	membrane, 	calcium ion binding, 
T13C2.3	T13C2.3	T13C2.3b [Source:RefSeq_peptide;Acc:NP_001022344]			
T13C2.2	T13C2.2	T13C2.2 [Source:RefSeq_peptide;Acc:NP_495389]			
F31E8.4	F31E8.4	F31E8.4 [Source:RefSeq_peptide;Acc:NP_495391]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
tab-1	F31E8.3	tab-1 encodes a homeodomain protein homologous to Drosophila bsh (brain-specific homeodomain protein) and the vertebrate BarH-like homeodomain protein 1. TAB-1 is required, during early larval development, for backward movement in response to anterior touch with a wire, while during later larval stages, TAB-1 is required for response to gentle touch with a hair. TAB-1 expression begins in the early embryo in approximately 20-30 cells and is then restricted to a subset of neurons including AIB, AVJ, and RIV. TAB-1 expression in AIB may be controlled by the UNC-42 homeodomain protein and TAB-1 may autoregulate in the AVJ and RIV neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F31E8.5	F31E8.5	F31E8.5 [Source:RefSeq_peptide;Acc:NP_495393]			
snt-1	F31E8.2	snt-1 encodes two proteins, SNT-1A and SNT-1B, that are orthologous to the synaptic vesicle protein synaptotagmin 1. snt-1 is required for synaptic vesicle recycling (endocytosis) as well as for proper control of synaptic vesicle exocytosis and neurotransmitter release. accordingly, snt-1 activity is required for a variety of behaviors including pharyngeal pumping, locomotion, and defecation. SNT-1A and SNT-1B isoforms are expressed in neurons, with SNT-1A typically expressed at higher levels, and in a greater number of neurons, than SNT-1B. in addition, SNT-1B is exclusively expressed in the excretory duct cell and a group of tail neurons including DVB, a GABAergic neuron required for defecation. [Source: WormBase]	transport, regulation of pharyngeal pumping, 	membrane, synaptic vesicle, 	transporter activity, 
F31E8.6	F31E8.6				
F31E8.1	F31E8.1	F31E8.1 [Source:RefSeq_peptide;Acc:NP_495397]			
egl-27	C04A2.3	egl-27 encodes a homolog of human MTA1, part of an ATP-dependent complex with nucleosome remodelling and histone deacetylation activities that may promote tumor metastasis. in conjunction with its paralog egr-1, egl-27 is required for proper organization in all parts of the embryo, and for the embryonic expression of hlh-8. [Source: WormBase]	regulation of transcription, DNA-dependent, regulation of cell migration, biological_process, oviposition, establishment and/or maintenance of cell polarity, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, molecular_function, 
C04A2.1	C04A2.1	Uncharacterized protein C04A2.1. [Source:Uniprot/SWISSPROT;Acc:Q09445]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
C04A2.t1	C04A2.t1				
dnj-5	C04A2.7	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
aff-1	C44B7.3	aff-1 encodes a cell-surface protein required in late L4 larvae for various cell fusions, of which at least one (AC-utse) does not require EFF-1. in vulval development, AFF-1 is required for fusion of the anchor cell (AC) with the utse syncytium, of A cells to one another, and of D cells to one another. AFF-1 is also required for lateral seam cell fusions. since aff-1 mutants fail to mix AC with utse cytoplasm, AFF-1 is probably required to begin cell fusion by forming intercellular pores. AFF-1 has no obvious non-nematode orthologs, but is paralogous to EFF-1 and C26D10.7. AFF-1 is predicted to be largely extracellular, with eight conserved predicted disulfide bonds in its ectodomain and a single C-terminal transmembrane domain. AFF-1 is expressed in the AC, beginning around the AC's invasion of basement membrane in mid-L3 larvae, and continuing until the AC's fusion to utse. AFF-1 is also expressed in utse, beginning in L4 larvae, after which AC-utse fusion immediately ensues. in both AC and utse, AFF-1 expression requires FOS-1, and the aff-1 promoter has predicted FOS-1 binding sites. other sites of AFF-1 expression include embryonic hyp5 cells, pharyngeal muscles (Pm3 and Pm5), head and tail neurons, sheath cells of chemosensory neurons, and male tail neurons. subcellularly, AFF-1::GFP localizes to plasma membrane and (undefined) intracellular organelles. generally, AFF-1 is expressed in cells whose fusion does not require EFF-1, which may explain why AFF-1 and EFF-1 are redundantly required for viability. heat shock-driven overexpression of AFF-1, even in an eff-1 null mutant background, can induce ectopic cell fusion, and heterologous AFF-1 can induce insect Sf9 cells to fuse in vitro. [Source: WormBase]	oviposition, 		
C44B7.4	C44B7.4	C44B7.4 [Source:RefSeq_peptide;Acc:NP_495403]			
C44B7.5	C44B7.5	Uncharacterized protein C44B7.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q18594]			
C44B7.6	C44B7.6	C44B7.6a [Source:RefSeq_peptide;Acc:NP_001022026]			
C44B7.7	C44B7.7	C44B7.7 [Source:RefSeq_peptide;Acc:NP_495406]			
pmp-1	C44B7.8	pmp-1 encodes an ATP-binding cassette (ABC) transporter most closely related to the peroxisomal membrane proteins. pmp-1 activity is required for efficient RNA interference (RNAi) of a germline-expressed target, pop-1. [Source: WormBase]	transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pmp-2	C44B7.9	Peroxisomal Membrane Protein related family member (pmp-2) [Source:RefSeq_peptide;Acc:NP_495408]	transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
C44B7.10	C44B7.10	C44B7.10 [Source:RefSeq_peptide;Acc:NP_495409]	acetyl-CoA metabolic process, 		catalytic activity, 
C44B7.12	C44B7.12	Adenosine deaminase-like protein (EC 3.5.4.-). [Source:Uniprot/SWISSPROT;Acc:Q8IG39]	purine ribonucleoside monophosphate biosynthetic process, 		deaminase activity, 
C44B7.11	C44B7.11	Uncharacterized zinc metalloprotease C44B7.11 (EC 3.4.-.-). [Source:Uniprot/SWISSPROT;Acc:Q18600]	proteolysis, 		peptidase activity, 
C44B7.t1	C44B7.t1				
C44B7.2	C44B7.2	C44B7.2a [Source:RefSeq_peptide;Acc:NP_495411]	mRNA processing, 	nucleus, 	nucleotide binding, RNA binding, nucleic acid binding, 
C44B7.1	C44B7.1	Probable 26S proteasome non-ATPase regulatory subunit 9. [Source:Uniprot/SWISSPROT;Acc:Q10920]			protein binding, molecular_function, 
B0252.3	B0252.3	Putative transporter B0252.3. [Source:Uniprot/SWISSPROT;Acc:Q10917]	transport, 	integral to membrane, 	transporter activity, calcium ion binding, 
asm-1	B0252.2	asm-1 encodes a protein similar to human acid sphingomyelinase (ASM) or sphingomyelin phosphodiesterase. the ASM-1 protein has a putative secretory signal peptide at the N-terminus, saposin-like and proline-rich domains and putative N-linked glycosylation sites. asm-1 shows phosphodiesterase activity when expressed in COS-7 cells. while mammalian ASM is detected as both intracellular and secreted forms, asm-1 was detected exclusively in the secreted form. northern blot analysis indicates that asm-1 is expressed at higher levels in the embryo compared with other stages. [Source: WormBase]	sphingomyelin catabolic process, ceramide biosynthetic process, 	extracellular region, 	sphingomyelin phosphodiesterase activity, hydrolase activity, 
cyn-10	B0252.4	cyn-10 encodes a divergent cyclophilin isoform that is functional when expressed in E. coli. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
B0252.8	B0252.8	B0252.8 [Source:RefSeq_peptide;Acc:NP_001033323]			
B0252.5	B0252.5	Uncharacterized protein B0252.5. [Source:Uniprot/SWISSPROT;Acc:Q10918]			
B0252.1	B0252.1	B0252.1 [Source:RefSeq_peptide;Acc:NP_495419]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F22D3.4	F22D3.4	Uncharacterized protein B0252.6. [Source:Uniprot/SWISSPROT;Acc:Q10919]			
F22D3.2	F22D3.2	F22D3.2 encodes an ortholog of human folliculin (OMIM:607273, mutated in Birt-Hogg-Dube syndrome). [Source: WormBase]			
F22D3.5	F22D3.5	F22D3.5 [Source:RefSeq_peptide;Acc:NP_495423]	embryonic development ending in birth or egg hatching, 		
F22D3.6	F22D3.6	The F22D3.6 gene encodes a paracaspase homolog that may be involved in apoptosis, and that is orthologous to the human gene MUCOSA ASSOCIATED LYMPHOID TISSUE LYMPHOMA TRANSLOCATION GENE 1 (MALT1. OMIM:604860). [Source: WormBase]	proteolysis, apoptosis, 		cysteine-type peptidase activity, protein binding, caspase activity, 
ceh-38	F22D3.1	ceh-38 encodes two proteins, by alternative splicing, that belong to the ONECUT class of homeodomain proteins (which includes mammalian hepatocyte nuclear factor-6). ceh-38 is expressed from embryos to adults, and in many different tissues (e.g., pharynx, gut, hypodermis and many nerve cells), but has no known function in vivo. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
tra-2	C15F1.3	tra-2 encodes a transmembrane receptor that functions in the sex determination pathway to specify female fates in hermaphroditic XX animals. tra-2 encodes two proteins: TRA-2A, the major protein expressed at all developmental stages, and TRA-2B, a form specific to the hermaphrodite germ line. in hermaphrodites, direct interaction between the TRA-2A intracellular domain inhibits FEM-3 masculinizing activity, whereas in males, TRA-2A is negatively regulated by HER-1, allowing the FEM proteins to specify male development. TRA-2A localizes to the plasma membrane where its activity is positively regulated, in part, by proteolytic cleavage by the TRA-3 calpain-like protease. [Source: WormBase]	morphogenesis of an epithelium, sex determination, 	integral to membrane, cytoplasm, 	protein binding, receptor activity, 
ppp-1	C15F1.4	Probable translation initiation factor eIF-2B subunit gamma (eIF-2B GDP-GTP exchange factor subunit gamma) (Putative pyrophosphorylase ppp-1). [Source:Uniprot/SWISSPROT;Acc:P80361]	biosynthetic process, positive regulation of growth rate, 	cytoplasm, 	nucleotidyltransferase activity, 
C15F1.5	C15F1.5	C15F1.5b [Source:RefSeq_peptide;Acc:NP_001040742]			protein binding, zinc ion binding, 
NR_002616.1	C15F1.9	C15F1.9, snRNA [Source:RefSeq_dna;Acc:NR_002616]			
art-1	C15F1.6	a protein similar to synaptic glycoprotein SC2 from mammals. [Source: WormBase]	protein modification process, 	integral to membrane, 	
sod-1	C15F1.7	sod-1 encodes the copper/zinc superoxide dismustase, an enzyme that is known to protect cells from oxidative damage. superoxide dismutase activity can be detected in worm extracts. sod-1 activity has been implicated in the increased life-span of dauer larvae where this enzyme demonstrates the highest activity compared to other life-stages as well as in the increased life span of age-1 mutants and their resistance to oxidative damage. sod-1 modulates the effect of let-60 ras on vulval and germline development via cytoplasmic reactive oxygen species. unlike other eukaryotic superoxide dismutases, sod-1 does not require the copper chaperone CCS for its activity and instead uses a glutathione pathway for acquiring copper. In humans, mutation of SOD1 (OMIM:147450) leads to amyotrophic lateral sclerosis (OMIM:105400). [Source: WormBase]	superoxide metabolic process, regulation of vulval development, 		metal ion binding, copper ion binding, copper, zinc superoxide dismutase activity, 
C15F1.8	C15F1.8	C15F1.8 [Source:RefSeq_peptide;Acc:NP_495432]	embryonic development ending in birth or egg hatching, 		
C15F1.2	C15F1.2	C15F1.2 [Source:RefSeq_peptide;Acc:NP_495433]			
C15F1.1	C15F1.1	C15F1.1 [Source:RefSeq_peptide;Acc:NP_495434]			
unc-104	C52E12.2	The unc-104 gene encodes a kinesin-like motor protein homologous to human axonal transporter of synaptic vesicles (ATSV, OMIM: 601255), and is required for anterograde axonal transport of synaptic vesicles as well as differentiation of pre- and postsynaptic domains at inhibitory neuromuscular junctions. UNC-104 is expressed solely in neurons. [Source: WormBase]	microtubule-based movement, locomotory behavior, anterograde axon cargo transport, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
C52E12.t1	C52E12.t1				
C52E12.t3	C52E12.t3				
C52E12.t2	C52E12.t2				
sqv-7	C52E12.3	The sqv-7 gene encodes a nucleotide-sugar transporter of the Golgi membrane, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. SQV-7 promotes glycosaminoglycan biosynthesis by translocating UDP-glucuronic acid, UDP-N-acetylgalactosamine, and UDP-galactose into the lumen of the Golgi apparatus. SQV-7 is biochemically active when transgenically expressed in yeast or mammalian Golgi membranes. the common requirement for SQV-7 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
C52E12.4	C52E12.4	C52E12.4 [Source:RefSeq_peptide;Acc:NP_495437]			
C52E12.6	C52E12.6	C52E12.6 [Source:RefSeq_peptide;Acc:NP_872063]	muscle contraction, 	intracellular, 	zinc ion binding, nucleic acid binding, actin binding, calmodulin binding, myosin binding, 
C52E12.1	C52E12.1	C52E12.1 [Source:RefSeq_peptide;Acc:NP_495439]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
ZK1127.7	ZK1127.7	ZK1127.7 [Source:RefSeq_peptide;Acc:NP_495440]	DNA metabolic process, DNA topological change, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
ZK1127.6	ZK1127.6	ZK1127.6 [Source:RefSeq_peptide;Acc:NP_495441]	reproduction, 		
ZK1127.9	ZK1127.9	ZK1127.9a [Source:RefSeq_peptide;Acc:NP_495443]	reproduction, homoiothermy, response to freezing, 		protein binding, ice binding, 
ZK1127.5	ZK1127.5	Probable RNA 3'-terminal phosphate cyclase-like protein. [Source:Uniprot/SWISSPROT;Acc:Q23400]	positive regulation of growth rate, 		catalytic activity, RNA-3'-phosphate cyclase activity, 
ZK1127.12	ZK1127.12	ZK1127.12 [Source:RefSeq_peptide;Acc:NP_495446]			
ZK1127.4	ZK1127.4	Protein BCCIP homolog. [Source:Uniprot/SWISSPROT;Acc:Q23402]	positive regulation of growth rate, 		
ZK1127.3	ZK1127.3	ZK1127.3 [Source:RefSeq_peptide;Acc:NP_495448]	regulation of transcription, 	nucleus, H4/H2A histone acetyltransferase complex, 	
ZK1127.10	ZK1127.10	ZK1127.10 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:9471) (CTH. OMIM:219500), which when mutated leads to disease. [Source: WormBase]	amino acid metabolic process, 		pyridoxal phosphate binding, 
ZK1127.2	ZK1127.2	ZK1127.2 [Source:RefSeq_peptide;Acc:NP_495450]	metabolic process, 		catalytic activity, 
him-14	ZK1127.11	him-14 encodes a germline-specific member of the MutS family of DNA mismatch repair (MMR) proteins that is orthologous to human MSH4 and Saccharomyces cerevisiae Msh4p. during the pachytene stage of meiosis, HIM-14 activity is required for promoting crossing over between homologous chromosomes and thus, for chiasmata formation and proper chromosome segregation. in contrast, HIM-14 activity does not appear to be required for mismatch repair, nor for chromosome pairing or synapsis. him-14 mRNA expression is detected exclusively in the germline. [Source: WormBase]	mismatch repair, embryonic development ending in birth or egg hatching, pachytene, resolution of meiotic joint molecules as recombinants, 	nucleus, 	ATP binding, protein binding, mismatched DNA binding, 
nos-2	ZK1127.1	nos-2 encodes one of three genes in C. elegans that contains a putative zinc-binding domain similar to the one found in Drosophila nanos. nos-2 affects incorporation of primordial germ cells into the somatic gonad, is required redundantly with nos-1 to prevent primordial germ cells from dividing in starved animals and to maintain germ cell viability during larval development in hermaphrodites and in males, and also functions together with nos-1 and nos-3 in the hermaphrodite switch from spermatogenesis to oogenesis. nos-2 is expressed in the primordial germ cells around the time of gastrulation from a maternal RNA associated with P granules, and it is expressed coordinately with nos-1in a dynamic fashion until the embryonic 200-cell stage. [Source: WormBase]			RNA binding, zinc ion binding, 
krs-1	T02G5.9	Lysyl-tRNA synthetase (EC 6.1.1.6) (Lysine--tRNA ligase) (LysRS). [Source:Uniprot/SWISSPROT;Acc:Q22099]	translation, tRNA aminoacylation for protein translation, aspartyl-tRNA aminoacylation, lysyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, aminoacyl-tRNA ligase activity, aspartate-tRNA ligase activity, lysine-tRNA ligase activity, 
kat-1	T02G5.8	kat-1 encodes a homolog of the human gene ACAT1, which when mutated leads to alpha-methylacetoaceticaciduria (OMIM:203750). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	transferase activity, transferring groups other than amino-acyl groups, lysosphingolipid and lysophosphatidic acid receptor activity, 
T02G5.7	T02G5.7	The T02G5.7 gene encodes a homolog of the human gene ACAT1, which when mutated leads to alpha-methylacetoaceticaciduria (OMIM:203750). [Source: WormBase]	post-embryonic body morphogenesis, 		transferase activity, transferring groups other than amino-acyl groups, 
msh-4	T02G5.6	MSH (MutS Homolog) family member (msh-4) [Source:RefSeq_peptide;Acc:NP_495458]	mismatch repair, 		ATP binding, mismatched DNA binding, 
T02G5.11	T02G5.11	T02G5.11 [Source:RefSeq_peptide;Acc:NP_495460]			RNA binding, zinc ion binding, 
T02G5.4	T02G5.4	T02G5.4 [Source:RefSeq_peptide;Acc:NP_495461]			transferase activity, transferring groups other than amino-acyl groups, 
T02G5.14	T02G5.14	T02G5.14 [Source:RefSeq_peptide;Acc:NP_741020]			
T02G5.3	T02G5.3	T02G5.3 [Source:RefSeq_peptide;Acc:NP_495462]			
T02G5.2	T02G5.2	T02G5.2 [Source:RefSeq_peptide;Acc:NP_495463]			ATP binding, calcium ion binding, 
T02G5.12	T02G5.12	T02G5.12 [Source:RefSeq_peptide;Acc:NP_495464]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
T02G5.1	T02G5.1	T02G5.1 [Source:RefSeq_peptide;Acc:NP_495465]			
mmaa-1	T02G5.13	Uncharacterized protein T02G5.13. [Source:Uniprot/SWISSPROT;Acc:Q22111]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, 
F10E7.8	F10E7.8	F10E7.8 [Source:RefSeq_peptide;Acc:NP_495467]			protein binding, 
rpl-33	F10E7.7	rpl-33 encodes a large ribosomal subunit L35a protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F10E7.9	F10E7.9	F10E7.9 [Source:RefSeq_peptide;Acc:NP_495469]	transport, 	membrane, 	
F10E7.5	F10E7.5	F10E7.5 [Source:RefSeq_peptide;Acc:NP_495470]	ribosome biogenesis and assembly, 	intracellular, 	
F10E7.6	F10E7.6	F10E7.6 [Source:RefSeq_peptide;Acc:NP_495471]	positive regulation of growth rate, 		
F10E7.10	F10E7.10	F10E7.10 [Source:RefSeq_peptide;Acc:NP_495472]			
spon-1	F10E7.4	F10E7.4 [Source:RefSeq_peptide;Acc:NP_495473]	cell adhesion, multicellular organismal development, 	cell surface, 	serine-type endopeptidase inhibitor activity, 
F10E7.11	F10E7.11	F10E7.11 [Source:RefSeq_peptide;Acc:NP_495474]		nucleus, 	DNA binding, 
F10E7.2	F10E7.2	F10E7.2 [Source:RefSeq_peptide;Acc:NP_495475]	embryonic development ending in birth or egg hatching, 		nucleic acid binding, 
F10E7.3	F10E7.3	F10E7.3 [Source:RefSeq_peptide;Acc:NP_495476]			
F10E7.1	F10E7.1	F10E7.1 [Source:RefSeq_peptide;Acc:NP_495477]			
T07F8.4	T07F8.4	T07F8.4 [Source:RefSeq_peptide;Acc:NP_495478]		nucleus, 	DNA binding, 
gld-3	T07F8.3	gld-3 encodes two KH domain-containing RNA-binding proteins, GLD-3L and GLD-3S, that are homologous to Drosophila Bicaudal-C. gld-3 activity is required for two aspects of germ line development: the sperm/oocyte and mitosis/meiosis decisions. in regulating the sperm/oocyte switch, GLD-3L acts by binding and negatively regulating FBF's regulatory interaction with the fem-3 3'UTR. in regulating the mitosis/meiosis decision, GLD-3 functions with GLD-2, the catalytic subunit of a poly (A) polymerase, and in parallel to GLD-1 and NOS-3, to positively regulate entry into meiosis as germ cells move away from the distal, mitotic region of the gonad. in contrast to the sperm/oocyte decision, gld-3 functions downstream of FBFs, which bind specifically to elements in the gld-3S 3'-UTR to regulate GLD-3 expression, in the mitosis/meiosis decision. gld-3 activity is also required for germline survival and early embryogenesis. GLD-3 is a cytoplasmic protein that is found in the early embryo and in the germline throughout development in both sexes. in the early embryo, GLD-3 is also seen in cytoplasmic particles, some of which are coincident with P granules. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		RNA binding, protein binding, 
T07F8.2	T07F8.2	T07F8.2 [Source:RefSeq_peptide;Acc:NP_495481]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T07F8.1	T07F8.1	T07F8.1 [Source:RefSeq_peptide;Acc:NP_495482]			zinc ion binding, 
C27H5.3	C27H5.3	C27H5.3 [Source:RefSeq_peptide;Acc:NP_495483]	embryonic development ending in birth or egg hatching, 	intracellular, 	nucleotide binding, zinc ion binding, nucleic acid binding, 
C27H5.2	C27H5.2	C27H5.2a [Source:RefSeq_peptide;Acc:NP_495484]			protein binding, 
C27H5.4	C27H5.4	C27H5.4b [Source:RefSeq_peptide;Acc:NP_001021998]	embryonic development ending in birth or egg hatching, 		transporter activity, 
dyf-13	C27H5.7	dyf-13 encodes a ciliary protein, belonging to a conserved but unfamiliar protein family, that is required for cilial function and formation, undergoes IFT, and might represent a core component of the OSM-3 kinesin IFT pathway. dyf-13 is expressed in AWB neurons. dyf-13 mutations affect morphology of the amphid and phasmid neurons, chemotaxis, dauer formation, growth, male mating, and hermaphrodite brood size. dyf-13 requires DAF-19 for its transcription. [Source: WormBase]			binding, 
col-36	C27H5.5	col-36 encodes a collagen protein. expressed during the L1 to L2 and L2 to dauer larval stage molts. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
NR_003402.1	C27H5.11	C27H5.11, snRNA [Source:RefSeq_dna;Acc:NR_003402]			
glc-4	C27H5.8	glc-4 encodes a predicted glutamate-gated chloride channel that affects ivermectin sensitivity and reversal behavior and genetically interacts with avr-14. expressed in neurons. [Source: WormBase]	transport, ion transport, response to drug, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
pdl-1	C27H5.1	Phosphodiesterase delta-like protein. [Source:Uniprot/SWISSPROT;Acc:Q18268]			
NR_003403.1	C27H5.9	C27H5.9, snoRNA [Source:RefSeq_dna;Acc:NR_003403]			
NR_003401.1	C27H5.10	C27H5.10, snoRNA [Source:RefSeq_dna;Acc:NR_003401]			
C27H5.6	C27H5.6	C27H5.6 [Source:RefSeq_peptide;Acc:NP_495491]			
E04F6.4	E04F6.4	E04F6.4 [Source:RefSeq_peptide;Acc:NP_495492]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, 
E04F6.5	E04F6.5	E04F6.5 is orthologous to the human gene ACYL-CoA DEHYDROGENASE, VERY LONG-CHAIN (OMIM:201475), which when mutated leads to VLCAD deficiency, an inborn error of mitochondrial beta-oxidation. [Source: WormBase]	metabolic process, electron transport, positive regulation of growth rate, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
maoc-1	E04F6.3	E04F6.3 encodes a protein that is orthologous (with 52% identity over 93% of its length) to residues 334-609 of human 17-BETA-HYDROXYSTEROID DEHYDROGENASE IV (HSD17B4. OMIM:601860, mutated in D-bifunctional protein deficiency), a protein of 736 residues whose N- and C-terminal domains are orthologous to DHS-28. E04F6.3 contains a MaoC-like domain, found in diverse enzymes (HSD17B4, peroxisomal hydratase-dehydrogenase-epimerase, and the fatty acid synthase beta subunit). E04F6.3 has no obvious function in mass RNAi assays. [Source: WormBase]	metabolic process, fatty acid biosynthetic process, defense response, 	fatty acid synthase complex, 	oxidoreductase activity, identical protein binding, fatty-acid synthase activity, 
E04F6.6	E04F6.6	E04F6.6 [Source:RefSeq_peptide;Acc:NP_495495]			catalytic activity, 
E04F6.2	E04F6.2	E04F6.2 [Source:RefSeq_peptide;Acc:NP_495496]			
mrpr-1	E04F6.16	mrpr-1 encodes the RNA component of the endoribonuclease RNase MRP (OMIM:157660, mutated in cartilage-hair hypoplasia). RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. MRP shares several protein subunits with the endoribonuclease RNAse P, which processes tRNA. [Source: WormBase]			
srd-56	E04F6.14	Serpentine Receptor, class D (delta) family member (srd-56) [Source:RefSeq_peptide;Acc:NP_495497]			
srd-58	E04F6.13	Serpentine Receptor, class D (delta) family member (srd-58) [Source:RefSeq_peptide;Acc:NP_495498]			
srd-59	E04F6.1	Serpentine receptor class delta-59 (Protein srd-59). [Source:Uniprot/SWISSPROT;Acc:Q19061]			
dhs-7	E04F6.7	dhs-7 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
E04F6.15	E04F6.15	E04F6.15 [Source:RefSeq_peptide;Acc:NP_495501]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
E04F6.8	E04F6.8	E04F6.8 [Source:RefSeq_peptide;Acc:NP_495502]			
E04F6.9	E04F6.9	E04F6.9 [Source:RefSeq_peptide;Acc:NP_495503]			
E04F6.10	E04F6.10	E04F6.10 [Source:RefSeq_peptide;Acc:NP_495504]			
E04F6.12	E04F6.12	E04F6.12 [Source:RefSeq_peptide;Acc:NP_495505]			
clh-3	E04F6.11	The clh-3 gene encodes a chloride channel homologous to the mammalian channel ClC-2. [Source: WormBase]	chloride transport, 	membrane, 	voltage-gated chloride channel activity, 
F32A5.4	F32A5.4	Uncharacterized protein F32A5.4 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19948]			
F32A5.3	F32A5.3	Uncharacterized serine carboxypeptidase F32A5.3 precursor (EC 3.4.16.-). [Source:Uniprot/SWISSPROT;Acc:P52716]	proteolysis, 		serine carboxypeptidase activity, 
aqp-1	F32A5.5	aqp-1 encodes a transmembrane protein that belongs to the aquaglyceroporin subfamily of aquaporins. although loss of aqp-1 via large-scale RNAi results in no obvious developmental or behavioral abnormalities, aqp-1 expression is upregulated under daf-2(-) conditions and loss of aqp-1 function in daf-2 mutant animals results in reduced lifespan. when expressed in Xenopus oocytes, AQP-1 confers significant glycerol permeability. AQP-1::GFP fusion proteins are expressed predominantly in the intestine where they localize to the basolateral plasma membrane. [Source: WormBase]	transport, determination of adult life span, 	membrane, 	transporter activity, 
F32A5.2	F32A5.2	F32A5.2a [Source:RefSeq_peptide;Acc:NP_495511]	electron transport, response to oxidative stress, phospholipid metabolic process, lipid catabolic process, 		peroxidase activity, heme binding, phospholipase A2 activity, 
prx-13	F32A5.6	prx-13 is orthologous to the human gene PEX13 (OMIM:601789), which when mutated leads to Zellweger syndrome or neonatal adrenoleukodystrophy. [Source: WormBase]	protein import into peroxisome matrix, docking, growth, 	integral to membrane, peroxisome, 	
lsm-4	F32A5.7	Probable U6 snRNA-associated Sm-like protein LSm4. [Source:Uniprot/SWISSPROT;Acc:Q19952]	mRNA metabolic process, positive regulation of growth rate, 	ribonucleoprotein complex, 	
ada-2	F32A5.1	F32A5.1a [Source:RefSeq_peptide;Acc:NP_001022133]	embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
F32A5.8	F32A5.8	F32A5.8 [Source:RefSeq_peptide;Acc:NP_495516]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
NR_001482.1	F32A5.9	F32A5.9, miscRNA [Source:RefSeq_dna;Acc:NR_001482]			
C30G12.4	C30G12.4	Uncharacterized protein C30G12.4. [Source:Uniprot/SWISSPROT;Acc:Q09257]			
C30G12.3	C30G12.3	Uncharacterized protein C30G12.3. [Source:Uniprot/SWISSPROT;Acc:Q09256]			
C30G12.2	C30G12.2	C30G12.2 [Source:RefSeq_peptide;Acc:NP_495520]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C30G12.6	C30G12.6	Uncharacterized protein C30G12.6. [Source:Uniprot/SWISSPROT;Acc:Q09259]	embryonic development ending in birth or egg hatching, 		
puf-8	C30G12.7	PUF (Pumilio/FBF) domain-containing family member (puf-8) [Source:RefSeq_peptide;Acc:NP_495523]	gamete generation, regulation of translation, 		RNA binding, 
C30G12.1	C30G12.1	Uncharacterized protein C30G12.1. [Source:Uniprot/SWISSPROT;Acc:Q09255]			
cul-4	F45E12.3	Cullin-4. [Source:Uniprot/SWISSPROT;Acc:Q17392]	cell cycle, positive regulation of growth rate, 		
brf-1	F45E12.2	brf-1 encodes an ortholog of mammalian B-RELATED FACTOR (also known as BRF, TDS4, PCF4, or hTFIIIB90). BRF is thought to act as a molecular bridge between TATA-binding protein (TBP) associated factors that functions in TFIIIB (RNA polymerase III associated transcription factors). [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, positive regulation of transcription, transcription initiation, immune response, gamete generation, 	membrane, nucleus, extracellular region, transcription factor complex, 	zinc ion binding, transcription regulator activity, transcription activator activity, chemokine activity, 
F45E12.5	F45E12.5	F45E12.5b [Source:RefSeq_peptide;Acc:NP_495527]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
scpl-2	F45E12.1	scpl-2 encodes a putative serine/threonine phosphatase, orthologous to budding yeast Nem1p and human DULLARD. SCPL-2 is expressed in pharynx and intestine. SCPL-2 is distantly similar to FCP-1 and SCPL-1, -3, and -4. by orthology, SCPL-2 is expected to localize to the nuclear envelope, to regulate nuclear membrane biogenesis, and to dephosphorylate the phosphatidic acid phosphatase ortholog H37A05.1. [Source: WormBase]			phosphoric monoester hydrolase activity, 
F45E12.6	F45E12.6	F45E12.6 [Source:RefSeq_peptide;Acc:NP_495530]			
F21D12.2	F21D12.2	F21D12.2 [Source:RefSeq_peptide;Acc:NP_495531]	reproduction, 		
F21D12.3	F21D12.3	F21D12.3 [Source:RefSeq_peptide;Acc:NP_495532]	amino acid transport, embryonic development ending in birth or egg hatching, 	membrane, 	
F21D12.5	F21D12.5	F21D12.5 [Source:RefSeq_peptide;Acc:NP_495533]	multicellular organismal development, 	nucleus, 	
nhr-21	F21D12.1	Nuclear Hormone Receptor family member (nhr-21) [Source:RefSeq_peptide;Acc:NP_001022103]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
hsp-4	F43E2.8	hsp-4 encodes a predicted homolog of the mammalian ER chaperone BiP that affects embryonic and larval viability. expression is most prominent in the spermatheca and transcription of hsp-4 is induced in the gut and in the hypodermis upon ER stress. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, embryonic development, unfolded protein response, 	endoplasmic reticulum, 	ATP binding, 
haf-2	F43E2.4	haf-2 encodes a predicted transmembrane protein of the ATP-binding cassette (ABC) transporter superfamily. by homology, HAF-2 is proposed to function in ATP-dependent transport of molecules across plasma and intracellular membranes. however, as loss of HAF-2 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of HAF-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, 
F43E2.9	F43E2.9	F43E2.9 [Source:RefSeq_peptide;Acc:NP_495538]			
F43E2.3	F43E2.3	F43E2.3 [Source:RefSeq_peptide;Acc:NP_495539]			binding, 
F43E2.5	F43E2.5	F43E2.5 encodes a methionine sulfoxide-S-reductase (MsrA) with experimentally confirmed activity. [Source: WormBase]	protein metabolic process, 		peptide-methionine-(S)-S-oxide reductase activity, 
F43E2.6	F43E2.6	F43E2.6b [Source:RefSeq_peptide;Acc:NP_495542]			
F43E2.11	F43E2.11	F43E2.11 [Source:RefSeq_peptide;Acc:NP_495543]			
F43E2.2	F43E2.2	F43E2.2 [Source:RefSeq_peptide;Acc:NP_495544]	transcription, cellular metabolic process, pathogenesis, embryonic development ending in birth or egg hatching, 		nucleotide binding, DNA-directed RNA polymerase activity, catalytic activity, 
F43E2.7	F43E2.7	F43E2.7b [Source:RefSeq_peptide;Acc:NP_871994]	transport, positive regulation of growth rate, 	membrane, 	binding, 
F43E2.1	F43E2.1	F43E2.1 [Source:RefSeq_peptide;Acc:NP_495546]	embryonic development ending in birth or egg hatching, 		
C07D10.6	C07D10.6	C07D10.6 [Source:RefSeq_peptide;Acc:NP_001040732]			
C07D10.5	C07D10.5	C07D10.5 [Source:RefSeq_peptide;Acc:NP_495547]			
sre-3	C07D10.3	Serpentine Receptor, class E (epsilon) family member (sre-3) [Source:RefSeq_peptide;Acc:NP_495548]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
bath-44	C07D10.2	The C07D10.2 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]	reproduction, 		protein binding, 
C07D10.1	C07D10.1	C07D10.1 [Source:RefSeq_peptide;Acc:NP_495551]			
nas-7	C07D10.4	Zinc metalloproteinase nas-7 precursor (EC 3.4.24.21) (Nematode astacin 7). [Source:Uniprot/SWISSPROT;Acc:P55113]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
srd-55	K02A2.2	Serpentine receptor class delta-55 (Protein srd-55). [Source:Uniprot/SWISSPROT;Acc:Q09572]			
K02A2.5	K02A2.5	Uncharacterized protein K02A2.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09401]			
kcc-2	K02A2.3	Sodium/chloride cotransporter type 2. [Source:Uniprot/SWISSPROT;Acc:Q09573]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	transporter activity, 
srd-54	K02A2.7				
K02A2.1	K02A2.1	Uncharacterized protein K02A2.1. [Source:Uniprot/SWISSPROT;Acc:Q09571]			hydrolase activity, 
srd-52	K02A2.4				
Y9D1A.1	Y9D1A.1	Y9D1A.1 [Source:RefSeq_peptide;Acc:NP_495558]			
Y9D1A.2	Y9D1A.2	Y9D1A.2 [Source:RefSeq_peptide;Acc:NP_495559]			
D1022.3	D1022.3	D1022.3 [Source:RefSeq_peptide;Acc:NP_495560]			hydrolase activity, 
D1022.4	D1022.4	D1022.4 [Source:RefSeq_peptide;Acc:NP_495561]			hydrolase activity, 
D1022.5	D1022.5	D1022.5 [Source:RefSeq_peptide;Acc:NP_495562]			hydrolase activity, 
D1022.2	D1022.2	D1022.2 [Source:RefSeq_peptide;Acc:NP_495563]			
sro-1	D1022.6	Serpentine Receptor, class O (opsin) family member (sro-1) [Source:RefSeq_peptide;Acc:NP_495564]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
aka-1	D1022.7	aka-1 encodes an A kinase anchor protein that has mutiple isoforms, all of which have a zinc-finger domain of the FYVE type. interacts with KIN-2 in vitro. [Source: WormBase]			zinc ion binding, 
ubc-6	D1022.1	UBiquitin Conjugating enzyme family member (ubc-6) [Source:RefSeq_peptide;Acc:NP_001040755]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
cah-2	D1022.8	cah-2 encodes a predicted carbonic anhydrase. [Source: WormBase]	one-carbon compound metabolic process, 		protein binding, zinc ion binding, carbonate dehydratase activity, 
D1022.9	D1022.9	D1022.9 [Source:RefSeq_peptide;Acc:NP_001022048]			
nas-23	R10H1.5	Zinc metalloproteinase nas-23 precursor (EC 3.4.24.21) (Nematode astacin 23). [Source:Uniprot/SWISSPROT;Acc:Q7Z0M7]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
R10H1.1	R10H1.1	Uncharacterized protein R10H1.1. [Source:Uniprot/SWISSPROT;Acc:Q10043]			structural constituent of cytoskeleton, 
isl-1	R10H1.4	isl-1 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1 and the products of 13 other C. elegans genes. ISL-1 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates, such as Ascaris suum trypsin inhibitor ATI and Onchocerca volvulus SPI-1. [Source: WormBase]			
srab-14	R10H1.2	Serpentine receptor class alpha/beta-14 (Protein srab-14). [Source:Uniprot/SWISSPROT;Acc:Q09344]	G-protein coupled receptor protein signaling pathway, sensory perception of chemical stimulus, 	integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
C28F5.1	C28F5.1	Uncharacterized protein C28F5.1. [Source:Uniprot/SWISSPROT;Acc:Q09239]			
C28F5.2	C28F5.2	Putative globin-like protein C28F5.2. [Source:Uniprot/SWISSPROT;Acc:Q09240]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C28F5.4	C28F5.4	Putative zinc protease C28F5.4 (EC 3.4.24.-). [Source:Uniprot/SWISSPROT;Acc:Q10040]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
ZK1290.15	ZK1290.15	ZK1290.15 [Source:RefSeq_peptide;Acc:NP_001040828]			
ZK1290.7	ZK1290.7	ZK1290.7 [Source:RefSeq_peptide;Acc:NP_495576]			
rnh-1.1	ZK1290.6	RNase H family member (rnh-1.1) [Source:RefSeq_peptide;Acc:NP_001022508]			nucleic acid binding, ribonuclease H activity, 
ZK1290.5	ZK1290.5	Probable oxidoreductase ZK1290.5 (EC 1.-.-.-). [Source:Uniprot/SWISSPROT;Acc:Q09632]			oxidoreductase activity, 
wrt-1	ZK1290.12	Warthog protein 1 precursor [Contains: Warthog protein 1 N-product; Warthog protein 1 C-product]. [Source:Uniprot/SWISSPROT;Acc:Q94128]	proteolysis, cell communication, carboxylic acid metabolic process, multicellular organismal development, intein-mediated protein splicing, cell-cell signaling, segment polarity determination, protein autoprocessing, 	extracellular region, plasma membrane, 	transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer, peptidase activity, molecular_function, 
wrt-10	ZK1290.8	wrt-10 encodes a hedgehog-like protein, with an N-terminal signal sequence, a Wart domain, and a C-terminal region of low-complexity sequence. WRT-10 is expressed in both male and hermaphrodite intestine. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-10 is required for normal growth to full size and locomotion. both of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
ZK1290.13	ZK1290.13	ZK1290.13 [Source:RefSeq_peptide;Acc:NP_872014]			
nfi-1	ZK1290.4	NFI (Nuclear Factor I) family member (nfi-1) [Source:RefSeq_peptide;Acc:NP_001022507]	regulation of transcription, DNA-dependent, DNA replication, 	intracellular, nucleus, 	transcription factor activity, 
rol-8	ZK1290.3	rol-8 encodes a collagen that is enriched in dauer larvae. mutations cause adults to become left-handed rollers. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
fbxa-224	ZK1290.9	fbxa-224 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
tph-1	ZK1290.2	tph-1 encodes tryptophan hydroxylase, the enzyme that catalyzes the rate-limiting first step in serotonin biosynthesis. in vivo, tph-1 activity is required for serotonin biosynthesis, and well-fed animals mutant for tph-1 exhibit changes in behavioral and metabolic processes similar to those caused by starvation: slower rates of egg laying and pharyngeal pumping, dauer larval arrest, increased fat storage, and an extended reproductive lifespan. genetic studies indicate that, in regulating feeding and metabolism, tph-1 interacts with the daf-7/TGF-beta and daf-2/insulin-like signaling pathways. a TPH-1::GFP reporter is expressed in the serotonergic neurons: NSM, ADF, HSN (hermaphrodite-specific), CP (male-specific), and also rarely in the AIM and RIH neurons. [Source: WormBase]	aromatic amino acid family metabolic process, serotonin biosynthetic process, embryonic development ending in birth or egg hatching, dauer larval development, serotonin biosynthetic process from tryptophan, 		iron ion binding, monooxygenase activity, tryptophan 5-monooxygenase activity, 
ZK1290.10	ZK1290.10	Uncharacterized protein ZK1290.10 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09337]			
ZK1290.14	ZK1290.14	ZK1290.14 [Source:RefSeq_peptide;Acc:NP_001022502]			
ZK1290.11	ZK1290.11	Uncharacterized protein ZK1290.11. [Source:Uniprot/SWISSPROT;Acc:Q09338]			
ZK1290.1	ZK1290.1	ZK1290.1 [Source:RefSeq_peptide;Acc:NP_495587]			
F35D2.3	F35D2.3	F35D2.3 [Source:RefSeq_peptide;Acc:NP_495588]			
F35D2.2	F35D2.2	F35D2.2 [Source:RefSeq_peptide;Acc:NP_495589]			
F35D2.1	F35D2.1	F35D2.1 [Source:RefSeq_peptide;Acc:NP_495590]			
F35D2.4	F35D2.4	F35D2.4 [Source:RefSeq_peptide;Acc:NP_495591]			
syd-1	F35D2.5	SYnapse Defective family member (syd-1) [Source:RefSeq_peptide;Acc:NP_001022146]	signal transduction, locomotion, 	intracellular, 	protein binding, 
R07G3.5	R07G3.5	Phosphoglycerate mutase family member 5 homolog precursor. [Source:Uniprot/SWISSPROT;Acc:Q09422]			phosphohistidine phosphatase activity, 
npp-21	R07G3.3	Nuclear Pore complex Protein family member (npp-21) [Source:RefSeq_peptide;Acc:NP_741024]	vesicle-mediated transport, negative regulation of multicellular organism growth, 	membrane, 	protein binding, 
R07G3.6	R07G3.6	Uncharacterized protein R07G3.6. [Source:Uniprot/SWISSPROT;Acc:Q09423]	embryonic development ending in birth or egg hatching, 		
R07G3.2	R07G3.2	R07G3.2 [Source:RefSeq_peptide;Acc:NP_495596]	lipid catabolic process, 		catalytic activity, lipase activity, 
R07G3.7	R07G3.7	Uncharacterized protein R07G3.7. [Source:Uniprot/SWISSPROT;Acc:Q09424]			
oig-4	R07G3.9	One IG domain family member (oig-4) [Source:RefSeq_peptide;Acc:NP_001022278]			
cdc-42	R07G3.1	The cdc-42 gene encodes a RHO GTPase which controls polarity of both individual cells and developing embryos by regulating the localization of PAR proteins. it is expressed at hypodermal cell boundaries. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, potassium ion transport, embryonic development ending in birth or egg hatching, establishment of mitotic spindle localization, establishment and/or maintenance of cell polarity, 	integral to membrane, intracellular, cellular_component, 	protein binding, GTP binding, GTPase activity, cation transmembrane transporter activity, 
R07G3.8	R07G3.8	R07G3.8 [Source:RefSeq_peptide;Acc:NP_495599]			protein binding, 
pde-4	R153.1	Probable 3',5'-cyclic phosphodiesterase pde-4 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:Q22000]	signal transduction, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	catalytic activity, carbamoyl-phosphate synthase activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, lysosphingolipid and lysophosphatidic acid receptor activity, 
F18A1.6	F18A1.6	F18A1.6b [Source:RefSeq_peptide;Acc:NP_495603]			
F18A1.7	F18A1.7	F18A1.7 [Source:RefSeq_peptide;Acc:NP_495605]	embryonic development ending in birth or egg hatching, 		
rpa-1	F18A1.5	rpa-1 encodes the C. elegans ortholog of the replication protein A (RPA) large subunit. by homology, RPA-1 is predicted to function as a DNA-binding and oligonucleotide oligosaccharide-binding (OB) protein that is required for DNA replication, repair, and recombination. large-scale RNAi screens indicate that rpa-1 is essential for embryonic development, and that in yeast two-hybrid assays interacts with the product of M04F3.1, the RPA medium subunit. in situ hybridization studies indicate that rpa-1 transcripts are expressed in germ cells. [Source: WormBase]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, DNA binding, nucleic acid binding, 
lir-2	F18A1.4	lir-2 encodes a LIN-26-like zinc-finger protein that shares a unique C2H2 motif together with LIR-1, LIR-3, and LIN-26. lir-2 is the upstream gene in an operon with lir-1 which is, in turn, the upstream gene in a second, overlapping operon with lin-26. as loss of lir-2 function via RNAi results in no obvious abnormalities, the precise role of lir-2 in C. elegans development and/or behavior is not yet known. lir-2 transcripts are ubiquitous in early embryos (2-200-cell stages). [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
lir-1	F18A1.3	lir-1 encodes a LIN-26-like zinc-finger protein that shares a unique C2H2 motif together with LIR-2, LIR-3, and LIN-26. lir-1 is part of two distinct operons: it is the downstream gene in an operon with lir-2 and the upstream gene in a second, overlapping operon with lin-26. the precise role of lir-1 in C. elegans development and/or behavior is not yet known as neither loss nor gain of lir-1 function appears to result in clear abnormalities and RNAi experiments targeting lir-1 result in embryonic and larval lethality due to loss of lin-26 expression. lir-1 transcripts appear ubiquitous in early embryos, disappear, and then re-appear in later embryonic hypodermal and support cells. during larval development, a lir-1::lacZ fusion that should reflect expression of all transcripts is seen in nearly all cells with the exception of germ cells and post-L1 intestinal cells. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, DNA binding, nucleic acid binding, 
lin-26	F18A1.2	lin-26 encodes a zinc-finger protein that shares a unique C2H2 motif together with LIR-1, LIR-2, and LIR-3. during development, lin-26 activity is required for proper differentiation of non-neuronal ectodermal cells and the somatic gonad epithelium. LIN-26 is expressed in many different cell types including the rectal rep, somatic gonad, glial, and hypodermal cells. ectopic LIN-26 expression during embryogenesis induces epithelial-like cell fates suggesting that LIN-26 is sufficient for epithelial differentiation. [Source: WormBase]	embryonic development ending in birth or egg hatching, ectoderm development, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F18A1.1	F18A1.1	F18A1.1 [Source:RefSeq_peptide;Acc:NP_495612]			
F18A1.8	F18A1.8	F18A1.8 [Source:RefSeq_peptide;Acc:NP_495613]			
nhx-2	B0495.4	nhx-2 encodes a sodium/proton exchanger expressed in the apical membranes of intestinal cells. NHX-2 is required for normally high growth rates, and for propagation or maintenance of the germline, NHX-2 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of extracellular sodium for an intracellular proton. [Source: WormBase]	sodium ion transport, regulation of pH, positive regulation of growth rate, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
B0495.5	B0495.5	Uncharacterized protein B0495.5. [Source:Uniprot/SWISSPROT;Acc:Q09214]	biological_process, 	cellular_component, 	molecular_function, 
B0495.6	B0495.6	Uncharacterized protein B0495.6. [Source:Uniprot/SWISSPROT;Acc:Q09215]	embryonic development ending in birth or egg hatching, 		
B0495.2	B0495.2	Putative serine/threonine-protein kinase B0495.2 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:Q09437]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
B0495.7	B0495.7	Uncharacterized protein B0495.7. [Source:Uniprot/SWISSPROT;Acc:Q09216]	proteolysis, locomotory behavior, 		metallopeptidase activity, peptidase activity, 
B0495.8	B0495.8	Uncharacterized protein B0495.8. [Source:Uniprot/SWISSPROT;Acc:Q09217]			
B0495.9	B0495.9	Uncharacterized protein B0495.9. [Source:Uniprot/SWISSPROT;Acc:Q09218]			
sre-1	B0495.1	sre-1 encodes a putative seven transmembrane chemoreceptor. an SRE-1::GFP reporter is expressed in the ADL and ASJ amphid sensory neurons. [Source: WormBase]	electron transport, sensory perception of chemical stimulus, 	membrane, integral to membrane, microsome, 	flavin-containing monooxygenase activity, transmembrane receptor activity, GABA-B receptor activity, 
tag-178	B0495.10	Putative protein tag-178. [Source:Uniprot/SWISSPROT;Acc:Q09219]			
tag-308	B0228.4	tag-308 encodes proteins with similarity to several InterPro domains including those of polycystin cation channels, von Willebrand factor, the DNA recombination repair protein BRCA2, protein-tyrosine phosphatase, non-receptor type-13, glyoxylate carboligase, and copines, Ca2+-dependent phosphatidylserine binding proteins. tag-308::gfp reporter fusions are expressed in body wall muscle. [Source: WormBase]			tartronate-semialdehyde synthase activity, 
trx-1	B0228.5	trx-1 encodes a thioredoxin, a small redox protein that functions as a protein-disulfide reductase. loss of trx-1 activity via a deletion mutation and RNAi indicates that trx-1 is required for normal adult lifespan. in vitro, TRX-1 is capable of reducing protein disulfide bonds in the presence of a mammalian thioredoxin reductase. a TRX-1::GFP fusion protein is expressed in the ASJL/R amphid chemosensory neurons in males and hermaphrodites beginning just prior to hatching and continuing through larval and adult stages, including the alternative dauer larval stage. expression is also variably detected in posterior intestinal cells in larvae and adults, but not in dauers. subcellularly, the TRX-1::GFP fusion protein is detected in the nucleus, cytoplasm, cilia, dendrites, and axons. [Source: WormBase]	cell redox homeostasis, glycerol ether metabolic process, 		
B0228.6	B0228.6	Uncharacterized protein B0228.6. [Source:Uniprot/SWISSPROT;Acc:Q09223]			
B0228.1	B0228.1	Uncharacterized protein B0228.1. [Source:Uniprot/SWISSPROT;Acc:Q09220]			
B0228.t1	B0228.t1				
B0228.7	B0228.7	Putative S-methyl-5-thioadenosine phosphorylase (EC 2.4.2.28) (5'- methylthioadenosine phosphorylase) (MTA phosphorylase) (MTAPase). [Source:Uniprot/SWISSPROT;Acc:Q09438]			transferase activity, transferring pentosyl groups, 
B0228.8	B0228.8	Uncharacterized protein B0228.8 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09224]			
B0228.9	B0228.9	Uncharacterized protein B0228.9. [Source:Uniprot/SWISSPROT;Acc:Q09439]			
srh-39	C06A8.7	Serpentine Receptor, class H family member (srh-39) [Source:RefSeq_peptide;Acc:NP_495632]			
C06A8.8	C06A8.8	C06A8.8a [Source:RefSeq_peptide;Acc:NP_001021924]			
C06A8.6	C06A8.6	C06A8.6 [Source:RefSeq_peptide;Acc:NP_495634]		extracellular region, 	protein binding, 
C06A8.1	C06A8.1	C06A8.1 is orthologous to human MSH HOMEO BOX HOMOLOG 1 (MTHFR. OMIM:142983, mutated in homocystinuria). [Source: WormBase]	methionine metabolic process, positive regulation of growth rate, 		protein binding, methylenetetrahydrofolate reductase (NADPH) activity, 
C06A8.2	C06A8.2	C06A8.2 [Source:RefSeq_peptide;Acc:NP_495636]	positive regulation of growth rate, 		
C06A8.5	C06A8.5	C06A8.5 [Source:RefSeq_peptide;Acc:NP_495637]	embryonic development ending in birth or egg hatching, 		protein binding, 
skr-17	C06A8.4	skr-17 encodes a homolog of Skp1 in S. cerevisiae, a core component of the SCF (Skp1p, Cullin, F-box) ubiquitin-ligase complex that facilitates ubiquitin-mediated protein degradation. SKR-17 has no known function in vivo, since skr-17(RNAi) animals are at least superficially normal, and SKR-17 does not appear to interact in vitro with any of the C. elegans cullin homologs. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
glr-4	C06A8.9	glr-4 encodes a putative non-NMDA ionotropic glutamate receptor subunit, most closely related to GLR-3 and less so to GLR-7, possibly of the kainate subfamily. glr-4 is expressed in various sensory neurons and interneurons from embyrogenesis onward. glr-4 expression requires UNC-42, as well as CFI-1 in URA cells. [Source: WormBase]	transport, ion transport, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
C06A8.3	C06A8.3	C06A8.3 [Source:RefSeq_peptide;Acc:NP_495640]			
cki-1	T05A6.1	cki-1 encodes a homolog of the mammalian cyclin-dependent kinase inhibitor p27/KIP1 that is required for the arrest of cell division in larval blast lineages, dauer larvae and starved L1 larvae. excess CKI-1 expression prematurely stops cell division while cki-1(RNAi) induces extra cell divisions, indicating that CKI-1 quantitatively regulates the amount of mitosis in postembryonic worms. [Source: WormBase]	cell cycle arrest, embryonic development ending in birth or egg hatching, 	nucleus, 	cyclin-dependent protein kinase inhibitor activity, 
cki-2	T05A6.2	cki-2 encodes a cyclin-dependent kinase (CDK) inhibitor of the CIP/KIP family, orthologous to human CDKN1C (OMIM:600856, which when mutated leads to Beckwith-Wiedemann syndrome) that may play a role in cell cycle progression during embryogenesis. CKI-2 interacts with PCN-1, a proliferating cell nuclear antigen homolog, SMO-1, a SUMO (ubiquitin related) homolog, and the RING domain-containing protein C06A5.9. [Source: WormBase]	cell cycle arrest, 	nucleus, 	cyclin-dependent protein kinase inhibitor activity, 
T05A6.4	T05A6.4	T05A6.4 [Source:RefSeq_peptide;Acc:NP_495643]		membrane, 	
T05A6.5	T05A6.5	T05A6.5 [Source:RefSeq_peptide;Acc:NP_495644]		membrane, 	
srw-62	T05A6.6				
T09A5.14	T09A5.14	T09A5.14 [Source:RefSeq_peptide;Acc:NP_001022330]			
cex-2	T09A5.1	Putative calcium-binding protein cex-2. [Source:Uniprot/SWISSPROT;Acc:P45961]			calcium ion binding, 
klp-3	T09A5.2	klp-3 encodes a C-terminal kinesin motor protein orthologous to Drosophila NCD and Saccharomyces cerevisiae KAR3. expression of antisense klp-3 RNA under the control of a heat shock promoter suggests that KLP-3 plays a role in chromosome movement and segregation that is essential for germline and embryonic development. klp-3 mRNA is expressed at a low level in mixed-stage RNA preparations. consistent with this, a klp-3::lacZ fusion is expressed in newly hatched larvae in the specialized epithelial marginal cells in the pharynx and muscle cells in the posterior gut region. [Source: WormBase]	microtubule-based movement, chromosome segregation, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
acr-7	T09A5.3	acr-7 encodes an alpha-7-like homomer-forming subunit of the nicotinic acetylcholine receptor (nAChR) superfamily which encode ligand-gated ion channels that regulate fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-7 is expressed pharyngeal muscle and in tail neurons distal to the anus, and is a member of the ACR-16-like group of nAChR subunits. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
T09A5.4	T09A5.4	Uncharacterized protein T09A5.4. [Source:Uniprot/SWISSPROT;Acc:P45964]			
T09A5.5	T09A5.5	Uncharacterized protein T09A5.5. [Source:Uniprot/SWISSPROT;Acc:P45965]	embryonic development ending in birth or egg hatching, 		
mdt-10	T09A5.6	RNA polymerase II mediator complex subunit 10 (Mediator complex subunit 10). [Source:Uniprot/SWISSPROT;Acc:P45966]	morphogenesis of an epithelium, 		
T09A5.7	T09A5.7	Uncharacterized protein T09A5.7. [Source:Uniprot/SWISSPROT;Acc:P45967]			
T09A5.8	T09A5.8	Chromo domain-containing protein T09A5.8. [Source:Uniprot/SWISSPROT;Acc:P45968]	chromatin assembly or disassembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	DNA binding, chromatin binding, 
T09A5.15	T09A5.15	T09A5.15 [Source:RefSeq_peptide;Acc:NP_001022331]			
T09A5.9	T09A5.9	Uncharacterized protein T09A5.9. [Source:Uniprot/SWISSPROT;Acc:P45969]	embryonic development ending in birth or egg hatching, 		protein binding, 
lin-5	T09A5.10	lin-5 encodes a novel protein with a centrally located alpha-helical coiled-coil domain and ten potential proline-directed kinase phosphorylation sites. LIN-5 activity is required for mitosis and cytokinesis at all stages of development and specifically, for spindle positioning, chromosome alignment and segregation, and perhaps also for blocking exit from mitosis when chromosome segregation fails. LIN-5, which is expressed maternally, embryonically, and during larval stages, localizes to the cell periphery and, in a microtubule-dependent manner, to the meiotic spindle and the asters and kinetochore microtubules of the mitotic spindle. in regulating spindle function, LIN-5 interacts with two G protein regulators, GPR-1 and GPR-2, which require LIN-5 activity for localization to the spindle and cell cortex. additionally, LIN-5 interacts in vitro with itself, the coiled-coil protein LFI-1, GEI-16, and several other novel proteins. genetic studies indicate that in regulating embryonic spindle function, lin-5 acts downsteam of par-2, par-3, mes-1, and src-1 and upstream of gpr-1, gpr-2, goa-1, and gpa-16. [Source: WormBase]	embryonic development ending in birth or egg hatching, reproduction, 		protein binding, 
T09A5.11	T09A5.11	Probable dolichyl-diphosphooligosaccharide--protein glycosyltransferase 48 kDa subunit precursor (EC 2.4.1.119) (Oligosaccharyl transferase 48 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:P45971]	protein amino acid N-linked glycosylation via asparagine, negative regulation of multicellular organism growth, 	endoplasmic reticulum membrane, 	dolichyl-diphosphooligosaccharide-protein glycotransferase activity, 
T09A5.12	T09A5.12	Uncharacterized protein T09A5.12. [Source:Uniprot/SWISSPROT;Acc:P45972]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
T01H3.3	T01H3.3	T01H3.3 [Source:RefSeq_peptide;Acc:NP_495657]	transport, 	membrane, 	transporter activity, 
T01H3.2	T01H3.2	T01H3.2 encodes a large (980-residue) uncharacterized protein, with multiple dysferlin and beta-propeller domains, that is conserved among metazoa. T01H3.2 shares an operon with vha-4, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	integral to membrane, 	
vha-4	T01H3.1	vha-4 encodes an ortholog of subunit c'' of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-4 is a predicted V-ATPase transmembrane rotor component. VHA-4 is paralogous to the c subunits VHA-1/-2/-3, and is predicted to help carry protons from the cytosol to a-subunits (VHA-5, VHA-6, VHA-7, or UNC-32) for transmembrane export. VHA-4 is required for ovulation and embryogenesis, since vha-4(RNAi) animals are sterile with polyploid, unmatured oocytes and dead progeny. VHA-4 is required for alae formation, like the V0 subunits VHA-1 and VHA-5, but not like the V1 subunits VHA-8 or VHA-13. vha-4 is expressed in the excretory cell, the rectum, and a pair of cells near the anus. [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, embryonic development, 	membrane, integral to membrane, proton-transporting two-sector ATPase complex, vacuolar proton-transporting V-type ATPase, V0 domain, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
T01H3.5	T01H3.5	T01H3.5 encodes an unfamiliar protein. T01H3.5 and T01H3.5 share an operon divergently transcribed from another operon containing vha-4. [Source: WormBase]			
T01H3.4	T01H3.4	T01H3.4 encodes an unfamiliar protein. T01H3.4 and T01H3.5 share an operon divergently transcribed from another operon containing vha-4. [Source: WormBase]	embryonic cleavage, 		
ptc-1	ZK675.1	ptc-1 encodes an ortholog of Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome), which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTC-1 is required for cytokinesis in the germline, but not in somatic cells (the converse of PTR-2's function, and a role conserved in C. briggsae). PTC-1 is also required to isolate meiotic germline nuclei from one another so that their nuclear divisions are asynchronous. PTC-1 is (very weakly) required for normal molting. PTC-1 protein is found in the membranes of all germline cells except sperm. ptc-1 transcripts are present in germline, very early (2- and 4-cell) embryos, and in the germline precursor P4. ptc-1 null mutants have normal somatic tissues, but are sterile with multinucleate oocytes. murine PTCH is found in midbodies by mass tandem spectroscopy, indicating that PTC-1's function in cytokinesis may be conserved among metazoa. since PTC-1 has an SSD, PTC-1's core function may be to transport proteins, lipids, or sterols. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	hedgehog receptor activity, 
rev-1	ZK675.2	REV1 (translesion DNA polymerase) homolog family member (rev-1) [Source:RefSeq_peptide;Acc:NP_495663]	DNA repair, embryonic development ending in birth or egg hatching, 	intracellular, 	
ZK675.3	ZK675.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYR2]			ATP binding, nucleic acid binding, ATP-dependent helicase activity, 
ZK675.4	ZK675.4	Uncharacterized protein ZK675.4. [Source:Uniprot/SWISSPROT;Acc:Q09380]			
tag-341	ZK669.1	ZK669.1a [Source:RefSeq_peptide;Acc:NP_495666]	intracellular signaling cascade, signal transduction, proton transport, embryonic development ending in birth or egg hatching, 	membrane, intracellular, 	ATP binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
ZK669.7	ZK669.7	ZK669.7 [Source:RefSeq_peptide;Acc:NP_001022528]			
ZK669.2	ZK669.2	ZK669.2 [Source:RefSeq_peptide;Acc:NP_495668]			
ZK669.3	ZK669.3	GILT-like protein ZK669.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q23570]			
ZK669.4	ZK669.4	ZK669.4 is orthologous to the human gene DIHYDROLIPOAMIDE BRANCHED CHAIN TRANSACYLASE (E2 COMPONENT OF BRANCHED CHAIN KETO ACID DEHYDROGENASE COMPLEX. (DBT), which when mutated leads to maple syrup urine disease, type II (OMIM:248610). the ZK669.4 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 	extracellular region, 	protein binding, acyltransferase activity, hormone activity, 
ZK669.5	ZK669.5	ZK669.5b [Source:RefSeq_peptide;Acc:NP_001040833]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, G-protein coupled receptor protein signaling pathway, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, 
C04H4.1	C04H4.1	C04H4.1 [Source:RefSeq_peptide;Acc:NP_001021915]			
DH11.5	DH11.5	DH11.5a [Source:RefSeq_peptide;Acc:NP_495672]			
DH11.4	DH11.4	DH11.4 [Source:RefSeq_peptide;Acc:NP_495673]			
pgp-11	DH11.3	pgp-11 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. pgp-11 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-11 activity via large-scale RNAi screens does not result in any obvious defects, the precise role of pgp-11 in C. elegans development and/or behavior is not yet known. pgp-11 promoter-gfp fusion proteins are expressed in the excretory cell and in the intestine. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
DH11.1	DH11.1	Putative glutaminase DH11.1 (EC 3.5.1.2) (GLS) (L-glutamine amidohydrolase). [Source:Uniprot/SWISSPROT;Acc:Q19013]	glutamine metabolic process, 		protein binding, glutaminase activity, 
DH11.2	DH11.2	DH11.2 [Source:RefSeq_peptide;Acc:NP_495676]			
zyg-11	C08B11.1	zyg-11 encodes a protein containing four diverged leucine-rich repeats and an armadillo-like helical domain and is conserved in metazoa, but not found in Drosophila. during development, ZYG-11 functions as the substrate-recognition subunit for a CUL-2-based ubiquitin-ligase complex that is required for a number of biological processes including progression through meiotic anaphase II, mitotic chromosome condensation, and establishment of anterior/posterior polarity in the early embryo. ZYG-11 interacts with CUL-2 in vivo and with ELC-1/elongin C in vitro. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	cellular_component, 	protein binding, 
hda-2	C08B11.2	hda-2 encodes a Class I histone deacetylase. by homology, HDA-2 is predicted to function in deacetylation of histone residues and transcriptional regulation. loss of hda-2 activity via RNAi results in an increased spontaneous mutation rate, suggesting that hda-2 also plays a role in regulating genome stability. [Source: WormBase]	DNA repair, histone deacetylation, 	nucleus, 	histone deacetylase activity, 
C08B11.3	C08B11.3	ARID domain-containing protein C08B11.3. [Source:Uniprot/SWISSPROT;Acc:Q09441]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
nrf-6	C08B11.4	nrf-6 encodes a protein with 12 predicted transmembrane domains that is highly similar to NDG-4 and affects embryonic viability, yolk transport, locomotion, body morphology, and affects sensitivity to fluoxetine with respect to nose-contraction response in a common pathway with ndg-4 and nrf-5. expressed in the most anterior cells of the hypodermis and in the intestine and is required in the intestine for fluoxetine-induced nose contraction and yolk transport [Source: WormBase]	embryonic development ending in birth or egg hatching, 		transferase activity, transferring groups other than amino-acyl groups, 
C08B11.9	C08B11.9	Uncharacterized protein C08B11.9 (1207-1). [Source:Uniprot/SWISSPROT;Acc:Q09227]			protein binding, 
sap-49	C08B11.5	Splicing factor 3B subunit 4 (Spliceosome-associated protein 49). [Source:Uniprot/SWISSPROT;Acc:Q09442]	cell adhesion, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, actin cytoskeleton, 	nucleotide binding, nucleic acid binding, structural molecule activity, rhodopsin-like receptor activity, structural constituent of cell wall, 
C08B11.6	C08B11.6	Actin-like protein C08B11.6. [Source:Uniprot/SWISSPROT;Acc:Q09443]	embryonic development ending in birth or egg hatching, 		protein binding, 
ubh-4	C08B11.7	Probable ubiquitin carboxyl-terminal hydrolase ubh-4 (EC 3.4.19.12) (Ubiquitin C-terminal hydrolase family 1 member 4) (Ubiquitin thioesterase 4). [Source:Uniprot/SWISSPROT;Acc:Q09444]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, ubiquitin thiolesterase activity, 
C08B11.8	C08B11.8	Probable dolichyl pyrophosphate Man9GlcNAc2 alpha-1,3- glucosyltransferase (EC 2.4.1.-) (Dolichyl-P-Glc:Man9GlcNAc2-PP- dolichyl glucosyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q09226]			
T05H10.1	T05H10.1	T05H10.1 [Source:RefSeq_peptide;Acc:NP_495686]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
apn-1	T05H10.2	apn-1 encodes a member of the AP (apurinic or apyrimidinic) endonuclease family. [Source: WormBase]	DNA repair, embryonic development ending in birth or egg hatching, 	intracellular, 	DNA binding, endonuclease activity, 
T05H10.3	T05H10.3	Uncharacterized protein T05H10.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09347]			protein binding, 
T05H10.4	T05H10.4	Uncharacterized protein T05H10.4. [Source:Uniprot/SWISSPROT;Acc:Q09348]			
T05H10.8	T05H10.8	Uncharacterized protein T05H10.8. [Source:Uniprot/SWISSPROT;Acc:Q10004]	glycolysis, 		phosphoglycerate kinase activity, 
ufd-2	T05H10.5	ufd-2 encodes an E4 ubiquitin conjugation factor orthologous to Saccharomyces cerevisiae Ufd2p which catalyzes multiubiquitin chain assembly. during development, UFD-2 acts in a complex with the C. elegans CHIP ortholog CHN-1 and the ubiquitin-selective chaperone CDC-48.1 to ubiquitinate, and thus negatively regulate, the UNC-45 myosin chaperone whose activity is essential for normal sarcomere assembly and motility. in addition, ufd-2 activity is required, along with that of rpn-10, for proper regulation of TRA-2-mediated germline sex determination. a UFD-2::GFP fusion protein is expressed throughout the life cycle in body wall muscle as well as neurons and the hypodermis. in body wall muscle, UFD-2::GFP is found in both the cytoplasm and nucleus. [Source: WormBase]	protein ubiquitination, 	ubiquitin ligase complex, 	ubiquitin-protein ligase activity, 
T05H10.6	T05H10.6	T05H10.6 encodes an ortholog of the human gene PYRUVATE DEHYDROGENASE (LIPOAMIDE) ALPHA 1 (PDHA1. OMIM:312170), which when mutated leads to Leigh syndrome (OMIM:256000). the T05H10.6 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	metabolic process, positive regulation of growth rate, 		oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor, 
T05H10.7	T05H10.7	Uncharacterized protein T05H10.7. [Source:Uniprot/SWISSPROT;Acc:Q10003]	carbohydrate metabolic process, glycerol metabolic process, 		catalytic activity, carbohydrate binding, glycerophosphodiester phosphodiesterase activity, 
NR_003411.1	K02C4.8	K02C4.8, snoRNA [Source:RefSeq_dna;Acc:NR_003411]			
K02C4.2	K02C4.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q09403]			
K02C4.5	K02C4.5	K02C4.5 [Source:RefSeq_peptide;Acc:NP_495695]			
K02C4.3	K02C4.3	Probable ubiquitin carboxyl-terminal hydrolase K02C4.3 (EC 3.1.2.15) (Ubiquitin thioesterase) (Ubiquitin-specific-processing protease) (Deubiquitinating enzyme). [Source:Uniprot/SWISSPROT;Acc:Q09931]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
ltd-1	K02C4.4	ltd-1 encodes a protein with LIM and transglutaminase domains. LTD-1 is homologous to the mouse KY protein (MGI:96709, mutated in kyphoscoliosis), and to the HILLARIN protein of Hirudo medicinalis, found at axon hillocks. ltd-1 is expressed in hypodermal cells from the twofold stage embryo to adulthood, but has no obvious function in mass RNAi assays. [Source: WormBase]			zinc ion binding, molecular_function, 
NR_003410.1	K02C4.7	K02C4.7, snoRNA [Source:RefSeq_dna;Acc:NR_003410]			
sre-2	C41C4.2	Serpentine receptor class epsilon-2 (Protein sre-2). [Source:Uniprot/SWISSPROT;Acc:Q09273]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sfxn-5	C41C4.10	Uncharacterized protein C41C4.10. [Source:Uniprot/SWISSPROT;Acc:Q5FC79]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
C41C4.1	C41C4.1	Uncharacterized protein C41C4.1. [Source:Uniprot/SWISSPROT;Acc:Q09272]			
NR_003405.1	C41C4.11	C41C4.11, snoRNA [Source:RefSeq_dna;Acc:NR_003405]			
C41C4.9	C41C4.9	C41C4.9 [Source:RefSeq_peptide;Acc:NP_001022024]			
C41C4.3	C41C4.3	C41C4.3 [Source:RefSeq_peptide;Acc:NP_495700]			protein binding, 
ire-1	C41C4.4	ire-1 encodes a transmembrane serine/threonine protein kinase and site-specific endoribonuclease orthologous to Saccharomyces cerevisiae inositol-requiring 1 protein kinase (Ire1) and human endoplasmic reticulum-to-nucleus signaling 1 (ERN1, OMIM:604033). IRE-1 is required for the unfolded protein response (UPR) that counteracts cellular stress induced by accumulation of unfolded proteins in the endoplasmic reticulum (ER). in response to ER stress, IRE-1 cleaves xbp-1 mRNA to produce transcriptionally active XBP-1 that positively regulates UPR gene expression in order to maintain ER homeostasis. [Source: WormBase]	protein amino acid phosphorylation, electron transport, mRNA processing, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, DNA binding, endoribonuclease activity, producing 5'-phosphomonoesters, 
unc-105	C41C4.5	unc-105 encodes a muscle degenerin, a mechanosensory membrane channel that is a member of the degenerin ion channel superfamily and similar to subunits of the mammalian amiloride-sensitive epithelial sodium channel (ENaC, OMIM:600761). UNC-105 is required for normal growth and for normal contraction and organization of muscle, where it is expressed. UNC-105 interacts with LET-2, an alpha2 chain of type IV collagen that is also expressed by muscle and localized to the basement membrane between muscle and hypodermis. [Source: WormBase]	ion transport, calcium ion transport, sodium ion transport, magnesium ion transport, muscle development, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, 
ulp-4	C41C4.6	Putative thiol protease ulp-4 (EC 3.4.22.-) (Ubiquitin-like protease 4). [Source:Uniprot/SWISSPROT;Acc:Q09275]	proteolysis, positive regulation of growth rate, 		cysteine-type peptidase activity, 
ctns-1	C41C4.7	C41C4.7 encodes an ortholog of the human cystinosin gene (CTNS. OMIM:606272, which when mutated leads to nephropathic cystinosis (OMIM:219800). sequence analysis suggests that cystinosin is an integral lysosomal membrane protein. [Source: WormBase]			
cdc-48.2	C41C4.8	Transitional endoplasmic reticulum ATPase homolog 2 (p97/CDC48 homolog 2) (Cell division cycle-related protein 48.2). [Source:Uniprot/SWISSPROT;Acc:P54812]	positive regulation of growth rate, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, protein binding, hydrolase activity, 
F10B5.8	F10B5.8	F10B5.8 [Source:RefSeq_peptide;Acc:NP_495706]	embryonic development ending in birth or egg hatching, 		hydrolase activity, 
rpl-10	F10B5.1	rpl-10 encodes a large ribosomal subunit L10 protein required in mass RNAi assays for embryonic viability, fertility, normally rapid growth, and normal body coloration. the rpl-10 transcription unit has a nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that rpl-10 is a natural substrate for SMG-mediated nonsense suppresssion. several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-7, rpl-12) have protein products that are involved in translation. [Source: WormBase]	translation, reproduction, 	intracellular, ribosome, 	structural constituent of ribosome, 
F10B5.2	F10B5.2	Uncharacterized protein F10B5.2. [Source:Uniprot/SWISSPROT;Acc:Q09305]	embryonic development ending in birth or egg hatching, 		protein binding, 
F10B5.3	F10B5.3	F10B5.3 [Source:RefSeq_peptide;Acc:NP_495709]	gamete generation, 	intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
tub-1	F10B5.4	tub-1 encodes a tubby homolog that affects fat storage in C. elegans and may function in a parallel pathway with kat-1 to affect lipid accumulation based on genetic analysis. expressed primarily in sensory neurons. [Source: WormBase]	nervous system development, 	cellular_component, 	protein binding, molecular_function, 
F10B5.9	F10B5.9	F10B5.9 [Source:RefSeq_peptide;Acc:NP_001022074]			
pch-2	F10B5.5	pch-2 encodes a putative AAA+-type ATPase orthologous to budding yeast PCH2 and human TRIP13 (OMIM:604507). PCH-2 is required for the apoptosis of pachytene cells induced by unsynapsed chromosomal pairing centers, but is dispensable for meiotic apoptosis induced by DNA damage. PCH-2-mediated apoptosis is inhibited by SYP-1 and SYP-2, while it requires HIM-8 (and probably HIM-8's paralogs, ZIM-1/-3 and C02F5.12). however, PCH-2-mediated apoptosis does not require SPO-11. pch-2 transcripts are enriched during oogenesis. the excess germline apoptosis of syp-1(me17) mutants is partially suppressed by pch-2(tm1458), and fully suppressed by pch-2(tm1458).spo-11(ok79). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
emb-27	F10B5.6	emb-27 encodes a tetratricopeptide repeat (TPR)-containing protein that is the C. elegans ortholog of the anaphase-promoting complex (APC) subunit APC-6 (CDC16). required maternally and paternally, EMB-27 activity is essential for proper execution of the metaphase-to-anaphase transition during meiosis (both oogenesis and spermatogenesis) and mitosis (during germline proliferation). EMB-27 activity is also critical for embryonic anterior-posterior (A-P) axis formation, production of the secreted eggshell, and normal vulval development. in establishing the embryonic A-P axis, EMB-27 likely acts upstream of the separin protease to ensure proper localization of PAR-3 and PAR-2 to the anterior and posterior cortices, respectively. [Source: WormBase]	embryonic cleavage, 		protein binding, binding, 
rrf-3	F10B5.7	rrf-3 encodes an RNA-directed RNA polymerase (RdRP) homolog that inhibits somatic RNAi, and thus promotes activity of repeated genes (e.g., multicopy transgenic arrays). the effect of RRF-3 on RNAi is opposite to that of RRF-1 (which stimulates somatic RNAi), which might arise from competition by RRF-3 with RRF-1 or EGO-1 in RNAi formation. rrf-3(allele) or rrf-3(allele2) mutants are hypersensitive to somatic RNAi, and conversely suppress the activity of an integrated rol6 (su1006) transgene. [Source: WormBase]		nuclear RNA-directed RNA polymerase complex, 	nucleotide binding, RNA-directed RNA polymerase activity, 
T05C12.11	T05C12.11	T05C12.11 [Source:RefSeq_peptide;Acc:NP_001022315]			
T05C12.3	T05C12.3	Uncharacterized oxidoreductase T05C12.3 (EC 1.-.-.-). [Source:Uniprot/SWISSPROT;Acc:Q22230]	metabolic process, DNA topological change, enterobactin biosynthetic process, 	chromosome, 	ATP binding, oxidoreductase activity, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T05C12.1	T05C12.1	T05C12.1 [Source:RefSeq_peptide;Acc:NP_495715]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
acr-14	T05C12.2	acr-14 encodes a protein that contains neurotransmitter-gated ion-channel ligand-binding and transmembrane domains. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
T05C12.4	T05C12.4	T05C12.4 [Source:RefSeq_peptide;Acc:NP_495717]		membrane, 	
dylt-3	T05C12.5	T05C12.5 [Source:RefSeq_peptide;Acc:NP_495718]			
mig-5	T05C12.6	mig-5 encodes one of three C. elegans Dishevelled homologs. as part of both canonical and non-canonical Wnt signaling pathways, mig-5 activity is required maternally and embryonically for cell migration, cell fate specification, and proper spindle orientation in the early embryo. cells affected by mig-5 mutations include the distal tip cells (DTCs), the QL neuroblast descendants (QL.d), the vulval precursor cells, and the P12 ectoblast. in the early embryo, MIG-5 functions downstream of MOM-2/Wnt and MOM-1/Porc, and redundantly with two other Dishevelled homologs, DSH-1 and DSH-2, in a non-canonical Wnt pathway that specifies the endoderm cell fate and regulates mitotic spindle orientation in the EMS and ABar blastomeres. in posteriorly directed QL.d migrations, MIG-5 functions downstream of EGL-20/Wnt and upstream of PRY-1/Axin in a canonical Wnt pathway to positively regulate Wnt signaling and effect MAB-5 expression in QL.d. a mig-5::GFP fusion is reportedly expressed in many cells in the embryo, migrating DTCs, P cells, and the nerve ring. [Source: WormBase]	intracellular signaling cascade, multicellular organismal development, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, signal transducer activity, identical protein binding, 
cct-1	T05C12.7	eukaryotic cytosolic chaperonin. affects viability and fertility, and is expressed in various muscle and neuronal cells: near the pharynx, near the anal sphincter, in the ventral nerve cord and the nerve ring. occasionally the expression is visible in hypodermal cells and in some vulval cells. [Source: WormBase]	protein folding, cellular protein metabolic process, pathogenesis, embryonic development ending in birth or egg hatching, 	extracellular region, 	ATP binding, protein binding, unfolded protein binding, 
T05C12.8	T05C12.8	T05C12.8 [Source:RefSeq_peptide;Acc:NP_495723]			
T05C12.9	T05C12.9	T05C12.9 [Source:RefSeq_peptide;Acc:NP_495724]			
qua-1	T05C12.10	qua-1 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Qua domain, a 5W repeat, an extended region of low-complexity sequence, and a Hint/Hog domain. QUA-1 is conserved among nematodes from Caenorhabditis to Brugia. QUA-1 is expressed prior to molting in hyp1 to hyp11 hypodermal cells, but not in seam cells, and ceases to be expressed after each molting cycle or in gravid adults no longer molting. QUA-1 is strongly required for normal molting, with lethal molting defects in qua-1 mutants and severe defects in qua-1(RNAi) animals. similar molting defects in RNAi of ptr-4 and ptr-23 (encoding Dispatched homologs) suggest that PTR-4 and PTR-23 may export QUA-1 from hypodermal cells synthesizing it. other sites of QUA-1 expression include intestinal and rectal cells, excretory duct and pore cells, sensilla support cells, the P cell lineage in L1, body wall muscle, and the adult reproductive system. QUA-1 is also required for normal adult alae formation, growth to full size, cuticle adhesion, locomotion, and male tail development. the Hint/Hog domain is predicted to cut QUA-1 into two halves and then covalently link cholesterol to the C-terminus of the Qua domain. the Qua domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and the Qua domain has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. both Qua and Hint/Hog domains are required for transgenic rescue of a lethal qua-1 allele. defects in both qua-1 mutants and qua-1(RNAi) animals. all of QUA-1's functions may reflect common defects in cholesterol-dependent hedgehog-like signalling. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, G-protein coupled receptor protein signaling pathway, intein-mediated protein splicing, molting cycle, protein-based cuticle, 	integral to membrane, 	peptidase activity, galanin receptor activity, 
col-76	M110.1	M110.1 [Source:RefSeq_peptide;Acc:NP_495726]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
M110.8	M110.8	M110.8 [Source:RefSeq_peptide;Acc:NP_001022261]			
twk-3	M110.2	TWiK family of potassium channels family member (twk-3) [Source:RefSeq_peptide;Acc:NP_495727]	potassium ion transport, 	membrane, 	potassium channel activity, 
M110.3	M110.3	M110.3 [Source:RefSeq_peptide;Acc:NP_495728]			protein binding, zinc ion binding, 
ifg-1	M110.4	ifg-1 encodes, by alternative splicing, two orthologs of the translational initiation factor eIF4 (eIF-4) gamma. [Source: WormBase]	RNA metabolic process, reproduction, 		protein binding, 
dab-1	M110.5	dab-1 encodes an ortholog of the cytoplasmic adaptor protein DISABLED, required for normal molting and meiotic arrest. DAB-1 is also required for EGL-17 secretion from vulval cells, and thus indirectly for normal sex myoblast (SM) migration and egg-laying. DAB-1 contains a conserved PTB domain and signals that confer localization to Golgi-proximal vesicles, and DAB-1 localizes to vesicular structures in vivo. dab-1 is expressed in ventral precursor cells, and DAB-1 prevents EGL-17 protein accumulation in them. dab-1 is also expressed in other cells (anchor cell, sheath cells, etc.) but has no obvious function in them. DAB-1 binds the cytoplasmic domains of either LRP-1 or LRP-2 in yeast two-hybrid experiments. dab-1(gk291) and dab-1(RNAi) animals have similar defects in molting, EGL-17 secretion from VPCs, SM migration, and egg-laying. dab-1(RNAi) does not enhance the SM phenotypes of lrp-1(RNAi) or lrp-2(RNAi), suggesting that these genes act in concert to promote normal EGL-17 secretion and SM migration. in vitro, DAB-1 binds to the ear domains of APT-4 (strongly) and of APT-1 and APT-9 (weakly). genetically, dab-1(RNAi) functions as part of the vab-1 pathway in oocytes inhibiting meiotic maturation, and DAB-1 is found in oocyte cytoplasm. [Source: WormBase]	positive regulation of growth rate, oviposition, 		protein binding, 
M110.9	M110.9	M110.9 [Source:RefSeq_peptide;Acc:NP_001022262]			
M110.7	M110.7	Uncharacterized NTE family protein M110.7. [Source:Uniprot/SWISSPROT;Acc:Q21534]	lipid metabolic process, 		
nlp-5	F35C11.1	Neuropeptide-Like Protein family member (nlp-5) [Source:RefSeq_peptide;Acc:NP_495735]			
F35C11.2	F35C11.2	F35C11.2 [Source:RefSeq_peptide;Acc:NP_495736]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F35C11.3	F35C11.3	F35C11.3 [Source:RefSeq_peptide;Acc:NP_495737]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F35C11.4	F35C11.4	F35C11.4 [Source:RefSeq_peptide;Acc:NP_495738]			
F35C11.5	F35C11.5	F35C11.5 [Source:RefSeq_peptide;Acc:NP_495739]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
F35C11.7	F35C11.7	F35C11.7 [Source:RefSeq_peptide;Acc:NP_872065]			
F35C11.6	F35C11.6	F35C11.6 [Source:RefSeq_peptide;Acc:NP_495740]			
K01C8.1	K01C8.1	K01C8.1 [Source:RefSeq_peptide;Acc:NP_495741]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, pyridoxal phosphate binding, amino acid binding, L-threonine ammonia-lyase activity, 
K01C8.2	K01C8.2	K01C8.2 [Source:RefSeq_peptide;Acc:NP_495742]	embryonic development ending in birth or egg hatching, 		
tdc-1	K01C8.3	Tyrosin DeCarboxylase family member (tdc-1) [Source:RefSeq_peptide;Acc:NP_495743]	amino acid and derivative metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, 
gei-14	K01C8.5	gei-14 encodes a novel protein that interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
K01C8.7	K01C8.7	K01C8.7 [Source:RefSeq_peptide;Acc:NP_495746]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
K01C8.6	K01C8.6	K01C8.6 [Source:RefSeq_peptide;Acc:NP_495747]	embryonic development ending in birth or egg hatching, 		
K01C8.8	K01C8.8	K01C8.8 [Source:RefSeq_peptide;Acc:NP_495748]			sugar binding, 
nst-1	K01C8.9	nst-1 encodes a homolog of human GNL3 (OMIM:608011, nucleostemin) and GNL3L, and of S. cerevisiae NUG1. NST-1 may suppress tumorous growth in the germline. like PRO-1, -2, and -3, NST-1 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. nucleostemin is a nucleolar protein found in stem cells that is required in quantitatively correct amounts (neither too little nor too much) for continued cell division and survival by stem cells or transformed cells. NST-1 is required in mass RNAi assays for normally rapid growth, larval viability, and normal body morphology and pigmentation. [Source: WormBase]	growth, regulation of cell proliferation, 	intracellular, nucleus, nucleolus, 	protein binding, GTP binding, 
cct-4	K01C8.10	cct-4 encodes a putative T complex chaperonin that affects fertility and body morphology and intergrity. expressed in touch receptor neurons. [Source: WormBase]	protein folding, cellular protein metabolic process, embryonic development ending in birth or egg hatching, post-embryonic body morphogenesis, 	cellular_component, 	ATP binding, protein binding, unfolded protein binding, 
Y1E3A.1	Y1E3A.1				
F14F11.2	F14F11.2	F14F11.2 [Source:RefSeq_peptide;Acc:NP_495751]	positive regulation of growth rate, 		
F14F11.1	F14F11.1	F14F11.1h [Source:RefSeq_peptide;Acc:NP_001022089]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
ran-3	C26D10.1	Regulator of chromosome condensation (Cell cycle regulatory protein) (RCC1 homolog). [Source:Uniprot/SWISSPROT;Acc:Q18211]	positive regulation of growth rate, 		
C26D10.3	C26D10.3	C26D10.3 [Source:RefSeq_peptide;Acc:NP_495754]	electron transport, biological_process, 		oxidoreductase activity, 
hel-1	C26D10.2	hel-1 encodes an ortholog of human 56-kD U2AF65 associated protein (UAP56) that is required for exporting mRNAs from the nucleus. unlike animals with RNAi against several other splicing factors, hel-1(RNAi) animals fail to export transgenic GFP mRNA from the nucleus. conversely, hel-1 overexpression is lethal, with failed transgene expression as well. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C26D10.4	C26D10.4	C26D10.4 [Source:RefSeq_peptide;Acc:NP_495756]	metabolic process, phosphorylation, 	cytoplasm, 	ATP binding, phosphotransferase activity, alcohol group as acceptor, kinase activity, 
C26D10.7	C26D10.7	C26D10.7 encodes a close paralog of EFF-1 (with 89% identity at the amino acid level) and a much more distant paralog of AFF-1 (with 27% identity) . however, C26D10.7 has no known function, in mass RNAi assays or otherwise. [Source: WormBase]			
eff-1	C26D10.5	eff-1 encodes a novel, type I transmembrane glycoprotein that is required for the initiation and expansion of membrane mergers that characterize epithelial cell fusions during development. eff-1(hy21) mutants are viable, but have severe body morphology defects associated with cell fusion failure. [Source: WormBase]	phospholipid metabolic process, lipid catabolic process, embryonic development ending in birth or egg hatching, plasma membrane fusion, 		phospholipase A2 activity, 
C26D10.6	C26D10.6	C26D10.6a [Source:RefSeq_peptide;Acc:NP_001021991]			
col-77	M195.1	col-77 encodes a cuticular collagen. as loss of col-77 activity via RNAi screens results in no obvious defects, the precise role of col-77 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
M195.2	M195.2	M195.2 [Source:RefSeq_peptide;Acc:NP_495760]	embryonic development ending in birth or egg hatching, 		
amt-3	M195.3	amt-3 encodes one of four C. elegans homologs of AMT1 (AT11_ARATH), a high-affinity ammonium transporter from Arabidopsis thaliana. AMT-3 is closely similar to its paralog AMT-2, with somewhat more distant paralogy to AMT-1 and AMT-4. [Source: WormBase]	transport, 	membrane, 	ammonium transmembrane transporter activity, 
M195.4	M195.4	M195.4 [Source:RefSeq_peptide;Acc:NP_495762]			
F49E12.12	F49E12.12	F49E12.12 [Source:RefSeq_peptide;Acc:NP_001022185]			protein domain specific binding, 
F49E12.9	F49E12.9	F49E12.9 [Source:RefSeq_peptide;Acc:NP_495763]	metabolic process, 		catalytic activity, 
F49E12.10	F49E12.10	F49E12.10 [Source:RefSeq_peptide;Acc:NP_495764]	metabolic process, 		catalytic activity, 
F49E12.8	F49E12.8	F49E12.8 [Source:RefSeq_peptide;Acc:NP_495765]			
F49E12.7	F49E12.7	F49E12.7 [Source:RefSeq_peptide;Acc:NP_495766]			
dod-23	F49E12.2	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-23) [Source:RefSeq_peptide;Acc:NP_495767]	determination of adult life span, 		
F49E12.1	F49E12.1	F49E12.1 [Source:RefSeq_peptide;Acc:NP_495768]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
ubc-24	F49E12.4	ubc-24 encodes a predicted conjugating enzyme (UBCs/E2s) of the ubiquitin-conjugation system. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
sra-13	F49E12.5	Serpentine receptor class alpha-13 (Protein sra-13). [Source:Uniprot/SWISSPROT;Acc:Q20618]	sensory perception of chemical stimulus, negative regulation of vulval development, negative regulation of Ras protein signal transduction, negative regulation of response to food, detection of chemical stimulus during sensory perception of smell, 	membrane, integral to membrane, 	transmembrane receptor activity, olfactory receptor activity, 
F49E12.6	F49E12.6	The F49E12.6 gene encodes a protein with two E2F domains that may be involved in apoptosis. [Source: WormBase]	DNA repair, regulation of transcription, DNA-dependent, 	transcription factor complex, 	transcription factor activity, 
F14E5.1	F14E5.1	F14E5.1 [Source:RefSeq_peptide;Acc:NP_495772]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, GABA-B receptor activity, 
F14E5.2	F14E5.2	Golgi apparatus protein 1 homolog precursor. [Source:Uniprot/SWISSPROT;Acc:Q19459]		membrane, 	fibroblast growth factor binding, 
F14E5.4	F14E5.4	F14E5.4 [Source:RefSeq_peptide;Acc:NP_495774]			acid phosphatase activity, 
F14E5.6	F14E5.6	F14E5.6 [Source:RefSeq_peptide;Acc:NP_495775]			acid phosphatase activity, 
F14E5.3	F14E5.3	F14E5.3 [Source:RefSeq_peptide;Acc:NP_495776]			acid phosphatase activity, 
F14E5.5	F14E5.5	F14E5.5 [Source:RefSeq_peptide;Acc:NP_495777]	lipid catabolic process, embryonic development ending in birth or egg hatching, 		lipase activity, 
eif-3.G	F22B5.2	eif-3.G encodes a homolog of eukaryotic translation initiation factor 3, subunit 4 that affects embryonic viability, fertility, and growth. [Source: WormBase]	positive regulation of growth rate, 		nucleotide binding, RNA binding, zinc ion binding, nucleic acid binding, 
evl-20	F22B5.1	evl-20 encodes a functional ortholog of human ADP-ribosylation factor-like protein 2 (ARL2. OMIM:601175), with evl-20(ar103) mutants being rescued by transgenic human ARL2 but not ARL1 or ARL3-7. EVL-20 is required for cortical microtubule formation during cytokinesis and morphogenesis. EVL-20 is required for vulval, gonadal, and male tail development, as well as for embryonic mitosis, hypodermal enclosure, and elongation. EVL-20 is expressed in migrating hypodermal embryonic cells, larval vulval and somatic gonad cells, larval and adult neurons, and adult male proctodeal cells, being subcellularly associated with both the cell cortex and astral microtubules. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, embryonic development, cytokinesis, female genitalia development, 	intracellular, plasma membrane, centrosome, 	GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, 
cut-3	F22B5.3	F22B5.3 [Source:RefSeq_peptide;Acc:NP_495780]	positive regulation of multicellular organism growth, 		
F22B5.4	F22B5.4	F22B5.4 [Source:RefSeq_peptide;Acc:NP_495781]			
F22B5.5	F22B5.5	F22B5.5 [Source:RefSeq_peptide;Acc:NP_495782]			
F22B5.6	F22B5.6	F22B5.6 [Source:RefSeq_peptide;Acc:NP_495783]			
zyg-9	F22B5.7	zyg-9 encodes a predicted microtubule-association protein (MAP) of the XMAP215 family. during early embryonic development, maternal zyg-9 activity is required for microtubule-dependent processes such as meiotic and mitotic spindle organization and pronuclear migration. further, zyg-9 is essential for formation of long astral microtubules. ZYG-9 is required for centrosomal localization of TAC-1, the sole C. elegans TACC family member, with which it interacts, and mutually stabilizes, in vivo. in early embryos, ZYG-9 localizes to the meiotic spindle and spindle poles, as well as to mitotic centrosomes. during metaphase and anaphase ZYG-9 localizes to the central spindle region, and during interphase ZYG-9 is cytoplasmic. proper localization of ZYG-9 to the meiotic spindle is dependent upon wild-type activity of MEI-1, an ATPase essential for meiotic spindle formation, while proper localization of ZYG-9 to centrosomes is dependent, at least in part, upon TAC-1. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
frs-2	F22B5.9	Phenylalanyl-tRNA synthetase beta chain (EC 6.1.1.20) (Phenylalanine-- tRNA ligase beta chain) (PheRS). [Source:Uniprot/SWISSPROT;Acc:Q19713]	translation, phenylalanyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, phenylalanine-tRNA ligase activity, 
F22B5.10	F22B5.10	F22B5.10 [Source:RefSeq_peptide;Acc:NP_495786]			
M05D6.2	M05D6.2	M05D6.2 [Source:RefSeq_peptide;Acc:NP_495787]			
M05D6.8	M05D6.8	M05D6.8 [Source:RefSeq_peptide;Acc:NP_001022253]			
M05D6.10	M05D6.10				
M05D6.1	M05D6.1	M05D6.1 [Source:RefSeq_peptide;Acc:NP_495788]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M05D6.3	M05D6.3	M05D6.3 [Source:RefSeq_peptide;Acc:NP_495789]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
lact-4	M05D6.4	M05D6.4 [Source:RefSeq_peptide;Acc:NP_495790]	ciliary or flagellar motility, beta-lactam antibiotic catabolic process, response to antibiotic, 	outer membrane-bounded periplasmic space, flagellin-based flagellum basal body, distal rod, P ring, 	structural molecule activity, beta-lactamase activity, 
M05D6.5	M05D6.5	M05D6.5 [Source:RefSeq_peptide;Acc:NP_495791]			
M05D6.6	M05D6.6	M05D6.6 [Source:RefSeq_peptide;Acc:NP_495792]			
gbh-2	M05D6.7	gbh-2 encodes an ortholog of human gamma butyrobetaine hydroxilase 2 involved in carnitine biosynthesis. RNA interference of gbh-2 results in malformation of the gonad and accumulation of fat in the pseudocoelomic cavity and in intestinal cells. the GBH-2-GFP fusion protein is predominantly expressed in intestinal cells from early embryogenesis. [Source: WormBase]	electron transport, carnitine biosynthetic process, 	mitochondrion, 	iron ion binding, oxidoreductase activity, L-ascorbic acid binding, trimethyllysine dioxygenase activity, 
T13H5.1	T13H5.1	T13H5.1a [Source:RefSeq_peptide;Acc:NP_001022346]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
M05D6.9	M05D6.9	M05D6.9 [Source:RefSeq_peptide;Acc:NP_001022254]			
ctg-2	T13H5.2	CRAL/TRIO and GOLD domain containing family member (ctg-2) [Source:RefSeq_peptide;Acc:NP_495795]	transport, 	integral to membrane, intracellular, 	transporter activity, 
rnh-2	T13H5.7	Ribonuclease H2 subunit A (EC 3.1.26.4) (RNase H2 subunit A) (Ribonuclease HI subunit A) (Ribonuclease HI large subunit) (RNase HI large subunit) (RNase H(35)). [Source:Uniprot/SWISSPROT;Acc:Q9U6P6]	RNA metabolic process, 		RNA binding, ribonuclease H activity, 
T13H5.8	T13H5.8	T13H5.8 is the closest C. elegans homolog of the human gene CRR9, which promotes cisplatin-induced apoptosis in ovarian cancer cells, and of CLPTM1, a human gene associated with cleft lip and palate. [Source: WormBase]			
T13H5.3	T13H5.3	T13H5.3 [Source:RefSeq_peptide;Acc:NP_495798]	carbohydrate metabolic process, chitin catabolic process, 		chitin binding, chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
T13H5.4	T13H5.4	T13H5.4 [Source:RefSeq_peptide;Acc:NP_495799]	embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
T13H5.5	T13H5.5	T13H5.5 [Source:RefSeq_peptide;Acc:NP_495800]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
T13H5.6	T13H5.6	T13H5.6 [Source:RefSeq_peptide;Acc:NP_495801]	growth, 		
W01C9.1	W01C9.1	W01C9.1 [Source:RefSeq_peptide;Acc:NP_495802]			
W01C9.2	W01C9.2	W01C9.2 [Source:RefSeq_peptide;Acc:NP_495803]			
pqn-73	W01C9.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
W01C9.4	W01C9.4	Uncharacterized oxidoreductase W01C9.4 (EC 1.-.-.-). [Source:Uniprot/SWISSPROT;Acc:Q23116]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
NR_003418.1	W01C9.6	W01C9.6, snoRNA [Source:RefSeq_dna;Acc:NR_003418]			
W01C9.5	W01C9.5	W01C9.5 [Source:RefSeq_peptide;Acc:NP_495806]			iron ion binding, 
iff-2	F54C9.1	Eukaryotic translation initiation factor 5A-2 (eIF-5A-2) (Initiation factor five protein 2). [Source:Uniprot/SWISSPROT;Acc:Q20751]	translational initiation, growth, 		translation initiation factor activity, 
NR_003409.1	F54C9.12	F54C9.12, snoRNA [Source:RefSeq_dna;Acc:NR_003409]			
stc-1	F54C9.2	STCH (truncated HSP) family member (stc-1) [Source:RefSeq_peptide;Acc:NP_495808]	biological_process, 		ATP binding, 
F54C9.3	F54C9.3	F54C9.3 [Source:RefSeq_peptide;Acc:NP_495809]			
col-38	F54C9.4	col-38 encodes a member of the collagen superfamily containing collagen triple helix repeats (20 copies) required for normal body morphology. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
rpl-5	F54C9.5	rpl-5 encodes a large ribosomal subunit L5 protein. by homology, RPL-5 is predicted to function in protein biosynthesis. in C. elegans RPL-5 activity is broadly required for embryonic, larval, germline, and vulval development, as well as normal body coloration, morphology, and postembryonic growth rates. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 5S rRNA binding, 
F54C9.6	F54C9.6	F54C9.6 encodes a protein orthologous to the human mitochondrial protein BCS1 (YEAST HOMOLOG)-LIKE (BCS1L. OMIM:603647). mutation of BCS1L leads to neonatal tubulopathy, encephalopathy, and liver failure, or to GRACILE syndrome. [Source: WormBase]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F54C9.7	F54C9.7	F54C9.7 [Source:RefSeq_peptide;Acc:NP_495813]			
puf-5	F54C9.8	PUF (Pumilio/FBF) domain-containing family member (puf-5) [Source:RefSeq_peptide;Acc:NP_495814]			RNA binding, binding, 
F54C9.9	F54C9.9	F54C9.9 [Source:RefSeq_peptide;Acc:NP_495815]	biological_process, 		
arl-1	F54C9.10	arl-1 encodes a member of the GTP-binding ADP-ribosylation factor family. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
F54C9.11	F54C9.11	F54C9.11 [Source:RefSeq_peptide;Acc:NP_495817]	cell adhesion, pathogenesis, 	outer membrane, 	protein binding, collagen binding, 
F28C6.1	F28C6.1	F28C6.1 encodes an AP-2-like transcription factor that is ~60% identical to that of F28C6.2 which lies immediately adjacent to F28C6.1 on chromosome II. loss of F28C6.1 activity via large-scale RNAi experiments results in embryonic and larval lethality. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		transcription factor activity, 
F28C6.2	F28C6.2	F28C6.2 encodes an AP-2-like transcription factor that is ~60% identical to that of F28C6.1, which lies adjacent to F28C6.1 on chromosome II. loss of F28C6.2 activity via large-scale RNAi results in some embryonic lethality and low levels of larval arrest, body morphology defects, and uncoordinated locomotion. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, transcription factor activity, 
F28C6.4	F28C6.4	F28C6.4a [Source:RefSeq_peptide;Acc:NP_001022123]	metabolic process, nucleotide metabolic process, 		hydrolase activity, 
F28C6.5	F28C6.5	F28C6.5 [Source:RefSeq_peptide;Acc:NP_495821]	embryonic development, 		
cpf-1	F28C6.3	Cleavage and Polyadenylation Factor family member (cpf-1) [Source:RefSeq_peptide;Acc:NP_495822]	morphogenesis of an epithelium, 		
rpl-26	F28C6.7	rpl-26 encodes a large ribosomal subunit L26 protein. by homology, RPL-26 is predicted to function in protein biosynthesis. in C. elegans, RPL-26 activity is required for embryonic and germline development and normal rates of postembryonic growth. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, large ribosomal subunit, 	structural constituent of ribosome, 
NR_003407.1	F28C6.11	F28C6.11, snoRNA [Source:RefSeq_dna;Acc:NR_003407]			
suf-1	F28C6.6	SUppressor-of-Forked (Drosophila) homolog family member (suf-1) [Source:RefSeq_peptide;Acc:NP_495825]	RNA processing, mRNA processing, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	
F28C6.8	F28C6.8	F28C6.8 [Source:RefSeq_peptide;Acc:NP_495826]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F28C6.10	F28C6.10	F28C6.10 [Source:RefSeq_peptide;Acc:NP_495827]			
F28C6.9	F28C6.9	F28C6.9 [Source:RefSeq_peptide;Acc:NP_495828]	embryonic development ending in birth or egg hatching, 		
T22C8.1	T22C8.1	T22C8.1 [Source:RefSeq_peptide;Acc:NP_495829]			
T22C8.2	T22C8.2	T22C8.2 [Source:RefSeq_peptide;Acc:NP_495830]	carbohydrate metabolic process, defense response, 		catalytic activity, hyalurononglucosaminidase activity, 
T22C8.3	T22C8.3	T22C8.3 [Source:RefSeq_peptide;Acc:NP_495831]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
T22C8.4	T22C8.4	T22C8.4 [Source:RefSeq_peptide;Acc:NP_495832]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
sptf-2	T22C8.5	Specificity Protein) Transcription Factor family member (sptf-2) [Source:RefSeq_peptide;Acc:NP_495833]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
T22C8.6	T22C8.6	T22C8.6 [Source:RefSeq_peptide;Acc:NP_495834]			
T22C8.7	T22C8.7	T22C8.7 [Source:RefSeq_peptide;Acc:NP_495835]			
T22C8.t1	T22C8.t1				
vab-9	T22C8.8	vab-9 encodes a claudin homolog orthologous to human brain cell membrane protein 1 (BCMP1) and Drosophila CG6982. VAB-9 colocalizes with HMP-1 to an apical layer of the adherens junctions of all epithelial cells, one layer more apically than AJM-1. vab-9 mutants have disorganized F-actin at the adherens junction, implying that VAB-9 links junctions to circumferential actin filaments. VAB-9 is also expressed in the nerve ring. VAB-9 requires the cadherin HMR-1 to localize to the cell membrane, and both alpha-catenin (HMP-1) and beta-catenin (HMP-2) to remain at the cell junction after membrane localization. [Source: WormBase]	defense response, 		
D2085.7	D2085.7	D2085.7 [Source:RefSeq_peptide;Acc:NP_495837]			
pyr-1	D2085.1	pyr-1 is orthologous to the human gene CARBAMYL PHOSPHATE SYNTHETASE I (CPS1, which when mutated leads to hyperammonemia (OMIM:237300). PYR-1 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	metabolic process, amino acid metabolic process, biosynthetic process, nitrogen compound metabolic process, arginine biosynthetic process, 'de novo' pyrimidine base biosynthetic process, glutamine metabolic process, pyrimidine base biosynthetic process, positive regulation of growth rate, 	cytoplasm, ornithine carbamoyltransferase complex, 	ATP binding, catalytic activity, hydrolase activity, amino acid binding, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amides, ligase activity, carboxyl- or carbamoyltransferase activity, aspartate carbamoyltransferase activity, carbamoyl-phosphate synthase activity, ornithine carbamoyltransferase activity, 
D2085.2	D2085.2	D2085.2 [Source:RefSeq_peptide;Acc:NP_495839]			
D2085.6	D2085.6	D2085.6 is orthologous to the human gene CLASS A GLCNAC-INOSITOL PHOSPHOLIPID ASSEMBLY PROTEIN (PIGA. OMIM:311770), which when mutated leads to paroxysmal nocturnal hemoglobinuria. [Source: WormBase]	biosynthetic process, chromosome segregation, 		
D2085.3	D2085.3	D2085.3 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:9947) (EIF2B5. OMIM:603945), which when mutated leads to disease. [Source: WormBase]	regulation of translational initiation, embryonic development ending in birth or egg hatching, 		acyltransferase activity, translation initiation factor activity, 
D2085.4	D2085.4	D2085.4 [Source:RefSeq_peptide;Acc:NP_495842]	protein modification process, ubiquitin cycle, reproduction, 	intracellular, 	ubiquitin-protein ligase activity, 
D2085.5	D2085.5	D2085.5b [Source:RefSeq_peptide;Acc:NP_001022055]	metabolic process, 		transaminase activity, 
C34C6.2	C34C6.2	C34C6.2 [Source:RefSeq_peptide;Acc:NP_495844]			
C34C6.3	C34C6.3	C34C6.3 [Source:RefSeq_peptide;Acc:NP_495845]			metal ion binding, catalytic activity, 
C34C6.4	C34C6.4	C34C6.4 [Source:RefSeq_peptide;Acc:NP_495846]	electron transport, reproduction, 		oxidoreductase activity, FAD binding, oxidoreductase activity, acting on CH-OH group of donors, 
tag-274	C34C6.5	Temporarily Assigned Gene name family member (tag-274) [Source:RefSeq_peptide;Acc:NP_001022018]	protein kinase C activation, 		diacylglycerol kinase activity, 
ceh-7	C34C6.8	ceh-7 encodes a homeodomain transcription factor. expressed in cells around the rectum of the male tail. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
prx-5	C34C6.6	prx-5 encodes an ortholog of the human receptor for type I peroxisomal targeting signal protein, PXR1 (or PEX5. OMIM:600414), which when mutated leads to neonatal adrenoleukodystrophy or Zellweger syndrome. PXR1 protein is a component of the peroxisomal import machinery known to exist in organisms like yeast, plants and mammals. [Source: WormBase]	nematode larval development, growth, 		protein binding, binding, 
C34C6.7	C34C6.7	C34C6.7 [Source:RefSeq_peptide;Acc:NP_495850]			protein binding, 
srg-15	C34C6.1	Serpentine receptor class gamma-15 (Protein srg-15). [Source:Uniprot/SWISSPROT;Acc:Q18428]	signal transduction, 	membrane, 	transmembrane receptor activity, 
T01B7.1	T01B7.1				
srg-18	T01B7.2				
rab-21	T01B7.3	RAB family member (rab-21) [Source:RefSeq_peptide;Acc:NP_495854]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
cyn-11	T01B7.4	cyn-11 encodes a divergent cyclophilin D isoform, with alterations in the normally well-conserved cyclophilin-binding domain, and a central 7-8 residue insert not usually found in cyclophilins, except from plants. CYN-11 has sluggish but detectable peptidyl-prolyl isomerase activity in vitro, suggesting that it has a specialized substrate in vivo. CYN-11 is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
T01B7.5	T01B7.5	T01B7.5a [Source:RefSeq_peptide;Acc:NP_001022291]	regulation of transcription, DNA-dependent, rRNA processing, positive regulation of growth rate, 	nucleus, small subunit processome, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
T01B7.6	T01B7.6	T01B7.6 [Source:RefSeq_peptide;Acc:NP_495857]	embryonic development ending in birth or egg hatching, 		
T01B7.9	T01B7.9	T01B7.9 [Source:RefSeq_peptide;Acc:NP_001022293]			
rol-6	T01B7.7	The rol-6 gene encodes a cuticle collagen related to human collagen alpha 1 (III) chain precursor (OMIM:120180), and is required for normal cuticular morphology. ROL-6 interacts with SQT-1, a closely related cuticle collagen, and is expressed at all stages from L2 to adult with transcripts detected at each of the molts preceding these stages. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
T01B7.8	T01B7.8	T01B7.8 [Source:RefSeq_peptide;Acc:NP_495859]	defense response, 	extracellular region, 	protein binding, metal ion binding, 
K08F8.1	K08F8.1	K08F8.1a [Source:RefSeq_peptide;Acc:NP_495860]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
atf-2	K08F8.2	ATF (cAMP-dependent transciption factor) family member (atf-2) [Source:RefSeq_peptide;Acc:NP_495861]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
K08F8.7	K08F8.7	K08F8.7 [Source:RefSeq_peptide;Acc:NP_001022242]	transport, 	membrane, 	transporter activity, 
fut-1	K08F8.3	fut-1 encodes a functional fucosyl transferase. evidence from biophysical experiments indicates that FUT-1 is a golgi-localized glycosyltransferase. [Source: WormBase]	translation, protein amino acid glycosylation, 	membrane, Golgi membrane, 	ATP binding, aminoacyl-tRNA ligase activity, fucosyltransferase activity, 
pah-1	K08F8.4	pah-1 encodes a biochemically active phenylalanine-4-hydroxylase orthologous to human PAH (OMIM:261600. mutated in phenylketonuria). recombinant PAH-1 has hydroxylase activity on phenylalanine and tryptophan substrates in vitro. pah-1 is expressed in seam cells, tail hypodermal cells, and ventral hypodermis, with stronger posterior than anterior expression. PAH-1 might help provide tyrosine for cross-linking in the cuticle. [Source: WormBase]	metabolic process, aromatic amino acid family metabolic process, L-phenylalanine catabolic process, embryonic development ending in birth or egg hatching, 		iron ion binding, protein binding, monooxygenase activity, amino acid binding, phenylalanine 4-monooxygenase activity, 
K08F8.5	K08F8.5	K08F8.5b [Source:RefSeq_peptide;Acc:NP_495864]	reproduction, 		
let-19	K08F8.6	The let-19 gene encodes a protein related to human TRAP240 (thyroid hormone receptor-associated protein 240, OMIM:300182), a transcriptional co-activation complex subunit conserved in yeast, Drosophila, and humans. LET-19 is required for proper asymmetric cell divisions and cell fusions regulated by LIN-44/Wnt and LIN-17/frizzled, as well as for proper development of secondary vulval cell fates as regulated by Notch signaling. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	
sgn-1	F07H5.2	F07H5.2 [Source:RefSeq_peptide;Acc:NP_495867]	cytoskeleton organization and biogenesis, negative regulation of locomotion, 	integral to membrane, sarcoglycan complex, 	protein binding, 
F07H5.3	F07H5.3				
F07H5.4	F07H5.4				
F07H5.5	F07H5.5				
F07H5.13	F07H5.13	F07H5.13 [Source:RefSeq_peptide;Acc:NP_495870]			
F07H5.6	F07H5.6	F07H5.6 [Source:RefSeq_peptide;Acc:NP_495871]			
F07H5.7	F07H5.7	F07H5.7 [Source:RefSeq_peptide;Acc:NP_495872]			
F07H5.8	F07H5.8	F07H5.8 [Source:RefSeq_peptide;Acc:NP_495874]			
F07H5.9	F07H5.9	F07H5.9 [Source:RefSeq_peptide;Acc:NP_495875]			acid phosphatase activity, 
F07H5.10	F07H5.10	F07H5.10 [Source:RefSeq_peptide;Acc:NP_495876]			
F46C5.9	F46C5.9	F46C5.9 [Source:RefSeq_peptide;Acc:NP_495877]			protein binding, 
rer-1	F46C5.8	Uncharacterized protein F46C5.8. [Source:Uniprot/SWISSPROT;Acc:P52879]		integral to membrane, 	
F46C5.10	F46C5.10	F46C5.10 [Source:RefSeq_peptide;Acc:NP_871958]			
F46C5.1	F46C5.1	Uncharacterized protein F46C5.1. [Source:Uniprot/SWISSPROT;Acc:P52880]			
nas-25	F46C5.3	Zinc metalloproteinase nas-25 precursor (EC 3.4.24.21) (Nematode astacin 25). [Source:Uniprot/SWISSPROT;Acc:Q20459]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F46C5.2	F46C5.2	Uncharacterized protein F46C5.2. [Source:Uniprot/SWISSPROT;Acc:P52881]			
F46C5.4	F46C5.4	Uncharacterized protein F46C5.4. [Source:Uniprot/SWISSPROT;Acc:P52882]			
F46C5.7	F46C5.7	Uncharacterized protein F46C5.7. [Source:Uniprot/SWISSPROT;Acc:P52883]			
F46C5.6	F46C5.6	F46C5.6 [Source:RefSeq_peptide;Acc:NP_495884]	sodium ion transport, regulation of pH, 	integral to membrane, 	binding, sodium:hydrogen antiporter activity, 
T14D7.1	T14D7.1	T14D7.1 is orthologous to the human gene ALANINE-GLYOXYLATE AMINOTRANSFERASE HOMOLOG (AGXT. OMIM:604285), which when mutated leads to disease. [Source: WormBase]	metabolic process, 		transaminase activity, 
T14D7.2	T14D7.2	T14D7.2 [Source:RefSeq_peptide;Acc:NP_495886]	locomotory behavior, 		transferase activity, transferring groups other than amino-acyl groups, 
tag-212	T14D7.3	Temporarily Assigned Gene name family member (tag-212) [Source:RefSeq_peptide;Acc:NP_495887]	vesicle-mediated transport, 	integral to membrane, 	
T07D4.1	T07D4.1	T07D4.1 [Source:RefSeq_peptide;Acc:NP_495888]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T07D4.2	T07D4.2	UPF0046 protein T07D4.2. [Source:Uniprot/SWISSPROT;Acc:Q22306]			protein binding, hydrolase activity, 
rha-1	T07D4.3	rha-1 encodes an ATP-dependent DEAD/H box RNA helicase orthologous to human RNA helicase A and Drosophila Maleless, an essential component of the dosage compensation machinery required for increased X-linked transcription in males. by homology, RHA-1 is predicted to function in regulation of transcription, translation, RNA processing, and/or RNA replication. in C. elegans, RHA-1 is required for germ cell proliferation, normal germ cell nuclear morphology, RNA-mediated interference (RNAi) of germline-expressed genes, and silencing of germline-expressed transgenes. RHA-1 is reported to localize to the nucleus and the cytoplasm. [Source: WormBase]	negative regulation of gene expression, epigenetic, 	intracellular, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, double-stranded RNA binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
T07D4.5	T07D4.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYR6]			
T07D4.4	T07D4.4	T07D4.4b [Source:RefSeq_peptide;Acc:NP_495892]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
lat-1	B0457.1	lat-1 encodes a predicted latrophilin that affects embryonic elongation, pharyngeal development, and reproductive organ formation. apically localized in developing epithelia and localized to presynaptic surfaces in neurons. [Source: WormBase]	neuropeptide signaling pathway, embryonic development, defecation, 	membrane, 	G-protein coupled receptor activity, sugar binding, latrotoxin receptor activity, brain-specific angiogenesis inhibitor activity, 
B0457.3	B0457.3				
B0457.4	B0457.4	B0457.4 [Source:RefSeq_peptide;Acc:NP_495896]			
B0457.6	B0457.6	B0457.6 [Source:RefSeq_peptide;Acc:NP_001021898]			
B0457.2	B0457.2	B0457.2 [Source:RefSeq_peptide;Acc:NP_495897]			
T21B10.7	T21B10.7	T-complex protein 1 subunit beta (TCP-1-beta) (CCT-beta). [Source:Uniprot/SWISSPROT;Acc:P47207]	protein folding, cellular protein metabolic process, embryonic development ending in birth or egg hatching, 		ATP binding, protein binding, unfolded protein binding, 
T21B10.1	T21B10.1	T21B10.1 [Source:RefSeq_peptide;Acc:NP_495899]	positive regulation of growth rate, 		
enol-1	T21B10.2	T21B10.2 is orthologous to human ENOLASE 1 (also CRYSTALLIN, TAU. ENO1. OMIM:172430), which when mutated leads to spherocytic red cell enolase deficiency. [Source: WormBase]	glycolysis, positive regulation of growth rate, 	phosphopyruvate hydratase complex, 	phosphopyruvate hydratase activity, 
T21B10.3	T21B10.3	T21B10.3 [Source:RefSeq_peptide;Acc:NP_495901]	embryonic development ending in birth or egg hatching, 		
set-17	T21B10.5	T21B10.5 [Source:RefSeq_peptide;Acc:NP_495902]		nucleus, 	
T21B10.4	T21B10.4	T21B10.4 [Source:RefSeq_peptide;Acc:NP_495903]			
T21B10.6	T21B10.6	T21B10.6 [Source:RefSeq_peptide;Acc:NP_495904]			
C18E9.10	C18E9.10	C18E9.10 [Source:RefSeq_peptide;Acc:NP_495905]	positive regulation of growth rate, 		
cal-2	C18E9.1	cal-2 encodes a calmodulin homolog required for embryonic development or viability. CAL-2 is closely similar to its paralogs CAL-1, CAL-3, CAL-4 and CMD-1. [Source: WormBase]	ciliary or flagellar motility, embryonic development ending in birth or egg hatching, 	flagellin-based flagellum, 	calcium ion binding, 
C18E9.4	C18E9.4	C18E9.4 encodes the C. elegans ortholog of the NDUFB3/B12 subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	positive regulation of growth rate, 		NADH dehydrogenase activity, 
C18E9.2	C18E9.2	C18E9.2 [Source:RefSeq_peptide;Acc:NP_495908]	protein transport, 	integral to membrane, 	protein transporter activity, 
pqn-14	C18E9.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	growth, 		
C18E9.5	C18E9.5	C18E9.5 [Source:RefSeq_peptide;Acc:NP_495911]			
C18E9.6	C18E9.6	Probable mitochondrial import receptor subunit TOM40 homolog (Translocase of outer membrane 40 kDa subunit homolog). [Source:Uniprot/SWISSPROT;Acc:Q18090]	anion transport, positive regulation of growth rate, 	mitochondrial outer membrane, 	voltage-gated ion-selective channel activity, 
C18E9.7	C18E9.7	C18E9.7 [Source:RefSeq_peptide;Acc:NP_495913]			
C18E9.8	C18E9.8	C18E9.8 is orthologous to the human gene JOINED TO JAZF1 (JJAZ1. OMIM:606245), which when mutated leads to disease. [Source: WormBase]			
C18E9.9	C18E9.9	C18E9.9 [Source:RefSeq_peptide;Acc:NP_495915]			protein binding, 
ooc-5	C18E9.11	Torsin-like protein precursor (Abnormal oocyte formation protein 5). [Source:Uniprot/SWISSPROT;Acc:Q95NU5]	chaperone cofactor-dependent protein folding, 	endoplasmic reticulum, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F44G4.1	F44G4.1	Brix domain-containing protein F44G4.1. [Source:Uniprot/SWISSPROT;Acc:P54073]	immune response, positive regulation of growth rate, antigen processing and presentation, 	membrane, 	
F44G4.2	F44G4.2	Probable NADH dehydrogenase [ubiquinone] 1 beta subcomplex subunit 2, mitochondrial precursor (EC 1.6.5.3) (EC 1.6.99.3). [Source:Uniprot/SWISSPROT;Acc:Q20412]	immune response, embryonic development ending in birth or egg hatching, antigen processing and presentation, 	membrane, 	
F44G4.3	F44G4.3	F44G4.3 [Source:RefSeq_peptide;Acc:NP_495920]			
tag-169	F44G4.4	Temporarily Assigned Gene name family member (tag-169) [Source:RefSeq_peptide;Acc:NP_001022166]			nucleotide binding, protein binding, nucleic acid binding, identical protein binding, 
F44G4.5	F44G4.5	F44G4.5 [Source:RefSeq_peptide;Acc:NP_495922]			
F44G4.6	F44G4.6	F44G4.6 [Source:RefSeq_peptide;Acc:NP_495923]			
F44G4.7	F44G4.7	F44G4.7 [Source:RefSeq_peptide;Acc:NP_495924]			
dep-1	F44G4.8	dep-1 encodes a class III receptor protein tyrosine phosphatase (R-PTP) orthologous to human R-PTPs such as PTPRJ/Dep-1 (mutated in epithelial cancers. OMIM:600925). DEP-1 is required, redundantly with LIP-1 and LET-60, and downstream of LIN-12, to promote secondary over primary vulval fate in the P5.p and P7.p lineages. DEP-1 is expressed in P5.p and P7.p lineages, and dep-1 acts cell-autonomously in these lineages. DEP-1 colocalizes with LET-23 in punctae, and binds LET-23 in vitro. DEP-1, with LIP-1, is also required for normal duct cell and excretory pore development. dep-1 mutations are wild-type in isolation, but have vulval phenotypes with added mutations in lin-15, lip-1, or let-60. DEP-1 laterally inhibits secondary vulval fates in parallel with LIN-12/Notch signalling. in primary (P5.p) vulval cells, LET-60/RAS-activated SUR-2 inhibits dep-1 and lin-12 expression. since RNAi of 125 out of 165 predicted C. elegans protein phosphatase genes fails to enhance lip-1 mutations, the LIP-1/DEP-1 interaction is likely to be highly specific. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F37B12.1	F37B12.1	F37B12.1 [Source:RefSeq_peptide;Acc:NP_495926]	morphogenesis of an epithelium, 		
F37B12.5	F37B12.5				
gcs-1	F37B12.2	gcs-1 encodes the C. elegans ortholog of gamma-glutamine cysteine synthetase heavy chain (GCS(h)). GCS-1 is predicted to function, in a conserved oxidative stress response pathway, as a phase II detoxification enzyme that catalyzes the rate-limiting first step in glutathione biosynthesis. a GCS-1::GFP reporter fusion is expressed in larvae and adults in the pharynx, ASI chemosensory neurons, and anterior and posterior intestine and upon exposure to oxidative stress, such as heat or herbicide, the intestinal expression increases dramatically. constitutive and stress-inducible GCS-1::GFP expression in the ASI neurons and intestine, respectively, is under the control of the SKN-1 CNC transcription factor. loss of gcs-1 activity via RNAi results in a low percentage of larval lethality and intestinal abnormalities suggesting that gcs-1 plays a role in postembryonic development. [Source: WormBase]	response to heat, glutathione biosynthetic process, 		protein binding, glutamate-cysteine ligase activity, 
F37B12.3	F37B12.3	F37B12.3 [Source:RefSeq_peptide;Acc:NP_495928]	metabolic process, locomotory behavior, 		transferase activity, 
T24B8.7	T24B8.7	T24B8.7a [Source:RefSeq_peptide;Acc:NP_495932]	ubiquitin-dependent protein catabolic process, positive regulation of multicellular organism growth, 		ubiquitin thiolesterase activity, 
T24B8.2	T24B8.2	T24B8.2 [Source:RefSeq_peptide;Acc:NP_495933]	protein transport, DNA topological change, DNA unwinding during replication, 	chromosome, 	DNA binding, DNA topoisomerase type I activity, 
rpl-32	T24B8.1	rpl-32 encodes a large ribosomal subunit L32 protein. [Source: WormBase]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
T24B8.3	T24B8.3	T24B8.3a [Source:RefSeq_peptide;Acc:NP_001022357]			
T24B8.4	T24B8.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q22715]			
T24B8.5	T24B8.5	T24B8.5 [Source:RefSeq_peptide;Acc:NP_495937]			
hlh-3	T24B8.6	hlh-3 encodes a basic helix-loop-helix transcription factor homologous to Drosophila Achaete-scute. in vitro, HLH-3 can heterodimerize, and bind an E-box-containing probe, with HLH-2, the C. elegans E/daughterless ortholog with which it is coexpressed in the nuclei of embryonic neuronal precursors. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, positive regulation of programmed cell death, 	nucleus, 	transcription regulator activity, transcription factor activity, 
C07H4.1	C07H4.1	C07H4.1 [Source:RefSeq_peptide;Acc:NP_495939]			
clh-5	C07H4.2	The clh-5 gene encodes a chloride channel, whose human homologs include CLC1 and CLCN5. the latter homolog is imvolved in receptor-mediated endocytosis. [Source: WormBase]	chloride transport, 	membrane, 	voltage-gated chloride channel activity, GABA-B receptor activity, 
T24H10.1	T24H10.1	Putative transcription elongation factor S-II (TFIIS). [Source:Uniprot/SWISSPROT;Acc:P52652]	regulation of transcription, regulation of transcription, DNA-dependent, transcription, RNA elongation, 	nucleus, 	protein binding, zinc ion binding, transcription regulator activity, DNA binding, nucleic acid binding, translation elongation factor activity, RNA polymerase II transcription factor activity, 
T24H10.5	T24H10.5	T24H10.5 [Source:RefSeq_peptide;Acc:NP_495942]			
dyrb-1	T24H10.6	DYnein light chain (RoadBlock type) family member (dyrb-1) [Source:RefSeq_peptide;Acc:NP_495943]	embryonic development ending in birth or egg hatching, 		protein binding, 
dnj-23	T24H10.3	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	nucleosome assembly, locomotory behavior, 	nucleus, nucleosome, 	heat shock protein binding, protein binding, DNA binding, 
T24H10.4	T24H10.4	T24H10.4 [Source:RefSeq_peptide;Acc:NP_495945]			
T24H10.7	T24H10.7	T24H10.7a [Source:RefSeq_peptide;Acc:NP_001022366]	regulation of transcription, regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
C16D2.1	C16D2.1	C16D2.1 [Source:RefSeq_peptide;Acc:NP_495948]			
Y9C2UA.1	Y9C2UA.1	Y9C2UA.1b [Source:RefSeq_peptide;Acc:NP_872013]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
Y9C2UA.2	Y9C2UA.2	Y9C2UA.2 [Source:RefSeq_peptide;Acc:NP_495950]			
W07A12.4	W07A12.4	W07A12.4 [Source:RefSeq_peptide;Acc:NP_495951]			protein binding, 
col-78	W07A12.5	W07A12.5 [Source:RefSeq_peptide;Acc:NP_495952]	phosphate transport, 	cytoplasm, 	
W07A12.6	W07A12.6	W07A12.6 [Source:RefSeq_peptide;Acc:NP_495953]	oviposition, 		transferase activity, transferring groups other than amino-acyl groups, 
rhy-1	W07A12.7	Regulator of HYpoxia-inducible factor (hif-1) family member (rhy-1) [Source:RefSeq_peptide;Acc:NP_495954]			transferase activity, transferring groups other than amino-acyl groups, 
W07A12.8	W07A12.8	W07A12.8 [Source:RefSeq_peptide;Acc:NP_001022396]	metabolic process, 		catalytic activity, 
T23G7.3	T23G7.3	T23G7.3 [Source:RefSeq_peptide;Acc:NP_495955]		intracellular, 	nucleic acid binding, 
T23G7.2	T23G7.2	T23G7.2a [Source:RefSeq_peptide;Acc:NP_001022356]	regulation of transcription, DNA-dependent, 	nucleus, 	ATP binding, DNA binding, hydrolase activity, 
dpl-1	T23G7.1	dpl-1 encodes the C. elegans ortholog of mammalian DP, the E2F-heterodimerization partner. dpl-1 is a class B synMuv gene whose activity is required for oogenesis as well as embryonic asymmetry and vulval development. in addition, dpl-1 acts with a subset of class B synMuv genes and the MCD-1 zinc-finger protein to promote the killing process during programmed cell death. DPL-1 is a nuclear protein that is widely expressed throughout development in both somatic and germ cell lineages. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of transcription, embryonic development ending in birth or egg hatching, programmed cell death, 	transcription factor complex, 	protein binding, transcription factor activity, 
sec-5	T23G7.4	The sec-5 gene encodes an ortholog of SEC5 in S. cerevisiae, a component of the exocyst complex required genetically for endocytosis and for normal cellular morphology in the intestine. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
pir-1	T23G7.5	Phosphatase Interacting with RNA/RNP family member (pir-1) [Source:RefSeq_peptide;Acc:NP_495959]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
sym-2	ZK1067.6	sym-2 encodes a predicted RNA binding protein that contains three RNA recognition motifs (RRMs) similar to those of Drosophila Fusilli and mammalian hnRNP F and H. genetic analyses indicate that, during embryonic development, sym-2 functions redundantly with mec-8, which also encodes an RRM-containing protein, to affect the structure of body wall muscles or their attachment to the body cuticle, perhaps by regulating maturation of transcripts essential for muscle development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
twk-4	ZK1067.5	TWiK family of potassium channels family member (twk-4) [Source:RefSeq_peptide;Acc:NP_495961]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
let-23	ZK1067.1	The let-23 gene encodes a member of the EGF-receptor family of transmembrane tyrosine kinases that affects viability, inductive signaling during development of the vulva, male spicule formation, posterior development of the epidermis, and ovulation. it is genetically upstream of the let-60/RAS pathway with respect to viability and vulval development, is upstream of the IP3 pathway with respect to fertility, and is expressed in vulval precursor cells. [Source: WormBase]	protein amino acid phosphorylation, transmembrane receptor protein tyrosine kinase signaling pathway, positive regulation of vulval development, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, transmembrane receptor protein tyrosine kinase activity, 
ZK1067.4	ZK1067.4	ZK1067.4 is orthologous to the human gene PROTEOLIPID PROTEIN 1 (PLP1. OMIM:300401), encoding the primary constituent of myelin, which when mutated leads to Pelizaeus-Merzbacher disease (OMIM:312080). [Source: WormBase]			
ZK1067.t1	ZK1067.t1				
ZK1067.8	ZK1067.8	ZK1067.8 [Source:RefSeq_peptide;Acc:NP_741032]			
ZK1067.2	ZK1067.2	ZK1067.2 [Source:RefSeq_peptide;Acc:NP_495964]	proteolysis, regulation of transcription, DNA-dependent, translation, 	nucleus, 	zinc ion binding, methyltransferase activity, cysteine-type endopeptidase activity, transcription factor activity, 
ZK1067.3	ZK1067.3	ZK1067.3 [Source:RefSeq_peptide;Acc:NP_495965]			protein binding, 
pqn-95	ZK1067.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
gst-13	T26C5.1	Glutathione S-Transferase family member (gst-13) [Source:RefSeq_peptide;Acc:NP_495967]			
T26C5.2	T26C5.2	T26C5.2 [Source:RefSeq_peptide;Acc:NP_495968]			
T26C5.3	T26C5.3	T26C5.3c [Source:RefSeq_peptide;Acc:NP_001022370]	embryonic development ending in birth or egg hatching, 		
T26C5.5	T26C5.5	T26C5.5 [Source:RefSeq_peptide;Acc:NP_001022371]	embryonic development ending in birth or egg hatching, 		
T26C5.4	T26C5.4	T26C5.4 [Source:RefSeq_peptide;Acc:NP_495971]			
H32K21.1	H32K21.1	H32K21.1 [Source:RefSeq_peptide;Acc:NP_001022225]			
aqp-2	C01G6.1	aqp-2 encodes a transmembrane protein that belongs to the aquaglyceroporin subfamily of aquaporins. although loss of aqp-2 activity via mutation or RNAi results in no obvious developmental or behavioral abnormalities, when expressed in Xenopus oocytes, AQP-2 is able to confer significant water permeability. AQP-2::GFP fusion proteins are expressed predominantly in the excretory cell and more weakly in muscle, motor neurons, and hypodermis. [Source: WormBase]	transport, 	membrane, integral to membrane, 	transporter activity, 
C01G6.2	C01G6.2	C01G6.2 [Source:RefSeq_peptide;Acc:NP_495974]			neuropeptide hormone activity, 
C01G6.3	C01G6.3	C01G6.3 [Source:RefSeq_peptide;Acc:NP_495975]	embryonic development ending in birth or egg hatching, 		
C01G6.4	C01G6.4	C01G6.4 [Source:RefSeq_peptide;Acc:NP_495976]			protein binding, zinc ion binding, 
C01G6.5	C01G6.5	Uncharacterized protein C01G6.5. [Source:Uniprot/SWISSPROT;Acc:P46012]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	protein binding, zinc ion binding, DNA binding, 
tag-165	C01G6.6	C01G6.6 encodes an ortholog of the human gene METHIONINE SYNTHASE REDUCTASE (MTRR), which when mutated leads to homocystinuria (OMIM:236270) [Source: WormBase]	electron transport, 		iron ion binding, oxidoreductase activity, electron carrier activity, FMN binding, 
C01G6.10	C01G6.10				
C01G6.7	C01G6.7	C01G6.7 [Source:RefSeq_peptide;Acc:NP_495979]	metabolic process, 		catalytic activity, 
C01G6.9	C01G6.9	C01G6.9 [Source:RefSeq_peptide;Acc:NP_495980]			
cam-1	C01G6.8	The cam-1 gene encodes a receptor tyrosine kinase of the immunoglobulin superfamily that is orthologous to human ROR1 (OMIM:602336) and ROR2 (OMIM:602337, mutation of which leads to type B brachydactyly) and is required for locomotion, cell migration, asymmetric cell division, axon outgrowth, and dauer formation. CAM-1 is broadly expressed during embryogenesis and larval development with expression first appearing at the 200-cell stage of embryogenesis. [Source: WormBase]	protein amino acid phosphorylation, blood coagulation, proteolysis, carbohydrate metabolic process, locomotory behavior, axon guidance, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, calcium ion binding, serine-type endopeptidase activity, 
D2013.11	D2013.11				
D2013.3	D2013.3	D2013.3 [Source:RefSeq_peptide;Acc:NP_495982]			
wdfy-2	D2013.2	wdfy-2 encodes a WD40- and FYVE-domain containing protein that is orthologous to mammalian WDFY2. WDFY-2 is one of twelve C. elegans FYVE-domain-containing proteins. wdfy-2 activity is essential for wild-type levels of endocytosis. [Source: WormBase]	electron transport, endocytosis, 		protein binding, zinc ion binding, electron carrier activity, 
rab-39	D2013.1	rab-39 encodes a small, monomeric Rab GTPase that is most closely related to the human and Drosophila Rab39 GTPases. by homology, RAB-39 is predicted to function as a membrane-associated GTPase required for intracellular vesicular trafficking and for regulation of endo- and exocytosis. however, as loss of rab-39 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of RAB-39 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
tag-175	D2013.10	Transmembrane protein 41 homolog. [Source:Uniprot/SWISSPROT;Acc:O62126]			
eat-3	D2013.5	The eat-3 gene encodes a mitochondrial dynamin-related protein, closely related to bacterial dynamin-like proteins, that is orthologous to human OPA1 (OMIM:203740, mutated in autosomal dominant optic atrophy). EAT-3 is localized to the mitochondrial matrix and may play a role in regulating inner mitochondrial membrane morphology. EAT-3 is expressed in body wall muscle, intestine, and neurons, all tissues with high metabolic rates. [Source: WormBase]	positive regulation of growth rate, 		GTP binding, GTPase activity, 
D2013.6	D2013.6	D2013.6 [Source:RefSeq_peptide;Acc:NP_495987]	positive regulation of growth rate, 		protein binding, 
eif-3.F	D2013.7	Eukaryotic Initiation Factor family member (eif-3.F) [Source:RefSeq_peptide;Acc:NP_495988]	embryonic development ending in birth or egg hatching, 		
scp-1	D2013.8	scp-1 encodes PTC-related protein that contains a sterol-sensing domain related to human Sterol regulatory element binding protein (SREBP) cleavage activating protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	integral to membrane, 	
ttll-12	D2013.9	ttll-12 encodes a putative tubulin polyaminoacid ligase (possibly a polyglycylase) orthologous to human TTLL12. TTLL-12 is expressed in intestine and renal gland cells. however, TTLL-12 has no obvious function in mass RNAi assays. [Source: WormBase]	protein modification process, 	nucleus, 	tubulin-tyrosine ligase activity, 
F42A8.1	F42A8.1	Uncharacterized protein F42A8.1. [Source:Uniprot/SWISSPROT;Acc:Q09321]	embryonic development ending in birth or egg hatching, 		
sdhb-1	F42A8.2	sdhb-1 encodes the C. elegans ortholog of human succinate dehydrogenase subunit B (SDHB. OMIM:185470, mutations lead to extraadrenal pheochromocytoma) which contains several iron-sulfur (Fe-S) clusters and functions to transfer electrons from the A (SDHA) subunit to the membrane-associated C (SDHC) subunit. RNAi screens indicate that sdhb-1 activity is essential for embryonic and larval development, as well as for normal brood sizes, body morphology, osmoregulation, and growth rate. sdhb-1 is widely expressed in larvae and adults and is predicted to localize to mitochondria. [Source: WormBase]	tricarboxylic acid cycle, electron transport, positive regulation of growth rate, 		oxidoreductase activity, electron carrier activity, iron-sulfur cluster binding, 
F42A8.3	F42A8.3	Uncharacterized protein F42A8.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09322]			
mel-11	C06C3.1	mel-11 encodes the C. elegans ortholog of the vertebrate smooth muscle myosin-associated phosphatase regulatory subunit (PP-1M). during development, mel-11 activity negatively regulates embryonic morphogenesis, and genetic analysis suggests that mel-11 acts with let-502, and in parallel to fem-2, in one of two redundant pathways that ensures proper embryonic elongation. prior to elongation, MEL-11 localizes to the cytoplasm but once elongation begins, MEL-11 redistributes to the plasma membrane in response to LET-502 kinase activity. once morphogenesis is complete, MEL-11 relocalizes to the cytoplasm. [Source: WormBase]	electron transport, photosynthesis, light reaction, embryonic development ending in birth or egg hatching, 	plasma membrane light-harvesting complex, 	protein binding, electron transporter, transferring electrons within the cyclic electron transport pathway of photosynthesis activity, 
C06C3.3	C06C3.3	C06C3.3 [Source:RefSeq_peptide;Acc:NP_495995]	intracellular signaling cascade, 		
C06C3.4	C06C3.4	C06C3.4 [Source:RefSeq_peptide;Acc:NP_495996]			
C06C3.10	C06C3.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYR0]			
C06C3.9	C06C3.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYR1]			
C06C3.11	C06C3.11				
C06C3.5	C06C3.5				
srh-48	C06C3.6	Serpentine Receptor, class H family member (srh-48) [Source:RefSeq_peptide;Acc:NP_495999]			
C06C3.7	C06C3.7	C06C3.7 [Source:RefSeq_peptide;Acc:NP_496000]			
C06C3.8	C06C3.8	C06C3.8 [Source:RefSeq_peptide;Acc:NP_496001]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
Y51B9A.10	Y51B9A.10				
Y51B9A.9	Y51B9A.9	Y51B9A.9 [Source:RefSeq_peptide;Acc:NP_496002]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
Y51B9A.8	Y51B9A.8	Y51B9A.8 [Source:RefSeq_peptide;Acc:NP_496003]			
Y51B9A.7	Y51B9A.7	Y51B9A.7 [Source:RefSeq_peptide;Acc:NP_496004]			
Y51B9A.6	Y51B9A.6	Y51B9A.6 [Source:RefSeq_peptide;Acc:NP_496005]	transport, 	integral to membrane, 	transporter activity, 
Y51B9A.5	Y51B9A.5	Y51B9A.5 [Source:RefSeq_peptide;Acc:NP_496006]			
Y51B9A.t1	Y51B9A.t1				
Y51B9A.3	Y51B9A.3	Y51B9A.3 [Source:RefSeq_peptide;Acc:NP_496007]			protein binding, 
Y51B9A.2	Y51B9A.2				
Y51B9A.4	Y51B9A.4	Y51B9A.4 [Source:RefSeq_peptide;Acc:NP_496008]			
M176.9	M176.9				
tag-50	M176.1	tag-50 encodes a predicted member of the arrestin family. [Source: WormBase]			
M176.2	M176.2	M176.2 is orthologous to the human gene GLUTATHIONE SYNTHETASE (GSS. OMIM:601002), which when mutated leads to 5-oxoprolinuria, or to GSS deficiency restricted to erythrocytes and associated only with hemolytic anemia. [Source: WormBase]	glutathione biosynthetic process, positive regulation of growth rate, 		ATP binding, protein binding, catalytic activity, glutathione synthase activity, 
M176.3	M176.3	M176.3 [Source:RefSeq_peptide;Acc:NP_496012]	embryonic development ending in birth or egg hatching, 		
M176.4	M176.4	M176.4 [Source:RefSeq_peptide;Acc:NP_496013]		membrane, integral to membrane, 	
M176.11	M176.11	M176.11 [Source:RefSeq_peptide;Acc:NP_872067]			
M176.10	M176.10	M176.10 [Source:RefSeq_peptide;Acc:NP_496014]			
M176.5	M176.5	M176.5 [Source:RefSeq_peptide;Acc:NP_496015]			
kin-15	M176.6	Receptor-like tyrosine-protein kinase kin-15 precursor (EC 2.7.10.1). [Source:Uniprot/SWISSPROT;Acc:P34891]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
kin-16	M176.7	kin-16 encodes a predicted receptor protein tyrosine kinase. like kin-15, with which it is cotranscribed, kin-16 encodes a protein that displays some unusual features, including a very small extracellular domain (50 amino acids) that lacks a cysteine-rich region typical of ligand-binding domains of known receptor tyrosine kinases, an unusual amino acid substitution in the subdomain VI motif, and a lack of typical autophosphorylation sites in the kinase insert and C-terminal domains. genetic analysis suggests that kin-16 may be required for normal rates of larval development and for fecundity. a kin-16 reporter is first detected in young L1 larvae in the hypodermal cells that make up the hyp7 syncytium. later expression is detected in ventral and lateral cells that fuse with hyp7 as well as in the more anterior hyp6 syncytium. this distinct expression pattern suggests that kin-16 may also play a role in development of the hypodermal syncytium and perhaps be involved in cell-cell interactions regulating cell fusion during postembryonic development. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M176.8	M176.8	M176.8 [Source:RefSeq_peptide;Acc:NP_496018]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.3	R09D1.3	R09D1.3 [Source:RefSeq_peptide;Acc:NP_496019]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.2	R09D1.2	R09D1.2 [Source:RefSeq_peptide;Acc:NP_496020]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.1	R09D1.1	R09D1.1 [Source:RefSeq_peptide;Acc:NP_496021]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.13	R09D1.13	R09D1.13 [Source:RefSeq_peptide;Acc:NP_496022]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R09D1.4	R09D1.4	R09D1.4 [Source:RefSeq_peptide;Acc:NP_496023]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.5	R09D1.5	R09D1.5 [Source:RefSeq_peptide;Acc:NP_496024]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.12	R09D1.12	R09D1.12 [Source:RefSeq_peptide;Acc:NP_496025]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R09D1.6	R09D1.6	R09D1.6 [Source:RefSeq_peptide;Acc:NP_496026]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.7	R09D1.7	R09D1.7 [Source:RefSeq_peptide;Acc:NP_496027]	carbohydrate metabolic process, chitin catabolic process, negative regulation of translation, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, rRNA N-glycosylase activity, 
R09D1.14	R09D1.14	R09D1.14 [Source:RefSeq_peptide;Acc:NP_496028]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.8	R09D1.8	R09D1.8 [Source:RefSeq_peptide;Acc:NP_496029]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.9	R09D1.9				
R09D1.10	R09D1.10	R09D1.10 [Source:RefSeq_peptide;Acc:NP_496031]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R09D1.11	R09D1.11	R09D1.11 [Source:RefSeq_peptide;Acc:NP_496032]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
T19H5.6	T19H5.6				
T19H5.5	T19H5.5				
T19H5.1	T19H5.1	T19H5.1 [Source:RefSeq_peptide;Acc:NP_496033]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
T19H5.2	T19H5.2	T19H5.2 [Source:RefSeq_peptide;Acc:NP_496034]	biosynthetic process, carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 1-aminocyclopropane-1-carboxylate synthase activity, 
T19H5.3	T19H5.3	T19H5.3 [Source:RefSeq_peptide;Acc:NP_496035]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
T19H5.7	T19H5.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2S1]			
T19H5.4	T19H5.4	Uncharacterized protein T19H5.4. [Source:Uniprot/SWISSPROT;Acc:Q09356]			nucleotide binding, 
gcy-3	R134.1	gcy-3 is predicted to encode a guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
gcy-2	R134.2	gcy-2 encodes a predicted transmembrane guanylyl cyclase. as loss of gcy-2 activity via RNA-mediated interference does not result in any abnormalities, the precise role of GCY-2 in C. elegans development and/or behavior is not yet known. by sequence similarity, however, GCY-2 can be predicted to function in chemosensory signal transduction. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
gcy-1	AH6.1	gcy-1 is predicted to encode a guanylate cyclase. however, transcriptional fusions of the putative upstream regulatory region with a GFP reporter did not confirm its expression. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
sfxn-1.1	AH6.2	Putative sideroflexin-like protein AH6.2. [Source:Uniprot/SWISSPROT;Acc:Q09201]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
AH6.3	AH6.3	Uncharacterized protein AH6.3. [Source:Uniprot/SWISSPROT;Acc:Q09202]	G-protein coupled receptor protein signaling pathway, nucleosome assembly, 	integral to membrane, nucleus, nucleosome, 	DNA binding, alpha2-adrenergic receptor activity, 
sra-1	AH6.4	sra-1 encodes a predicted seven transmembrane receptor. expressed in the male SPD and SPV neurons. [Source: WormBase]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
mex-6	AH6.5	mex-6 encodes a CCCH zinc-finger protein highly similar to MEX-5 that functions with MEX-5 to affect embryonic viability, establish soma germline asymmetry in embryos and establish PIE-1, MEX-1, and POS-1 asymmetry in embryos, and also affects formation of intestinal cells. MEX-6 and MEX-5 may act downstream of the PAR proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, nucleic acid binding, 
sra-15	AH6.16				
sra-2	AH6.6	Serpentine receptor class alpha-2 (Protein sra-2). [Source:Uniprot/SWISSPROT;Acc:Q09204]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-16	AH6.13				
sra-9	AH6.14	Serpentine receptor class alpha-9 (Protein sra-9). [Source:Uniprot/SWISSPROT;Acc:Q09212]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-8	AH6.12	Serpentine receptor class alpha-8 (Protein sra-8). [Source:Uniprot/SWISSPROT;Acc:Q09210]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-3	AH6.7	Serpentine receptor class alpha-3 (Protein sra-3). [Source:Uniprot/SWISSPROT;Acc:Q09205]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-4	AH6.8	Serpentine receptor class alpha-4 (Protein sra-4). [Source:Uniprot/SWISSPROT;Acc:Q09206]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-7	AH6.11	Serpentine receptor class alpha-7 (Protein sra-7). [Source:Uniprot/SWISSPROT;Acc:Q09209]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-5	AH6.9				
sra-6	AH6.10	Serpentine receptor class alpha-6 (Protein sra-6). [Source:Uniprot/SWISSPROT;Acc:Q09208]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F35H8.1	F35H8.1	F35H8.1 [Source:RefSeq_peptide;Acc:NP_496053]			
F35H8.2	F35H8.2	F35H8.2 [Source:RefSeq_peptide;Acc:NP_496054]		membrane, 	acetylglucosaminyltransferase activity, 
zfp-2	F35H8.3	Zinc Finger Protein family member (zfp-2) [Source:RefSeq_peptide;Acc:NP_496055]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F35H8.4	F35H8.4	F35H8.4 [Source:RefSeq_peptide;Acc:NP_496056]			
F35H8.t1	F35H8.t1				
exc-7	F35H8.5	exc-7 encodes an ELAV, an mRNA-binding protein homologous to Drosophila ELAV and human HuC/D (OMIM:603458, 168360, autoimmune antigens associated with paraneoplastic neurologic disorders). EXC-7 is required for formation of the tailspike and the excretory cell canals. exc-7 mutations enhance defects produced by mutations in exc-3, predicted to encode a peptidase, and sma-1, which encodes beta H-spectrin, a key component of the apical cytokeleton of polarized epithelial cells such as the excretory cell. in vitro, EXC-7 can bind the sma-1 mRNA 3' UTR, and thus is predicted to regulate SMA-1 expression in vivo. EXC-7 is expressed transiently in the excretory cell nucleus during mid-embryogenesis and during larval stages is detected in the pharynx, nerve ring, and nerve cord nuclei. [Source: WormBase]			nucleotide binding, RNA binding, protein binding, nucleic acid binding, 
wee-1.1	F35H8.7	Membrane-associated tyrosine- and threonine-specific cdc2-inhibitory kinase wee-1.1 (EC 2.7.11.1) (Myt1 kinase). [Source:Uniprot/SWISSPROT;Acc:Q20085]	protein amino acid phosphorylation, cell division, cell cycle, embryonic development, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ugt-58	F35H8.6	Putative UDP-glucuronosyltransferase ugt-58 precursor (EC 2.4.1.17) (UDPGT 58). [Source:Uniprot/SWISSPROT;Acc:Q20086]	metabolic process, 		transferase activity, transferring hexosyl groups, 
E02H1.2	E02H1.2	Uncharacterized GTP-binding protein E02H1.2. [Source:Uniprot/SWISSPROT;Acc:Q09523]	small GTPase mediated signal transduction, translation, response to antibiotic, 	intracellular, 	GTP binding, 
E02H1.1	E02H1.1	Probable dimethyladenosine transferase (EC 2.1.1.-) (S- adenosylmethionine-6-N',N'-adenosyl(rRNA) dimethyltransferase) (18S rRNA dimethylase). [Source:Uniprot/SWISSPROT;Acc:Q09522]	rRNA processing, rRNA modification, positive regulation of growth rate, 		rRNA (adenine) methyltransferase activity, rRNA (adenine-N6,N6-)-dimethyltransferase activity, rRNA methyltransferase activity, 
tag-124	E02H1.3	E02H1.3 encodes a putative tRNA pseudouridine synthase orthologous to human PUS3 and S. cerevisiae DEG1. E02H1.3 is coexpressed with pme-2 in an operon, and thus, like PME-2, may function in DNA repair. [Source: WormBase]	tRNA processing, 		pseudouridylate synthase activity, 
pme-2	E02H1.4	pme-2 encodes a poly(ADP-ribose) polymerase (PARP) orthologous to human PARP2 (OMIM:607725). PME-2 has a predicted C-terminal catalytic domain. PME-2 has PARP activity in vitro, which is blocked by mammalian PARP inhibitors. since these inhibitors also cause embryonic lethality in worms exposed to ionizing radiation, PME-1 is likely to be required in vivo for repairing broken DNA. [Source: WormBase]	protein amino acid ADP-ribosylation, gamete generation, 	nucleus, 	NAD+ ADP-ribosyltransferase activity, 
E02H1.5	E02H1.5	E02H1.5 encodes an ortholog of human CLE/CGI-99/C14orf166, a putative transcription factor that binds ninein and is overexpressed in brain tumors. E02H1.5 is coexpressed with pme-2 in an operon, and thus, like PME-2, may function in DNA repair. [Source: WormBase]			
E02H1.6	E02H1.6	E02H1.6 encodes an ortholog of human TAF9 (OMIM:600822. also known as AK6, adrenal gland protein AD-004 like protein, ADLP) and of S. cerevisiae Fap7p. like its human ortholog, E02H1.6 is nuclear, and is predicted to likewise be a TATA box binding protein (TBP)-associated factor mediating activation of RNA polymerase II. E02H1.6 prefers ATP and dATP as phosphate donors. E02H1.6's biochemical activity is unusual, since it also prefers AMP and dAMP as substrates, and tolerates CMP, TMP and shikimate acid as substrates as well. since yeast Fap7p promotes pre-rRNA cleavage, E02H1.6 may be multifunctional. in RNAi assays, E02H1.6 is required for normally fast growth. E02H1.6 is coexpressed with pme-2 in an operon, and thus, like PME-2, may function in DNA repair. [Source: WormBase]	DNA replication initiation, growth, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, shikimate kinase activity, 
E02H1.8	E02H1.8	E02H1.8 encodes an ortholog of human mitochondrial ribosomal protein L53 (MRPL53). E02H1.8 is coexpressed with pme-2 in an operon, and thus, like PME-2, may function in DNA repair. [Source: WormBase]			
nhr-19	E02H1.7	Nuclear hormone receptor family member nhr-19. [Source:Uniprot/SWISSPROT;Acc:Q09528]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T15H9.6	T15H9.6	T15H9.6 [Source:RefSeq_peptide;Acc:NP_496067]	transcription, RNA polyadenylation, 	nucleus, 	RNA binding, nucleotidyltransferase activity, polynucleotide adenylyltransferase activity, 
T15H9.5	T15H9.5	Uncharacterized protein T15H9.5. [Source:Uniprot/SWISSPROT;Acc:Q09355]			
T15H9.4	T15H9.4	Uncharacterized protein T15H9.4. [Source:Uniprot/SWISSPROT;Acc:Q09354]			protein binding, 
hlh-6	T15H9.3	Helix-loop-helix protein 6. [Source:Uniprot/SWISSPROT;Acc:Q10007]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
T15H9.2	T15H9.2	Uncharacterized protein T15H9.2. [Source:Uniprot/SWISSPROT;Acc:Q10006]	embryonic development ending in birth or egg hatching, 		
T15H9.1	T15H9.1	Uncharacterized protein T15H9.1. [Source:Uniprot/SWISSPROT;Acc:Q10005]	protein folding, 		unfolded protein binding, 
dnj-20	T15H9.7	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
ZK1307.8	ZK1307.8	ZK1307.8 [Source:RefSeq_peptide;Acc:NP_496073]	proteolysis, 	endoplasmic reticulum, 	protein binding, calcium ion binding, endopeptidase Clp activity, 
ZK1307.7	ZK1307.7	ZK1307.7 [Source:RefSeq_peptide;Acc:NP_496074]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
fzr-1	ZK1307.6	fzr-1 encodes a WD repeat-containing protein homologous to Cdh1/Hct1/FZR (OMIM:603619), a regulatory subunit of the anaphase-promoting complex/cyclosome (APC/C) required for anaphase initiation and exit from mitosis. FZR-1 is required for fertility, and also functions redundantly with lin-35/Rb to for normal embryogensis and control of postembryonic cell proliferation. FZR-1 probably regulates the levels of G1 cyclins, degradation of which is critical for G1 arrest. [Source: WormBase]	oviposition, 		
sqv-8	ZK1307.5	The sqv-8 gene encodes a glucuronyl transferase, biochemically active in vitro, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. SQV-8 is homologous to three distinct glucuronyl transferases (GlcAT-I, GlcAT-P and GlcAT-D) that play a role in the synthesis of different glycoconjugates. the common requirement for SQV-8 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	cell cycle, morphogenesis of an epithelium, 	membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
ZK1307.9	ZK1307.9	Coiled-coil domain-containing protein 130 homolog. [Source:Uniprot/SWISSPROT;Acc:Q09651]	embryonic development ending in birth or egg hatching, 		protein binding, 
ZK1307.4	ZK1307.4	Uncharacterized protein ZK1307.4. [Source:Uniprot/SWISSPROT;Acc:Q09362]			structural molecule activity, 
ZK1307.3	ZK1307.3	Uncharacterized protein ZK1307.3. [Source:Uniprot/SWISSPROT;Acc:Q09361]			structural molecule activity, 
ZK1307.2	ZK1307.2	Uncharacterized protein ZK1307.2. [Source:Uniprot/SWISSPROT;Acc:Q09360]			
ZK1307.1	ZK1307.1	Uncharacterized protein ZK1307.1. [Source:Uniprot/SWISSPROT;Acc:Q09359]			
ZK1320.1	ZK1320.1	Uncharacterized GST-like protein ZK1320.1. [Source:Uniprot/SWISSPROT;Acc:Q09652]		outer membrane-bounded periplasmic space, 	protein disulfide oxidoreductase activity, 
ZK1320.2	ZK1320.2	Uncharacterized protein ZK1320.2. [Source:Uniprot/SWISSPROT;Acc:Q09364]			
ZK1320.3	ZK1320.3	Uncharacterized protein ZK1320.3. [Source:Uniprot/SWISSPROT;Acc:Q09365]			
cyp-13A10	ZK1320.4	Putative cytochrome P450 CYP13A10 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q09653]	electron transport, epoxygenase P450 pathway, 	cellular_component, 	iron ion binding, oxidoreductase activity, monooxygenase activity, heme binding, 
ZK1320.5	ZK1320.5	Uncharacterized protein ZK1320.5. [Source:Uniprot/SWISSPROT;Acc:Q09366]			
ZK1320.11	ZK1320.11	ZK1320.11 [Source:RefSeq_peptide;Acc:NP_741037]			
taf-8	ZK1320.12	TAF (TBP-associated transcription factor) family member (taf-8) [Source:RefSeq_peptide;Acc:NP_001022513]			
ZK1320.7	ZK1320.7	Protein BAT4 homolog. [Source:Uniprot/SWISSPROT;Acc:Q09655]	biological_process, 	intracellular, cellular_component, 	zinc ion binding, nucleic acid binding, molecular_function, 
arc-1	ZK1320.6	arc-1 encodes a member of the ARL (ADP-ribosylation factor(ARF)-like) family of proteins which are very similar to ARF proteins but lack the ability to stimulate ADP ribosylation by cholera toxin. arc-1 has a human homolog, MID1, which when mutated leads to Opitz syndrome (OMIM:300000). [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, biological_process, 	intracellular, cellular_component, 	protein binding, metal ion binding, zinc ion binding, GTP binding, nucleic acid binding, 
ZK1320.13	ZK1320.13	ZK1320.13 [Source:RefSeq_peptide;Acc:NP_001022515]			
ZK1320.9	ZK1320.9	ZK1320.9 [Source:RefSeq_peptide;Acc:NP_496090]	acetyl-CoA metabolic process, 		catalytic activity, sugar binding, 
nlp-11	ZK1320.10	Neuropeptide-like peptide 11 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09367]			
Y53C12A.5	Y53C12A.5				
Y53C12A.8	Y53C12A.8	Y53C12A.8 [Source:RefSeq_peptide;Acc:NP_001022463]			
Y53C12A.7	Y53C12A.7	Y53C12A.7 [Source:RefSeq_peptide;Acc:NP_001022462]			
mop-25.2	Y53C12A.4	Uncharacterized MO25-like protein Y53C12A.4. [Source:Uniprot/SWISSPROT;Acc:O18211]	locomotory behavior, 		
Y53C12A.3	Y53C12A.3	Y53C12A.3 [Source:RefSeq_peptide;Acc:NP_496093]			
glt-5	Y53C12A.2	glt-5 encodes an ortholog of glutamate/aspartate and neutral amino acid transporters. [Source: WormBase]	proteolysis, dicarboxylic acid transport, 	membrane, 	zinc ion binding, metallopeptidase activity, sodium:dicarboxylate symporter activity, 
Y53C12A.t1	Y53C12A.t1				
wee-1.3	Y53C12A.1	Membrane-associated tyrosine- and threonine-specific cdc2-inhibitory kinase wee-1.3 (EC 2.7.11.1) (Myt1 kinase) (Lethal protein 37). [Source:Uniprot/SWISSPROT;Acc:O18209]	protein amino acid phosphorylation, embryonic development, nematode larval development, reproduction, oogenesis, M phase of meiotic cell cycle, negative regulation of meiotic cell cycle, 	cytoplasm, extrinsic to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y53C12A.6	Y53C12A.6	Y53C12A.6 [Source:RefSeq_peptide;Acc:NP_496096]			
Y53C12B.6	Y53C12B.6	Y53C12B.6 [Source:RefSeq_peptide;Acc:NP_496097]			
mab-3	Y53C12B.5	Protein male abnormal 3. [Source:Uniprot/SWISSPROT;Acc:O18214]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
Y53C12B.2	Y53C12B.2	RNA-binding protein pno-1. [Source:Uniprot/SWISSPROT;Acc:O18216]	gamete generation, 	nucleolus, 	RNA binding, 
Y53C12B.1	Y53C12B.1	Y53C12B.1 [Source:RefSeq_peptide;Acc:NP_496100]	rRNA processing, positive regulation of growth rate, 	small subunit processome, 	
nos-3	Y53C12B.3	nos-3 encodes a homolog of Drosophila NANOS that physically interacts with FBF-1 (similar, though not orthologous, to Drosophila PUMILIO). NOS-3 is required in development of the hermaphrodite germ-line to promote the switch from sperm to oocyte production, perhaps by forming a complex with FBF-1 that controls fem-3 mRNA. [Source: WormBase]	masculinization of hermaphroditic germ-line, positive regulation of meiosis, 		RNA binding, protein binding, zinc ion binding, 
Y53C12B.7	Y53C12B.7	Y53C12B.7 [Source:RefSeq_peptide;Acc:NP_001022465]			
ZK1321.1	ZK1321.1	Uncharacterized protein ZK1321.1. [Source:Uniprot/SWISSPROT;Acc:Q09368]			
ZK1321.2	ZK1321.2	ZK1321.2 encodes at least four isoforms of a SHAKER/Kv1 ortholog, which encodes voltage-dependent potassium channels expressed in muscle. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
aqp-10	ZK1321.3	Putative aquaporin-10. [Source:Uniprot/SWISSPROT;Acc:Q09369]	transport, 	membrane, 	transporter activity, 
ZK1321.4	ZK1321.4	ZK1321.4 [Source:RefSeq_peptide;Acc:NP_496106]			protein binding, 
T10B9.t1	T10B9.t1				
NR_003416.1	T10B9.11	T10B9.11, snoRNA [Source:RefSeq_dna;Acc:NR_003416]			
T10B9.9	T10B9.9	Uncharacterized protein T10B9.29 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09352]			
cyp-13A1	T10B9.8	Putative cytochrome P450 CYP13A1 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27520]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A2	T10B9.7	Putative cytochrome P450 CYP13A2 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27518]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A3	T10B9.5	Putative cytochrome P450 CYP13A3 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27517]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A9	T10B9.6				
cyp-13A4	T10B9.1	Putative cytochrome P450 CYP13A4 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27513]	electron transport, locomotory behavior, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A5	T10B9.2	Putative cytochrome P450 CYP13A5 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27514]	electron transport, locomotory behavior, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A6	T10B9.3	Putative cytochrome P450 CYP13A6 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27515]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A7	T10B9.10	cyp-13A7 encodes a homolog of cytochrome P450 proteins. these proteins are membrane proteins with a heme prosthetic group that catalyse the synthesis of steroid hormones (and bile salts), and also detoxify foreign substances (xenobiotic compounds). [Source: WormBase]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A8	T10B9.4	Putative cytochrome P450 CYP13A8 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:Q27516]	electron transport, embryonic development ending in birth or egg hatching, 		iron ion binding, monooxygenase activity, heme binding, 
Y53C12C.1	Y53C12C.1	Y53C12C.1 encodes a divergent paired-like homeodomain protein that does not belong to the Q50, K50, or S50 classes. it has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, multicellular organismal development, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ZK938.1	ZK938.1	ZK938.1 [Source:RefSeq_peptide;Acc:NP_496117]			hydrolase activity, 
ZK938.3	ZK938.3	ZK938.3 [Source:RefSeq_peptide;Acc:NP_496118]			
ZK938.4	ZK938.4	ZK938.4 [Source:RefSeq_peptide;Acc:NP_496119]	signal transduction, 		
ZK938.2	ZK938.2	ZK938.2 [Source:RefSeq_peptide;Acc:NP_496120]			
rnh-1.2	ZK938.7	RNase H family member (rnh-1.2) [Source:RefSeq_peptide;Acc:NP_496121]			nucleic acid binding, ribonuclease H activity, 
ZK938.6	ZK938.6	ZK938.6 [Source:RefSeq_peptide;Acc:NP_496122]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
ZK938.8	ZK938.8				
old-2	ZK938.5	old-2 encodes a transmembrane protein tyrosine kinase (also known as 'kin-28') that affects mean and maximum life span with multiple paralogs in C. elegans. the expression of old-2 was experimentally verified by RT-PCR. [Source: WormBase]	protein amino acid phosphorylation, determination of adult life span, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C08H9.8	C08H9.8	C08H9.8 [Source:RefSeq_peptide;Acc:NP_496124]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C08H9.10	C08H9.10	C08H9.10 [Source:RefSeq_peptide;Acc:NP_496125]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.12	C08H9.12	C08H9.12 [Source:RefSeq_peptide;Acc:NP_496126]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.11	C08H9.11	C08H9.11 [Source:RefSeq_peptide;Acc:NP_496127]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.7	C08H9.7	C08H9.7 [Source:RefSeq_peptide;Acc:NP_496128]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.4	C08H9.4	C08H9.4b [Source:RefSeq_peptide;Acc:NP_001040740]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.9	C08H9.9				
old-1	C08H9.5	old-1 encodes a receptor protein tyrosine kinase. old-1 activity is required for stress resistance and regulation of adult lifespan: old-1 mRNA expression is upregulated in response to stress and in daf-2 and age-1 mutant backgrounds. likewise, overexpression of old-1 in wild-type animals extends lifespan and increases resistance to heat and UV irradiation. an OLD-1::GFP fusion protein is expressed in the anterior region of worms, in neuronal, hypodermal, and pharyngeal tissues, as well as in the proximal region of the male gonad. expression is visible in young adults and appears to increase as animals age and in response to heat, starvation, or UV irradiation. [Source: WormBase]	protein amino acid phosphorylation, determination of adult life span, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C08H9.13	C08H9.13	C08H9.13 [Source:RefSeq_peptide;Acc:NP_496131]	carbohydrate metabolic process, chitin catabolic process, 	extracellular region, 	chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, leukemia inhibitory factor receptor binding, 
C08H9.14	C08H9.14	C08H9.14 [Source:RefSeq_peptide;Acc:NP_496132]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.6	C08H9.6	C08H9.6 [Source:RefSeq_peptide;Acc:NP_496133]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C08H9.1	C08H9.1	Uncharacterized serine carboxypeptidase C08H9.1 (EC 3.4.16.-). [Source:Uniprot/SWISSPROT;Acc:P52714]	proteolysis, 		serine carboxypeptidase activity, 
C08H9.15	C08H9.15	C08H9.15 [Source:RefSeq_peptide;Acc:NP_001021939]			
C08H9.3	C08H9.3	Probable dolichyl pyrophosphate Glc1Man9GlcNAc2 alpha-1,3- glucosyltransferase (EC 2.4.1.-) (Dolichyl-P-Glc:Glc1Man9GlcNAc2-PP- dolichyl glucosyltransferase). [Source:Uniprot/SWISSPROT;Acc:P52887]	DNA repair, embryonic development ending in birth or egg hatching, 		endonuclease activity, 
C08H9.2	C08H9.2	C08H9.2 [Source:RefSeq_peptide;Acc:NP_496136]	positive regulation of growth rate, 		RNA binding, 
F26C11.1	F26C11.1	Putative acid phosphatase F26C11.1 (EC 3.1.3.2). [Source:Uniprot/SWISSPROT;Acc:Q09549]			acid phosphatase activity, 
unc-4	F26C11.2	The unc-4 gene encodes a paired-class homeodomain protein with homologs in Drosophila and vertebrates. UNC-4 is required for establishing the identity of the A class motor neurons DA and VA, and is thus required for movement, axon guidance, and synapse formation. UNC-4 is negatively regulated by VAB-7, and UNC-4 activity requires UNC-37. unc-4 is expressed in the A-type motor neurons, DA and VA, the six VC motor neurons that innervate the vulval muscles, and the three SAB motor neurons. unc-4 is also expressed in the pharyngeal I5 motor neuron and the AVF neurons in the retrovesicular ganglion. [Source: WormBase]	regulation of transcription, DNA-dependent, locomotory behavior, synaptic target recognition, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F26C11.3	F26C11.3	Uncharacterized protein F26C11.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09550]	reproduction, 		
F26C11.4	F26C11.4	F26C11.4 [Source:RefSeq_peptide;Acc:NP_001022115]			
C05C10.1	C05C10.1	Putative acid phosphatase C05C10.1 (EC 3.1.3.2). [Source:Uniprot/SWISSPROT;Acc:Q09448]			acid phosphatase activity, 
C05C10.2	C05C10.2	Uncharacterized ATP-dependent helicase C05C10.2 (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:Q09449]			DNA binding, 
C05C10.4	C05C10.4	Putative acid phosphatase C05C10.4 (EC 3.1.3.2). [Source:Uniprot/SWISSPROT;Acc:Q09451]			acid phosphatase activity, 
C05C10.3	C05C10.3	C05C10.3 is orthologous to the human gene 3-OXOACID COA TRANSFERASE (also called succinyl-CoA:3-ketoacid CoA transferase. OXCT. OMIM:245050), which when mutated leads to episodic ketoacidosis. [Source: WormBase]	metabolic process, 		CoA-transferase activity, 
C05C10.7	C05C10.7	C05C10.7 [Source:RefSeq_peptide;Acc:NP_872055]			
C05C10.5	C05C10.5	Uncharacterized protein C05C10.5. [Source:Uniprot/SWISSPROT;Acc:Q09230]	embryonic development ending in birth or egg hatching, 		protein binding, 
ufd-3	C05C10.6	Ubiquitin Fusion Degradation (yeast UFD homolog) family member (ufd-3) [Source:RefSeq_peptide;Acc:NP_496147]	embryonic development ending in birth or egg hatching, 		
R53.1	R53.1	R53.1a [Source:RefSeq_peptide;Acc:NP_001022286]	metabolic process, Mo-molybdopterin cofactor biosynthetic process, positive regulation of growth rate, 		transferase activity, 
egl-43	R53.3	egl-43 encodes a zinc finger protein that affects HSN cell migration and development of the phasmid neurons. expressed in the HSN and phasmid neurons. [Source: WormBase]	regulation of transcription, regulation of cell migration, morphogenesis of an epithelium, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
R53.2	R53.2	Probable thymidylate kinase (EC 2.7.4.9) (dTMP kinase). [Source:Uniprot/SWISSPROT;Acc:Q22018]	dTDP biosynthetic process, dTTP biosynthetic process, 		ATP binding, thymidylate kinase activity, 
R53.4	R53.4	Putative ATP synthase f chain, mitochondrial (EC 3.6.3.14). [Source:Uniprot/SWISSPROT;Acc:Q22021]	embryonic development ending in birth or egg hatching, 		
R53.6	R53.6	Probable DNA replication complex GINS protein PSF1. [Source:Uniprot/SWISSPROT;Acc:Q22019]	embryonic development ending in birth or egg hatching, 		
R53.5	R53.5	R53.5 [Source:RefSeq_peptide;Acc:NP_496154]			protein binding, 
R53.7	R53.7	R53.7a [Source:RefSeq_peptide;Acc:NP_496155]	embryonic development ending in birth or egg hatching, 		
R53.8	R53.8	R53.8 [Source:RefSeq_peptide;Acc:NP_496156]			
ZK892.6	ZK892.6	Uncharacterized protein ZK892.6. [Source:Uniprot/SWISSPROT;Acc:Q09619]			
sdz-38	ZK892.7	SKN-1 Dependent Zygotic transcript family member (sdz-38) [Source:RefSeq_peptide;Acc:NP_496158]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
lec-3	ZK892.1	32 kDa beta-galactoside-binding lectin lec-3 (32 kDa GBP). [Source:Uniprot/SWISSPROT;Acc:Q09581]			protein binding, sugar binding, 
nlt-1	ZK892.2	nlt-1 encodes a member of the SCP-2 sterol transfer family. [Source: WormBase]			sterol carrier activity, 
ZK892.3	ZK892.3	ZK892.3 [Source:RefSeq_peptide;Acc:NP_496162]	transport, 	membrane, integral to membrane, 	transporter activity, 
ZK892.8	ZK892.8				
ZK892.4	ZK892.4	ZK892.4 is orthologous to the human gene ALPHA-METHYLACYL-CoA RACEMASE (AMACR. OMIM:604489), which when mutated leads to AMACR deficiency. [Source: WormBase]	metabolic process, 		catalytic activity, 
ZK892.5	ZK892.5	ZK892.5 [Source:RefSeq_peptide;Acc:NP_496164]			
lec-2	F52H3.7	lec-2 encodes a 'tandem repeat' type galectin (beta-galactosyl-binding lectin) containing two, tandemly arranged carbohydrate recognition domains. by homology, LEC-2 may play roles in cell adhesion and aggregation, proliferation, or programmed cell death, but as loss of lec-2 activity via large-scale RNAi screens does not result in obvious abnormalities, the precise role of LEC-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			protein binding, sugar binding, 
F52H3.6	F52H3.6	F52H3.6 [Source:RefSeq_peptide;Acc:NP_496167]			hydrolase activity, 
F52H3.5	F52H3.5	F52H3.5 [Source:RefSeq_peptide;Acc:NP_496168]			binding, 
F52H3.2	F52H3.2	Uncharacterized protein F52H3.2. [Source:Uniprot/SWISSPROT;Acc:Q20680]	electron transport, tRNA processing, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, FAD binding, 
let-268	F52H3.1	let-268 encodes a procollagen lysyl hydroxylase that processes type IV collagen, a collagen secreted and incorporated into the basement membrane during embryogenesis (and encoded partly by emb-9). LET-268 activity is essential for type IV collagen processing and secretion and for the stability, but not the formation of, the basement membrane that provides mechanical support to body wall muscle once contraction begins. LET-268 also appears to be required for pharyngeal muscle contraction. [Source: WormBase]	protein metabolic process, embryonic development ending in birth or egg hatching, 	endoplasmic reticulum, 	oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, procollagen-lysine 5-dioxygenase activity, 
F52H3.4	F52H3.4	F52H3.4 [Source:RefSeq_peptide;Acc:NP_496171]			protein binding, 
bath-38	F52H3.3	BTB and MATH domain-containing protein 38. [Source:Uniprot/SWISSPROT;Acc:Q20681]			protein binding, 
flp-4	C18D1.3	FMRF-Like Peptide family member (flp-4) [Source:RefSeq_peptide;Acc:NP_496173]			
stg-1	C18D1.4	C18D1.4 encodes a claudin homolog that may regulate ion channels. C18D1.4 is similar to mammalian voltage-dependent calcium channel gamma subunits that are known or suspected to prevent epilepsy in vivo (e.g., stargazin. MGI:1316660). C18D1.4 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]	calcium ion transport, 	membrane, 	
C18D1.2	C18D1.2	C18D1.2 [Source:RefSeq_peptide;Acc:NP_496174]	transport, 	integral to membrane, 	transporter activity, 
die-1	C18D1.1	die-1 encodes a C2H2 zinc finger protein containing four fingers, homologous to CG18265-PA in Drosophila. DIE-1 is autonomously required in the posterior dorsal hypodermis for intercalation, for morphogenesis in other embryonic tissues, and for normal postembryonic growth and vulval development. [Source: WormBase]	positive regulation of growth rate, morphogenesis of embryonic epithelium, actin filament organization, type I hypersensitivity, 	intracellular, 	zinc ion binding, nucleic acid binding, 
lact-2	ZK945.1	Uncharacterized protein ZK945.1. [Source:Uniprot/SWISSPROT;Acc:Q09621]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
pas-7	ZK945.2	Proteasome subunit alpha type 3 (EC 3.4.25.1) (Proteasome subunit alpha 7). [Source:Uniprot/SWISSPROT;Acc:Q09583]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
puf-12	ZK945.3	Pumilio domain-containing protein ZK945.3. [Source:Uniprot/SWISSPROT;Acc:Q09622]	oviposition, 		RNA binding, 
ZK945.4	ZK945.4	ZK945.4 [Source:RefSeq_peptide;Acc:NP_496179]			
ZK945.5	ZK945.5	Uncharacterized RING finger protein ZK945.5. [Source:Uniprot/SWISSPROT;Acc:Q09623]		intracellular, 	protein binding, zinc ion binding, 
ZK945.6	ZK945.6	Uncharacterized protein ZK945.6. [Source:Uniprot/SWISSPROT;Acc:Q09382]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
ZK945.7	ZK945.7	Uncharacterized protein ZK945.7. [Source:Uniprot/SWISSPROT;Acc:Q09383]			
ZK945.8	ZK945.8	Uncharacterized protein ZK945.8. [Source:Uniprot/SWISSPROT;Acc:Q09384]			
lov-1	ZK945.9	lov-1 encodes an ortholog of human PKD1 (OMIM:601313. mutated in autosomal dominant polycystic kidney disease) that is expressed in the ciliated sensory endings of three types of male-specific neurons and that is required for two aspects of male mating behavior: response to hermaphrodite contact and vulva location. LOV-1 acts with PKD-2. EGL-44 and EGL-46 regulate cell-specific expression of lov-1 and pkd-2 to specify the behavioral function of the HOB neuron. in vitro, LOV-1 interacts, via its conserved PLAT domain, with the N-terminus of ATP-2, the beta subunit of ATP synthase that also localizes to cilia, suggesting that ATP synthase may play a role in C. elegans polycystin signaling. [Source: WormBase]	neuropeptide signaling pathway, positive regulation of growth rate, mating behavior, 	membrane, 	calcium ion binding, 
F27E5.7	F27E5.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2S2]			
F27E5.8	F27E5.8	Uncharacterized protein F27E5.8. [Source:Uniprot/SWISSPROT;Acc:Q5FC78]			
F27E5.5	F27E5.5	Probable G-protein coupled receptor F27E5.5. [Source:Uniprot/SWISSPROT;Acc:Q09554]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
phg-1	F27E5.4	Growth-arrest-specific protein 1 homolog precursor (Pharynx-associated gas1 homolog). [Source:Uniprot/SWISSPROT;Acc:Q09553]	multicellular organismal development, negative regulation of S phase of mitotic cell cycle, 	anchored to plasma membrane, 	receptor activity, molecular_function, 
F27E5.1	F27E5.1	Uncharacterized protein F27E5.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09551]			
F27E5.3	F27E5.3	F27E5.3 [Source:RefSeq_peptide;Acc:NP_496188]			
pax-3	F27E5.2	pax-3 encodes a divergent paired-like homeodomain protein that does not belong to the Q50, K50, or S50 classes. PAX-3 is required for locomotion and vulval development. pax-3(RNAi) animals have consistent Pvl and Unc phenotypes (as well as less consistent Bmd, Rup, and Stp phenotypes). [Source: WormBase]	regulation of transcription, DNA-dependent, multicellular organismal development, morphogenesis of an epithelium, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F33H1.6	F33H1.6	F33H1.6 [Source:RefSeq_peptide;Acc:NP_001022141]			
daf-19	F33H1.1	daf-19 is the sole C. elegans member of the RFX family of transcription factors, and is required for sensory neuron cilium formation. DAF-19 is expressed in ciliated sensory neurons during the period that their cilia are generated, and probably functions as an common transcriptional activator of many genes that specifically encode cilial structures in sensory neurons. daf-19 mutants lack sensory cilia, have abnormal amphids, are strongly dauer-constutive, lack normal openings of the amphids to the external environment (i.e., fail to show dye-filling), and are highly defective in their ability to taste or smell. DAF-19 regulates bbs-5, che-2, che-13, dyf-3, osm-1, osm-6, and xbx-1 expression, and probably regulates ~200 other genes (e.g., bbs-2, bbs-7 and bbs-8). the localization of DAF-6 is aberrant in daf-19 mutants. [Source: WormBase]	regulation of transcription, DNA-dependent, regulation of transcription from RNA polymerase II promoter, 		DNA binding, 
gpd-4	F33H1.2	gpd-4 encodes one of four C. elegans glyceraldehyde-3-phosphate dehydrogenases (GAPDHs). by homology, GPD-4 is predicted to reversibly catalyze the oxidation and phosphorylation of glyceraldehyde-3-phosphate to 1,3-diphosphoglycerate during glycolysis. GPD-4 is required for embryonic and larval development. in C. elegans, GPD-4 and GPD-1 constitute the minor GAPDH isoenzymes and are expressed primarily in embryos, in all cell types. [Source: WormBase]	glycolysis, glucose metabolic process, embryonic development ending in birth or egg hatching, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, glyceraldehyde-3-phosphate dehydrogenase activity, 
F33H1.3	F33H1.3	Uncharacterized protein F33H1.3. [Source:Uniprot/SWISSPROT;Acc:Q09556]	embryonic development ending in birth or egg hatching, 		
F33H1.4	F33H1.4	F33H1.4 [Source:RefSeq_peptide;Acc:NP_496194]	biological_process, 	intracellular, 	zinc ion binding, nucleic acid binding, 
srd-1	F33H1.5	srd-1 encodes a seven transmembrane chemosensory receptor. SRD-1 is expressed in the ASI chemosensory neurons. SRD-1 expression in ASI is repressed in the presence of dauer pheromone at concentrations lower than that which induces dauer formation. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srd-2	R05H5.1	Serpentine receptor class delta-2 (Protein srd-2). [Source:Uniprot/SWISSPROT;Acc:Q21767]	signal transduction, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
cdc-25.4	R05H5.2	a homolog of dual specificity phosphatase Cdc25. [Source: WormBase]	protein amino acid dephosphorylation, M phase of mitotic cell cycle, 	intracellular, 	protein tyrosine phosphatase activity, 
R05H5.7	R05H5.7	R05H5.7 [Source:RefSeq_peptide;Acc:NP_496198]			
srb-6	R05H5.6	Serpentine receptor class beta-6 (Protein srb-6). [Source:Uniprot/SWISSPROT;Acc:P54141]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
R05H5.3	R05H5.3	R05H5.3 [Source:RefSeq_peptide;Acc:NP_496200]	cell redox homeostasis, embryonic development ending in birth or egg hatching, 		protein binding, oxidoreductase activity, antioxidant activity, 
R05H5.4	R05H5.4	R05H5.4 [Source:RefSeq_peptide;Acc:NP_496201]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R05H5.5	R05H5.5	R05H5.5 [Source:RefSeq_peptide;Acc:NP_496202]	embryonic development ending in birth or egg hatching, 		
tts-2	R05H5.8				
T01E8.1	T01E8.1	T01E8.1 [Source:RefSeq_peptide;Acc:NP_496203]			protein binding, 
ref-1	T01E8.2	ref-1 encodes a protein with two basic helix-loop-helix (bHLH) domains that is distantly related to the hairy/Enhancer of split subfamily of bHLH transcription factors. REF-1 is required in hermaphrodites during early larval development for regulating the pattern of posterior Pn.p hypodermal cell fusions, primarily through regulation of MAB-5 homeodomain protein activity. REF-1 is also required for head morphogenesis and specification of the V6 lateral seam cell fate. [Source: WormBase]	regulation of transcription, locomotory behavior, 	nucleus, 	transcription regulator activity, 
plc-3	T01E8.3	PhosphoLipase C family member (plc-3) [Source:RefSeq_peptide;Acc:NP_496205]	intracellular signaling cascade, signal transduction, lipid metabolic process, reproduction, 		phosphoinositide phospholipase C activity, phospholipase C activity, 
srh-135	T01E8.7	Serpentine Receptor, class H family member (srh-135) [Source:RefSeq_peptide;Acc:NP_496206]			
T01E8.8	T01E8.8	T01E8.8 [Source:RefSeq_peptide;Acc:NP_001022299]			
ubxn-5	T01E8.9	UBX-containing protein in Nematode family member (ubxn-5) [Source:RefSeq_peptide;Acc:NP_001022300]			
T01E8.4	T01E8.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains WD repeats. [Source: WormBase]	signal transduction, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
T01E8.6	T01E8.6	Putative mitochondrial 40S ribosomal protein S14. [Source:Uniprot/SWISSPROT;Acc:P49391]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
T01E8.5	T01E8.5	T01E8.5 [Source:RefSeq_peptide;Acc:NP_496209]			
F54B3.3	F54B3.3	F54B3.3 [Source:RefSeq_peptide;Acc:NP_496210]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F54B3.1	F54B3.1	F54B3.1 [Source:RefSeq_peptide;Acc:NP_496211]			
F54B3.2	F54B3.2	F54B3.2 [Source:RefSeq_peptide;Acc:NP_496212]			
ZK971.1	ZK971.1	ZK971.1 [Source:RefSeq_peptide;Acc:NP_496213]			
ZK970.1	ZK970.1	ZK970.1 encodes, by alternative splicing, two isoforms of a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. ZK970.1 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
clpp-1	ZK970.2	ZK970.2 encodes an ortholog of the proteolytic subunit of ATP-dependent Clp protease. ZK970.2 shares an operon with vha-9, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 		endopeptidase Clp activity, 
mdt-22	ZK970.3	RNA polymerase II mediator complex subunit 22 (Mediator complex subunit 22). [Source:Uniprot/SWISSPROT;Acc:Q23679]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, 
ZK970.t4	ZK970.t4				
ZK970.t1	ZK970.t1				
vha-9	ZK970.4	vha-9 encodes an ortholog of subunit F of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-9 is a predicted cytosolic rotor (stalk) component. [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
gcy-4	ZK970.5	gcy-4 encodes a predicted transmembrane guanylyl cyclase. by homology, GCY-4 may function as a chemosensory receptor. however, as loss of gcy-4 activity via mutation or large-scale RNAi screens results in no obvious abnormalities, the precise role of gcy-4 in C. elegans development and/or behavior is not yet known. the sole gcy-4 ::GFP reporter construct reported to date did not produce any specific GFP signals. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
ZK970.t3	ZK970.t3				
ZK970.t2	ZK970.t2				
ZK970.8	ZK970.8	ZK970.8 [Source:RefSeq_peptide;Acc:NP_001022541]	small GTPase mediated signal transduction, 		guanyl-nucleotide exchange factor activity, 
gcy-5	ZK970.6	gcy-5 encodes a predicted guanylate cyclase with strong similarity to rat atrial natriuretic peptide receptor A. expressed in ASER. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
ZK970.7	ZK970.7	ZK970.7 [Source:RefSeq_peptide;Acc:NP_496220]			
M02G9.3	M02G9.3	M02G9.3 [Source:RefSeq_peptide;Acc:NP_496221]			
M02G9.2	M02G9.2	M02G9.2 [Source:RefSeq_peptide;Acc:NP_496222]		membrane, 	
M02G9.1	M02G9.1	M02G9.1 [Source:RefSeq_peptide;Acc:NP_496223]	reproduction, 		protein binding, 
pro-2	C07E3.2	pro-2 encodes the C. elegans ortholog of Saccharomyces cerevisiae Noc2p, which is required for intranuclear ribosome maturation and transport. in C. elegans, pro-2 activity is essential for larval growth, somatic gonad development, regulation of germline development and proliferation, and hence, fertility. by virtue of its similarity to Noc2p, PRO-2 is predicted to be a component of two heterodimeric intranuclear complexes that associate with, and aid in maturation of, different preribosomal particles. [Source: WormBase]	positive regulation of growth rate, 		
C07E3.10	C07E3.10	C07E3.10 [Source:RefSeq_peptide;Acc:NP_496225]			
stip-1	C07E3.1	C07E3.1a [Source:RefSeq_peptide;Acc:NP_496226]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, nucleic acid binding, 
C07E3.9	C07E3.9	C07E3.9 [Source:RefSeq_peptide;Acc:NP_496228]	phospholipid metabolic process, lipid catabolic process, 		calcium ion binding, phospholipase A2 activity, 
C07E3.8	C07E3.8	C07E3.8 [Source:RefSeq_peptide;Acc:NP_496229]			
C07E3.3	C07E3.3	C07E3.3 [Source:RefSeq_peptide;Acc:NP_496230]			protein binding, 
C07E3.4	C07E3.4	C07E3.4 [Source:RefSeq_peptide;Acc:NP_496231]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
C07E3.5	C07E3.5	C07E3.5 [Source:RefSeq_peptide;Acc:NP_496232]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C07E3.6	C07E3.6	C07E3.6 [Source:RefSeq_peptide;Acc:NP_496234]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
T09F3.1	T09F3.1	T09F3.1 [Source:RefSeq_peptide;Acc:NP_496235]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, 
T09F3.2	T09F3.2	T09F3.2 [Source:RefSeq_peptide;Acc:NP_496236]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
gpd-1	T09F3.3	gpd-1 encodes one of four C. elegans glyceraldehyde-3-phosphate dehydrogenases (GAPDHs). by homology, GPD-1 is predicted to reversibly catalyze the oxidation and phosphorylation of glyceraldehyde-3-phosphate to 1,3-diphosphoglycerate during glycolysis. GPD-1 is required for embryogenesis, normal body morphology, and gonad development. in C. elegans, GPD-1 and GPD-4 constitute the minor GAPDH isoenzymes and are expressed primarily in embryos, in all cell types. [Source: WormBase]	glycolysis, glucose metabolic process, embryonic development ending in birth or egg hatching, 		protein binding, NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, glyceraldehyde-3-phosphate dehydrogenase activity, 
T09F3.4	T09F3.4	T09F3.4 [Source:RefSeq_peptide;Acc:NP_496238]			
T09F3.5	T09F3.5	T09F3.5 [Source:RefSeq_peptide;Acc:NP_001022338]			
E04D5.5	E04D5.5	E04D5.5 [Source:RefSeq_peptide;Acc:NP_001022059]			
E04D5.1	E04D5.1	Eukaryotic translation initiation factor 2A (eIF-2A). [Source:Uniprot/SWISSPROT;Acc:Q19052]	embryonic development ending in birth or egg hatching, 		
E04D5.2	E04D5.2	E04D5.2 [Source:RefSeq_peptide;Acc:NP_496241]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
cut-4	E04D5.3	CUTiclin family member (cut-4) [Source:RefSeq_peptide;Acc:NP_496242]			
E04D5.4	E04D5.4	E04D5.4 [Source:RefSeq_peptide;Acc:NP_496243]			
ZK673.12	ZK673.12				
ZK673.1	ZK673.1	Uncharacterized protein ZK673.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09662]	homoiothermy, response to freezing, type I hypersensitivity, 		ice binding, 
ZK673.2	ZK673.2	Probable adenylate kinase isoenzyme ZK673.2 (EC 2.7.4.3) (ATP-AMP transphosphorylase). [Source:Uniprot/SWISSPROT;Acc:Q09629]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		ATP binding, nucleotide kinase activity, adenylate kinase activity, 
ZK673.3	ZK673.3	ZK673.3 encodes a protein with a THAP or THAP-like domain required for embryonic development. other proteins with THAP or THAP-like domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
ZK673.4	ZK673.4	ZK673.4 encodes a protein with a THAP or THAP-like domain. other proteins with such domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]			DNA binding, 
ZK673.11	ZK673.11	ZK673.11a [Source:RefSeq_peptide;Acc:NP_001040834]			
ZK673.5	ZK673.5	Uncharacterized protein ZK673.5. [Source:Uniprot/SWISSPROT;Acc:Q09664]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
ZK673.6	ZK673.6	Uncharacterized protein ZK673.6. [Source:Uniprot/SWISSPROT;Acc:Q09378]			
sdz-37	ZK673.10	SKN-1 Dependent Zygotic transcript family member (sdz-37) [Source:RefSeq_peptide;Acc:NP_496250]			
tnc-2	ZK673.7	tnc-2 encodes pharyngeal muscle troponin C, the calcium-binding component of the troponin complex of actin thin filaments. TNC-2 is essential for postembryonic development, and by homology, likely functions to regulate pharyngeal muscle contraction in response to changes in intracellular calcium. TNC-2 is expressed exclusively in pharyngeal muscle. [Source: WormBase]	ciliary or flagellar motility, growth, 	flagellin-based flagellum, 	protein binding, calcium ion binding, 
ZK673.9	ZK673.9	ZK673.9 [Source:RefSeq_peptide;Acc:NP_496252]		cytoplasm, 	GTP binding, sugar binding, 
ZK666.1	ZK666.1	ZK666.1 [Source:RefSeq_peptide;Acc:NP_496253]			
ZK666.2	ZK666.2	ZK666.2 [Source:RefSeq_peptide;Acc:NP_496254]			
sri-8	ZK666.10				
clec-58	ZK666.3	C-type LECtin family member (clec-58) [Source:RefSeq_peptide;Acc:NP_496256]			sugar binding, 
ZK666.4	ZK666.4	ZK666.4 [Source:RefSeq_peptide;Acc:NP_496257]			
clec-59	ZK666.5	C-type LECtin family member (clec-59) [Source:RefSeq_peptide;Acc:NP_496258]			sugar binding, 
ZK666.13	ZK666.13				
clec-60	ZK666.6	C-type LECtin family member (clec-60) [Source:RefSeq_peptide;Acc:NP_496259]			sugar binding, 
ZK666.11	ZK666.11	ZK666.11 [Source:RefSeq_peptide;Acc:NP_001022526]			
clec-61	ZK666.7	C-type LECtin family member (clec-61) [Source:RefSeq_peptide;Acc:NP_496260]			sugar binding, 
ZK666.8	ZK666.8	ZK666.8 [Source:RefSeq_peptide;Acc:NP_496261]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
ZK666.9	ZK666.9				
ZK666.12	ZK666.12	ZK666.12 [Source:RefSeq_peptide;Acc:NP_001022527]			
pqn-47	F59B10.1	pqn-47 encodes a protein with a glutamine/asparagine-rich domain, homologous to human C11orf9 and Drosophila CG3328, that is required for locomotion, vulval development, full body size, cuticular integrity, and general health in mass RNAi assays. pqn-47(cxP5915) homozygotes are sluggish. [Source: WormBase]	biological_process, 		
F59B10.2	F59B10.2	Uncharacterized protein F59B10.2. [Source:Uniprot/SWISSPROT;Acc:Q09950]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F59B10.3	F59B10.3	Uncharacterized protein F59B10.3. [Source:Uniprot/SWISSPROT;Acc:Q09951]	embryonic development ending in birth or egg hatching, 		
F59B10.4	F59B10.4	Uncharacterized protein F59B10.4. [Source:Uniprot/SWISSPROT;Acc:Q09952]			
F59B10.5	F59B10.5	Uncharacterized protein F59B10.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09953]			
F59B10.6	F59B10.6	Uncharacterized protein F59B10.6. [Source:Uniprot/SWISSPROT;Acc:Q09954]			
mab-10	R166.1	R166.1 [Source:RefSeq_peptide;Acc:NP_496268]	negative regulation of transcription, 	nucleus, 	transcription repressor activity, 
R166.2	R166.2	R166.2 [Source:RefSeq_peptide;Acc:NP_496269]			protein binding, 
R166.3	R166.3	The R166.3 gene encodes an unfamiliar protein, with homologs in yeast and archaea, that is orthologous to the human gene ALPORT SYNDROME, MENTAL RETARDATION, MIDFACE HYPOPLASIA, AND ELLIPTOCYTOSIS CHROMOSOMAL REGION GENE 1 (AMMECR1. OMIM:300195). AMMECR1, when mutated, may be at least partially responsible for mental retardation, midface hypoplasia, or elliptocytosis. [Source: WormBase]			
pro-1	R166.4	pro-1 encodes a WD-repeat-containing protein that is orthologous to Saccharomyces cerevisiae IPI3. pro-1 activity is required for ribosome biogenesis and specifically, for efficient processing of intervening sequence 2 (ITS2) from rRNA intermediates during 26S rRNA maturation. during development, pro-1 is essential for larval growth, fertility, and normal cell division patterns. in addition, pro-1 is required cell autonomously in the somatic gonad for proper spatial and temporal regulation of germline development and proliferation. a pro-1 promoter::gfp fusion construct reveals that pro-1 is widely expressed in the embryo as well as in every major post-embryonic lineage including the somatic gonad. [Source: WormBase]	rRNA processing, positive regulation of growth rate, 		
R166.6	R166.6				
mnk-1	R166.5	Putative uncharacterized protein mnk-1. [Source:Uniprot/SPTREMBL;Acc:Q8I113]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
NR_003415.1	R166.7	R166.7, snoRNA [Source:RefSeq_dna;Acc:NR_003415]			
cdc-48.1	C06A1.1	Transitional endoplasmic reticulum ATPase homolog 1 (p97/CDC48 homolog 1) (Cell division cycle-related protein 48.1). [Source:Uniprot/SWISSPROT;Acc:P54811]	collagen and cuticulin-based cuticle attachment to epithelium, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, hydrolase activity, 
NR_003399.1	C06A1.8	C06A1.8, snoRNA [Source:RefSeq_dna;Acc:NR_003399]			
NR_003400.1	C06A1.9	C06A1.9, snoRNA [Source:RefSeq_dna;Acc:NR_003400]			
C06A1.6	C06A1.6	C06A1.6 [Source:RefSeq_peptide;Acc:NP_496274]	DNA repair, 		metal ion binding, endonuclease activity, 
C06A1.7	C06A1.7	C06A1.7 [Source:RefSeq_peptide;Acc:NP_001021922]	DNA repair, 		metal ion binding, endonuclease activity, 
C06A1.2	C06A1.2	C06A1.2 [Source:RefSeq_peptide;Acc:NP_496275]			
C06A1.3	C06A1.3	Putative serine/threonine-protein phosphatase C06A1.3 (EC 3.1.3.16). [Source:Uniprot/SWISSPROT;Acc:P48458]			hydrolase activity, 
C06A1.4	C06A1.4		reproduction, 		
C06A1.5	C06A1.5	Probable DNA-directed RNA polymerases I, II, and III subunit RPABC2 (RNA polymerases I, II, and III subunit ABC2) (RPB6). [Source:Uniprot/SWISSPROT;Acc:Q17684]	transcription, transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 		DNA binding, DNA-directed RNA polymerase activity, calcium ion binding, 
tag-242	C14A4.1	Deoxyhypusine hydroxylase (EC 1.14.99.29) (Deoxyhypusine monooxygenase). [Source:Uniprot/SWISSPROT;Acc:Q17949]	biological_process, hypusine biosynthetic process, 		binding, deoxyhypusine monooxygenase activity, 
dap-3	C14A4.2	dap-3 is an ortholog of mammalian death-associated protein 3 (DAP3), a mitochondrial ribosomal protein that promotes apoptosis. [Source: WormBase]	apoptosis, growth, 	mitochondrial ribosome, small ribosomal subunit, 	nucleotide binding, nucleoside-triphosphatase activity, 
C14A4.14	C14A4.14	C14A4.14 [Source:RefSeq_peptide;Acc:NP_496281]	embryonic development ending in birth or egg hatching, 		
C14A4.3	C14A4.3	Putative glycosyltransferase C14A4.3 (EC 2.-.-.-). [Source:Uniprot/SWISSPROT;Acc:P54002]			
crn-3	C14A4.4	crn-3 encodes a cell death-related nuclease, homologous to the 100 kDa polymyositis/scleroderma autoantigen (PM/Scl-100), that is required for normal levels of DNA degradation during apoptosis. PM/Scl-100 is a ribonuclease component of the multiexonuclease exosome complex, which processes or degrades several types of RNAs in yeast. crn-3(RNAi) animals show retarded growth and a low penetrance of embryonic lethality. CRN-3 promotes both DNA degradation and cell corpse engulfment, in a partially redundant pathway that includes CRN-2 but is parallel to CPS-6. CRN-3 is predicted to be mitochondrial. [Source: WormBase]	RNA processing, embryonic development, positive regulation of growth rate, apoptotic cell clearance, DNA fragmentation during apoptosis, 	intracellular, nuclear exosome (RNase complex), 	nucleic acid binding, 3'-5' exonuclease activity, 
crn-5	C14A4.5	Cell-death-Related Nuclease family member (crn-5) [Source:RefSeq_peptide;Acc:NP_496284]	RNA processing, positive regulation of growth rate, DNA fragmentation during apoptosis, 		RNA binding, 3'-5'-exoribonuclease activity, 
C14A4.6	C14A4.6	C14A4.6 [Source:RefSeq_peptide;Acc:NP_496285]			
C14A4.7	C14A4.7	C14A4.7a [Source:RefSeq_peptide;Acc:NP_001021951]			
C14A4.8	C14A4.8	C14A4.8 [Source:RefSeq_peptide;Acc:NP_496287]			structural molecule activity, 
C14A4.9	C14A4.9	C14A4.9 [Source:RefSeq_peptide;Acc:NP_496288]			
srv-2	C14A4.15	Serpentine Receptor, class V family member (srv-2) [Source:RefSeq_peptide;Acc:NP_872061]	signal transduction, 	membrane, 	transmembrane receptor activity, 
taf-13	C14A4.10	taf-13 encodes a predicted member of the transcription initiation factor IID, 18kDa subunit family with similarity to Drosophila Taf13. [Source: WormBase]	transcription initiation, 	transcription factor complex, 	RNA polymerase II transcription factor activity, 
C14A4.11	C14A4.11	C14A4.11 [Source:RefSeq_peptide;Acc:NP_496290]	embryonic development ending in birth or egg hatching, 		protein binding, 
C14A4.12	C14A4.12	C14A4.12a [Source:RefSeq_peptide;Acc:NP_001021948]			
C14A4.13	C14A4.13	C14A4.13 [Source:RefSeq_peptide;Acc:NP_496292]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M28.1	M28.1	M28.1 [Source:RefSeq_peptide;Acc:NP_496293]			
M28.8	M28.8	M28.8 [Source:RefSeq_peptide;Acc:NP_496294]	metabolic process, 		
M28.2	M28.2	M28.2 [Source:RefSeq_peptide;Acc:NP_496295]			
M28.9	M28.9	M28.9 [Source:RefSeq_peptide;Acc:NP_496296]			
M28.4	M28.4	M28.4 [Source:RefSeq_peptide;Acc:NP_872072]			
M28.10	M28.10	M28.10 [Source:RefSeq_peptide;Acc:NP_496297]	homoiothermy, response to freezing, 		ice binding, 
nph-1	M28.7	nph-1 encodes a novel, SH3 domain-containing protein that is orthologous to mammalian nephrocystin-1. [Source: WormBase]			
lact-3	M28.6	M28.6 [Source:RefSeq_peptide;Acc:NP_496299]	beta-lactam antibiotic catabolic process, response to antibiotic, 	intracellular, 	DNA binding, beta-lactamase activity, 
M28.5	M28.5	NHP2/L7aE family protein YEL026W homolog. [Source:Uniprot/SWISSPROT;Acc:Q21568]	translation, ribosome biogenesis and assembly, biological_process, 	intracellular, ribosome, ribonucleoprotein complex, 	structural constituent of ribosome, 
rsp-7	D2089.1	Probable splicing factor, arginine/serine-rich 7 (p54). [Source:Uniprot/SWISSPROT;Acc:O01159]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
D2089.2	D2089.2	D2089.2 [Source:RefSeq_peptide;Acc:NP_496302]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
D2089.3	D2089.3	D2089.3 [Source:RefSeq_peptide;Acc:NP_496303]			
ptb-1	D2089.4	human PTB (hnRNP) homolog family member (ptb-1) [Source:RefSeq_peptide;Acc:NP_741041]	mRNA processing, 	nucleus, 	nucleotide binding, RNA binding, protein binding, nucleic acid binding, 
gbh-1	D2089.5	gbh-1 encodes a predicted ortholog of human hBBOX1. expressed in the intestine and in head and body muscles. [Source: WormBase]	electron transport, carnitine biosynthetic process, 		iron ion binding, oxidoreductase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
ggr-1	C09G5.1	ggr-1 encodes a predicted member of the GABA/ glycine receptor family of ligand-gated chloride channels that affects thermotaxis. expressed in AIB, PVR, PVQ, AVH, and SMDV neurons and in some motor neurons in the ventral cord, and in the egg-laying muscles. [Source: WormBase]	transport, ion transport, taxis, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
C09G5.2	C09G5.2	C09G5.2 encodes an ortholog of S. cerevisiae DPH2/YKL191W and human DPH2L2 (OMIM:603456). C09G5.2 is a putative protein component of diphtamide synthesis. C09G5.2 has no obvious function in mass RNAi assays. [Source: WormBase]			
col-79	C09G5.3	Putative cuticle collagen 79. [Source:Uniprot/SWISSPROT;Acc:Q09233]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-39	C09G5.4	col-39 encodes a collagen that is individually dispensable for viability and gross morphology in mass RNAi screens. the amino- and carboxyl-terminal cysteine-rich regions of COL-39 are most closely related to those of COL-8, COL-19, and COL-35. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-80	C09G5.5	Putative cuticle collagen 80. [Source:Uniprot/SWISSPROT;Acc:Q09456]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
bli-1	C09G5.6	The bli-1 gene encodes an unusual cuticular collagen that is required for proper strut formation within the unique medial layer of the adult cuticle. bli-1 interacts genetically with other cuticular collagens such as bli-2 and rol-1, and may be processed for secretion by BLI-4, a Kex2/subtilisin serine endoproteinase. consistent with its role in adult cuticle formation, bli-1 mRNA is highly expressed only during the L4 larval stage. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, beta-adrenergic receptor activity, 
C09G5.7	C09G5.7	Uncharacterized protein C09F5.7. [Source:Uniprot/SWISSPROT;Acc:Q09458]			
C09G5.8	C09G5.8	Uncharacterized protein C09G5.8. [Source:Uniprot/SWISSPROT;Acc:Q09459]			
C52A11.2	C52A11.2	C52A11.2 [Source:RefSeq_peptide;Acc:NP_496314]	morphogenesis of an epithelium, 		iron ion binding, 
C52A11.3	C52A11.3	PDZ domain-containing protein C52A11.3. [Source:Uniprot/SWISSPROT;Acc:Q09284]			protein binding, 
mpz-1	C52A11.4	mpz-1 encodes a multi-PDZ domain containing protein. mpz-1 is expressed in nerve ring, pharyngeal, body, and tail neurons, as well as body wall and vulval muscles. MPZ-1 colocalizes with SNB-1 in neuronal puncta. the PDZ domain 10 of MPZ-1 binds the C-terminal PDZ-binding motif (ETFL) of the serotonin (5-HT) receptor SER-1, MPZ-1 binding enhances SER-1 activity, and mpz-1 is coexpressed with ser-1 in three neuron types and vulval muscle. MPZ-1 may also bind NPR-1 and ZC84.4. mpz-1(RNAi) animals have reduced 5-HT-stimulated egg-laying unless truncated SER-1 is transgenically expressed in vulval muscle. overexpressed MPZ-1 PDZ domain 10 also reduces SER-1-mediated egg-laying. mpz-1 may be translationally regulated by a small upstream open reading frame (uORF). [Source: WormBase]			protein binding, 
ect-2	T19E10.1	ECT2 (mammalian Rho GEF) homolog family member (ect-2) [Source:RefSeq_peptide;Acc:NP_496318]	regulation of Rho protein signal transduction, morphogenesis of an epithelium, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
cdl-1	R06F6.1	cdl-1 encodes a homolog of human hairpin (stem-loop) binding proteins (HBP/SLBP) that bind to the hairpin (stem-loop) structure in the 3' untranslated region (3' UTR) of histone mRNAs, and thus promote histone pre-mRNA processing and translation of mature histone mRNA. CDL-1 is required for normally high levels of histone gene expression, normal cell division during late larval development, embryonic viability, normal vulval morphogenesis, normally rapid apoptosis, and fertility. CDL-1 binds to the stem-loop structure in the 3' UTR of core-histone mRNA. the cdl-1 promoter is most active in dividing cells during embryogenesis and postembryonic development. both CDL-1 and human HBP contain a minimal RNA-binding domain (RBD) of roughly 73 amino acids that has no similarity with other known RNA-binding motifs. [Source: WormBase]	apoptosis, embryonic development ending in birth or egg hatching, 	nucleus, 	
tag-209	R06F6.11	Putative protein tag-209 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09418]			
R06F6.2	R06F6.2	Uncharacterized RING finger protein R06F6.2. [Source:Uniprot/SWISSPROT;Acc:Q09600]	intracellular protein transport, vesicle-mediated transport, biological_process, 		protein binding, zinc ion binding, 
set-14	R06F6.4	MYND-type zinc finger protein R06F6.4. [Source:Uniprot/SWISSPROT;Acc:Q09415]			zinc ion binding, 
npp-19	R06F6.5	Nucleoporin NUP53 (Nuclear pore complex protein Nup53) (Nucleoporin npp-19) (35 kDa nucleoporin). [Source:Uniprot/SWISSPROT;Acc:Q09601]	embryonic development ending in birth or egg hatching, 		
R06F6.6	R06F6.6	Uncharacterized homeobox protein R06F6.6. [Source:Uniprot/SWISSPROT;Acc:Q09602]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
R06F6.7	R06F6.7	Uncharacterized protein R06F6.7 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09416]			
R06F6.8	R06F6.8	Uncharacterized WD repeat protein R06F6.8. [Source:Uniprot/SWISSPROT;Acc:Q09417]	DNA repair, 		
ech-4	R06F6.9	Enoyl-CoA Hydratase family member (ech-4) [Source:RefSeq_peptide;Acc:NP_496330]	metabolic process, 		catalytic activity, acyl-CoA binding, 
R06F6.12	R06F6.12	Uncharacterized protein R06F6.12. [Source:Uniprot/SWISSPROT;Acc:Q6BEV5]			
mix-1	M106.1	The mix-1 gene encodes a homolog of SMC2 involved in chromosome segregation, X-chromosome gene regulation, and repression of X-linked genes during dosage compensation. [Source: WormBase]	DNA metabolic process, chromosome organization and biogenesis, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, ATPase activity, protein binding, transcription regulator activity, 
VM106R.1	VM106R.1	VM106R.1 [Source:RefSeq_peptide;Acc:NP_001076634]	potassium ion transport, embryonic development ending in birth or egg hatching, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
NR_001492.1	M106.6	M106.6, snoRNA [Source:RefSeq_dna;Acc:NR_001492]			
M106.2	M106.2	M106.2 [Source:RefSeq_peptide;Acc:NP_496333]	biological_process, 	integral to membrane, 	molecular_function, 
M106.7	M106.7	M106.7 [Source:RefSeq_peptide;Acc:NP_001076632]	cellular metabolic process, 		nucleotide binding, catalytic activity, 
M106.3	M106.3	M106.3b [Source:RefSeq_peptide;Acc:NP_001076630]			zinc ion binding, 
M106.4	M106.4	M106.4 is orthologous to human GUANINE MONOPHOSPHATE SYNTHETASE (GMPS. OMIM:600358), a partner gene of MLL in treatment-related acute myeloid leukemia with the karyotype t(3.11)(q25.q23). [Source: WormBase]	biosynthetic process, glutamine metabolic process, GMP biosynthetic process, purine nucleotide biosynthetic process, 		ATP binding, protein binding, catalytic activity, ligase activity, GMP synthase (glutamine-hydrolyzing) activity, 
cap-2	M106.5	The beta subunit of actin capping protein that regulates actin cytoskeleton assembly and establishment of initial asymmetry in the embryo. it is expressed in the cytoplasm of all cells in the embryo. [Source: WormBase]	actin cytoskeleton organization and biogenesis, positive regulation of growth rate, 	F-actin capping protein complex, 	actin binding, 
cyn-4	F59E10.2	cyn-4 encodes a divergent member of the cyclophilin family orthologous to human hCyP-60. in the hermaphrodite germline, cyn-4 activity is required for the sperm/oocyte switch, robust germline proliferation and, redundantly with gld-3, for the mitosis/meiosis decision. in addition, maternal cyn-4 is required for embryogenesis and loss of cyn-4 via RNAi results in morphological defects at early larval stages. in vitro, CYN-4 interacts with the MEP-1 NuRD complex component, as do the MOG-1, -4, and -5 proteins. CYN-4's interaction with MEP-1 is independent of the CYN-4 CBD (central binding domain) which is also dispensable for CYN-4's role in the sperm/oocyte switch. CYN-4 is expressed in the nuclei of both germline and somatic cells. in L4 larvae, CYN-4 is ubiquitously expressed in the mitotic and meiotic regions, but absent from the proximal zone. [Source: WormBase]	protein folding, protein ubiquitination, 	ubiquitin ligase complex, 	ubiquitin-protein ligase activity, peptidyl-prolyl cis-trans isomerase activity, 
F59E10.3	F59E10.3	F59E10.3 encodes a zeta subunit of the coatomer (COPI) complex. in mass RNAi assays, F59E10.3 is required for embryonic, larval, and adult viability, for fertility, and for normal osmoregulation. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane coat, 	protein transporter activity, protein binding, 
orc-2	F59E10.1	Origin recognition complex subunit 2 (CeOrc2). [Source:Uniprot/SWISSPROT;Acc:Q21037]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, origin recognition complex, 	
F44F4.1	F44F4.1	F44F4.1 [Source:RefSeq_peptide;Acc:NP_496340]			
F44F4.2	F44F4.2	F44F4.2 [Source:RefSeq_peptide;Acc:NP_496341]	protein amino acid dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine phosphatase activity, 
F44F4.3	F44F4.3	F44F4.3 [Source:RefSeq_peptide;Acc:NP_496342]			
ptr-8	F44F4.4	ptr-8 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-8 is weakly required for normal molting from L4 to adult stages. PTR-8 is also required for normal growth to full size and locomotion. PTR-8 is expressed in hypodermis. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
sra-10	F44F4.5	Serpentine receptor class alpha-10 (Protein sra-10). [Source:Uniprot/SWISSPROT;Acc:Q20405]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
gly-1	F44F4.6	gly-1 encodes a transmembrane glycosyltransferase similar to 2/I N-acetylglucosaminyltransferase. in vitro, GLY-1 demonstrates UDP-Glc:GalB1-3GalNac-R glucosyltransferase activity. gly-1 expression is detected in adult hypodermal seam cells and possibly some neurons adjacent to the anterior bulb of the pharynx. neither gly-1 loss-of-function mutations nor RNA mediated interference (RNAi) result in any obvious abnormalities, suggesting that gly-1 function is not essential for C. elegans development and/or behavior. [Source: WormBase]		membrane, 	acetylglucosaminyltransferase activity, 
sra-12	F44F4.7	Serpentine receptor class alpha-12 (Protein sra-12). [Source:Uniprot/SWISSPROT;Acc:Q20410]	G-protein coupled receptor protein signaling pathway, sensory perception of chemical stimulus, biological_process, 	membrane, integral to membrane, cellular_component, 	rhodopsin-like receptor activity, transmembrane receptor activity, molecular_function, 
sra-11	F44F4.13	sra-11 encodes an orphan, G protein-coupled seven-transmembrane receptor. SRA-11 is expressed in three classes of interneurons, AIA, AIY, and AVB throughout larval and adult stages, and analysis of sra-11 mutations indicates that sra-11 activity in AIY is essential for olfactory imprinting. sra-11 expression in AIY is positively regulated by the TTX-3 and CEH-23 homeodomain proteins, with TTX-3 required for both initiation and maintenance of expression and CEH-23 required solely for maintenance. [Source: WormBase]	sensory perception of chemical stimulus, olfactory learning, detection of chemical stimulus during sensory perception, 	membrane, integral to membrane, 	transmembrane receptor activity, 
F44F4.9	F44F4.9	F44F4.9 [Source:RefSeq_peptide;Acc:NP_496349]			
F44F4.10	F44F4.10	F44F4.1 encodes a nematode-specific sperm protein probably required for a normally high ovulation rate. F44F4.1 has no obvious non-nematode homologs, but does have a putative central coiled-coil domain, and is is paralogous to four other C. elegans proteins (B0207.11, F42G4.6, T08G11.2, and Y81G3A.1). F44F4.1(tm332) hermaphrodites show abnormal egg-laying, retaining significantly fewer eggs than wild-type (perhaps due to a lowered ovulation rate) while retaining late-stage embryos. F44F4.1 has no obvious phenotype in mass RNAi experiments, possibly because of genetic redundancy with its paralogs. F44F4.1 expression is enriched in spermatogenesis. [Source: WormBase]			
tba-4	F44F4.11	tba-4 encodes a member of the alpha tubulin family that also includes tba-1, tba-2, and tba-3, and affects embryonic viability. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
Y19D2B.1	Y19D2B.1	Y19D2B.1 [Source:RefSeq_peptide;Acc:NP_496352]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule, 	GTP binding, structural molecule activity, 
Y19D2B.2	Y19D2B.2	Y19D2B.2 [Source:RefSeq_peptide;Acc:NP_001022419]			
R03D7.1	R03D7.1	R03D7.1 is orthologous to the human gene METHIONINE SYNTHASE (MTR. OMIM:156570), which when mutated leads to disease. [Source: WormBase]	folic acid and derivative biosynthetic process, methionine biosynthetic process, 	intracellular, 	protein binding, metal ion binding, cobalt ion binding, cobalamin binding, dihydropteroate synthase activity, methionine synthase activity, homocysteine S-methyltransferase activity, 
R03D7.2	R03D7.2	R03D7.2 [Source:RefSeq_peptide;Acc:NP_496354]	DNA repair, 		
R03D7.3	R03D7.3				
R03D7.4	R03D7.4	Transcription elongation factor B polypeptide 3 (RNA polymerase II transcription factor SIII subunit A) (Elongin-A). [Source:Uniprot/SWISSPROT;Acc:Q09413]	regulation of transcription, RNA elongation from RNA polymerase II promoter, 	integral to membrane, nucleus, transcription elongation factor complex, 	RNA polymerase II transcription elongation factor activity, 
R03D7.5	R03D7.5	R03D7.5 [Source:RefSeq_peptide;Acc:NP_496356]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
gst-5	R03D7.6	gst-5 encodes a putative glutathione-S-transferase that inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]	biological_process, 	cellular_component, 	
nos-1	R03D7.7	nos-1 encodes an putative RNA-binding protein that contains a zinc-binding motif homologous to that of Drosophila Nanos, a posterior-group protein required for embryonic patterning and primordial germ cell development. in C. elegans, NOS-1 is required redundantly with NOS-2, a second Nanos homolog, for maintenance of germ cell viability during postembryonic development and for preventing primordial germ cells from dividing in the absence of food. nos-1 mRNA is expressed dynamically in the embryo, with early expression seen throughout the embryo and later expression restricted solely to germline blastomeres. nos-1 mRNA becomes undetectable after the 200-cell stage, but reappears later at the 550-cell stage. NOS-1 protein is not detectable in germline blastomeres until the 550-cell stage, suggesting that NOS-1 might actually function zygotically in germline specification. [Source: WormBase]			RNA binding, zinc ion binding, 
R03D7.8	R03D7.8	R03D7.8 [Source:RefSeq_peptide;Acc:NP_496359]			hydrolase activity, 
ptp-3	C09D8.1	ptp-3 encodes a receptor-like tyrosine phosphatase orthologous to the LAR (Leukocyte Common Antigen Related, OMIM:179590) subfamily of receptor-like tyrosine phosphatases that contain extracellular immunoglobulin-like and fibronectin type III domains and have been implicated in linking cell adhesion to intracellular phosphotyrosine levels. PTP-3 plays a role in gastrulation and epidermal development and functions partly redundantly with the VAB-1 Eph receptor and ephrins VAB-2 and EFN-4 to regulate embryonic morphogenesis. PTP-3 is expressed in many tissues during early embryogenesis, but expression later becomes localized to neuronal processes and epithelial adherens junctions. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, gastrulation, synaptogenesis, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
col-81	F38A3.1	F38A3.1 [Source:RefSeq_peptide;Acc:NP_496361]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
ram-2	F38A3.2	ram-2 encodes a cuticle collagen that interacts with unc-6 to affect ray cell migration, and interacts with unc-5 and unc-6 to affect embryonic viability. also affects ray morphology in males such that the structural cells and the hypodermis of the rays are swollen in mutants. [Source: WormBase]	phosphate transport, cell migration, sensory organ development, 	cytoplasm, 	structural constituent of cuticle, 
let-858	F33A8.1	let-858 encodes nucampholin, a highly conserved protein rich in acidic and basic residues that also shares some similarity to eukaryotic initiation factor eIF-4 gamma. LET-858 is required for early embryogenesis and tissue differentiation and is expressed ubiquitously throughout development. LET-858 localizes to nuclei where it overlaps, but is not restricted to, chromosomal regions. based upon its sequence and localization, LET-858 is likely to be involved in protein synthesis and/or RNA binding. [Source: WormBase]	RNA metabolic process, embryonic development ending in birth or egg hatching, gastrulation, 		protein binding, 
F33A8.7	F33A8.7	F33A8.7 [Source:RefSeq_peptide;Acc:NP_496364]			
nlp-18	F33A8.2	nlp-18 encodes four predicted neuropeptide-like proteins. in C. elegans, nlp-18 is part of the FAFA neuropeptide family that also contains nlp-20. nlp-18 is expressed in a variety of neurons, including ASI, NSM, four head neurons, two tail neurons, and two anterior pharyngeal neurons. nlp-18 expression is also detected in the spermatheca, the rectal gland, and the intestine. as loss of nlp-18 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of nlp-18-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
F33A8.10	F33A8.10	F33A8.10 [Source:RefSeq_peptide;Acc:NP_001022136]			
cey-1	F33A8.3	cey-1 encodes a protein with a cold-shock/Y-box domain that is expressed in early embryonic blastomeres (at the 15-cell stage, i.e., pre-gastrulation), but is normally repressed in early germline blastomeres by PIE-1. it is predicted to be mitochondrial by phylogenetic profiling. [Source: WormBase]	regulation of transcription, DNA-dependent, 		DNA binding, nucleic acid binding, 
col-83	F33A8.9	F33A8.9 [Source:RefSeq_peptide;Acc:NP_496367]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F33A8.4	F33A8.4	F33A8.4 [Source:RefSeq_peptide;Acc:NP_496368]	methylation, 		zinc ion binding, methyltransferase activity, nucleic acid binding, 
sdhd-1	F33A8.5	F33A8.5 is orthologous to the human gene SUCCINATE DEHYDROGENASE COMPLEX, SUBUNIT D, INTEGRAL MEMBRANE PROTEIN (SDHD. OMIM:602690), which when mutated leads to disease. [Source: WormBase]	tricarboxylic acid cycle, electron transport, positive regulation of growth rate, 	integral to membrane, mitochondrial envelope, 	iron ion binding, heme binding, 
F33A8.6	F33A8.6	F33A8.6 [Source:RefSeq_peptide;Acc:NP_496370]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
F45E10.2	F45E10.2	F45E10.2b [Source:RefSeq_peptide;Acc:NP_001022174]	transport, 	membrane, integral to membrane, 	transporter activity, 
unc-53	F45E10.1	UNC-53 encodes at least five large (~1200-1600 residue) proteins, orthologous to human NAV1, NAV2/RAINB1 (OMIM:607026), and NAV3, and homologous to Drosophila CG10662. UNC-53 proteins are required for anteroposterior guidance of migrating cells and axons, and for egg-laying, correct backward locomotion, full body size, and male mating. UNC-53 proteins vary in their N-terminal regions but share common C-terminal sequences with an AAA-ATPase domain. UNC-71 binds B0336.6 in a yeast two-hybrid screen, and interacts both physically and genetically with SEM-5. unc-53 is expressed in those cells requiring it, suggesting that its function is cell-autonomous. overexpression of unc-53 induces excess cellular outgrowth. [Source: WormBase]	mesodermal cell migration, positive regulation of axon extension, 		nucleotide binding, nucleoside-triphosphatase activity, 
rpl-42	C09H10.1	Ribosomal Protein, Large subunit family member (rpl-42) [Source:RefSeq_peptide;Acc:NP_496373]			
C09H10.10	C09H10.10	C09H10.10 [Source:RefSeq_peptide;Acc:NP_496374]	embryonic development ending in birth or egg hatching, 		
rpl-41	C09H10.2	rpl-41 encodes a large ribosomal subunit L41 protein. by homology, RPL-41 is predicted to function in protein biosynthesis. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
nuo-1	C09H10.3	nuo-1 encodes a encodes a 51 kDa subunit of mitochondrial complex I that is required for oxidative phosphorylation, resistance to volatile anesthetics, and progression through development. nuo-1 is orthologous to human NDUFV1 (OMIM:161015, mutated in Leigh syndrome). nuo-1(ua1) induces a developmental arrest at the third larval (L3) stage that blocks reproduction, and thus is lethal to a population homozygous for nuo-1(ua1). yet arrested L3 nuo-1(ua1) animals have an individual lifespan significantly longer than normal. [Source: WormBase]	electron transport, ciliary or flagellar motility, mitochondrial electron transport, NADH to ubiquinone, embryonic development ending in birth or egg hatching, 	outer membrane-bounded periplasmic space, flagellin-based flagellum basal body, distal rod, P ring, 	4 iron, 4 sulfur cluster binding, NAD binding, structural molecule activity, FMN binding, oxidoreductase activity, acting on NADH or NADPH, NADH dehydrogenase (ubiquinone) activity, 
C09H10.5	C09H10.5	C09H10.5 [Source:RefSeq_peptide;Acc:NP_496378]			
C09H10.9	C09H10.9	C09H10.9 [Source:RefSeq_peptide;Acc:NP_496379]			
nasp-1	C09H10.6	NASP (human Nuclear Autoantigenic Sperm Protein) homolog family member (nasp-1) [Source:RefSeq_peptide;Acc:NP_496380]	oviposition, 		protein binding, 
C09H10.7	C09H10.7	C09H10.7 [Source:RefSeq_peptide;Acc:NP_496381]	embryonic development ending in birth or egg hatching, 		
C09H10.8	C09H10.8	C09H10.8 [Source:RefSeq_peptide;Acc:NP_496382]	embryonic development ending in birth or egg hatching, 		
mat-2	W10C6.1	mat-2 encodes a subunit of the anaphase-promoting complex or cyclosome (APCC) which is a multi-subunit E3 ubiquitin ligase that targets proteins for degradation during the metaphase-to-anaphase transition of the cell cycle. mat-2 is required for chromosome segregation during meiosis I and is involved in polarity specification of the anterior/posterior axis in the developing embryo. [Source: WormBase]	reproduction, 		protein binding, 
W10C6.2	W10C6.2	W10C6.2 [Source:RefSeq_peptide;Acc:NP_001022406]			
rps-9	F40F8.10	rps-9 encodes a small ribosomal subunit S9 protein. [Source: WormBase]	translation, reproduction, 	intracellular, small ribosomal subunit, ribonucleoprotein complex, 	RNA binding, structural constituent of ribosome, rRNA binding, 
lsm-1	F40F8.9	LSM Sm-like protein family member (lsm-1) [Source:RefSeq_peptide;Acc:NP_496385]	mRNA metabolic process, 	ribonucleoprotein complex, 	
F40F8.1	F40F8.1	F40F8.1 [Source:RefSeq_peptide;Acc:NP_496386]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide kinase activity, phosphotransferase activity, phosphate group as acceptor, shikimate kinase activity, 
F40F8.3	F40F8.3	F40F8.3 [Source:RefSeq_peptide;Acc:NP_496387]			
F40F8.12	F40F8.12	F40F8.12 [Source:RefSeq_peptide;Acc:NP_001076628]			
F40F8.11	F40F8.11	F40F8.11 [Source:RefSeq_peptide;Acc:NP_001076627]			ATP binding, ATPase activity, 
F40F8.5	F40F8.5	F40F8.5 [Source:RefSeq_peptide;Acc:NP_496388]			protein binding, 
F40F8.4	F40F8.4	F40F8.4 [Source:RefSeq_peptide;Acc:NP_496389]			
F40F8.8	F40F8.8	F40F8.8 [Source:RefSeq_peptide;Acc:NP_496390]			protein binding, 
pqm-1	F40F8.7	pqm-1 encodes a C2H2-type zinc finger and leucine zipper-containing protein that is upregulated in response to oxidative stress induced by paraquat treatment. PQM-1 may function as a stress-responsive transcription factor. [Source: WormBase]	defense response, 	intracellular, 	zinc ion binding, nucleic acid binding, 
ptr-13	K07C10.1	ptr-13 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-13 is weakly required for normal molting from L4 to adult stages. PTR-13 is also required for normal growth to full size and locomotion. [Source: WormBase]	dicarboxylic acid transport, 	membrane, integral to membrane, 	hedgehog receptor activity, sodium:dicarboxylate symporter activity, 
K07C10.t1	K07C10.t1				
NR_001491.1	K07C10.2	K07C10.2, snoRNA [Source:RefSeq_dna;Acc:NR_001491]			
F37H8.2	F37H8.2	F37H8.2 [Source:RefSeq_peptide;Acc:NP_496393]			
F37H8.3	F37H8.3	F37H8.3 [Source:RefSeq_peptide;Acc:NP_496394]	metabolic process, 		catalytic activity, 
lir-3	F37H8.1	lir-3 encodes a LIN-26-like zinc-finger protein that shares a unique C2H2 motif together with LIR-1, LIR-2 and LIN-26. as loss of lir-3 activity via mutation or RNAi results in no obvious abnormalities, the precise role of lir-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
sfxn-1.2	F37H8.4	F37H8.4 [Source:RefSeq_peptide;Acc:NP_496396]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
F37H8.5	F37H8.5	GILT-like protein F37H8.5 precursor. [Source:Uniprot/SWISSPROT;Acc:O17861]			
T06D8.1	T06D8.1	T06D8.1a [Source:RefSeq_peptide;Acc:NP_496398]		proteinaceous extracellular matrix, 	
T06D8.3	T06D8.3	T06D8.3 [Source:RefSeq_peptide;Acc:NP_496399]			
NR_001493.1	T06D8.11	T06D8.11, snoRNA [Source:RefSeq_dna;Acc:NR_001493]			
T06D8.2	T06D8.2	T06D8.2 [Source:RefSeq_peptide;Acc:NP_496400]	nucleotide-excision repair, embryonic development ending in birth or egg hatching, 		DNA binding, nuclease activity, 
T06D8.5	T06D8.5	T06D8.5 [Source:RefSeq_peptide;Acc:NP_496402]	protein complex assembly, positive regulation of growth rate, 	membrane, 	
cchl-1	T06D8.6	Probable cytochrome c-type heme lyase (EC 4.4.1.17) (CCHL) (Holocytochrome-c-type synthase). [Source:Uniprot/SWISSPROT;Acc:P53703]	metabolic process, positive regulation of growth rate, 	mitochondrion, 	oxidoreductase activity, holocytochrome-c synthase activity, 
T06D8.7	T06D8.7	T06D8.7 [Source:RefSeq_peptide;Acc:NP_496404]	embryonic development ending in birth or egg hatching, 		
rpn-9	T06D8.8	rpn-9 is predicted to encode a non-ATPase subunit of the 19S regulatory complex of the proteasome that that affects body morphology, embryonic viability, locomotion, larval viability, fertility, and growth. interacts with RPN-11 in yeast two-hybrid assays. [Source: WormBase]	positive regulation of growth rate, 		
T06D8.9	T06D8.9	T06D8.9 [Source:RefSeq_peptide;Acc:NP_496406]	protein secretion, 	integral to membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
T06D8.10	T06D8.10	T06D8.10 [Source:RefSeq_peptide;Acc:NP_496407]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
T05B9.2	T05B9.2	T05B9.2 [Source:RefSeq_peptide;Acc:NP_496408]			
T05B9.1	T05B9.1	T05B9.1 [Source:RefSeq_peptide;Acc:NP_496409]			
cut-1	C47G2.1	cut-1 encodes a component of cuticlin, an insoluble residue of the nematode cuticle required for alae formation and radial shrinking during dauer differentiation. expressed specifically in the cuticle of dauer larvae and is secreted by the seam cells. [Source: WormBase]	positive regulation of multicellular organism growth, homoiothermy, response to freezing, 		ice binding, 
unc-130	C47G2.2	A member of the forkhead domain family of transcription factors that affects the generation of the AWA and ASG chemosensory neurons and is partially required for male tail morphogenesis and embryogenesis. it is expressed in the AWA and ASG precursors. it is required for the graded spatial expression of the UNC-129 TGF-beta guidance factor. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C47G2.3	C47G2.3	Mitochondrial import inner membrane translocase subunit tim-22. [Source:Uniprot/SWISSPROT;Acc:Q9NAQ9]	protein transport, embryonic development ending in birth or egg hatching, 	mitochondrial inner membrane, 	protein transporter activity, 
C47G2.4	C47G2.4	LMBR1 domain-containing protein 2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q18695]			
C47G2.6	C47G2.6				
C47G2.8	C47G2.8	C47G2.8 [Source:RefSeq_peptide;Acc:NP_001022036]			
C47G2.7	C47G2.7				
C47G2.5	C47G2.5	C47G2.5 [Source:RefSeq_peptide;Acc:NP_496414]	embryonic development ending in birth or egg hatching, 		protein binding, 
raga-1	T24F1.1	Temporarily Assigned Gene name family member (tag-29) [Source:RefSeq_peptide;Acc:NP_496415]	protein transport, small GTPase mediated signal transduction, 	cytoplasm, intracellular, nucleus, 	GTP binding, 
T24F1.2	T24F1.2	T24F1.2 [Source:RefSeq_peptide;Acc:NP_496416]			protein binding, 
T24F1.3	T24F1.3	T24F1.3a [Source:RefSeq_peptide;Acc:NP_001022361]	intracellular signaling cascade, signal transduction, 		protein binding, 
T24F1.7	T24F1.7	T24F1.7 [Source:RefSeq_peptide;Acc:NP_001022365]			
T24F1.4	T24F1.4	T24F1.4 [Source:RefSeq_peptide;Acc:NP_496418]			
T24F1.5	T24F1.5	T24F1.5 [Source:RefSeq_peptide;Acc:NP_496419]			
tag-180	T24F1.6	Temporarily Assigned Gene name family member (tag-180) [Source:RefSeq_peptide;Acc:NP_001022363]		membrane, 	
B0491.t2	B0491.t2				
B0491.t1	B0491.t1				
sqt-1	B0491.2	sqt-1 encodes a cuticle collagen. during larval and adult development, sqt-1 activity is required, likely redundantly, for normal cuticle, and hence organismal, morphology. sqt-1 mRNA abundance oscillates during larval development, peaking at one point during each larval stage and peaking again in adults. sqt-1 transcripts are also detected in animals at the L1-L2d molt. in the temporally distinct waves of collagen gene expression that occur during larval development, sqt-1 mRNA appears to be synthesized during the second, or intermediate, stage, just very slightly earlier than sqt-3/col-1 and dpy-13. SQT-1 protein is detected in cuticle extracts from L2, L3, and L4 larvae, and from adults, but is not detected in extracts from L1 or dauer larvae. sqt-1 interacts genetically with a number of genes also required for normal cuticle and organismal morphology, e.g., rol-6 and lon-3, which also encode cuticular collagens. [Source: WormBase]	phosphate transport, collagen and cuticulin-based cuticle development, 	cytoplasm, 	structural constituent of cuticle, 
B0491.3	B0491.3	B0491.3 [Source:RefSeq_peptide;Acc:NP_496422]			
lgc-20	B0491.4	B0491.4 [Source:RefSeq_peptide;Acc:NP_496423]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
B0491.5	B0491.5	B0491.5 [Source:RefSeq_peptide;Acc:NP_496424]	embryonic development ending in birth or egg hatching, 		
B0491.6	B0491.6	B0491.6 [Source:RefSeq_peptide;Acc:NP_496425]			
B0491.1	B0491.1	B0491.1 [Source:RefSeq_peptide;Acc:NP_496426]			
B0491.7	B0491.7	B0491.7 encodes a putative diphthine synthase orthologous to S. cerevisiae DPH5. DPH5 is an S-adenosylmethionine:EF-2 methyltransferase required for the enzymatic conversion of 3-amino-3-carboxypropyl-histidine to diphthine. DPH5 adds at least the last two of the three methyl groups present in diphthine, and is homologous to bacterial AdoMet:uroporphyrinogen III methyltransferases. [Source: WormBase]	metabolic process, peptidyl-diphthamide biosynthetic process from peptidyl-histidine, 		methyltransferase activity, diphthine synthase activity, 
clh-2	B0491.8	clh-2 encodes a chloride channel protein that is required for embryonic viability. may have two transcripts transcribed from alternative promoters, and the two transcripts might be expressed in different cell types. [Source: WormBase]	transport, chloride transport, biological_process, 	membrane, 	transporter activity, voltage-gated chloride channel activity, GABA-B receptor activity, 
C33B4.2	C33B4.2	C33B4.2 [Source:RefSeq_peptide;Acc:NP_496430]			
C33B4.4	C33B4.4	C33B4.4 [Source:RefSeq_peptide;Acc:NP_001022008]			
C33B4.5	C33B4.5	C33B4.5 [Source:RefSeq_peptide;Acc:NP_001022009]			
shn-1	C33B4.3	SHaNk (SH3/ankyrin domain scaffold protein) related family member (shn-1) [Source:RefSeq_peptide;Acc:NP_001022006]	cell adhesion, positive regulation of growth rate, 	actin cytoskeleton, 	protein binding, structural molecule activity, structural constituent of cell wall, 
C05D12.7	C05D12.7	C05D12.7 [Source:RefSeq_peptide;Acc:NP_001021921]			
C05D12.1	C05D12.1	C05D12.1 [Source:RefSeq_peptide;Acc:NP_496432]			
C05D12.2	C05D12.2	C05D12.2 [Source:RefSeq_peptide;Acc:NP_496433]			
C05D12.3	C05D12.3	C05D12.3a [Source:RefSeq_peptide;Acc:NP_001040730]			
C05D12.4	C05D12.4	C05D12.4 [Source:RefSeq_peptide;Acc:NP_496434]			
C05D12.5	C05D12.5	C05D12.5 [Source:RefSeq_peptide;Acc:NP_496435]			protein binding, 
vha-6	VW02B12L.1	vha-6 encodes an ortholog of subunit a of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-6 is orthologous to human ATP6N1A (OMIM:192130), ATP6V0A2, ATP6V0A4 (OMIM:605239, mutated in distal renal tubular acidosis), and TCIRG1 (OMIM:604592, mutated in osteopetrosis). VHA-6 is expressed in germline (P2 through Z3 cells until the comma stage), on the apical surface of postembryonic intestinal cells, and at the junction between pharynx and intestine. VHA-6 is required for growth and survival past the L1 larval stage. vha-6(RNAi) animals arrest as L1 larvae and remain alive (but do not grow) for one week. in S. cerevisiae, different V0 a-subunits (Stv1p and Vph1p) direct the assembly of V-ATPases to different membranes and organelles, suggesting that the profusion of such subunits in C. elegans (co-orthologous VHA-5, VHA-6, VHA-7, and six UNC-32 isoforms) may have a similar function. VHA-6 is predicted to capture protons from V-ATPase transmembrane rotor components and export the protons across the membrane. [Source: WormBase]	proton transport, embryonic development ending in birth or egg hatching, nematode larval development, 	membrane, 	
VW02B12L.2	VW02B12L.2	VW02B12L.2 [Source:RefSeq_peptide;Acc:NP_496437]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
VW02B12L.t1	VW02B12L.t1				
VW02B12L.t2	VW02B12L.t2				
ebp-2	VW02B12L.3	microtubule End Binding Protein family member (ebp-2) [Source:RefSeq_peptide;Acc:NP_496438]			protein binding, microtubule binding, 
adbp-1	VW02B12L.4	VW02B12L.4 [Source:RefSeq_peptide;Acc:NP_496439]			protein binding, 
W02B12.13	W02B12.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPK4]	ciliary or flagellar motility, 	outer membrane-bounded periplasmic space, flagellin-based flagellum basal body, distal rod, P ring, 	structural molecule activity, 
W02B12.1	W02B12.1	W02B12.1 [Source:RefSeq_peptide;Acc:NP_496440]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
rsp-2	W02B12.2	Probable splicing factor, arginine/serine-rich 2 (RNA-binding protein srp-4) (CeSRp40). [Source:Uniprot/SWISSPROT;Acc:Q23120]	RNA splicing, nematode larval development, gonad development, spermatogenesis, regulation of growth rate, 	nucleus, 	RNA binding, nucleic acid binding, 
rsp-1	W02B12.3	Probable splicing factor, arginine/serine-rich 1 (RNA-binding protein srp-5) (CeSRp75). [Source:Uniprot/SWISSPROT;Acc:Q23121]	regulation of transcription, DNA-dependent, multicellular organismal development, G-protein coupled receptor protein signaling pathway, nucleosome assembly, RNA splicing, locomotory behavior, spermatogenesis, regulation of growth rate, 	integral to membrane, nucleus, chromatin, nucleosome, 	RNA binding, DNA binding, nucleic acid binding, galanin receptor activity, 
W02B12.4	W02B12.4	W02B12.4 [Source:RefSeq_peptide;Acc:NP_496443]			
ars-1	W02B12.6	ars-1 encodes an alanyl tRNA synthetase. on the basis of similarity to S. cerevisiae ALA1p, ARS-1 is probably cytoplasmic. [Source: WormBase]	translation, alanyl-tRNA aminoacylation, 	cytoplasm, 	ATP binding, nucleotide binding, alanine-tRNA ligase activity, 
rga-1	W02B12.8	Rho GTPase Activating protein family member (rga-1) [Source:RefSeq_peptide;Acc:NP_001022390]	signal transduction, 	intracellular, 	protein binding, 
klp-17	W02B12.7	klp-17 encodes a C-terminal kinesin motor protein orthologous to Drosophila NCD and Saccharomyces cerevisiae KAR3. by homology, KLP-17 is predicted to function as a minus-end directed motor. loss of klp-17 activity via RNAi results in embryonic lethality generally at the one- or two-cell stage with disorganized mitotic spindles and polyploid nuclei, suggesting that KLP-17 plays a role in chromosome segregation and germline development. in situ hybridization studies reveal that klp-17 mRNA is localized specifically to cell nuclei during early development, from the one-cell stage of embryogenesis until early larval stages. a klp-17::gfp transgene did not yield detectable GFP expression, but did result in a small percentage of morphologically abnormal males and intersexual animals that grew slowly and died upon reaching maturity, consistent with a role for klp-17 in chromosome dynamics. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
W02B12.15	W02B12.15	W02B12.15 [Source:RefSeq_peptide;Acc:NP_001022387]			
W02B12.9	W02B12.9	Mitoferrin. [Source:Uniprot/SWISSPROT;Acc:Q23125]	transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
W02B12.10	W02B12.10	Probable tRNA (guanine-N(7)-)-methyltransferase (EC 2.1.1.33) (tRNA(m7G46)-methyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q23126]	tRNA modification, embryonic development ending in birth or egg hatching, 	cellular_component, 	methyltransferase activity, tRNA (guanine-N7-)-methyltransferase activity, 
W02B12.11	W02B12.11	W02B12.11 [Source:RefSeq_peptide;Acc:NP_496449]	carbohydrate metabolic process, 		transferase activity, transferring glycosyl groups, 
W02B12.12	W02B12.12	W02B12.12b [Source:RefSeq_peptide;Acc:NP_001022386]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0334.9	B0334.9	The B0334.9 gene encodes a protein whose central residues may be an ancient conserved domain in eukaryotes, being similar to the short coding sequence NKL044C from S. cerevisiae. [Source: WormBase]			
twk-5	B0334.2	twk-5 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. as loss of TWK-5 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of TWK-5 in C. elegans development and/or behavior is not yet known. TWK-5 may, however, function redundantly with other TWK channels. the TWK-5 expression pattern is not yet known. [Source: WormBase]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
NR_001490.1	B0334.12	B0334.12, snoRNA [Source:RefSeq_dna;Acc:NR_001490]			
B0334.1	B0334.1	B0334.1 [Source:RefSeq_peptide;Acc:NP_496453]			
B0334.13	B0334.13	B0334.13 [Source:RefSeq_peptide;Acc:NP_001021894]			
B0334.3	B0334.3	B0334.3a [Source:RefSeq_peptide;Acc:NP_496454]			catalytic activity, magnesium ion binding, carbon-carbon lyase activity, thiamin pyrophosphate binding, 
ooc-3	B0334.11	ooc-3 encodes a nematode-specific protein with a predicted signal sequence, four predicted transmembrane domains, and two putative PEST sequences. OOC-3 is probably localized to the endoplasmic reticulum (ER), and is maternally required for correct localization of PAR-2 and PAR-3 in the P1 blastomere of the two-cell stage embryo. specifically, OOC-3 is required for restricting PAR-3 to the anterior cortex of the P1 blastomere to assure PAR-2 localization at the posterior cortex. more generally, OOC-3 is required to establish asymmetrical anterior-posterior cortical domains and spindle orientation in P1. [Source: WormBase]	regulation of small GTPase mediated signal transduction, embryonic development ending in birth or egg hatching, establishment of mitotic spindle orientation, 	intracellular, 	GTPase activator activity, molecular_function, 
B0334.4	B0334.4	B0334.4 [Source:RefSeq_peptide;Acc:NP_496457]			
B0334.5	B0334.5	B0334.5 [Source:RefSeq_peptide;Acc:NP_496458]	positive regulation of growth rate, 		
B0334.6	B0334.6	B0334.6 [Source:RefSeq_peptide;Acc:NP_496459]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-44	B0334.7	Serpentine Receptor, class H family member (srh-44) [Source:RefSeq_peptide;Acc:NP_496460]			
B0334.10	B0334.10	B0334.10 [Source:RefSeq_peptide;Acc:NP_496461]			
age-1	B0334.8	age-1 encodes the C. elegans ortholog of the phosphoinositide 3-kinase (PI3K) p110 catalytic subunit. AGE-1, supplied maternally and embryonically, is a central component of the C. elegans insulin-like signaling pathway, lying downstream of the DAF-2/insulin receptor and upstream of both the PDK-1 and AKT-1/AKT-2 kinases and the DAF-16 forkhead type transcription factor, whose negative regulation is the key output of the insulin signaling pathway. in accordance with its role in insulin signaling, AGE-1 activity is required for regulation of metabolism, life span, dauer formation, stress resistance, salt chemotaxis learning, fertility, and embryonic development. although the age-1 expression pattern has not yet been reported, ectopic expression studies indicate that pan-neuronal age-1 expression is sufficient to rescue life-span defects, while neuronal, intestinal, or muscle expression can partially rescue dauer formation, and neuronal or muscle expression can rescue metabolic defects. [Source: WormBase]	signal transduction, dauer larval development, dauer entry, aging, phosphoinositide phosphorylation, phosphoinositide-mediated signaling, 	phosphoinositide 3-kinase complex, 	phosphotransferase activity, alcohol group as acceptor, 1-phosphatidylinositol-3-kinase activity, inositol or phosphatidylinositol kinase activity, 
Y62F5A.10	Y62F5A.10	Y62F5A.10 [Source:RefSeq_peptide;Acc:NP_001022486]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
mdt-8	Y62F5A.1	MeDiaTor family member (mdt-8) [Source:RefSeq_peptide;Acc:NP_496464]	positive regulation of growth rate, 		
Y62F5A.9	Y62F5A.9	Y62F5A.9 [Source:RefSeq_peptide;Acc:NP_741048]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
F54D5.12	F54D5.12	F54D5.12 [Source:RefSeq_peptide;Acc:NP_496465]	electron transport, 		oxidoreductase activity, FAD binding, 
F54D5.11	F54D5.11	F54D5.11 [Source:RefSeq_peptide;Acc:NP_496466]	transcription initiation from RNA polymerase II promoter, positive regulation of growth rate, 	transcription factor TFIIE complex, 	RNA polymerase II transcription factor activity, 
F54D5.9	F54D5.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
dnj-13	F54D5.8	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
F54D5.7	F54D5.7	The F54D5.7 gene encodes an ortholog of the human gene GLUTARYL-COENZYME A DEHYDROGENASE (GCDH), which when mutated leads to glutaricaciduria type I (OMIM:231670). [Source: WormBase]	metabolic process, electron transport, 		protein binding, acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
F54D5.16	F54D5.16				
F54D5.15	F54D5.15	F54D5.15c [Source:RefSeq_peptide;Acc:NP_001022201]			protein binding, 
F54D5.5	F54D5.5	F54D5.5b [Source:RefSeq_peptide;Acc:NP_001022203]	embryonic development ending in birth or egg hatching, 		
F54D5.4	F54D5.4	F54D5.4 [Source:RefSeq_peptide;Acc:NP_496472]			
F54D5.3	F54D5.3	F54D5.3 [Source:RefSeq_peptide;Acc:NP_496473]			
F54D5.2	F54D5.2	F54D5.2 [Source:RefSeq_peptide;Acc:NP_496474]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
pcs-1	F54D5.1	PhytoChelatin Synthase family member (pcs-1) [Source:RefSeq_peptide;Acc:NP_496475]			
F54D5.14	F54D5.14	F54D5.14 [Source:RefSeq_peptide;Acc:NP_496476]	DNA metabolic process, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, 
D1043.1	D1043.1	D1043.1 [Source:RefSeq_peptide;Acc:NP_496477]	embryonic development ending in birth or egg hatching, 		
F07A11.1	F07A11.1	F07A11.1 [Source:RefSeq_peptide;Acc:NP_496478]			
F07A11.2	F07A11.2	F07A11.2 encodes two isoforms of a putative glucosamine-fructose 6-phosphate aminotransferase, paralogous to F22B3.4, thought to catalyse the first step of the hexosamine pathway to UDP-N-acetylglucosamine or UDP-N-acetylgalactosamine. F07A11.2 is expressed in many larval and adult tissues, but F07A11.2 transcripts are at least somewhat enriched during oogenesis. F07A11.2(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, presumably because of defects in chitin and eggshell synthesis. [Source: WormBase]	metabolic process, carbohydrate metabolic process, carbohydrate biosynthetic process, embryonic development ending in birth or egg hatching, 	cytoplasm, 	sugar binding, glutamine-fructose-6-phosphate transaminase (isomerizing) activity, 
npp-5	F07A11.3	Nuclear Pore complex Protein family member (npp-5) [Source:RefSeq_peptide;Acc:NP_496481]	transport, 		
F07A11.4	F07A11.4	F07A11.4 [Source:RefSeq_peptide;Acc:NP_496482]	ubiquitin-dependent protein catabolic process, 		zinc ion binding, ubiquitin thiolesterase activity, 
F07A11.5	F07A11.5	F07A11.5 [Source:RefSeq_peptide;Acc:NP_496483]	D-ribose metabolic process, 		ribokinase activity, 
din-1	F07A11.6	DAF-12 Interacting Protein family member (din-1) [Source:RefSeq_peptide;Acc:NP_496485]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	nucleotide binding, binding, nucleic acid binding, 
kin-6	ZK20.2	kin-6 encodes a predicted tyrosine protein kinase. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZK20.1	ZK20.1	ZK20.1 [Source:RefSeq_peptide;Acc:NP_496486]			lipid binding, 
ZK20.4	ZK20.4	Hcp beta-lactamase-like protein ZK20.4. [Source:Uniprot/SWISSPROT;Acc:Q23450]			binding, 
rad-23	ZK20.3	ZK20.3 [Source:RefSeq_peptide;Acc:NP_496488]	regulation of transcription, DNA-dependent, protein modification process, nucleotide-excision repair, biological_process, homoiothermy, response to freezing, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, ice binding, 
rpn-12	ZK20.5	rpn-12 is predicted to encode a non-ATPase subunit of the 19S regulatory complex of the proteasome that interacts with NHR-6 in yeast two-hybrid assays. [Source: WormBase]		proteasome regulatory particle (sensu Eukaryota), 	
nep-1	ZK20.6	ZK20.6 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. ZK20.6 is closely paralogous to F18A12.8, and orthologous to CG9761 in Drosophila melanogaster. more generally, ZK20.6 falls into a group of proteins that includes the classical neprilysins found in mammals (e.g., PEX [OMIM:307800] and the enkephalin cleaving enzymes). [Source: WormBase]	proteolysis, reproduction, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
trr-1	C47D12.1	trr-1 encodes proteins with similarity to the atypical protein kinases of the TRAAP subfamily of PIKK kinases that are found in multisubunit, chromatin-modifying histone acetyltransferase complexes. trr-1 functions as a negative regulator of let-60/Ras signaling and was initially identified in screens for synMuv genes that interact with lin-15A. trr-1 mutations were subsequently found to have weakly penetrant vulval defects on their own, as well as slow growth and sterile phenotypes. trr-1 is classified as a class C synMuv gene, as it interacts genetically with both class A and class B synMuv mutations. TRR-1 is a nuclear protein that is broadly expressed throughout development. in germ cell nuclei and cellularized oocytes, TRR-1 localizes to condensed chromosomes. [Source: WormBase]	positive regulation of growth rate, negative regulation of vulval development, 		phosphotransferase activity, alcohol group as acceptor, calcium ion binding, 
C47D12.2	C47D12.2	C47D12.2 encodes an ortholog of human FLJ20071/FLJ90130 (dymeclin, OMIM:607461, mutated in Dyggve-Melchior-Clausen dysplasia and Smith-McCort dysplasia), which has no obvious function in mass RNAi assays [Source: WormBase]	negative regulation of vulval development, 		protein binding, 
sfxn-1.4	C47D12.3	C47D12.3 [Source:RefSeq_peptide;Acc:NP_496493]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
C47D12.4	C47D12.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C47D12.5	C47D12.5	C47D12.5 [Source:RefSeq_peptide;Acc:NP_496495]			
kel-1	C47D12.7	kel-1 encodes a BTB/POZ- and Kelch motif-containing protein orthologous to Drosophila Kelch, which is essential for actin organization in ovarian ring canals. in C. elegans, kel-1 is required for regulating feeding during larval development and more specifically, for pharyngeal isthmus peristalsis and efficient trapping of food in the pharynx. KEL-1 is first expressed at the 1.5-fold stage of embryogenesis in the pharyngeal lumen and the nerve ring. later adult and larval expression is confined to the pharyngeal gland cells in which KEL-1 may be required for maintenance of gland cell-specific structures. [Source: WormBase]			protein binding, 
trs-1	C47D12.6	Threonyl-tRNA synthetase, cytoplasmic (EC 6.1.1.3) (Threonine--tRNA ligase) (ThrRS). [Source:Uniprot/SWISSPROT;Acc:P52709]	proteolysis, translation, tRNA aminoacylation for protein translation, threonyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, threonine-tRNA ligase activity, serine carboxypeptidase activity, 
C47D12.8	C47D12.8	C47D12.8 encodes an ortholog of the DNA repair protein XPF/ERCC4, which when mutated in humans leads to xeroderma pigmentosum (complementation group F. OMIM:133520). C47D12.8(RNAi) animals are hypersensitive to ultraviolet radiation, with increased germ cell apoptosis and embryonic lethality. C47D12.8 protein interacts with F10G8.7 (an ERCC1 ortholog) in yeast two-hybrid assays. C47D12.8 is expressed broadly in both embryonic and postembryonic animals, and is required for embryonic development. C47D12.8 is upregulated in dauers, and shares an operon with kel-1 and VF13D12L.3. [Source: WormBase]	DNA metabolic process, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, DNA binding, nuclease activity, 
VF13D12L.1	VF13D12L.1	VF13D12L.1 [Source:RefSeq_peptide;Acc:NP_496499]	phospholipid biosynthetic process, inositol biosynthetic process, locomotory behavior, 		inositol-3-phosphate synthase activity, 
VF13D12L.3	VF13D12L.3	VF13D12L.3 is orthologous to the human gene ARGININOSUCCINATE SYNTHETASE (ASS. OMIM:603470), which when mutated leads to classic citrullinemia. [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
F13D12.9	F13D12.9	F13D12.9 [Source:RefSeq_peptide;Acc:NP_496501]	metabolic process, lipid biosynthetic process, 		methyltransferase activity, cyclopropane-fatty-acyl-phospholipid synthase activity, 
F13D12.10	F13D12.10	F13D12.10 [Source:RefSeq_peptide;Acc:NP_872012]			
F13D12.3	F13D12.3	F13D12.3 [Source:RefSeq_peptide;Acc:NP_496502]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ldh-1	F13D12.2	ldh-1 is orthologous to the human gene LACTATE DEHYDROGENASE B (LDHB. OMIM:150100), which when mutated leads to lactate dehydrogenase-B deficiency. [Source: WormBase]	glycolysis, cellular carbohydrate metabolic process, anaerobic glycolysis, tricarboxylic acid cycle intermediate metabolic process, 	cytoplasm, 	oxidoreductase activity, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, L-lactate dehydrogenase activity, 
F13D12.5	F13D12.5	F13D12.5 [Source:RefSeq_peptide;Acc:NP_496504]			
alh-8	F13D12.4	alh-8 is orthologous to the human gene METHYLMALONATE-SEMIALDEHYDE DEHYDROGENASE (ALDH6A1. OMIM:603178), which when mutated leads to MMSDH deficiency. [Source: WormBase]	metabolic process, valine metabolic process, thymine metabolic process, 		oxidoreductase activity, methylmalonate-semialdehyde dehydrogenase (acylating) activity, acyl-CoA binding, malonate-semialdehyde dehydrogenase (acetylating) activity, 
F13D12.8	F13D12.8	F13D12.8 [Source:RefSeq_peptide;Acc:NP_496506]			protein binding, 
F13D12.6	F13D12.6	F13D12.6 is orthologous to the human gene SIMILAR TO PROTECTIVE PROTEIN FOR BETA-GALACTOSIDASE (GALACTOSIALIDOSIS) (PPGB. OMIM:256540), which when mutated leads to disease. [Source: WormBase]	proteolysis, 		serine carboxypeptidase activity, 
gpb-1	F13D12.7	gpb-1 encodes a heterotrimeric G protein beta subunit that is required during embryonic development for the proper orientation of the mitotic spindle during early cell divisions and thus affects the orientation of early cell division axes, and is also required for larval viability, negatively regulates locomotion and egg-laying, and may affect germline development and osmotic balance. expressed in early embryos with highest expression at cell membranes and colocalizes with asters just before and during early cell divisions (this localization is dependent upon G alpha subunits). adults display high levels of expression in neurons with lower expression in the somatic gonad, vulva, and hypodermal seam cells and expression is also detected in the intestine, pharynx, body wall muscles and in the germline. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 		
F44E5.4	F44E5.4	F44E5.4 encodes a member of the Hsp70 family of heat shock proteins. as loss of F44E5.4 activity via large-scale RNAi screens results in no obvious defects, the precise role of F44E5.4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			ATP binding, 
F44E5.5	F44E5.5	F44E5.5 encodes a member of the Hsp70 family of heat shock proteins. as loss of F44E5.5 activity via large-scale RNAi screens results in no obvious defects, the precise role of F44E5.5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			ATP binding, 
F44E5.3	F44E5.3	F44E5.3 [Source:RefSeq_peptide;Acc:NP_496511]			protein binding, 
F44E5.2	F44E5.2	F44E5.2 [Source:RefSeq_peptide;Acc:NP_496512]			protein binding, 
F44E5.1	F44E5.1	F44E5.1 [Source:RefSeq_peptide;Acc:NP_496513]	positive regulation of growth rate, 		
patr-1	F43G6.9	yeast PAT1(protein associated with topo II) Related family member (patr-1) [Source:RefSeq_peptide;Acc:NP_496514]	embryonic development ending in birth or egg hatching, 		
dna-2	F43G6.1	dna-2 encodes the C. elegans ortholog of the yeast and vertebrate Dna2 replication helicases. by homology, DNA-2 is predicted to function as an endonuclease and an ATP-dependent helicase that is involved in DNA replication and repair. in C. elegans, DNA-2 activity is required maternally and zygotically to maintain normal rates of cell division and for proper germ-line, embryonic, and larval development. DNA-2 activity is temperature-sensitive: animals lacking DNA-2 at 16 degrees Celsius (C) are less severely affected than those at 20 or 25 degrees C. in the hermaphrodite gonad, DNA-2 localizes to nuclei of germ cells and developing oocytes, and expression continues in embryos up to the comma stage. DNA-2 then reappears at the L3 larval stage, and in L3 and L4 larvae is visible in the proliferating somatic cells of the uterus and spermatheca. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, 
F43G6.2	F43G6.2	F43G6.2 [Source:RefSeq_peptide;Acc:NP_496517]			
F43G6.3	F43G6.3	F43G6.3 [Source:RefSeq_peptide;Acc:NP_496518]			protein binding, 
F43G6.4	F43G6.4	F43G6.4 [Source:RefSeq_peptide;Acc:NP_496519]			
F43G6.11	F43G6.11	F43G6.11b [Source:RefSeq_peptide;Acc:NP_741050]			
F43G6.6	F43G6.6	F43G6.6 [Source:RefSeq_peptide;Acc:NP_496520]			protein binding, zinc ion binding, 
F43G6.10	F43G6.10	F43G6.10 [Source:RefSeq_peptide;Acc:NP_496521]			
F43G6.7	F43G6.7	F43G6.7 [Source:RefSeq_peptide;Acc:NP_496522]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
F43G6.8	F43G6.8	F43G6.8 [Source:RefSeq_peptide;Acc:NP_496523]			protein binding, zinc ion binding, 
F43G6.5	F43G6.5	F43G6.5 [Source:RefSeq_peptide;Acc:NP_496524]	transcription, RNA polyadenylation, 	nucleus, 	RNA binding, nucleotidyltransferase activity, polynucleotide adenylyltransferase activity, 
Y6D1A.2	Y6D1A.2	Y6D1A.2 [Source:RefSeq_peptide;Acc:NP_496525]			protein binding, zinc ion binding, protein domain specific binding, 
Y6D1A.1	Y6D1A.1	Y6D1A.1 [Source:RefSeq_peptide;Acc:NP_496526]			
T27D12.3	T27D12.3	T27D12.3 [Source:RefSeq_peptide;Acc:NP_496528]			sugar binding, 
T27D12.1	T27D12.1	T27D12.1 [Source:RefSeq_peptide;Acc:NP_496529]	transport, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, 
clh-1	T27D12.2	clh-1 encodes two CLC-type chloride channels via alternative splicing, homologous to human CLC1 (OMIM:118425) and CLC2 (OMIM:600570). CLH-1a and CLH-1b are required for maintenance of normal body shape. null mutations of clh-1 cause abnormal alae and a wider body than normal, with the body phenotype being reversible by culture medium of high osmolarity. [Source: WormBase]	chloride transport, 	membrane, 	voltage-gated chloride channel activity, 
K12D12.5	K12D12.5	K12D12.5 [Source:RefSeq_peptide;Acc:NP_496532]			nucleic acid binding, ribonuclease H activity, 
K12D12.4	K12D12.4	K12D12.4a [Source:RefSeq_peptide;Acc:NP_001022251]			
npp-3	K12D12.2	npp-3 encodes a predicted nucleoporin that is a homolog of vertebrate Nup205, and is required for normal nuclear pore complex distribution in the nuclear envelope, affects nuclear exclusion of large non-nuclear macromolecules, chromatin condensation, early embryonic viability, body integrity and locomotion. [Source: WormBase]	morphogenesis of an epithelium, 		porin activity, 
col-84	K12D12.3	COLlagen family member (col-84) [Source:RefSeq_peptide;Acc:NP_496535]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
K12D12.1	K12D12.1	Probable DNA topoisomerase 2 (EC 5.99.1.3) (DNA topoisomerase II). [Source:Uniprot/SWISSPROT;Acc:Q23670]	DNA metabolic process, DNA topological change, embryonic development ending in birth or egg hatching, 	nucleus, chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
NR_003412.1	K12D12.6	K12D12.6, snoRNA [Source:RefSeq_dna;Acc:NR_003412]			
NR_003413.1	K12D12.7	K12D12.7, snoRNA [Source:RefSeq_dna;Acc:NR_003413]			
NR_003414.1	K12D12.8	K12D12.8, snoRNA [Source:RefSeq_dna;Acc:NR_003414]			
ZK930.5	ZK930.5	ZK930.5 [Source:RefSeq_peptide;Acc:NP_496537]			
ZK930.6	ZK930.6	ZK930.6 [Source:RefSeq_peptide;Acc:NP_496538]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
ZK930.2	ZK930.2	ZK930.2 [Source:RefSeq_peptide;Acc:NP_496539]			
ZK930.3	ZK930.3	ZK930.3a [Source:RefSeq_peptide;Acc:NP_001022535]	oviposition, 		protein binding, 
ZK930.4	ZK930.4	ZK930.4 [Source:RefSeq_peptide;Acc:NP_496541]			
ZK930.1	ZK930.1	ZK930.1 [Source:RefSeq_peptide;Acc:NP_496542]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
ZK930.7	ZK930.7	ZK930.7 [Source:RefSeq_peptide;Acc:NP_496543]			
hmg-12	Y17G7A.1	HMG family member (hmg-12) [Source:RefSeq_peptide;Acc:NP_496544]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	DNA binding, 
lin-29	W03C9.4	lin-29 encodes a zinc finger transcription factor of the C2H2 type that affects the heterochronic development of the vulva, egg laying system, male gonad, cuticle, and the molting cycle. expressed in uterine and vulval muscle cells, seam cells, pharynx, head neurons, ventral cord neurons, preanal ganglion, distal tip cells, anchor cell, vulval cells, male-specific linker cell, and cells in the tail. [Source: WormBase]	regulation of development, heterochronic, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
W03C9.8	W03C9.8	W03C9.8 [Source:RefSeq_peptide;Acc:NP_872057]			
W03C9.6	W03C9.6	W03C9.6 [Source:RefSeq_peptide;Acc:NP_496546]	immune response, 	membrane, 	tumor necrosis factor receptor binding, 
W03C9.t1	W03C9.t1				
NR_003419.1	W03C9.9	W03C9.9, snoRNA [Source:RefSeq_dna;Acc:NR_003419]			
W03C9.1	W03C9.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q23147]			
W03C9.2	W03C9.2	W03C9.2 [Source:RefSeq_peptide;Acc:NP_496548]			
rab-7	W03C9.3	rab-7 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. RAB-7 is required for proper yolk protein localization in oocytes, and for embryogenesis, locomotion, and normal body morphology. by sequence similarity, RAB-7 is predicted to be a late endosome component. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, endocytosis, embryonic development ending in birth or egg hatching, 	intracellular, cellular_component, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
W03C9.5	W03C9.5	W03C9.5 [Source:RefSeq_peptide;Acc:NP_496550]			
mex-1	W03C9.7	mex-1 encodes a CCCH-type zinc-finger protein that is required maternally for segregation of P granules, germ cell formation, and somatic cell differentiation in the early embryo. MEX-1 is expressed cytoplasmically in germ line blastomeres, is a component of P granules, and is required for restricting PIE-1 expression and function to these cells. mex-1 mRNA transcripts are also transiently associated with P granules. [Source: WormBase]	morphogenesis of an epithelium, cell fate specification, embryonic pattern specification, 		zinc ion binding, nucleic acid binding, molecular_function, 
acbp-6	Y17G7B.1	Acyl-Coenzyme A Binding Protein family member (acbp-6) [Source:RefSeq_peptide;Acc:NP_496552]	embryonic development ending in birth or egg hatching, 		acyl-CoA binding, 
Y17G7B.21	Y17G7B.21	Y17G7B.21 [Source:RefSeq_peptide;Acc:NP_871970]			
Y17G7B.20	Y17G7B.20	Y17G7B.20 [Source:RefSeq_peptide;Acc:NP_872051]	cell adhesion, positive regulation of growth rate, 	actin cytoskeleton, 	structural molecule activity, 
Y17G7B.2	Y17G7B.2	Y17G7B.2b [Source:RefSeq_peptide;Acc:NP_496553]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
Y17G7B.3	Y17G7B.3	Y17G7B.3 is orthologous to the human gene HYDROXYACYLGLUTATHIONE HYDROLASE (HAGH. OMIM:138760), which when mutated leads to disease. [Source: WormBase]			hydrolase activity, 
Y17G7B.4	Y17G7B.4	Probable deoxyhypusine synthase (EC 2.5.1.46) (DHS). [Source:Uniprot/SWISSPROT;Acc:Q9XXJ0]	hypusine biosynthetic process from peptidyl-lysine, embryonic development ending in birth or egg hatching, 		protein binding, 
Y17G7B.23	Y17G7B.23	Y17G7B.23 [Source:RefSeq_peptide;Acc:NP_001022414]			
mcm-2	Y17G7B.5	yeast MCM (licensing factor) related family member (mcm-2) [Source:RefSeq_peptide;Acc:NP_001022417]	photosynthesis, chlorophyll biosynthetic process, DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, magnesium chelatase activity, 
Y17G7B.24	Y17G7B.24	Y17G7B.24 [Source:RefSeq_peptide;Acc:NP_001022415]			
Y17G7B.6	Y17G7B.6	Y17G7B.6 [Source:RefSeq_peptide;Acc:NP_496559]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
Y17G7B.12	Y17G7B.12	Y17G7B.12 [Source:RefSeq_peptide;Acc:NP_496560]		intracellular, 	exonuclease activity, 
Y17G7B.8	Y17G7B.8	Y17G7B.8 [Source:RefSeq_peptide;Acc:NP_496561]			
cyn-16	Y17G7B.9	cyn-16 encodes a highly diverged member of the cyclophilin family. CYN-16 exhibits low levels of peptidyl-prolyl cis/trans isomerase activity in vitro that is insensitive to the presence of cyclosporin A. a cyn-16::gfp fusion protein is expressed in the intestine during larval and adult stages of development, with particularly strong expression seen in the anterior and posterior ends. in dauer larvae, the cyn-16::gfp reporter is expressed in cell bodies and processes of ventral cord neurons and is no longer visible in the intestine. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
tpi-1	Y17G7B.7	tpi-1 is orthologous to the human gene TRIOSEPHOSPHATE ISOMERASE 1 (TPI1. OMIM:190450), which when mutated leads to disease. [Source: WormBase]	metabolic process, 		catalytic activity, triose-phosphate isomerase activity, 
Y17G7B.13	Y17G7B.13	Y17G7B.13 [Source:RefSeq_peptide;Acc:NP_496564]			
Y17G7B.10	Y17G7B.10	Y17G7B.10a [Source:RefSeq_peptide;Acc:NP_496565]	metabolic process, 		NAD+ kinase activity, 
Y17G7B.11	Y17G7B.11	Y17G7B.11 [Source:RefSeq_peptide;Acc:NP_496567]			protein binding, 
Y17G7B.14	Y17G7B.14	Y17G7B.14 [Source:RefSeq_peptide;Acc:NP_496568]	signal transduction, embryonic development ending in birth or egg hatching, 		protein binding, 
Y17G7B.22	Y17G7B.22	Y17G7B.22 [Source:RefSeq_peptide;Acc:NP_871969]		intracellular, 	zinc ion binding, nucleic acid binding, 
cnt-1	Y17G7B.15	cnt-1 encodes a homolog of centaurin beta, an Arf GTPase activating protein (Arf GAP) that also contains a pleckstrin homology domain and C-terminal ankyrin repeats. by homology, CNT-1 is predicted to function as an Arf GAP that stimulates Arf GTPase activity and links cell signaling with cytoskeletal rearrangements and membrane trafficking. however, as loss of cnt-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of cnt-1 in C. elegans development and/or behavior is not yet known. cnt-1 is broadly expressed, being detected in the pharynx, excretory cell, spermatheca, distal tip cells of the gonad, neurons of the head and nerve ring, and anal epithelial cells. CNT-1 is able to bind the phosphoinositides PIP2 and PIP3 and upon production of PIP3, can translocate from the cytoplasm to the membrane. [Source: WormBase]	regulation of GTPase activity, biological_process, 		protein binding, oxidoreductase activity, transition metal ion binding, 
Y17G7B.17	Y17G7B.17	Y17G7B.17 [Source:RefSeq_peptide;Acc:NP_496571]			
Y17G7B.18	Y17G7B.18	BIN3 domain-containing protein Y17G7B.18. [Source:Uniprot/SWISSPROT;Acc:Q9U2R0]	metabolic process, embryonic development ending in birth or egg hatching, 		methyltransferase activity, 
Y17G7B.19	Y17G7B.19	Y17G7B.19 [Source:RefSeq_peptide;Acc:NP_496574]			
Y43F11A.1	Y43F11A.1	Y43F11A.4 [Source:RefSeq_peptide;Acc:NP_496578]			
set-24	Y43F11A.5	Y43F11A.5 [Source:RefSeq_peptide;Acc:NP_496579]		nucleus, 	protein binding, 
Y43F11A.4	Y43F11A.4	Y43F11A.4 [Source:RefSeq_peptide;Acc:NP_496578]			
Y43F11A.6	Y43F11A.6				
Y57A10A.1	Y57A10A.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9U209]			protein binding, 
Y57A10A.2	Y57A10A.2	Y57A10A.2 [Source:RefSeq_peptide;Acc:NP_496582]			
Y57A10A.3	Y57A10A.3	Y57A10A.3 [Source:RefSeq_peptide;Acc:NP_496583]			
Y57A10A.4	Y57A10A.4	Y57A10A.4 [Source:RefSeq_peptide;Acc:NP_496584]			
Y57A10A.5	Y57A10A.5	Y57A10A.5 [Source:RefSeq_peptide;Acc:NP_496585]			metal ion binding, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
Y57A10A.6	Y57A10A.6				
Y57A10A.7	Y57A10A.7	Y57A10A.7 [Source:RefSeq_peptide;Acc:NP_496587]			
Y57A10A.8	Y57A10A.8	Y57A10A.8 [Source:RefSeq_peptide;Acc:NP_496588]			protein binding, 
rol-1	Y57A10A.11	rol-1 encodes a nematode cuticular collagen required for normal body morphology at the adult stage of development. rol-1 expression is under the control of the heterochronic pathway, as heterochronic mutants that synthesize adult cuticle early produce animals that roll as larvae, while heterochronic mutants that fail to execute normal adult development never display the roller phenotype. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
Y57A10A.13	Y57A10A.13	Y57A10A.13 [Source:RefSeq_peptide;Acc:NP_496590]		intracellular, 	nucleic acid binding, 3'-5' exonuclease activity, 
Y57A10A.14	Y57A10A.14	Y57A10A.14 [Source:RefSeq_peptide;Acc:NP_496591]			
Y57A10A.15	Y57A10A.15	Y57A10A.15 is orthologous to the human gene MITOCHONDRIAL DNA POLYMERASE GAMMA (POLG. OMIM:174763), which when mutated leads to disease. [Source: WormBase]	DNA replication, 	gamma DNA polymerase complex, 	DNA binding, DNA-directed DNA polymerase activity, gamma DNA-directed DNA polymerase activity, 
Y57A10A.16	Y57A10A.16	Y57A10A.16 [Source:RefSeq_peptide;Acc:NP_496593]			
Y57A10A.35	Y57A10A.35	Y57A10A.35 [Source:RefSeq_peptide;Acc:NP_001022480]	transport, 	membrane, 	transporter activity, 
pqn-87	Y57A10A.18	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			nucleotide binding, 
Y57A10A.37	Y57A10A.37				
rsr-2	Y57A10A.19	SR protein related family member (rsr-2) [Source:RefSeq_peptide;Acc:NP_496595]	embryonic development ending in birth or egg hatching, 		
sinh-1	Y57A10A.20	SIN-1 (S. pombe stress activated protein kinase interactor) Homolog family member (sinh-1) [Source:RefSeq_peptide;Acc:NP_496596]			
Y57A10A.21	Y57A10A.21	Y57A10A.21 [Source:RefSeq_peptide;Acc:NP_496597]			
Y57A10A.22	Y57A10A.22	Y57A10A.22 [Source:RefSeq_peptide;Acc:NP_496598]			
Y57A10A.23	Y57A10A.23	Y57A10A.23 [Source:RefSeq_peptide;Acc:NP_496599]			
Y57A10A.24	Y57A10A.24	Y57A10A.24 [Source:RefSeq_peptide;Acc:NP_496600]			
tag-276	Y57A10A.9	Temporarily Assigned Gene name family member (tag-276) [Source:RefSeq_peptide;Acc:NP_496601]			
Y57A10A.25	Y57A10A.25	Y57A10A.25 [Source:RefSeq_peptide;Acc:NP_496602]		nucleus, 	protein binding, 
Y57A10A.10	Y57A10A.10	Y57A10A.10 [Source:RefSeq_peptide;Acc:NP_496603]			
Y57A10A.26	Y57A10A.26	Y57A10A.26 [Source:RefSeq_peptide;Acc:NP_496604]			
Y57A10A.36	Y57A10A.36				
Y57A10A.27	Y57A10A.27	Y57A10A.27 [Source:RefSeq_peptide;Acc:NP_496605]	biological_process, 		
Y57A10A.28	Y57A10A.28	Y57A10A.28 [Source:RefSeq_peptide;Acc:NP_496606]			
Y57A10A.29	Y57A10A.29	Y57A10A.29 [Source:RefSeq_peptide;Acc:NP_496607]			
ife-5	Y57A10A.30	ife-5 encodes a member of the Initiation Factor 4E (eIF4E) family. it is expressed in the germ line. [Source: WormBase]	translational initiation, 	cytoplasm, 	RNA binding, translation initiation factor activity, 
Y57A10A.31	Y57A10A.31	Y57A10A.31 [Source:RefSeq_peptide;Acc:NP_496609]			protein binding, zinc ion binding, nucleic acid binding, 
Y57A10A.32	Y57A10A.32	Y57A10A.32 [Source:RefSeq_peptide;Acc:NP_496610]	metabolic process, 		oxidoreductase activity, 
C50E10.1	C50E10.1	C50E10.1 [Source:RefSeq_peptide;Acc:NP_496611]			
sre-50	C50E10.11	Serpentine Receptor, class E (epsilon) family member (sre-50) [Source:RefSeq_peptide;Acc:NP_496612]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C50E10.2	C50E10.2	C50E10.2 [Source:RefSeq_peptide;Acc:NP_496613]			
sre-51	C50E10.10	Serpentine Receptor, class E (epsilon) family member (sre-51) [Source:RefSeq_peptide;Acc:NP_496614]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-49	C50E10.9	Serpentine Receptor, class E (epsilon) family member (sre-49) [Source:RefSeq_peptide;Acc:NP_496615]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-53	C50E10.3	Serpentine Receptor, class E (epsilon) family member (sre-53) [Source:RefSeq_peptide;Acc:NP_496616]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, mating-type factor pheromone receptor activity, 
sre-56	C50E10.8	Serpentine Receptor, class E (epsilon) family member (sre-56) [Source:RefSeq_peptide;Acc:NP_496617]	sodium ion transport, G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, regulation of pH, sensory perception of chemical stimulus, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, sodium:hydrogen antiporter activity, transmembrane receptor activity, 
sre-55	C50E10.7	Serpentine Receptor, class E (epsilon) family member (sre-55) [Source:RefSeq_peptide;Acc:NP_496618]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-54	C50E10.6	Serpentine Receptor, class E (epsilon) family member (sre-54) [Source:RefSeq_peptide;Acc:NP_496619]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, mating-type factor pheromone receptor activity, 
sre-52	C50E10.5	Serpentine Receptor, class E (epsilon) family member (sre-52) [Source:RefSeq_peptide;Acc:NP_496620]	potassium ion transport, sensory perception of chemical stimulus, 	integral to membrane, 	potassium channel activity, transmembrane receptor activity, 
sop-2	C50E10.4	sop-2 encodes a SAM domain-containing protein that is related to, but not orthologous with, Polycomb group proteins and ETS transcription factors. during development, SOP-2 activity is required for maintaining a restricted pattern of Hox gene expression, such as that of mab-5 and egl-5, to specific cells and tissues. thus, SOP-2 is required for proper cell fate specification in a variety of cell lineages, including those of the male tail and the ventral nerve cord. a SOP-2::GFP reporter fusion is expressed in the nuclei of all somatic cells beginning at the 50-cell stage of embryogenesis. SOP-2::GFP expression is initially diffuse, but by the 200-cell stage is visible in distinct nuclear bodies, the size and number of which may correlate with DNA content. [Source: WormBase]	oviposition, 		
ras-1	C44C11.1	ras-1 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:21928) (RRAS2. OMIM:600098), which when mutated leads to disease. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, G-protein coupled receptor protein signaling pathway, 	intracellular, 	protein binding, GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, 
C44C11.t1	C44C11.t1				
C44C11.t2	C44C11.t2				
Y57A10B.1	Y57A10B.1	Y57A10B.1 [Source:RefSeq_peptide;Acc:NP_496624]			protein binding, zinc ion binding, 
Y57A10B.t1	Y57A10B.t1				
Y57A10B.2	Y57A10B.2	Y57A10B.2 [Source:RefSeq_peptide;Acc:NP_496625]			
Y57A10B.3	Y57A10B.3	BTB/POZ domain-containing protein Y57A10B.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9XWH8]			protein binding, 
sre-42	Y57A10B.4	Serpentine Receptor, class E (epsilon) family member (sre-42) [Source:RefSeq_peptide;Acc:NP_496627]	regulation of transcription, DNA-dependent, sensory perception of chemical stimulus, 	integral to membrane, nucleus, 	transcription factor activity, sequence-specific DNA binding, transmembrane receptor activity, 
sre-41	Y57A10B.5	Serpentine Receptor, class E (epsilon) family member (sre-41) [Source:RefSeq_peptide;Acc:NP_496628]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y57A10B.6	Y57A10B.6	Y57A10B.6 [Source:RefSeq_peptide;Acc:NP_496629]			protein binding, 
Y57A10B.7	Y57A10B.7	Y57A10B.7 [Source:RefSeq_peptide;Acc:NP_496630]			
F57G9.7	F57G9.7	F57G9.7 [Source:RefSeq_peptide;Acc:NP_001022213]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-29	F57G9.4	Serpentine receptor class epsilon-29 (Protein sre-29). [Source:Uniprot/SWISSPROT;Acc:O62269]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F57G9.6	F57G9.6				
sre-30	F57G9.2	Serpentine receptor class epsilon-30 (Protein sre-30). [Source:Uniprot/SWISSPROT;Acc:O62267]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-31	F57G9.1	Serpentine receptor class epsilon-31 (Protein sre-31). [Source:Uniprot/SWISSPROT;Acc:O62266]	sensory perception of chemical stimulus, cytolysis, defense response to Gram-negative bacterium, 	membrane, integral to membrane, 	transmembrane receptor activity, mating-type factor pheromone receptor activity, 
F57G9.3	F57G9.3	F57G9.3 [Source:RefSeq_peptide;Acc:NP_496634]			
Y57A10C.1	Y57A10C.1	Y57A10C.1 [Source:RefSeq_peptide;Acc:NP_496635]			
Y57A10C.12	Y57A10C.12				
Y57A10C.11	Y57A10C.11	Y57A10C.11 [Source:RefSeq_peptide;Acc:NP_001022481]			
sre-27	Y57A10C.3	Serpentine receptor class epsilon-27 (Protein sre-27). [Source:Uniprot/SWISSPROT;Acc:O62488]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-26	Y57A10C.4	Serpentine receptor class epsilon-26 (Protein sre-26). [Source:Uniprot/SWISSPROT;Acc:O62489]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-25	Y57A10C.5				
Y57A10C.6	Y57A10C.6	Y57A10C.6 [Source:RefSeq_peptide;Acc:NP_496639]			protein binding, transferase activity, transferring groups other than amino-acyl groups, 
Y57A10C.8	Y57A10C.8	Y57A10C.8 [Source:RefSeq_peptide;Acc:NP_496640]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	copper ion binding, rhodopsin-like receptor activity, 
Y57A10C.7	Y57A10C.7	Y57A10C.7 [Source:RefSeq_peptide;Acc:NP_496641]			
Y57A10C.9	Y57A10C.9	Y57A10C.9 [Source:RefSeq_peptide;Acc:NP_496642]			
Y57A10C.t1	Y57A10C.t1				
Y57A10C.10	Y57A10C.10	Y57A10C.10 [Source:RefSeq_peptide;Acc:NP_496643]			
W05H5.2	W05H5.2	W05H5.2 [Source:RefSeq_peptide;Acc:NP_496644]			
W05H5.1	W05H5.1	W05H5.1 [Source:RefSeq_peptide;Acc:NP_496645]			
W05H5.3	W05H5.3	W05H5.3 [Source:RefSeq_peptide;Acc:NP_496646]	phosphate transport, 	membrane, 	inorganic phosphate transmembrane transporter activity, 
srh-27	W05H5.4	Serpentine Receptor, class H family member (srh-27) [Source:RefSeq_peptide;Acc:NP_496647]			
sre-34	W05H5.8	Serpentine Receptor, class E (epsilon) family member (sre-34) [Source:RefSeq_peptide;Acc:NP_001022395]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-35	W05H5.5	Serpentine Receptor, class E (epsilon) family member (sre-35) [Source:RefSeq_peptide;Acc:NP_496648]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-33	W05H5.6	Serpentine receptor class epsilon-33 (Protein sre-33). [Source:Uniprot/SWISSPROT;Acc:O18175]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-32	W05H5.7	Serpentine receptor class epsilon-32 (Protein sre-32). [Source:Uniprot/SWISSPROT;Acc:P90837]	sensory perception of chemical stimulus, cytolysis, defense response to Gram-negative bacterium, 	integral to membrane, 	transmembrane receptor activity, 
sre-38	F15A4.1	Serpentine receptor class epsilon-38 (Protein sre-38). [Source:Uniprot/SWISSPROT;Acc:O17816]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
tag-281	F15A4.11	Temporarily Assigned Gene name family member (tag-281) [Source:RefSeq_peptide;Acc:NP_496652]			
tag-280	F15A4.12	Temporarily Assigned Gene name family member (tag-280) [Source:RefSeq_peptide;Acc:NP_496653]			
F15A4.2	F15A4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
sre-37	F15A4.3	Serpentine receptor class epsilon-37 (Protein sre-37). [Source:Uniprot/SWISSPROT;Acc:O17818]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srg-16	F15A4.4	Serpentine receptor class gamma-16 (Protein srg-16). [Source:Uniprot/SWISSPROT;Acc:O17819]	signal transduction, 	membrane, 	transmembrane receptor activity, 
F15A4.5	F15A4.5	F15A4.5 [Source:RefSeq_peptide;Acc:NP_496657]			
F15A4.6	F15A4.6	F15A4.6 [Source:RefSeq_peptide;Acc:NP_496658]			
srg-17	F15A4.7	Serpentine receptor class gamma-17 (Protein srg-17). [Source:Uniprot/SWISSPROT;Acc:O17820]	signal transduction, 	membrane, 	transmembrane receptor activity, 
F15A4.8	F15A4.8	F15A4.8a [Source:RefSeq_peptide;Acc:NP_496660]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
F15A4.9	F15A4.9	F15A4.9 [Source:RefSeq_peptide;Acc:NP_496661]			
fbxb-102	F15A4.13	F-box B protein family member (fbxb-102) [Source:RefSeq_peptide;Acc:NP_496662]			
F15A4.10	F15A4.10	Uncharacterized protein F15A4.10. [Source:Uniprot/SWISSPROT;Acc:O17811]			nucleotide binding, 
T21B4.15	T21B4.15	T21B4.15 [Source:RefSeq_peptide;Acc:NP_001022351]			
srz-6	T21B4.1	Serpentine Receptor, class Z family member (srz-6) [Source:RefSeq_peptide;Acc:NP_496664]			protein binding, 
col-85	T21B4.2	T21B4.2 [Source:RefSeq_peptide;Acc:NP_496665]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T21B4.t1	T21B4.t1				
T21B4.3	T21B4.3	T21B4.3 [Source:RefSeq_peptide;Acc:NP_496666]			
T21B4.4	T21B4.4	T21B4.4b [Source:RefSeq_peptide;Acc:NP_001040810]	G-protein coupled receptor protein signaling pathway, visual perception, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, adenosine receptor activity, G-protein coupled, 
srh-68	T21B4.5	Serpentine Receptor, class H family member (srh-68) [Source:RefSeq_peptide;Acc:NP_496668]			
srh-67	T21B4.6	Serpentine Receptor, class H family member (srh-67) [Source:RefSeq_peptide;Acc:NP_496669]			
srh-66	T21B4.10				
srh-73	T21B4.14	Serpentine Receptor, class H family member (srh-73) [Source:RefSeq_peptide;Acc:NP_496670]			
srh-69	T21B4.7	Serpentine Receptor, class H family member (srh-69) [Source:RefSeq_peptide;Acc:NP_496671]			
srh-61	T21B4.8	Serpentine Receptor, class H family member (srh-61) [Source:RefSeq_peptide;Acc:NP_496672]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
srh-70	T21B4.9	Serpentine Receptor, class H family member (srh-70) [Source:RefSeq_peptide;Acc:NP_496673]			
T21B4.17	T21B4.17	T21B4.17 [Source:RefSeq_peptide;Acc:NP_001022352]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
srx-118	T21B4.12	Serpentine Receptor, class X family member (srx-118) [Source:RefSeq_peptide;Acc:NP_496675]			
srx-119	F49C5.1	Serpentine Receptor, class X family member (srx-119) [Source:RefSeq_peptide;Acc:NP_496676]			
srx-120	F49C5.2	Serpentine Receptor, class X family member (srx-120) [Source:RefSeq_peptide;Acc:NP_496677]			
F49C5.3	F49C5.3	F49C5.3 [Source:RefSeq_peptide;Acc:NP_496678]			
F49C5.t1	F49C5.t1				
F49C5.4	F49C5.4	F49C5.4 [Source:RefSeq_peptide;Acc:NP_496679]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F49C5.t4	F49C5.t4				
F49C5.t3	F49C5.t3				
F49C5.t2	F49C5.t2				
F49C5.9	F49C5.9	F49C5.9 [Source:RefSeq_peptide;Acc:NP_001022184]			
F49C5.5	F49C5.5	F49C5.5 [Source:RefSeq_peptide;Acc:NP_496680]			
F49C5.10	F49C5.10	F49C5.10 [Source:RefSeq_peptide;Acc:NP_001022182]	purine ribonucleoside monophosphate biosynthetic process, 		deaminase activity, 
F49C5.11	F49C5.11	F49C5.11 (F49C5.11) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_001027012]			
str-223	F49C5.6	Seven TM Receptor family member (str-223) [Source:RefSeq_peptide;Acc:NP_496681]			
F49C5.7	F49C5.7	F49C5.7 [Source:RefSeq_peptide;Acc:NP_496682]			
Y38E10A.1	Y38E10A.1	Y38E10A.1 [Source:RefSeq_peptide;Acc:NP_496684]			
Y38E10A.2	Y38E10A.2	Y38E10A.2 [Source:RefSeq_peptide;Acc:NP_496685]			
Y38E10A.3	Y38E10A.3	Y38E10A.3 [Source:RefSeq_peptide;Acc:NP_496686]			
clec-8	Y38E10A.4	C-type LECtin family member (clec-8) [Source:RefSeq_peptide;Acc:NP_496687]			sugar binding, 
clec-4	Y38E10A.5	C-type LECtin family member (clec-4) [Source:RefSeq_peptide;Acc:NP_496688]			sugar binding, 
Y38E10A.6	Y38E10A.6	Y38E10A.6b [Source:RefSeq_peptide;Acc:NP_001022429]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
Y38E10A.7	Y38E10A.7	Y38E10A.7 [Source:RefSeq_peptide;Acc:NP_496690]	lipid catabolic process, 		catalytic activity, lipase activity, 
Y38E10A.8	Y38E10A.8	Y38E10A.8 [Source:RefSeq_peptide;Acc:NP_496691]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y38E10A.9	Y38E10A.9	Y38E10A.9 [Source:RefSeq_peptide;Acc:NP_496692]			
Y38E10A.10	Y38E10A.10	Y38E10A.10 [Source:RefSeq_peptide;Acc:NP_496693]	lipid catabolic process, 		lipase activity, 
Y38E10A.11	Y38E10A.11	Y38E10A.11 [Source:RefSeq_peptide;Acc:NP_496694]			
Y38E10A.25	Y38E10A.25	Y38E10A.25 [Source:RefSeq_peptide;Acc:NP_001022425]			
Y38E10A.12	Y38E10A.12	Y38E10A.12 [Source:RefSeq_peptide;Acc:NP_496695]			
Y38E10A.26	Y38E10A.26	Y38E10A.26 [Source:RefSeq_peptide;Acc:NP_001022426]			
Y38E10A.13	Y38E10A.13	Y38E10A.13 [Source:RefSeq_peptide;Acc:NP_496696]			
Y38E10A.14	Y38E10A.14	Y38E10A.14 [Source:RefSeq_peptide;Acc:NP_496697]			
Y38E10A.15	Y38E10A.15	Y38E10A.15 [Source:RefSeq_peptide;Acc:NP_496698]			
Y38E10A.16	Y38E10A.16	Y38E10A.16 [Source:RefSeq_peptide;Acc:NP_496699]			
Y38E10A.28	Y38E10A.28	Y38E10A.28 [Source:RefSeq_peptide;Acc:NP_001022427]			
Y38E10A.17	Y38E10A.17	Y38E10A.17 [Source:RefSeq_peptide;Acc:NP_496700]			
nhr-234	Y38E10A.18	Nuclear Hormone Receptor family member (nhr-234) [Source:RefSeq_peptide;Acc:NP_496701]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-235	Y38E10A.19	Nuclear Hormone Receptor family member (nhr-235) [Source:RefSeq_peptide;Acc:NP_496702]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
Y38E10A.20	Y38E10A.20	Y38E10A.20 [Source:RefSeq_peptide;Acc:NP_496703]			
Y38E10A.t3	Y38E10A.t3				
rgs-4	Y38E10A.21	rgs-4 encodes a regulator of G protein signaling. by homology, RGS-4 is predicted to function as a GTPase-activating protein that binds G protein alpha subunits and negatively regulates heterotrimeric G protein signaling. loss of rgs-4 activity via RNAi or a deletion mutation results in no obvious defects, and likewise, rgs-4 overexpression has no measurable effect on egg-laying behavior, locomotion, or viability. the RGS-4 expression pattern has not yet been reported. [Source: WormBase]			signal transducer activity, 
Y38E10A.t2	Y38E10A.t2				
Y38E10A.22	Y38E10A.22	Y38E10A.22 [Source:RefSeq_peptide;Acc:NP_496705]	pathogenesis, 	extracellular region, 	protein binding, metal ion binding, catalytic activity, 
Y38E10A.23	Y38E10A.23	Y38E10A.23 [Source:RefSeq_peptide;Acc:NP_496706]			
Y38E10A.t1	Y38E10A.t1				
Y38E10A.24	Y38E10A.24	Y38E10A.24 [Source:RefSeq_peptide;Acc:NP_496707]	positive regulation of growth rate, 		
Y46G5A.2	Y46G5A.2	Y46G5A.2 is orthologous to the human gene COX10 (YEAST) HOMOLOG, CYTOCHROME C OXIDASE ASSEMBLY PROTEIN (HEME A: FARNESYLTRANSFERASE) (COX10. OMIM:602125), which when mutated leads to disease. [Source: WormBase]	heme biosynthetic process, 	integral to membrane, 	prenyltransferase activity, protoheme IX farnesyltransferase activity, 
Y46G5A.1	Y46G5A.1	Y46G5A.1a [Source:RefSeq_peptide;Acc:NP_001022434]	regulation of Rab GTPase activity, biological_process, 	intracellular, 	Rab GTPase activator activity, 
Y46G5A.4	Y46G5A.4	Putative U5 small nuclear ribonucleoprotein 200 kDa helicase (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:Q9U2G0]	RNA splicing, embryonic development ending in birth or egg hatching, 	spliceosome, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
pisy-1	Y46G5A.5	PhosphatidylInositol SYnthase family member (pisy-1) [Source:RefSeq_peptide;Acc:NP_496711]	phospholipid biosynthetic process, 	membrane, 	phosphotransferase activity, for other substituted phosphate groups, 
Y46G5A.40	Y46G5A.40				
Y46G5A.6	Y46G5A.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, ATP-dependent helicase activity, 
Y46G5A.39	Y46G5A.39	Y46G5A.39 [Source:RefSeq_peptide;Acc:NP_001022443]			
Y46G5A.7	Y46G5A.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y46G5A.8	Y46G5A.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y46G5A.10	Y46G5A.10	Y46G5A.10 [Source:RefSeq_peptide;Acc:NP_496715]			protein binding, 
Y46G5A.12	Y46G5A.12	Y46G5A.12 [Source:RefSeq_peptide;Acc:NP_496717]	protein transport, embryonic development ending in birth or egg hatching, 		
Y46G5A.13	Y46G5A.13	Y46G5A.13 [Source:RefSeq_peptide;Acc:NP_496718]			nucleotide binding, nucleic acid binding, 
Y46G5A.14	Y46G5A.14	Y46G5A.14 [Source:RefSeq_peptide;Acc:NP_496719]			
Y46G5A.16	Y46G5A.16		positive regulation of growth rate, 		
Y46G5A.34	Y46G5A.34	Y46G5A.34 [Source:RefSeq_peptide;Acc:NP_001022441]			
Y46G5A.15	Y46G5A.15	Y46G5A.15 [Source:RefSeq_peptide;Acc:NP_496720]			protein binding, 
Y46G5A.35	Y46G5A.35	Y46G5A.35 [Source:RefSeq_peptide;Acc:NP_001022442]			
cpt-1	Y46G5A.17	Y46G5A.17 is orthologous to the human gene SIMILAR TO CARNITINE PALMITOYLTRANSFERASE I, LIVER (CPT1A. OMIM:600528), which when mutated leads to disease. [Source: WormBase]			acyltransferase activity, 
Y46G5A.18	Y46G5A.18	Y46G5A.18 [Source:RefSeq_peptide;Acc:NP_496722]			
Y46G5A.19	Y46G5A.19	Y46G5A.19 encodes a spermidine synthase ortholog coexpressed in intestinal cells with smd-1 and odc-1. Y46G5A.19, smd-1 and odc-1, on the basis of orthology, are expected to be required for spermidine synthesis. while none of these three genes have obvious functions in mass RNAi assays, a loss-of-function mutation of odc-1 is lethal. the Y46G5A.19 promoter has GATA- and initiator-(Inr)-like-elements that are conserved with its C. briggsae ortholog, and that are also found in the C. elegans and C. briggsae smd-1 promoters. the Inr-like-element of Y46G5A.19 is not its main transcriptional start site. unlike other metazoa, C. elegans lacks a spermine synthase ortholog. [Source: WormBase]			catalytic activity, 
Y46G5A.20	Y46G5A.20	Y46G5A.20 [Source:RefSeq_peptide;Acc:NP_496724]			protein binding, 
acl-7	Y46G5A.21	Y46G5A.21 is orthologous to the human gene GLYCERONEPHOSPHATE O-ACYLTRANSFERASE (GNPAT. OMIM:602744), which when mutated leads to disease. [Source: WormBase]	metabolic process, 		acyltransferase activity, 
Y46G5A.22	Y46G5A.22	Y46G5A.22b [Source:RefSeq_peptide;Acc:NP_496727]			
Y46G5A.36	Y46G5A.36				
Y46G5A.37	Y46G5A.37				
Y46G5A.38	Y46G5A.38				
Y46G5A.23	Y46G5A.23	Y46G5A.23 [Source:RefSeq_peptide;Acc:NP_496728]			
Y46G5A.24	Y46G5A.24	Y46G5A.24 [Source:RefSeq_peptide;Acc:NP_496729]			protein binding, 
snf-4	Y46G5A.25	Sodium:Neurotransmitter symporter Family family member (snf-4) [Source:RefSeq_peptide;Acc:NP_496730]	electron transport, neurotransmitter transport, aerobic respiration, 	membrane, integral to membrane, integral to plasma membrane, 	iron ion binding, heme binding, neurotransmitter:sodium symporter activity, 
Y46G5A.26	Y46G5A.26	Y46G5A.26a [Source:RefSeq_peptide;Acc:NP_001022438]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
pes-10	Y46G5A.27	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	transcription, 	nucleus, 	protein binding, transcription regulator activity, DNA binding, 
Y46G5A.28	Y46G5A.28	Y46G5A.28 [Source:RefSeq_peptide;Acc:NP_496733]			
Y46G5A.29	Y46G5A.29	Y46G5A.29 [Source:RefSeq_peptide;Acc:NP_496734]			calcium ion binding, 
snf-5	Y46G5A.30	Sodium:Neurotransmitter symporter Family family member (snf-5) [Source:RefSeq_peptide;Acc:NP_496735]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
gsy-1	Y46G5A.31	gsy-1 is orthologous to the human gene GLYCOGEN SYNTHASE 1 (GYS1. OMIM:138570). deficiencies of GYS1 may be associated with susceptibility to type 2 diabetes. [Source: WormBase]	glycogen biosynthetic process, embryonic development ending in birth or egg hatching, 		protein binding, glycogen (starch) synthase activity, 
F35C5.1	F35C5.1	F35C5.1 [Source:RefSeq_peptide;Acc:NP_496737]			
sra-14	F35C5.2	Serpentine Receptor, class A (alpha) family member (sra-14) [Source:RefSeq_peptide;Acc:NP_496738]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
F35C5.3	F35C5.3	F35C5.3 [Source:RefSeq_peptide;Acc:NP_496739]	reproduction, 		
F35C5.4	F35C5.4	F35C5.4 [Source:RefSeq_peptide;Acc:NP_496740]			
clec-62	F35C5.5	C-type LECtin family member (clec-62) [Source:RefSeq_peptide;Acc:NP_496741]			sugar binding, 
clec-63	F35C5.6	C-type LECtin family member (clec-63) [Source:RefSeq_peptide;Acc:NP_496743]			sugar binding, 
clec-64	F35C5.7	C-type LECtin family member (clec-64) [Source:RefSeq_peptide;Acc:NP_496744]	locomotory behavior, 		protein binding, sugar binding, 
clec-65	F35C5.8	C-type LECtin family member (clec-65) [Source:RefSeq_peptide;Acc:NP_496745]			sugar binding, 
clec-66	F35C5.9	C-type LECtin family member (clec-66) [Source:RefSeq_peptide;Acc:NP_496746]			sugar binding, 
nspb-11	F35C5.10	Nematode Specific Peptide family, group B family member (nspb-11) [Source:RefSeq_peptide;Acc:NP_496747]			
F35C5.11	F35C5.11	F35C5.11 [Source:RefSeq_peptide;Acc:NP_496748]			
F35C5.12	F35C5.12	F35C5.12 [Source:RefSeq_peptide;Acc:NP_496749]	defense response, 		
F58G1.2	F58G1.2	F58G1.2 [Source:RefSeq_peptide;Acc:NP_496750]		intracellular, 	zinc ion binding, nucleic acid binding, 
F58G1.1	F58G1.1	F58G1.1 [Source:RefSeq_peptide;Acc:NP_496751]			
F58G1.9	F58G1.9	F58G1.9 [Source:RefSeq_peptide;Acc:NP_496752]			
F58G1.8	F58G1.8	F58G1.8 [Source:RefSeq_peptide;Acc:NP_496753]			
F58G1.3	F58G1.3	F58G1.3 [Source:RefSeq_peptide;Acc:NP_496754]			protein binding, hydrolase activity, 
F58G1.4	F58G1.4	F58G1.4 [Source:RefSeq_peptide;Acc:NP_496755]	positive regulation of growth rate, 	endoplasmic reticulum, 	
F58G1.5	F58G1.5	F58G1.5 [Source:RefSeq_peptide;Acc:NP_496756]	lipid catabolic process, chromosome segregation, 		lipase activity, 
F58G1.6	F58G1.6	F58G1.6 [Source:RefSeq_peptide;Acc:NP_496757]			
F58G1.7	F58G1.7	F58G1.7 [Source:RefSeq_peptide;Acc:NP_496758]			
sup-6	F58G1.10	sup-6 encodes a U1 snRNA required for development to adulthood. sup-6(st19) mutants arrest as late larvae. the sup-6(st19) mutation is a dominant, allele-specific suppressor of unc-13(e309), an intronic +1G-to-A transition in unc-13. sup-6(st19) is otherwise recessive, with no obvious phenotype in heterozygotes. [Source: WormBase]			
Y38F1A.1	Y38F1A.1	Y38F1A.1 [Source:RefSeq_peptide;Acc:NP_496759]			
Y38F1A.11	Y38F1A.11				
Y38F1A.2	Y38F1A.2	Y38F1A.2 [Source:RefSeq_peptide;Acc:NP_496760]			protein binding, zinc ion binding, 
ptr-18	Y38F1A.3	ptr-18 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-18 is strongly required for normal molting from L3 to adult stage (a role conserved in C. briggsae). PTR-18 is also required for male tail development and vulval morphogenesis, and (partly) for endocytosis of yolk by oocytes. [Source: WormBase]	protein secretion, 	membrane, integral to membrane, 	hedgehog receptor activity, P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
Y38F1A.4	Y38F1A.4	Y38F1A.4 [Source:RefSeq_peptide;Acc:NP_496762]			
cyd-1	Y38F1A.5	cyd-1 encodes a cyclin D homolog that is required for escape from G1 cycle arrest in postembryonic blast cells, affects movement and larval viability, and may physically interact with CDK-46 and CKI-1. expressed embryonically primarily in the head, ventral cord, tail, and is later expressed primarily in the seam cells and in the somatic gonad. [Source: WormBase]	biological_process, 		
Y38F1A.6	Y38F1A.6	Y38F1A.6 [Source:RefSeq_peptide;Acc:NP_496764]	metabolic process, 		metal ion binding, oxidoreductase activity, 
Y38F1A.7	Y38F1A.7	Y38F1A.7 [Source:RefSeq_peptide;Acc:NP_496765]			
Y38F1A.8	Y38F1A.8	Y38F1A.8 [Source:RefSeq_peptide;Acc:NP_496766]			
oig-2	Y38F1A.9	One IG domain family member (oig-2) [Source:RefSeq_peptide;Acc:NP_496767]			
F18A11.5	F18A11.5	F18A11.5 [Source:RefSeq_peptide;Acc:NP_496768]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
max-2	Y38F1A.10	max-2 encodes, by alternative splicing, at least two isoforms of a putative p21-activated kinase that is required (redundantly with its paralog, PAK-1) for normal axonal guidance of motoneurons, P cell migration, and locomotion, with max-2(cy2).pak-1(ok448) double mutants phenotypically resembling unc-73 or ced-10.mig-2 mutants. max-2 is expressed ubiquitously in early embryos, then localizes to the anterior embryo and is expressed in pharynx and head neurons. postembryonically, max-2 seems to be expressed in body wall touch receptors (ALM, PLM, PVD, and PLM), but can rescue max-2 mutations when transgenically expressed in ventral cord motoneurons. by themselves, max-2 mutations have only mild axonal guidance phenotypes and only subtle defects in movement. MAX-2 is required for normal sensitivity to aldicarb. max-2 mutations suppress UNC-5 overexpression phenotypes, and are dominantly enhanced by unc-5 or unc-6 mutations, indicating that MAX-2 functions downstream of the netrin receptor UNC-5. [Source: WormBase]	protein amino acid phosphorylation, protein complex assembly, actin polymerization and/or depolymerization, 	actin cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, small GTPase regulator activity, 
F18A11.2	F18A11.2	F18A11.2 [Source:RefSeq_peptide;Acc:NP_496771]			
F18A11.3	F18A11.3	F18A11.3 [Source:RefSeq_peptide;Acc:NP_496772]			
F18A11.7	F18A11.7				
puf-6	F18A11.1	The puf-6 gene encodes a predicted RNA binding protein that is a member of the conserved PUF (Pumilio and FBF) family of RNA binding proteins. PUF-6 appears to function redundantly with other PUF family members during primordial germ cell development, and interacts with GEX-3, a predicted transmembrane protein that is essential for embryonic tissue morphogenesis. [Source: WormBase]	negative regulation of cell proliferation, 		RNA binding, binding, 
F18A11.6	F18A11.6				
F42G4.7	F42G4.7	F42G4.7 [Source:RefSeq_peptide;Acc:NP_001022161]			
F42G4.2	F42G4.2	F42G4.2 [Source:RefSeq_peptide;Acc:NP_496775]			
zyx-1	F42G4.3	zyx-1 encodes a zyxin homolog that physically interacts with P granule components (GLH proteins) and that, genetically, is grossly dispensable in vivo (since neither RNAi nor deletion of zyx-1 yields an obvious phenotype). ZYX-1 is potentially orthologous to the human gene LIPOMA-PREFERRED PARTNER (LPP, OMIM:600700). [Source: WormBase]	regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	protein binding, zinc ion binding, DNA binding, ligand-dependent nuclear receptor activity, 
F42G4.5	F42G4.5	F42G4.5 [Source:RefSeq_peptide;Acc:NP_496778]			
F42G4.6	F42G4.6	F42G4.6 encodes a nematode-specific sperm protein. F42G4.6 has no obvious non-nematode homologs, but does have a putative central coiled-coil domain, and is is paralogous to four other C. elegans proteins (B0207.11, F42G4.6, F44F4.10, T08G11.2, and Y81G3A.1). F42G4.6(RNAi) animals exhibit aldicarb resistance. F42G4.6 expression is enriched in spermatogenesis. [Source: WormBase]			
Y81G3A.2	Y81G3A.2				
Y81G3A.1	Y81G3A.1	Y81G3A.1 encodes a nematode-specific sperm protein. Y81G3A.1 has no obvious non-nematode homologs, but does have a putative central coiled-coil domain, and is is paralogous to four other C. elegans proteins (B0207.11, F42G4.6, F44F4.10, and T08G11.2). Y81G3A.1(RNAi) animals exhibit aldicarb resistance. Y81G3A.1 expression is enriched in spermatogenesis. [Source: WormBase]			
Y81G3A.3	Y81G3A.3	Y81G3A.3 [Source:RefSeq_peptide;Acc:NP_496781]	protein amino acid phosphorylation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, rhodopsin-like receptor activity, 
Y81G3A.4	Y81G3A.4	Y81G3A.4 [Source:RefSeq_peptide;Acc:NP_496782]			
col-86	Y81G3A.5	Y81G3A.5 [Source:RefSeq_peptide;Acc:NP_496783]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F29C12.3	F29C12.3	F29C12.3 [Source:RefSeq_peptide;Acc:NP_496786]			
pqn-32	F29C12.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, 
F29C12.4	F29C12.4	Probable elongation factor G, mitochondrial precursor (mEF-G). [Source:Uniprot/SWISSPROT;Acc:Q9XV52]	translational elongation, positive regulation of growth rate, 	intracellular, 	GTP binding, GTPase activity, translation elongation factor activity, 
bath-45	F29C12.5	BTB and MATH domain-containing protein 45. [Source:Uniprot/SWISSPROT;Acc:Q9XV51]			protein binding, 
F29C12.7	F29C12.7		reproduction, 		
F29C12.6	F29C12.6	F29C12.6 [Source:RefSeq_peptide;Acc:NP_496789]	embryonic development ending in birth or egg hatching, 		
F32A11.5	F32A11.5				
F32A11.4	F32A11.4				
F32A11.7	F32A11.7	F32A11.7 [Source:RefSeq_peptide;Acc:NP_001022132]			
F32A11.3	F32A11.3	F32A11.3 [Source:RefSeq_peptide;Acc:NP_496792]	reproduction, 		
hpr-17	F32A11.2	Homolog of S.Pombe Rad family member (hpr-17) [Source:RefSeq_peptide;Acc:NP_496793]	DNA repair, cell cycle, positive regulation of growth rate, 	nucleus, 	nucleotide binding, nucleoside-triphosphatase activity, 
F32A11.1	F32A11.1	F32A11.1 [Source:RefSeq_peptide;Acc:NP_496794]			nucleic acid binding, 
moe-3	F32A11.6	See oma family member (moe-3) [Source:RefSeq_peptide;Acc:NP_496795]			protein binding, zinc ion binding, nucleic acid binding, 
W09H1.1	W09H1.1	W09H1.1b [Source:RefSeq_peptide;Acc:NP_001022403]	protein amino acid dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, 
his-73	W09H1.2	his-73 encodes an H3 histone. by homology, HIS-73 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-73 is a replication-dependent histone locus. [Source: WormBase]	positive regulation of growth rate, 		
W09H1.3	W09H1.3	W09H1.3 [Source:RefSeq_peptide;Acc:NP_496798]			
W09H1.4	W09H1.4	W09H1.4 [Source:RefSeq_peptide;Acc:NP_496799]			
W09H1.5	W09H1.5	Probable trans-2-enoyl-CoA reductase 1, mitochondrial precursor (EC 1.3.1.38). [Source:Uniprot/SWISSPROT;Acc:O45903]			zinc ion binding, 
lec-1	W09H1.6	lec-1 encodes a tandem repeat-type galectin in which each galectin domain is homologous to typical vertebrate 14-kDa-type galectins. the two sugar binding sites have distinct sugar binding properties in vitro and lec-1 is expressed most abundantly in the adult cuticle. [Source: WormBase]			protein binding, sugar binding, 
btf-1	F15D4.1	btf-1 encodes a member of the TBP-associated family (TAF), with weak similarity to human TBP-associated factor 172. [Source: WormBase]			ATP binding, DNA binding, nucleic acid binding, helicase activity, 
W09E7.1	W09E7.1				
F15D4.2	F15D4.2	F15D4.2 [Source:RefSeq_peptide;Acc:NP_496803]			protein binding, 
flp-16	F15D4.8	flp-16 encodes a predicted FMRFamide-like peptide neurotransmitter that inhibits action potentials in the pharyngeal muscle when applied to the pharynx of dissected worms. [Source: WormBase]	neuropeptide signaling pathway, 		
F15D4.3	F15D4.3	F15D4.3 [Source:RefSeq_peptide;Acc:NP_496804]			
F15D4.4	F15D4.4	F15D4.4 [Source:RefSeq_peptide;Acc:NP_496805]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
F15D4.5	F15D4.5	F15D4.5 [Source:RefSeq_peptide;Acc:NP_496806]			zinc ion binding, nucleic acid binding, 
F15D4.6	F15D4.6	F15D4.6 [Source:RefSeq_peptide;Acc:NP_496807]			
F15D4.7	F15D4.7	F15D4.7 [Source:RefSeq_peptide;Acc:NP_496808]	proteolysis, DNA integration, 		DNA binding, aspartic-type endopeptidase activity, 
Y48C3A.1	Y48C3A.1	Y48C3A.1 [Source:RefSeq_peptide;Acc:NP_496809]	embryonic development ending in birth or egg hatching, 		
Y48C3A.5	Y48C3A.5	Y48C3A.5a [Source:RefSeq_peptide;Acc:NP_496810]			
Y48C3A.4	Y48C3A.4	Y48C3A.4 [Source:RefSeq_peptide;Acc:NP_496811]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y48C3A.3	Y48C3A.3	Y48C3A.3 [Source:RefSeq_peptide;Acc:NP_496813]			
mac-1	Y48C3A.7	mac-1 encodes a AAA ATPase (ATPase associated with a variety of cellular activities) most closely related to the ATPase subfamily that includes Drosophila Smallminded and the vertebrate NVL proteins. mac-1 activity is essential for proper regulation of fat storage and for normal larval development. MAC-1 interacts with the cell death regulator CED-4 in yeast two-hybrid assays and in tissue culture cells, and mac-1 overexpression in worms can prevent some programmed cell deaths. mac-1 mRNA is expressed throughout postembryonic development, with highest levels seen in hermaphrodites producing oocytes. [Source: WormBase]	growth, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
Y48C3A.8	Y48C3A.8	Y48C3A.8 [Source:RefSeq_peptide;Acc:NP_496815]			
Y48C3A.9	Y48C3A.9	Y48C3A.9 [Source:RefSeq_peptide;Acc:NP_496816]		nucleus, 	transcription regulator activity, DNA binding, single-stranded DNA binding, 
Y48C3A.10	Y48C3A.10	Y48C3A.10 [Source:RefSeq_peptide;Acc:NP_496817]	embryonic development ending in birth or egg hatching, 		RNA binding, 
Y48C3A.11	Y48C3A.11	Y48C3A.11 [Source:RefSeq_peptide;Acc:NP_496818]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y48C3A.20	Y48C3A.20	Y48C3A.20 [Source:RefSeq_peptide;Acc:NP_496819]			
Y48C3A.12	Y48C3A.12	Y48C3A.12 [Source:RefSeq_peptide;Acc:NP_496820]	regulation of transcription, DNA-dependent, 		transcription factor activity, 
Y48C3A.14	Y48C3A.14	Y48C3A.14 [Source:RefSeq_peptide;Acc:NP_496822]	methylation, DNA topological change, DNA modification, DNA unwinding during replication, 	chromosome, 	methyltransferase activity, DNA binding, nucleic acid binding, DNA topoisomerase type I activity, DNA topoisomerase activity, 
Y48C3A.16	Y48C3A.16	Y48C3A.16 [Source:RefSeq_peptide;Acc:NP_496824]			isomerase activity, 
efl-2	Y48C3A.17	The efl-2 gene encodes an E2F/DP1-like protein of as yet unknown function. comparative genomic analysis suggests that EFL-2 may be involved in apoptosis. [Source: WormBase]	regulation of transcription, DNA-dependent, 	transcription factor complex, 	protein binding, transcription factor activity, 
Y48C3A.18	Y48C3A.18	Y48C3A.18 [Source:RefSeq_peptide;Acc:NP_496826]			
Y48E1C.1	Y48E1C.1	Y48E1C.1b [Source:RefSeq_peptide;Acc:NP_496827]			
Y48E1C.2	Y48E1C.2	Y48E1C.2 [Source:RefSeq_peptide;Acc:NP_496829]			
Y48E1C.4	Y48E1C.4	Y48E1C.4b [Source:RefSeq_peptide;Acc:NP_872006]			
Y48E1C.3	Y48E1C.3	Y48E1C.3 [Source:RefSeq_peptide;Acc:NP_871967]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
E01G4.1	E01G4.1	E01G4.1 [Source:RefSeq_peptide;Acc:NP_496831]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
pqn-27	E01G4.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	RNA metabolic process, growth, 		protein binding, 
E01G4.3	E01G4.3	E01G4.3 [Source:RefSeq_peptide;Acc:NP_496834]			
E01G4.5	E01G4.5	E01G4.5 [Source:RefSeq_peptide;Acc:NP_496835]	transport, 		transporter activity, binding, serine-type endopeptidase inhibitor activity, 
E01G4.7	E01G4.7				
E01G4.6	E01G4.6	E01G4.6 [Source:RefSeq_peptide;Acc:NP_496836]			
alh-7	F45H10.1	alh-7 encodes an ortholog of the human gene DJ73M23.2 (NAD+-DEPENDENT SUCCINIC SEMIALDEHYDE DEHYDROGENASE. ALDH5A1), which when mutated leads to SSADH deficiency (OMIM:271980). [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
F45H10.2	F45H10.2	F45H10.2 [Source:RefSeq_peptide;Acc:NP_496838]	electron transport, positive regulation of growth rate, 		ubiquinol-cytochrome-c reductase activity, 
F45H10.3	F45H10.3	F45H10.3 [Source:RefSeq_peptide;Acc:NP_496839]	ATP synthesis coupled electron transport, 	mitochondrial inner membrane, 	NADH dehydrogenase (ubiquinone) activity, 
drr-1	F45H10.4	F45H10.4 [Source:RefSeq_peptide;Acc:NP_496840]		membrane, 	
F45H10.5	F45H10.5	F45H10.5 [Source:RefSeq_peptide;Acc:NP_872054]			
F54F11.1	F54F11.1	F54F11.1 [Source:RefSeq_peptide;Acc:NP_496841]			
F54F11.2	F54F11.2	F54F11.2 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F54F11.2 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
sre-45	F54F11.3	Serpentine receptor class epsilon-45 (Protein sre-45). [Source:Uniprot/SWISSPROT;Acc:O02275]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y48E1B.14	Y48E1B.14	Y48E1B.14a [Source:RefSeq_peptide;Acc:NP_496844]	intracellular signaling cascade, cell communication, reproduction, 		protein binding, signal transducer activity, phosphoinositide binding, 
Y48E1B.2	Y48E1B.2	Y48E1B.2a [Source:RefSeq_peptide;Acc:NP_496845]		intracellular, 	GTP binding, 
ddl-2	Y48E1B.1	Daf-16-Dependent Longevity (WT but not daf-16 lifespan increased) family member (ddl-2) [Source:RefSeq_peptide;Acc:NP_496847]	cell adhesion, 	extracellular region, actin cytoskeleton, 	protein binding, structural molecule activity, hormone activity, structural constituent of cell wall, 
Y48E1B.3	Y48E1B.3	Y48E1B.3 [Source:RefSeq_peptide;Acc:NP_496848]			protein binding, catalytic activity, 
Y48E1B.4	Y48E1B.4	Y48E1B.4 [Source:RefSeq_peptide;Acc:NP_496849]			
Y48E1B.5	Y48E1B.5	Y48E1B.5 [Source:RefSeq_peptide;Acc:NP_496850]	positive regulation of growth rate, 		
Y48E1B.7	Y48E1B.7	Y48E1B.7 encodes a C2H2-type zinc-finger protein required for embryonic development and fertility. Y48E1B.7 transcript levels are diminished by ERI-1, RDE-3, and RRF-2, perhaps through endogenous RNAi. Y48E1B.7 is paralogous to MCD-1, but has no obvious non-nematode orthologs. Y48E1B.7 contains a single central zinc-finger and a C-terminal low-complexity region, but no other recognizable protein domains. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
Y48E1B.8	Y48E1B.8	Y48E1B.8 [Source:RefSeq_peptide;Acc:NP_496853]			
Y48E1B.16	Y48E1B.16	Y48E1B.16 [Source:RefSeq_peptide;Acc:NP_001022456]		membrane, 	GTPase activator activity, sugar binding, 
Y48E1B.9	Y48E1B.9	Y48E1B.9 [Source:RefSeq_peptide;Acc:NP_496854]			sugar binding, 
Y48E1B.15	Y48E1B.15	Y48E1B.15 [Source:RefSeq_peptide;Acc:NP_001022455]			
Y48E1B.11	Y48E1B.11	Y48E1B.11 [Source:RefSeq_peptide;Acc:NP_496855]			
csc-1	Y48E1B.12	Chromosome segregation and cytokinesis defective protein 1. [Source:Uniprot/SWISSPROT;Acc:O45952]	embryonic development ending in birth or egg hatching, 		protein binding, 
csp-1	Y48E1B.13	The csp-1 gene encodes, by alternative splicing, three caspase homologs that may be involved in apoptosis. [Source: WormBase]	proteolysis, apoptosis, 		cysteine-type peptidase activity, caspase activity, 
gst-20	Y48E1B.10	Glutathione S-Transferase family member (gst-20) [Source:RefSeq_peptide;Acc:NP_496858]			
gst-24	F37B1.1	Glutathione S-Transferase family member (gst-24) [Source:RefSeq_peptide;Acc:NP_496859]			protein binding, 
gst-15	F37B1.4	Glutathione S-Transferase family member (gst-15) [Source:RefSeq_peptide;Acc:NP_496860]			
gst-14	F37B1.3	Glutathione S-Transferase family member (gst-14) [Source:RefSeq_peptide;Acc:NP_496861]			catalytic activity, 
gst-12	F37B1.2	Glutathione S-Transferase family member (gst-12) [Source:RefSeq_peptide;Acc:NP_496862]			protein binding, catalytic activity, 
gst-16	F37B1.5	Glutathione S-Transferase family member (gst-16) [Source:RefSeq_peptide;Acc:NP_496863]			
gst-19	F37B1.8	Glutathione S-Transferase family member (gst-19) [Source:RefSeq_peptide;Acc:NP_496864]			protein binding, 
gst-17	F37B1.6	Glutathione S-Transferase family member (gst-17) [Source:RefSeq_peptide;Acc:NP_496865]			
gst-18	F37B1.7	Glutathione S-Transferase family member (gst-18) [Source:RefSeq_peptide;Acc:NP_496866]			
tag-10	C31C9.1	tag-10 encodes, by alternative splicing, two nearly identical proteins. TAG-10 proteins are putatively secreted, with an N-terminal signal sequence and four C-terminal WD40 repeats. TAG-10 proteins are orthologous to the GA1 apical gut membrane polyprotein of Haemonchus contortus, and more distantly similar to the periplasmic TolB colicin receptor subunit of E. coli. [Source: WormBase]			
C31C9.2	C31C9.2	C31C9.2 is orthologous to the human gene PHOSPHOGLYCERATE DEHYDROGENASE (PHGDH. OMIM:606879), which when mutated leads to phosphoglycerate dehydrogenase deficiency. [Source: WormBase]	metabolic process, amino acid metabolic process, embryonic development ending in birth or egg hatching, 		protein binding, oxidoreductase activity, cofactor binding, NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, 
fbxa-167	C31C9.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-168	C31C9.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-169	C31C9.8	C31C9.4 [Source:RefSeq_peptide;Acc:NP_496870]			
C31C9.6	C31C9.6	C31C9.6 [Source:RefSeq_peptide;Acc:NP_872049]	cell adhesion, 	actin cytoskeleton, 	structural molecule activity, 
C31C9.7	C31C9.7	C31C9.7 [Source:RefSeq_peptide;Acc:NP_001022000]			
Y48E1A.1	Y48E1A.1	Y48E1A.1a [Source:RefSeq_peptide;Acc:NP_001022450]	transcription, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
Y54G9A.1	Y54G9A.1	Y54G9A.1 [Source:RefSeq_peptide;Acc:NP_496873]			
kqt-3	Y54G9A.3	kqt-3 encodes one of three C. elegans KCNQ-like potassium channel subunits and, with respect to humans, is most similar to the KCNQ1 channel protein which when mutated leads to inherited long QT syndrome (OMIM:607542). although loss of KQT-3 activity via large-scale RNAi screens results in no obvious abnormalities, KQT-3 likely functions to regulate cellular excitability as expression of KQT-3 in Xenopus oocytes can produce K+ channel currents that functionally resemble vertebrate M-currents. activity of these KQT-3 channels can be suppressed by coexpression with the human M1 muscarinic receptor and treatment with diacylglycerol analogs, although KQT-3 is less sensitive to each of these treatments than KQT-1. a KQT-3::GFP fusion protein is expressed in the anterior- and posterior-most intestinal cells, the anterior and posterior mechanosensory neurons ALM and PLM, amphid and phasmid neurons, and in some additional head neurons. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated potassium channel activity, 
Y54G9A.4	Y54G9A.4	Y54G9A.4 [Source:RefSeq_peptide;Acc:NP_496876]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
NR_000902.1	Y54G9A.8	Y54G9A.8, snRNA [Source:RefSeq_dna;Acc:NR_000902]			
sre-46	Y54G9A.10	Serpentine Receptor, class E (epsilon) family member (sre-46) [Source:RefSeq_peptide;Acc:NP_001022477]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y54G9A.5	Y54G9A.5	Y54G9A.5 [Source:RefSeq_peptide;Acc:NP_496877]	negative regulation of multicellular organism growth, 		
Y54G9A.7	Y54G9A.7	Y54G9A.7 [Source:RefSeq_peptide;Acc:NP_496878]	embryonic development ending in birth or egg hatching, 		
Y54G9A.6	Y54G9A.6	Y54G9A.6 [Source:RefSeq_peptide;Acc:NP_496879]			protein binding, 
Y54G9A.9	Y54G9A.9	Y54G9A.9 [Source:RefSeq_peptide;Acc:NP_871993]			
R06B9.5	R06B9.5	R06B9.5 [Source:RefSeq_peptide;Acc:NP_496880]			
mig-14	R06B9.6	mig-14 encodes a novel, seven-transmembrane domain protein orthologous to Drosophila and human Wntless. mig-14 functions in many Wnt-related processes including endoderm induction and spindle orientation in the early embryo and later in vulval precursor cell fate specification. in the early embryo, mig-14 activity is required within Wnt-signaling cells, consistent with its proposed role in regulation of Wnt secretion. mig-14 also affects the migration of several different cell types during development including the Q neuroblasts along the anterior/posterior axis of the body, the distal tip cells in the gonad, the HSN, and the male linker cell. mig-14 is required for the expression of mab-5 which along with lin-39 regulates migration of cells in the Q lineages. mig-14 also acts independently of mab-5 to affect the final positioning of the Q descendants. [Source: WormBase]	establishment of mitotic spindle orientation, 		
R06B9.4	R06B9.4	R06B9.4 [Source:RefSeq_peptide;Acc:NP_496881]			
R06B9.3	R06B9.3	R06B9.3 [Source:RefSeq_peptide;Acc:NP_496882]	signal transduction, 		protein binding, identical protein binding, 
R06B9.1	R06B9.1	R06B9.1 [Source:RefSeq_peptide;Acc:NP_496883]	signal transduction, 		protein binding, 
R06B9.2	R06B9.2	R06B9.2 [Source:RefSeq_peptide;Acc:NP_496884]			
C01B9.1	C01B9.1	C01B9.1 [Source:RefSeq_peptide;Acc:NP_496885]			
C01B9.3	C01B9.3				
ZK131.11	ZK131.11	ZK131.11b [Source:RefSeq_peptide;Acc:NP_872046]			protein binding, 
his-16	ZK131.10	his-16 encodes an H2A histone. his-16 is contained within the histone gene cluster HIS3. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-15	ZK131.9	his-15 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-14	ZK131.8	his-14 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-13	ZK131.7	his-13 encodes an H3 histone. his-13 is contained within the histone gene cluster HIS3. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-12	ZK131.6	his-12 encodes an H2A histone. his-12 is contained within the histone gene cluster HIS3. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-11	ZK131.5	his-11 encodes an H2B histone. by homology, HIS-11 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-11 is a replication-dependent histone locus that resides in the HIS3 cluster on chromosome II. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-10	ZK131.4	his-10 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-9	ZK131.3	his-9 encodes an H3 histone. by homology, HIS-9 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-9 is a replication-dependent histone locus that resides in the HIS3 cluster on chromosome II. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-25	ZK131.2	his-25 encodes an H3 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-26	ZK131.1	his-26 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-44	F08G2.1	his-44 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-43	F08G2.2	his-43 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-42	F08G2.3	his-42 encodes an H3 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
NR_000905.1	F08G2.10	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
F08G2.4	F08G2.4	Uncharacterized protein F08G2.4. [Source:Uniprot/SWISSPROT;Acc:Q9XVA4]		viral capsid, 	structural molecule activity, 
F08G2.5	F08G2.5	F08G2.5 [Source:RefSeq_peptide;Acc:NP_496901]			protein binding, 
F08G2.13	F08G2.13				
F08G2.12	F08G2.12				
ins-37	F08G2.6	ins-37 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
NR_000903.1	F08G2.9	F08G2.9, snRNA [Source:RefSeq_dna;Acc:NR_000903]			
F08G2.7	F08G2.7	F08G2.7 [Source:RefSeq_peptide;Acc:NP_496903]			protein binding, 
F08G2.8	F08G2.8	F08G2.8 [Source:RefSeq_peptide;Acc:NP_496904]			
NR_000905.1	F08G2.11	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
Y51H1A.1	Y51H1A.1	Y51H1A.1b [Source:RefSeq_peptide;Acc:NP_872047]			
Y51H1A.2	Y51H1A.2	Y51H1A.2 [Source:RefSeq_peptide;Acc:NP_496906]			
Y51H1A.3	Y51H1A.3	Y51H1A.3a [Source:RefSeq_peptide;Acc:NP_496907]	electron transport, embryonic development ending in birth or egg hatching, 	mitochondrion, 	NADH dehydrogenase (ubiquinone) activity, NADH dehydrogenase activity, 
ing-3	Y51H1A.4	Y51H1A.4 is orthologous to the human gene P33ING1B (ING1. OMIM:601566), which when mutated leads to disease. [Source: WormBase]			protein binding, zinc ion binding, 
hda-6	Y51H1A.5	Histone DeAcetylase family member (hda-6) [Source:RefSeq_peptide;Acc:NP_496910]			
mcd-1	Y51H1A.6	mcd-1 encodes a highly acidic C2H2-type zinc-finger protein that, in conjunction with LIN-35/Rb, DPL-1/DP, EFL-1/E2F, LIN-37/Mip40, and LIN-52, promotes the developmentally programmed progression of cells through full apoptosis. MCD-1 can promote ectopic apoptosis in cells normally fated to live, and is thus active in such cells. MCD-1 is not required for CED-3-independent cell death, does not regulate CED-9, and probably does not transcriptionally regulate egl-1. MCD-1 and its partners do not act together with CED-1 or CED-8, and their function in cell death is distinct from the LET-60/RAS or SynMuv pathways. however, MCD-1 is redundantly required with some class B/C synMuv proteins for viability (LIN-9, LIN-35/Rb, or LIN-37/Mip40) and normally rapid growth (DPL-1/DP, LIN-13, LIN-53, LIN-54, or MYS-1). in mcd-1(n4005) animals, cells that would normally undergo apoptosis can instead pass through an episode of pre-apoptotic condensation, after which they sometimes revert to normal shape, survive, and differentiate. MCD-1 contains an N-terminal low-complexity region and a single central zinc-finger, but no other recognizable protein domains. MCD-1 is paralogous to Y48E1B.7, but has no obvious non-nematode orthologs. [Source: WormBase]	programmed cell death, 	intracellular, 	zinc ion binding, nucleic acid binding, 
Y51H1A.7	Y51H1A.7	Y51H1A.7 [Source:RefSeq_peptide;Acc:NP_496912]	transcription, 		DNA binding, DNA-directed RNA polymerase activity, 
W02B8.1	W02B8.1	W02B8.1 [Source:RefSeq_peptide;Acc:NP_496913]			
W02B8.2	W02B8.2	W02B8.2 [Source:RefSeq_peptide;Acc:NP_496914]	intracellular signaling cascade, 		small GTPase regulator activity, 
W02B8.3	W02B8.3	W02B8.3 [Source:RefSeq_peptide;Acc:NP_496915]	embryonic development ending in birth or egg hatching, 		
W02B8.4	W02B8.4	W02B8.4 [Source:RefSeq_peptide;Acc:NP_496916]	embryonic development ending in birth or egg hatching, 		
W02B8.6	W02B8.6	W02B8.6 [Source:RefSeq_peptide;Acc:NP_001022392]	embryonic development ending in birth or egg hatching, 		
hot-3	W02B8.5	Homolog of Odr-2(Two) family member (hot-3) [Source:RefSeq_peptide;Acc:NP_741057]			
W07G1.1	W07G1.1	W07G1.1 [Source:RefSeq_peptide;Acc:NP_496917]	intracellular signaling cascade, 		
W07G1.10	W07G1.10				
NR_000905.1	W07G1.9	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
sre-44	W07G1.2	Serpentine Receptor, class E (epsilon) family member (sre-44) [Source:RefSeq_peptide;Acc:NP_496918]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
NR_000905.1	W07G1.8	F08G2.11, snRNA [Source:RefSeq_dna;Acc:NR_000905]			
zip-3	W07G1.3	bZIP transcription factor family member (zip-3) [Source:RefSeq_peptide;Acc:NP_496919]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, ligand-dependent nuclear receptor activity, 
W07G1.5	W07G1.5	W07G1.5a [Source:RefSeq_peptide;Acc:NP_001022398]	intracellular signaling cascade, 		protein binding, 
W07G1.7	W07G1.7	W07G1.7 [Source:RefSeq_peptide;Acc:NP_496922]			
sre-43	W07G1.6	Serpentine Receptor, class E (epsilon) family member (sre-43) [Source:RefSeq_peptide;Acc:NP_496923]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y39G8B.1	Y39G8B.1	Y39G8B.1b [Source:RefSeq_peptide;Acc:NP_496924]			oxidoreductase activity, 
Y39G8B.2	Y39G8B.2	Y39G8B.2 [Source:RefSeq_peptide;Acc:NP_496926]			oxidoreductase activity, 
sre-48	Y39G8B.3	Serpentine Receptor, class E (epsilon) family member (sre-48) [Source:RefSeq_peptide;Acc:NP_496927]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y39G8B.9	Y39G8B.9	Y39G8B.9 [Source:RefSeq_peptide;Acc:NP_001022432]			
Y39G8B.10	Y39G8B.10	Y39G8B.10 [Source:RefSeq_peptide;Acc:NP_001022431]			
sre-47	Y39G8B.4	Serpentine Receptor, class E (epsilon) family member (sre-47) [Source:RefSeq_peptide;Acc:NP_496928]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y39G8B.5	Y39G8B.5	Y39G8B.5 [Source:RefSeq_peptide;Acc:NP_496929]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y39G8B.8	Y39G8B.8				
Y39G8B.7	Y39G8B.7	Y39G8B.7 [Source:RefSeq_peptide;Acc:NP_496930]			
NM_064530.1	F01D5.11	F01D5.11 (F01D5.11) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_064530]			
F01D5.1	F01D5.1	F01D5.1 [Source:RefSeq_peptide;Acc:NP_496932]			protein binding, 
F01D5.2	F01D5.2	F01D5.2 [Source:RefSeq_peptide;Acc:NP_496933]			receptor activity, nutrient reservoir activity, 
F01D5.3	F01D5.3	F01D5.3 [Source:RefSeq_peptide;Acc:NP_496934]			receptor activity, 
F01D5.4	F01D5.4		embryonic development ending in birth or egg hatching, 		
F01D5.5	F01D5.5	F01D5.5 [Source:RefSeq_peptide;Acc:NP_496935]			
F01D5.6	F01D5.6	F01D5.6 [Source:RefSeq_peptide;Acc:NP_496936]			
F01D5.7	F01D5.7	F01D5.7a [Source:RefSeq_peptide;Acc:NP_001022066]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
F01D5.8	F01D5.8	F01D5.8 [Source:RefSeq_peptide;Acc:NP_496938]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
cyp-37A1	F01D5.9	CYtochrome P450 family member (cyp-37A1) [Source:RefSeq_peptide;Acc:NP_496939]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F01D5.10	F01D5.10	F01D5.10 [Source:RefSeq_peptide;Acc:NP_496940]			
NR_003406.1	F01D5.12	F01D5.12, snoRNA [Source:RefSeq_dna;Acc:NR_003406]			
W01G7.2	W01G7.2				
daf-5	W01G7.1	daf-5 encodes a proline-rich protein, conserved in C. briggsae but not observed in non-nematode genomes, that promotes dauer formation in the group II branch of the dauer pathway, may regulate chemosensation via AWC neurons, and may regulate egg laying. daf-5 mutations suppress the dauer phenotype of group II Daf-c mutants. daf-5(e1385) partially suppresses dauer formation by aex-6(sa699) mutants at 26.8 degrees C. [Source: WormBase]	negative regulation of transcription from RNA polymerase II promoter, 	nucleus, 	nucleotide binding, protein binding, binding, DNA binding, 
W01G7.3	W01G7.3	Probable DNA-directed RNA polymerase II subunit RPB11 (RNA polymerase II subunit B11) (DNA-directed RNA polymerase II subunit J). [Source:Uniprot/SWISSPROT;Acc:Q9XVH6]	transcription, embryonic development ending in birth or egg hatching, 		DNA binding, DNA-directed RNA polymerase activity, protein dimerization activity, 
W01G7.4	W01G7.4	W01G7.4 [Source:RefSeq_peptide;Acc:NP_496943]			
lem-2	W01G7.5	LEM protein 2 (Ce-MAN1) (MAN1 homolog). [Source:Uniprot/SWISSPROT;Acc:Q9XTB5]		nuclear envelope, 	
xrn-1	Y39G8C.1	xrn-1 encodes a 5'-3' exoribonuclease that is orthologous to Saccharomyces cerevisiae Xrnp1, a key component of the yeast 5'-3' mRNA degradation pathway. in C. elegans, XRN-1 activity is required during embryogenesis for completion of ventral enclosure, the morphogenetic process whereby the ventral epithelial cells cover and seal the interior cells of the embryo. in addition, XRN-1 also plays a role in facilitating RNA interference (RNAi), likely acting in the same pathway as the DCR-1/Dicer ribonuclease. to date, XRN-1 expression has been reported in adult hypodermal and rectal cells. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	nucleic acid binding, exonuclease activity, 
Y39G8C.5	Y39G8C.5				
col-87	Y39G8C.4	COLlagen family member (col-87) [Source:RefSeq_peptide;Acc:NP_001022433]	phosphate transport, 	cytoplasm, extracellular region, 	hormone activity, 
Y39G8C.2	Y39G8C.2	Y39G8C.2 [Source:RefSeq_peptide;Acc:NP_496946]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
NR_002627.1	Y39G8C.3	Y39G8C.3, miscRNA [Source:RefSeq_dna;Acc:NR_002627]			
gur-4	K09E4.5	GUstatory Receptor family member (gur-4) [Source:RefSeq_peptide;Acc:NP_496947]			
cpg-7	K09E4.6	cpg-7 encodes a small (116-residue), putatively secreted protein with 11 potential chondroitin attachment sites, 6 of them verified by mass spectrometry. [Source: WormBase]			
K09E4.4	K09E4.4	K09E4.4 is orthologous to the human gene N-ACETYLGALACTOSAMINIDASE, ALPHA- (NAGLU. OMIM:104170), which when mutated leads to disease. [Source: WormBase]			
K09E4.3	K09E4.3	K09E4.3 [Source:RefSeq_peptide;Acc:NP_496949]	metabolic process, biotin biosynthetic process, 		methyltransferase activity, 
K09E4.2	K09E4.2	K09E4.2 [Source:RefSeq_peptide;Acc:NP_496950]		integral to membrane, endoplasmic reticulum, 	mannosyltransferase activity, 
W03H9.4	W03H9.4	W03H9.4 [Source:RefSeq_peptide;Acc:NP_496951]	embryonic development ending in birth or egg hatching, 		
K09E4.1	K09E4.1	K09E4.1 [Source:RefSeq_peptide;Acc:NP_496952]	reproduction, 		protein kinase activity, 
W03H9.3	W03H9.3	W03H9.3 [Source:RefSeq_peptide;Acc:NP_496953]			
W03H9.2	W03H9.2	W03H9.2 [Source:RefSeq_peptide;Acc:NP_496954]			
W03H9.1	W03H9.1	W03H9.1 [Source:RefSeq_peptide;Acc:NP_496955]			
Y48B6A.1	Y48B6A.1	Y48B6A.1 encodes an ortholog of human BOP1 (OMIM:610596, overexpressed in colon cancer) and S. cerevisiae ERB1. Y48B6A.1 may suppress tumorous growth in the germline. like PRO-1, -2, and -3, Y48B6A.1 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. however, BOP1 is also a phosphoprotein in mitotic spindles and required for normal chromosomal segregation, raising the possibility that Y48B6A.1 is multifunctional. [Source: WormBase]	biological_process, 		catalytic activity, 
rpl-43	Y48B6A.2	rpl-43 encodes a large ribosomal subunit L37a protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
xrn-2	Y48B6A.3	5'-3' exoribonuclease 2 homolog (EC 3.1.13.-). [Source:Uniprot/SWISSPROT;Acc:Q9U299]	positive regulation of growth rate, DNA catabolic process, exonucleolytic, 	intracellular, nucleolus, 	protein binding, zinc ion binding, nucleic acid binding, 5'-3' exonuclease activity, exonuclease activity, 
eat-2	Y48B6A.4	eat-2 encodes a ligand-gated ion channel subunit most closely related to the non-alpha-subunits of nicotinic acetylcholine receptors (nAChR). EAT-2 functions postsynaptically in pharyngeal muscle to regulate the rate of pharyngeal pumping. eat-2 is also required for normal life span and defecation. a functional EAT-2::GFP fusion protein localizes to two small dots near the junction of pharyngeal muscles pm4 and pm5, which is the site of the posterior-most MC motor neuron processes and the MC synapse. eat-2 genetically interacts with eat-18, which encodes a predicted novel transmembrane protein expressed in pharyngeal muscle and required for proper function of pharyngeal nicotonic receptors. [Source: WormBase]	transport, ion transport, embryonic development ending in birth or egg hatching, regulation of pharyngeal pumping, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, arsenite transmembrane transporter activity, 
Y48B6A.5	Y48B6A.5	Y48B6A.5 [Source:RefSeq_peptide;Acc:NP_496960]			structural molecule activity, 
Y48B6A.6	Y48B6A.6	Y48B6A.6a [Source:RefSeq_peptide;Acc:NP_496961]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	calcium ion binding, histamine receptor activity, 
ace-4	Y48B6A.7	ace-4 encodes an divergent acetylcholinesterase homolog with biochemically undetectable activity. [Source: WormBase]			cholinesterase activity, 
ace-3	Y48B6A.8	ace-3 encodes one of four C. elegans acetylcholinesterases (AChE). ACE-3 represents ~5% of the total AChE activity in C. elegans and in vitro, hydrolyzes acetylthio-, butyrylthio-, and propionylthiocholine substrates with equal efficiency. although loss-of-function mutations in ace-3 result in no obvious defects, animals doubly mutant with ace-1 or ace-2 have slight defects in backward locomotion and animals triply mutant for ace-1, -2, and -3 arrest as unhatched, yet fully developed, embryos. ace-3 is the downstream gene in an operon with a fourth AChE-encoding gene, ace-4, and transcriptional reporter fusions with ace-4 upstream sequences direct expression in pharyngeal muscles pm3, 4, 5, and 7, the two CAN (canal associated neuron) cells, midbody dorsal body wall muscles in larvae, and several neurons in the head and anal ganglion [Source: WormBase]	regulation of backward locomotion, 		cholinesterase activity, 
hot-7	Y48B6A.9	hot-7 encodes a predicted membrane-associated protein that is a member of the Ly-6 superfamily of glycosylphosphatidylinositol (GPI)-linked signaling proteins and is homologous to ODR-2, a neuronally expressed protein required for olfaction. as loss of hot-7 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of HOT-7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
Y48B6A.10	Y48B6A.10	Y48B6A.10 [Source:RefSeq_peptide;Acc:NP_496965]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
Y48B6A.13	Y48B6A.13	Y48B6A.13a [Source:RefSeq_peptide;Acc:NP_496967]	isoprenoid biosynthetic process, phosphorylation, biological_process, 		ATP binding, kinase activity, diphosphomevalonate decarboxylase activity, 
Y48B6A.12	Y48B6A.12	Y48B6A.12 [Source:RefSeq_peptide;Acc:NP_496968]	malate metabolic process, 		NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, malic enzyme activity, 
jmjd-2	Y48B6A.11	JmjC domain-containing histone demethylation protein 2 (EC 1.14.11.-) (ceJMJD2). [Source:Uniprot/SWISSPROT;Acc:Q9U297]	electron transport, histone demethylation, 	nucleus, 	iron ion binding, protein binding, zinc ion binding, transcription repressor activity, nucleic acid binding, heme binding, electron carrier activity, histone demethylase activity (H3-K36 specific), 
hmg-1.1	Y48B6A.14	hmg-1.1 encodes a member of the high mobility group (HMG) family of proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	DNA binding, 
Y54G11A.2	Y54G11A.2	Y54G11A.2 [Source:RefSeq_peptide;Acc:NP_496971]			
Y54G11A.1	Y54G11A.1	Y54G11A.1 [Source:RefSeq_peptide;Acc:NP_496972]			
Y54G11A.3	Y54G11A.3	Y54G11A.3 [Source:RefSeq_peptide;Acc:NP_496973]	metabolic process, 		ATP binding, oxidoreductase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
srh-41	Y54G11A.12	Serpentine Receptor, class H family member (srh-41) [Source:RefSeq_peptide;Acc:NP_496974]	transport, 	extracellular space, 	
srh-42	Y54G11A.15	Serpentine Receptor, class H family member (srh-42) [Source:RefSeq_peptide;Acc:NP_001022472]			
srh-43	Y54G11A.16				
Y54G11A.4	Y54G11A.4	Y54G11A.4 [Source:RefSeq_peptide;Acc:NP_496975]	glycolysis, 	6-phosphofructokinase complex, 	6-phosphofructokinase activity, 
Y54G11A.7	Y54G11A.7	Y54G11A.7 [Source:RefSeq_peptide;Acc:NP_496976]	glycolysis, embryonic development ending in birth or egg hatching, 	6-phosphofructokinase complex, 	6-phosphofructokinase activity, 
ctl-2	Y54G11A.5	ctl-2 encodes one of three C. elegans catalases. CTL-2 exhibits catalase and peroxidase activity in vitro, and thus likely functions in vivo as an antioxidant enzyme that protects cells from reactive oxygen species. ctl-2 activity is required for normal lifespan as well as for the extended lifespan seen in daf-2 mutant animals. in addition, ctl-2 is required for normal egg-laying capacity and for normal peroxisomal morphology. immunoelectron microscopy indicates that CTL-2 is found mainly in the peroxisomes of intestinal epithelial cells. ctl-2 expression is negatively regulated by DAF-2-mediated insulin signaling. [Source: WormBase]	electron transport, response to oxidative stress, determination of adult life span, 	peroxisome, 	peroxidase activity, catalase activity, 
ctl-1	Y54G11A.6	ctl-1 encodes one of three C. elegans catalases. CTL-1 exhibits catalase activity in vitro, and thus likely functions in vivo as an antioxidant enzyme that protects cells from reactive oxygen species. ctl-1 activity contributes to the extended lifespan seen in daf-2 mutant animals. in addition, ctl-1 expression is negatively regulated by DAF-2-mediated insulin signaling. as CTL-1 does not possess a C-terminal peroxisomal targeting signal (PTS), it is predicted to be a cytosolic catalase. [Source: WormBase]	electron transport, response to oxidative stress, determination of adult life span, 	cytoplasm, 	peroxidase activity, catalase activity, 
ctl-3	Y54G11A.13	ctl-3 encodes one of three C. elegans catalases. CTL-3 is predicted to function as an antioxidant enzyme that protects cells from reactive oxygen species. a ctl-3 promoter gfp fusion construct is expressed in pharyngeal muscles and neuronal cell bodies. loss of ctl-3 activity via RNAi results in no obvious abnormalities. [Source: WormBase]	electron transport, response to oxidative stress, 		catalase activity, 
Y54G11A.14	Y54G11A.14	Y54G11A.14 [Source:RefSeq_peptide;Acc:NP_741059]	cell adhesion, ossification, 		
ddl-3	Y54G11A.8	Daf-16-Dependent Longevity (WT but not daf-16 lifespan increased) family member (ddl-3) [Source:RefSeq_peptide;Acc:NP_001022475]			binding, 
Y54G11A.9	Y54G11A.9	Y54G11A.9 [Source:RefSeq_peptide;Acc:NP_496981]			iron ion binding, 
lin-7	Y54G11A.10	lin-7 encodes a protein that contains a PDZ domain and an L27 domain, two protein interaction domains that likely serve as organizational centers for large macromolecular complexes in polarized cells. LIN-7 is required for proper basolateral localization of the LET-23/EGF receptor in vulval epithelial cells, and along with LIN-2 and LIN-10, forms a protein complex that likely mediates this asymmetric localization with LIN-7 simultaneously binding to the C-terminus of LET-23 and an internal region of LIN-2. a LIN-7 translational reporter fusion indicates that LIN-7 is expressed at intestinal cell junctions. expression in vulval epithelial cells is detected only upon overexpression via heat shock, and reveals localization primarily at the lateral cell junctions of the vulval precursor cells P5.p and P6.p [Source: WormBase]	epidermal growth factor receptor signaling pathway, 		protein binding, 
Y54G11A.11	Y54G11A.11	Transcription elongation factor 1 homolog. [Source:Uniprot/SWISSPROT;Acc:Q9XVZ8]	biological_process, 	cellular_component, 	molecular_function, 
R06A4.8	R06A4.8	R06A4.8 is orthologous to the human gene GLYCOGEN DEBRANCHING ENZYME ISOFORM 6 (AGL. OMIM:232400), which when mutated leads to glycogen storage disease, type III. [Source: WormBase]	proteolysis, carbohydrate metabolic process, glycogen biosynthetic process, embryonic development ending in birth or egg hatching, 		catalytic activity, cation binding, pyroglutamyl-peptidase I activity, amylo-alpha-1,6-glucosidase activity, 4-alpha-glucanotransferase activity, 
R06A4.9	R06A4.9	R06A4.9 [Source:RefSeq_peptide;Acc:NP_496985]	positive regulation of growth rate, 		
R06A4.2	R06A4.2	R06A4.2 [Source:RefSeq_peptide;Acc:NP_496986]	SRP-dependent cotranslational protein targeting to membrane, 	signal recognition particle, 	GTP binding, 7S RNA binding, 
imb-2	R06A4.4	IMportin Beta family member (imb-2) [Source:RefSeq_peptide;Acc:NP_496987]	intracellular protein transport, protein import into nucleus, docking, positive regulation of growth rate, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, protein binding, binding, 
acr-20	R06A4.10	acr-20 encodes an alpha 7-like homomer-forming subunit of the nicotinic acetylcholine receptor (nAChR) superfamily which encode ligand-gated ion channels that regulate fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-20 is a member of the DEG-3-like group of nAChR subunits which appears to be unique to nematodes. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
sdz-26	R06A4.6	SKN-1 Dependent Zygotic transcript family member (sdz-26) [Source:RefSeq_peptide;Acc:NP_496991]			
mes-2	R06A4.7	mes-2 encodes a SET domain-containing protein that is orthologous to the Drosophila Polycomb group protein Enhancer of zeste [E(Z)]. as a member of a Polycomb-like chromatin repressive complex with MES-3 and MES-6, MES-2 is required maternally for normal germline development and during larval development, for anteroposterior patterning. during germline development, the MES-2/MES-3/MES-6 complex is believed to be essential for maintaining repression of the X chromosome, and in transgenic animals, the complex is necessary for germline repression of repetitive transgenes. in axial patterning, the MES-2/MES-3/MES-6 complex is required in somatic tissues for maintaining homeotic gene repression, acting upstream of the Hox genes lin-39, mab-5, and egl-5, as well as the egl-5 target gene lin-32. in addition, MES-2 activity is required for normal levels and localization of MES-3 in >24-cell-stage embryos. MES-2 expression is detected in the primordial germ cells and germline nuclei throughout development, in all nuclei in early embryos, and in somatic nuclei, including those of the male tail, in L2 and L3 larvae. in the nucleus, MES-2 appears to localize to chromatin. [Source: WormBase]	gamete generation, 	nucleus, 	
kbp-3	F26H11.1	Kinetochore-binding protein 3. [Source:Uniprot/SWISSPROT;Acc:O45406]	embryonic development ending in birth or egg hatching, 		
nurf-1	F26H11.2	Nucleosome-remodeling factor subunit NURF301-like. [Source:Uniprot/SWISSPROT;Acc:Q6BER5]	intracellular signaling cascade, positive regulation of growth rate, 		protein binding, zinc ion binding, 
F26H11.4	F26H11.4	F26H11.4 [Source:RefSeq_peptide;Acc:NP_496999]			
exl-1	F26H11.5	Chloride intracellular channel exl-1 (Exc-4-like protein). [Source:Uniprot/SWISSPROT;Acc:O45405]			voltage-gated chloride channel activity, 
plx-2	K04B12.1	Plexin-2 precursor. [Source:Uniprot/SWISSPROT;Acc:O45657]	multicellular organismal development, 	membrane, 	receptor activity, 
K04B12.2	K04B12.2	K04B12.2b [Source:RefSeq_peptide;Acc:NP_001022232]			
K04B12.3	K04B12.3	K04B12.3 [Source:RefSeq_peptide;Acc:NP_497003]			
Y54G11B.1	Y54G11B.1	Y54G11B.1 [Source:RefSeq_peptide;Acc:NP_497004]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C13B4.1	C13B4.1	C13B4.1 [Source:RefSeq_peptide;Acc:NP_497005]	histidine catabolic process, 		dopamine beta-monooxygenase activity, 
C13B4.t1	C13B4.t1				
usp-14	C13B4.2	usp-14 encodes a homolog of ubiquitin-specific protease 14 (Usp14), a highly conserved thiol protease that hydrolyzes the peptide bond at the C-terminal glycine of ubiquitin (OMIM:607274, mutations are associated with synaptic defects in ataxia mice). by homology, USP-14 is predicted to function in ubiquitin-mediated protein degradation, or regulation of protein localization or activity. as loss of USP-14 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of USP-14 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein modification process, ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
K10H10.1	K10H10.1	K10H10.1 [Source:RefSeq_peptide;Acc:NP_497007]	transport, 	integral to membrane, 	transporter activity, 
K10H10.2	K10H10.2	K10H10.2 [Source:RefSeq_peptide;Acc:NP_497008]	metabolic process, cysteine biosynthetic process from serine, 		protein binding, catalytic activity, pyridoxal phosphate binding, cysteine synthase activity, 
K10H10.11	K10H10.11				
dhs-8	K10H10.3	DeHydrogenases, Short chain family member (dhs-8) [Source:RefSeq_peptide;Acc:NP_001022250]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
K10H10.4	K10H10.4	K10H10.4 [Source:RefSeq_peptide;Acc:NP_497010]			
K10H10.5	K10H10.5	K10H10.5 [Source:RefSeq_peptide;Acc:NP_497011]	metabolic process, 		
K10H10.6	K10H10.6	K10H10.6 [Source:RefSeq_peptide;Acc:NP_497012]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
K10H10.12	K10H10.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYY6]			
K10H10.7	K10H10.7	K10H10.7 [Source:RefSeq_peptide;Acc:NP_497013]			
K10H10.10	K10H10.10	K10H10.10 [Source:RefSeq_peptide;Acc:NP_001022249]			
K10H10.9	K10H10.9	K10H10.9 [Source:RefSeq_peptide;Acc:NP_497014]			
F57C2.2	F57C2.2	F57C2.2 [Source:RefSeq_peptide;Acc:NP_497015]	embryonic development ending in birth or egg hatching, 		protein binding, 
F57C2.1	F57C2.1	F57C2.1 [Source:RefSeq_peptide;Acc:NP_497016]			protein binding, 
F57C2.3	F57C2.3	F57C2.3 [Source:RefSeq_peptide;Acc:NP_497017]			
F57C2.4	F57C2.4	F57C2.4 [Source:RefSeq_peptide;Acc:NP_497018]			
F57C2.5	F57C2.5	F57C2.5 [Source:RefSeq_peptide;Acc:NP_497019]	biosynthetic process, 		strictosidine synthase activity, 
spat-1	F57C2.6	spat-1 encodes a divergent ortholog of Drosophila melanogaster AURORA BOREALIS (BORA) and human BORA (OMIM:610510). SPAT-1 is specifically required for PAR protein-dependent cell-polarity. RNAi of spat-1 weakly suppresses the embryonic lethality of par-2(it5ts) at restrictive temperature. [Source: WormBase]			protein binding, 
C04H5.1	C04H5.1	TRM112-like protein. [Source:Uniprot/SWISSPROT;Acc:O45241]			
C04H5.2	C04H5.2	C04H5.2 [Source:RefSeq_peptide;Acc:NP_497022]			sugar binding, 
C04H5.7	C04H5.7	C04H5.7 [Source:RefSeq_peptide;Acc:NP_497023]			
C04H5.9	C04H5.9				
gcy-29	C04H5.3	Guanylyl CYclase family member (gcy-29) [Source:RefSeq_peptide;Acc:NP_497026]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
nlp-41	C04H5.8	Neuropeptide-Like Protein family member (nlp-41) [Source:RefSeq_peptide;Acc:NP_001021917]			
mog-4	C04H5.6	The mog-4 gene encodes a DEAH helicase orthologous to the Drosophila CG10689 and the S. cerevisiae PRP2 proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C01G12.12	C01G12.12				
C01G12.1	C01G12.1	C01G12.1 [Source:RefSeq_peptide;Acc:NP_497028]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, DNA binding, lysosphingolipid and lysophosphatidic acid receptor activity, 
C01G12.13	C01G12.13	C01G12.13 [Source:RefSeq_peptide;Acc:NP_001021905]			
nspb-7	C01G12.2	Nematode Specific Peptide family, group B family member (nspb-7) [Source:RefSeq_peptide;Acc:NP_497029]			
C01G12.9	C01G12.9	C01G12.9 [Source:RefSeq_peptide;Acc:NP_001021906]			
nspb-8	C01G12.10	Nematode Specific Peptide family, group B family member (nspb-8) [Source:RefSeq_peptide;Acc:NP_001021903]			
nspb-9	C01G12.11	Nematode Specific Peptide family, group B family member (nspb-9) [Source:RefSeq_peptide;Acc:NP_001021904]			
C01G12.3	C01G12.3	C01G12.3 [Source:RefSeq_peptide;Acc:NP_497030]			
wee-1.2	C01G12.4				
C01G12.5	C01G12.5	C01G12.5 [Source:RefSeq_peptide;Acc:NP_497031]	metabolic process, positive regulation of growth rate, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
nspb-10	C01G12.6	Nematode Specific Peptide family, group B family member (nspb-10) [Source:RefSeq_peptide;Acc:NP_497032]			
C01G12.7	C01G12.7	C01G12.7 [Source:RefSeq_peptide;Acc:NP_497033]			
C01G12.8	C01G12.8	C01G12.8 [Source:RefSeq_peptide;Acc:NP_497034]	transport, metabolic process, cation transport, proton transport, monovalent inorganic cation transport, 	membrane, integral to membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, monovalent inorganic cation transmembrane transporter activity, 
tps-2	F19H8.1	tps-2 encodes one of two trehalose-6-phosphate synthase proteins in C. elegans, and RNAi of both enzymes leads to a more than 90% reduction decrease in trehalose levels, but does not appear to affect viability or development. the tps-2 mRNA is expressed throughout development. [Source: WormBase]	trehalose biosynthetic process, 		catalytic activity, 
F19H8.2	F19H8.2	F19H8.2 [Source:RefSeq_peptide;Acc:NP_497036]			
arl-3	F19H8.3	arl-3 encodes a member of the ARL (ADP-ribosylation factor(ARF)-like) family of proteins which are very similar to ARF proteins but lack the ability to stimulate ADP ribosylation by cholera toxin. as loss of arl-3 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of ARL-3 is not yet known. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, 	intracellular, 	protein binding, GTP binding, 
F19H8.4	F19H8.4	F19H8.4 [Source:RefSeq_peptide;Acc:NP_497038]			
F19H8.t1	F19H8.t1				
F19H8.6	F19H8.6				
F19H8.5	F19H8.5	F19H8.5 [Source:RefSeq_peptide;Acc:NP_001022099]			
tag-297	C38C6.6	Temporarily Assigned Gene name family member (tag-297) [Source:RefSeq_peptide;Acc:NP_497039]	locomotory behavior, 		
C38C6.5	C38C6.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O45301]	negative regulation of translation, 		rRNA N-glycosylase activity, 
C38C6.3	C38C6.3	C38C6.3 [Source:RefSeq_peptide;Acc:NP_497041]			
sre-13	C38C6.4	Serpentine receptor class epsilon-13 (Protein sre-13). [Source:Uniprot/SWISSPROT;Acc:O45300]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C38C6.t1	C38C6.t1				
C38C6.8	C38C6.8				
atg-2	C38C6.2	atg-2 encodes an amino acid transporter glycoprotein subunit. when co-expressed in Xenopus oocytes with either the AAT-1 or AAT-3 catalytic subunit, ATG-2 facilitates amino acid uptake and exchange, showing a relatively high affinity for small and some large neutral amino acids. when co-expressed with AAT-9, ATG-2 is able to enhance the activity of this catalytic subunit. ATG-2 can covalently associate with AAT-1 or AAT-3 in the Xenopus expression system. when co-expressed with AAT-1 or AAT-3, ATG-2 localizes to the cell surface of oocytes, but when expressed alone, ATG-2 localizes intracellularly. [Source: WormBase]	carbohydrate metabolic process, 		catalytic activity, cation binding, 
NR_003404.1	C38C6.7	C38C6.7, miscRNA [Source:RefSeq_dna;Acc:NR_003404]			
unc-52	ZC101.2	The unc-52 gene encodes perlecan, a protein orthologous to human basement membrane-specific heparan sulfate proteoglycan core protein (HSPG2. OMIM:142461, which when mutated leads to Schwartz-Jampel syndrome or dyssegmental dysplasia). UNC-52 plays essential roles in muscle structure development and regulation of growth factor-like signaling pathways. UNC-52 is synthesized by the hypodermis and localizes to the extracellular matrix between hypodermis and muscle. [Source: WormBase]	cell adhesion, embryonic development ending in birth or egg hatching, locomotion, epidermal growth factor receptor signaling pathway, myofibril assembly, 	proteinaceous extracellular matrix, extracellular matrix, 	calcium ion binding, molecular_function, 
ZC101.1	ZC101.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
hhat-1	ZC101.3	Homolog of Hedgehog AcylTransferase family member (hhat-1) [Source:RefSeq_peptide;Acc:NP_001022489]			
K02B7.1	K02B7.1	K02B7.1 [Source:RefSeq_peptide;Acc:NP_497049]	embryonic development ending in birth or egg hatching, 		
K02B7.2	K02B7.2	K02B7.2 [Source:RefSeq_peptide;Acc:NP_497050]			
K02B7.3	K02B7.3	K02B7.3 [Source:RefSeq_peptide;Acc:NP_497051]			
C09F9.1	C09F9.1	C09F9.1 [Source:RefSeq_peptide;Acc:NP_497052]			
C09F9.2	C09F9.2	C09F9.2 [Source:RefSeq_peptide;Acc:NP_497053]	histidine catabolic process, carbohydrate catabolic process, 		catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
C09F9.7	C09F9.7				
C09F9.4	C09F9.4				
C09F9.3	C09F9.3	C09F9.3 [Source:RefSeq_peptide;Acc:NP_001021945]	glutamine metabolic process, 		glutaminase activity, 
Y54E2A.1	Y54E2A.1	Y54E2A.1 [Source:RefSeq_peptide;Acc:NP_497057]	G-protein coupled receptor protein signaling pathway, reproduction, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
Y54E2A.2	Y54E2A.2	Y54E2A.2 [Source:RefSeq_peptide;Acc:NP_497058]			nucleotide binding, nucleoside-triphosphatase activity, 
tac-1	Y54E2A.3	tac-1 encodes the sole C. elegans member of the transforming acidic coiled-coil (TACC) protein family whose members contain highly conserved C-terminal coiled-coil domains. during early embryogenesis, TAC-1 activity is essential for such microtubule-based processes as pronuclear migration and mitotic spindle elongation. TAC-1 interacts in vivo with, and mutually stabilizes, ZYG-9, a microtubule-associated protein (MAP) also required for pronuclear migration. TAC-1 also interacts with ZYG-8, a kinase domain-containing MAP required for proper spindle positioning during anaphase of the first embryonic cell division. TAC-1 is a core component of centrosomes, and also localizes to the meiotic spindle poles, the mitotic spindle, and the cytoplasm. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y54E2A.4	Y54E2A.4	Y54E2A.4 [Source:RefSeq_peptide;Acc:NP_497060]			
Y54E2A.5	Y54E2A.5	Y54E2A.5 [Source:RefSeq_peptide;Acc:NP_497061]			
Y54E2A.6	Y54E2A.6	Y54E2A.6 [Source:RefSeq_peptide;Acc:NP_497062]			ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y54E2A.7	Y54E2A.7	Y54E2A.7 [Source:RefSeq_peptide;Acc:NP_497063]			
Y54E2A.8	Y54E2A.8	Y54E2A.8 [Source:RefSeq_peptide;Acc:NP_497064]			structural constituent of cell wall, 
Y54E2A.9	Y54E2A.9	Y54E2A.9 [Source:RefSeq_peptide;Acc:NP_497065]			
Y54E2A.13	Y54E2A.13				
Y54E2A.10	Y54E2A.10	Y54E2A.10 [Source:RefSeq_peptide;Acc:NP_497066]			
eif-3.B	Y54E2A.11	Eukaryotic Initiation Factor family member (eif-3.B) [Source:RefSeq_peptide;Acc:NP_001022469]	positive regulation of growth rate, 		RNA binding, 
Y54E2A.12	Y54E2A.12	Y54E2A.12 [Source:RefSeq_peptide;Acc:NP_497068]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
W01D2.3	W01D2.3	W01D2.3 [Source:RefSeq_peptide;Acc:NP_497069]			
W01D2.8	W01D2.8				
W01D2.7	W01D2.7				
srt-11	W01D2.4	Serpentine Receptor, class T family member (srt-11) [Source:RefSeq_peptide;Acc:NP_497070]			
W01D2.6	W01D2.6	W01D2.6 [Source:RefSeq_peptide;Acc:NP_001022383]			
W01D2.5	W01D2.5	W01D2.5 [Source:RefSeq_peptide;Acc:NP_497071]			
W01D2.1	W01D2.1	W01D2.1 [Source:RefSeq_peptide;Acc:NP_497072]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
nhr-61	W01D2.2	Nuclear hormone receptor family member nhr-61. [Source:Uniprot/SWISSPROT;Acc:O62389]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
cdh-7	R05H10.6	cdh-7 encodes a protein that contains a cadherin domain. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	calcium ion binding, 
R05H10.1	R05H10.1	R05H10.1 [Source:RefSeq_peptide;Acc:NP_497076]			
R05H10.7	R05H10.7	R05H10.7 [Source:RefSeq_peptide;Acc:NP_001022271]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
R05H10.2	R05H10.2	R05H10.2 [Source:RefSeq_peptide;Acc:NP_497077]	biosynthetic process, positive regulation of growth rate, 		nucleotide binding, nucleic acid binding, catalytic activity, pyridoxal phosphate binding, 
R05H10.5	R05H10.5	Probable glutathione peroxidase R05H10.5 (EC 1.11.1.9). [Source:Uniprot/SWISSPROT;Acc:O62327]	response to oxidative stress, 		glutathione peroxidase activity, 
R05H10.3	R05H10.3	R05H10.3a [Source:RefSeq_peptide;Acc:NP_001022269]			
Y53F4A.2	Y53F4A.2	Y53F4A.2 [Source:RefSeq_peptide;Acc:NP_497080]	potassium ion transport, nucleosome assembly, 	nucleus, chromatin, voltage-gated potassium channel complex, nucleosome, 	DNA binding, voltage-gated potassium channel activity, 
cog-1	R03C1.3	The cog-1 gene encodes an ortholog of a Nkx6.1/Gtx homeodomain protein that affects connection of uterus to the vulva and vulval cell specification. [Source: WormBase]	regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
R03C1.1	R03C1.1	R03C1.1 [Source:RefSeq_peptide;Acc:NP_497083]			
R03C1.4	R03C1.4				
pde-3	E01F3.1	Probable 3',5'-cyclic phosphodiesterase pde-3 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:Q8I0P7]	signal transduction, 		catalytic activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, 
Y53F4B.1	Y53F4B.1	Y53F4B.1 [Source:RefSeq_peptide;Acc:NP_497085]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
elo-9	Y53F4B.2	The elo-9 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. elo-9 has no known function in vivo. [Source: WormBase]		integral to membrane, 	
Y53F4B.3	Y53F4B.3	Y53F4B.3 [Source:RefSeq_peptide;Acc:NP_497087]		intracellular, 	DNA binding, sequence-specific DNA binding, 
Y53F4B.4	Y53F4B.4	Y53F4B.4b [Source:RefSeq_peptide;Acc:NP_497089]	rRNA processing, 		
Y53F4B.42	Y53F4B.42	Y53F4B.42 [Source:RefSeq_peptide;Acc:NP_001040827]	metabolic process, 		methyltransferase activity, 
Y53F4B.40	Y53F4B.40				
Y53F4B.5	Y53F4B.5	Y53F4B.5 [Source:RefSeq_peptide;Acc:NP_497090]		intracellular, 	zinc ion binding, nucleic acid binding, single-stranded DNA binding, 
Y53F4B.6	Y53F4B.6	Y53F4B.6 [Source:RefSeq_peptide;Acc:NP_497091]	negative regulation of multicellular organism growth, 		
Y53F4B.43	Y53F4B.43				
Y53F4B.7	Y53F4B.7	Y53F4B.26 [Source:RefSeq_peptide;Acc:NP_497112]			
Y53F4B.8	Y53F4B.8				
Y53F4B.44	Y53F4B.44				
Y53F4B.10	Y53F4B.10	Y53F4B.10 is orthologous to the human gene INSULIN (IRF4. OMIM:176730), which when mutated leads to disease. [Source: WormBase]			
Y53F4B.9	Y53F4B.9	Y53F4B.9 [Source:RefSeq_peptide;Acc:NP_497095]			nucleotide binding, nucleoside-triphosphatase activity, 
Y53F4B.11	Y53F4B.11	Y53F4B.11 [Source:RefSeq_peptide;Acc:NP_497096]			protein binding, 
Y53F4B.12	Y53F4B.12	Y53F4B.12 [Source:RefSeq_peptide;Acc:NP_497097]	transport, electron transport, aerobic respiration, 	membrane, integral to membrane, 	amino acid transmembrane transporter activity, iron ion binding, heme binding, 
NR_003420.1	Y53F4B.47	Y53F4B.47, snoRNA [Source:RefSeq_dna;Acc:NR_003420]			
Y53F4B.13	Y53F4B.13	Y53F4B.13 [Source:RefSeq_peptide;Acc:NP_497098]	reproduction, 	intracellular, 	nucleic acid binding, 
Y53F4B.14	Y53F4B.14	Y53F4B.14 [Source:RefSeq_peptide;Acc:NP_497099]			
asc-1	Y53F4B.15	asc-1 encodes a homolog of human activating signal cointegrator-1 and affects long-term survival and longivity in adults and daur larvae. [Source: WormBase]	regulation of transcription, 	nucleus, cellular_component, 	zinc ion binding, transcription regulator activity, 
Y53F4B.45	Y53F4B.45				
Y53F4B.16	Y53F4B.16	Y53F4B.16 [Source:RefSeq_peptide;Acc:NP_497101]			
Y53F4B.17	Y53F4B.17	Y53F4B.17 [Source:RefSeq_peptide;Acc:NP_497102]			transcription factor activity, 
Y53F4B.18	Y53F4B.18	Y53F4B.18 [Source:RefSeq_peptide;Acc:NP_497103]			amidase activity, 
Y53F4B.19	Y53F4B.19	Y53F4B.19 [Source:RefSeq_peptide;Acc:NP_497104]			structural molecule activity, 
Y53F4B.20	Y53F4B.20	Y53F4B.20 [Source:RefSeq_peptide;Acc:NP_497105]			zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
Y53F4B.21	Y53F4B.21	Y53F4B.21 [Source:RefSeq_peptide;Acc:NP_497106]			
Y53F4B.41	Y53F4B.41				
Y53F4B.39	Y53F4B.39	Y53F4B.39 [Source:RefSeq_peptide;Acc:NP_497107]			hydrolase activity, 
Y53F4B.46	Y53F4B.46				
Y53F4B.38	Y53F4B.38				
Y53F4B.22	Y53F4B.22	Y53F4B.22 [Source:RefSeq_peptide;Acc:NP_497108]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y53F4B.23	Y53F4B.23	Y53F4B.23 [Source:RefSeq_peptide;Acc:NP_497109]			
Y53F4B.24	Y53F4B.24	Y53F4B.24 [Source:RefSeq_peptide;Acc:NP_497110]			
Y53F4B.25	Y53F4B.25	Y53F4B.25 [Source:RefSeq_peptide;Acc:NP_497111]			
Y53F4B.26	Y53F4B.26	Y53F4B.26 [Source:RefSeq_peptide;Acc:NP_497112]			
Y53F4B.27	Y53F4B.27	Y53F4B.27a [Source:RefSeq_peptide;Acc:NP_001022467]			nucleotide binding, 
ptr-20	Y53F4B.28	ptr-20 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-20 is weakly required for normal molting from L3 to adult stages male tail development. PTR-20 is also required for normal adult alae formation, growth to full size, and locomotion. [Source: WormBase]		membrane, integral to membrane, cell surface, 	hedgehog receptor activity, 
gst-26	Y53F4B.29	Glutathione S-Transferase family member (gst-26) [Source:RefSeq_peptide;Acc:NP_497115]			catalytic activity, 
gst-27	Y53F4B.30	Glutathione S-Transferase family member (gst-27) [Source:RefSeq_peptide;Acc:NP_497116]			
NR_003421.1	Y53F4B.48	Y53F4B.48, snoRNA [Source:RefSeq_dna;Acc:NR_003421]			
gst-28	Y53F4B.31	Glutathione S-Transferase family member (gst-28) [Source:RefSeq_peptide;Acc:NP_497117]			catalytic activity, 
gst-29	Y53F4B.32	Glutathione S-Transferase family member (gst-29) [Source:RefSeq_peptide;Acc:NP_497118]			catalytic activity, 
gst-39	Y53F4B.33	Glutathione S-Transferase family member (gst-39) [Source:RefSeq_peptide;Acc:NP_497119]			protein binding, catalytic activity, 
gst-31	Y53F4B.35	Glutathione S-Transferase family member (gst-31) [Source:RefSeq_peptide;Acc:NP_497121]			catalytic activity, 
Y53F4B.36	Y53F4B.36	Y53F4B.36 [Source:RefSeq_peptide;Acc:NP_497122]			
gst-32	Y53F4B.37	Glutathione S-Transferase family member (gst-32) [Source:RefSeq_peptide;Acc:NP_497123]			catalytic activity, 
gst-34	Y1H11.1	Glutathione S-Transferase family member (gst-34) [Source:RefSeq_peptide;Acc:NP_741060]			
gst-35	Y1H11.2	Glutathione S-Transferase family member (gst-35) [Source:RefSeq_peptide;Acc:NP_741061]			
Y46E12BR.1	Y46E12BR.1	Y46E12BR.1 [Source:RefSeq_peptide;Acc:NP_497322]			
Y46E12BL.4	Y46E12BL.4	Y46E12BL.4 [Source:RefSeq_peptide;Acc:NP_497321]	homoiothermy, response to freezing, 		ice binding, 
Y46E12BL.3	Y46E12BL.3	Y46E12BL.3 [Source:RefSeq_peptide;Acc:NP_497320]	intracellular signaling cascade, 		
Y46E12BL.2	Y46E12BL.2	Y46E12BL.2 [Source:RefSeq_peptide;Acc:NP_497319]			
tig-3	Y46E12BL.1	tig-3 encodes a predicted transforming growth factor beta homolog. [Source: WormBase]			growth factor activity, 
2RSSE.1	2RSSE.1	2RSSE.1 encodes a protein that contains a RhoGAP domain and that is similar to Drosophila RhoGAP71E whose activity regulates the number and guidance of mushroom body axons. [Source: WormBase]	signal transduction, 	intracellular, 	
2RSSE.2	2RSSE.2	2RSSE.2 is a predicted gene that can encode a novel protein containing a short stretch of similarity to Drosophila melanogaster RhoGAP71E. [Source: WormBase]			
2RSSE.3	2RSSE.3				
fbxa-6	cTel54X.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
H10E21.2	H10E21.2	H10E21.2 [Source:RefSeq_peptide;Acc:NP_497125]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-80	H10E21.3	nhr-80 encodes a nuclear hormone receptor, expressed in the intestine, that regulates expression of the delta-9 desaturases FAT-5/-6/-7, and thus regulates fatty acid metabolism. NHR-80 is fully required for any expression of FAT-7, full expression of FAT-5/-6, viability in the absence of FAT-6, and transcriptional hyperactivation of fat-7 in the absence of FAT-6, and for a fully normal adult lifespan. nhr-80 is expressed robustly in the intestine during larval and adult stages of development, with some expression also seen in head muscles. nhr-80 is specific to nematodes, being a divergent ortholog of HNF4 with many paralogs in C. elegans. nhr-80(tm1011) mutants, like nhr-49 mutants, have an increased ration of saturated 18:0 fatty acids to monounsaturated 18:1 ones (4.6 instead of 2.2). nhr-80(tm1011) mutants are viable and fertile and have no increase in fat storage, but double fat-6(tm331).nhr-80(tm1011) mutants, (or fat-6(tm331) mutants subjected to nhr-80(RNAi), are synthetically lethal unless cultured on media supplemented with desaturated fatty acids. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, positive regulation of fatty acid metabolic process, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
H10E21.1	H10E21.1	H10E21.1 [Source:RefSeq_peptide;Acc:NP_497127]			
H10E21.4	H10E21.4	H10E21.4 [Source:RefSeq_peptide;Acc:NP_497128]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
H10E21.5	H10E21.5	H10E21.5 [Source:RefSeq_peptide;Acc:NP_497129]			protein binding, zinc ion binding, 
W05G11.4	W05G11.4	W05G11.4 [Source:RefSeq_peptide;Acc:NP_497130]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
col-88	W05G11.3	COLlagen family member (col-88) [Source:RefSeq_peptide;Acc:NP_497131]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
W05G11.2	W05G11.2	W05G11.2 [Source:RefSeq_peptide;Acc:NP_497132]	embryonic development ending in birth or egg hatching, 		
W05G11.5	W05G11.5	W05G11.5 [Source:RefSeq_peptide;Acc:NP_497133]			protein binding, 
W05G11.6	W05G11.6	W05G11.6d [Source:RefSeq_peptide;Acc:NP_871635]	gluconeogenesis, 		GTP binding, phosphoenolpyruvate carboxykinase activity, 
spt-4	F54C4.2	Transcription elongation factor SPT4 (DRB sensitivity-inducing factor small subunit) (DSIF small subunit). [Source:Uniprot/SWISSPROT;Acc:Q9TZ93]	positive regulation of transcription, 	nucleus, 	zinc ion binding, positive transcription elongation factor activity, 
F54C4.3	F54C4.3	F54C4.3 [Source:RefSeq_peptide;Acc:NP_497136]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F54C4.4	F54C4.4	F54C4.4 [Source:RefSeq_peptide;Acc:NP_497137]			
F54C4.1	F54C4.1	F54C4.1 [Source:RefSeq_peptide;Acc:NP_497138]	positive regulation of growth rate, 		
pat-4	C29F9.7	The pat-4 gene encodes a serine/threonine kinase orthologous to human integrin-linked kinase (ILK, OMIM:602366) and is required for formation of integrin-mediated muscle cell attachments during embryogenesis. PAT-4 probably functions as an adaptor molecule and localizes to dense bodies and M lines. PAT-4 forms a ternary complex with PAT-6/actopaxin and UNC-112, and requires UNC-112, UNC-52/perlecan, PAT-2/alpha integrin, and PAT-3/beta integrin for proper localization to newly forming integrin adhesion complexes. [Source: WormBase]	protein amino acid phosphorylation, integrin-mediated signaling pathway, embryonic development ending in birth or egg hatching, embryonic development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, integrin binding, 
C29F9.8	C29F9.8	C29F9.8 [Source:RefSeq_peptide;Acc:NP_497140]	gamete generation, 		serine-type endopeptidase inhibitor activity, 
C29F9.9	C29F9.9	C29F9.9 [Source:RefSeq_peptide;Acc:NP_497141]	gamete generation, 		serine-type endopeptidase inhibitor activity, 
fbxa-57	C29F9.10	F-box A protein family member (fbxa-57) [Source:RefSeq_peptide;Acc:NP_497142]			transferase activity, transferring alkyl or aryl (other than methyl) groups, 
fbxa-58	C29F9.11	F-box A protein family member (fbxa-58) [Source:RefSeq_peptide;Acc:NP_497143]			
C29F9.6	C29F9.6	C29F9.6 [Source:RefSeq_peptide;Acc:NP_497144]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription cofactor activity, 
C29F9.5	C29F9.5	C29F9.5 [Source:RefSeq_peptide;Acc:NP_497145]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, transcription cofactor activity, 
C29F9.4	C29F9.4	C29F9.4 [Source:RefSeq_peptide;Acc:NP_497146]			
C29F9.12	C29F9.12	C29F9.12 [Source:RefSeq_peptide;Acc:NP_497147]	embryonic development ending in birth or egg hatching, 		
C29F9.3	C29F9.3	C29F9.3b [Source:RefSeq_peptide;Acc:NP_741064]			
nhr-280	C29F9.13	Nuclear Hormone Receptor family member (nhr-280) [Source:RefSeq_peptide;Acc:NP_497150]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
C29F9.2	C29F9.2	C29F9.2 [Source:RefSeq_peptide;Acc:NP_497151]			
C29F9.1	C29F9.1	C29F9.1 [Source:RefSeq_peptide;Acc:NP_497152]			
T17A3.2	T17A3.2	T17A3.2 [Source:RefSeq_peptide;Acc:NP_497153]			
fbxb-81	T17A3.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-82	T17A3.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-83	T17A3.6	F-box B protein family member (fbxb-83) [Source:RefSeq_peptide;Acc:NP_497156]			
T17A3.12	T17A3.12	T17A3.12 [Source:RefSeq_peptide;Acc:NP_741065]			
fbxb-84	T17A3.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
ver-2	T17A3.8	VEGF (vascular endothelial growth factor) Receptor family member (ver-2) [Source:RefSeq_peptide;Acc:NP_497158]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, zinc ion binding, 
srz-7	T17A3.11				
T17A3.9	T17A3.9	T17A3.9 [Source:RefSeq_peptide;Acc:NP_497160]			
T17A3.10	T17A3.10	T17A3.10 [Source:RefSeq_peptide;Acc:NP_497161]			
ver-1	T17A3.1	VEGF (vascular endothelial growth factor) Receptor family member (ver-1) [Source:RefSeq_peptide;Acc:NP_497162]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, vascular endothelial growth factor receptor activity, 
F40G9.8	F40G9.8	F40G9.8 [Source:RefSeq_peptide;Acc:NP_497164]			
F40G9.7	F40G9.7	F40G9.7 [Source:RefSeq_peptide;Acc:NP_497165]			
F40G9.9	F40G9.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	ciliary or flagellar motility, 	flagellin-based flagellum, 	structural molecule activity, motor activity, 
F40G9.12	F40G9.12	F40G9.12 [Source:RefSeq_peptide;Acc:NP_497167]			protein binding, zinc ion binding, 
F40G9.10	F40G9.10	F40G9.10 [Source:RefSeq_peptide;Acc:NP_497168]	immune response, 		sugar binding, 
F40G9.14	F40G9.14	F40G9.14 [Source:RefSeq_peptide;Acc:NP_497169]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
F40G9.6	F40G9.6	F40G9.6 [Source:RefSeq_peptide;Acc:NP_497170]			
F40G9.5	F40G9.5	F40G9.5 [Source:RefSeq_peptide;Acc:NP_497171]			
hlh-21	F40G9.4	Helix Loop Helix family member (hlh-21) [Source:RefSeq_peptide;Acc:NP_497172]			protein binding, 
mxl-2	F40G9.11	MaX-Like family member (mxl-2) [Source:RefSeq_peptide;Acc:NP_497173]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
ubc-20	F40G9.3	UBiquitin Conjugating enzyme family member (ubc-20) [Source:RefSeq_peptide;Acc:NP_497174]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
F40G9.2	F40G9.2	F40G9.2 [Source:RefSeq_peptide;Acc:NP_497175]	copper ion transport, 	mitochondrial intermembrane space, 	copper ion binding, copper chaperone activity, 
F40G9.1	F40G9.1	F40G9.1 [Source:RefSeq_peptide;Acc:NP_497176]	positive regulation of growth rate, 		
W10C4.1	W10C4.1	W10C4.1 [Source:RefSeq_peptide;Acc:NP_497177]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
klp-20	Y50D7A.6	Kinesin-Like Protein family member (klp-20) [Source:RefSeq_peptide;Acc:NP_497178]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
Y50D7A.5	Y50D7A.5	Y50D7A.5 [Source:RefSeq_peptide;Acc:NP_497179]			
Y50D7A.4	Y50D7A.4	Y50D7A.4 [Source:RefSeq_peptide;Acc:NP_497180]	reproduction, 		binding, 
Y50D7A.3	Y50D7A.3	Y50D7A.3 is orthologous to human PHOSPHORYLASE KINASE, TESTIS/LIVER, GAMMA-2 (PHKG2. OMIM:172471), which when mutated leads to liver glycogenosis and cirrhosis. [Source: WormBase]	protein amino acid phosphorylation, glycogen biosynthetic process, 	phosphorylase kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, calmodulin binding, 
Y50D7A.11	Y50D7A.11	Y50D7A.11 [Source:RefSeq_peptide;Acc:NP_001022900]	morphogenesis of an epithelium, 	nucleus, 	ATP binding, DNA binding, ATP-dependent DNA helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
Y50D7A.2	Y50D7A.2	Y50D7A.2 is orthologous to the human gene SIMILAR TO XERODEMA PIGMENTOSUM D (ERCC2. OMIM:126340), which when mutated leads to disease. [Source: WormBase]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, nucleotide-excision repair, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, ATP-dependent helicase activity, ATP-dependent DNA helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
Y50D7A.9	Y50D7A.9	Y50D7A.9 [Source:RefSeq_peptide;Acc:NP_497183]			DNA binding, 
Y50D7A.1	Y50D7A.1	Y50D7A.1 [Source:RefSeq_peptide;Acc:NP_497184]			
ads-1	Y50D7A.7	ads-1 encodes an ortholog of human ALKYL-DIHYDROXYACETONEPHOSPHATE SYNTHASE PRECURSOR (AGPS. OMIM:603051) that is required for normal larval development. mutation of human AGPS leads to type 3 rhizomelic chondrodysplasia punctata (OMIM:600121). [Source: WormBase]	electron transport, growth, 		oxidoreductase activity, FAD binding, 
Y50D7A.10	Y50D7A.10	Y50D7A.10 [Source:RefSeq_peptide;Acc:NP_871652]		intracellular, 	actin binding, 
Y50D7A.8	Y50D7A.8	Y50D7A.8 [Source:RefSeq_peptide;Acc:NP_497186]			
gei-4	W07B3.2	gei-4 encodes a protein with a coiled-coil domain (predicted to mediate protein-protein interactions), an internal repeat of 69 residues (covering residues 134-202, 203-265, and 266-328 of W07B3.2a), and a glutamine/asparagine-rich domain. GEI-4 is paralogous to Y50D7A.8 and Y59C2A.3, physically interacts with GEX-2, and is required for embryonic viability, fertility, and vulval morphogenesis. GEI-4 is claimed to have weak homology to trichohyalin, a mammalian intermediate filament interacting protein. the similarity of the mutant phenotypes of gei-4, gex-2 and gex-3 and their interaction sugggest that the GEX-2/GEX-3/GEI-4 protein complex is essential for the regulation of intermediate filaments during rearrangement of the cytoskeleton that occurs in embryogenesis. GFI-2, an ankyrin-repeat protein associates with GEI-4 and exhibits a similar mutant phenotype, suggesting that gfi-2 is also involved in intermediate filament dynamics. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 		protein binding, structural constituent of cytoskeleton, 
pll-1	K10F12.3	PhosphoLipase C Like family member (pll-1) [Source:RefSeq_peptide;Acc:NP_741067]	intracellular signaling cascade, signal transduction, lipid metabolic process, pronuclear migration, 		calcium ion binding, phosphoinositide phospholipase C activity, phospholipase C activity, 
K10F12.4	K10F12.4	K10F12.4b [Source:RefSeq_peptide;Acc:NP_741070]	metabolic process, cell redox homeostasis, 	cytoplasm, 	electron carrier activity, protein disulfide oxidoreductase activity, glutathione transferase activity, 
K10F12.7	K10F12.7	K10F12.7 [Source:RefSeq_peptide;Acc:NP_741071]			
K10F12.1	K10F12.1				
K10F12.6	K10F12.6	K10F12.6 [Source:RefSeq_peptide;Acc:NP_497195]	embryonic development ending in birth or egg hatching, 		
Y55B1BL.1	Y55B1BL.1	Y55B1BL.1 [Source:RefSeq_peptide;Acc:NP_497196]			
stim-1	Y55B1BM.1	stim-1 encodes an ortholog of STIM1, a putative calcium sensor of the endoplasmic reticulum thought to regulate store-operated calcium entry. stim-1 is required for LIN-3-induced sheath cell contractions, and thus for ovulation and fertility. like stim-1(RNAi) animals, animals expressing constitutively active transgenic STIM-1 are sterile, but unlike stim-1(RNAi), they also defecate abnormally (with an arrhythmic pBoc step). hyperactivated STIM-1 may also perturb osmoregulation and induce neuronal necrosis. stim-1(RNAi) has no effect on the fertility of rrf-1 mutants, indicating that STIM-1's role in fertility is purely somatic. STIM-1 is expressed in spermatheca, gonad sheath cells, uterine epithelial cells, intestine, and head neurons (probably amphid, inner labial, or both). [Source: WormBase]	vesicle-mediated transport, collagen and cuticulin-based cuticle attachment to epithelium, 	membrane, 	protein binding, 
Y55B1BR.3	Y55B1BR.3	Y55B1BR.3 [Source:RefSeq_peptide;Acc:NP_497198]	chromatin assembly or disassembly, nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	protein binding, DNA binding, chromatin binding, 
Y55B1BR.2	Y55B1BR.2	Y55B1BR.2 [Source:RefSeq_peptide;Acc:NP_497199]	embryonic development ending in birth or egg hatching, 		
Y55B1BR.1	Y55B1BR.1	Y55B1BR.1 [Source:RefSeq_peptide;Acc:NP_497200]			
Y55B1BR.5	Y55B1BR.5	Y55B1BR.5 [Source:RefSeq_peptide;Acc:NP_001022917]			
Y55B1BR.6	Y55B1BR.6	Y55B1BR.6 [Source:RefSeq_peptide;Acc:NP_001022918]			
Y55B1BR.4	Y55B1BR.4	Y55B1BR.4 [Source:RefSeq_peptide;Acc:NP_497201]			protein binding, 
F10C5.2	F10C5.2	F10C5.2 [Source:RefSeq_peptide;Acc:NP_497202]			protein binding, 
mat-3	F10C5.1	mat-3 encodes a tetratricopeptide repeat (TPR)-containing protein that is the C. elegans ortholog of CDC23/APC8, a conserved regulatory subunit of the anaphase-promoting complex. mat-3 activity is required for progression through metaphase of oocyte meiosis I, germline proliferation, and vulval development. [Source: WormBase]	reproduction, 		protein binding, binding, 
nlp-32	F30H5.2	Neuropeptide-like protein 32 precursor [Contains: YGGWG-amide; GGW- amide; GG-amide; GYG-amide; GGGWG-amide; GGGW-amide; GGG-amide; GFYGG- amide; GW-amide]. [Source:Uniprot/SWISSPROT;Acc:Q09982]			
F30H5.5	F30H5.5	F30H5.5 [Source:RefSeq_peptide;Acc:NP_001022554]			
unc-45	F30H5.1	UNCoordinated family member (unc-45) [Source:RefSeq_peptide;Acc:NP_497205]	locomotory behavior, sarcomere organization, 		binding, 
NR_002638.1	F30H5.4	F30H5.4, snoRNA [Source:RefSeq_dna;Acc:NR_002638]			
F30H5.3	F30H5.3	F30H5.3 [Source:RefSeq_peptide;Acc:NP_497206]	metabolic process, 		protein binding, oxidoreductase activity, serine-type endopeptidase inhibitor activity, protease inhibitor activity, 
T22F7.5	T22F7.5	T22F7.5 [Source:RefSeq_peptide;Acc:NP_741075]			
T22F7.3	T22F7.3	T22F7.3 [Source:RefSeq_peptide;Acc:NP_497207]			protein binding, serine-type endopeptidase inhibitor activity, 
T22F7.4	T22F7.4	T22F7.4 [Source:RefSeq_peptide;Acc:NP_497208]			
T22F7.t1	T22F7.t1				
T22F7.1	T22F7.1	T22F7.1 [Source:RefSeq_peptide;Acc:NP_497209]	transport, electron transport, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, oxidoreductase activity, sodium:dicarboxylate symporter activity, 
B0353.1	B0353.1	Uncharacterized protein B0353.1. [Source:Uniprot/SWISSPROT;Acc:Q10958]			
Y55B1AL.1	Y55B1AL.1	Y55B1AL.1 [Source:RefSeq_peptide;Acc:NP_497211]			
Y55B1AL.2	Y55B1AL.2	Y55B1AL.2 encodes an ortholog of human GENERAL TRANSCRIPTION FACTOR IIH, POLYPEPTIDE 5 (GTF2H5. OMIM:608780, mutated in DNA repair-deficient trichothiodystrophy, complementation group A) and of YDR079C-A (also known as NDR019C) in S. cerevisiae. Y55B1AL.2 is a small protein of ancient origin with other orthologs in plants and Schizosaccharomyces pombe. [Source: WormBase]	nucleotide-excision repair, 		DNA binding, 
Y55B1AL.3	Y55B1AL.3	Y55B1AL.3 encodes an putative DNA helicase orthologous to human HES308 and Drosophila MUS301/SPN-C/CG7972-PA. Drosophila MUS301 is required for normal resistance to nitrogen mustard (HN2) and to the crosslinking agent cisplatin, and is probably also required for repair of meiotic double-stranded DNA breaks. human HES308 is a single-stranded DNA-dependent ATPase and DNA helicase, and archaeal Hel308 (Mth810) may act at stalled replication forks by displacing lagging strands. Y55B1AL.3, HES308, and CG7972-PA are paralogous to the N-terminal DNA helicase domains of human DNA POLYMERASE THETA (POLQ, OMIM:604419), Drosophila MUS308, and a putative C. elegans POLQ ortholog (collectively encoded by W03A3.3 and W03A3.2). Y55B1AL.3, HES308, and CG7972-PA belong to the superfamily II of DNA and RNA helicases. Y55B1AL.3 is probably, like MUS301, required for recombinational repair of cross-linkage or double-stranded breaks in DNA. biochemically, Y55B1AL.3 may unwind regions of cross-linked DNA before their repair by other proteins (such as POLQ), or resolve Holliday junctions after homologous recombination (as is done by the archaeal homolog Hjm). [Source: WormBase]			ATP binding, nucleotide binding, protein binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, 
Y55B1AR.2	Y55B1AR.2	Y55B1AR.2a [Source:RefSeq_peptide;Acc:NP_001022914]			
lec-6	Y55B1AR.1	lec-6 encodes a 'proto' type galectin (beta-galactosyl-binding lectin) containing a single carbohydrate recognition domain. by homology, LEC-6 may play roles in cell adhesion and aggregation, proliferation, or programmed cell death, but as loss of lec-6 activity via large-scale RNAi screens does not result in obvious abnormalities, the precise role of LEC-6 in C. elegans development and/or behavior is not yet known. in vitro, LEC-6 can interact with several types of blood group precursor oligosaccharides and gangliosides. [Source: WormBase]			sugar binding, 
Y55B1AR.3	Y55B1AR.3	Y55B1AR.3 [Source:RefSeq_peptide;Acc:NP_497216]			
Y55B1AR.4	Y55B1AR.4	Y55B1AR.4 [Source:RefSeq_peptide;Acc:NP_497217]			
T19C3.9	T19C3.9	T19C3.9 [Source:RefSeq_peptide;Acc:NP_001022770]			
T19C3.1	T19C3.1	Uncharacterized protein T19C3.1. [Source:Uniprot/SWISSPROT;Acc:Q22566]			
T19C3.3	T19C3.3	Uncharacterized protein T19C3.3. [Source:Uniprot/SWISSPROT;Acc:Q10009]			
T19C3.2	T19C3.2	Uncharacterized protein T19C3.2. [Source:Uniprot/SWISSPROT;Acc:Q10008]			
T19C3.4	T19C3.4	Uncharacterized protein T19C3.4. [Source:Uniprot/SWISSPROT;Acc:Q10010]			
T19C3.5	T19C3.5	Uncharacterized protein T19C3.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10011]			lipid binding, 
T19C3.6	T19C3.6	Uncharacterized protein T19C3.6. [Source:Uniprot/SWISSPROT;Acc:Q10012]			
fem-2	T19C3.8	A CB5161 ortholog of fem-2, Cs-fem-2, has been isolated from the sibling Caenorhabditis species CB5161. [Source: WormBase]	protein amino acid dephosphorylation, masculinization of hermaphroditic germ-line, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
T19C3.7	T19C3.7	T19C3.7 [Source:RefSeq_peptide;Acc:NP_497225]			
W06E11.4	W06E11.4	W06E11.4 encodes an ortholog of human SBDS (OMIM:607444, mutated in Shwachman-Bodian-Diamond syndrome) and S. cerevisiae SDO1. by homology, W06E11.4 is predicted to be a nucleolar protein that may be required for normal processing of rRNA. WS06E11.4 shares an operon with tag-266 and T19C3.7. [Source: WormBase]			
tag-266	W06E11.5	Temporarily Assigned Gene name family member (tag-266) [Source:RefSeq_peptide;Acc:NP_497227]			
tag-267	W06E11.2	Temporarily Assigned Gene name family member (tag-267) [Source:RefSeq_peptide;Acc:NP_497228]	positive regulation of growth rate, 		
W06E11.1	W06E11.1	W06E11.1 [Source:RefSeq_peptide;Acc:NP_497229]	transcription, growth, 	nucleus, 	DNA-directed RNA polymerase activity, 
W06E11.7	W06E11.7	W06E11.7 [Source:RefSeq_peptide;Acc:NP_497230]			
orai-1	C09F5.2	Protein orai. [Source:Uniprot/SWISSPROT;Acc:Q09232]	reproduction, 		protein binding, 
C09F5.1	C09F5.1	Uncharacterized protein C09F5.1. [Source:Uniprot/SWISSPROT;Acc:Q09231]	reproduction, 		
C09F5.3	C09F5.3	Putative zinc finger protein C09F5.3. [Source:Uniprot/SWISSPROT;Acc:Q09452]		intracellular, 	zinc ion binding, nucleic acid binding, 
W02B3.3	W02B3.3	Uncharacterized protein W02B3.3. [Source:Uniprot/SWISSPROT;Acc:Q09340]			
grk-2	W02B3.2	grk-2 encodes a serine/threonine protein kinase that is most closely related to G protein-coupled receptor (GPCR) kinases. in C. elegans, grk-2 activity is required in chemosensory neurons for normal calcium influx during chemosensation, but is not required for GPCR downregulation. in regulating chemosensation, GRK-2 likely acts upstream of the ODR-3/G alpha protein, as overexpression of ODR-3 can rescue abnormal avoidance behavior in grk-2 mutants. GRK-2 is broadly expressed in the adult nervous system, with expression beginning as early as the 20-30-cell stage of embryonic development and continuing into adulthood. [Source: WormBase]	protein amino acid phosphorylation, signal transduction, multicellular organismal process, olfactory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, signal transducer activity, G-protein coupled receptor kinase activity, 
W02B3.4	W02B3.4	Uncharacterized protein W02B3.4. [Source:Uniprot/SWISSPROT;Acc:Q09341]			
W02B3.5	W02B3.5	Uncharacterized protein W02B3.5. [Source:Uniprot/SWISSPROT;Acc:Q09342]			
C24A1.2	C24A1.2	C24A1.2b [Source:RefSeq_peptide;Acc:NP_001021181]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
W02B3.6	W02B3.6	W02B3.6 [Source:RefSeq_peptide;Acc:NP_497238]			
W02B3.7	W02B3.7	Uncharacterized protein W02B3.7. [Source:Uniprot/SWISSPROT;Acc:Q09343]			
C24A1.3	C24A1.3	C24A1.3b [Source:RefSeq_peptide;Acc:NP_001021183]	protein amino acid phosphorylation, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, mating-type factor pheromone receptor activity, 
flp-24	C24A1.1	FMRF-Like Peptide family member (flp-24) [Source:RefSeq_peptide;Acc:NP_497243]	embryonic development ending in birth or egg hatching, 		
gei-16	T17H7.4	gei-16 can encode a protein with similarity to the B20 antigen of the parasitic nematode Onchocerca volvulus. GEI-16 is required for ventral enclosure and elongation during embryonic development, larval development, and normal rates of postembryonic growth. GEI-16 interacts with GEX-3, a homolog of mammalian protein ligands of the small GTPase Rac1 that is also essential for embryonic morphogenesis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
T17H7.1	T17H7.1	T17H7.1 [Source:RefSeq_peptide;Acc:NP_497250]	embryonic development ending in birth or egg hatching, 		
T17H7.7	T17H7.7	T17H7.7 [Source:RefSeq_peptide;Acc:NP_497251]			
F42G9.4	F42G9.4	F42G9.4 [Source:RefSeq_peptide;Acc:NP_497252]			
ptl-1	F42G9.9	ptl-1 encodes a microtubule-binding protein that is homologous to members of the tau/MAP2/MAP4 subfamily of microtubule-associated proteins (OMIM:157140, abnormal aggregates of hyperphosphorylated tau are associated with several neurodegenerative disorders, including Alzheimer's disease, Pick's disease, and corticobasal degeneration). by homology, PTL-1 is predicted to promote microtubule assembly and stability, and to play a role in maintaining neuronal integrity and axonal transport. in vitro, bacterially expressed PTL-1 can bind microtubules. ptl-1 mRNA is expressed at highest levels in the embryo and early larval stages, while PTL-1 is detected in embryonic hypodermis and head neurons and then in the mechanosensory neurons, ALML, ALMR, AVM, PLML, and PLMR, in larvae and adults. as loss of ptl-1 function via mutation or large-scale RNAi screens does not result in any obvious abnormalities, the precise role of PTL-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	negative regulation of microtubule depolymerization, 		protein binding, 
F42G9.8	F42G9.8	Putative protein-tyrosine sulfotransferase (EC 2.8.2.20) (Tyrosylprotein sulfotransferase) (TPST). [Source:Uniprot/SWISSPROT;Acc:Q20351]	embryonic development ending in birth or egg hatching, 		
cyn-6	F42G9.2	cyn-6 encodes a cyclophilin most similar to human secreted cyclophilin type B isoforms that is functional when expressed in E. coli. it is expressed in the intestine. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
alh-11	F42G9.5	ALdehyde deHydrogenase family member (alh-11) [Source:RefSeq_peptide;Acc:NP_741083]	metabolic process, 		oxidoreductase activity, 
F42G9.6	F42G9.6	F42G9.6b [Source:RefSeq_peptide;Acc:NP_741085]	lipid metabolic process, 		protein binding, triacylglycerol lipase activity, 
F42G9.1	F42G9.1	Probable protein phosphatase 2C F42G9.1 (EC 3.1.3.16) (PP2C). [Source:Uniprot/SWISSPROT;Acc:P49595]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
snt-2	F42G9.7	F42G9.7 [Source:RefSeq_peptide;Acc:NP_497261]	transport, embryonic development ending in birth or egg hatching, 	membrane, synaptic vesicle, 	transporter activity, 
rps-29	B0412.4	rps-29 encodes a small ribosomal subunit S29 protein. by homology, RPS-29 is predicted to function in protein biosynthesis. in C. elegans, RPS-29 activity is broadly required for embryonic and germline development, normal body coloration and morphology, normal postembryonic growth rates, and the overall health of the animal. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_002634.1	B0412.6	B0412.6, snoRNA [Source:RefSeq_dna;Acc:NR_002634]			
NR_003423.1	B0412.7	B0412.7, snoRNA [Source:RefSeq_dna;Acc:NR_003423]			
B0412.3	B0412.3	B0412.3 [Source:RefSeq_peptide;Acc:NP_497264]	positive regulation of growth rate, 		
daf-7	B0412.2	daf-7 encodes a member of the transforming growth factor beta superfamily that affects dauer larvae formation in a TGF-beta-mediated pathway and also affects egg laying. expressed in the ASI neurons. [Source: WormBase]	dauer larval development, 		growth factor activity, 
dac-1	B0412.1	dac-1 encodes the C. elegans ortholog of Dachshund, a transcriptional regulator first described in Drosophila that is a member of the SKI/SNO/DAC family of proteins. dac-1 is expressed at higher levels in the AFD thermosensory neurons as compared to the AWB olfactory neurons and likely plays a role in thermosensory behavior as on thermal gradients dac-1 mutants fail to suppress cryophilic drive but continue to track isotherms at the cultivation temperature. a DAC-1::GFP fusion protein is nuclear and expressed strongly in the AFD thermosensory neurons, but weakly in the AWC, ASE, and ASK chemosensory neurons. expression is also seen in alae and additional, unidentified tail cells. dac-1 expression in AFD is positively regulated by the TTX-1 OTX-like homeodomain protein. [Source: WormBase]		nucleus, 	nucleotide binding, protein binding, 
K02F3.5	K02F3.5	K02F3.5 encodes a protein with a C-terminal C-type lectin domain that inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]			sugar binding, 
K02F3.6	K02F3.6	K02F3.6 [Source:RefSeq_peptide;Acc:NP_497268]	proteolysis, aromatic compound metabolic process, 		catalytic activity, hydrolase activity, aminopeptidase activity, 
zip-2	K02F3.4	bZIP transcription factor family member (zip-2) [Source:RefSeq_peptide;Acc:NP_497269]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
K02F3.7	K02F3.7	K02F3.7 [Source:RefSeq_peptide;Acc:NP_497270]			
K02F3.8	K02F3.8	K02F3.8 [Source:RefSeq_peptide;Acc:NP_497271]			
K02F3.9	K02F3.9	K02F3.9 [Source:RefSeq_peptide;Acc:NP_497272]			
far-8	K02F3.3	Fatty Acid/Retinol binding protein family member (far-8) [Source:RefSeq_peptide;Acc:NP_497273]			
K02F3.2	K02F3.2	The K02F3.2 gene encodes a homolog of human SLC25A13, which when mutated leads to adult onset type II citrullinaemia (OMIM:603471). [Source: WormBase]	transport, reproduction, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, calcium ion binding, 
K02F3.10	K02F3.10	K02F3.10 [Source:RefSeq_peptide;Acc:NP_497275]	translation, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, 
rnp-5	K02F3.11	rnp-5 encodes a putative member of the exon-exon junction complex, orthologous to human RNPS1 (OMIM:606447). RNP-5 is dispensable for embryonic viability. [Source: WormBase]	locomotory behavior, 		nucleotide binding, nucleic acid binding, 
K02F3.1	K02F3.1	K02F3.1 [Source:RefSeq_peptide;Acc:NP_497277]			
K02F3.12	K02F3.12	K02F3.12a [Source:RefSeq_peptide;Acc:NP_001022656]	DNA recombination, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
exos-4.2	Y6D11A.1	Y6D11A.1 [Source:RefSeq_peptide;Acc:NP_497279]	RNA processing, 		RNA binding, 3'-5'-exoribonuclease activity, 
arx-4	Y6D11A.2	arx-4 encodes the C. elegans ortholog of the p34Arc subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	regulation of actin filament polymerization, embryonic development ending in birth or egg hatching, 	cytoskeleton, 	
T24C4.2	T24C4.2	T24C4.2 [Source:RefSeq_peptide;Acc:NP_497280]			
T24C4.3	T24C4.3	T24C4.3 [Source:RefSeq_peptide;Acc:NP_497281]			
T24C4.4	T24C4.4	T24C4.4 [Source:RefSeq_peptide;Acc:NP_497282]	calcium ion transport, 	membrane, 	
T24C4.8	T24C4.8	T24C4.8 [Source:RefSeq_peptide;Acc:NP_001040877]	protein secretion, 	membrane, 	
T24C4.5	T24C4.5	T24C4.5 [Source:RefSeq_peptide;Acc:NP_497283]	DNA replication, synthesis of RNA primer, embryonic development ending in birth or egg hatching, 		DNA primase activity, 
ucr-2.3	T24C4.1	T24C4.1 encodes an ubiquinol-cytochrome C reductase complex core protein 2 ortholog, predicted by Eisenberg and coworkers to be mitochondrial, and required for germline maintenance in mass RNAi assays. [Source: WormBase]	proteolysis, positive regulation of embryonic development, 	endoplasmic reticulum, 	zinc ion binding, metalloendopeptidase activity, phosphoribosylaminoimidazole carboxylase activity, 
zer-1	T24C4.6	Zyg Eleven Related family member (zer-1) [Source:RefSeq_peptide;Acc:NP_741090]			binding, 
T24C4.9	T24C4.9	T24C4.9 [Source:RefSeq_peptide;Acc:NP_001040878]			
T24C4.7	T24C4.7	T24C4.7 [Source:RefSeq_peptide;Acc:NP_497286]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F23H11.2	F23H11.2	F23H11.2 [Source:RefSeq_peptide;Acc:NP_497287]	isoprenoid biosynthetic process, methylation, positive regulation of multicellular organism growth, 		methyltransferase activity, nucleic acid binding, 
F23H11.3	F23H11.3	F23H11.3 [Source:RefSeq_peptide;Acc:NP_497288]	metabolic process, 		catalytic activity, 
F23H11.4	F23H11.4	F23H11.4a [Source:RefSeq_peptide;Acc:NP_497289]	signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	
F23H11.9	F23H11.9	Probable cardiolipin synthetase (EC 2.7.8.-) (Cardiolipin synthase) (CLS). [Source:Uniprot/SWISSPROT;Acc:O01916]	phospholipid biosynthetic process, 	membrane, 	phosphotransferase activity, for other substituted phosphate groups, 
F23H11.5	F23H11.5	The bra-2 gene encodes a homolog of the human BMP receptor-associated molecule (BRAM1), paralogous to bra-1, that may act upon the SMA-6 TGF-beta signalling pathway. [Source: WormBase]	positive regulation of growth rate, 		
bra-2	F23H11.1	The bra-2 gene encodes a homolog of the human BMP receptor-associated molecule (BRAM1), paralogous to bra-1, that may act upon the SMA-6 TGF-beta signalling pathway [Source: WormBase]			protein binding, zinc ion binding, 
F23H11.6	F23H11.6	F23H11.6 [Source:RefSeq_peptide;Acc:NP_497293]			
F23H11.7	F23H11.7	F23H11.7 [Source:RefSeq_peptide;Acc:NP_497294]			
pef-1	F23H11.8	pef-1 encodes an ortholog of the rhodopsin-specific serine/threonine phosphatase RdgC in D. melanogaster and of RdgC-related proteins in humans (PPEF1 and PPEF2. OMIM:300109 and OMIM:602256). PEF-1 has a EF-hand calcium-binding domain, and is peripherally bound to the plasma membrane by myristoylation and palmitoylation. pef-1 has no known mutant phenotype, but is expressed in several anterior amphid neurons, from what appears to be the 3-fold embryo stage onward. on the basis of its expression and its orthology, PEF-1 may negatively regulate signalling through serpentine receptors such as STR-2. [Source: WormBase]			calcium ion binding, hydrolase activity, 
fbxa-55	T12B5.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-56	T12B5.7	F-box A protein family member (fbxa-56) [Source:RefSeq_peptide;Acc:NP_497297]			
fbxa-22	T12B5.5	F-box A protein family member (fbxa-22) [Source:RefSeq_peptide;Acc:NP_497298]			
fbxa-59	T12B5.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T12B5.9	T12B5.9				
fbxa-60	T12B5.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-23	T12B5.13	F-box A protein family member (fbxa-23) [Source:RefSeq_peptide;Acc:NP_497301]			
fbxa-67	T12B5.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-11	T12B5.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-10	T12B5.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-54	T12B5.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-70	T12B5.12	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-51	T12B5.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
R06B10.1	R06B10.1	R06B10.1 [Source:RefSeq_peptide;Acc:NP_497308]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
R06B10.2	R06B10.2	R06B10.2 [Source:RefSeq_peptide;Acc:NP_497309]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
R06B10.5	R06B10.5	R06B10.5 [Source:RefSeq_peptide;Acc:NP_497310]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
trp-2	R06B10.4	TRP (transient receptor potential) channel family member (trp-2) [Source:RefSeq_peptide;Acc:NP_497311]	ion transport, calcium ion transport, 	membrane, integral to membrane, 	ion channel activity, protein binding, calcium channel activity, 
R06B10.7	R06B10.7	R06B10.7 [Source:RefSeq_peptide;Acc:NP_871703]			
R06B10.3	R06B10.3	R06B10.3 [Source:RefSeq_peptide;Acc:NP_497312]			sugar binding, 
Y34F4.2	Y34F4.2	Y34F4.2 [Source:RefSeq_peptide;Acc:NP_497313]			
Y34F4.3	Y34F4.3	Y34F4.3 [Source:RefSeq_peptide;Acc:NP_497314]			
Y34F4.1	Y34F4.1	Y34F4.1 [Source:RefSeq_peptide;Acc:NP_497315]			
Y34F4.4	Y34F4.4	Y34F4.4 [Source:RefSeq_peptide;Acc:NP_497316]			
Y34F4.5	Y34F4.5	Y34F4.5 [Source:RefSeq_peptide;Acc:NP_497317]			
E_BE45912.2	E_BE45912.2	E_BE45912.2 [Source:RefSeq_peptide;Acc:NP_871649]			
BE0003N10.2	BE0003N10.2	BE0003N10.2 [Source:RefSeq_peptide;Acc:NP_497323]	intracellular signaling cascade, signal transduction, 	intracellular, 	
BE0003N10.1	BE0003N10.1	BE0003N10.1 [Source:RefSeq_peptide;Acc:NP_497324]	RNA processing, 		RNA binding, 3'-5'-exoribonuclease activity, 
BE0003N10.t1	BE0003N10.t1				
BE0003N10.t2	BE0003N10.t2				
BE0003N10.t3	BE0003N10.t3				
BE0003N10.t4	BE0003N10.t4				
BE0003N10.3	BE0003N10.3	BE0003N10.3 [Source:RefSeq_peptide;Acc:NP_497325]	ubiquitin cycle, 		zinc ion binding, ubiquitin-protein ligase activity, 
BE0003N10.t5	BE0003N10.t5				
BE0003N10.t6	BE0003N10.t6				
uaf-1	Y92C3B.2	uaf-1 encodes the large subunit of U2AF, the U2 small nuclear ribonucleoparticle (snRNP) auxiliary factor and is a homolog of mammalian and fly U2AF65. UAF-1 has been shown to bind RNA and this binding is enhanced by UAF-2. the abundance of one alternative transcript appears to be increased during starvation and this transcript is retained in the nucleus. uaf-1 affects embryonic viability, based on RNAi analysis. [Source: WormBase]	mRNA processing, embryonic development, biological_process, nuclear mRNA splicing via U2-type spliceosome, 	nucleus, 	RNA binding, protein binding, nucleic acid binding, 
rab-18	Y92C3B.3	rab-18 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. the precise biological role and expression pattern of rab-18 are not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, glycolysis, cellular carbohydrate metabolic process, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, transcription factor binding, 
kbp-4	Y92C3B.1	KNL (kinetochore null) Binding Protein family member (kbp-4) [Source:RefSeq_peptide;Acc:NP_497330]	embryonic development ending in birth or egg hatching, 		
par-2	F58B6.3	par-2 encodes a protein containing a C3HC4-type RING-finger, a specialized type of zinc-finger found in E3 ubiquitin ligase subunits. PAR-2 is required maternally for polarization of the C. elegans zygote along the anterior-posterior (A-P) axis and is asymmetrically localized to the posterior cortex of the one- and two-cell embryo via interdependent interactions with PAR-3, PAR-6, and PKC-3. [Source: WormBase]	reproduction, asymmetric protein localization during cell fate commitment, 		protein binding, zinc ion binding, 
inft-1	F58B6.2	INverted Formin/formin Three-related family member (inft-1) [Source:RefSeq_peptide;Acc:NP_497334]	actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, locomotory behavior, 		actin binding, 
F58B6.1	F58B6.1	F58B6.1 [Source:RefSeq_peptide;Acc:NP_497335]	lipid metabolic process, 		triacylglycerol lipase activity, 
Y71D11A.3	Y71D11A.3	2-amino-3-carboxymuconate-6-semialdehyde decarboxylase (EC 4.1.1.45). [Source:Uniprot/SWISSPROT;Acc:Q8T8B9]	metabolic process, 		aminocarboxymuconate-semialdehyde decarboxylase activity, 
NR_002654.1	Y71D11A.7	Y71D11A.7, snoRNA [Source:RefSeq_dna;Acc:NR_002654]			
Y71D11A.5	Y71D11A.5	Y71D11A.5 [Source:RefSeq_peptide;Acc:NP_497338]	transport, ion transport, positive regulation of growth rate, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
smr-1	Y71D11A.2	SMN (Survival of Motor Neuron protein) Related family member (smr-1) [Source:RefSeq_peptide;Acc:NP_001022932]	embryonic development ending in birth or egg hatching, 		
cdh-12	Y71D11A.1	cdh-12 encodes a cadherin. by sequence similarity, CDH-12 is predicted to function in cellular adhesion, but as loss of cdh-12 activity via large-scale RNAi screens results in no obvious defects, the precise role of cdh-12 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, homophilic cell adhesion, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, protein binding, calcium ion binding, 
Y92C3A.t2	Y92C3A.t2				
Y92C3A.t3	Y92C3A.t3				
Y92C3A.3	Y92C3A.3	Y92C3A.3 [Source:RefSeq_peptide;Acc:NP_497343]			
Y119D3B.13	Y119D3B.13	Y119D3B.13 [Source:RefSeq_peptide;Acc:NP_497344]			
Y119D3B.14	Y119D3B.14	Y119D3B.14 [Source:RefSeq_peptide;Acc:NP_497345]	translation, response to antibiotic, 	intracellular, 	GTP binding, GTPase activity, 
Y119D3B.15	Y119D3B.15	Putative 26 proteasome complex subunit sem1. [Source:Uniprot/SWISSPROT;Acc:Q95Y72]	proteolysis, biological_process, 	proteasome complex (sensu Eukaryota), 	protein binding, peptidase activity, 
Y119D3B.16	Y119D3B.16	Probable 39S ribosomal protein L45, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q95Y71]	intracellular protein transport, 	mitochondrial inner membrane presequence translocase complex, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
Y119D3B.12	Y119D3B.12	Y119D3B.12a [Source:RefSeq_peptide;Acc:NP_497348]			
Y119D3B.11	Y119D3B.11	Y119D3B.11 [Source:RefSeq_peptide;Acc:NP_497349]	reproduction, 		
Y119D3B.21	Y119D3B.21	Y119D3B.21 [Source:RefSeq_peptide;Acc:NP_497350]	biological_process, 		
pes-4	Y119D3B.17	pes-4 encodes a protein that contains two type 1 KH domains, RNA-binding domains that are present in a diverse group of nucleic acid-binding proteins. pes-4 was identified in promoter-trapping screens and by homology, is predicted to function as an RNA-binding protein. however, the precise role of PES-4 in C. elegans development and/or behavior is not yet known. a pes-4 reporter is expressed in three rectal epithelial cells from the L1 larval stage through adulthood and is also seen dispersed throughout the pharynx in all postembryonic stages. [Source: WormBase]	blood coagulation, translation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, intracellular, ribosome, 	RNA binding, structural constituent of ribosome, thrombin receptor activity, 
Y119D3B.t1	Y119D3B.t1				
NR_002653.1	Y119D3B.10	Y119D3B.10, miscRNA [Source:RefSeq_dna;Acc:NR_002653]			
fbxa-21	Y119D3B.9	F-box A protein family member (fbxa-21) [Source:RefSeq_peptide;Acc:NP_497352]			
fbxa-61	Y119D3B.8	F-box A protein family member (fbxa-61) [Source:RefSeq_peptide;Acc:NP_497353]			
fbxa-63	Y119D3B.7	F-box A protein family member (fbxa-63) [Source:RefSeq_peptide;Acc:NP_497354]			
fbxa-76	Y119D3B.22	F-box A protein family member (fbxa-76) [Source:RefSeq_peptide;Acc:NP_001040879]			
fbxa-77	Y119D3B.6	F-box A protein family member (fbxa-77) [Source:RefSeq_peptide;Acc:NP_497355]			
fbxa-91	Y119D3B.18	fbxa-91 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXA-91 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srz-8	Y119D3B.5	Serpentine Receptor, class Z family member (srz-9) [Source:RefSeq_peptide;Acc:NP_497361]			
fbxa-78	Y119D3B.19	fbxa-78 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXA-78 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-208	Y119D3B.4	Y119D3B.4 [Source:RefSeq_peptide;Acc:NP_497359]			
fbxa-92	Y119D3B.20	fbxa-92 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXA-92 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srz-9	Y119D3B.3	Serpentine Receptor, class Z family member (srz-9) [Source:RefSeq_peptide;Acc:NP_497361]			
fbxa-151	ZC47.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-32	ZC47.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-31	ZC47.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-29	ZC47.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-30	ZC47.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
ZC47.11	ZC47.11				
ZC47.8	ZC47.8				
fbxa-33	ZC47.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-34	ZC47.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-37	ZC47.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-50	ZC47.13	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-49	ZC47.12	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-36	Y119D3A.4	F-box A protein family member (fbxa-36) [Source:RefSeq_peptide;Acc:NP_497373]			
fbxa-35	Y119D3A.3	F-box A protein family member (fbxa-35) [Source:RefSeq_peptide;Acc:NP_497375]			
fbxa-28	Y119D3A.2	F-box A protein family member (fbxa-28) [Source:RefSeq_peptide;Acc:NP_497376]			
fbxa-75	Y119D3A.1	F-box A protein family member (fbxa-75) [Source:RefSeq_peptide;Acc:NP_497377]			
fbxa-79	Y82E9BL.13	F-box A protein family member (fbxa-79) [Source:RefSeq_peptide;Acc:NP_497378]			
Y82E9BL.12	Y82E9BL.12	Y82E9BL.12 [Source:RefSeq_peptide;Acc:NP_497379]			
fbxa-20	Y82E9BL.16	F-box A protein family member (fbxa-20) [Source:RefSeq_peptide;Acc:NP_497380]			
fbxa-80	Y82E9BL.14	F-box A protein family member (fbxa-80) [Source:RefSeq_peptide;Acc:NP_497381]			
fbxa-19	Y82E9BL.15	F-box A protein family member (fbxa-19) [Source:RefSeq_peptide;Acc:NP_497382]			
fbxa-15	Y82E9BL.11	F-box A protein family member (fbxa-15) [Source:RefSeq_peptide;Acc:NP_497383]			
fbxa-14	Y82E9BL.10	F-box A protein family member (fbxa-14) [Source:RefSeq_peptide;Acc:NP_497384]			
Y82E9BL.18	Y82E9BL.18	Y82E9BL.18 [Source:RefSeq_peptide;Acc:NP_001022957]			
Y82E9BL.9	Y82E9BL.9				
fbxa-5	Y82E9BL.8	F-box A protein family member (fbxa-5) [Source:RefSeq_peptide;Acc:NP_497385]			
fbxa-26	Y82E9BL.7	F-box A protein family member (fbxa-26) [Source:RefSeq_peptide;Acc:NP_497386]			
fbxa-27	Y82E9BL.17	F-box A protein family member (fbxa-27) [Source:RefSeq_peptide;Acc:NP_497387]			
Y82E9BL.6	Y82E9BL.6	Y82E9BL.6 [Source:RefSeq_peptide;Acc:NP_497388]			
Y82E9BL.5	Y82E9BL.5	Y82E9BL.5 [Source:RefSeq_peptide;Acc:NP_497389]			
fbxa-25	Y82E9BL.4	F-box A protein family member (fbxa-25) [Source:RefSeq_peptide;Acc:NP_497390]			
Y82E9BL.3	Y82E9BL.3	Y82E9BL.3 [Source:RefSeq_peptide;Acc:NP_497391]			
Y82E9BL.2	Y82E9BL.2	Y82E9BL.2 [Source:RefSeq_peptide;Acc:NP_497392]			
Y82E9BL.1	Y82E9BL.1	Y82E9BL.1 [Source:RefSeq_peptide;Acc:NP_497393]			
Y82E9BR.8	Y82E9BR.8	Y82E9BR.8 [Source:RefSeq_peptide;Acc:NP_497394]			
Y82E9BR.9	Y82E9BR.9	Y82E9BR.9 [Source:RefSeq_peptide;Acc:NP_497395]			
Y82E9BR.7	Y82E9BR.7	Y82E9BR.7 [Source:RefSeq_peptide;Acc:NP_497396]			
Y82E9BR.20	Y82E9BR.20	Y82E9BR.20 [Source:RefSeq_peptide;Acc:NP_741094]			
Y82E9BR.10	Y82E9BR.10	Y82E9BR.10 [Source:RefSeq_peptide;Acc:NP_497397]			
Y82E9BR.11	Y82E9BR.11	Y82E9BR.11 [Source:RefSeq_peptide;Acc:NP_497398]			
fbxa-138	Y82E9BR.12	F-box A protein family member (fbxa-138) [Source:RefSeq_peptide;Acc:NP_497399]			
Y82E9BR.6	Y82E9BR.6	Y82E9BR.6 [Source:RefSeq_peptide;Acc:NP_497400]			
Y82E9BR.5	Y82E9BR.5	Y82E9BR.5 [Source:RefSeq_peptide;Acc:NP_497401]			
Y82E9BR.13	Y82E9BR.13	Y82E9BR.13 [Source:RefSeq_peptide;Acc:NP_497402]	positive regulation of growth rate, 		protein binding, 
Y82E9BR.4	Y82E9BR.4	Y82E9BR.4 [Source:RefSeq_peptide;Acc:NP_497403]			
Y82E9BR.23	Y82E9BR.23	Y82E9BR.23 [Source:RefSeq_peptide;Acc:NP_001040888]			
Y82E9BR.21	Y82E9BR.21	Y82E9BR.21 [Source:RefSeq_peptide;Acc:NP_001022964]			
Y82E9BR.22	Y82E9BR.22	Y82E9BR.22 [Source:RefSeq_peptide;Acc:NP_001022965]			
Y82E9BR.14	Y82E9BR.14	Y82E9BR.14a [Source:RefSeq_peptide;Acc:NP_001022958]			copper ion binding, 
elc-1	Y82E9BR.15	elc-1 encodes an ortholog of mammalian elongin C that appears to be required for proteolysis of germ plasm components (ZF1-containing proteins) in somatic cells, and for regulation of the cell cycle by CUL-2. elongin C forms a complex with (and positively regulates) elongin A, the active subunit of RNA polymerase II elongation factor SIII, and also binds to the von Hippel-Lindau (VHL) tumor suppressor. in yeast, elongin C also interacts with stress response proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y82E9BR.3	Y82E9BR.3	Y82E9BR.3 [Source:RefSeq_peptide;Acc:NP_001022966]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
Y82E9BR.16	Y82E9BR.16	Y82E9BR.16a [Source:RefSeq_peptide;Acc:NP_001022960]	transport, embryonic development ending in birth or egg hatching, 	integral to membrane, 	transporter activity, 
Y82E9BR.t1	Y82E9BR.t1				
Y82E9BR.2	Y82E9BR.2	Y82E9BR.2 [Source:RefSeq_peptide;Acc:NP_497408]	biological_process, 		nucleotide binding, 
Y82E9BR.17	Y82E9BR.17	Y82E9BR.17a [Source:RefSeq_peptide;Acc:NP_001022962]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y82E9BR.1	Y82E9BR.1	Y82E9BR.1 [Source:RefSeq_peptide;Acc:NP_497410]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y82E9BR.18	Y82E9BR.18	Y82E9BR.18 [Source:RefSeq_peptide;Acc:NP_497411]	SRP-dependent cotranslational protein targeting to membrane, 	membrane, 	RNA binding, GTP binding, 7S RNA binding, 
Y82E9BR.19	Y82E9BR.19	Y82E9BR.19 [Source:RefSeq_peptide;Acc:NP_497412]			
M01G5.6	M01G5.6	M01G5.6 [Source:RefSeq_peptide;Acc:NP_001022691]			
M01G5.1	M01G5.1	M01G5.1 [Source:RefSeq_peptide;Acc:NP_497413]			
M01G5.3	M01G5.3	M01G5.3 [Source:RefSeq_peptide;Acc:NP_497414]			
snf-6	M01G5.5	snf-6 encodes a member of the sodium:neurotransmitter symporter family. [Source: WormBase]	chloride transport, neurotransmitter transport, gamma-aminobutyric acid signaling pathway, locomotory behavior, positive regulation of locomotion, acetylcholine transport, neurotransmitter uptake, neuromuscular synaptic transmission, choline transport, 	membrane, integral to membrane, integral to plasma membrane, postsynaptic membrane, 	protein binding, GABA-A receptor activity, neurotransmitter:sodium symporter activity, acetylcholine transmembrane transporter activity, PDZ domain binding, 
Y67D2.4	Y67D2.4	Y67D2.4 [Source:RefSeq_peptide;Acc:NP_497417]		intracellular, 	GTP binding, 
Y67D2.5	Y67D2.5	N-acetyltransferase 9-like protein (EC 2.3.1.-). [Source:Uniprot/SWISSPROT;Acc:Q9BKR0]	metabolic process, 		N-acetyltransferase activity, 
Y67D2.3	Y67D2.3	Y67D2.3 [Source:RefSeq_peptide;Acc:NP_497419]			
Y67D2.6	Y67D2.6	Probable ATP-dependent RNA helicase DHX35 homolog (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:Q9BKQ8]			ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y67D2.7	Y67D2.7	Y67D2.7 [Source:RefSeq_peptide;Acc:NP_497421]	embryonic development ending in birth or egg hatching, 		
Y67D2.2	Y67D2.2	Y67D2.2 [Source:RefSeq_peptide;Acc:NP_497422]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 		ubiquitin thiolesterase activity, 
Y67D2.1	Y67D2.1	Y67D2.1a [Source:RefSeq_peptide;Acc:NP_001022928]	protein transport, electron transport, regulation of GTPase activity, 		oxidoreductase activity, Rab GDP-dissociation inhibitor activity, 
Y67D2.t2	Y67D2.t2				
Y67D2.t3	Y67D2.t3				
Y67D2.t4	Y67D2.t4				
Y67D2.t1	Y67D2.t1				
Y22D7AL.7	Y22D7AL.7	Y22D7AL.7 [Source:RefSeq_peptide;Acc:NP_497424]			
Y22D7AL.t6	Y22D7AL.t6				
Y22D7AL.t1	Y22D7AL.t1				
Y22D7AL.t5	Y22D7AL.t5				
Y22D7AL.t2	Y22D7AL.t2				
sms-3	Y22D7AL.8	Putative phosphatidylcholine:ceramide cholinephosphotransferase 3 (EC 2.7.8.27) (Sphingomyelin synthase 3). [Source:Uniprot/SWISSPROT;Acc:Q965Q4]	sphingomyelin biosynthetic process, 	integral to membrane, 	ceramide cholinephosphotransferase activity, 
Y22D7AL.t3	Y22D7AL.t3				
Y22D7AL.t4	Y22D7AL.t4				
Y22D7AL.6	Y22D7AL.6	Y22D7AL.6 [Source:RefSeq_peptide;Acc:NP_497426]			
Y22D7AL.9	Y22D7AL.9	Y22D7AL.9 [Source:RefSeq_peptide;Acc:NP_497427]			binding, 
Y22D7AL.10	Y22D7AL.10	Y22D7AL.10 [Source:RefSeq_peptide;Acc:NP_497428]	protein folding, embryonic development ending in birth or egg hatching, 		ATP binding, 
hsp-60	Y22D7AL.5	hsp-60 encodes a mitochondrial-specific chaperone that is a member of the GroE/Hsp10/60 superfamily of molecular chaperones. hsp-60 is believed to be involved in the mitochondrial unfolded protein response, as hsp-60 expression, normally broadly detected during development, is greatly increased in response to treatments that disrupt mitochondrial protein handling. loss of hsp-60 activity via RNAi results in severe growth defects with arrest at embryonic and early larval stages of development. [Source: WormBase]	protein folding, cellular protein metabolic process, reproduction, 		ATP binding, protein binding, unfolded protein binding, 
Y22D7AL.4	Y22D7AL.4	Y22D7AL.4 [Source:RefSeq_peptide;Acc:NP_497430]			
Y22D7AL.11	Y22D7AL.11	Y22D7AL.11 [Source:RefSeq_peptide;Acc:NP_497431]			
Y22D7AL.3	Y22D7AL.3	Y22D7AL.3 [Source:RefSeq_peptide;Acc:NP_497432]			
Y22D7AL.2	Y22D7AL.2	Y22D7AL.2 [Source:RefSeq_peptide;Acc:NP_497433]			
Y22D7AL.12	Y22D7AL.12	Y22D7AL.12 [Source:RefSeq_peptide;Acc:NP_497434]			
Y22D7AL.13	Y22D7AL.13	Y22D7AL.13 [Source:RefSeq_peptide;Acc:NP_497435]			
Y22D7AL.1	Y22D7AL.1	Y22D7AL.1 [Source:RefSeq_peptide;Acc:NP_497436]			
Y22D7AL.14	Y22D7AL.14	Y22D7AL.14 [Source:RefSeq_peptide;Acc:NP_497437]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
Y22D7AL.15	Y22D7AL.15	Y22D7AL.15 [Source:RefSeq_peptide;Acc:NP_497438]			
Y22D7AL.16	Y22D7AL.16	Y22D7AL.16 [Source:RefSeq_peptide;Acc:NP_497439]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y22D7AR.3	Y22D7AR.3	Y22D7AR.3 [Source:RefSeq_peptide;Acc:NP_497440]			
Y22D7AR.5	Y22D7AR.5	Y22D7AR.4 [Source:RefSeq_peptide;Acc:NP_497441]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
Y22D7AR.6	Y22D7AR.6	Y22D7AR.6 [Source:RefSeq_peptide;Acc:NP_497443]			inositol trisphosphate 3-kinase activity, 
Y22D7AR.7	Y22D7AR.7	Y22D7AR.7 [Source:RefSeq_peptide;Acc:NP_497444]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
Y22D7AR.14	Y22D7AR.14	Y22D7AR.14 [Source:RefSeq_peptide;Acc:NP_001022826]			
srd-64	Y22D7AR.8	Serpentine Receptor, class D (delta) family member (srd-64) [Source:RefSeq_peptide;Acc:NP_497445]			
fbxa-74	Y22D7AR.9	F-box A protein family member (fbxa-74) [Source:RefSeq_peptide;Acc:NP_497446]			
Y22D7AR.10	Y22D7AR.10	Y22D7AR.10 [Source:RefSeq_peptide;Acc:NP_497447]			
fbxa-13	Y22D7AR.11	F-box A protein family member (fbxa-13) [Source:RefSeq_peptide;Acc:NP_497448]			
Y22D7AR.2	Y22D7AR.2	Y22D7AR.2 [Source:RefSeq_peptide;Acc:NP_497449]	protein amino acid dephosphorylation, 		heat shock protein binding, protein tyrosine phosphatase activity, 
Y22D7AR.1	Y22D7AR.1	Y22D7AR.1 [Source:RefSeq_peptide;Acc:NP_497450]	regulation of transcription, DNA-dependent, protein amino acid dephosphorylation, dephosphorylation, nucleosome assembly, 	nucleus, chromatin, nucleosome, 	DNA binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y22D7AR.12	Y22D7AR.12	Y22D7AR.12 [Source:RefSeq_peptide;Acc:NP_497451]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ser-4	Y22D7AR.13	ser-4 encodes an ortholog of mammalian 5-HT1 metabotropic serotonin receptors. SER-4 is required for normal inhibition of movement by 5-HT, with ser-4 mutants being hyperactive. SER-4 is partly required for male tail curling, with ser-4 mutants showing reduced curling in exogenous 5-HT. SER-4 is dispensable for the stimulation of egg-laying by 5-HT and by the uptake inhibitor fluoxetine. SER-4 may actually inhibit egg-laying, since egg-laying ser-4 mutants are moderately hypersensitive to 5-HT, and mutant ser-4 hermaphrodites are partly depleted of eggs, suggesting that their egg-laying is weakly constitutive. however, SER-4 is required for stimulation of egg-laying by the tricyclic antidepressant imipramine, suggesting that imipramine drives HSNs to secrete some non-5-HT neurotransmitter which then activates SER-4. SER-4 is expressed in neurons (RIB and RIS, other head, pharyngeal, sublateral, retrovesicular ganglion, PVT, and either DVA or DVC). SER-4 has a low affinity for serotonin (5-HT), and overall pharmacological similarities to mammalian 5-HT1 receptors. SER-4 is probably antagonized by mianserin. heterologously expressed SER-4, when challenged with 5-HT, diminishes intracellular adenylate cyclase activity. LIM-6 is required for normal expression of SER-4 in RIS interneurons. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, adrenoceptor activity, 
Y22D7AR.t1	Y22D7AR.t1				
Y46E12A.3	Y46E12A.3	Y46E12A.3 [Source:RefSeq_peptide;Acc:NP_497453]			
Y46E12A.2	Y46E12A.2	Y46E12A.2 [Source:RefSeq_peptide;Acc:NP_497454]			
cnc-6	Y46E12A.1	cnc-6 encodes one of six C. elegans caenacin peptides. cnc-6 expression is strongly induced after infection by the fungus Drechmeria coniospora, suggesting that it functions as a secreted antimicrobial peptide in the innate immune response. [Source: WormBase]	protein homooligomerization, 	membrane, 	
Y46E12A.4	Y46E12A.4	Y46E12A.4 [Source:RefSeq_peptide;Acc:NP_001040883]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
Y39A3CL.4	Y39A3CL.4	Y39A3CL.4b [Source:RefSeq_peptide;Acc:NP_497457]	DNA repair, 		
Y39A3CL.3	Y39A3CL.3	Y39A3CL.3 [Source:RefSeq_peptide;Acc:NP_497458]	DNA repair, 		
tag-168	Y39A3CL.2	Temporarily Assigned Gene name family member (tag-168) [Source:RefSeq_peptide;Acc:NP_497459]			
clp-4	Y39A3CL.5	clp-4 encodes a large calpain subunit that is homologous to Drosophila CalpainB and the mammalian muscle-specific Calpain 3 proteins (OMIM:114240, mutations are associated with limb-girdle muscular dystrophy). by homology, CLP-4 is predicted to function as a nonlysosomal, calcium-dependent, cysteine protease that is involved in intracellular proteolysis and peptidolysis. however, as loss of clp-4 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of CLP-4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	proteolysis, 	intracellular, 	cysteine-type endopeptidase activity, calcium-dependent cysteine-type endopeptidase activity, 
pvf-1	Y39A3CL.6	PDGF/VEGF growth factor related family member (pvf-1) [Source:RefSeq_peptide;Acc:NP_497461]		membrane, 	growth factor activity, 
Y39A3CL.7	Y39A3CL.7	Y39A3CL.7b [Source:RefSeq_peptide;Acc:NP_001022846]			
Y39A3CL.1	Y39A3CL.1	Y39A3CL.1 [Source:RefSeq_peptide;Acc:NP_497463]			
pqn-82	Y39A3CR.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			nucleotide binding, 
Y39A3CR.6	Y39A3CR.6	Y39A3CR.6 [Source:RefSeq_peptide;Acc:NP_497465]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
Y39A3CR.5	Y39A3CR.5	Y39A3CR.5 [Source:RefSeq_peptide;Acc:NP_497466]			
ddp-1	Y39A3CR.4	ddp-1 encodes the C. elegans ortholog of Saccharomyces cerevisiae Tim8p and human deafness/dystonia peptide (DDP. OMIM:300356, mutated in Mohr-Tranebjaerg syndrome). by homology, DDP-1 is predicted to be part of a heterooligomeric complex that localizes to the mitochondrial intermembrane space and facilitates translocation of proteins from the cytosol to the inner mitochondrial membrane. loss of ddp-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, indicating that ddp-1 is not essential for C. elegans development or may function redundantly with its paralogs, TIN-9, -10, and -13. [Source: WormBase]	protein targeting to mitochondrion, protein import into mitochondrial inner membrane, 	mitochondrial intermembrane space protein transporter complex, 	
Y39A3CR.3	Y39A3CR.3	Y39A3CR.3 [Source:RefSeq_peptide;Acc:NP_497468]			binding, 
smi-1	Y39A3CR.1	smi-1 encodes the C. elegans ortholog of human Gemin2, a novel protein that interacts with the product of the survival motor neuron (SMN) gene, mutations in which are associated with spinal muscular atrophy. in C. elegans, smi-1 is an essential gene required for embryonic development past the mid-proliferation stage. in vitro, SMI-1 physically interacts with C. elegans SMN-1, indicating that the interaction between these two proteins is conserved. SMI-1 is expressed throughout development in multiple tissue types including the gut, neurons, and body wall muscles. SMI-1 localizes primarily to nuclei, with some protein also detected in the cytoplasm and in some neuronal processes. [Source: WormBase]	nuclear mRNA splicing, via spliceosome, spliceosome assembly, 		
Y39A3CR.8	Y39A3CR.8	Y39A3CR.8 [Source:RefSeq_peptide;Acc:NP_497470]			
B0524.4	B0524.4	B0524.4 [Source:RefSeq_peptide;Acc:NP_497471]			
B0524.3	B0524.3	B0524.3 [Source:RefSeq_peptide;Acc:NP_497472]			
B0524.5	B0524.5	B0524.5 [Source:RefSeq_peptide;Acc:NP_497473]			
B0524.2	B0524.2	B0524.2 [Source:RefSeq_peptide;Acc:NP_497474]	lipid metabolic process, 		
B0524.6	B0524.6	B0524.6 [Source:RefSeq_peptide;Acc:NP_497475]			
B0524.1	B0524.1	B0524.1 [Source:RefSeq_peptide;Acc:NP_497476]			
B0524.7	B0524.7	B0524.7 [Source:RefSeq_peptide;Acc:NP_001040838]			
F53A3.6	F53A3.6	F53A3.6 [Source:RefSeq_peptide;Acc:NP_497477]	regulation of transcription, DNA-dependent, homoiothermy, response to freezing, type I hypersensitivity, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, ice binding, 
pqn-41	F53A3.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	homoiothermy, response to freezing, 		ice binding, 
F53A3.5	F53A3.5				
F53A3.1	F53A3.1	F53A3.1 [Source:RefSeq_peptide;Acc:NP_497479]			
polh-1	F53A3.2	The F53A3.2 gene encodes an ortholog of the human gene XERODERMA PIGMENTOSUM VARIANT RAD30 (POLH. OMIM:603968), which when mutated leads to xeroderma pigmentosum (OMIM:278750). [Source: WormBase]	DNA repair, 		
rps-22	F53A3.3	rps-22 encodes a small ribosomal subunit S15a protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
F53A3.7	F53A3.7	F53A3.7 [Source:RefSeq_peptide;Acc:NP_497482]	biological_process, 		
R155.1	R155.1	R155.1a [Source:RefSeq_peptide;Acc:NP_001022735]	positive regulation of multicellular organism growth, 		
R155.2	R155.2	R155.2 [Source:RefSeq_peptide;Acc:NP_497484]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
R155.3	R155.3	R155.3 [Source:RefSeq_peptide;Acc:NP_497485]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
R155.4	R155.4	R155.4 [Source:RefSeq_peptide;Acc:NP_497486]	pathogenesis, 		
srd-66	Y39A3B.4	Serpentine Receptor, class D (delta) family member (srd-66) [Source:RefSeq_peptide;Acc:NP_497487]			
Y39A3B.3	Y39A3B.3	Y39A3B.3 [Source:RefSeq_peptide;Acc:NP_497488]			
Y39A3B.t1	Y39A3B.t1				
Y39A3B.2	Y39A3B.2	Y39A3B.2 [Source:RefSeq_peptide;Acc:NP_497489]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, protein binding, GABA-A receptor activity, 
Y39A3B.1	Y39A3B.1	Y39A3B.1 [Source:RefSeq_peptide;Acc:NP_497490]			
Y39A3B.5	Y39A3B.5	Y39A3B.5b [Source:RefSeq_peptide;Acc:NP_001022843]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, galanin receptor activity, gastrin receptor activity, neuropeptide receptor activity, 
M01E10.t1	M01E10.t1				
M01E10.t2	M01E10.t2				
dpy-1	M01E10.2	dpy-1 encodes a collagen that affects body length and alae formation. site of action localized to the hyp7 syncytium, based on mosaic analysis. [Source: WormBase]	positive regulation of multicellular organism growth, 		iron ion binding, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
M01E10.3	M01E10.3	M01E10.3 [Source:RefSeq_peptide;Acc:NP_497493]			
Y39A3A.2	Y39A3A.2	Y39A3A.2 [Source:RefSeq_peptide;Acc:NP_497495]			
ins-16	Y39A3A.5	ins-16 encodes an insulin-like peptide. [Source: WormBase]			
srz-86	Y39A3A.7				
Y39A3A.3	Y39A3A.3	Y39A3A.3 [Source:RefSeq_peptide;Acc:NP_497496]			
srz-87	Y39A3A.6				
Y39A3A.4	Y39A3A.4	Y39A3A.4 [Source:RefSeq_peptide;Acc:NP_497497]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
cpt-3	Y48G9A.10	Carnitine Palmitoyl Transferase family member (cpt-3) [Source:RefSeq_peptide;Acc:NP_497498]	proteolysis, 		cysteine-type endopeptidase activity, acyltransferase activity, 
Y48G9A.9	Y48G9A.9	Y48G9A.9a [Source:RefSeq_peptide;Acc:NP_001022892]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ppk-2	Y48G9A.8	PIP Kinase family member (ppk-2) [Source:RefSeq_peptide;Acc:NP_497500]	phosphatidylinositol metabolic process, 		phosphatidylinositol phosphate kinase activity, 
Y48G9A.7	Y48G9A.7	Y48G9A.7 [Source:RefSeq_peptide;Acc:NP_497501]			
Y48G9A.11	Y48G9A.11	Y48G9A.11 [Source:RefSeq_peptide;Acc:NP_497502]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y48G9A.6	Y48G9A.6	Y48G9A.6 [Source:RefSeq_peptide;Acc:NP_497503]			
frl-1	Y48G9A.4	frl-1 encodes a homolog of human FMNL1 (also known as human leukocyte formin) and FMNL2-3, and a paralog of human DAAM1-2. FRL-1 enables Wnt-directed planar cell polarity. FRL-1 is required for the fully asymmetrical division of B.a versus B.p cells, though this requirement is quantitatively weak. [Source: WormBase]	cell adhesion, actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, 	actin cytoskeleton, 	actin binding, structural molecule activity, Rho GTPase binding, 
Y48G9A.3	Y48G9A.3	Y48G9A.3 [Source:RefSeq_peptide;Acc:NP_497506]			
Y48G9A.12	Y48G9A.12	Y48G9A.12 [Source:RefSeq_peptide;Acc:NP_497507]			
Y48G9A.2	Y48G9A.2	Y48G9A.2 [Source:RefSeq_peptide;Acc:NP_497508]			
Y48G9A.1	Y48G9A.1	Y48G9A.1 [Source:RefSeq_peptide;Acc:NP_497509]			binding, 
C39B5.6	C39B5.6	C39B5.6 [Source:RefSeq_peptide;Acc:NP_497510]	translation, 		ligase activity, carbon-nitrogen ligase activity, with glutamine as amido-N-donor, 
C39B5.5	C39B5.5	C39B5.5 [Source:RefSeq_peptide;Acc:NP_497511]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
fbxa-8	C39B5.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-12	C39B5.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srd-65	C39B5.12	Serpentine Receptor, class D (delta) family member (srd-65) [Source:RefSeq_peptide;Acc:NP_497514]			
fbxa-38	C39B5.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-62	C39B5.3	F-box A protein family member (fbxa-62) [Source:RefSeq_peptide;Acc:NP_497516]	embryonic development ending in birth or egg hatching, 		
fbxa-47	C39B5.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C39B5.2	C39B5.2	C39B5.2 [Source:RefSeq_peptide;Acc:NP_497518]	embryonic development ending in birth or egg hatching, 		
C39B5.10	C39B5.10	C39B5.10 [Source:RefSeq_peptide;Acc:NP_497519]			
srz-56	C39B5.1	Serpentine Receptor, class Z family member (srz-56) [Source:RefSeq_peptide;Acc:NP_497520]			
srd-67	C39B5.11	Serpentine Receptor, class D (delta) family member (srd-67) [Source:RefSeq_peptide;Acc:NP_497521]			
T20H9.6	T20H9.6	T20H9.6 [Source:RefSeq_peptide;Acc:NP_497522]			
fbxa-7	T20H9.1	F-box A protein family member (fbxa-7) [Source:RefSeq_peptide;Acc:NP_497523]			
fbxa-68	T20H9.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-73	T20H9.4	F-box A protein family member (fbxa-73) [Source:RefSeq_peptide;Acc:NP_497525]			
fbxa-71	T20H9.3	F-box A protein family member (fbxa-71) [Source:RefSeq_peptide;Acc:NP_497526]			
fbxa-43	T20H9.2	F-box A protein family member (fbxa-43) [Source:RefSeq_peptide;Acc:NP_497527]			
fbxa-42	Y54F10BL.1	F-box A protein family member (fbxa-42) [Source:RefSeq_peptide;Acc:NP_001040886]			
Y54F10BM.6	Y54F10BM.6	Y54F10BM.6 [Source:RefSeq_peptide;Acc:NP_497528]			protein binding, zinc ion binding, 
fbxa-9	Y54F10BM.5	F-box A protein family member (fbxa-9) [Source:RefSeq_peptide;Acc:NP_497529]			
fbxa-48	Y54F10BM.7	F-box A protein family member (fbxa-48) [Source:RefSeq_peptide;Acc:NP_497530]			
fbxa-39	Y54F10BM.4	F-box A protein family member (fbxa-39) [Source:RefSeq_peptide;Acc:NP_497531]			
Y54F10BM.3	Y54F10BM.3	Y54F10BM.3 [Source:RefSeq_peptide;Acc:NP_497532]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
fbxa-219	Y54F10BM.15	Y54F10BM.15 [Source:RefSeq_peptide;Acc:NP_001022910]			
Y54F10BM.9	Y54F10BM.9	Y54F10BM.9 [Source:RefSeq_peptide;Acc:NP_497533]			
Y54F10BM.10	Y54F10BM.10	Y54F10BM.10 [Source:RefSeq_peptide;Acc:NP_497534]			
fbxa-66	Y54F10BM.11	F-box A protein family member (fbxa-66) [Source:RefSeq_peptide;Acc:NP_497535]			
iffb-1	Y54F10BM.2	Initiation Factor Five B (eIF5B) family member (iffb-1) [Source:RefSeq_peptide;Acc:NP_497536]	growth, 		GTP binding, translation initiation factor activity, 
Y54F10BM.12	Y54F10BM.12	Y54F10BM.12 [Source:RefSeq_peptide;Acc:NP_497537]			
Y54F10BM.13	Y54F10BM.13	Y54F10BM.13 [Source:RefSeq_peptide;Acc:NP_497538]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, MAP kinase tyrosine/serine/threonine phosphatase activity, 
fbxa-1	Y54F10BM.1	F-box A protein family member (fbxa-1) [Source:RefSeq_peptide;Acc:NP_497539]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
phf-5	Y54F10BM.14	PHd Finger family member (phf-5) [Source:RefSeq_peptide;Acc:NP_001022909]	embryonic development ending in birth or egg hatching, 		
gip-1	H04J21.3	gip-1 encodes the C. elegans homolog of Saccharomyces cerevisiae Spc98p, a gamma-tubulin-binding protein that with Spc97p forms part of a gamma-tubulin ring complex that can nucleate microtubule formation in vitro and in vivo. in C. elegans, GIP-1 is essential for embryogenesis and required for formation of centrosomal asters during interphase and formation of the mitotic spindle, but not for formation of mitotic asters. GIP-1 colocalizes with TBG-1/gamma-tubulin to centrosomes during interphase and mitosis. GIP-1 and TBG-1 are required reciprocally for centrosomal localization. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
srd-69	H04J21.2	Serpentine Receptor, class D (delta) family member (srd-69) [Source:RefSeq_peptide;Acc:NP_497542]			
H04J21.1	H04J21.1	H04J21.1 [Source:RefSeq_peptide;Acc:NP_497543]	protein modification process, 		
H14E04.2	H14E04.2	H14E04.2b [Source:RefSeq_peptide;Acc:NP_497544]			
H14E04.3	H14E04.3	H14E04.3 [Source:RefSeq_peptide;Acc:NP_497546]			
H14E04.4	H14E04.4	H14E04.4 [Source:RefSeq_peptide;Acc:NP_497547]			
cic-1	H14E04.5	H14E04.5 [Source:RefSeq_peptide;Acc:NP_497548]			
H14E04.1	H14E04.1	H14E04.1 [Source:RefSeq_peptide;Acc:NP_497549]	metabolic process, lipid biosynthetic process, 		methyltransferase activity, cyclopropane-fatty-acyl-phospholipid synthase activity, 
W04B5.4	W04B5.4	W04B5.4 [Source:RefSeq_peptide;Acc:NP_497550]	positive regulation of growth rate, 		
W04B5.5	W04B5.5	The W04B5.5 gene encodes a phospholipid-independent AKT/PKB kinase. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W04B5.3	W04B5.3	W04B5.3b [Source:RefSeq_peptide;Acc:NP_741096]	multicellular organismal development, 	membrane, nucleus, 	GTPase activator activity, DNA binding, transcription factor activity, sugar binding, 
W04B5.2	W04B5.2	W04B5.2 [Source:RefSeq_peptide;Acc:NP_497553]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, intracellular, 	zinc ion binding, nucleic acid binding, lysosphingolipid and lysophosphatidic acid receptor activity, 
W04B5.1	W04B5.1	W04B5.1 [Source:RefSeq_peptide;Acc:NP_497554]			
W04B5.6	W04B5.6	W04B5.6 [Source:RefSeq_peptide;Acc:NP_497555]			
E02H9.6	E02H9.6	E02H9.6 [Source:RefSeq_peptide;Acc:NP_497556]			
E02H9.7	E02H9.7	E02H9.7 [Source:RefSeq_peptide;Acc:NP_497557]			
E02H9.5	E02H9.5	E02H9.5 is orthologous to the human gene LPH PREPRO-POLYPEPTIDE (AA -19 TO 1908) (LCT. OMIM:603202), which when mutated leads to disease. [Source: WormBase]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
nhr-121	E02H9.8	Nuclear hormone receptor family member nhr-121. [Source:Uniprot/SWISSPROT;Acc:Q9TZ99]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
E02H9.4	E02H9.4	E02H9.4 [Source:RefSeq_peptide;Acc:NP_497560]			
E02H9.3	E02H9.3	E02H9.3b [Source:RefSeq_peptide;Acc:NP_001021235]	embryonic development ending in birth or egg hatching, 		
E02H9.2	E02H9.2	E02H9.2 [Source:RefSeq_peptide;Acc:NP_497562]			
E02H9.9	E02H9.9	E02H9.9 [Source:RefSeq_peptide;Acc:NP_497563]			
E02H9.1	E02H9.1	E02H9.1 [Source:RefSeq_peptide;Acc:NP_497564]			
est-1	Y54F10AL.2	est-1 encodes two isoforms of a putative telomerase subunit orthologous to human EST1A (KIAA0732), Drosophila CG6369, and (more distantly) to S. cerevisiae EST1. EST-1A/B proteins have, from their N- to C-termini, an EST domain, one and a half tetratricopeptide repeats (TPRs), and a PilT amino-terminal (PIN) domain. the first two domains are shared with both metazoan and fungal EST1 orthologs, while the PIN domain is found only in metazoan EST1s. although it seems likely to be required for long-term maintenance of the germline (perhaps by recruiting telomerase to telomeres), est-1 has no obvious function in mass RNAi assays. [Source: WormBase]			
Y54F10AL.1	Y54F10AL.1	Y54F10AL.1a [Source:RefSeq_peptide;Acc:NP_497567]		membrane, 	
Y54F10AM.7	Y54F10AM.7	Y54F10AM.7 [Source:RefSeq_peptide;Acc:NP_497569]			
Y54F10AM.8	Y54F10AM.8	LAMA-like protein Y54F10AM.8 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9BL07]			
Y54F10AM.6	Y54F10AM.6	Y54F10AM.6 [Source:RefSeq_peptide;Acc:NP_497571]			
rbc-2	Y54F10AM.10	RaB Connectin related family member (rbc-2) [Source:RefSeq_peptide;Acc:NP_497573]			
Y54F10AM.5	Y54F10AM.5	Y54F10AM.5 [Source:RefSeq_peptide;Acc:NP_497574]	embryonic development ending in birth or egg hatching, 		
ceh-44	Y54F10AM.4	ceh-44 encodes at least three proteins via alternative splicing. the CEH-44A protein is an ortholog of the CUX class of CUT homeodomain proteins, expressed in early embryos (mostly anterior in the comma stage), in the larval nerve ring and the adult gonad. the CUX class includes Drosophila CUT, human CUTL1 and human CUTL2. ceh-44 is a complex gene, in which two alternatively spliced protein products completely lack the homeodomain, and instead resemble vertebrate CASP proteins. CASP proteins are also found in plants and fungi (though not associated with homeodomains). like its orthologs, CEH-44A has three N-terminal cut domains in addition to a C-terminal CUT homeodomain. the cut domain may be a compact DNA-binding domain composed of alpha helices. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
feh-1	Y54F10AM.2	feh-1 encodes the single C. elegans member of the Fe65 protein family that affects embryonic and larval viability and pharyngeal pumping. the PTB2 domain binds to cytosolic domain of C. elegans APL-1 in vitro. expressed in the neuromuscular structures of the pharynx and in a subset of neurons. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, embryonic development, 	intracellular, ribosome, 	RNA binding, protein binding, structural constituent of ribosome, 
nhr-239	Y54F10AM.1	Nuclear Hormone Receptor family member (nhr-239) [Source:RefSeq_peptide;Acc:NP_497579]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, 
Y54F10AM.11	Y54F10AM.11	Y54F10AM.11 [Source:RefSeq_peptide;Acc:NP_497580]			protein binding, 
Y54F10AR.2	Y54F10AR.2	Y54F10AR.2 [Source:RefSeq_peptide;Acc:NP_497581]			
Y54F10AR.1	Y54F10AR.1	Y54F10AR.1 [Source:RefSeq_peptide;Acc:NP_497582]	transport, embryonic development ending in birth or egg hatching, 	intracellular, 	
Y71H2B.8	Y71H2B.8	Y71H2B.8 [Source:RefSeq_peptide;Acc:NP_497583]			
apb-1	Y71H2B.10	apb-1 encodes an adaptin: specifically, it encodes an ortholog of the beta1/2 subunit of adaptor protein complex 1 (AP-1) that affects fertility and embryonic viability. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	clathrin adaptor complex, membrane coat, 	protein transporter activity, protein binding, 
gpa-17	Y71H2B.7	gpa-17 encodes a divergent Gq alpha subunit paralogous to EGL-30. gpa-17 is reported to be expressed in intestine, but has no known function in vivo. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		signal transducer activity, guanyl nucleotide binding, 
mdt-19	Y71H2B.6	MeDiaTor family member (mdt-19) [Source:RefSeq_peptide;Acc:NP_497587]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y71H2B.11	Y71H2B.11	Y71H2B.11 [Source:RefSeq_peptide;Acc:NP_497588]			
Y71H2B.5	Y71H2B.5	Y71H2B.5 [Source:RefSeq_peptide;Acc:NP_497589]	metabolic process, 		transaminase activity, 
Y71H2B.4	Y71H2B.4	Y71H2B.4 [Source:RefSeq_peptide;Acc:NP_497590]			
ppfr-3	Y71H2B.3	Y71H2B.3 [Source:RefSeq_peptide;Acc:NP_497591]	regulation of signal transduction, response to biotic stimulus, oviposition, 		protein binding, 
Y71H2B.2	Y71H2B.2	Y71H2B.2 [Source:RefSeq_peptide;Acc:NP_497592]	embryonic development ending in birth or egg hatching, 		
Y71H2B.1	Y71H2B.1	Y71H2B.1 [Source:RefSeq_peptide;Acc:NP_497593]			acyl-CoA binding, 
H19M22.3	H19M22.3	H19M22.3a [Source:RefSeq_peptide;Acc:NP_497594]	proteolysis, metabolic process, positive regulation of growth rate, 	proteinaceous extracellular matrix, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
NR_002644.1	H19M22.4	H19M22.4, miscRNA [Source:RefSeq_dna;Acc:NR_002644]			
let-805	H19M22.2	LEThal family member (let-805) [Source:RefSeq_peptide;Acc:NP_001022641]	biological_process, 	proteinaceous extracellular matrix, 	protein binding, 
Y71H2AL.1	Y71H2AL.1	Y71H2AL.1 [Source:RefSeq_peptide;Acc:NP_497601]	positive regulation of growth rate, 		calcium ion binding, 
Y71H2AL.2	Y71H2AL.2	Y71H2AL.2 [Source:RefSeq_peptide;Acc:NP_497602]	biological_process, 		
Y71H2AM.9	Y71H2AM.9	Y71H2AM.9 [Source:RefSeq_peptide;Acc:NP_497603]	cation transport, 	membrane, 	nucleotide binding, cation transmembrane transporter activity, 
set-27	Y71H2AM.8	Y71H2AM.8 [Source:RefSeq_peptide;Acc:NP_497604]		nucleus, 	
Y71H2AM.10	Y71H2AM.10	Y71H2AM.10 [Source:RefSeq_peptide;Acc:NP_497605]	reproduction, 		
Y71H2AM.t1	Y71H2AM.t1				
Y71H2AM.11	Y71H2AM.11	Y71H2AM.11 [Source:RefSeq_peptide;Acc:NP_497606]	proteolysis, 		metallopeptidase activity, hydrolase activity, protein dimerization activity, 
Y71H2AM.7	Y71H2AM.7	Y71H2AM.7 [Source:RefSeq_peptide;Acc:NP_497607]			
Y71H2AM.12	Y71H2AM.12	Y71H2AM.12 [Source:RefSeq_peptide;Acc:NP_497608]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, defense response, 	intracellular, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, GTP binding, GTPase activity, transcription factor binding, 
Y71H2AM.13	Y71H2AM.13	Y71H2AM.13 [Source:RefSeq_peptide;Acc:NP_497609]			
Y71H2AM.14	Y71H2AM.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8Q2]			
Y71H2AM.15	Y71H2AM.15	Y71H2AM.15a [Source:RefSeq_peptide;Acc:NP_001033381]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y71H2AM.16	Y71H2AM.16	Y71H2AM.16 [Source:RefSeq_peptide;Acc:NP_497612]			acid phosphatase activity, 
Y71H2AM.17	Y71H2AM.17	Y71H2AM.17 [Source:RefSeq_peptide;Acc:NP_497613]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, chromatin, 	DNA binding, 
Y71H2AM.19	Y71H2AM.19	Y71H2AM.19 [Source:RefSeq_peptide;Acc:NP_497615]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
Y71H2AM.6	Y71H2AM.6	Y71H2AM.6 [Source:RefSeq_peptide;Acc:NP_497616]			
Y71H2AM.20	Y71H2AM.20	Y71H2AM.20a [Source:RefSeq_peptide;Acc:NP_497617]	positive regulation of growth rate, 		phosphatase activator activity, 
Y71H2AM.5	Y71H2AM.5	Y71H2AM.5 [Source:RefSeq_peptide;Acc:NP_497618]	electron transport, positive regulation of growth rate, 	mitochondrion, 	cytochrome-c oxidase activity, 
Y71H2AM.4	Y71H2AM.4	Y71H2AM.4 [Source:RefSeq_peptide;Acc:NP_497619]	positive regulation of growth rate, 		
Y71H2AM.24	Y71H2AM.24	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q3V5J2]			
twk-45	Y71H2AM.22	Y71H2AM.21 [Source:RefSeq_peptide;Acc:NP_497620]	potassium ion transport, 	membrane, 	potassium channel activity, 
Y71H2AM.25	Y71H2AM.25	Y71H2AM.25 [Source:RefSeq_peptide;Acc:NP_001040887]	proteolysis, 		cysteine-type peptidase activity, zinc ion binding, carboxypeptidase A activity, 
Y71H2AM.3	Y71H2AM.3	Y71H2AM.3 [Source:RefSeq_peptide;Acc:NP_497622]			
tufm-1	Y71H2AM.23	TU elongation Factor (EF-Tu), Mitochondrial family member (tufm-1) [Source:RefSeq_peptide;Acc:NP_497623]	translational elongation, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, GTPase activity, translation elongation factor activity, 
Y71H2AM.2	Y71H2AM.2	Y71H2AM.2 [Source:RefSeq_peptide;Acc:NP_497624]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y71H2AM.1	Y71H2AM.1	Y71H2AM.1 [Source:RefSeq_peptide;Acc:NP_497625]	proteolysis, 		endopeptidase activity, O-sialoglycoprotein endopeptidase activity, 
Y71H2AR.1	Y71H2AR.1	Y71H2AR.1 [Source:RefSeq_peptide;Acc:NP_497626]	cell redox homeostasis, 		
Y71H2AR.3	Y71H2AR.3	Y71H2AR.3 [Source:RefSeq_peptide;Acc:NP_871685]			RNA binding, 
Y71H2AR.2	Y71H2AR.2	Y71H2AR.2 [Source:RefSeq_peptide;Acc:NP_497627]	proteolysis, 		cysteine-type peptidase activity, zinc ion binding, carboxypeptidase A activity, 
H34I24.2	H34I24.2	H34I24.2 [Source:RefSeq_peptide;Acc:NP_497628]			
H34I24.1	H34I24.1	H34I24.1 [Source:RefSeq_peptide;Acc:NP_497629]			
H34I24.3	H34I24.3	H34I24.3 [Source:RefSeq_peptide;Acc:NP_001033368]			
F56F11.5	F56F11.5	F56F11.5 [Source:RefSeq_peptide;Acc:NP_497630]			
F56F11.4	F56F11.4	F56F11.4b [Source:RefSeq_peptide;Acc:NP_741098]	signal transduction, small GTPase mediated signal transduction, protein catabolic process, embryonic development ending in birth or egg hatching, 	cytoplasm, intracellular, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, GTP binding, hydrolase activity, 
klf-1	F56F11.3	Kruppel-Like Factor (zinc finger protein) family member (klf-1) [Source:RefSeq_peptide;Acc:NP_497632]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F56F11.t1	F56F11.t1				
F56F11.2	F56F11.2	F56F11.2 [Source:RefSeq_peptide;Acc:NP_497633]			
F56F11.1	F56F11.1	F56F11.1 [Source:RefSeq_peptide;Acc:NP_497634]			
T20B6.2	T20B6.2	T20B6.2 [Source:RefSeq_peptide;Acc:NP_497635]			
T20B6.1	T20B6.1	T20B6.1 [Source:RefSeq_peptide;Acc:NP_497636]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
T20B6.3	T20B6.3	T20B6.3 [Source:RefSeq_peptide;Acc:NP_497637]	protein homooligomerization, 	membrane, 	
cdh-1	R10F2.1	cdh-1 encodes a cadherin that is similar, in the extracellular domain, to the Drosophila cadherin Dachsous (Ds). although the precise role of cdh-1 in C. elegans development and/or behavior is not yet known, loss of cdh-1 activity via RNAi using the hypersensitive rrf-3 strain can result in locomotion and growth defects, as well as larval lethality. [Source: WormBase]	homophilic cell adhesion, positive regulation of growth rate, 	membrane, 	calcium ion binding, 
R10F2.4	R10F2.4	R10F2.4 [Source:RefSeq_peptide;Acc:NP_497639]	type I hypersensitivity, 		
R10F2.5	R10F2.5	R10F2.5 [Source:RefSeq_peptide;Acc:NP_497640]		extracellular region, 	hormone activity, 
R10F2.6	R10F2.6	R10F2.6 [Source:RefSeq_peptide;Acc:NP_497642]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
H05C05.1	H05C05.1	H05C05.1a [Source:RefSeq_peptide;Acc:NP_871704]	metabolic process, homoiothermy, response to freezing, 		ATP binding, nucleotide binding, nucleic acid binding, kinase activity, ice binding, 
H05C05.2	H05C05.2	H05C05.2b [Source:RefSeq_peptide;Acc:NP_871689]			protein binding, 
H05C05.3	H05C05.3	H05C05.3 [Source:RefSeq_peptide;Acc:NP_497645]			
Y55D5A.2	Y55D5A.2	Y55D5A.2 [Source:RefSeq_peptide;Acc:NP_497646]			
Y55D5A.3	Y55D5A.3	Y55D5A.3 [Source:RefSeq_peptide;Acc:NP_497647]			
Y55D5A.1	Y55D5A.1	Y55D5A.1a [Source:RefSeq_peptide;Acc:NP_001022919]	morphogenesis of an epithelium, 		
Y55D5A.4	Y55D5A.4	Y55D5A.4 [Source:RefSeq_peptide;Acc:NP_497649]			
daf-2	Y55D5A.5	daf-2 encodes a predicted receptor tyrosine kinase that is the C. elegans insulin/IGF receptor ortholog. DAF-2 activity is required for a number of processes in C. elegans, including embryonic and larval development, formation of the developmentally arrested dauer larval stage, adult longevity, reproduction, fat storage, salt chemotaxis learning, and response to exogenous stressors such as high temperature or bacterial infection. DAF-2 signals through a conserved PI 3-kinase pathway to negatively regulate the activity of DAF-16, a Forkhead-related transcription factor, by inducing its phosphorylation and nuclear exclusion. amongst the 38 predicted insulin-like molecules in C. elegans, genetic and microarray analyses suggest that at least DAF-28, INS-1, and INS-7 are likely DAF-2 ligands. genetic mosaic and tissue-specific promoter studies indicate that daf-2 can function cell nonautonomously and within multiple cell types to influence dauer formation and adult lifespan, likely by regulating the production of secondary signals that coordinate growth and longevity throughout the animal. [Source: WormBase]	protein amino acid phosphorylation, determination of adult life span, negative regulation of transcription factor import into nucleus, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y55D5A.6	Y55D5A.6	Y55D5A.6 [Source:RefSeq_peptide;Acc:NP_497651]			
H06I04.5	H06I04.5	H06I04.5 [Source:RefSeq_peptide;Acc:NP_497652]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
fipr-29	H06I04.7	H06I04.7 [Source:RefSeq_peptide;Acc:NP_001022639]	defense response, 		
H06I04.6	H06I04.6	H06I04.6 [Source:RefSeq_peptide;Acc:NP_001022638]			
ubl-1	H06I04.4	ubl-1 encodes a protein similar to Drosophila ubiquitin/ ribosomal protein S27a that affects body length, fertility, and larval viability. [Source: WormBase]	translation, protein modification process, reproduction, 	intracellular, ribosome, 	protein binding, zinc ion binding, nucleic acid binding, structural constituent of ribosome, 
NR_003431.1	H06I04.9	H06I04.9, snoRNA [Source:RefSeq_dna;Acc:NR_003431]			
NR_003430.1	H06I04.8	H06I04.8, snoRNA [Source:RefSeq_dna;Acc:NR_003430]			
H06I04.3	H06I04.3	H06I04.3a [Source:RefSeq_peptide;Acc:NP_497655]	rRNA processing, embryonic development ending in birth or egg hatching, 		
sft-1	H06I04.2	The sft-1 gene encodes a homolog of the human gene SURF1, which when mutated leads to Leigh syndrome (OMIM:256000). [Source: WormBase]			
H06I04.1	H06I04.1	H06I04.1a [Source:RefSeq_peptide;Acc:NP_741103]			protein binding, 
H06I04.t1	H06I04.t1				
Y53G8B.t1	Y53G8B.t1				
Y53G8B.2	Y53G8B.2	Y53G8B.2 [Source:RefSeq_peptide;Acc:NP_497659]			
Y53G8B.t3	Y53G8B.t3				
Y53G8B.t4	Y53G8B.t4				
Y53G8B.t5	Y53G8B.t5				
Y53G8B.3	Y53G8B.3	Y53G8B.3 [Source:RefSeq_peptide;Acc:NP_497660]			
Y53G8B.t6	Y53G8B.t6				
Y53G8B.t7	Y53G8B.t7				
Y53G8B.t8	Y53G8B.t8				
Y53G8B.t9	Y53G8B.t9				
Y53G8B.4	Y53G8B.4	Y53G8B.4b [Source:RefSeq_peptide;Acc:NP_001040884]			
Y53G8B.1	Y53G8B.1	Y53G8B.1 [Source:RefSeq_peptide;Acc:NP_497662]	aromatic amino acid family metabolic process, 	cytoplasm, 	catalytic activity, 
mec-12	C44B11.3	mec-12 encodes a novel C. elegans alpha-tubulin that is unique amongst C. elegans alpha tubulins in that it may be subject to post-translational acetylation. MEC-12 is required for normal mechanosensory response to gentle touch, and specifically for formation of the 15-protofilament microtubule bundle present in the touch receptor neurons. mec-12 interacts genetically with mec-5, which encodes a unique C. elegans collagen secreted by the hypodermis. MEC-12 is highly expressed in the touch neurons as well as in several other neurons that do not contains the microfilament bundle, such as the ventral cord motorneurons. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, mechanosensory behavior, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
C44B11.4	C44B11.4	C44B11.4 [Source:RefSeq_peptide;Acc:NP_741107]			
C44B11.6	C44B11.6	C44B11.6 [Source:RefSeq_peptide;Acc:NP_741108]			
C44B11.1	C44B11.1	C44B11.1 [Source:RefSeq_peptide;Acc:NP_497664]	negative regulation of apoptosis, 		protein binding, 
R148.5	R148.5	R148.5a [Source:RefSeq_peptide;Acc:NP_497665]			protein binding, 
R148.4	R148.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O17266]			
R148.3	R148.3	R148.3b [Source:RefSeq_peptide;Acc:NP_871687]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
R148.2	R148.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O17268]			
xbx-7	R148.1	X-box promoter element regulated protein 7, isoform a. [Source:Uniprot/SPTREMBL;Acc:O17269]			
R148.t2	R148.t2				
R148.t3	R148.t3				
R148.t4	R148.t4				
R148.t1	R148.t1				
R148.7	R148.7	R148.7 [Source:RefSeq_peptide;Acc:NP_497670]	positive regulation of growth rate, 		
heh-1	R148.6	tag-79/R148.6 is orthologous to human NPC2 (OMIM:601015, mutated in Niemann-Pick disease type C2) [Source: WormBase]			
frm-8	H09G03.2	frm-8 encodes a protein containing a WW domain, a PDZ domain, and a FERM domain and has homology to the human predicted protein KIAA0316. [Source: WormBase]	signal transduction, 	cytoskeleton, 	protein binding, 
H09G03.1	H09G03.1	H09G03.1 [Source:RefSeq_peptide;Acc:NP_497673]			
Y53G8AL.1	Y53G8AL.1	Y53G8AL.1 [Source:RefSeq_peptide;Acc:NP_497674]			
Y53G8AL.2	Y53G8AL.2	Y53G8AL.2 [Source:RefSeq_peptide;Acc:NP_497675]	cellular metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, regulation of nitrogen utilization, positive regulation of growth rate, 		transcription repressor activity, catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
Y53G8AL.3	Y53G8AL.3	Y53G8AL.3 [Source:RefSeq_peptide;Acc:NP_497676]			
Y53G8AM.4	Y53G8AM.4	Y53G8AM.4 [Source:RefSeq_peptide;Acc:NP_497677]			protein binding, zinc ion binding, 
Y53G8AM.5	Y53G8AM.5	Y53G8AM.5 [Source:RefSeq_peptide;Acc:NP_497678]			
Y53G8AM.6	Y53G8AM.6	Y53G8AM.6 [Source:RefSeq_peptide;Acc:NP_497679]			
Y53G8AM.7	Y53G8AM.7	Y53G8AM.7 [Source:RefSeq_peptide;Acc:NP_497681]			
Y53G8AM.8	Y53G8AM.8	Y53G8AM.8 [Source:RefSeq_peptide;Acc:NP_497682]	embryonic development ending in birth or egg hatching, 		DNA binding, 
Y53G8AM.2	Y53G8AM.2	Y53G8AM.2 [Source:RefSeq_peptide;Acc:NP_497683]			
Y53G8AR.7	Y53G8AR.7	Y53G8AR.7a [Source:RefSeq_peptide;Acc:NP_001022903]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
Y53G8AR.8	Y53G8AR.8	Y53G8AR.8 [Source:RefSeq_peptide;Acc:NP_497686]			
Y53G8AR.6	Y53G8AR.6	Y53G8AR.6 [Source:RefSeq_peptide;Acc:NP_497687]	embryonic development ending in birth or egg hatching, 		nucleic acid binding, 
Y53G8AR.5	Y53G8AR.5	Y53G8AR.5 [Source:RefSeq_peptide;Acc:NP_497688]			protein binding, zinc ion binding, small conjugating protein ligase activity, 
ral-1	Y53G8AR.3	RAL (Ras-related GTPase) homolog family member (ral-1) [Source:RefSeq_peptide;Acc:NP_497689]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, reproduction, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y53G8AR.9	Y53G8AR.9	Y53G8AR.9 [Source:RefSeq_peptide;Acc:NP_497690]	morphogenesis of an epithelium, 		zinc ion binding, nucleic acid binding, 
Y53G8AR.2	Y53G8AR.2	Y53G8AR.2a [Source:RefSeq_peptide;Acc:NP_497691]			protein binding, zinc ion binding, 
Y53G8AR.1	Y53G8AR.1	Y53G8AR.1 [Source:RefSeq_peptide;Acc:NP_497692]			
F45H7.t1	F45H7.t1				
F45H7.1	F45H7.1	F45H7.1 [Source:RefSeq_peptide;Acc:NP_497693]			
gei-1	F45H7.2	gei-1 encodes a protein containing a RhoGAP domain and a START (StAR-related lipid-transfer) domain and interacts with GEX-2 in yeast two-hybrid assays. [Source: WormBase]	signal transduction, 	intracellular, 	
prk-2	F45H7.4	Pim (mammalian oncogene) Related Kinase family member (prk-2) [Source:RefSeq_peptide;Acc:NP_497696]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F45H7.6	F45H7.6	F45H7.6 [Source:RefSeq_peptide;Acc:NP_497697]	protein modification process, ubiquitin cycle, 	intracellular, 	protein binding, ubiquitin-protein ligase activity, 
C56G7.2	C56G7.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C56G7.t1	C56G7.t1				
C56G7.3	C56G7.3	Uncharacterized protein C56G7.3. [Source:Uniprot/SWISSPROT;Acc:Q09292]	phagocytosis, 	cytoskeleton, 	
mlc-4	C56G7.1	mlc-4 encodes, along with mlc-1 and mlc-2, one of three C. elegans regulatory myosin light chains. mlc-4 appears to encode the sole C. elegans regulatory light chain for nonmuscle myosin and during development, mlc-4 activity is required maternally for cytokinesis in meiosis and mitosis and for establishment of some aspects of anterior-posterior polarity in the early embryo. further, RNA interference studies show that two proteins, LET-502 (Rho-binding kinase) and MEL-11 (myosin phosphatase) do not properly localize at the cleavage furrow in mutant mlc-4 embryos during embryonic cytokinesis. later, zygotic mlc-4 activity is required for proper embryonic elongation and larval development. an MLC-4::GFP fusion protein that rescues the zygotic defects is expressed in the lateral hypodermal (seam) cells beginning at the bean stage of embryogenesis and continuing through larval stages. expression is also observed postembryonically in the spermathecal and uterine walls as well as weakly in the gonadal sheath and intestinal muscle. [Source: WormBase]	embryonic development ending in birth or egg hatching, cytokinesis after meiosis I, 		calcium ion binding, 
F59A2.3	F59A2.3	Uncharacterized protein F59A2.3, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q21018]	positive regulation of growth rate, 	mitochondrial matrix, 	protein binding, 
F59A2.4	F59A2.4	Uncharacterized protein F59A2.4. [Source:Uniprot/SWISSPROT;Acc:P52874]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
npp-9	F59A2.1	F59A2.1b [Source:RefSeq_peptide;Acc:NP_871701]	intracellular transport, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, 
F59A2.5	F59A2.5	F59A2.5 encodes a moderately small (123-residue) protein. F59A2.5 is orthologous to Brugia 14979.m04575, and more distantly similar to budding yeast Pcc1p, to human CTAG1B (OMIM:300156, cancer antigen), CTAG2 (OMIM:300396, melanoma antigen), and LAGE3 (OMIM:300060), and to many other uncharacterized proteins, ~80-200 residues long, in animals, fungi, and plants. F59A2.5 is required for fertility and embryonic development in mass RNAi assays and is bound by CKU-80 in two-hybrid assays. F59A2.5 is transcriptionally activated by HLH-2 and HLH-8, but has no known expression pattern. while F59A2.5 is putatively secreted and its human homologs are antigens, its yeast homolog Pcc1p is thought to be a transcription factor. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F59A2.2	F59A2.2	F59A2.2 [Source:RefSeq_peptide;Acc:NP_497705]	vesicle-mediated transport, 	membrane, 	protein binding, 
F59A2.6	F59A2.6	F59A2.6 [Source:RefSeq_peptide;Acc:NP_497706]	signal transduction, chemotaxis, 	membrane, 	protein binding, signal transducer activity, 
K01A11.2	K01A11.2	K01A11.2 [Source:RefSeq_peptide;Acc:NP_497707]			
K01A11.t1	K01A11.t1				
K01A11.1	K01A11.1	K01A11.1 [Source:RefSeq_peptide;Acc:NP_497708]			
spe-41	K01A11.4	spe-41 encodes one of three C. elegans calcium-permeable cation channels that are members of the TRPC (transient receptor potential canonical) subfamily of TRP channels. spe-41 activity is required in sperm for productive sperm-oocyte interactions during fertilization, after the point of gamete contact. SPE-41 is expressed solely in sperm and upon sperm activation, translocalizes from the membranous organelles of spermatids to the plasma membranes of the cell body and pseudopod of mature sperm, consistent with the observation that the activity of store-operated calcium channels in C. elegans is much higher in mature sperm than in spermatids. when expressed in mammalian tissue culture cells, SPE-41 activity is sufficient to enhance calcium influx. [Source: WormBase]	ion transport, translation, single fertilization, 	membrane, intracellular, ribosome, 	ion channel activity, structural constituent of ribosome, 
K01A11.3	K01A11.3	K01A11.3 [Source:RefSeq_peptide;Acc:NP_497710]			
K01A11.5	K01A11.5	K01A11.5 [Source:RefSeq_peptide;Acc:NP_001022648]			
C34C12.1	C34C12.1	C34C12.1 [Source:RefSeq_peptide;Acc:NP_497711]		cytoplasm, extrinsic to membrane, 	cytoskeletal protein binding, 
C34C12.2	C34C12.2	C34C12.2 [Source:RefSeq_peptide;Acc:NP_497712]	vesicle-mediated transport, 	membrane, 	protein binding, 
C34C12.8	C34C12.8	GrpE protein homolog, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q18421]	protein folding, growth, 		protein binding, chaperone binding, adenyl-nucleotide exchange factor activity, protein homodimerization activity, 
pph-6	C34C12.3	Putative serine/threonine-protein phosphatase pph-6 (EC 3.1.3.16). [Source:Uniprot/SWISSPROT;Acc:Q09496]			hydrolase activity, 
C34C12.4	C34C12.4	Uncharacterized protein C34C12.4. [Source:Uniprot/SWISSPROT;Acc:Q09269]			
C34C12.5	C34C12.5	C34C12.5 [Source:RefSeq_peptide;Acc:NP_497716]			protein binding, 
C34C12.9	C34C12.9	C34C12.9 [Source:RefSeq_peptide;Acc:NP_001021196]			
C34C12.6	C34C12.6	Uncharacterized protein C34C12.6. [Source:Uniprot/SWISSPROT;Acc:Q09270]	transport, 	integral to membrane, 	
C34C12.7	C34C12.7	Uncharacterized protein C34C12.7. [Source:Uniprot/SWISSPROT;Acc:Q09271]			
gly-14	M01F1.1	gly-14 encodes a UDP-N-acetyl-D-glucosamine:alpha-3-D-mannoside beta-1, 2-N-acetylglucosaminyltransferase I (GnT 1). GLY-14 exhibits GnT 1 activity when assayed in vitro. a gly-14::lacZ reporter construct is expressed only in the intestine throughout larval and adult stages, with expression generally restricted to the anterior and posterior gut cells. [Source: WormBase]	protein amino acid N-linked glycosylation, 	Golgi membrane, 	alpha-1,3-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity, 
M01F1.9	M01F1.9	M01F1.9 [Source:RefSeq_peptide;Acc:NP_001022690]			
M01F1.8	M01F1.8	M01F1.8b [Source:RefSeq_peptide;Acc:NP_001022689]			
M01F1.3	M01F1.3	M01F1.3 [Source:RefSeq_peptide;Acc:NP_497722]	lipoate biosynthetic process, embryonic development ending in birth or egg hatching, 		catalytic activity, iron-sulfur cluster binding, lipoate synthase activity, 
rpl-16	M01F1.2	rpl-16 encodes a large ribosomal subunit L13a protein. [Source: WormBase]	translation, growth, 	intracellular, ribosome, large ribosomal subunit, 	structural constituent of ribosome, 
M01F1.4	M01F1.4	M01F1.4a [Source:RefSeq_peptide;Acc:NP_001022686]		membrane, 	protein binding, GABA-B receptor activity, 
M01F1.6	M01F1.6	Probable 39S ribosomal protein L35, mitochondrial precursor (L35mt). [Source:Uniprot/SWISSPROT;Acc:Q21454]	growth, 		
hmit-1.3	M01F1.5	hmit-1.3 encodes one of three C. elegans proton (H+)-dependent myo-inositol transporters. loss of hmit-1.3 activity via large-scale RNAi result in no obvious abnormalities but by homology, HMIT-1.3 is predicted to function as a plasma membrane protein required for the regulated uptake of myo-inositol and thus potentially for regulation of cell signaling and intracellular osmolarity. [Source: WormBase]	transport, electron transport, dicarboxylic acid transport, carbohydrate transport, protein homooligomerization, 	membrane, integral to membrane, 	transporter activity, electron carrier activity, sodium:dicarboxylate symporter activity, sugar:hydrogen ion symporter activity, 
M01F1.7	M01F1.7	M01F1.7 encodes a phosphatidylinositol transfer protein, with a C-terminal DDHD domain, that is orthologous to RETINAL DEGENERATION B (RDGB) in D. melanogaster, as well as other orthologs in mammals (NIR1-3). M01F1.7 is expressed in the egg membrane, the germline, the spermatheca and three pairs of head neurons. while M01F1.7 would be expected to mediate PIP(2) signalling in either neuronal function or cytokinesis, it has not yet had a published mutant phenotype, and has no obvious function in mass RNAi assays. [Source: WormBase]	transport, reproduction, 	intracellular, 	metal ion binding, 
rpl-37	C54C6.1	rpl-37 encodes a large ribosomal subunit L37 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
C54C6.6	C54C6.6	UPF0468 protein C16orf80 homolog. [Source:Uniprot/SWISSPROT;Acc:Q86D25]			
ben-1	C54C6.2	A beta-tubulin that confers benzimidazole sensitivity. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
C54C6.7	C54C6.7	C54C6.7 [Source:RefSeq_peptide;Acc:NP_001021229]			
C54C6.5	C54C6.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q18819]			
C54C6.4	C54C6.4	C54C6.4 [Source:RefSeq_peptide;Acc:NP_497730]			
nhr-6	C48D5.1	nhr-6 encodes a nuclear receptor of the NR4A4 subfamily that is orthologous to the mammalian NGFI-B receptors and the Drosophila HR38 nuclear receptor (DHR38) that has been implicated in molting and metamorphosis. by homology, NHR-6 likely functions as a transcription factor that, based upon RNAi experiments, is required for normal ovulation and/or spermathecal development or function. an nhr-6 reporter fusion is expressed primarily in the anterior and posterior spermatheca during L3 and L4 larval stages, with some weak and variable expression also observed in two chemosensory neurons. nhr-6 mRNA is expressed in an oscillating manner throughout larval development, in a pattern that is slightly irregular with respect to the timing of larval molts and that exhibits consistently lower expression at the times when these molts actually occur. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C48D5.3	C48D5.3	C48D5.3 [Source:RefSeq_peptide;Acc:NP_001021228]			
ptp-1	C48D5.2	ptp-1 encodes a non-receptor tyrosine phosphatase containing Band 4.1 and PDZ domains that may function in linking cytoplasmic proteins and signaling molecules to sites on the plasma membrane. by homology, PTP-1 is predicted to function in cell signaling, but as loss of PTP-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of PTP-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, 	cytoplasm, cytoskeleton, extrinsic to membrane, 	protein binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, cytoskeletal protein binding, 
sel-8	C32A3.1	sel-8 encodes a nuclear protein required for LIN-12 and GLP-1 signalling. SEL-8 contains a novel motif shared with W09C5.1 and orthologs of W09C5.1 in S. cerevisiae (YER126c), Drosophila (DMIP259), and also has two prominent glutamine-rich domains. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
C32A3.2	C32A3.2	Uncharacterized protein C32A3.2. [Source:Uniprot/SWISSPROT;Acc:Q09261]	positive regulation of growth rate, 		
C32A3.3	C32A3.3	C32A3.3a [Source:RefSeq_peptide;Acc:NP_741113]			
unc-93	C46F11.1	A novel putative transmembrane protein that affects muscle contraction and egg-laying. it is predicted to be a component of a two-pore potassium channel complex together with SUP-9 and SUP-10. it is expressed in head neurons including the four SIA neurons. [Source: WormBase]	regulation of muscle contraction, regulation of potassium ion transport, 	integral to membrane, integral to plasma membrane, 	protein binding, potassium channel regulator activity, 
C46F11.3	C46F11.3	C46F11.3 [Source:RefSeq_peptide;Acc:NP_497739]			
C46F11.2	C46F11.2	C46F11.2 is orthologous to human MITOCHONDRIAL GLUTATHIONE REDUCTASE (GSR. OMIM:138300). GSR deficiency has been associated with hemolytic anemia. [Source: WormBase]	electron transport, cell redox homeostasis, glutathione metabolic process, glycerol-3-phosphate metabolic process, 	cytoplasm, glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, NADP binding, FAD binding, glutathione-disulfide reductase activity, glycerol-3-phosphate dehydrogenase activity, 
C46F11.5	C46F11.5	C46F11.5a [Source:RefSeq_peptide;Acc:NP_497742]			
C46F11.4	C46F11.4	C46F11.4 [Source:RefSeq_peptide;Acc:NP_497743]	reproduction, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C46F11.6	C46F11.6	C46F11.6 [Source:RefSeq_peptide;Acc:NP_001021222]			
T27D1.3	T27D1.3	Probable G-protein coupled receptor T27D1.3. [Source:Uniprot/SWISSPROT;Acc:Q09638]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, GABA-B receptor activity, 
cyn-9	T27D1.1	cyn-9 encodes a peptidyl prolyl cis-trans isomerase most similar to human cyclophilin G (OMIM:606093). CYN-9 likely functions as a catalyst in the folding and modification of cuticle collagens. a cyn-9::lacZ reporter is expressed in the syncytial hypodermis from early larval through adult stages. cyn-9 mRNA is expressed most strongly at the mid-L3 and mid-L4 larval stages, the intermoult period when collagens are synthesized. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
pdi-1	C14B1.1	Protein disulfide-isomerase 1 precursor (EC 5.3.4.1) (PDI 1) (Prolyl 4-hydroxylase beta 1 subunit). [Source:Uniprot/SWISSPROT;Acc:Q17967]	cell redox homeostasis, 	endoplasmic reticulum, 	isomerase activity, 
C14B1.2	C14B1.2	C14B1.2 [Source:RefSeq_peptide;Acc:NP_497747]			protein binding, 
C14B1.3	C14B1.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	protein catabolic process, 		protein binding, 
tag-125	C14B1.4	tag-125/C14B1.4 encodes an ortholog of the histone methyltransferase subunit WDR5 (OMIM:609012) that antagonizes SynMuv transcriptional repressors. [Source: WormBase]	regulation of transcription, gamete generation, 	nucleus, 	
C14B1.5	C14B1.5	C14B1.5 encodes an ortholog of S. cerevisiae YIL103 and human DPH2L1/OVCA1 (OMIM:603527, deleted or downregulated in ovarian tumors). C14B1.5 is paralogous to S. cerevisiae DPH2/YKL191W, a protein component of diphtamide synthesis. C14B1.5 has no obvious function in mass RNAi assays. [Source: WormBase]	DNA metabolic process, biological_process, 		ATP binding, DNA binding, DNA-dependent ATPase activity, 
C14B1.10	C14B1.10	C14B1.10 [Source:RefSeq_peptide;Acc:NP_497751]	metabolic process, 		methyltransferase activity, 
C14B1.6	C14B1.6	C14B1.6 [Source:RefSeq_peptide;Acc:NP_497752]	phosphate metabolic process, 	cytoplasm, 	magnesium ion binding, inorganic diphosphatase activity, 
C14B1.8	C14B1.8	C14B1.8 [Source:RefSeq_peptide;Acc:NP_497753]			protein binding, 
C14B1.7	C14B1.7				
C14B1.9	C14B1.9	C14B1.9 [Source:RefSeq_peptide;Acc:NP_497755]	embryonic development ending in birth or egg hatching, 		
F34D10.9	F34D10.9				
F34D10.2	F34D10.2	F34D10.2 [Source:RefSeq_peptide;Acc:NP_497756]	DNA replication initiation, embryonic development ending in birth or egg hatching, 		
F34D10.8	F34D10.8	F34D10.8 [Source:RefSeq_peptide;Acc:NP_001022560]			
F34D10.3	F34D10.3	F34D10.3 [Source:RefSeq_peptide;Acc:NP_497757]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	lysosphingolipid and lysophosphatidic acid receptor activity, 
F34D10.4	F34D10.4	F34D10.4 [Source:RefSeq_peptide;Acc:NP_497758]			
lin-48	F34D10.5	lin-48 encodes a C2H2-type zinc-finger transcription factor that is orthologous to Drosophila OVO and mouse OVO1. LIN-48 is required for development of the hindgut, the male tail, and the excretory duct cell. in hindgut and male tail development, LIN-48 activity is essential for proper fate specification of the U, F, and K' blast cells and B blast cell descendants, and in excretory duct cell development, for normal duct cell morphogenesis. a LIN-48 translational reporter is expressed in the nuclei of the U, F, K, and K' blast cells, the excretory duct cell, and up to 10 cells in the head region beginning in late embryogenesis and continuing through adulthood. in addition, expression is detected in the neuronal support cells of the phasmid and labial sensory structures beginning at the late L1 larval stage. in hindgut cell specification, LIN-48 functions with EGL-38/Pax, which appears to be a direct transcriptional regulator of LIN-48 expression, and in excretory duct cell development, LIN-48 is likely under the control of the CES-2 bZip transcription factor [Source: WormBase]	regulation of transcription, DNA-dependent, hindgut morphogenesis, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F34D10.7	F34D10.7	F34D10.7 [Source:RefSeq_peptide;Acc:NP_741115]			
F34D10.6	F34D10.6	F34D10.6 [Source:RefSeq_peptide;Acc:NP_497760]			
C44F1.1	C44F1.1	C44F1.1 [Source:RefSeq_peptide;Acc:NP_497761]			
C44F1.2	C44F1.2	C44F1.2 [Source:RefSeq_peptide;Acc:NP_497762]		nucleus, 	binding, DNA binding, 
lec-4	C44F1.3	lec-4 encodes a predicted galectin that exhibits sugar binding properties in vitro. [Source: WormBase]			sugar binding, 
acy-3	C44F1.5	acy-3 encodes a predicted member of the adenylyl cyclase family with highest similarity to human adenylate cyclase type 5. expressed in the support cells of ciliated neurons, in the head and tail ganglia, in two pairs of neurons in the retrovesicular ganglia, and in the spermatheca. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, G-protein signaling, coupled to cAMP nucleotide second messenger, 		phosphorus-oxygen lyase activity, 
mtm-3	T24A11.1	Uncharacterized protein T24A11.1. [Source:Uniprot/SWISSPROT;Acc:Q22712]	protein amino acid dephosphorylation, dephosphorylation, phospholipid dephosphorylation, collagen and cuticulin-based cuticle attachment to epithelium, 		zinc ion binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, inositol or phosphatidylinositol phosphatase activity, 
xbx-5	T24A11.2	X-BoX promoter element regulated family member (xbx-5) [Source:RefSeq_peptide;Acc:NP_497768]			
toh-1	T24A11.3	toh-1 encodes an astacin-like metalloprotease. TOH-1 is predicted to function as a secreted protease. experiments that specifically assessed toh-1's role in molting indicate that toh-1(RNAi) causes no abnormal phenotypes. [Source: WormBase]	proteolysis, 		metallopeptidase activity, astacin activity, 
dpy-27	R13G10.1	dpy-27 encodes an ATP-binding protein that is a homolog of the SMC4 subunit of mitotic condensin. DPY-27, in combination with other proteins including MIX-1, act as a unit to repress X-linked gene expression during hermaphrodite dosage compensation. in XX oocytes and early embryos, DPY-27 exhibits diffuse nuclear localization, but by the 30-cell stage of embryogenesis, DPY-27 specifically localizes to X chromosomes. in XO animals at all stages, DPY-27 remains diffusely nuclear. the sex-specific localization of DPY-27 to X chromosomes is dependent upon wild-type activity of xol-1, as DPY-27 mislocalizes to the X chromosome of XO embryos in a xol-1 mutant background. [Source: WormBase]	DNA metabolic process, chromosome organization and biogenesis, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, transcription regulator activity, 
amx-1	R13G10.2	Amine oxidase family member 1. [Source:Uniprot/SWISSPROT;Acc:Q21988]	electron transport, 		oxidoreductase activity, monooxygenase activity, 
R13G10.4	R13G10.4	R13G10.4 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C01H6.6, C33D12.2, C52D10.12, M02F4.3, and R04E5.2. by orthology with MAM3, R13G10.4 may participate in metal homoeostasis. R13G10.4, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. R13G10.4 is required for normal development in mass RNAi assays. [Source: WormBase]			
C36A4.10	C36A4.10	C36A4.10 [Source:RefSeq_peptide;Acc:NP_497774]			
cyp-25A1	C36A4.1	CYtochrome P450 family member (cyp-25A1) [Source:RefSeq_peptide;Acc:NP_497775]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-25A2	C36A4.2	CYtochrome P450 family member (cyp-25A2) [Source:RefSeq_peptide;Acc:NP_497776]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-25A3	C36A4.3	CYtochrome P450 family member (cyp-25A3) [Source:RefSeq_peptide;Acc:NP_001040850]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C36A4.11	C36A4.11	C36A4.11 [Source:RefSeq_peptide;Acc:NP_001021204]			
C36A4.4	C36A4.4	C36A4.4 encodes a putative UDP-N-acetylglucosamine pyrophosphorylase, paralogous to K06B9.2 and orthologous to human UAP1 (OMIM:602862) and UAP1L1. C36A4.4 is thought to catalyse the fourth step of the hexosamine pathway to UDP-N-acetylglucosamine or UDP-N-acetylgalactosamine. C36A4.4 transcripts are enriched during oogenesis. C36A4.4(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, presumably because of defects in chitin and eggshell synthesis. [Source: WormBase]	metabolic process, reproduction, 		nucleotidyltransferase activity, 
C36A4.5	C36A4.5	C36A4.5 [Source:RefSeq_peptide;Acc:NP_497778]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
cyp-25A4	C36A4.6	CYtochrome P450 family member (cyp-25A4) [Source:RefSeq_peptide;Acc:NP_497779]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
brc-1	C36A4.8	The brc-1 gene encodes a homolog of human BRCA1 (mutated in early onset breast and ovarian cancer. OMIM:113705). BRC-1 forms a heterodimer with BRD-1, which constitutes an E3 ubiquitin ligase. after irradiation, the DNA checkpoint proteins ATL-1 and MRE-11 are required for BRC-1/BRD-1 heterodimers to associate with the E2 ubiqutin-conjugating enzyme LET-70/Ubc5 and with RAD-51, and to ubiquitylate damaged chromatin. brc-1(RNAi) animals have excess chromosomal nondisjunction, abnormally high levels of CEP-1-dependent germ cell apoptosis (both with and without gamma-irradiation) and hypersensitivity to gamma-irradiation (e.g., abnormal sterility after irradiation). BRC-1 and BRD-1 bind one another, probably through their N-terminal RING domains, in yeast two-hybrid experiments and pull-down assays. BRC-1/BRD-1 heterodimers may interact with RAD-51 and other proteins via mutual binding to UBC-9. brc-1 is genetically dispensable for the induction of nuclear ATL-1 foci by gamma-irradiation or hydroxyurea. [Source: WormBase]	DNA repair, chromosome segregation, 	intracellular, 	protein binding, zinc ion binding, 
C36A4.9	C36A4.9	C36A4.9a [Source:RefSeq_peptide;Acc:NP_001021205]	metabolic process, 		catalytic activity, AMP binding, acetate-CoA ligase activity, 
rpl-3	F13B10.2	rpl-3 encodes a large ribosomal subunit L3 protein required in mass RNAi assays for embryonic and larval viability, fertility, and general health. the rpl-3 transcription unit has a nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that rpl-3 is a natural substrate for SMG-mediated nonsense suppresssion. several other natural mRNA substrates of SMG suppression (e.g., rpl-7, rpl-10, rpl-12) have protein products that are involved in translation. [Source: WormBase]	translation, growth, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
tir-1	F13B10.1	tir-1 encodes a protein that may be involved in apoptosis: from N- to C-terminus, it has three domains. the first two are sterile alpha motif (SAM) domains. the last is a Toll-interleukin 1 (IL1) receptor (TIR) domain. [Source: WormBase]	defense response, 	membrane, 	protein binding, binding, transmembrane receptor activity, identical protein binding, 
mmcm-1	ZK1058.1	mmcm-1 encodes an ortholog of human methylmalonyl-CoA mutase (MUT, mutated in methylmalonic acidemia. OMIM:609058). MMCM-1 enzyme, in vitro, kinetically resembles its human ortholog. mmcm-1 deletion mutants incorporate abnormally low levels of 1-[(14)C]-propionate into proteins. mmcm-1(RNAi) and mmcm-1 deletion mutant animals excrete abnormally high levels of methylmalonic acid into their culture medium when challenged with propionic acid. mmcm-1, in a lentiviral transgene, can partially rescue the mutant phenotype of human mut(o) fibroblasts. these data are consistent with the hypothesis that MMCM-1 participates in the conversion of propionyl-CoA to succinyl-CoA. [Source: WormBase]	metabolic process, 		metal ion binding, isomerase activity, cobalamin binding, intramolecular transferase activity, methylmalonyl-CoA mutase activity, 
pat-3	ZK1058.2	Integrin beta pat-3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q27874]	cell adhesion, multicellular organismal development, cell-matrix adhesion, integrin-mediated signaling pathway, embryonic development ending in birth or egg hatching, muscle cell development, 	integrin complex, 	binding, receptor activity, 
ccdc-47	ZK1058.4	Temporarily Assigned Gene name family member (tag-252) [Source:RefSeq_peptide;Acc:NP_497788]			protein binding, 
ZK1058.3	ZK1058.3	ZK1058.3 is orthologous to the human gene UNNAMED PROTEIN PRODUCT (GALT. OMIM:606999), which when mutated leads to disease. [Source: WormBase]	galactose metabolic process, 		UDP-glucose:hexose-1-phosphate uridylyltransferase activity, 
ZK1058.5	ZK1058.5	ZK1058.5 [Source:RefSeq_peptide;Acc:NP_497790]	metabolic process, 		methyltransferase activity, 
nit-1	ZK1058.6	ZK1058.6 [Source:RefSeq_peptide;Acc:NP_497791]	nitrogen compound metabolic process, 		hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, 
ZK1058.9	ZK1058.9	ZK1058.9 [Source:RefSeq_peptide;Acc:NP_497792]			
F37A8.1	F37A8.1	F37A8.1 [Source:RefSeq_peptide;Acc:NP_497793]			
F37A8.2	F37A8.2	F37A8.2 [Source:RefSeq_peptide;Acc:NP_497794]			
nlp-10	F37A8.4	nlp-10 encodes four predicted neuropeptide-like proteins. nlp-10 is part of a GGxY neuropeptide family that has members in several other nematode species. nlp-10 is expressed in a variety of neurons, including ASK, ADL, CAN, two lateral neurons, two anterior pharyngeal neurons, one tail neuron, and one male tail neuron. as loss of nlp-10 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of nlp-10-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
F37A8.5	F37A8.5	Protein yippee-like F37A8.5. [Source:Uniprot/SWISSPROT;Acc:Q9U3G6]			
R10E9.3	R10E9.3	R10E9.3 [Source:RefSeq_peptide;Acc:NP_497797]			
R10E9.2	R10E9.2	R10E9.2 [Source:RefSeq_peptide;Acc:NP_497798]			
msi-1	R10E9.1	MuSashI (fly neural) family member (msi-1) [Source:RefSeq_peptide;Acc:NP_497799]			nucleotide binding, nucleic acid binding, 
Y1A5A.2	Y1A5A.2	Y1A5A.2 [Source:RefSeq_peptide;Acc:NP_497800]			
Y1A5A.1	Y1A5A.1	Y1A5A.1 [Source:RefSeq_peptide;Acc:NP_497801]			zinc ion binding, 
C36E8.6	C36E8.6	C36E8.6 [Source:RefSeq_peptide;Acc:NP_001021207]			
C36E8.2	C36E8.2	C36E8.2 [Source:RefSeq_peptide;Acc:NP_497802]			
C36E8.1	C36E8.1	Uncharacterized protein C36E8.1. [Source:Uniprot/SWISSPROT;Acc:P48322]	positive regulation of growth rate, 		
C36E8.3	C36E8.3	C36E8.3 [Source:RefSeq_peptide;Acc:NP_497804]			
C36E8.4	C36E8.4	C36E8.4 [Source:RefSeq_peptide;Acc:NP_497805]	embryonic development ending in birth or egg hatching, 		
tbb-2	C36E8.5	tbb-2 encodes a homolog of mammalian beta-tubulin (TUBB) that is expressed at high levels in the germline. TBB-2 is redundant for embryonic viability, due to its paralog TBB-1. however, unlike its paralog TBB-1 it is preferred for normal microtubule severing by the katanin complex MEI-1/MEI-2. TBB-2 is required together with TBB-1, TBA-1, and tba-2 to make spindle structures in embryos and TBB-2 also affects the stability of the PO spindle. first divisions are normal in null mutants, but putative gain-of-function mutations affect centrosome rotations in the P0, P1, and EMS blastomeres of the early embryo, and affect pronuclear migration and meiosis. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, meiotic spindle organization and biogenesis, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
T02C12.2	T02C12.2	T02C12.2 [Source:RefSeq_peptide;Acc:NP_497807]	positive regulation of growth rate, 		
T02C12.3	T02C12.3	T02C12.3 [Source:RefSeq_peptide;Acc:NP_497808]			
hum-5	T02C12.1	Heavy chain, Unconventional Myosin family member (hum-5) [Source:RefSeq_peptide;Acc:NP_497809]		myosin complex, 	ATP binding, motor activity, 
T02C12.4	T02C12.4	T02C12.4 [Source:RefSeq_peptide;Acc:NP_741116]			
E03A3.1	E03A3.1				
rcq-5	E03A3.2	ReCQ DNA helicase family member (rcq-5) [Source:RefSeq_peptide;Acc:NP_497810]	DNA repair, DNA recombination, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
his-69	E03A3.3	his-69 encodes a truncated H3 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-70	E03A3.4	his-70 encodes an H3 histone. [Source: WormBase]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
E03A3.5	E03A3.5	E03A3.5 [Source:RefSeq_peptide;Acc:NP_497813]			
unc-79	E03A3.6	unc-79 encodes a novel, conserved protein. unc-79 functions in a pathway with nca-1 and nca-2, which encode ion channel subunits, to regulate locomotion and the response to specific volatile anesthetics. unc-79 exerts its effects on these processes, at least in part, by regulating the levels of NCA-1 and NCA-2 proteins. an unc-79::gfp reporter is expressed in the nervous system in ventral nerve cord neurons in L2 and L3 larvae and in one or two head neurons in adults. [Source: WormBase]	response to drug, 	proteinaceous extracellular matrix, 	protein binding, 
kin-19	C03C10.1	kin-19 encodes a serine/threonine kinase orthologous to human casein kinase I, alpha 1 (CSNK1A1, OMIM:600505). KIN-19 appears to be a component of the non-canonical Wnt signaling pathway that regulates endoderm formation in the early embryo. kin-19(RNAi) and mom-2(RNAi) enhance apr-1(RNAi), but not RNAi of each other. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C03C10.5	C03C10.5	Uncharacterized protein C03C10.5. [Source:Uniprot/SWISSPROT;Acc:P42172]			
C03C10.2	C03C10.2	Putative casein kinase I C03C10.2 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P42169]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
rnr-2	C03C10.3	Ribonucleoside-diphosphate reductase small chain (EC 1.17.4.1) (Ribonucleotide reductase small subunit). [Source:Uniprot/SWISSPROT;Acc:P42170]	deoxyribonucleoside diphosphate metabolic process, embryonic development ending in birth or egg hatching, 		protein binding, oxidoreductase activity, transition metal ion binding, ribonucleoside-diphosphate reductase activity, 
C03C10.7	C03C10.7	C03C10.7 [Source:RefSeq_peptide;Acc:NP_001021140]			
C03C10.4	C03C10.4	Uncharacterized protein C03C10.4. [Source:Uniprot/SWISSPROT;Acc:P42171]			protein binding, 
unc-103	C30D11.1	unc-103 encodes an ERG-like K+ channel homolog, orthologous to human KCNH6 (OMIM:608168). UNC-103 regulates muscle activation in motility, egg-laying and male spicule protraction. UNC-103 is expressed highly in many neurons. gain-of-function alleles can be uncoordinated, while loss-of-function alleles have a more subtle defect in copulatory spicule protraction. [Source: WormBase]	ion transport, potassium ion transport, regulation of oviposition, regulation of muscle contraction, 	membrane, 	ion channel activity, voltage-gated potassium channel activity, 
wht-3	C16C10.12	C16C10.12 encodes an ATP-binding cassette (ABC) transporter. C16C10.12 activity is required for efficient RNA interference (RNAi) of a germline-expressed target, pop-1. [Source: WormBase]	transport, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
C16C10.11	C16C10.11	Uncharacterized protein C16C10.11. [Source:Uniprot/SWISSPROT;Acc:Q09254]	homoiothermy, response to freezing, 		ice binding, 
glod-4	C16C10.10	Putative protein tag-73. [Source:Uniprot/SWISSPROT;Acc:Q09253]			lactoylglutathione lyase activity, 
C16C10.9	C16C10.9	Uncharacterized protein C16C10.9. [Source:Uniprot/SWISSPROT;Acc:Q09465]			
C16C10.8	C16C10.8	Uncharacterized protein C16C10.8. [Source:Uniprot/SWISSPROT;Acc:Q09464]			
rnf-5	C16C10.7	This gene encodes a homolog of mammalian RNF5, a C3HC4 (RING-finger) zinc-finger protein. [Source: WormBase]			protein binding, zinc ion binding, 
ccdc-55	C16C10.6	Uncharacterized protein C16C10.6. [Source:Uniprot/SWISSPROT;Acc:Q09252]	embryonic development ending in birth or egg hatching, 		
rnf-121	C16C10.5	Uncharacterized RING finger protein C16C10.5. [Source:Uniprot/SWISSPROT;Acc:Q09251]			protein binding, zinc ion binding, 
C16C10.4	C16C10.4	Probable histone deacetylase complex subunit SAP18 (Sin3-associated polypeptide, 18 kDa). [Source:Uniprot/SWISSPROT;Acc:Q09250]			
C16C10.3	C16C10.3	Uncharacterized protein C16C10.3. [Source:Uniprot/SWISSPROT;Acc:Q09249]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
C16C10.13	C16C10.13	C16C10.13 [Source:RefSeq_peptide;Acc:NP_001021176]			
C16C10.2	C16C10.2	Probable U3 small nucleolar RNA-associated protein 11 (U3 snoRNA- associated protein 11). [Source:Uniprot/SWISSPROT;Acc:Q09462]	translation, rRNA processing, positive regulation of growth rate, 	small subunit processome, 	
C16C10.1	C16C10.1	Putative mitochondrial carrier C16C10.1. [Source:Uniprot/SWISSPROT;Acc:Q09461]	transport, proteolysis, 	membrane, mitochondrial inner membrane, 	transporter activity, zinc ion binding, metallopeptidase activity, binding, 
lrs-1	R74.1	lrs-1 encodes a predicted cytoplasmic leucyl-tRNA synthetase (LeuRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of leucine to its cognate tRNA and is thus required for protein biosynthesis. LRS-1 activity is required for embryonic, larval, and germline development, as well as normal body morphology and rates of postembryonic growth. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, leucyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, leucine-tRNA ligase activity, 
R74.2	R74.2	R74.2 [Source:RefSeq_peptide;Acc:NP_497838]			
dnj-16	R74.4	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
xbp-1	R74.3	xbp-1 encodes a bZIP transcription factor orthologous to yeast Hac1 and mammalian X box-binding protein 1 (XBP-1, OMIM:194355). XBP-1 is required for the unfolded protein response (UPR) that counteracts cellular stress induced by accumulation of unfolded proteins in the endoplasmic reticulum (ER). XBP-1 mRNA is spliced by the IRE-1 endoribonuclease to promote translation of transcriptionally active XBP-1 that positively regulates UPR gene expression to maintain ER homeostasis and promote normal development. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
asd-1	R74.5	asd-1 encodes an ortholog of human RBM9 et al., and paralog of FOX-1 and SPN-4. ASD-1 isoforms have an RNA recognition motif and 1-2 glutamine/asparagine-rich domains. ASD-1 and FOX-1 both bind a site in egl-15 mRNA that is required to repress exon 5B splicing into mature mRNA. ASD-1 alone is partly required for exon 5A expression in muscle cells, while FOX-1 alone is dispensable for it. double asd-1.fox-1 mutants completely fail to express exon 5A in muscle cells, and have a synthetic egl-15 phenotype, while asd-1.spn-4 mutants do not. asd-1 is expressed pharyngeally. [Source: WormBase]			nucleotide binding, protein binding, nucleic acid binding, 
R74.6	R74.6	Uncharacterized protein R74.6. [Source:Uniprot/SWISSPROT;Acc:P50444]	translation, 	nucleus, 	
R74.7	R74.7	Putative ribosomal RNA methyltransferase R74.7 (EC 2.1.1.-) (rRNA (uridine-2'-O-)-methyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q22031]	rRNA processing, 		
R74.8	R74.8	R74.8a [Source:RefSeq_peptide;Acc:NP_001022738]			
F43C1.1	F43C1.1	Protein phosphatase PHLPP-like protein (EC 3.1.3.16). [Source:Uniprot/SWISSPROT;Acc:Q09564]			protein binding, catalytic activity, 
mpk-1	F43C1.2	mpk-1 encodes a mitogen-activated protein (MAP) kinase that acts in the vulval precursor cells to affect LET-60(Ras)-mediated induction of vulval cell fates, and also affects larval viability, morphology of the male spicules, and acts in combination with mek-2 to permit germ cell exit from the pachytene stage of first meiotic prophase. both LIN-1 and LIN-31 act genetically downstream of mpk-1 with respect to vulval induction, and LIN-1 and LIN-31 are substrates for MPK-1 in vitro. [Source: WormBase]	protein amino acid phosphorylation, reproduction, vulval development, 	cellular_component, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, 
F43C1.5	F43C1.5	Uncharacterized protein F43C1.5. [Source:Uniprot/SWISSPROT;Acc:Q09394]			
nhr-20	F43C1.4	Nuclear hormone receptor family member nhr-20. [Source:Uniprot/SWISSPROT;Acc:Q09565]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F43C1.7	F43C1.7	F43C1.7 [Source:RefSeq_peptide;Acc:NP_001022586]			
F43C1.6	F43C1.6	F43C1.6 [Source:RefSeq_peptide;Acc:NP_001022585]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	RNA binding, structural constituent of ribosome, 
F43C1.3	F43C1.3	F43C1.3 [Source:RefSeq_peptide;Acc:NP_497850]	positive regulation of growth rate, 		
Y44F5A.1	Y44F5A.1	Y44F5A.1 [Source:RefSeq_peptide;Acc:NP_497851]	positive regulation of growth rate, 		protein binding, 
T08A11.1	T08A11.1	T08A11.1 [Source:RefSeq_peptide;Acc:NP_497852]	intracellular signaling cascade, 		
T08A11.2	T08A11.2	T08A11.2 encodes the C. elegans ortholog of splicing factor 3b subunit 1, also known as SAP155. by homology, the product of T08A11.2 is predicted to be a component of the U2 snRNP that is required for pre-mRNA splicing. large-scale RNAi assays indicate that T08A11.2 activity is essential for a number of processes including embryonic development, normal adult lifespan, vulval morphogenesis, locomotion, and transgene expression and localization. [Source: WormBase]	embryonic development ending in birth or egg hatching, type I hypersensitivity, 		binding, 
R10E4.1	R10E4.1	R10E4.1 [Source:RefSeq_peptide;Acc:NP_497854]			protein binding, 
tag-310	R10E4.2	Temporarily Assigned Gene name family member (tag-310) [Source:RefSeq_peptide;Acc:NP_497856]	positive regulation of growth rate, 		nucleotide binding, RNA binding, nucleic acid binding, 
R10E4.3	R10E4.3	R10E4.3 [Source:RefSeq_peptide;Acc:NP_497857]			
mcm-5	R10E4.4	DNA replication licensing factor mcm-5. [Source:Uniprot/SWISSPROT;Acc:Q21902]	DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, 
nth-1	R10E4.5	Probable endonuclease III homolog (EC 4.2.99.18) (DNA-(Apurinic or apyrimidinic site) lyase). [Source:Uniprot/SWISSPROT;Acc:P54137]	DNA repair, base-excision repair, 	intracellular, 	4 iron, 4 sulfur cluster binding, DNA binding, endonuclease activity, 
R10E4.6	R10E4.6	R10E4.6 [Source:RefSeq_peptide;Acc:NP_497860]			
R10E4.7	R10E4.7	R10E4.7 [Source:RefSeq_peptide;Acc:NP_497861]			
R10E4.11	R10E4.11	R10E4.11 [Source:RefSeq_peptide;Acc:NP_497863]		intracellular, 	zinc ion binding, nucleic acid binding, 
R10E4.9	R10E4.9	R10E4.9 [Source:RefSeq_peptide;Acc:NP_497864]			
evl-14	H38K22.1	evl-14 encodes a homolog of the yeast sister cohesion protein Pds5p that functions during both mitosis and meiosis and is implicated in the maintenance of sister chromatid cohesion in late prophase, and affects vulval morphology, meiotic germline development, embryonic and larval viability, fertility, and cell divisions in the germ line as well as in vulval and somatic gonad lineages. some of the defects, such as somatic gonad defects, are due at least partially to cell division defects. [Source: WormBase]	biological_process, 		
dcn-1	H38K22.2	Defective in cullin neddylation protein 1. [Source:Uniprot/SWISSPROT;Acc:Q9U3C8]	embryonic development ending in birth or egg hatching, protein neddylation, 	cytoplasm, nucleus, 	protein binding, ubiquitin binding, 
H38K22.8	H38K22.8				
tag-131	H38K22.3	Temporarily Assigned Gene name family member (tag-131) [Source:RefSeq_peptide;Acc:NP_497868]			heme binding, transition metal ion binding, 
H38K22.6	H38K22.6	H38K22.6 [Source:RefSeq_peptide;Acc:NP_001076641]			
H38K22.7	H38K22.7	H38K22.7 [Source:RefSeq_peptide;Acc:NP_001076642]			
H38K22.4	H38K22.4	H38K22.4 [Source:RefSeq_peptide;Acc:NP_497869]			
gly-6	H38K22.5	Probable N-acetylgalactosaminyltransferase 6 (EC 2.4.1.-) (Protein-UDP acetylgalactosaminyltransferase 6) (UDP-GalNAc:polypeptide N- acetylgalactosaminyltransferase 6) (pp-GaNTase 6). [Source:Uniprot/SWISSPROT;Acc:O61394]			
B0285.1	B0285.1	Putative cell division cycle 2-related protein kinase 7 (EC 2.7.11.22). [Source:Uniprot/SWISSPROT;Acc:P46551]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0285.3	B0285.3	Uncharacterized protein B0285.3. [Source:Uniprot/SWISSPROT;Acc:P46553]			
B0285.4	B0285.4	Probable leucine carboxyl methyltransferase 1 (EC 2.1.1.-). [Source:Uniprot/SWISSPROT;Acc:P46554]			
hse-5	B0285.5	hse-5 encodes a D-glucuronyl C5-epimerase. [Source: WormBase]	glycosaminoglycan biosynthetic process, 	integral to membrane, 	racemase and epimerase activity, acting on carbohydrates and derivatives, 
B0285.11	B0285.11				
B0285.6	B0285.6	B0285.6 encodes a predicted sodium-coupled carboxylate transporter that is one of four C. elegans proteins related to Drosophila Indy and the mammalian NaDC1 and NaDC3 transporters. B0285.6::lacZ reporter fusions are expressed in the excretory cell, from early larval stages through adulthood, with some later expression occasionally seen in two large unidentified structures on the dorsal side of the pharyngeal terminal bulb. [Source: WormBase]	sodium ion transport, citrate transport, 	membrane, integral to membrane, 	transporter activity, citrate transmembrane transporter activity, 
B0285.7	B0285.7	Uncharacterized protein B0285.7 precursor. [Source:Uniprot/SWISSPROT;Acc:P46557]	growth, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
B0285.t1	B0285.t1				
ckb-1	B0285.8	ckb-1 encodes a putative choline kinase. CKB-1 through CKB-4 comprise a related group ('B') of choline kinases. [Source: WormBase]			
ckb-2	B0285.9	ckb-2 encodes an isoform of choline kinase whose activity has been verified in vitro. CKB-1 through CKB-4 comprise a related group ('B') of choline kinases. purified CKB-2 has a strong preference for choline over ethanolamine, a specific activity of 2.4 micromol/min/mg protein and a pH optimum near 10. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
B0285.12	B0285.12				
ckb-3	B0285.10	ckb-3 encodes a putative choline kinase. CKB-1 through CKB-4 comprise a related group ('B') of choline kinases. [Source: WormBase]			
B0284.5	B0284.5				
B0284.1	B0284.1	B0284.1 [Source:RefSeq_peptide;Acc:NP_497882]			
B0284.6	B0284.6				
B0284.3	B0284.3	B0284.3 [Source:RefSeq_peptide;Acc:NP_497883]			serine-type endopeptidase inhibitor activity, 
B0284.2	B0284.2	B0284.2 [Source:RefSeq_peptide;Acc:NP_497884]			
B0284.4	B0284.4	B0284.4 [Source:RefSeq_peptide;Acc:NP_497885]	vesicle-mediated transport, 	membrane, 	protein binding, 
R07E5.4	R07E5.4	R07E5.4 [Source:RefSeq_peptide;Acc:NP_497886]			
R07E5.5	R07E5.5	R07E5.5 [Source:RefSeq_peptide;Acc:NP_497887]		intracellular, 	zinc ion binding, nucleic acid binding, 
R07E5.6	R07E5.6	R07E5.6 [Source:RefSeq_peptide;Acc:NP_497888]	chloride transport, gamma-aminobutyric acid signaling pathway, 	integral to membrane, 	GABA-A receptor activity, 
R07E5.15	R07E5.15	R07E5.15 [Source:RefSeq_peptide;Acc:NP_497889]			
R07E5.17	R07E5.17	R07E5.17 [Source:RefSeq_peptide;Acc:NP_001022704]	embryonic development ending in birth or egg hatching, 		
R07E5.3	R07E5.3	The R07E5.3 gene encodes a homolog of SNF5/Ini1, a component of the SWI/SNF complex that is conserved from yeast to mammals and that is involved in chromatin remodeling. R07E5.3 may be involved in asymmetric cell division of the T cells. [Source: WormBase]	chromatin remodeling, embryonic development ending in birth or egg hatching, 	nuclear chromosome, 	protein binding, 
rnp-4	R07E5.14	rnp-4 encodes a putative member of the exon-exon junction complex, orthologous to Y14 in S. cerevisiae and TSUNAGI in D. melanogaster. RNP-4 is required for embryonic viability, fertility, vulval development, and cuticular integrity. however, rnp-4(RNAi) animals show no accumulation of poly(A)+ mRNA in their nuclei, indicating that RNP-4 is dispensable for mRNA export. [Source: WormBase]	RNA processing, morphogenesis of an epithelium, 	cytoplasm, nucleus, 	nucleotide binding, RNA binding, protein binding, nucleic acid binding, 
prdx-3	R07E5.2	Probable peroxiredoxin prdx-3 (EC 1.11.1.15) (Thioredoxin peroxidase) (Thioredoxin-dependent peroxide reductase) (Thiol-specific antioxidant protein). [Source:Uniprot/SWISSPROT;Acc:Q21824]			oxidoreductase activity, antioxidant activity, 
R07E5.1	R07E5.1	G patch domain-containing protein 1 homolog. [Source:Uniprot/SWISSPROT;Acc:Q21827]	biological_process, 	intracellular, 	nucleic acid binding, 
R07E5.13	R07E5.13	This gene encodes a homolog of mammalian BRAIN PROTEIN 44-LIKE (BRP44L). [Source: WormBase]			
NR_002649.1	R07E5.16	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
R07E5.11	R07E5.11	R07E5.11 [Source:RefSeq_peptide;Acc:NP_497895]			
pdcd-2	R07E5.10	This gene encodes a homolog of mammalian PROGRAMMED CELL DEATH 2 (PDCD2). [Source: WormBase]	apoptosis, 	cytoplasm, 	zinc ion binding, 
R07E5.7	R07E5.7	R07E5.7 [Source:RefSeq_peptide;Acc:NP_497898]	positive regulation of multicellular organism growth, 		
cku-80	R07E5.8	cku-80 encodes an ortholog of human XRCC5 (Ku80. OMIM:194364, antigen of systemic lupus erythematosus). CKU-80 is required for resistance to ionizing radiation (IR) in somatic tissues (such as motor neurons, vulva, uterus, or somatic gonad) and in endoreduplicating intestinal cells, but not in the germline (e.g., in dog-1-induced lesions). CKU-80 is required for growth on high NaCl, probably because excess NaCl induces extensive chromosome breakage. CKU-80 is also required for survival of dauer larvae subjected to IR, and resistance of developing embryos to methyl methane sulfonate. CKU-80 binds CKU-70 in yeast two-hybrid assays, and requires HIM-10 for fully effective DNA repair in somatic cells. by orthology, CKU-80 is expected to function (as a heterodimer with CKU-70) in nonhomologous end-joining of double-stranded breaks in DNA. although CKU-80 is not strongly required in the germline, its absence enhances the hypersensitivity of rad-51(RNAi) germlines to ionizing radiation. mutant cku-80 late-stage embryos or dauer larvae are hypersensitive to radiation-induced DNA damage in somatic cells. after irradiation, cku-80 mutants tend to display various postembryonic phenotypes (such as slow growth, uncoordinated locomotion, impaired egg-laying, or vulval defects) that are enhanced by him-10 mutations, and that are thought to reflect missegregation of fragmented chromosomes. in two-hybrid assays, CKU-80 binds (in addition to CKU-70) DAF-21, CAH-3, and F59A2.5. [Source: WormBase]	double-strand break repair via nonhomologous end joining, 		DNA binding, ATP-dependent DNA helicase activity, 
C28A5.6	C28A5.6	C28A5.6 [Source:RefSeq_peptide;Acc:NP_497900]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
NR_002649.1	C28A5.7	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
C28A5.t3	C28A5.t3				
C28A5.1	C28A5.1	C28A5.1 [Source:RefSeq_peptide;Acc:NP_497901]			
C28A5.2	C28A5.2	C28A5.2 [Source:RefSeq_peptide;Acc:NP_497902]			
nex-3	C28A5.3	nex-3 encodes an annexin, a member of a family of calcium-dependent phospholipid binding proteins. by homology, NEX-3 could function in a number of processes, such as membrane fusion, cytoskeletal interactions, and intracellular signaling. however, as loss of nex-3 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of NEX-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	biological_process, 		protein binding, calcium ion binding, calcium-dependent phospholipid binding, 
ceh-43	C28A5.4	A homeobox protein of the Distal-less (Dll) class that is required for development of the anterior hypdermis during embryonic morphogenesis for cell adhesion. also affects embryonic and larval viability. it is predominantly expressed in the head hypdodermis, neuronal support cells and CAN neurons. [Source: WormBase]	cell adhesion, regulation of transcription, regulation of transcription, DNA-dependent, growth, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C28A5.t2	C28A5.t2				
C28A5.t1	C28A5.t1				
C28A5.5	C28A5.5	C28A5.5 [Source:RefSeq_peptide;Acc:NP_497905]			
F56F3.3	F56F3.3	F56F3.3 [Source:RefSeq_peptide;Acc:NP_497906]			
ndg-4	F56F3.2	NorDiHydroGuaiaretic acid resistant family member (ndg-4) [Source:RefSeq_peptide;Acc:NP_001022619]	embryonic development ending in birth or egg hatching, 		
F56F3.4	F56F3.4	F56F3.4 [Source:RefSeq_peptide;Acc:NP_497908]	protein modification process, 		zinc ion binding, 
F56F3.t1	F56F3.t1				
pqn-45	F56F3.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	reproduction, 		
rps-1	F56F3.5	rps-1 encodes a small ribosomal subunit S3A protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
ins-17	F56F3.6	ins-17 encodes an insulin-like peptide. [Source: WormBase]	biological_process, 	extracellular region, 	hormone activity, 
cej-1	C07G2.1	cej-1 encodes, by alternative splicing, two isoforms of a protein with three chitin-binding peritrophin-A domains and two mucin-like regions. CEJ-1 is individually dispensable for normal embryonic development. however, CEJ-1 and CPG-2 are jointly required for osmotic integrity of early embryos, error-free chromosomal segregation during meiosis, polar body extrusion, association of the sperm pronucleus/centrosome complex (SPCC) with the early embryonic cortex, localization of PAR-2 in early embryos, posterior localization of P granules or PIE-1, and pseudocleavage. CEJ-1, like CPG-2, is covalently linked to chondroitin, which itself is required for vulval morphogenesis, polar-body extrusion, and separation of the eggshell from the embryonic plasma membrane. cej-1 mRNA, like that of cpg-2, is expressed specifically in the adult hermaphrodite germ line and is bound by GLD-1. CEJ-1 has five potential chondroitin attachment sites, one of them verified by mass spectrometry, and transgenic CEJ-1 synthesized in mammalian cells carries chondroitin sulfate chains. CEJ-1's multiple peritrophin-A domains may enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, cytokinesis after mitosis, 	extracellular region, 	chitin binding, 
atf-7	C07G2.2	ATF (cAMP-dependent transciption factor) family member (atf-7) [Source:RefSeq_peptide;Acc:NP_497914]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
cct-5	C07G2.3	A homolog of the mouse chaperonin Ccte that affects protein folding. it is expressed at all life stages. [Source: WormBase]	protein folding, cellular protein metabolic process, glycolysis, embryonic development ending in birth or egg hatching, 	6-phosphofructokinase complex, cellular_component, 	ATP binding, protein binding, unfolded protein binding, 6-phosphofructokinase activity, 
F25F2.1	F25F2.1	F25F2.1b [Source:RefSeq_peptide;Acc:NP_001022550]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
cdh-4	F25F2.2	A homolog of a member of the cadherin superfamily that is involved in cell-cell adhesion. [Source: WormBase]	homophilic cell adhesion, establishment and/or maintenance of cell polarity, 	membrane, 	calcium ion binding, 
ugt-62	M88.1	M88.1 [Source:RefSeq_peptide;Acc:NP_497918]	metabolic process, 		transferase activity, transferring hexosyl groups, 
M88.2	M88.2	M88.2 [Source:RefSeq_peptide;Acc:NP_497919]	embryonic development ending in birth or egg hatching, 		
M88.7	M88.7	M88.7 [Source:RefSeq_peptide;Acc:NP_497920]			
M88.3	M88.3	M88.3 [Source:RefSeq_peptide;Acc:NP_497921]			protein binding, zinc ion binding, 
M88.4	M88.4	M88.4 [Source:RefSeq_peptide;Acc:NP_497922]			
M88.5	M88.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	proteolysis, biological_process, 	membrane, 	RNA binding, serine-type peptidase activity, 
pan-1	M88.6	P-granule Associated Novel protein family member (pan-1) [Source:RefSeq_peptide;Acc:NP_497924]	biological_process, 		protein binding, 
F35G12.1	F35G12.1	F35G12.1 is orthologous to the human gene MALONYL-COA DECARBOXYLASE (MLYCD. OMIM:606761), which when mutated leads to disease. [Source: WormBase]	fatty acid biosynthetic process, 		protein binding, malonyl-CoA decarboxylase activity, 
F35G12.2	F35G12.2	F35G12.2 [Source:RefSeq_peptide;Acc:NP_497927]	metabolic process, tricarboxylic acid cycle, immune response, embryonic development ending in birth or egg hatching, 	membrane, mitochondrion, extracellular region, 	oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NAD+) activity, chemokine activity, 
sel-5	F35G12.3	sel-5 encodes a serine/threonine kinase most similar to mammalian GAK1 and Saccharomyces cerevisiae Pak1p. SEL-5 is required for LIN-12/Notch-mediated signaling events that instruct cells of equivalent developmental potential to adopt distinct fates. sel-5 encodes two protein kinase isoforms generated from alternatively spliced mRNAs and appears to influence cell fate decisions by acting before or during ligand-dependent release of the LIN-12 intracellular domain. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F35G12.4	F35G12.4	Uncharacterized WD repeat protein F35G12.4. [Source:Uniprot/SWISSPROT;Acc:Q20059]			
F35G12.12	F35G12.12	F35G12.12 [Source:RefSeq_peptide;Acc:NP_497932]	embryonic development ending in birth or egg hatching, 		
F35G12.5	F35G12.5	F35G12.5 [Source:RefSeq_peptide;Acc:NP_497933]			
F35G12.7	F35G12.7	F35G12.7 [Source:RefSeq_peptide;Acc:NP_497934]	response to metal ion, 		
smc-4	F35G12.8	The smc-4 gene encodes a homolog of the SMC4 subunit of mitotic condensin. SMC-4 acts with MIX-1 to enable chromosome segregation. [Source: WormBase]	DNA metabolic process, chromosome organization and biogenesis, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, protein binding, 
F35G12.11	F35G12.11	F35G12.11 [Source:RefSeq_peptide;Acc:NP_497936]	embryonic development ending in birth or egg hatching, 		
apc-11	F35G12.9	apc-11 encodes a predicted key catalytic subunit of the anaphase promoting complex that is required for embryonic development past the embryonic one- cell stage. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 	nucleus, 	protein binding, zinc ion binding, 
asb-1	F35G12.10	asb-1 encodes the B subunit of the membrane-bound F0 proton channel portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V) that is closely similar to its paralog ASB-2. asb-1 activity is required for embryonic viability and for normal proliferation of germline cells, specifically their progression to meiosis. in addition, asb-1 is required for response to hermaphrodite contact, the first step in a series of stereotypical male mating behaviors. expression of asb-1 mRNA is enriched in the germline and an ASB-1::GFP fusion localizes to mitochondria and to cilia of the male-specific CEM neurons. [Source: WormBase]	ATP synthesis coupled proton transport, microtubule-based movement, embryonic development ending in birth or egg hatching, 	proton-transporting two-sector ATPase complex, microtubule, 	GTP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, structural molecule activity, 
sel-2	F10F2.1	Putative neurobeachin homolog. [Source:Uniprot/SWISSPROT;Acc:Q19317]		proteinaceous extracellular matrix, 	
mab-21	F35G12.6	mab-21 encodes a novel protein that is a member of a highly conserved family of proteins with Drosophila and vertebrate orthologs. MAB-21 is cell-autonomously required for specifying the identity of sensory ray 6 in the male tail, and also for backward locomotion, normal body morphology, fecundity, and embryonic morphogenesis. MAB-21 expression begins in embryonic hypodermal cells and continues in larval and adult animals in hypodermis, anterior and ventral cord neurons, some body wall muscles, and ray cells. [Source: WormBase]	cell fate commitment, 	cellular_component, 	
F10F2.3	F10F2.3	F10F2.3 [Source:RefSeq_peptide;Acc:NP_497941]	lipid catabolic process, 		lipase activity, 
F10F2.2	F10F2.2	Probable phosphoribosylformylglycinamidine synthase (EC 6.3.5.3) (FGAM synthase) (FGAMS) (Formylglycinamide ribotide amidotransferase) (FGARAT) (Formylglycinamide ribotide synthetase). [Source:Uniprot/SWISSPROT;Acc:Q19311]	electron transport, 'de novo' IMP biosynthetic process, response to oxidative stress, 		catalytic activity, peroxidase activity, heme binding, sugar binding, phosphoribosylformylglycinamidine synthase activity, 
F10F2.4	F10F2.4	F10F2.4 [Source:RefSeq_peptide;Acc:NP_497943]			protein binding, 
F10F2.7	F10F2.7	F10F2.7 [Source:RefSeq_peptide;Acc:NP_497944]			sugar binding, 
F10F2.6	F10F2.6	F10F2.6 [Source:RefSeq_peptide;Acc:NP_497945]			sugar binding, 
F10F2.8	F10F2.8	F10F2.8 [Source:RefSeq_peptide;Acc:NP_497946]			sugar binding, 
F10F2.5	F10F2.5	F10F2.5 [Source:RefSeq_peptide;Acc:NP_497947]			sugar binding, 
pqn-29	F10F2.9	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			nucleic acid binding, 
T23F11.6	T23F11.6				
T23F11.1	T23F11.1	Probable protein phosphatase 2C T23F11.1 (EC 3.1.3.16) (PP2C). [Source:Uniprot/SWISSPROT;Acc:P49596]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
T23F11.2	T23F11.2	T23F11.2 [Source:RefSeq_peptide;Acc:NP_497950]			
cdka-1	T23F11.3	Cyclin-dependent kinase 5 activator 1. [Source:Uniprot/SWISSPROT;Acc:Q22695]	synaptic transmission, GABAergic, 	cyclin-dependent protein kinase 5 activator complex, 	cyclin-dependent protein kinase 5 activator activity, 
T23F11.4	T23F11.4	T23F11.4 [Source:RefSeq_peptide;Acc:NP_497952]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
srg-13	T23F11.5	Serpentine receptor class gamma-13 (Protein srg-13). [Source:Uniprot/SWISSPROT;Acc:P46567]	signal transduction, response to antibiotic, tetracycline transport, 	membrane, integral to membrane, 	transmembrane receptor activity, tetracycline:hydrogen antiporter activity, 
srg-10	T04A8.1	Serpentine receptor class gamma-10 (Protein srg-10). [Source:Uniprot/SWISSPROT;Acc:P46568]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-11	T04A8.2	Serpentine receptor class gamma-11 (Protein srg-11). [Source:Uniprot/SWISSPROT;Acc:P46569]	signal transduction, 	membrane, 	transmembrane receptor activity, 
T04A8.3	T04A8.3	T04A8.3 [Source:RefSeq_peptide;Acc:NP_497956]			sugar binding, 
tag-243	T04A8.4	Temporarily Assigned Gene name family member (tag-243) [Source:RefSeq_peptide;Acc:NP_497957]			
T04A8.5	T04A8.5	T04A8.5 [Source:RefSeq_peptide;Acc:NP_497958]	metabolic process, purine base biosynthetic process, nucleoside metabolic process, growth, 		transferase activity, amidophosphoribosyltransferase activity, 
NR_003435.1	T04A8.17	T04A8.17, snoRNA [Source:RefSeq_dna;Acc:NR_003435]			
T04A8.6	T04A8.6	T04A8.6 encodes an ortholog of S. cerevisiae NOP15 that may suppress tumorous growth in the germline. like PRO-1, -2, and -3, T04A8.6 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. [Source: WormBase]	growth, 		nucleotide binding, nucleic acid binding, 
T04A8.8	T04A8.8	T04A8.8 [Source:RefSeq_peptide;Acc:NP_497960]			
T04A8.7	T04A8.7	T04A8.7 is orthologous to human GLUCOSIDASE, ACID BETA (GBA. OMIM:606463), which when mutated leads to Gaucher disease. [Source: WormBase]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, cation binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 1,4-alpha-glucan branching enzyme activity, 
dnj-18	T04A8.9	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		heat shock protein binding, 
sel-13	T04A8.10	Suppressor/Enhancer of Lin-12 family member (sel-13) [Source:RefSeq_peptide;Acc:NP_497963]			zinc ion binding, nucleic acid binding, 
clp-2	T04A8.16	clp-2 encodes a large calpain subunit that contains two predicted MIT (microtubule interacting and trafficking) domains and is homologous to the mammalian Calpain 7 proteins and the atypical, nuclear-localized Aspergillus calpain, PalB. by homology, CLP-2 is predicted to function as a calcium-dependent, cysteine protease that is involved in intracellular proteolysis and peptidolysis. however, as loss of clp-2 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of CLP-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
T04A8.11	T04A8.11	T04A8.11 [Source:RefSeq_peptide;Acc:NP_497965]	translation, growth, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
tag-189	T04A8.12	Temporarily Assigned Gene name family member (tag-189) [Source:RefSeq_peptide;Acc:NP_497966]			
T04A8.13	T04A8.13	T04A8.13 [Source:RefSeq_peptide;Acc:NP_497967]			
T04A8.15	T04A8.15	T04A8.15 [Source:RefSeq_peptide;Acc:NP_497968]			
emb-5	T04A8.14	emb-5 encodes the C. elegans ortholog of the Spt6 family of RNA polymerase II transcription elongation factors. first identified in screens for temperature-sensitive embryonic lethal mutations, emb-5 is required for the correct timing of the second E (endoderm)-cell division in the early embryo and thus, for normal embryonic gastrulation. in addition, emb-5 activity is required postembryonically for proper gonad development. in yeast two-hybrid studies, EMB-5 interacts with the intracellular domains of LIN-12 and GLP-1, suggesting that EMB-5 functions as a positive downstream effector in Notch-like signaling pathways during C. elegans development. emb-5 mRNA is most abundant during embryonic stages, with lower levels apparent during the L1-L3 larval stages, and even lower levels observed during L4. [Source: WormBase]	intracellular signaling cascade, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 		RNA binding, hydrolase activity, acting on ester bonds, 
acy-1	F17C8.1	The acy-1 gene encodes a protein with 40% identity to mammalian adenylyl cyclases, most closely related to the divergent mouse isoform type IX, that affects viability, muscle contraction, locomotion, and molting. it acts genetically downstream of gsa-1 and is expressed in excitable cells. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, G-protein signaling, coupled to cAMP nucleotide second messenger, 		phosphorus-oxygen lyase activity, 
F17C8.3	F17C8.3	F17C8.3 [Source:RefSeq_peptide;Acc:NP_497971]	NADP catabolic process, pyridine nucleotide biosynthetic process, 		oxidoreductase activity, 
F17C8.7	F17C8.7	F17C8.7 [Source:RefSeq_peptide;Acc:NP_001022543]			
ras-2	F17C8.4	ras-2 encodes member of the Ras subfamily of RAS small GTPases with highest similarity to human M-Ras [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
F17C8.8	F17C8.8				
twk-6	F17C8.5	twk-6 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. as loss of TWK-6 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of TWK-6 in C. elegans development and/or behavior is not yet known. TWK-6 may, however, function redundantly with other TWK channels. TWK-6 is expressed in the hypodermis. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
F17C8.6	F17C8.6	F17C8.6 encodes an alpha1 Ca2+ channel subunit. large-scale RNAi experiments indicate that during development F17C8.6, along with nca-2, may play a role in regulating egg size and shape. [Source: WormBase]			
col-89	F17C8.2	COLlagen family member (col-89) [Source:RefSeq_peptide;Acc:NP_497975]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
VB0393L.2	VB0393L.2	B0393.8 [Source:RefSeq_peptide;Acc:NP_497977]			
B0393.8	B0393.8	B0393.8 [Source:RefSeq_peptide;Acc:NP_497977]	embryonic development ending in birth or egg hatching, 		
rps-0	B0393.1	rps-0 encodes a small ribosomal subunit SA protein that appears to function as both a ribosomal component and a laminin receptor. by homology, RPS-0 is predicted to play roles in protein biosynthesis and cell adhesion. in C. elegans, RPS-0 activity is required for embryonic and germline development, vulval morphogenesis, and the overall health of the animal. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, small ribosomal subunit, ribosome, 	protein binding, structural constituent of ribosome, 
rbg-3	B0393.2	RaB GAP related family member (rbg-3) [Source:RefSeq_peptide;Acc:NP_497979]	regulation of Rab GTPase activity, 	intracellular, 	protein binding, Rab GTPase activator activity, 
B0393.3	B0393.3	B0393.3 [Source:RefSeq_peptide;Acc:NP_497980]			protein binding, 
B0393.10	B0393.10				
B0393.4	B0393.4	B0393.4 [Source:RefSeq_peptide;Acc:NP_497981]			
B0393.5	B0393.5	B0393.5 [Source:RefSeq_peptide;Acc:NP_497982]	cell-matrix adhesion, 		calcium ion binding, 
B0393.7	B0393.7	B0393.7 [Source:RefSeq_peptide;Acc:NP_497983]			calcium ion binding, 
B0393.9	B0393.9	B0393.9 [Source:RefSeq_peptide;Acc:NP_001033345]			
B0393.6	B0393.6	B0393.6 [Source:RefSeq_peptide;Acc:NP_497984]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
C38D4.10	C38D4.10				
C38D4.1	C38D4.1	C38D4.1a [Source:RefSeq_peptide;Acc:NP_497985]			
mel-28	C38D4.3	mel-28 encodes a large (1,784-residue) protein required for nuclear envelope assembly. MEL-28 is highly divergent from, but orthologous to human AT-hook-containing transcription factor 1 (AHCTF1). MEL-28 is found in nuclear pore complexes (NPCs) during interphase, kinetochores early in mitosis, and chromatin later in mitosis. mel-28 mutants were first identified in a screen for genes involved in cell division in the early embryo. mel-28 mutants or mel-28(RNAi) animals have no (or poorly visible) pronuclei and nuclear morphology generally, along with a weak mitotic spindle, aberrant chromatin segregation, and abnormally distributed nuclear envelope (NE) proteins and NPCs. MEL-28 is needed for normal localization of LMN-1 and EMR-1, and appears to be a stable structural component of the NE. maternal MEL-28 is needed for embryonic development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
C38D4.4	C38D4.4	C38D4.4 [Source:RefSeq_peptide;Acc:NP_497988]			
tag-325	C38D4.5	WW domain-containing protein tag-325. [Source:Uniprot/SWISSPROT;Acc:P46941]	signal transduction, 	intracellular, 	protein binding, 
C38D4.9	C38D4.9	C38D4.9 [Source:RefSeq_peptide;Acc:NP_497990]	methylation, 		protein binding, methyltransferase activity, nucleic acid binding, 
pal-1	C38D4.6	pal-1 encodes a homeodomain protein that is the C. elegans Caudal ortholog. PAL-1 is required maternally and embryonically for cell fate specification and posterior patterning during embryogenesis. PAL-1 is also required postembryonically for fate specification of the posterior V6 neuroectoblast during male tail development. PAL-1 is expressed in posterior blastomeres beginning at the four-cell stage of embryogenesis and its expression continues during embryogenesis in posterior-derived tissues and cells undergoing movement or forming midline structures. pal-1 is subject to both transcriptional and translational regulation. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, ectodermal cell fate commitment, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
C38D4.7	C38D4.7	C38D4.7 [Source:RefSeq_peptide;Acc:NP_497992]		intracellular, 	zinc ion binding, nucleic acid binding, 
arl-6	C38D4.8	arl-6 encodes an ADP-Ribosylation factor-Like member of the Ras superfamily of small GTP-binding proteins and is a predicted homolog of the human ARL6 gene, identified as the gene that underlies Bardet-Biedl syndrome type 3. GFP-tagged ARL-6 undergoes intraflagellar transport (IFT) in the ciliary axoneme, implicating ARL-6 in ciliary transport. arl-6 is expressed in amphid and phasmid ciliated sensory neurons. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, 	intracellular, cytosol, 	GTP binding, GTPase activity, 
F26A1.6	F26A1.6	F26A1.6 [Source:RefSeq_peptide;Acc:NP_497994]			
F26A1.4	F26A1.4	F26A1.4 [Source:RefSeq_peptide;Acc:NP_497995]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
F26A1.7	F26A1.7	F26A1.7 [Source:RefSeq_peptide;Acc:NP_497996]			
F26A1.8	F26A1.8	F26A1.8 [Source:RefSeq_peptide;Acc:NP_497997]			cysteine protease inhibitor activity, 
F26A1.9	F26A1.9	F26A1.9 [Source:RefSeq_peptide;Acc:NP_497998]			
F26A1.3	F26A1.3	F26A1.3 [Source:RefSeq_peptide;Acc:NP_497999]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
nspd-9	F26A1.10	Nematode Specific Peptide family, group D family member (nspd-9) [Source:RefSeq_peptide;Acc:NP_498000]			
acbp-7	F26A1.15	Acyl-Coenzyme A Binding Protein family member (acbp-7) [Source:RefSeq_peptide;Acc:NP_001033359]			acyl-CoA binding, 
F26A1.11	F26A1.11	F26A1.11 [Source:RefSeq_peptide;Acc:NP_498001]	cell adhesion, 	actin cytoskeleton, 	structural molecule activity, sugar binding, 
F26A1.12	F26A1.12	F26A1.12 [Source:RefSeq_peptide;Acc:NP_498002]			sugar binding, 
fkh-5	F26A1.2	fkh-5 encodes a member of the forkhead domain transcription factor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F26A1.13	F26A1.13	F26A1.13 [Source:RefSeq_peptide;Acc:NP_498004]			
F26A1.14	F26A1.14	F26A1.14 [Source:RefSeq_peptide;Acc:NP_498005]			nucleotide binding, nucleoside-triphosphatase activity, 2',3'-cyclic-nucleotide 3'-phosphodiesterase activity, 
F26A1.1	F26A1.1	F26A1.1 [Source:RefSeq_peptide;Acc:NP_498006]			
ced-4	C35D10.9	ced-4 encodes a novel protein. along with CED-3, CED-4 is required for the initiation of programmed cell death. accordingly, genetic analyses indicate that ced-3 and ced-4 function upstream of ced-1, ced-2, and nuc-1 in the programmed cell death pathway. in yeast two-hybrid experiments, and upon coexpression in mammalian cells, CED-4 interacts with CED-9, an anti-apoptotic BCL-2 homolog. coexpression of CED-4 and CED-9 results in redistribution of CED-4 from the cytosol to organellar membranes, suggesting that CED-9 may negatively regulate CED-4 activity by sequestering CED-4 to intracellular membranes. [Source: WormBase]	apoptosis, regulation of apoptosis, 	intracellular, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
C35D10.8	C35D10.8	C35D10.8 [Source:RefSeq_peptide;Acc:NP_498008]			
C35D10.7	C35D10.7	C35D10.7a [Source:RefSeq_peptide;Acc:NP_498009]	embryonic development ending in birth or egg hatching, 		
C35D10.6	C35D10.6	C35D10.6 [Source:RefSeq_peptide;Acc:NP_498011]	locomotory behavior, 		oxidoreductase activity, 
C35D10.10	C35D10.10	C35D10.10 [Source:RefSeq_peptide;Acc:NP_498012]	cell redox homeostasis, 		
C35D10.5	C35D10.5	C35D10.5 [Source:RefSeq_peptide;Acc:NP_498013]	positive regulation of growth rate, 		
coq-8	C35D10.4	coq-8 encodes a putative protein kinase orthologous to ABC1 (COQ8) from S. cerevisiae and UbiB from E. coli, and paralogous to C. elegans D2023.6 and its (uncharacterized) eukaryotic orthologs. COQ-8 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. alternative hypotheses for COQ-8's biochemical function are that it is a 2-polyprenylphenol 6-hydroxylase, or that it may activate proteins necessary for monooxygenase activity via phosphorylation. coq-8 is expressed in several tissues during larval development, but in later adult life its expression is restricted to neurons. coq-8 mutants have slowed pharyngeal pumping, and eventually arrest as paralysed larvae before dying. coq-8(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. coq-8 mutants are not rescued by dietary coenzyme Q. [Source: WormBase]	ubiquinone biosynthetic process, determination of adult life span, 		
C35D10.17	C35D10.17	UPF0287 protein C35D10.17. [Source:Uniprot/SWISSPROT;Acc:Q8MNU7]			
C35D10.11	C35D10.11	F44D12.7 [Source:RefSeq_peptide;Acc:NP_501813]			structural molecule activity, 
C35D10.3	C35D10.3	C35D10.3 [Source:RefSeq_peptide;Acc:NP_498016]			
C35D10.2	C35D10.2	C35D10.2 [Source:RefSeq_peptide;Acc:NP_498017]			protein binding, 
C35D10.12	C35D10.12	C35D10.12 [Source:RefSeq_peptide;Acc:NP_498018]	metabolic process, 		methyltransferase activity, 
C35D10.13	C35D10.13	C35D10.13 [Source:RefSeq_peptide;Acc:NP_498019]	embryonic development ending in birth or egg hatching, 		
arx-6	C35D10.16	arx-6 encodes the C. elegans ortholog of the p20Arc subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	actin filament polymerization, embryonic development ending in birth or egg hatching, 	cytoskeleton, 	
C35D10.1	C35D10.1	Uncharacterized protein C35D10.1. [Source:Uniprot/SWISSPROT;Acc:Q8WQG1]	positive regulation of growth rate, 		
clec-5	C35D10.14	C-type LECtin family member (clec-5) [Source:RefSeq_peptide;Acc:NP_498022]			sugar binding, 
clec-6	C35D10.15	C-type LECtin family member (clec-6) [Source:RefSeq_peptide;Acc:NP_498023]			sugar binding, 
F26F4.5	F26F4.5	F26F4.5 [Source:RefSeq_peptide;Acc:NP_498024]			protein binding, 
F26F4.6	F26F4.6	F26F4.6 [Source:RefSeq_peptide;Acc:NP_498025]			
nhl-2	F26F4.7	NHL (ring finger b-box coiled coil) domain containing family member (nhl-2) [Source:RefSeq_peptide;Acc:NP_498026]	reproduction, 	intracellular, 	protein binding, zinc ion binding, 
tag-340	F26F4.4	Temporarily Assigned Gene name family member (tag-340) [Source:RefSeq_peptide;Acc:NP_498027]	steroid biosynthetic process, 		cholesterol binding, cholesterol transporter activity, 
kbp-2	F26F4.13	KNL (kinetochore null) Binding Protein family member (kbp-2) [Source:RefSeq_peptide;Acc:NP_741121]	embryonic development ending in birth or egg hatching, 		
F26F4.8	F26F4.8	F26F4.8 [Source:RefSeq_peptide;Acc:NP_498028]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
rom-1	F26F4.3	Rhomboid-related protein 1 (EC 3.4.21.105). [Source:Uniprot/SWISSPROT;Acc:Q19821]		integral to membrane, 	
F26F4.12	F26F4.12	F26F4.12 [Source:RefSeq_peptide;Acc:NP_498030]			
F26F4.9	F26F4.9	F26F4.9b [Source:RefSeq_peptide;Acc:NP_498033]			
F26F4.2	F26F4.2	F26F4.2 encodes a novel protein with high similarity to C. elegans F37A8.1 and C. briggsae CBG18186. [Source: WormBase]			protein binding, 
F26F4.1	F26F4.1	F26F4.1 [Source:RefSeq_peptide;Acc:NP_498034]	positive regulation of growth rate, 		protein binding, 
rrt-1	F26F4.10	rrt-1 encodes an arginyl-tRNA synthetase that affects embryonic viability and fertility [Source: WormBase]	translation, tRNA aminoacylation for protein translation, arginyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, arginine-tRNA ligase activity, 
F26F4.11	F26F4.11	Probable DNA-directed RNA polymerases I, II, and III subunit RPABC3 (RNA polymerases I, II, and III subunit ABC3) (RPB17) (RNA polymerase B subunit 8) (RPB8). [Source:Uniprot/SWISSPROT;Acc:Q19826]	transcription, embryonic development ending in birth or egg hatching, 		protein binding, 
ula-1	C26E6.8	The ula-1 gene encodes a component of the enzyme that activates NED-8, which in turn is a ubiquitin-like protein whose conjugating enzyme is UBC-12. [Source: WormBase]	morphogenesis of an epithelium, 		catalytic activity, 
mmab-1	C26E6.11	mmab-1 encodes an ortholog of human co(I)balamin adenosyltransferase (MMAB. mutated in methylmalonic aciduria, OMIM:607568). mmab-1 deletion mutants incorporate abnormally low levels of 1-[(14)C]-propionate into proteins. mmab-1 mutants and mmab-1(RNAi) animals excrete abnormally high levels of methylmalonic acid into their culture medium when challenged with propionic acid. these data are consistent with the hypothesis that MMAB-1 participates in the conversion of propionyl-CoA to succinyl-CoA. [Source: WormBase]	cobalamin biosynthetic process, 		ATP binding, cob(I)yrinic acid a,c-diamide adenosyltransferase activity, 
set-2	C26E6.9	Protein set-2. [Source:Uniprot/SWISSPROT;Acc:Q18221]		nucleus, 	nucleic acid binding, 
C26E6.12	C26E6.12	C26E6.12 [Source:RefSeq_peptide;Acc:NP_498042]		intracellular, 	GTP binding, GTPase activity, 
C26E6.7	C26E6.7	C26E6.7a [Source:RefSeq_peptide;Acc:NP_498044]			
C26E6.6	C26E6.6	Putative mitochondrial 39S ribosomal protein L3. [Source:Uniprot/SWISSPROT;Acc:P49404]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
fsn-1	C26E6.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins [Source: WormBase]			
rpb-2	C26E6.4	DNA-directed RNA polymerase II subunit RPB2 (EC 2.7.7.6) (RNA polymerase II subunit B2) (RNA polymerase II subunit 2). [Source:Uniprot/SWISSPROT;Acc:Q10578]	transcription, embryonic development ending in birth or egg hatching, 		DNA binding, DNA-directed RNA polymerase activity, 
C26E6.3	C26E6.3	C26E6.3 [Source:RefSeq_peptide;Acc:NP_498048]	embryonic development ending in birth or egg hatching, 		
C26E6.2	C26E6.2	C26E6.2 [Source:RefSeq_peptide;Acc:NP_498049]			
C26E6.1	C26E6.1	C26E6.1 [Source:RefSeq_peptide;Acc:NP_498050]			
C27F2.4	C27F2.4	C27F2.4 [Source:RefSeq_peptide;Acc:NP_498051]	metabolic process, biological_process, 		methyltransferase activity, 
C27F2.5	C27F2.5	C27F2.5 [Source:RefSeq_peptide;Acc:NP_498052]			
C27F2.9	C27F2.9	C27F2.9 [Source:RefSeq_peptide;Acc:NP_498053]			
nca-2	C27F2.2	nca-2 encodes a novel, four-domain alpha1U Ca2+ channel subunit. nca-2 functions redundantly with a paralog, nca-1, to regulate locomotion and the response to specific volatile anesthetics. in regulating these processes, nca-1 and nca-2 function in the same pathway as unc-79, which encodes a conserved novel protein that positively regulates levels of NCA-1 and NCA-2 protein. nca-2::gfp reporters are expressed in the nervous system in a few pharyngeal neurons, many nerve ring interneurons, most ventral nerve motor cord neurons, and in neurons and muscles in the tail. diffuse expression is also seen in vulval muscles and the intestine. [Source: WormBase]	ion transport, calcium ion transport, potassium ion transport, 	membrane, voltage-gated calcium channel complex, voltage-gated potassium channel complex, 	ion channel activity, calcium ion binding, voltage-gated calcium channel activity, voltage-gated potassium channel activity, 
C27F2.6	C27F2.6	C27F2.6 [Source:RefSeq_peptide;Acc:NP_498055]			
C27F2.7	C27F2.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C27F2.10	C27F2.10	PCI domain-containing protein (CSN12-like protein). [Source:Uniprot/SWISSPROT;Acc:Q95QU0]	embryonic development ending in birth or egg hatching, 		
C27F2.1	C27F2.1	C27F2.1 [Source:RefSeq_peptide;Acc:NP_498058]			
C27F2.8	C27F2.8	C27F2.8 [Source:RefSeq_peptide;Acc:NP_498059]	embryonic development ending in birth or egg hatching, 		protein binding, 
R144.5	R144.5	Uncharacterized protein R144.5. [Source:Uniprot/SWISSPROT;Acc:Q09346]			
R144.10	R144.10	R144.10 [Source:RefSeq_peptide;Acc:NP_498061]			protein binding, 
R144.6	R144.6	Transmembrane protein R144.6. [Source:Uniprot/SWISSPROT;Acc:Q10000]			
R144.12	R144.12	Uncharacterized protein R144.12. [Source:Uniprot/SWISSPROT;Acc:Q629J5]			
R144.11	R144.11	R144.11 [Source:RefSeq_peptide;Acc:NP_498063]			
larp-1	R144.7	LARP (RNA binding La related protein) homolog family member (larp-1) [Source:RefSeq_peptide;Acc:NP_001040868]	embryonic development ending in birth or egg hatching, 		
wip-1	R144.4	Wiskott-Aldrich syndrome protein (WASP)-Interacting Protein and gene assignment family member (wip-1) [Source:RefSeq_peptide;Acc:NP_741123]	cell adhesion, regulation of transcription, DNA-dependent, cell-matrix adhesion, muscle contraction, 	nucleus, cytoskeleton, actin cytoskeleton, 	DNA binding, actin binding, structural molecule activity, ligand-dependent nuclear receptor activity, calmodulin binding, structural constituent of cell wall, myosin binding, 
mdt-11	R144.9	MeDiaTor family member (mdt-11) [Source:RefSeq_peptide;Acc:NP_498066]	embryonic development ending in birth or egg hatching, 		protein binding, 
R144.3	R144.3	R144.3 [Source:RefSeq_peptide;Acc:NP_498067]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
R144.13	R144.13	R144.13 [Source:RefSeq_peptide;Acc:NP_001040866]			
R144.2	R144.2	Uncharacterized protein R144.2. [Source:Uniprot/SWISSPROT;Acc:Q09345]	embryonic development ending in birth or egg hatching, 		
klp-6	R144.1	klp-6 encodes a predicted monomeric kinesin and member of the UNC-104 family. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
C45G9.6	C45G9.6	Uncharacterized protein C45G9.6. [Source:Uniprot/SWISSPROT;Acc:Q09279]			
C45G9.13	C45G9.13	C45G9.13 [Source:RefSeq_peptide;Acc:NP_741126]			
C45G9.14	C45G9.14	C45G9.14 [Source:RefSeq_peptide;Acc:NP_001033354]			
C45G9.7	C45G9.7	Uncharacterized protein C45G9.7. [Source:Uniprot/SWISSPROT;Acc:Q09506]			protein binding, 
C45G9.5	C45G9.5	Uncharacterized protein C45G9.5. [Source:Uniprot/SWISSPROT;Acc:Q09278]	growth, 		protein binding, 
C45G9.8	C45G9.8	Uncharacterized protein C45G9.8. [Source:Uniprot/SWISSPROT;Acc:Q09280]			
C45G9.9	C45G9.9	Uncharacterized protein C45G9.9. [Source:Uniprot/SWISSPROT;Acc:Q09507]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
C45G9.10	C45G9.10	Uncharacterized protein C45G9.10. [Source:Uniprot/SWISSPROT;Acc:Q09281]			
C45G9.4	C45G9.4	Uncharacterized protein C45G9.4. [Source:Uniprot/SWISSPROT;Acc:Q09505]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
C45G9.11	C45G9.11	Uncharacterized protein C45G9.11. [Source:Uniprot/SWISSPROT;Acc:Q09282]	reproduction, 		
C45G9.2	C45G9.2	Uncharacterized tRNA-dihydrouridine synthase-like protein C45G9.2 (EC 1.-.-.-). [Source:Uniprot/SWISSPROT;Acc:Q09504]	tRNA processing, 		oxidoreductase activity, catalytic activity, FAD binding, 
C45G9.12	C45G9.12	Uncharacterized protein C45G9.12. [Source:Uniprot/SWISSPROT;Acc:Q09283]			
C45G9.1	C45G9.1	Uncharacterized protein C45G9.1. [Source:Uniprot/SWISSPROT;Acc:Q09503]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
alh-1	F54D8.3	alh-1 is orthologous to the human gene ALDEHYDE DEHYDROGENASE 2, MITOCHONDRIAL (ALDH2. OMIM:100650), in which a polymorphism can lead to acute ethanol intolerance. [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
tag-174	F54D8.2	Probable cytochrome c oxidase polypeptide VIa, mitochondrial precursor (EC 1.9.3.1). [Source:Uniprot/SWISSPROT;Acc:Q20779]	electron transport, 	mitochondrial envelope, 	cytochrome-c oxidase activity, 
cah-1	F54D8.4	cah-1 encodes a member of the carbonic anhydrase family. [Source: WormBase]	one-carbon compound metabolic process, 		zinc ion binding, carbonate dehydratase activity, 
F54D8.p1	F54D8.p1				
F54D8.6	F54D8.6	F54D8.6 [Source:RefSeq_peptide;Acc:NP_001022605]			protein binding, 
dpy-17	F54D8.1	dpy-17 encodes a cuticle collagen. during development, dpy-17 activity is required for normal body morphology, hermaphrodite tail development, and outgrowth of posterior canal cell processes. genetic and immunofluorescence studies suggest that extracellular assembly of DPY-17 and the essential SQT-3 cuticle collagen is interdependent, as loss of dpy-17 activity results in intracellular retention of SQT-3 and dpy-17(gf) mutations suppress mutations in dpy-31, which encodes a zinc-metalloprotease predicted to affect C-terminal proteolytic maturation of SQT-3. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
sax-2	F21H11.2	Sensory AXon guidance family member (sax-2) [Source:RefSeq_peptide;Acc:NP_741131]		proteinaceous extracellular matrix, 	
tbx-2	F21H11.3	tbx-2 encodes one of 21 C. elegans T-box transcription factors. during development, tbx-2 activity is required for normal adaptation, but not chemotaxis, to attractive odorants sensed by the AWC amphid neurons. tbx-2 is required redundantly with unc-3 and unc-31 for negative regulation of dauer formation, and large-scale RNAi screens reveal an essential role for tbx-2 in early larval development, normal rates of postembryonic growth, and locomotory behavior. tbx-2 is also required along with pha-4 for embryonic precursor cells to adopt a pharyngeal muscle fate. TBX-2 and PHA-4 are mutually dependant on each other to maintain expression implicating them in a regulatory loop that controls commitment to the pharyngeal muscle fate. yeast two-hybrid assays have identified that TBX-2 interacts with UBC-9 (E2 SUMO conjugating enzyme) and GEI-17 (E3 SUMO ligase). based on the two-hybrid interaction and the similar pharyngeal muscle phenotype of ubc-9, it is likely that protein sumoylation is required for precursor-cell derived pharyngeal muscle development. antibodies to TBX-2 detect expression in the cytoplasm of amphid and pharyngeal neurons in larvae and adults, suggesting that TBX-2 function may be controlled, in part, by regulation of its subcellular localization. in addition, in situ hybridization studies indicate that tbx-2 mRNA is expressed during mid-embryogenesis. tbx-2 expression in the AWC amphid neurons is sufficient to rescue the olfactory adaptation defects seen in tbx-2 mutant animals. [Source: WormBase]	regulation of transcription, DNA-dependent, growth, olfactory behavior, 	nucleus, 	transcription factor activity, 
Y54H5A.2	Y54H5A.2	Y54H5A.2 [Source:RefSeq_peptide;Acc:NP_498089]	embryonic development ending in birth or egg hatching, 		
tag-262	Y54H5A.3	Temporarily Assigned Gene name family member (tag-262) [Source:RefSeq_peptide;Acc:NP_498090]	biological_process, 		nucleotide binding, nucleic acid binding, 
Y54H5A.1	Y54H5A.1	Y54H5A.1 [Source:RefSeq_peptide;Acc:NP_498091]	embryonic development ending in birth or egg hatching, 		
Y54H5A.4	Y54H5A.4	Y54H5A.4 [Source:RefSeq_peptide;Acc:NP_498092]			ferredoxin hydrogenase activity, 
T10F2.5	T10F2.5	T10F2.5 [Source:RefSeq_peptide;Acc:NP_001033370]	transport, ER to Golgi vesicle-mediated transport, 	intracellular, 	
grs-1	T10F2.1	grs-1 encodes a member of the glycyl-tRNA synthetase family that affects embryonic viability and spindle maintenance during anaphase. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, glycyl-tRNA aminoacylation, prolyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, sugar binding, glycine-tRNA ligase activity, proline-tRNA ligase activity, 
T10F2.2	T10F2.2	T10F2.2 is orthologous to the human gene SOLUTE CARRIER FAMILY 25 (MITOCHONDRIAL CARRIER. ORNITHINE TRANSPORTER) MEMBER 15 (SLC25A15. OMIM:603861), which when mutated leads to disease. [Source: WormBase]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
ulp-1	T10F2.3	Sentrin-specific protease (EC 3.4.22.-) (SUMO protease) (SuPr) (Ubiquitin-like protease). [Source:Uniprot/SWISSPROT;Acc:Q09353]	proteolysis, biological_process, 		cysteine-type peptidase activity, 
T10F2.4	T10F2.4	PRP19/PSO4 homolog. [Source:Uniprot/SWISSPROT;Acc:Q10051]	protein ubiquitination, embryonic development ending in birth or egg hatching, 	ubiquitin ligase complex, 	ubiquitin-protein ligase activity, 
K10D2.5	K10D2.5	Uncharacterized protein K10D2.5. [Source:Uniprot/SWISSPROT;Acc:Q09411]			heme binding, transition metal ion binding, 
K10D2.4	K10D2.4	Uncharacterized protein K10D2.4. [Source:Uniprot/SWISSPROT;Acc:Q09410]	embryonic development ending in birth or egg hatching, 		
cid-1	K10D2.3	cid-1 (also known as pup-1) encodes a template-independent poly(U) polymerase with 3'' end RNA substrates, orthologous to human ZCCHC6 and ZCCHC11, and paralogous to PUP-2. CID-1 prevents larvae from growing to adulthood in media containing hydroxyurea (HU, a drug that stalls replication forks) and represses HSP-4 expression. CID-1 is required for gonadogenesis, embryonic and vulval development, normally rapid growth, and normally short lifespan. CID-1, like HSP-4, is expressed in postmitotic intestinal cells. by orthology with Cid1p in fission yeast, CID-1 is predicted to act in a DNA synthesis-to-mitosis checkpoint. in cid-1(rf35::Tc4) mutants or cid-1(RNAi) animals grow from L1 larvae to adulthood despite the presence of HU, are abnormally resistant to lethal heat shock, overexpress hsp-4::GFP, have protruding vulvae, have abnormally short and thick gonads with fewer germ cells than normal, produce disorganized embryos, grow slowly, and have abnormally long lifespans. CID-1 and its eukaryotic homologs are distantly related to the GLD-2 family of poly(A) polymerases. [Source: WormBase]	gamete generation, 	intracellular, 	zinc ion binding, nucleic acid binding, 
pup-2	K10D2.2	pup-2 encodes a template-independent poly(U) polymerase with 3'' end RNA substrates, orthologous to human ZCCHC6 and ZCCHC11, and paralogous to CID-1. like its paralog CID-1, PUP-2 is required for normally rapid growth and normally short lifespan. pup-2(RNAi) animals are slow-growing and abnormally long-lived. PUP-2 is paralogous to the GLD-2 family of poly(A) polymerases. [Source: WormBase]	positive regulation of growth rate, 		
K10D2.1	K10D2.1	Protein HIRA homolog. [Source:Uniprot/SWISSPROT;Acc:Q09589]	signal transduction, regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, protein phosphatase type 2A complex, 	protein binding, transcription regulator activity, protein phosphatase type 2A regulator activity, 
K10D2.7	K10D2.7	Uncharacterized protein K10D2.7. [Source:Uniprot/SWISSPROT;Acc:Q09412]	sulfur metabolic process, 		
emb-8	K10D2.6	.emb-8 encodes the C. elegans NADPH-cytochrome P450 reductase ortholog. by homology, EMB-8 is predicted to function in the enzymatic reduction of the cytochrome P450 monooxygenase enzymes that play a role in fatty acid modification. during embryonic development, emb-8 activity is essential for normal interactions between the pronucleus/centrosome complex and the posterior cortex and thus, for proper anterior-posterior (A/P) polarity and localization of GLP-1, PAR-3, PAR-2, and P granules. emb-8 is also required for formation of the secreted eggshell. genetic studies indicate that, in regulating A/P polarity, emb-8 appears to function in the same pathway as pod-1 and pod-2. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		iron ion binding, oxidoreductase activity, electron carrier activity, FMN binding, 
morc-1	ZC155.3	ZC155.3 [Source:RefSeq_peptide;Acc:NP_498104]	embryonic development ending in birth or egg hatching, 		ATP binding, 
syn-16	ZC155.7	SYNtaxin family member (syn-16) [Source:RefSeq_peptide;Acc:NP_498105]	vesicle-mediated transport, 	membrane, 	protein binding, 
ZC155.4	ZC155.4	ZC155.4 [Source:RefSeq_peptide;Acc:NP_498106]	glycerol metabolic process, 		glycerophosphodiester phosphodiesterase activity, 
ZC155.5	ZC155.5	ZC155.5a [Source:RefSeq_peptide;Acc:NP_498107]			
ZC155.2	ZC155.2	ZC155.2 [Source:RefSeq_peptide;Acc:NP_498108]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
nex-1	ZC155.1	nex-1 encodes an annexin, a member of a family of calcium-dependent phospholipid binding proteins. NEX-1 is required for efficient engulfment of apoptotic cell corpses in the pharynx, and may also function in other membrane fusion events, such as exocytosis. NEX-1 in vitro can bind phosphatidylserine, phosphatidylinositol, heparin, heparan sulfate, and chondroitin sulfate. NEX-1 is expressed in the pharynx, hypodermal cells, the vulva, the uterus, the spermathecal valve, and yolk granules of maturing oocytes. [Source: WormBase]	negative regulation of coagulation, 		protein binding, calcium ion binding, calcium-dependent phospholipid binding, 
C34E10.10	C34E10.10	C34E10.10 [Source:RefSeq_peptide;Acc:NP_498110]			
atp-2	C34E10.6	atp-2 encodes the beta subunit of the soluble, catalytic F1 portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V). atp-2 activity is required for embryonic and larval development past the L3 stage, as well as for normal mobility, pharyngeal pumping, defecation, growth rate, and larval lifespan. in males, atp-2 activity is also required cell autonomously in male-specific sensory neurons for response to hermaphrodite contact, the first step in a series of stereotypical male mating behaviors. in vitro, the N-terminus of ATP-2 interacts directly with the conserved PLAT domains of human polycystin (PC)-1 and C. elegans LOV-1, which is expressed exclusively in adult male sensory neurons and is also required for the response to hermaphrodite contact. atp-2 is widely expressed throughout development in both sexes. ATP-2 localizes to mitochondria and to cilia of male-specific neurons. in the male-specific CEM neurons ATP-2 colocalizes with PKD-2, the C. elegans homolog of human polycystin (PC)-2. [Source: WormBase]	ATP synthesis coupled proton transport, ATP biosynthetic process, embryonic development ending in birth or egg hatching, mating behavior, 	integral to membrane, proton-transporting two-sector ATPase complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, hydrogen-exporting ATPase activity, phosphorylative mechanism, 
prmt-5	C34E10.5	Putative protein tag-251. [Source:Uniprot/SWISSPROT;Acc:P46580]	DNA repair, 	cytoplasm, 	methyltransferase activity, 
C34E10.11	C34E10.11	C34E10.11 [Source:RefSeq_peptide;Acc:NP_498113]	embryonic development ending in birth or egg hatching, 		
wrs-2	C34E10.4	wrs-2 encodes a tryptophanyl (W) tRNA synthetase predicted to be mitochondrial. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, peroxisome organization and biogenesis, tryptophanyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, peroxisomal membrane, 	ATP binding, nucleotide binding, protein binding, zinc ion binding, aminoacyl-tRNA ligase activity, tryptophan-tRNA ligase activity, 
cnd-1	C34E10.7	cnd-1 encodes a basic helix-loop-helix protein that is most closely related to the vertebrate NeuroD transcription factors. during development, CND-1 is predicted to function as a transcriptional regulator whose activity is required for several aspects of motor neuron fate specification, including cell division patterns, proper spatiotemporal expression of fate-specific markers, and normal axonal morphology and pathfinding. CND-1::GFP expression begins in early embryogenesis (<20 cells) in four AB descendants and then continues in mitotically active AB-derived neuronal precursors, unidentified nuclei during gastrulation and enclosure, and postmitotic neurons in the head and ventral cord. at hatching CND-1::GFP expression is visible in ventral cord neurons, but this expression disappears completely by the end of the first larval stage. CND-1::GFP does not appear to be expressed in any non-neuronal ectodermal cells, as its expression does not overlap with that of LIN-26. [Source: WormBase]	regulation of transcription, neuron differentiation, 	nucleus, 	transcription regulator activity, 
C34E10.8	C34E10.8	Uncharacterized protein C34E10.8. [Source:Uniprot/SWISSPROT;Acc:P46582]			
gop-1	C34E10.3	Uncharacterized protein gop-1. [Source:Uniprot/SWISSPROT;Acc:P46578]			
gop-2	C34E10.2	gop-2 encodes a member of the conserved hypothetical ATP binding protein family that affects embryonic viability, growth, and fertility. [Source: WormBase]	small GTPase mediated signal transduction, embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, protein binding, GTP binding, 
gop-3	C34E10.1	gop-3 encodes an ortholog of the mammalian CGI-51 (comparative gene identification-51) proteins that display a high degree of similarity to the Haemophilus influenza D15 protective surface antigen. loss of gop-3 activity via large-scale RNAi screens indicates that GOP-3 is required for embryonic and larval development, as well as for normal postembryonic growth rates. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	outer membrane, 	
C34E10.9	C34E10.9	Uncharacterized protein C34E10.9. [Source:Uniprot/SWISSPROT;Acc:P46583]			
hap-1	ZC395.7	yeast HAM (HydroxylAminoPurine sensitivity) related family member (hap-1) [Source:RefSeq_peptide;Acc:NP_498121]			hydrolase activity, 
gro-1	ZC395.6	abnormal GROwth rate family member (gro-1) [Source:RefSeq_peptide;Acc:NP_498122]	tRNA processing, reproduction, 	intracellular, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, zinc ion binding, nucleic acid binding, tRNA isopentenyltransferase activity, 
ZC395.5	ZC395.5	ZC395.5 [Source:RefSeq_peptide;Acc:NP_498123]			
ztf-8	ZC395.8	Zinc finger Transcription Factor family member (ztf-8) [Source:RefSeq_peptide;Acc:NP_498124]	biological_process, 	intracellular, 	toxin transporter activity, protein binding, zinc ion binding, nucleic acid binding, 
ZC395.4	ZC395.4	ZC395.4 [Source:RefSeq_peptide;Acc:NP_498125]	biological_process, 		
ZC395.10	ZC395.10	Uncharacterized protein ZC395.10. [Source:Uniprot/SWISSPROT;Acc:Q23280]	reproduction, 		
toc-1	ZC395.3	toc-1 encodes an integral membrane protein with similarity to divalent metal ion transporters. by homology, TOC-1 is predicted to function in regulation of intracellular metal ion (particularly zinc) homeostasis. toc-1 is the upstream gene in an operon with clk-1, a timing gene that is necessary for ubiquinone biosynthesis. RNAi experiments directed against toc-1 sequences result in egg-laying defects, abnormal body coloration, retarded postembryonic growth rates, and generally sick animals. [Source: WormBase]	cation transport, positive regulation of growth rate, 	membrane, 	cation transmembrane transporter activity, 
clk-1	ZC395.2	clk-1 encodes the C. elegans ortholog of COQ7/CAT5, a highly conserved demethoxyubiquinone (DMQ) hydroxylase that is necessary for the biosynthesis of ubiquinone (coenzyme Q, Q9) from 5-demethoxyubiquinone (DMQ9). in C. elegans, CLK-1 activity is required for normal physiological rates of growth, development, behavior, and aging, as well as for normal brood sizes. [Source: WormBase]	ubiquinone biosynthetic process, protein metabolic process, determination of adult life span, 		oxidoreductase activity, transition metal ion binding, molecular_function, 
ZC395.11	ZC395.11	ZC395.11 [Source:RefSeq_peptide;Acc:NP_498129]			
T15B12.1	T15B12.1	T15B12.1b [Source:RefSeq_peptide;Acc:NP_001033372]			
T15B12.t1	T15B12.t1				
T15B12.2	T15B12.2	T15B12.2 [Source:RefSeq_peptide;Acc:NP_498132]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F52C9.5	F52C9.5	Uncharacterized protein F52C9.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10125]			
F52C9.t1	F52C9.t1				
F52C9.7	F52C9.7	F52C9.7 [Source:RefSeq_peptide;Acc:NP_498134]	electron transport, response to oxidative stress, positive regulation of embryonic development, 		catalase activity, 
pqe-1	F52C9.8	Putative RNA exonuclease pqe-1 (PolyQ enhancer protein 1). [Source:Uniprot/SWISSPROT;Acc:Q10124]		intracellular, 	exonuclease activity, 
F52C9.3	F52C9.3	Uncharacterized protein F52C9.3. [Source:Uniprot/SWISSPROT;Acc:Q10123]	protein kinase C activation, 		diacylglycerol kinase activity, 
F52C9.1	F52C9.1	Uncharacterized WD repeat protein F52C9.1. [Source:Uniprot/SWISSPROT;Acc:Q10122]			
ZK121.2	ZK121.2	ZK121.2 [Source:RefSeq_peptide;Acc:NP_498142]			protein binding, nucleic acid binding, 
glrx-21	ZK121.1	GLutaRedoXin family member (glrx-21) [Source:RefSeq_peptide;Acc:NP_001040892]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
Y32H12A.2	Y32H12A.2	Y32H12A.2 [Source:RefSeq_peptide;Acc:NP_498144]			zinc ion binding, 
Y32H12A.9	Y32H12A.9	Y32H12A.9 [Source:RefSeq_peptide;Acc:NP_871709]			
Y32H12A.1	Y32H12A.1	Y32H12A.1 [Source:RefSeq_peptide;Acc:NP_498145]			
dhs-9	Y32H12A.3	dhs-9 encodes a member of the short-chain dehydrogenases/reductases family (SDR). [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
Y32H12A.4	Y32H12A.4	Y32H12A.4 [Source:RefSeq_peptide;Acc:NP_498147]	regulation of signal transduction, regulation of phosphoprotein phosphatase activity, embryonic development ending in birth or egg hatching, 		protein binding, protein phosphatase inhibitor activity, 
Y32H12A.5	Y32H12A.5	Y32H12A.5 [Source:RefSeq_peptide;Acc:NP_498148]		integral to membrane, 	
Y32H12A.6	Y32H12A.6	Y32H12A.6 [Source:RefSeq_peptide;Acc:NP_498149]	electron transport, 		iron ion binding, oxidoreductase activity, electron carrier activity, FMN binding, 
Y32H12A.7	Y32H12A.7	Y32H12A.7 [Source:RefSeq_peptide;Acc:NP_498150]	ubiquinone biosynthetic process, 		
Y32H12A.8	Y32H12A.8	Y32H12A.8 [Source:RefSeq_peptide;Acc:NP_498151]		proteinaceous extracellular matrix, 	
W03A5.2	W03A5.2	W03A5.2 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:19580) (GGCX. OMIM:137167), which when mutated leads to disease. [Source: WormBase]			
W03A5.1	W03A5.1	W03A5.1 [Source:RefSeq_peptide;Acc:NP_498153]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
grl-22	W03A5.3	grl-22 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	cell adhesion, G-protein coupled receptor protein signaling pathway, 	integral to membrane, actin cytoskeleton, 	structural molecule activity, nutrient reservoir activity, histamine receptor activity, 
dnj-24	W03A5.7	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
W03A5.4	W03A5.4	W03A5.4 [Source:RefSeq_peptide;Acc:NP_498156]			
W03A5.5	W03A5.5	W03A5.5 [Source:RefSeq_peptide;Acc:NP_498157]			
W03A5.6	W03A5.6	W03A5.6 [Source:RefSeq_peptide;Acc:NP_498158]			
T24G10.2	T24G10.2	T24G10.2 [Source:RefSeq_peptide;Acc:NP_498159]	embryonic development ending in birth or egg hatching, 	nucleus, 	
F48E8.6	F48E8.6	Uncharacterized ribonuclease F48E8.6 (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:Q09568]			RNA binding, ribonuclease activity, 
skpt-1	F48E8.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains leucine-rich repeats. [Source: WormBase]			protein binding, 
F48E8.8	F48E8.8	F48E8.8 [Source:RefSeq_peptide;Acc:NP_001033364]			
paa-1	F48E8.5	paa-1 encodes a homolog of PR65, the structural subunit of protein phosphatase 2A (PP2A). PAA-1 protein is bound by SMG-5. PAA-1 is required in mass RNAi assays for embryonic viability, fertility, and cuticular integrity. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		binding, 
F48E8.4	F48E8.4	F48E8.4 [Source:RefSeq_peptide;Acc:NP_498163]			protein binding, 
F48E8.3	F48E8.3	F48E8.3 [Source:RefSeq_peptide;Acc:NP_498164]	electron transport, 		oxidoreductase activity, succinate dehydrogenase activity, 
F48E8.2	F48E8.2	F48E8.2 [Source:RefSeq_peptide;Acc:NP_498165]	embryonic development ending in birth or egg hatching, 		
lon-1	F48E8.1	The lon-1 gene encodes a protein belonging to the PR-protein superfamily that is a target of DBL-1 (TGF-beta) signaling, and that regulates polyploidization and body length. [Source: WormBase]	biological_process, negative regulation of multicellular organism growth, transforming growth factor beta receptor signaling pathway, 	extracellular region, 	protein binding, 
R02F2.6	R02F2.6	R02F2.6 [Source:RefSeq_peptide;Acc:NP_498168]			
R02F2.5	R02F2.5	R02F2.5 [Source:RefSeq_peptide;Acc:NP_498169]			protein binding, 
R02F2.7	R02F2.7	R02F2.7 [Source:RefSeq_peptide;Acc:NP_498170]	growth, 		
R02F2.4	R02F2.4	R02F2.4 encodes a protein with six chitin-binding peritrophin-A domains. R02F2.4 transcripts are enriched during oogenesis. like CEJ-1 and CPG-2, R02F2.4 might participate in eggshell synthesis and early embryonic development, and R02F2.4's multiple peritrophin-A domains might enable mechanical cross-linking of chitin. however, R02F2.4 has no obvious function in mass RNAi assays. while R02F2.4 is more closely similar to CPG-2 than CEJ-1, it may be less strongly expressed (since it has substantially fewer ESTs) and thus be less important in development. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	chitin binding, 
R02F2.2	R02F2.2	Uncharacterized protein R02F2.2. [Source:Uniprot/SWISSPROT;Acc:Q21653]	intracellular signaling cascade, regulation of Rho protein signal transduction, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
R02F2.8	R02F2.8	R02F2.8 [Source:RefSeq_peptide;Acc:NP_498173]	amino acid transport, 	membrane, 	
R02F2.9	R02F2.9	R02F2.9 [Source:RefSeq_peptide;Acc:NP_498174]			
R02F2.1	R02F2.1	R02F2.1a [Source:RefSeq_peptide;Acc:NP_498176]			protein binding, 
D1044.7	D1044.7	D1044.7 [Source:RefSeq_peptide;Acc:NP_498177]			
pqn-25	D1044.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
nekl-4	D1044.8	D1044.8 [Source:RefSeq_peptide;Acc:NP_498178]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, binding, 
D1044.4	D1044.4	Uncharacterized protein D1044.4. [Source:Uniprot/SWISSPROT;Acc:P41952]			
D1044.5	D1044.5	Uncharacterized protein D1044.5. [Source:Uniprot/SWISSPROT;Acc:P41953]			
D1044.2	D1044.2	EGF-like domain-containing protein D1044.2 precursor. [Source:Uniprot/SWISSPROT;Acc:P41950]	cell-matrix adhesion, 		calcium ion binding, 
D1044.6	D1044.6	Uncharacterized protein D1044.6. [Source:Uniprot/SWISSPROT;Acc:P41954]			
D1044.1	D1044.1	Uncharacterized kinase-like protein D1044.1. [Source:Uniprot/SWISSPROT;Acc:P41949]			
F09F7.5	F09F7.5	F09F7.5b [Source:RefSeq_peptide;Acc:NP_498187]			protein binding, 
F09F7.6	F09F7.6	F09F7.6 [Source:RefSeq_peptide;Acc:NP_498189]			
F09F7.7	F09F7.7	F09F7.7a [Source:RefSeq_peptide;Acc:NP_741141]	embryonic development ending in birth or egg hatching, 		
F09F7.4	F09F7.4	F09F7.4a [Source:RefSeq_peptide;Acc:NP_741143]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, 
F09F7.3	F09F7.3	F09F7.3 [Source:RefSeq_peptide;Acc:NP_498192]	transcription, positive regulation of growth rate, 		DNA binding, DNA-directed RNA polymerase activity, 
mlc-3	F09F7.2	mlc-3 encodes an essential myosin light chain. large-scale RNAi screens indicate that mlc-3 activity is required for both embryonic and postembryonic development, as well as for normal locomotion and egg laying. [Source: WormBase]	oviposition, 		calcium ion binding, 
nspb-12	F09F7.8	Nematode Specific Peptide family, group B family member (nspb-12) [Source:RefSeq_peptide;Acc:NP_498194]			protein binding, 
F09F7.1	F09F7.1	F09F7.1 [Source:RefSeq_peptide;Acc:NP_498195]			
F56D2.5	F56D2.5	F56D2.5 [Source:RefSeq_peptide;Acc:NP_498196]			protein binding, zinc ion binding, 
F56D2.8	F56D2.8	F56D2.8 [Source:RefSeq_peptide;Acc:NP_498197]			
uev-2	F56D2.4	uev-2 encodes a ubiquitin-conjugating enzyme (UBC or E2) variant that contains the characteristic UBC motif, but lacks the critical active-site cysteine residue necessary for catalytic activity. as loss of UEV-2 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UEV-2 in C. elegans development and/or behavior is not yet known. based on similarity to Saccharomyces cerevisiae and human proteins, however, UEV-2 may play a role in cell cycle control or response to stress or DNA damage. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
F56D2.3	F56D2.3	F56D2.3 [Source:RefSeq_peptide;Acc:NP_498199]			
F56D2.2	F56D2.2	F56D2.2 [Source:RefSeq_peptide;Acc:NP_498200]			protein binding, zinc ion binding, 
F56D2.6	F56D2.6	The F56D2.6 gene encodes a DEAH helicase orthologous to the Drosophila CG11107, the human DDX15, and the S. cerevisiae PRP43 proteins. [Source: WormBase]	positive regulation of growth rate, 	myosin complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, motor activity, 
ucr-1	F56D2.1	Uncharacterized peptidase-like protein F56D2.1. [Source:Uniprot/SWISSPROT;Acc:P98080]	proteolysis, embryonic development ending in birth or egg hatching, 		zinc ion binding, metalloendopeptidase activity, subtilase activity, 
ced-6	F56D2.7	ced-6 encodes an Src homology (SH) 3 and phosphotyrosine-binding (PTB) domain-containing adaptor protein, orthologous to human CED-6/GULP, that is required for cell corpse engulfment during apoptosis. CED-6 is bound by the phosphotyrosine binding motif in the cytoplasmic tail of the transmembrane protein CED-1, and and within phagocytic cells this interaction may be part of a signal transduction pathway that promotes apoptotic cell engulfment. [Source: WormBase]	regulation of transcription, DNA-dependent, engulfment of apoptotic cell, 	nucleus, cellular_component, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
C05D2.10	C05D2.10	C05D2.10a [Source:RefSeq_peptide;Acc:NP_498205]			
C05D2.6	C05D2.6	C05D2.6 encodes an unfamiliar protein, with no known non-nematode homologs, that specifically binds GOA-1 in yeast two-hybrid assays. C05D2.6 is expressed in several head and tail neurons, pharyngeal muscle, intestine, distal tip cell of the gonad, with weak expression in the ventral nerve cord. C05D2.6 is required for fertility in RNAi assays, with a phenotype of either sterile progeny or reduced brood size for C05D2.6(RNAi) in an rrf-3 mutant background. [Source: WormBase]	reproduction, 		
gak-1	C05D2.5	gak-1 encodes a protein that contains an AT hook motif, a DNA-binding domain that shows a preference for binding stretches of A/T base pairs. GAK-1 appears to play a role in meiotic chromosome segregation, as overexpression results in post-prophase I chromosome segregation abnormalities, and a corresponding increase in embryonic lethality and the proportion of genotypically XO males in an otherwise self-fertile, XX hermaphrodite population. loss of gak-1 function via RNA-mediated interference (RNAi) results in sterility in the injected hermaphrodites, suggesting a possible role in germline development as well. gak-1 expression is enhanced in the germline, although its precise subcellular localization has not been reported. [Source: WormBase]	reproduction, 		protein binding, 
C05D2.8	C05D2.8	C05D2.8 [Source:RefSeq_peptide;Acc:NP_498208]			
bas-1	C05D2.4	bas-1 encodes a serotonin- and dopamine-synthetic aromatic amino acid decarboxylase (AAADC) that is required for the synthesis of serotonin from 5-hydroxytryptophan in vivo. mutations of bas-1 impair the turning step in male mating, the migration of AVM, SDQR, ALM, and BDU neurons during development. [Source: WormBase]	regulation of transcription, DNA-dependent, amino acid and derivative metabolic process, carboxylic acid metabolic process, 	intracellular, 	protein binding, transcription factor activity, carboxy-lyase activity, pyridoxal phosphate binding, 
C05D2.3	C05D2.3	C05D2.3 generally resembles aromatic-L-amino-acid/L-histidine decarboxylases. however, its predicted protein sequence lacks six residues critical for AADC function. C05D2.3 is dispensable in mass RNAi assays. [Source: WormBase]	amino acid and derivative metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, 
daf-4	C05D2.1	daf-4 encodes a transmembrane serine/threonine kinase that is the sole C. elegans ortholog of the type II transforming growth factor-beta (TGF-b) receptors. DAF-4 activity is required for several biological processes, including entry into and exit from the dauer larval stage, body size determination, male tail patterning, egg laying, chemosensory neuron specification, and increased thermotolerance. in regulating dauer larval development, DAF-4 acts in parallel with the insulin signaling pathway and likely partners with the DAF-1 type I TGF-b receptor to receive a signal from the DAF-7 TGF-b ligand. in body size determination and male tail patterning, DAF-4 likely partners with the SMA-6 type I receptor and responds to signals from the DBL-1 ligand. DAF-4 expression begins in late embryogenesis and continues through larval and adult stages. consistent with its role in many developmental processes, DAF-4 localizes to the plasma membrane of several tissues including head and tail neurons, the pharynx, intestine, ventral nerve cord, tail hypodermis, and body wall muscle. [Source: WormBase]	protein amino acid phosphorylation, transmembrane receptor protein serine/threonine kinase signaling pathway, nematode larval development, dauer larval development, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, receptor signaling protein serine/threonine kinase activity, 
NR_002635.1	C05D2.11	C05D2.11, miscRNA [Source:RefSeq_dna;Acc:NR_002635]			
ckk-1	C05H8.1	ckk-1 encodes a calcium and calmodulin-dependent protein kinase kinase family member that affects CRE-dependent transcription in neurons. [Source: WormBase]	protein amino acid phosphorylation, calcium-mediated signaling, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
NR_003425.1	C05H8.3	C05H8.3, snoRNA [Source:RefSeq_dna;Acc:NR_003425]			
sdz-21	F54E7.5	SKN-1 Dependent Zygotic transcript family member (sdz-21) [Source:RefSeq_peptide;Acc:NP_498215]			nutrient reservoir activity, 
F54E7.6	F54E7.6	F54E7.6 [Source:RefSeq_peptide;Acc:NP_498216]			
par-3	F54E7.3	par-3 encodes a PDZ domain-containing protein orthologous to mammalian atypical PKC isotype-specific interacting protein (ASIP) and Drosophila Bazooka. PAR-3 is required maternally for polarization of the zygote along the anterior-posterior (A-P) axis. PAR-3, PAR-6, and PKC-3 form a complex that localizes to the anterior cytoplasmic cortex of the one- and two-cell embryo. this localization is regulated spatially by PAR-2, which segregates to the posterior cortex. [Source: WormBase]	cell adhesion, embryonic development ending in birth or egg hatching, establishment of mitotic spindle localization, gonad development, gastrulation, establishment and/or maintenance of cell polarity, establishment of cell polarity, 	integral to membrane, cytoplasm, 	protein binding, 
F54E7.9	F54E7.9	F54E7.9 [Source:RefSeq_peptide;Acc:NP_498219]	metabolic process, 		N-acetyltransferase activity, 
F54E7.8	F54E7.8	F54E7.8 [Source:RefSeq_peptide;Acc:NP_498220]			protein binding, 
rps-12	F54E7.2	rps-12 encodes a small ribosomal subunit S12 protein. by homology, RPS-12 is predicted to function in protein biosynthesis. in C. elegans, RPS-12 activity is required for embryonic and germline development, normal movement, and the overall health of the animal. [Source: WormBase]	translation, ribosome biogenesis and assembly, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, ribonucleoprotein complex, 	structural constituent of ribosome, 
NR_003428.1	F54E7.10	F54E7.10, snoRNA [Source:RefSeq_dna;Acc:NR_003428]			
NR_003429.1	F54E7.11	F54E7.11, snoRNA [Source:RefSeq_dna;Acc:NR_003429]			
pst-2	F54E7.1	Solute carrier family 35 member B3 homolog. [Source:Uniprot/SWISSPROT;Acc:Q20787]			nucleotide-sugar transmembrane transporter activity, 
rcn-1	F54E7.7	rcn-1 encodes a calcipressin, which binds and inhibits calcineurin. RCN-1's orthologs include yeast Rcn1p and human DSCR1 (OMIM:602917. overexpressed in Down syndrome and Alzheimer disease). rcn-1 is expressed in hypodermal seam cells, various neurons, vulval epithelial and muscle cells, marginal pharyngeal cells, and in the male tail. rcn-1 transcription is regulated by TAX-6, and RCN-1 binds TAX-6 protein if free Ca[2+] is present. RCN-1 overexpression, like calcineurin deficiency, causes defects in body size, cuticle thickness, fertility, growth rate, and serotonin-resistance in egg-laying. [Source: WormBase]	calcium-mediated signaling, 		protein binding, 
B0336.6	B0336.6	B0336.6 encodes an Abl interactor ortholog, with an SH3 domain, required for embryonic development. mammalian Abl interactors are associated with synaptosomes, growth cone particles, and macropinocytic vesicles, and may regulate Rac-dependent cytoskeletal reorganization and Abl kinase activity. B0336.6's orthologs include human SSH3BP1 (ABI1. OMIM:603050, mutated in acute myeloid leukemia), ABI-2 (OMIM:606442), and NESH (OMIM:606363). B0336.6 binds UNC-53 in two-hybrid screens. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
B0336.5	B0336.5	B0336.5b [Source:RefSeq_peptide;Acc:NP_001033344]			protein binding, 
B0336.13	B0336.13	Transcription initiation factor IIA small chain homolog. [Source:Uniprot/SWISSPROT;Acc:Q9BIB4]	transcription initiation from RNA polymerase II promoter, 	transcription factor TFIIA complex, 	RNA polymerase II transcription factor activity, 
B0336.7	B0336.7	B0336.7 encodes, by alternative splicing, two isoforms of a protein with a THAP or THAP-like domain. other proteins with such domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. B0336.7 is expressed in intestine and amphid neurons. [Source: WormBase]			protein binding, nucleic acid binding, 
lgg-3	B0336.8	lgg-3 encodes a hydrophilic protein that is orthologous to Saccharomyces cerevisiae autophagy protein Apg12p. by homology, LGG-3 is predicted to function as a modifier protein required for a protein conjugation system essential for autophagy. in the context of this conjugation system, LGG-3 is predicted to interact with Apg7p and Apg5p homologs (encoded by M7.5 and Y71G12B.12a, respectively) to effect bulk degradation of cytoplasmic components under conditions of starvation or cellular remodeling. free LGG-3 is predicted to localize to the cytoplasm, while LGG-3 conjugated to the Apg5p homolog is predicted to associate with membrane compartments. loss of lgg-3 activity via large-scale RNAi screens results in no obvious developmental or behavioral abnormalities. [Source: WormBase]	autophagic vacuole formation, 	cytoplasm, 	
rgs-5	B0336.4	rgs-5 encodes a regulator of G protein signaling. by homology, RGS-5 is predicted to function as a GTPase-activating protein that binds G protein alpha subunits and negatively regulates heterotrimeric G protein signaling. loss of rgs-5 activity via RNAi or a deletion mutation results in no obvious defects, and likewise, rgs-5 overexpression has no measurable effect on egg-laying behavior, locomotion, or viability. an rgs-5 transcriptional reporter is expressed in head neurons in larvae and adults. [Source: WormBase]			signal transducer activity, 
swp-1	B0336.9	swp-1 encodes a protein containing two SWAP (Suppressor-of-White-APricot splicing regulator) domains that have been implicated in RNA binding. orthologous to C. briggsae CBG09000. [Source: WormBase]	RNA processing, 		RNA binding, protein binding, 
rpl-23	B0336.10	rpl-23 encodes a large ribosomal subunit L23 protein. [Source: WormBase]	regulation of transcription, DNA-dependent, translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
B0336.11	B0336.11	B0336.11a [Source:RefSeq_peptide;Acc:NP_498232]		endoplasmic reticulum, 	calcium ion binding, structural molecule activity, 
B0336.12	B0336.12	B0336.12 [Source:RefSeq_peptide;Acc:NP_498233]			
B0336.3	B0336.3	B0336.3 [Source:RefSeq_peptide;Acc:NP_498234]	proteolysis, positive regulation of growth rate, 		nucleotide binding, zinc ion binding, nucleic acid binding, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
arf-1.2	B0336.2	arf-1.2 encodes an ADP-ribosylation factor homolog required in vivo for embryonic development, fertility, locomotion, vulval development, and cuticular synthesis. ARF proteins are N-myristoylated GTPases that regulate membrane traffic and the actin cytoskeleton, and that activate both phospholipase D1 (PLD1) and phosphatidylinositol 4-phosphate 5-kinase. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, embryonic development ending in birth or egg hatching, reproduction, gamete generation, 	intracellular, endoplasmic reticulum, 	protein binding, GTP binding, 
wrm-1	B0336.1	wrm-1 encodes, along with bar-1 and hmp-2, one of three C. elegans beta-catenin-like proteins. during development, wrm-1 functions in noncanonical Wnt signaling pathways that specify cell fates in the early embryo, the somatic gonad, and postembryonic hypodermal lineages. [Source: WormBase]	embryonic development ending in birth or egg hatching, polarity specification of proximal/distal axis, 		
egg-1	B0244.8	EGG sterile (unfertilizable) family member (egg-1) [Source:RefSeq_peptide;Acc:NP_498237]	reproduction, 		
B0244.9	B0244.9	B0244.9 [Source:RefSeq_peptide;Acc:NP_498238]	translation, protein secretion, 	membrane, intracellular, ribosome, 	structural constituent of ribosome, 
B0244.7	B0244.7	Putative G-protein coupled receptor B0244.7. [Source:Uniprot/SWISSPROT;Acc:Q09966]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
B0244.10	B0244.10	Putative G-protein coupled receptor B0244.10. [Source:Uniprot/SWISSPROT;Acc:Q960A0]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
B0244.6	B0244.6	Putative G-protein coupled receptor B0244.6. [Source:Uniprot/SWISSPROT;Acc:Q09965]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
B0244.5	B0244.5	Putative G-protein coupled receptor B0244.5. [Source:Uniprot/SWISSPROT;Acc:Q10909]			rhodopsin-like receptor activity, 
B0244.4	B0244.4	Putative G-protein coupled receptor B0244.4. [Source:Uniprot/SWISSPROT;Acc:Q09964]	neurotransmitter transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, rhodopsin-like receptor activity, 
ida-1	B0244.2	ida-1 encodes a protein tyrosine phosphatase-like receptor, orthologous to the mammalian type I diabetes autoantigens IA-2 and phogrin that are expressed in dense core vesicles of neuroendocrine tissue and involved in regulated protein secretion. in C. elegans, IDA-1 appears to be required for regulating presynaptic neurotransmission and in particular, for the neuropeptidergic control of egg-laying. ida-1 interacts genetically with unc-31 and unc-64, which encode proteins required for dense core vesicle fusion and exocytosis. ida-1 expression is detected in a subset of neurons in the anterior nerve ring, the ventral nerve cord, the tail, and the vulva, including the VC vulval motoneurons and the HSN egg-laying neurons. ida-1 is also detected in the vulval uv1 cells, non-neuronal cells that contain neurosecretory-like vesicles. [Source: WormBase]	proteolysis, regulation of transcription, protein amino acid dephosphorylation, dephosphorylation, exocytosis, 	nucleus, 	subtilase activity, transcription coactivator activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
B0244.t3	B0244.t3				
B0244.t1	B0244.t1				
B0244.11	B0244.11	B0244.11 [Source:RefSeq_peptide;Acc:NP_498246]			
B0244.t2	B0244.t2				
Y37B11A.1	Y37B11A.1	Y37B11A.1 is orthologous to the human gene COLLAGEN TYPE VI, ALPHA 3 CHAIN (COL6A3. OMIM:120250), which when mutated leads to disease. [Source: WormBase]			extracellular matrix structural constituent, 
Y37B11A.2	Y37B11A.2	Y37B11A.2 [Source:RefSeq_peptide;Acc:NP_498248]	DNA replication, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		nucleotide binding, DNA binding, nucleic acid binding, DNA-directed DNA polymerase activity, 
Y37B11A.t2	Y37B11A.t2				
Y37B11A.3	Y37B11A.3	Y37B11A.3 [Source:RefSeq_peptide;Acc:NP_498249]	transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrial inner membrane, 	binding, 
polq-1	W03A3.2	POLQ (DNA polymerase theta) homolog family member (polq-1) [Source:RefSeq_peptide;Acc:NP_498250]	DNA replication, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, DNA-directed DNA polymerase activity, 
ceh-10	W03A3.1	ceh-10 encodes a member of the Paired-like class of homeodomain proteins. the CEH-10 homeodomain is closely related to the homeodomains of two vertebrate retina proteins (Chx10 from mice and Vsx-1 from goldfish). ceh-10 is required for CAN cell fate specification and migration, complete loss of ceh-10 function results in failure of CAN cell migration and loss of expression of CEH-23 and CEH-10 itself in the CAN and AIY interneurons. CEH-10, along with TTX-3 and CEH-23, constitutes a regulatory cascade of transcription factors that controls all sub-type specific features of the AIY interneurons. [Source: WormBase]	regulation of transcription, DNA-dependent, cell fate specification, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
him-10	R12B2.4	him-10 encodes a coiled coil protein that is structurally related to the Nuf2 kinetochore proteins of Schizosaccharaomyces pombe, Saccharomyces cerevisiae, and humans. in C. elegans, him-10 activity is essential for the proper structure and function of mitotic and meiotic kinetochores and thus, for proper attachment and segregation of chromosomes during mitosis and meiosis. during mitosis, HIM-10 localizes to the kinetochore region of the kinetochore-centromere complex from prophase to anaphase. during oocytes meiosis, HIM-10 surrounds chromosomes in diakinesis and prometaphase of meiosis I and meiosis II, while during male meiosis, HIM-10 surrounds spermatocyte chromosomes during metaphase I, anaphase I, and metaphase II. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
R12B2.3	R12B2.3	R12B2.3 [Source:RefSeq_peptide;Acc:NP_498254]	embryonic development ending in birth or egg hatching, 		
R12B2.2	R12B2.2	R12B2.2 [Source:RefSeq_peptide;Acc:NP_498255]			
R12B2.7	R12B2.7	R12B2.7 [Source:RefSeq_peptide;Acc:NP_741150]			
sma-4	R12B2.1	The sma-4 gene encodes a homolog of human DPC4, which when mutated leads to pancreatic carcinoma (OMIM:260350). [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, tail tip morphogenesis, 	intracellular, 	protein binding, 
R12B2.8	R12B2.8	R12B2.8 [Source:RefSeq_peptide;Acc:NP_001033369]			
mdt-15	R12B2.5	RNA polymerase II mediator complex subunit 15 (Mediator complex subunit 15). [Source:Uniprot/SWISSPROT;Acc:Q21955]	potassium ion transport, nucleotide-excision repair, positive regulation of growth rate, 	nucleus, voltage-gated potassium channel complex, 	ATP binding, protein binding, DNA binding, ATP-dependent DNA helicase activity, voltage-gated potassium channel activity, 
R12B2.6	R12B2.6	Uncharacterized protein R12B2.6. [Source:Uniprot/SWISSPROT;Acc:P45898]			
W04D12.1	W04D12.1	W04D12.1 [Source:RefSeq_peptide;Acc:NP_498259]			
F01F1.7	F01F1.7	F01F1.7 [Source:RefSeq_peptide;Acc:NP_498260]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
cct-6	F01F1.8	eukaryotic cytosolic chaperonin. affects viability and fertility, and is expressed in various muscle and neuronal cells: near the pharynx, near the anal sphincter, in the ventral nerve cord and the nerve ring. occasionally the expression is visible in hypodermal cells and in some vulval cells. [Source: WormBase]	protein folding, cellular protein metabolic process, embryonic development ending in birth or egg hatching, 		ATP binding, protein binding, unfolded protein binding, 
alh-9	F01F1.6	Putative aldehyde dehydrogenase family 7 member A1 homolog (EC 1.2.1.3) (ALH-9). [Source:Uniprot/SWISSPROT;Acc:P46562]	metabolic process, aldehyde metabolic process, 	cellular_component, 	oxidoreductase activity, aldehyde dehydrogenase (NAD) activity, 
dpf-4	F01F1.5	Dipeptidyl Peptidase Four (IV) family member (dpf-4) [Source:RefSeq_peptide;Acc:NP_498264]	proteolysis, 		serine-type peptidase activity, 
F01F1.9	F01F1.9	Putative aspartyl aminopeptidase (EC 3.4.11.21). [Source:Uniprot/SWISSPROT;Acc:Q19087]	proteolysis, 	vacuole, 	aminopeptidase I activity, 
rabn-5	F01F1.4	RABaptiN (rab effector) family member (rabn-5) [Source:RefSeq_peptide;Acc:NP_498266]			protein binding, zinc ion binding, 
eng-1	F01F1.10	F01F1.10 encodes two isoforms of an endo-beta-N-acetylglucosaminidase (ENGase, or Endo-M). recombinant F01F1.10 has ENGase activity when expressed in E. coli, with specificity mainly for high-mannose type oligosaccharides, and optimal activity on Man8GlcNAc2. F01F1.10 has no obvious phenotype in mass RNAi screens. F01F1.10 is predicted to catabolize free oligosaccharides in the cytosol. [Source: WormBase]			
F01F1.15	F01F1.15	F01F1.15 [Source:RefSeq_peptide;Acc:NP_498268]			
F01F1.11	F01F1.11	F01F1.11 [Source:RefSeq_peptide;Acc:NP_498269]	embryonic development ending in birth or egg hatching, 		oxidoreductase activity, transition metal ion binding, 
F01F1.3	F01F1.3	F01F1.3 [Source:RefSeq_peptide;Acc:NP_498270]	embryonic development ending in birth or egg hatching, 		
F01F1.12	F01F1.12	The F01F1.12 gene encodes a homolog of the human gene ADHUB, which when mutated leads to fructosemia (OMIM:229600). [Source: WormBase]	glycolysis, biological_process, 		protein binding, fructose-bisphosphate aldolase activity, identical protein binding, 
F01F1.13	F01F1.13	F01F1.13 [Source:RefSeq_peptide;Acc:NP_498272]			
F01F1.2	F01F1.2	F01F1.2 [Source:RefSeq_peptide;Acc:NP_498273]			
F01F1.1	F01F1.1	F01F1.1a [Source:RefSeq_peptide;Acc:NP_498274]			
F01F1.14	F01F1.14	F01F1.14 [Source:RefSeq_peptide;Acc:NP_498276]			
C28H8.5	C28H8.5	Uncharacterized protein C28H8.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09244]			
C28H8.7	C28H8.7	Uncharacterized protein C28H8.7. [Source:Uniprot/SWISSPROT;Acc:Q09245]			
C28H8.8	C28H8.8	Uncharacterized protein C28H8.8. [Source:Uniprot/SWISSPROT;Acc:Q09246]			
tag-327	C28H8.6	Putative protein tag-327. [Source:Uniprot/SWISSPROT;Acc:Q09476]	growth, 		zinc ion binding, nucleic acid binding, 
C28H8.13	C28H8.13	C28H8.13 [Source:RefSeq_peptide;Acc:NP_001033351]			
C28H8.9	C28H8.9	Uncharacterized zinc finger protein C28H8.9. [Source:Uniprot/SWISSPROT;Acc:Q09477]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
C28H8.4	C28H8.4	Putative ER lumen protein retaining receptor C28H8.4. [Source:Uniprot/SWISSPROT;Acc:Q09473]	protein retention in ER, 	integral to membrane, 	ER retention sequence binding, 
C28H8.3	C28H8.3	Uncharacterized helicase C28H8.3 (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:Q09475]	phosphate metabolic process, 	cytoplasm, 	ATP binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, magnesium ion binding, inorganic diphosphatase activity, 
C28H8.11	C28H8.11	Putative tryptophan 2,3-dioxygenase (EC 1.13.11.11) (TO) (Tryptophan pyrrolase) (Tryptophanase) (Tryptophan oxygenase) (Tryptamin 2,3- dioxygenase) (TRPO). [Source:Uniprot/SWISSPROT;Acc:Q09474]	tryptophan metabolic process, positive regulation of growth rate, 		protein binding, tryptophan 2,3-dioxygenase activity, identical protein binding, 
C28H8.2	C28H8.2	Uncharacterized protein C28H8.2 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09243]			
dnc-2	C28H8.12	dnc-2 encodes a member of the dynamitin family that affects spindle alignment in polarized cells in early embryos, nuclear movement, spindle morphology, chromosome segregation, and pronuclear migration. [Source: WormBase]	microtubule-based process, embryonic development ending in birth or egg hatching, 	dynactin complex, 	protein binding, identical protein binding, 
C28H8.1	C28H8.1	C28H8.1 is orthologous to the human gene BCL7A (OMIM:601406), which when mutated leads to high-grade B-cell non-Hodgkin lymphoma. [Source: WormBase]			
zmp-1	EGAP1.3	Zinc MetalloProtease family member (zmp-1) [Source:RefSeq_peptide;Acc:NP_741156]	proteolysis, metabolic process, 	proteinaceous extracellular matrix, 	metal ion binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, catalytic activity, 
EGAP1.1	EGAP1.1	EGAP1.1 [Source:RefSeq_peptide;Acc:NP_498288]			
ubq-1	F25B5.4	Ubiquitin. [Source:Uniprot/SWISSPROT;Acc:P14792]	protein modification process, embryonic development ending in birth or egg hatching, 		protein binding, 
F25B5.5	F25B5.5	CDK5RAP1-like protein. [Source:Uniprot/SWISSPROT;Acc:Q09316]	regulation of cyclin-dependent protein kinase activity, 	cellular_component, 	catalytic activity, iron-sulfur cluster binding, molecular_function, 
F25B5.6	F25B5.6	Putative folylpolyglutamate synthase (EC 6.3.2.17) (Folylpoly-gamma- glutamate synthetase) (FPGS) (Tetrahydrofolate synthase) (Tetrahydrofolylpolyglutamate synthase). [Source:Uniprot/SWISSPROT;Acc:Q09509]	biosynthetic process, folic acid and derivative biosynthetic process, 		ATP binding, ligase activity, tetrahydrofolylpolyglutamate synthase activity, 
F25B5.3	F25B5.3	F25B5.3 is orthologous to the human gene NUCLEOTIDASE, 5-PRIME, CYTOSOLIC III (NT5C3. OMIM:606224), which when mutated leads to hemolytic anemia due to UMPH1 deficiency [Source: WormBase]	metabolic process, ciliary or flagellar motility, 	outer membrane-bounded periplasmic space, flagellin-based flagellum basal body, distal rod, P ring, 	structural molecule activity, 
F25B5.7	F25B5.7	F25B5.7 encodes an ortholog of Drosophila NONA and of human NONO (OMIM:300084) and SFPQ (OMIM: 605199). fly NONA and human NONO are putative DNA- or RNA-binding proteins required for normal rhythmic behaviors. fly NONA is also required for embryonic development and visual behavior, and forms a complex with the mRNA export factor NXF1. [Source: WormBase]	cell adhesion, morphogenesis of an epithelium, protein homooligomerization, 	membrane, 	nucleotide binding, nucleic acid binding, receptor activity, 
F25B5.2	F25B5.2	Uncharacterized protein F25B5.2. [Source:Uniprot/SWISSPROT;Acc:Q09314]	reproduction, 		
F25B5.1	F25B5.1	Uncharacterized protein F25B5.1. [Source:Uniprot/SWISSPROT;Acc:Q09313]			
mlp-1	T04C9.4	mlp-1 encodes a LIM domain-containing protein that is a member of the MLP/CRP family of muscle LIM domain proteins. [Source: WormBase]			zinc ion binding, 
frm-2	T04C9.6	FERM domain (protein4.1-ezrin-radixin-moesin) family member (frm-2) [Source:RefSeq_peptide;Acc:NP_001040869]		cytoplasm, cytoskeleton, extrinsic to membrane, 	cytoskeletal protein binding, 
T04C9.3	T04C9.3	T04C9.3 [Source:RefSeq_peptide;Acc:NP_498304]			
T04C9.2	T04C9.2	T04C9.2 [Source:RefSeq_peptide;Acc:NP_498305]			
T04C9.1	T04C9.1	T04C9.1 is orthologous to the human gene GRAF PROTEIN (GRAF. OMIM:605370), which when mutated leads to disease [Source: WormBase]	signal transduction, 	intracellular, 	
ZK328.4	ZK328.4	ZK328.4 [Source:RefSeq_peptide;Acc:NP_498307]			
eft-1	ZK328.2	eft-1 encodes an elongation factor 2 (EF-2)-like protein. by homology, EFT-1 is predicted to function as a GTPase required for the elongation step of protein synthesis. loss of eft-1 activity via large-scale RNAi indicates that eft-1 is an essential gene required for embryonic development, reproduction, and the overall health of the animal. eft-1 mRNA is detectable at all stages of C. elegans development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		GTP binding, GTPase activity, 
npp-10	ZK328.5	npp-10 is orthologous to the human gene NUCLEOPORIN, 98-KD (NUP98. OMIM:601021), which can promote leukemias (myelodysplastic syndromes, AML, or CML) when chromosomally rearranged. [Source: WormBase]	transport, embryonic development ending in birth or egg hatching, 	nuclear pore, 	protein binding, 
cyk-3	ZK328.1	cyk-3 encodes a functional ubiquitin C-terminal hydrolase required for embryonic viability and for cellular osmotic regulation. osmotic regulation defects in mutants contribute at least partially to cytokinesis defects in mutant embryos. [Source: WormBase]	ubiquitin cycle, ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 		calcium ion binding, ubiquitin thiolesterase activity, 
tbx-7	ZK328.8	tbx-7 encodes one of 21 C. elegans T-box transcription factors. in large-scale RNAi screens for early embryonic defects, loss of tbx-7 activity results in no obvious abnormalities. thus, the precise role of tbx-7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	transcription factor activity, molecular_function, 
ZK328.6	ZK328.6	Uncharacterized F-box protein ZK328.6. [Source:Uniprot/SWISSPROT;Acc:Q8TA81]			
ZK328.7	ZK328.7	Tetratricopeptide repeat protein 21 homolog (TPR repeat-containing protein 21 homolog). [Source:Uniprot/SWISSPROT;Acc:Q20255]			binding, 
F40H6.2	F40H6.2	Uncharacterized protein F40H6.2. [Source:Uniprot/SWISSPROT;Acc:Q20256]			
tbx-11	F40H6.4	tbx-11 encodes a T-box transcription factor that is orthologous to members of the Tbx2 subfamily of T-box transcription factors. by homology, TBX-11 is predicted to function in transcriptional regulation during cellular differentiation, potentially as both an activator and a repressor. however, as loss of tbx-11 function via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of tbx-11 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
F40H6.5	F40H6.5	Putative uncharacterized protein F40H6.5. [Source:Uniprot/SWISSPROT;Acc:Q09277]			sugar binding, 
F40H6.t1	F40H6.t1				
F40H6.1	F40H6.1	F40H6.1 [Source:RefSeq_peptide;Acc:NP_498319]			
F40H6.6	F40H6.6	F40H6.6 [Source:RefSeq_peptide;Acc:NP_001033362]	embryonic development ending in birth or egg hatching, 		
C05D10.2	C05D10.2	Putative serine/threonine-protein kinase C05D10.2 (EC 2.7.11.24). [Source:Uniprot/SWISSPROT;Acc:Q11179]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
C05D10.1	C05D10.1	Uncharacterized protein C05D10.1. [Source:Uniprot/SWISSPROT;Acc:Q11178]			
wht-1	C05D10.3	C05D10.3 encodes an ATP-binding cassette (ABC) transporter. C05D10.3 activity is required for efficient RNA interference (RNAi) of a germline-expressed target, pop-1. [Source: WormBase]	transport, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
C05D10.4	C05D10.4	Uncharacterized protein C05D10.4. [Source:Uniprot/SWISSPROT;Acc:Q11181]			
nmt-1	T17E9.2	Probable glycylpeptide N-tetradecanoyltransferase (EC 2.3.1.97) (Peptide N-myristoyltransferase) (Myristoyl-CoA:protein N- myristoyltransferase) (NMT). [Source:Uniprot/SWISSPROT;Acc:P46548]	N-terminal protein myristoylation, embryonic development ending in birth or egg hatching, 		glycylpeptide N-tetradecanoyltransferase activity, 
kin-18	T17E9.1	Serine/threonine-protein kinase SULU (EC 2.7.11.1) (Protein kinase 18). [Source:Uniprot/SWISSPROT;Acc:P46549]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, feeding behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y42G9A.4	Y42G9A.4	The Y42G9A.4 gene encodes an ortholog of the human gene MEVALONATE KINASE (MVK), which when mutated leads to mevalonicaciduria (OMIM:251170). [Source: WormBase]	metabolic process, isoprenoid biosynthetic process, phosphorylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, phosphotransferase activity, alcohol group as acceptor, kinase activity, mevalonate kinase activity, 
wht-7	Y42G9A.6	Y42G9A.6b [Source:RefSeq_peptide;Acc:NP_001040882]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
Y42G9A.3	Y42G9A.3	Y42G9A.3a [Source:RefSeq_peptide;Acc:NP_001022864]			protein binding, 
Y42G9A.2	Y42G9A.2	Y42G9A.2 [Source:RefSeq_peptide;Acc:NP_498331]			
Y42G9A.1	Y42G9A.1	Y42G9A.1 [Source:RefSeq_peptide;Acc:NP_498333]	biological_process, 		protein binding, 
F42A10.3	F42A10.3	F42A10.3 [Source:RefSeq_peptide;Acc:NP_498334]			protein binding, methyltransferase activity, 
F42A10.t1	F42A10.t1				
F42A10.t2	F42A10.t2				
nfm-1	F42A10.2	nfm-1 encodes a homolog of human merlin/schwannomin (NF2), which when mutated leads to neurofibromatosis, type 2 (OMIM:101000). at the same time, it is also homologous to the ERM family of cytoskeletal linkers with approximately equal similarity to ezrin, radixin and moesin. [Source: WormBase]		cytoplasm, cytoskeleton, extrinsic to membrane, 	protein binding, cytoskeletal protein binding, 
F42A10.9	F42A10.9	F42A10.9 [Source:RefSeq_peptide;Acc:NP_001022574]			
efk-1	F42A10.4	efk-1 encodes a calcium/calmodulin-dependent protein kinase with homology to human elongation factor-2 kinase. expressed in only a few cells in embryos. [Source: WormBase]	protein amino acid phosphorylation, 		ATP binding, protein serine/threonine kinase activity, 
F42A10.5	F42A10.5	F42A10.5 [Source:RefSeq_peptide;Acc:NP_498338]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, DNA binding, ligand-dependent nuclear receptor activity, 
abcf-3	F42A10.1	F42A10.1 [Source:RefSeq_peptide;Acc:NP_498339]	proteolysis, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
F42A10.6	F42A10.6	F42A10.6 [Source:RefSeq_peptide;Acc:NP_498340]			
F42A10.7	F42A10.7	F42A10.7 [Source:RefSeq_peptide;Acc:NP_498341]			
nas-28	F42A10.8	Zinc metalloproteinase nas-28 precursor (EC 3.4.24.21) (Nematode astacin 28). [Source:Uniprot/SWISSPROT;Acc:P98061]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
C23G10.5	C23G10.5	C23G10.5 [Source:RefSeq_peptide;Acc:NP_498343]			
C23G10.6	C23G10.6	C23G10.6 [Source:RefSeq_peptide;Acc:NP_498344]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C23G10.7	C23G10.7	Putative methyltransferase UPF0383 (EC 2.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q45EK7]			
rpn-2	C23G10.4	rpn-2 encodes a non-ATPase subunit of the 26S proteasome's 19S regulatory paritcle (RP) base subcomplex. RPN-2 is required for embryonic, larval, and germline development and by homology, is predicted to function in unfolding and recognition of protein substrates and/or recycling of ubiquitin moieties during protein degradation. RPN-2 is expressed sporadically at all stages of development in the pharynx, intestine, body wall muscle, somatic gonad, neurons, and hypodermis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	proteasome complex (sensu Eukaryota), 	protein binding, 
C23G10.8	C23G10.8	C23G10.8 [Source:RefSeq_peptide;Acc:NP_498348]	embryonic development ending in birth or egg hatching, 		protein binding, 
rps-3	C23G10.3	rps-3 encodes a small ribosomal subunit S3 protein that contains a KH RNA-binding domain and by homology,is predicted to function in protein biosynthesis. in C. elegans, RPS-3 activity is required for embryonic and germline development, as well as the overall health of the animal. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, small ribosomal subunit, ribosome, 	RNA binding, protein binding, structural constituent of ribosome, 
C23G10.2	C23G10.2	UPF0076 protein C23G10.2. [Source:Uniprot/SWISSPROT;Acc:Q10121]			
C23G10.1	C23G10.1	Putative serine/threonine-protein phosphatase C23G10.1 (EC 3.1.3.16). [Source:Uniprot/SWISSPROT;Acc:P48459]			hydrolase activity, 
C23G10.10	C23G10.10	C23G10.10 [Source:RefSeq_peptide;Acc:NP_498353]			
C23G10.11	C23G10.11	C23G10.11 [Source:RefSeq_peptide;Acc:NP_498354]	pathogenesis, cytolysis, 	outer membrane, 	
hot-4	T12A2.16	Homolog of Odr-2(Two) family member (hot-4) [Source:RefSeq_peptide;Acc:NP_741179]			
T12A2.15	T12A2.15	T12A2.15a [Source:RefSeq_peptide;Acc:NP_741181]			
T12A2.5	T12A2.5	T12A2.5 [Source:RefSeq_peptide;Acc:NP_498357]			
T12A2.3	T12A2.3	T12A2.3 [Source:RefSeq_peptide;Acc:NP_498358]			
T12A2.6	T12A2.6	T12A2.6 [Source:RefSeq_peptide;Acc:NP_498359]			
T12A2.7	T12A2.7	T12A2.7 [Source:RefSeq_peptide;Acc:NP_498360]	positive regulation of growth rate, 		
T12A2.8	T12A2.8	T12A2.8 [Source:RefSeq_peptide;Acc:NP_498361]	DNA repair, 		nuclease activity, 
T12A2.2	T12A2.2	Oligosaccharyl transferase subunit STT3 homolog. [Source:Uniprot/SWISSPROT;Acc:P46975]	protein amino acid glycosylation, embryonic development ending in birth or egg hatching, 	membrane, 	oligosaccharyl transferase activity, 
T12A2.1	T12A2.1	T12A2.1 [Source:RefSeq_peptide;Acc:NP_498363]	histidine catabolic process to glutamate and formamide, 	cytoplasm, 	hydrolase activity, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amides, 
srg-8	T12A2.9	Serpentine receptor class gamma-8 (Protein srg-8). [Source:Uniprot/SWISSPROT;Acc:P46565]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-9	T12A2.10	Serpentine receptor class gamma-9 (Protein srg-9). [Source:Uniprot/SWISSPROT;Acc:P46566]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-1	C18F10.4	Serpentine receptor class gamma-1 (Protein srg-1). [Source:Uniprot/SWISSPROT;Acc:P46570]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-2	C18F10.5	srg-2 encodes a predicted seven transmembrane domain G protein-coupled chemosensory receptor. an SRG-2::GFP fusion protein is expressed exclusively in the cilia of ASK sensory neurons, which are believed to be involved in chemotaxis to lysine and sensory regulation of egg laying. localization of SRG-2 to ASK cilia does not appear to depend upon wild-type activity of either odr-4 or odr-8. [Source: WormBase]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-4	T12A2.12	Serpentine receptor class gamma-4 (Protein srg-4). [Source:Uniprot/SWISSPROT;Acc:P54126]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-5	T12A2.11	Serpentine receptor class gamma-5 (Protein srg-5). [Source:Uniprot/SWISSPROT;Acc:P54127]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-6	T12A2.13	Serpentine receptor class gamma-6 (Protein srg-6). [Source:Uniprot/SWISSPROT;Acc:P54128]	signal transduction, UDP-glucose metabolic process, 	membrane, 	transmembrane receptor activity, cellulose synthase activity, 
srg-7	C18F10.8	Serpentine receptor class gamma-7 (Protein srg-7). [Source:Uniprot/SWISSPROT;Acc:P54129]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-3	C18F10.6	Serpentine receptor class gamma-3 (Protein srg-3). [Source:Uniprot/SWISSPROT;Acc:P46572]	signal transduction, 	membrane, 	transmembrane receptor activity, 
C18F10.9	C18F10.9	C18F10.9 [Source:RefSeq_peptide;Acc:NP_741183]			structural molecule activity, 
C18F10.2	C18F10.2	C18F10.2 [Source:RefSeq_peptide;Acc:NP_498373]			
C18F10.7	C18F10.7	C18F10.7a [Source:RefSeq_peptide;Acc:NP_498374]			
hmg-1.2	F47D12.4	High mobility group protein 1.2. [Source:Uniprot/SWISSPROT;Acc:Q09390]	regulation of transcription, DNA-dependent, gamete generation, 	nucleus, chromatin, 	DNA binding, 
F47D12.5	F47D12.5	Uncharacterized protein F47D12.5. [Source:Uniprot/SWISSPROT;Acc:Q09562]			protein binding, 
F47D12.6	F47D12.6	Uncharacterized protein F47D12.6. [Source:Uniprot/SWISSPROT;Acc:Q09391]			
F47D12.7	F47D12.7	Kelch repeat and BTB domain-containing protein F47D12.7. [Source:Uniprot/SWISSPROT;Acc:Q09563]			protein binding, 
F47D12.3	F47D12.3	Uncharacterized protein F47D12.3. [Source:Uniprot/SWISSPROT;Acc:Q09389]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F47D12.9	F47D12.9	Uncharacterized WD repeat protein F47D12.9. [Source:Uniprot/SWISSPROT;Acc:Q09392]			
gar-2	F47D12.1	gar-2 encodes a novel, seven transmembrane-domain G protein-coupled acetylcholine receptor (AChR). when expressed in Xenopus oocytes treated with acetylcholine, GAR-2 is able to activate a mammalian G protein-activated inwardly rectifying K+ (GIRK1) channel, but not other channels, suggesting that GAR-2 couples to G proteins of the Gi family. pharmacological analyses indicate, however, that GAR-2 exhibits properties distinct from mammalian muscarinic AChRs. gar-2 is expressed from mid-embryogenesis through adulthood with expression seen in ciliated head neurons, ventral cord neurons, and the HSN (hermaphrodite-specific neuron). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, UDP-glucose metabolic process, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, octopamine receptor activity, melanocortin receptor activity, cellulose synthase activity, 
F47D12.10	F47D12.10	F47D12.10 [Source:RefSeq_peptide;Acc:NP_001033363]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
C56G2.5	C56G2.5	C56G2.5 [Source:RefSeq_peptide;Acc:NP_498384]			
C56G2.4	C56G2.4	Uncharacterized protein C56G2.4 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09288]			
C56G2.7	C56G2.7	Protein ADRM1 homolog. [Source:Uniprot/SWISSPROT;Acc:Q09289]	cell adhesion, proteasome assembly, 	cytoplasm, nucleus, proteasome complex (sensu Eukaryota), 	protein binding, proteasome activator activity, 
let-767	C56G2.6	let-767 encodes a short-chain dehydrogenase, reported to be required for efficient cholesterol metabolism. LET-767 is predicted to be required for the metabolism of a sterol and to be mitochondrial. [Source: WormBase]	metabolic process, embryonic development, growth, reproduction, female genitalia development, regulation of hormone metabolic process, molting cycle, enterobactin biosynthetic process, 	cellular_component, 	oxidoreductase activity, alcohol dehydrogenase activity, molecular_function, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C56G2.9	C56G2.9	C56G2.9 [Source:RefSeq_peptide;Acc:NP_741189]			
C56G2.3	C56G2.3	Uncharacterized protein C56G2.3. [Source:Uniprot/SWISSPROT;Acc:Q09287]	tRNA processing, positive regulation of growth rate, 		RNA binding, tRNA methyltransferase activity, 
C56G2.1	C56G2.1	KH domain-containing protein C56G2.1. [Source:Uniprot/SWISSPROT;Acc:Q09285]	embryonic development ending in birth or egg hatching, biological_process, 	cellular_component, 	RNA binding, nucleic acid binding, 
C56G2.15	C56G2.15	C56G2.15 [Source:RefSeq_peptide;Acc:NP_498391]	metabolic process, 		N-acetyltransferase activity, transferase activity, transferring acyl groups, 
thoc-2	C16A3.8	Temporarily Assigned Gene name family member (tag-213) [Source:RefSeq_peptide;Acc:NP_498392]	embryonic development ending in birth or egg hatching, 		protein binding, 
rps-13	C16A3.9	rps-13 encodes a small ribosomal subunit S13 protein. by homology, RPS-13 is predicted to function in protein biosynthesis. in C. elegans, RPS-13 activity is required for embryonic and germline development. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_002636.1	C16A3.11	C16A3.11, snoRNA [Source:RefSeq_dna;Acc:NR_002636]			
tag-182	C16A3.7	Temporarily Assigned Gene name family member (tag-182) [Source:RefSeq_peptide;Acc:NP_498394]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, nucleic acid binding, transcription factor activity, 
C16A3.6	C16A3.6	C16A3.6 [Source:RefSeq_peptide;Acc:NP_498395]	embryonic development ending in birth or egg hatching, 		
C16A3.5	C16A3.5	C16A3.5 [Source:RefSeq_peptide;Acc:NP_498396]	embryonic development ending in birth or egg hatching, 		
C16A3.4	C16A3.4	C16A3.4 [Source:RefSeq_peptide;Acc:NP_498397]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
C16A3.3	C16A3.3	C16A3.3 [Source:RefSeq_peptide;Acc:NP_498398]	RNA processing, growth, 	intracellular, 	RNA binding, 
C16A3.2	C16A3.2	C16A3.2 [Source:RefSeq_peptide;Acc:NP_498399]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C16A3.1	C16A3.1	C16A3.1 is orthologous to the human gene SMARCAL1 (SMARCAL1. OMIM:606622), which when mutated leads to disease [Source: WormBase]			ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, nucleic acid binding, helicase activity, 
C16A3.10	C16A3.10	The C16A3.10 gene encodes a homolog of the human gene OAT (OMIM:258870), which when mutated leads to ornithinemia and gyrate atrophy. [Source: WormBase]			pyridoxal phosphate binding, transaminase activity, 
let-756	C05D11.4	let-756 encodes an fibroblast growth factor (FGF)-like ligand that is required for progression through early larval development. LET-756 is expressed from late embryogenesis to adulthood, with a peak of expression in larvae. with EGL-17, LET-756 is redundantly required to activate EGL-15/FGFR, which in turn activates protein degradation in adult muscle cells. homozygotes for partial loss-of-function alleles are small, clear, and scrawny, but viable, while those for a null allele arrest in early larval development. [Source: WormBase]			growth factor activity, 
C05D11.5	C05D11.5	Putative hydroxypyruvate isomerase (EC 5.3.1.22). [Source:Uniprot/SWISSPROT;Acc:Q11185]	regulation of apoptosis, 		
nas-4	C05D11.6	nas-4 encodes a predicted extracellular matrix metalloprotease of the M12A (astacin) family that contains an N-terminal signal sequence and a catalytic domain, but no recognizable regulatory domains in the C-terminus. as loss of nas-4 activity via RNAi results in no obvious abnormalities, the precise role of NAS-4 in C. elegans development and/or behavior is not yet known. however, an NAS-4 translational reporter is expressed in the pharynx and intestine in larvae and adults, suggesting a role for NAS-4 in digestion. NAS-4 is specifically detected within cells of the pharyngeal procorpus, metacorpus, isthmus, and terminal bulb, with extracellular expression detected in the lumen of the terminal bulb and in the gut. [Source: WormBase]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
C05D11.7	C05D11.7	Uncharacterized protein C05D11.7 (EC 3.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q11186]	lipid metabolic process, 		
C05D11.8	C05D11.8	Uncharacterized protein C05D11.8. [Source:Uniprot/SWISSPROT;Acc:Q11187]			
C05D11.9	C05D11.9	C05D11.9 encodes an ortholog of Pop1, a protein subunit shared by the endoribonucleases RNase MRP and RNAse P. RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. RNAse P cleaves tRNA precursors to produce their mature 5' end. C05D11.9 is evolutionarily ubiquitous among eukaryotes. [Source: WormBase]	RNA processing, regulation of transcription, DNA-dependent, tRNA 5'-leader removal, positive regulation of growth rate, 	intracellular, 	transcription factor activity, sequence-specific DNA binding, ribonuclease P activity, 
C05D11.10	C05D11.10	Uncharacterized protein C05D11.10. [Source:Uniprot/SWISSPROT;Acc:Q11189]	positive regulation of growth rate, 		protein binding, 
tag-170	C05D11.3	Thioredoxin domain-containing protein 9 homolog. [Source:Uniprot/SWISSPROT;Acc:Q11183]	embryonic development ending in birth or egg hatching, 		
vps-16	C05D11.2	vps-16 encodes the C. elegans homolog of the Saccharomyces cerevisiae vacuolar sorting protein Vps16p. in C. elegans, vps-16 activity is required for biogenesis of the lysosome-related gut granules and for embryonic development. in addition, vps-16 is required for normal body morphology and regulation of germline apoptosis. [Source: WormBase]	intracellular protein transport, positive regulation of multicellular organism growth, 	cytoplasm, 	
C05D11.1	C05D11.1	Uncharacterized protein C05D11.1. [Source:Uniprot/SWISSPROT;Acc:P48053]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
mel-32	C05D11.11	Serine hydroxymethyltransferase (EC 2.1.2.1) (Serine methylase) (Glycine hydroxymethyltransferase) (SHMT) (Glycosylation-related protein 1) (Maternal effect lethal protein 32). [Source:Uniprot/SWISSPROT;Acc:P50432]	glycine metabolic process, L-serine metabolic process, embryonic development ending in birth or egg hatching, embryonic development, serine family amino acid metabolic process, 	cellular_component, 	protein binding, pyridoxal phosphate binding, glycine hydroxymethyltransferase activity, 
C05D11.13	C05D11.13	Uncharacterized protein C05D11.13. [Source:Uniprot/SWISSPROT;Acc:Q11191]			
let-721	C05D11.12	The let-721 gene encodes an ortholog of the human gene SIMILAR TO ELECTRON-TRANSFERRING-FLAVOPROTEIN DEHYDROGENASE (ETFDH), which when mutated leads to glutaricaciduria type IIC (OMIM:231675). [Source: WormBase]	electron transport, positive regulation of growth rate, 		oxidoreductase activity, electron-transferring-flavoprotein dehydrogenase activity, 
T26A5.6	T26A5.6	T26A5.6 [Source:RefSeq_peptide;Acc:NP_498416]			
set-1	T26A5.7	Protein set-1. [Source:Uniprot/SWISSPROT;Acc:Q22795]	positive regulation of growth rate, 	nucleus, 	
T26A5.5	T26A5.5	JmjC domain-containing histone demethylation protein 1 (EC 1.14.11.27) ([Histone-H3]-lysine-36 demethylase 1). [Source:Uniprot/SWISSPROT;Acc:Q95Q98]	positive regulation of growth rate, 		
T26A5.4	T26A5.4	T26A5.4 [Source:RefSeq_peptide;Acc:NP_498420]	biosynthetic process, embryonic development ending in birth or egg hatching, 		
T26A5.8	T26A5.8	T26A5.8 [Source:RefSeq_peptide;Acc:NP_498421]	embryonic development ending in birth or egg hatching, 	intracellular, 	sequence-specific DNA binding, 
dlc-1	T26A5.9	dlc-1 encodes a dynein light chain type 1 that affects pronuclear migrations and thus affects embryonic viability. also affects fertility, body wall morphology and integrity. [Source: WormBase]	microtubule-based process, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	protein binding, microtubule motor activity, 
tag-99	T26A5.3	T26A5.3 encodes a predicted mitochondrial protein whose mature sequence has near-identity (95%) to GAS-1. T26A5.3 transcription is detectable by RT-PCR, but not visible by promoter-GFP fusion. however, a transgene containing a fusion of the gas-1 promoter to the T26A5.3 protein-coding sequence is able to fully rescue gas-1 mutants, indicating that T26A5.3 encodes a fully functional mitochondrial 49 kDa subunit that may rescue gas-1(fc21) mutants from lethality. mutants homozygous for a T26A5.3 deletion have normal anesthetic sensitivity and normal sensitivity to oxygen (unlike gas-1 mutants) but a shortened lifespan at normal laboratory oxygen levels (20%). animals doubly mutant for gas-1 and T26A5.3 have maternal-effect lethality, but sterile surviving parents are abnormally long-lived (2.7 times longer than wild-type and 4.2 times longer than gas-1 mutants). double mutants remain hypersensitive to oxygen. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		NAD binding, electron carrier activity, oxidoreductase activity, acting on NADH or NADPH, 
T26A5.2	T26A5.2	T26A5.2a [Source:RefSeq_peptide;Acc:NP_498424]			
wht-6	T26A5.1	Temporarily Assigned Gene name family member (tag-200) [Source:RefSeq_peptide;Acc:NP_498425]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
F23F12.9	F23F12.9	Uncharacterized protein F23F12.9. [Source:Uniprot/SWISSPROT;Acc:P46505]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
F23F12.8	F23F12.8	F23F12.8 encodes a large (980-residue) protein, predicted to be secreted, with two chitin-binding peritrophin-A domains, separated by a low-complexity region. F23F12.8 is synthesized in larval and adult pharynx, a known site of chitin deposition. like CEJ-1 and CPG-2 in embryos, F23F12.8 might participate in chitin synthesis, and its peritrophin-A domains might enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	chitin binding, 
rpt-3	F23F12.6	rpt-3 encodes a triple A ATPase subunit of the 26S proteasome's 19S regulatory particle (RP) base subcomplex. RPT-3 is required for embryonic, larval, and germline development and by homology, is predicted to function in unfolding protein substrates and translocating them into the core proteolytic particle (CP) of the proteasome. [Source: WormBase]	protein catabolic process, DNA replication initiation, regulation of DNA replication, embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, hydrolase activity, DNA replication origin binding, 
srb-11	F23F12.10	Serpentine receptor class beta-11 (Protein srb-11). [Source:Uniprot/SWISSPROT;Acc:P46506]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-10	F23F12.11				
F23F12.13	F23F12.13	F23F12.13 [Source:RefSeq_peptide;Acc:NP_001033356]	transport, 	integral to membrane, 	transporter activity, 
sdz-15	F23F12.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	embryonic development, 	cellular_component, 	molecular_function, 
F23F12.3	F23F12.3	Uncharacterized protein F23F12.3. [Source:Uniprot/SWISSPROT;Acc:P46499]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
F23F12.12	F23F12.12	F23F12.12 [Source:RefSeq_peptide;Acc:NP_498436]			
acr-5	K03F8.2	acr-5 encodes a predicted member of the alpha subunit family of nicotinic acetylcholine receptors that is expressed in the nervous system. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
K03F8.1	K03F8.1	K03F8.1 [Source:RefSeq_peptide;Acc:NP_498438]	RNA-dependent DNA replication, 		RNA binding, RNA-directed DNA polymerase activity, 
K03F8.t1	K03F8.t1				
C09E7.10	C09E7.10	C09E7.10 [Source:RefSeq_peptide;Acc:NP_001021169]			
oig-1	C09E7.3	One IG domain family member (oig-1) [Source:RefSeq_peptide;Acc:NP_498439]			
pqn-10	C09E7.2	PQN-10 encodes an unfamiliar protein, with limited similarity to F27B3.6, that has a glutamine/asparagine-rich domain. [Source: WormBase]			
srxa-5	C09E7.1	Serpentine Receptor, class XA family member (srxa-5) [Source:RefSeq_peptide;Acc:NP_498441]			
C09E7.4	C09E7.4	C09E7.4 [Source:RefSeq_peptide;Acc:NP_498442]			protein dimerization activity, 
C09E7.5	C09E7.5	C09E7.5 [Source:RefSeq_peptide;Acc:NP_498443]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
C09E7.9	C09E7.9	C09E7.9 [Source:RefSeq_peptide;Acc:NP_498444]			protein binding, zinc ion binding, 
C09E7.6	C09E7.6	C09E7.6 [Source:RefSeq_peptide;Acc:NP_498445]			
C09E7.7	C09E7.7	C09E7.7 [Source:RefSeq_peptide;Acc:NP_498446]			DNA binding, 
C09E7.8	C09E7.8	C09E7.8a [Source:RefSeq_peptide;Acc:NP_498447]			protein binding, zinc ion binding, DNA binding, 
F27B3.5	F27B3.5	F27B3.5 [Source:RefSeq_peptide;Acc:NP_498448]			DNA binding, serine-type endopeptidase inhibitor activity, 
F27B3.7	F27B3.7	F27B3.7 [Source:RefSeq_peptide;Acc:NP_498449]			
F27B3.6	F27B3.6	F27B3.6 [Source:RefSeq_peptide;Acc:NP_498451]			
F27B3.8	F27B3.8	F27B3.8 [Source:RefSeq_peptide;Acc:NP_001033360]			
acr-21	F27B3.2	acr-21 encodes an alpha subunit of nicotinic acetylcholine receptor (nAChR). ACR-21 is a highly divergent member of the 'ACR-16' class of nAChR subunits, which includes ACR-7, ACR-9, ACR-10, ACR-11, ACR-14, ACR-15, ACR-16, and ACR-19, and is most closely related to the alpha-7 subunits of vertebrate nAChRs. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F20H11.5	F20H11.5	F20H11.5 encodes a putative secreted D-aspartate oxidase (DASPO), paralogous to C47A10.5 and F18E3.7. recombinant F20H11.5 protein is insoluble when expressed in E. coli, and thus has not yet been tested in vitro for activity. F20H11.5 is expressed in a head mesodermal cell, hypodermis, other head cells, and vulva. [Source: WormBase]	electron transport, 		oxidoreductase activity, D-amino-acid oxidase activity, 
F20H11.1	F20H11.1	F20H11.1 [Source:RefSeq_peptide;Acc:NP_498454]	intracellular signaling cascade, 		protein binding, zinc ion binding, nucleic acid binding, pancreatic ribonuclease activity, 
nsh-1	F20H11.2	Notch Signaling pathway Homolog family member (nsh-1) [Source:RefSeq_peptide;Acc:NP_498455]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, 
F20H11.6	F20H11.6	F20H11.6 [Source:RefSeq_peptide;Acc:NP_498456]	reproduction, 		
mdh-1	F20H11.3	mdh-1 encodes a homolog of malate dehydrogenase that is predicted to be mitochondrial. [Source: WormBase]	tricarboxylic acid cycle intermediate metabolic process, malate metabolic process, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, L-malate dehydrogenase activity, malate dehydrogenase activity, 
F20H11.4	F20H11.4	F20H11.4 [Source:RefSeq_peptide;Acc:NP_498458]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
srh-40	Y40D12A.3	Serpentine Receptor, class H family member (srh-40) [Source:RefSeq_peptide;Acc:NP_498459]			
Y40D12A.2	Y40D12A.2	Y40D12A.2 [Source:RefSeq_peptide;Acc:NP_498460]	proteolysis, growth, 		serine carboxypeptidase activity, 
Y40D12A.1	Y40D12A.1	Y40D12A.1a [Source:RefSeq_peptide;Acc:NP_498461]	rRNA processing, 		
C13B9.2	C13B9.2	Uncharacterized protein C13B9.2. [Source:Uniprot/SWISSPROT;Acc:Q09235]			
C13B9.3	C13B9.3	C13B9.3 encodes a delta subunit of the coatomer (COPI) complex. in mass RNAi assays, C13B9.3 is required for fertility and general health. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, reproduction, 	clathrin adaptor complex, 	protein transporter activity, protein binding, 
C13B9.1	C13B9.1	Uncharacterized protein C13B9.1. [Source:Uniprot/SWISSPROT;Acc:Q09234]			
C13B9.4	C13B9.4	C13B9.4 encodes a G-protein-coupled receptor (GPCR) that is a member of the secretin family of GPCRs (also known as family B or family 2) and that is orthologous to the human calcitonin receptor, mutations in which are associated with increased susceptibility to osteoporosis (CALCR, OMIM:114131). large-scale expression and RNAi experiments suggest that, in C. elegans, C13B9.4 is expressed in neurons and body wall muscles and required for normal locomotion. [Source: WormBase]	locomotory behavior, 	membrane, 	G-protein coupled receptor activity, 
M01G4.1	M01G4.1	M01G4.1 [Source:RefSeq_peptide;Acc:NP_498466]			
rbf-1	F37A4.7	rbf-1 encodes the sole C. elegans rabphilin homolog. rbf-1 activity is required for normal basal rates of locomotion (in the absence of stimulation) and, in combination with SNARE components ric-4, snb-1, and unc-64, for normal rates of both basal and stimulated locomotion. RBF-1 is expressed in the nerve ring and in the dorsal and ventral nerve cords and colocalizes with synaptic vesicle markers. [Source: WormBase]	transport, intracellular protein transport, 	membrane, synaptic vesicle, 	transporter activity, protein binding, zinc ion binding, Rab GTPase binding, 
isw-1	F37A4.8	isw-1 encodes a homolog of the chromatin remodeling ATPase ISW1 that may act downstream of or in parallel to synMuv genes, and upstream of or in parallel to the RTK Ras pathway. [Source: WormBase]	gamete generation, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, helicase activity, 
F37A4.6	F37A4.6	Uncharacterized protein F37A4.6. [Source:Uniprot/SWISSPROT;Acc:P41884]	gamete generation, 		
F37A4.5	F37A4.5	Uncharacterized protein F37A4.5. [Source:Uniprot/SWISSPROT;Acc:P41883]			phosphopantetheine binding, 
F37A4.4	F37A4.4	Ankyrin repeat-containing protein F37A4.4. [Source:Uniprot/SWISSPROT;Acc:P41882]		intracellular, 	
F37A4.3	F37A4.3	Uncharacterized protein F37A4.3. [Source:Uniprot/SWISSPROT;Acc:P41881]			
bath-41	F37A4.9	The F37A4.9 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			protein binding, 
F37A4.2	F37A4.2	Uncharacterized protein F37A4.2. [Source:Uniprot/SWISSPROT;Acc:P41880]			
F37A4.1	F37A4.1	Uncharacterized protein F37A4.1. [Source:Uniprot/SWISSPROT;Acc:P41879]			
F37A4.t1	F37A4.t1				
Y102E9.2	Y102E9.2	Y102E9.2 [Source:RefSeq_peptide;Acc:NP_498476]			protein binding, 
Y102E9.t1	Y102E9.t1				
Y102E9.5	Y102E9.5	Y102E9.5 [Source:RefSeq_peptide;Acc:NP_001033373]			
odr-4	Y102E9.1	odr-4 encodes a novel type II membrane protein required for the localization of a subset of seven transmembrane domain odorant receptors, including ODR-10, to the cilia of olfactory neurons, it affects response to a subset of AWA- and AWC- mediated olfactory responses, and is required for social feeding of npr-1 mutant animals. expressed in 12 pairs of chemosensory neurons. [Source: WormBase]	protein localization, 		
Y102E9.3	Y102E9.3	Y102E9.3 [Source:RefSeq_peptide;Acc:NP_498478]			
Y102E9.6	Y102E9.6	Y102E9.6 [Source:RefSeq_peptide;Acc:NP_001033374]			
K07E12.2	K07E12.2	K07E12.2 [Source:RefSeq_peptide;Acc:NP_498480]			
dig-1	K07E12.1	dig-1 was identified in screens for mutations that result in animals with altered gonad morphology. in dig-1 mutants, the gonad is usually displaced anteriorly and sometimes dorsally and animals also display other abnormalities, in neuronal pathfinding, for example, that reflect a more general defect in cell adhesion. dig-1 has been reported to encode a very large cell adhesion molecule defined by the sequences K07E12.1a and K07E12.1b. [Source: WormBase]	electron transport, phosphate metabolic process, hermaphrodite genitalia development, gonad development, 	cytoplasm, 	catalytic activity, calcium ion binding, magnesium ion binding, inorganic diphosphatase activity, electron carrier activity, copper ion binding, 
R05H11.1	R05H11.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
R05H11.2	R05H11.2	R05H11.2 [Source:RefSeq_peptide;Acc:NP_871708]			
lim-8	F28F5.3	Temporarily Assigned Gene name family member (tag-204) [Source:RefSeq_peptide;Acc:NP_741201]			protein binding, zinc ion binding, 
F28F5.t1	F28F5.t1				
F28F5.4	F28F5.4	F28F5.4 [Source:RefSeq_peptide;Acc:NP_001033361]			
F28F5.6	F28F5.6	F28F5.6 [Source:RefSeq_peptide;Acc:NP_741202]			
ten-1	R13F6.4	This gene encodes a homolog of mammalian TNX [Source: WormBase]	embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	
R13F6.5	R13F6.5	R13F6.5 [Source:RefSeq_peptide;Acc:NP_498488]			zinc ion binding, 
srv-1	R13F6.3	Serpentine receptor class V-1 (Protein srv-1) (Protein srg-12). [Source:Uniprot/SWISSPROT;Acc:P46564]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
zak-1	R13F6.6	zak-1 encodes a mitogen-activated protein kinase kinase kinase (MAPKKK) that is orthologous to mammalian zipper sterile-motif kinases (ZAKs). ZAK-1 is predicted to play a role in regulation of MAPK signaling cascades and large-scale RNAi experiments indicate that its activity is required for proper embryonic and larval development. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, 
R13F6.8	R13F6.8	Uncharacterized protein R13F6.8 precursor. [Source:Uniprot/SWISSPROT;Acc:Q21984]			sugar binding, 
R13F6.2	R13F6.2	Uncharacterized protein R13F6.2. [Source:Uniprot/SWISSPROT;Acc:Q21985]			
sma-3	R13F6.9	sma-3 encodes a Smad protein. during development, SMA-3 functions as part of a DBL-1/SMA-6 TGF-beta-related signaling pathway that controls body size and male tail sensory ray and spicule formation. sma-3 is widely expressed at all developmental stages, beginning during embryogenesis, continuing through all larval stages, and seen very strongly in adult hermaphrodites and males. a SMA-3::GFP is detected in the pharynx, intestine, and hypodermis and localizes to the nucleus. sma-3 expression in the hypodermis is necessary and sufficient for normal body size. SMA-3 can physically interact with the LIN-31 forkhead transcription factor. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, 	intracellular, 	protein binding, 
R13F6.10	R13F6.10	TPR repeat-containing protein R13F6.10. [Source:Uniprot/SWISSPROT;Acc:Q21986]	embryonic development ending in birth or egg hatching, 		
kbp-1	R13F6.1	KNL (kinetochore null) Binding Protein family member (kbp-1) [Source:RefSeq_peptide;Acc:NP_498495]	embryonic development ending in birth or egg hatching, 		
K04C2.8	K04C2.8	K04C2.8 [Source:RefSeq_peptide;Acc:NP_001022660]	embryonic development ending in birth or egg hatching, 		
K04C2.3	K04C2.3	K04C2.3a [Source:RefSeq_peptide;Acc:NP_498496]			
K04C2.7	K04C2.7	K04C2.7 [Source:RefSeq_peptide;Acc:NP_001022659]			
med-2	K04C2.6	The med-2 gene encodes a GATA-type transcription factor that is an immediate target of maternal SKN-1, and that participates in specifying the mesendoderm. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
brd-1	K04C2.4	brd-1 encodes an ortholog of the BRCA1-associating protein BARD1 (OMIM:601593), associated with susceptibility to breast cancer. BRD-1 forms a heterodimer with BRC-1, which constitutes an E3 ubiquitin ligase. after irradiation, the DNA checkpoint proteins ATL-1 and MRE-11 are required for BRC-1/BRD-1 heterodimers to associate with the E2 ubiqutin-conjugating enzyme LET-70/Ubc5 and with RAD-51, and to ubiquitylate damaged chromatin. BRD-1 and BRC-1 bind one another, probably through their N-terminal RING domains, in yeast two-hybrid experiments and pull-down assays. BRC-1/BRD-1 heterodimers may interact with RAD-51 and other proteins via mutual binding to UBC-9. brd-1(RNAi) animals have excess chromosomal nondisjunction, abnormally high levels of CEP-1-dependent germ cell apoptosis (both with and without gamma-irradiation) and hypersensitivity to gamma-irradiation (e.g., abnormal sterility after irradiation). BRD-1 autoubiquitylation probably activates the BRC-1/BRD-1 heterodimer. BRD-1 binds SMT-3 (a Sumo homolog) and TAC-1. brd-1 is genetically dispensable for the induction of nuclear ATL-1 foci by gamma-irradiation or hydroxyurea. [Source: WormBase]	chromosome segregation, response to DNA damage stimulus, 	intracellular, 	protein binding, zinc ion binding, 
K04C2.t3	K04C2.t3				
K04C2.t2	K04C2.t2				
K04C2.t1	K04C2.t1				
K04C2.2	K04C2.2	K04C2.2 [Source:RefSeq_peptide;Acc:NP_498499]	transcription, DNA replication initiation, positive regulation of growth rate, 		ATP binding, DNA binding, DNA-directed DNA polymerase activity, DNA-dependent ATPase activity, 
K04C2.5	K04C2.5	K04C2.5 [Source:RefSeq_peptide;Acc:NP_498500]	positive regulation of growth rate, 		
T07E3.4	T07E3.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
brc-2	T07E3.5	brc-2 encodes a BRC domain-containing protein that is homologous to human BRCA2 which when mutated leads to early-onset breast cancer 2 or hereditary male breast cancer (OMIM:600185). in C. elegans, BRC-2 activity is essential for RAD-51-mediated repair of meiotic and radiation-induced double-strand breaks (DSBs). BRC-2 physically interacts with RAD-51 and single-stranded DNA and is required for proper localization of RAD-51 to sites of DNA damage and stabilization of RAD-51-DNA filaments. BRC-2 can also promote RAD-51-independent DSB repair via single-strand annealing (SSA) when the homologous recombination (HR) and nonhomologous end joining pathways (NHEJ) are compromised. in nonirradiated animals, BRC-2 is seen at diffuse, low levels in germline nuclei, but upon radiation treatment BRC-2 localizes to discrete foci that coincide with presumptive sites of DNA damage. [Source: WormBase]	double-strand break repair, oviposition, 		protein binding, 
T07E3.3	T07E3.3	T07E3.3 [Source:RefSeq_peptide;Acc:NP_498503]			
T07E3.2	T07E3.2	T07E3.2 [Source:RefSeq_peptide;Acc:NP_498504]			
T07E3.6	T07E3.6	T07E3.6a [Source:RefSeq_peptide;Acc:NP_741206]			
flap-1	F57B9.7	F57B9.7a [Source:RefSeq_peptide;Acc:NP_741207]	reproduction, 		protein binding, 
inf-1	F57B9.6	inf-1 encodes a protein with high similarity to eukaryotic initiation factor 4A. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
byn-1	F57B9.5	byn-1 encodes a homolog of mammalian BYSTIN-LIKE (BYSL. OMIM:603871). [Source: WormBase]	growth, 		
F57B9.8	F57B9.8	F57B9.8 [Source:RefSeq_peptide;Acc:NP_498511]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
coq-2	F57B9.4	coq-2 encodes a putative para-hydroxybenzoate-polyprenyl transferase (UbiA prenyltransferase), orthologous to S. cerevisiae COQ2. COQ-2 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-2 mutants have slowed pharyngeal pumping, and eventually arrest as paralysed larvae before dying. coq-2(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. coq-2 mutants are not rescued by dietary coenzyme Q. [Source: WormBase]	biosynthetic process, ubiquinone biosynthetic process, determination of adult life span, 	integral to membrane, 	prenyltransferase activity, 
F57B9.3	F57B9.3	F57B9.3 [Source:RefSeq_peptide;Acc:NP_498514]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
pqn-46	F57B9.9	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
let-711	F57B9.2	let-711 encodes the C. elegans ortholog of NOT1, the conserved core component of the multisubunit CCR4/NOT complex that plays a role in regulation of gene expression via various processes including transcriptional control, mRNA deadenylation, and protein ubiquitination. in C. elegans, let-711 activity is essential for embryonic and larval development and in particular, for proper spindle positioning, microtubule length, and centrosome morphology in early embryos. in addition, let-711 is essential for normal germline development and levels of fertility. in embryos, let-711 mutations can suppress the short microtubule phenotype produced by mutations in zyg-9, which encodes the C. elegans XMAP125 homolog, and centrosomoal ZYG-9 levels are increased in let-711 mutants, suggesting that let-711 functions, in part, by negatively regulating ZYG-9 levels or localization. in situ hybridization studies indicate that let-711 mRNA is broadly expressed in the gonad and that its gonadal expression is negatively regulated by lin-35/Rb. [Source: WormBase]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
rpn-6	F57B9.10	rpn-6 is predicted to encode a non-ATPase subunit of the 19S regulatory complex of the proteasome that affects adult viability, larval viability, embryonic viability, fertility, and osmoregulation. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F57B9.1	F57B9.1	Putative pyridoxamine 5'-phosphate oxidase (EC 1.4.3.5) (PNP/PMP oxidase) (PNPOx). [Source:Uniprot/SWISSPROT;Acc:Q20939]	pyridoxine biosynthetic process, 		FMN binding, pyridoxamine-phosphate oxidase activity, 
F31E3.4	F31E3.4	Uncharacterized protein F31E3.4. [Source:Uniprot/SWISSPROT;Acc:P53015]		intracellular, 	exonuclease activity, 
eft-3	F31E3.5	eft-3 encodes a translation elongation factor 1-alpha homolog that is required for embryonic viability, fertility, and germline maintenance. the EFT-3 protein sequence is encoded both by eft-3 (F31E3.5) itself but also by R03G5.1. [Source: WormBase]	translational elongation, reproduction, 	cytoplasm, 	GTP binding, GTPase activity, translation elongation factor activity, 
rfc-4	F31E3.3	Replication factor C subunit 4 (Replication factor C 37 kDa subunit) (RF-C 37 kDa subunit) (RFC37) (Activator 1 37 kDa subunit) (A1 37 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:P53016]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
F31E3.2	F31E3.2	Putative serine/threonine-protein kinase F31E3.2 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:Q8MYQ1]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
ceh-20	F31E3.1	ceh-20 encodes the C. elegans ortholog of the homeodomain co-factor Extradenticle (Exd/Pbx). together with ceh-40 and unc-62, ceh-20 activity is required for embryonic viability. ceh-20 is also required as a cofactor for LIN-39- and MAB-5- dependent postembryonic mesoderm patterning. in addition, ceh-20 is required for regulating post-embryonic migrations of the Q neuroblast descendants and for regulating vulval development. a CEH-20::GFP fusion protein is expressed in embryos and postembryonically in many cell types including the Q, P, and V cells and their descendants. CEH-20 localizes to the nucleus. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, anterior/posterior pattern formation, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F31E3.6	F31E3.6	F31E3.6 [Source:RefSeq_peptide;Acc:NP_498526]			
prk-1	C06E8.3	Pim (mammalian oncogene) Related Kinase family member (prk-1) [Source:RefSeq_peptide;Acc:NP_498528]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C06E8.5	C06E8.5	C06E8.5 [Source:RefSeq_peptide;Acc:NP_498530]			lipid binding, 
F11H8.2	F11H8.2	F11H8.2 [Source:RefSeq_peptide;Acc:NP_498532]	transport, ion transport, chloride transport, gamma-aminobutyric acid signaling pathway, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
col-8	F11H8.3	col-8 encodes a collagen, individually dispensable for viability and gross morphology, which is specifically expressed in dauers and adults but not in eggs or L4 larvae, like col-7, col-18, and col-19. the amino- and carboxyl-terminal cysteine-rich regions of COL-8 are most closely related to those of COL-19, COL-35, and COL-39. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
rfl-1	F11H8.1	rfl-1 (also known as cyk-5) encodes an ortholog of UBA3, a Nedd8 activating enzyme for ubiquitin-like proteins, which is required for proper cytokinesis and spindle orientation. NED-8 is presumably activated by an ULA-1/RFL-1 heterodimer. [Source: WormBase]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, 		catalytic activity, small protein activating enzyme activity, 
cyk-1	F11H8.4	The cyk-1 gene encodes a homolog of Drosophila diaphanous and human DIAPH1. [Source: WormBase]	cell adhesion, actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, extracellular region, actin cytoskeleton, 	actin binding, structural molecule activity, hormone activity, rhodopsin-like receptor activity, 
F11H8.t1	F11H8.t1				
R01H2.7	R01H2.7	R01H2.7 [Source:RefSeq_peptide;Acc:NP_001022698]			
R01H2.2	R01H2.2	R01H2.2 [Source:RefSeq_peptide;Acc:NP_498536]			
egg-2	R01H2.3	EGG sterile (unfertilizable) family member (egg-2) [Source:RefSeq_peptide;Acc:NP_498537]			
R01H2.4	R01H2.4	R01H2.4 [Source:RefSeq_peptide;Acc:NP_498538]			serine-type endopeptidase inhibitor activity, 
R01H2.1	R01H2.1	R01H2.1 [Source:RefSeq_peptide;Acc:NP_498539]			
ger-1	R01H2.5	GDP-keto-6-deoxymannose 3,5-Epimerase/4-Reductase family member (ger-1) [Source:RefSeq_peptide;Acc:NP_498540]	metabolic process, cellular metabolic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, 
ubc-18	R01H2.6	ubc-18 encodes an E2 ubiquitin-conjugating enzyme related to human UBCH7 (OMIM:603731). UBC-18 activity is required for normal growth and reproduction, and UBC-18 functions redundantly with LIN-35/Rb and other class B synthetic multivulval (SynMuv) gene products to regulate pharyngeal morphogenesis during embryonic development. ubc-18 transcripts are detected in the germline, embryos, late larval stages, and adults, suggesting that UBC-18 may function maternally to regulate several aspects of C. elegans development. the substrates of UBC-18 are not yet known. [Source: WormBase]	protein modification process, ubiquitin cycle, growth, embryonic digestive tract morphogenesis, 		small conjugating protein ligase activity, 
R01H2.8	R01H2.8	R01H2.8 [Source:RefSeq_peptide;Acc:NP_001076644]			
ZK418.3	ZK418.3	ZK418.3 [Source:RefSeq_peptide;Acc:NP_498542]			
lin-37	ZK418.4	abnormal cell LINeage family member (lin-37) [Source:RefSeq_peptide;Acc:NP_498543]	growth, embryonic digestive tract morphogenesis, 		
ZK418.5	ZK418.5	ZK418.5 [Source:RefSeq_peptide;Acc:NP_498544]			
ZK418.6	ZK418.6	ZK418.6 [Source:RefSeq_peptide;Acc:NP_498545]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZK418.7	ZK418.7	ZK418.7 [Source:RefSeq_peptide;Acc:NP_498546]	G-protein coupled receptor protein signaling pathway, pathogenesis, 	integral to membrane, extracellular region, 	rhodopsin-like receptor activity, 
ZK418.8	ZK418.8	ZK418.8 [Source:RefSeq_peptide;Acc:NP_498547]			RNA binding, 
ZK418.9	ZK418.9	ZK418.9 encodes two proteins by alternative splicing, belonging to an ancient family of single-stranded nucleic acid-binding proteins, that are predicted to regulate gene expression through binding either mRNA or (locally) single-stranded DNA. they are most likely to specifically bind one or more discrete mRNAs and regulate their spatial localization or alternative splicing. [Source: WormBase]			RNA binding, 
ZK418.10	ZK418.10	ZK418.10 [Source:RefSeq_peptide;Acc:NP_001022996]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
ZK418.2	ZK418.2	ZK418.2a [Source:RefSeq_peptide;Acc:NP_001022998]			protein binding, 
nhr-9	ZK418.1	Nuclear hormone receptor family member nhr-9. [Source:Uniprot/SWISSPROT;Acc:Q23489]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK418.11	ZK418.11	ZK418.11 [Source:RefSeq_peptide;Acc:NP_001022997]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
cpg-2	B0280.5	cpg-2 encodes a protein with six chitin-binding peritrophin-A domains and three mucin-like regions. CPG-2 is individually dispensable for normal embryonic development. however, CPG-2 and CEJ-1 are jointly required for osmotic integrity of early embryos, error-free chromosomal segregation during meiosis, polar body extrusion, association of the sperm pronucleus/centrosome complex (SPCC) with the early embryonic cortex, localization of PAR-2 in early embryos, posterior localization of P granules or PIE-1, and pseudocleavage. CPG-2, like CEJ-1, is covalently linked to chondroitin, which itself is required for vulval morphogenesis, polar-body extrusion, and separation of the eggshell from the embryonic plasma membrane. cpg-2 mRNA, like that of cej-1, is expressed specifically in the adult hermaphrodite germ line and is bound by GLD-1. CPG-2 has 34 potential chondroitin attachment sites, four of them verified by mass spectrometry, and transgenic CPG-2 synthesized in mammalian cells carries chondroitin sulfate chains. CPG-2's multiple peritrophin-A domains may enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, G-protein coupled receptor protein signaling pathway, cytokinesis after mitosis, 	integral to membrane, extracellular region, 	chitin binding, alpha1-adrenergic receptor activity, 
B0280.6	B0280.6				
odd-1	B0280.4	odd-1 encodes a C2H2-type zinc finger-containing transcription factor similar to Drosophila odd skipped which is required for embryonic patterning. ODD-1 is expressed in the gut during embryogenesis and appears to be essential for larval development. [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
B0280.7	B0280.7	Uncharacterized protein B0280.7. [Source:Uniprot/SWISSPROT;Acc:P41998]			
nhr-10	B0280.8	nhr-10 encodes a predicted nuclear hormone receptor diverged from nuclear hormone receptors in other phyla. its mRNA is expressed throughout development with possibly lower expression from the L4 larval to adult stages, and the protein is expressed in neuronal processes. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, identical protein binding, 
B0280.9	B0280.9	U3 small nucleolar RNA-associated protein 18 homolog. [Source:Uniprot/SWISSPROT;Acc:P42000]	growth, 		
B0280.3	B0280.3	Probable-ribose 5-phosphate isomerase (EC 5.3.1.6) (Phosphoriboisomerase). [Source:Uniprot/SWISSPROT;Acc:P41994]	pentose-phosphate shunt, non-oxidative branch, locomotory behavior, 		ribose-5-phosphate isomerase activity, 
B0280.2	B0280.2	Uncharacterized protein B0280.2. [Source:Uniprot/SWISSPROT;Acc:P41993]			
B0280.13	B0280.13	B0280.13 [Source:RefSeq_peptide;Acc:NP_741212]	cell adhesion, 	actin cytoskeleton, 	structural molecule activity, structural constituent of cell wall, 
B0280.10	B0280.10	Uncharacterized protein B0280.10. [Source:Uniprot/SWISSPROT;Acc:P42001]			
B0280.1	B0280.1	Probable protein farnesyltransferase subunit beta (EC 2.5.1.58) (CAAX farnesyltransferase subunit beta) (RAS proteins prenyltransferase beta) (FTase-beta). [Source:Uniprot/SWISSPROT;Acc:P41992]	reproduction, 		catalytic activity, 
B0280.17	B0280.17	B0280.17 [Source:RefSeq_peptide;Acc:NP_001040836]	reproduction, 		RNA binding, 
B0280.11	B0280.11	Putative tyrosine-protein phosphatase B0280.11 (EC 3.1.3.48). [Source:Uniprot/SWISSPROT;Acc:P42083]	protein amino acid dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
glr-2	B0280.12	glr-2 encodes an AMPA (non-NMDA)-type ionotropic glutamate receptor subunit. GLR-2 activity is required for mediating the behavioral response to light nose touch and for regulating the frequency with which animals change locomotory direction in response to sensory cues such as food. GLR-2 and GLR-1, a second AMPA-type ionotropic glutamate receptor, can interact to form functional heteromeric channels. GLR-2 is expressed in many neurons, including four of the five pairs of command interneurons that are required for locomotory control. [Source: WormBase]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
NR_002631.1	B0280.14	B0280.14, snRNA [Source:RefSeq_dna;Acc:NR_002631]			
NR_002632.1	B0280.15	B0280.15, snRNA [Source:RefSeq_dna;Acc:NR_002632]			
NR_002633.1	B0280.16	B0280.16, snRNA [Source:RefSeq_dna;Acc:NR_002633]			
ogt-1	K04G7.3	ogt-1 encodes an ortholog of O-linked N-acetylglucosamine (O-GlcNAc) transferase (OGT. OMIM:300255) with 12 N-terminal tetratricopeptide (TPR) domains (generally thought to enable protein-protein interactions) and a C-terminal putative catalytic domain. although loss of ogt-1 activity has no effect on overall viability or fertility, ogt-1 mutations result in alterations in macronutrient storage and can suppress constitutive dauer formation in daf-2 mutants suggesting that, in C. elegans, ogt-1 may play a regulatory role in nutrient sensing and insulin-like signaling pathways. OGT-1 is expressed in embryos, where it exhibits nuclear and punctate perinuclear localization. [Source: WormBase]	dauer larval development, protein amino acid O-linked glycosylation, 	nucleus, 	binding, 
nuo-4	K04G7.4	NADH Ubiquinone Oxidoreductase family member (nuo-4) [Source:RefSeq_peptide;Acc:NP_741215]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, growth, 		ATP binding, phosphotransferase activity, alcohol group as acceptor, 
rnp-7	K04G7.10	RNP (RRM RNA binding domain) containing family member (rnp-7) [Source:RefSeq_peptide;Acc:NP_498565]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleic acid binding, 
K04G7.11	K04G7.11	Pre-mRNA-splicing factor syf-2. [Source:Uniprot/SWISSPROT;Acc:Q09385]	embryonic development ending in birth or egg hatching, 		
K04G7.1	K04G7.1	K04G7.1 [Source:RefSeq_peptide;Acc:NP_498567]	positive regulation of growth rate, 		
F37C12.7	F37C12.7	F37C12.7 [Source:RefSeq_peptide;Acc:NP_498568]	metabolic process, gamete generation, 		catalytic activity, 
srb-8	F37C12.15	Serpentine receptor class beta-8/9 (Protein srb-8/Srb-9). [Source:Uniprot/SWISSPROT;Acc:P83260]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-9	F37C12.16	Serpentine receptor class beta-8/9 (Protein srb-8/Srb-9). [Source:Uniprot/SWISSPROT;Acc:P83260]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-7	F37C12.17	Serpentine receptor class beta-7 (Protein srb-7). [Source:Uniprot/SWISSPROT;Acc:P54142]	sodium ion transport, sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, sodium:amino acid symporter activity, 
rps-14	F37C12.9	rps-14 encodes a small ribosomal subunit S14 protein. by homology, RPS-14 is predicted to function in protein biosynthesis. in C. elegans, RPS-14 activity is required for embryonic and germline development, as well as the overall health of the animal. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
rpl-36	F37C12.4	rpl-36 encodes a large ribosomal subunit L36 protein. by homology, RPL-36 is predicted to function in protein biosynthesis. in C. elegans, RPL-36 activity is required for embryonic and germline development and normal postembryonic growth rates. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
F37C12.3	F37C12.3	F37C12.3 [Source:RefSeq_peptide;Acc:NP_498574]	embryonic development ending in birth or egg hatching, 		cofactor binding, phosphopantetheine binding, acyl carrier activity, 
F37C12.2	F37C12.2	F37C12.2 [Source:RefSeq_peptide;Acc:NP_498575]	embryonic development ending in birth or egg hatching, 		
F37C12.1	F37C12.1	F37C12.1 [Source:RefSeq_peptide;Acc:NP_498576]	embryonic development ending in birth or egg hatching, 		
F37C12.14	F37C12.14	F37C12.14 [Source:RefSeq_peptide;Acc:NP_498577]	embryonic development ending in birth or egg hatching, 		
F37C12.10	F37C12.10	F37C12.10 [Source:RefSeq_peptide;Acc:NP_498578]			
rps-21	F37C12.11	rps-21 encodes a small ribosomal subunit S21 protein. by homology, RPS-21 is predicted to function in protein biosynthesis. in C. elegans, RPS-21 activity is required for embryonic and germline development, as well as the overall health of the animal. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
mec-14	F37C12.12	mec-14 encodes a protein with similarity to the beta-subunits of Shaker-type potassium channels, which are members of the aldo-keto reductase superfamily. MEC-14 is required for response to gentle touch by the six touch receptor neurons, and likely functions to regulate activity of the MEC-4 and MEC-10 degenerin channels. mec-14 expression is detected solely in the touch receptor neurons and is dependent on the MEC-3 LIM domain transcription factor. proper MEC-14 localization in the touch receptor neurons is dependent on MEC-12/alpha-tubulin. [Source: WormBase]			oxidoreductase activity, 
F37C12.18	F37C12.18	F37C12.18 [Source:RefSeq_peptide;Acc:NP_001022569]			
exos-9	F37C12.13	F37C12.13a [Source:RefSeq_peptide;Acc:NP_741217]	RNA processing, growth, 		RNA binding, 3'-5'-exoribonuclease activity, 
pfd-5	R151.9	Probable prefoldin subunit 5. [Source:Uniprot/SWISSPROT;Acc:Q21993]	protein folding, embryonic development ending in birth or egg hatching, 	prefoldin complex, 	protein binding, unfolded protein binding, 
dpy-31	R151.5	dpy-31 encodes an astacin zinc-metalloprotease of the BMP-1 (bone morphogenetic protein-1)/TOLLOID family. dpy-31 activity is required for proper cuticle formation and thus for normal body morphology. in addition, dpy-31 is essential for embryonic and larval development at 25 degrees C. genetic and immunofluorescence studies suggest that DPY-31 functions as an endopeptidase that is required for processing, and ultimately proper extracellular assembly, of the SQT-3 cuticle collagen. dpy-31 is expressed in most hypodermal cells, with the exception of larval stage seam cells, throughout the life cycle with particularly strong expression seen during embryonic and larval stages. dpy-31 is also expressed in some head neurons, the amphid socket cells, rectal epithelial cells, and vulval epithelial cells in L4 larvae and adults. [Source: WormBase]	proteolysis, embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, astacin activity, 
rpl-6	R151.3	rpl-6 encodes a large ribosomal subunit L6 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_002647.1	R151.11	R151.11, snoRNA [Source:RefSeq_dna;Acc:NR_002647]			
NR_003433.1	R151.12	R151.12, snoRNA [Source:RefSeq_dna;Acc:NR_003433]			
NR_003434.1	R151.13	R151.13, snoRNA [Source:RefSeq_dna;Acc:NR_003434]			
R151.2	R151.2	R151.2 is orthologous to the human gene PHOSPHORIBOSYL PYROPHOSPHATE SYNTHETASE 1 (PRPS1. OMIM:311850), which when mutated leads to disease [Source: WormBase]	cellular biosynthetic process, nucleotide biosynthetic process, nucleoside metabolic process, ribonucleoside monophosphate biosynthetic process, embryonic development ending in birth or egg hatching, 		protein binding, magnesium ion binding, ribose phosphate diphosphokinase activity, 
R151.1	R151.1	R151.1 [Source:RefSeq_peptide;Acc:NP_498588]			
R151.4	R151.4	R151.4a [Source:RefSeq_peptide;Acc:NP_001022729]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R151.6	R151.6	Derlin-2 (DER1-like protein 2) (cDerlin-2). [Source:Uniprot/SWISSPROT;Acc:Q21997]	positive regulation of cell proliferation, unfolded protein response, positive regulation of cell growth, ER-associated protein catabolic process, retrograde protein transport, ER to cytosol, 	integral to endoplasmic reticulum membrane, 	protein binding, 
R151.7	R151.7	R151.7a [Source:RefSeq_peptide;Acc:NP_741220]	protein folding, 		ATP binding, unfolded protein binding, 
R151.8	R151.8	R151.8 [Source:RefSeq_peptide;Acc:NP_498592]		nucleus, 	DNA binding, 
R151.10	R151.10	R151.10 [Source:RefSeq_peptide;Acc:NP_498593]	metabolic process, 		catalytic activity, hydrolase activity, 
adr-2	T20H4.4	adr-2 encodes an adenosine deaminase that acts on RNA (ADAR). ADARs are RNA-editing enzymes that deaminate adenosines to create inosines in double-stranded RNA (dsRNA). adr-2 is expressed ubiquitously in early embryos, as well as in the germline of early adults. ADR-2 is required for ADAR activity in vivo, and for normal chemotaxis. [Source: WormBase]	RNA processing, 	intracellular, 	RNA binding, protein binding, adenosine deaminase activity, double-stranded RNA binding, 
T20H4.5	T20H4.5	T20H4.5 gene encodes a 23 kDa subunit of mitochondrial complex I that is required for oxidative phosphorylation and for resistance to volatile anesthetics. T20H4.5 is orthologous to human NDUFS8 (OMIM:602141, mutated in Leigh syndrome). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		iron ion binding, electron carrier activity, oxidoreductase activity, acting on NADH or NADPH, iron-sulfur cluster binding, 
prs-1	T20H4.3	prs-1 encodes a predicted cytoplasmic prolyl-tRNA synthetase (ProRS), a class II aminoacyl-tRNA synthetase that catalyzes the attachment of proline to its cognate tRNA and is thus required for protein biosynthesis. PRS-1 is required for embryonic, germline, and postembryonic development. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, prolyl-tRNA aminoacylation, growth, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, proline-tRNA ligase activity, 
T20H4.2	T20H4.2	T20H4.2 [Source:RefSeq_peptide;Acc:NP_498597]		intracellular, 	zinc ion binding, nucleic acid binding, 
osm-10	T20H4.1	osm-10 encodes a novel protein conserved amongst several Caenorhabditis species. osm-10 activity is required for normal osmosensory signaling in the ASH sensory neuron. in regulating ASH-mediated osmosensation, osm-10 interacts genetically with eos-1 and eos-2. OSM-10 is expressed in the ASH, ASI, PHA, and PHB sensory neurons beginning just prior to hatching and continuing through larval and adult stages. OSM-10 localizes to cell bodies, sensory processes, and axons. [Source: WormBase]			structural molecule activity, 
T21D11.1	T21D11.1	T21D11.1 [Source:RefSeq_peptide;Acc:NP_498599]	proteolysis, 	proteinaceous extracellular matrix, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, astacin activity, 
B0361.4	B0361.4	B0361.4 [Source:RefSeq_peptide;Acc:NP_498600]			
psd-1	B0361.5	Phosphatidylserine decarboxylase proenzyme (EC 4.1.1.65) [Contains: Phosphatidylserine decarboxylase alpha chain; Phosphatidylserine decarboxylase beta chain]. [Source:Uniprot/SWISSPROT;Acc:Q10949]	phospholipid biosynthetic process, positive regulation of growth rate, 		phosphatidylserine decarboxylase activity, 
B0361.6	B0361.6	Uncharacterized protein B0361.6. [Source:Uniprot/SWISSPROT;Acc:Q10950]	growth, 		
B0361.11	B0361.11	Putative transporter B0361.11. [Source:Uniprot/SWISSPROT;Acc:Q7Z118]	transport, 	membrane, integral to membrane, 	transporter activity, 
B0361.3	B0361.3	Uncharacterized protein B0361.3. [Source:Uniprot/SWISSPROT;Acc:Q7JPQ6]			
B0361.7	B0361.7	Putative acid phosphatase B0361.7 precursor (EC 3.1.3.2). [Source:Uniprot/SWISSPROT;Acc:Q10944]			acid phosphatase activity, 
B0361.10	B0361.10	B0361.10 [Source:RefSeq_peptide;Acc:NP_498605]	transport, vesicle-mediated transport, vesicle docking during exocytosis, ER to Golgi vesicle-mediated transport, growth, vesicle targeting, 	integral to membrane, integral to plasma membrane, endoplasmic reticulum, 	protein-cysteine S-palmitoleyltransferase activity, 
B0361.8	B0361.8	Uncharacterized glycosyltransferase B0361.8 (EC 2.-.-.-). [Source:Uniprot/SWISSPROT;Acc:P53993]	biosynthetic process, chemotaxis, G-protein coupled receptor protein signaling pathway, growth, 	integral to membrane, 	C3a anaphylatoxin receptor activity, 
B0361.2	B0361.2	Uncharacterized protein B0361.2. [Source:Uniprot/SWISSPROT;Acc:Q10946]	reproduction, 		
B0361.9	B0361.9	Uncharacterized protein B0361.9 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10952]			
acbp-4	F56C9.5	Acyl-Coenzyme A Binding Protein family member (acbp-4) [Source:RefSeq_peptide;Acc:NP_498609]			acyl-CoA binding, 
F56C9.6	F56C9.6	F56C9.6 [Source:RefSeq_peptide;Acc:NP_498610]			
F56C9.3	F56C9.3	F56C9.3 [Source:RefSeq_peptide;Acc:NP_498611]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
F56C9.7	F56C9.7	F56C9.7 [Source:RefSeq_peptide;Acc:NP_498612]			
F56C9.8	F56C9.8	F56C9.8 [Source:RefSeq_peptide;Acc:NP_498613]			
F56C9.11	F56C9.11	F56C9.11 [Source:RefSeq_peptide;Acc:NP_741221]			protein binding, 
F56C9.10	F56C9.10	F56C9.10b [Source:RefSeq_peptide;Acc:NP_741223]			protein binding, 
gsp-2	F56C9.1	Serine/threonine-protein phosphatase PP1-beta (EC 3.1.3.16) (CeGLC-7- beta) (Glc seven-like phosphatase 2). [Source:Uniprot/SWISSPROT;Acc:P48727]	embryonic development ending in birth or egg hatching, 	nucleus, 	hydrolase activity, 
NR_002643.1	F56C9.12	F56C9.12, snoRNA [Source:RefSeq_dna;Acc:NR_002643]			
kap-1	F08F8.3	Kinesin-Associated Protein family member (kap-1) [Source:RefSeq_peptide;Acc:NP_001021246]		kinesin complex, 	binding, kinesin binding, 
F08F8.6	F08F8.6	F08F8.6 [Source:RefSeq_peptide;Acc:NP_498619]			
F08F8.7	F08F8.7	F08F8.7 [Source:RefSeq_peptide;Acc:NP_498620]	carbohydrate metabolic process, 		catalytic activity, ribulose-phosphate 3-epimerase activity, 
F08F8.8	F08F8.8	F08F8.8 [Source:RefSeq_peptide;Acc:NP_498621]	intracellular protein transport, 	membrane, 	
F08F8.9	F08F8.9	F08F8.9c [Source:RefSeq_peptide;Acc:NP_741226]			protein binding, 
F08F8.10	F08F8.10	F08F8.10b [Source:RefSeq_peptide;Acc:NP_001021245]			protein binding, 
F08F8.4	F08F8.4	F08F8.4 [Source:RefSeq_peptide;Acc:NP_498625]			
F08F8.2	F08F8.2	F08F8.2 [Source:RefSeq_peptide;Acc:NP_498626]	biosynthetic process, lipid metabolic process, reproduction, 	integral to membrane, 	hydroxymethylglutaryl-CoA reductase (NADPH) activity, 
numr-1	F08F8.5	F08F8.5 [Source:RefSeq_peptide;Acc:NP_498627]			protein binding, 
F08F8.1	F08F8.1	F08F8.1 [Source:RefSeq_peptide;Acc:NP_498628]			
T20B12.5	T20B12.5	Uncharacterized protein T20B12.5. [Source:Uniprot/SWISSPROT;Acc:P41845]			
T20B12.4	T20B12.4	T20B12.4 is orthologous to the human gene INTERLEUKIN 2 RECEPTOR, GAMMA (SEVERE COMBINED IMMUNODEFICIENCY) (IL2RG. OMIM:308380), which when mutated leads to disease. [Source: WormBase]			
mml-1	T20B12.6	WBSCR14 protein homolog (Mlx interactor). [Source:Uniprot/SWISSPROT;Acc:P41846]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
T20B12.7	T20B12.7	Uncharacterized protein T20B12.7. [Source:Uniprot/SWISSPROT;Acc:P41847]	positive regulation of growth rate, 		
hmg-4	T20B12.8	hmg-4 encodes a protein with strong similarity to the highly conserved high mobility group protein SSRP1 (structure-specific DNA recognition protein). by homology, HMG-4 is predicted to be a member of the FACT (facilitates chromatin transcription) complex that functions as a transcription elongation factor. RNAi experiments indicate that hmg-4 is required for locomotion and larval development, and required redundantly with hmg-3, its paralog, for embryonic development. [Source: WormBase]	regulation of transcription, DNA-dependent, potassium ion transport, embryonic development ending in birth or egg hatching, 	membrane, nucleus, chromatin, 	DNA binding, calcium-activated potassium channel activity, 
T20B12.3	T20B12.3	Uncharacterized protein T20B12.3. [Source:Uniprot/SWISSPROT;Acc:P41843]	growth, 		
tbp-1	T20B12.2	tbp-1 encodes the C. elegans ortholog of the human TATA-box-binding protein (TBP. OMIM:600075. mutated in spinocerebellar ataxia 17). consistent with its proposed role in transcriptional regulation, TBP-1 has been shown to provide TFIID-like basal transcription activity in human and C. elegans extracts, to bind specifically to a TATA box sequence, and to interact with TFIIA and TFIIB transcription factors from other species. large-scale RNA-mediated interference (RNAi) screens indicate that tbp-1 activity is required for embryonic and larval development, as well as for normal rates of postembryonic growth. [Source: WormBase]	regulation of transcription, DNA-dependent, transcription initiation from RNA polymerase II promoter, embryonic development ending in birth or egg hatching, 	nucleus, transcription factor TFIID complex, 	protein binding, binding, DNA binding, RNA polymerase II transcription factor activity, 
T20B12.1	T20B12.1	TPR repeat-containing protein T20B12.1. [Source:Uniprot/SWISSPROT;Acc:P41842]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	binding, transcription factor activity, sequence-specific DNA binding, structural molecule activity, 
T20B12.9	T20B12.9	Uncharacterized glycine receptor-like protein T20B12.9. [Source:Uniprot/SWISSPROT;Acc:P41849]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
alh-12	Y69F12A.2	ALdehyde deHydrogenase family member (alh-12) [Source:RefSeq_peptide;Acc:NP_001022930]	metabolic process, DNA metabolic process, 		ATP binding, oxidoreductase activity, DNA binding, DNA-dependent ATPase activity, 
Y69F12A.1	Y69F12A.1	Y69F12A.1 [Source:RefSeq_peptide;Acc:NP_498639]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
fipr-19	Y69F12A.3	Y69F12A.3 [Source:RefSeq_peptide;Acc:NP_001033380]			
fipr-18	H14A12.7	H14A12.7 [Source:RefSeq_peptide;Acc:NP_001033367]			
mls-1	H14A12.4	mls-1 encodes a T-box transcription factor orthologous to members of the Tbx1 subfamily of T-box transcription factors (OMIM:602054, mutations in human TBX1 are associated with the developmental disorder DiGeorge syndrome (DGS)/velocardiofacial syndrome (VCFS)). MLS-1 is required for fate specification of the eight nonstriated uterine muscle cells generated during postembryonic development, and ectopic expression of MLS-1 is sufficient for uterine muscle specification in other mesodermal lineages. mls-1 reporter gene expression is detected in uterine progenitors and differentiated uterine muscles, Type 2 vulval muscles, the left and right intestinal muscles, and the anal depressor muscle. mls-1 expression is positively regulated by the basic helix-loop-helix transcription factors HLH-8/Twist and HLH-2/Daughterless. [Source: WormBase]	regulation of transcription, DNA-dependent, muscle cell fate specification, 	nucleus, 	transcription factor activity, 
fipr-20	H14A12.6	H14A12.6 [Source:RefSeq_peptide;Acc:NP_001033366]			
H14A12.3	H14A12.3	H14A12.3 encodes an ortholog of S. cerevisiae RAV2. like RAV2, H14A12.3 may be required for the reassociation of vacuolar proton-translocating ATPase (V-ATPase) after temporary glucose starvation. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
fum-1	H14A12.2	fum-1 is orthologous to human FUMARASE (FH. OMIM:136850), which when mutated leads to fumarase deficiency. FUM-1A and FUM-1B are predicted to be mitochondrial. [Source: WormBase]	fumarate metabolic process, positive regulation of growth rate, 	tricarboxylic acid cycle enzyme complex, 	protein binding, catalytic activity, fumarate hydratase activity, 
H14A12.5	H14A12.5	H14A12.5 [Source:RefSeq_peptide;Acc:NP_498643]			
mup-4	K07D8.1	The mup-4 gene encodes a novel transmembrane protein required for junctional attachments between hypodermis and muscle, and between the apical epithelial surface and the cuticular matrix. [Source: WormBase]	growth, 		protein binding, calcium ion binding, 
cgh-1	C07H6.5	cgh-1 encodes a putative DEAD-box RNA helicase, orthologous to budding yeast Dhh1p, fission yeast Ste13p, Drosophila ME31B, and human DDX6 (OMIM:600326). CGH-1 inhibits physiological apoptosis in oocytes, keeping it down to a normal level of ~50% in hermaphrodite gonads. independently of apoptosis, CGH-1 is also required for sperm function, oocyte fertilization, and early embryonic cytokinesis. by orthology with budding yeast, CGH-1 is expected to enable decapping-dependent mRNA degradation. CGH-1 is expressed in meiotic germ cells, oocytes, sperm, early embryonic P granules, other unidentified cytoplasmic foci of the gonad core and early embryos, and the germline precursors Z2 and Z3. cgh-1(RNAi) hermaphrodites lose ~100% of their oocytes to physiological apoptosis. gonadal CGH-1 accumulation is suppressed by either glh-1/4 RNAi or gld-1(q485).gld-2(q497) mutations, yet physiological apoptosis (which would normally be elevated by loss of CGH-1) is also abnormally low in these genotypes. cgh-1(RNAi) males have sterile sperm with abnormally short pseudopods. CGH-1 associates with CAR-1, DCAP-2, and CEY-2/3/4 in P granules and cytoplasmic particles of the early embryo. CGH-1 is required for normal CAR-1 localization in early embyros, and binds CAR-1 in an RNA-dependent manner. [Source: WormBase]	mRNA metabolic process, embryonic development ending in birth or egg hatching, gamete generation, 		ATP binding, protein binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
NR_003427.1	C07H6.10	C07H6.10, snoRNA [Source:RefSeq_dna;Acc:NR_003427]			
C07H6.9	C07H6.9	C07H6.9 [Source:RefSeq_peptide;Acc:NP_498647]			
C07H6.4	C07H6.4	C07H6.4 [Source:RefSeq_peptide;Acc:NP_498648]	RNA processing, 		nucleotide binding, RNA binding, nucleic acid binding, 
C07H6.3	C07H6.3	Protein CLASP-1. [Source:Uniprot/SWISSPROT;Acc:Q95YF0]	positive regulation of multicellular organism growth, 		
clk-2	C07H6.6	The clk-2 gene encodes an ortholog of the S. cerevisiae telomere length-regulating protein Tel2p that has been shown to bind a number of DNA structures in vitro, including single-, double- and four-stranded DNA. in C. elegans, CLK-2 activity is required for the DNA damage and S phase replication checkpoints, for embryonic development, and for normal biological rhythms and life span. a functional CLK-2::GFP fusion protein is detected exclusively in the cytoplasm of somatic tissues. [Source: WormBase]	biological_process, 		molecular_function, 
cux-7	C07H6.8	cux-7 encodes an conserved but unfamiliar protein orthologous to the human gene XE7 and the Drosophila gene CG2179-PA. since cux-7 is in an operon with clk-2, CUX-7 might have some role in telomere maintenance, development or rhythmic behavior. however, cux-7 currently has no known function, and is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]			
C07H6.2	C07H6.2	C07H6.2 [Source:RefSeq_peptide;Acc:NP_498652]	positive regulation of growth rate, 		
lig-4	C07H6.1	lig-4 encodes an ortholog of DNA ligase IV in budding yeast (DNL4) and human (LIG4. OMIM:601837, mutated in LIG4 syndrome). LIG-4 is required for resistance to ionizing radiation (IR) in somatic tissues (such as motor neurons, vulva, or uterus) and in endoreduplicating intestinal cells, but not in the germline (e.g., in dog-1-induced lesions). LIG-4 is required for non-homologous end-joining of double-stranded breaks (DSB) in somatic genomic DNA. although LIG-4 is not strongly required in the germline, it is active on DSB of DNA injected into syncytial gonads, and its absence enhances the hypersensitivity of rad-51(RNAi) germlines to ionizing radiation. in meiotic cells deprived of homologous DNA repair by a rad-51(Ig08701) mutation, both LIG-4 and BRC-2 can promote chromosomal aggregation (presumably by repairing meiotic double-stranded breaks in DNA), but they do so independently. mutant lig-4 late-stage embryos or dauer larvae are hypersensitive to radiation-induced DNA damage in somatic cells. after irradiation, lig-4 mutants tend to display various postembryonic phenotypes (such as slow growth, uncoordinated locomotion, impaired egg-laying, or vulval defects) that are thought to reflect missegregation of fragmented chromosomes. LIG-4 is N-terminally acetylated on a serine residue. [Source: WormBase]	DNA repair, DNA replication, DNA recombination, embryonic development ending in birth or egg hatching, 	intracellular, 	ATP binding, DNA ligase (ATP) activity, 
lin-39	C07H6.7	lin-39 encodes a homeodomain protein homologous to the Deformed and Sex combs reduced family of homeodomain proteins. lin-39 is required cell autonomously for specification of mid-body region cell fates, including those of the VC neurons and the vulval precursor cells (VPCs), during postembryonic development. lin-39 activity is also required for normal migration of the QR, and to a lesser extent QL, neuroblasts and their descendants. in regions of the body where lin-39 expression overlaps with that of mab-5, another C. elegans HOM-C gene, the two genes appear to either compensate for one another's activity or act combinatorially to promote cell fates distinct from those where either gene is expressed alone. lin-39 transcripts are detected at all development stages, and a lin-39:lacZ reporter fusion is expressed in cells of the central body region, including ventral cord neurons and ventral epidermal cells, from mid-embryogenesis through larval and adult stages. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, positive regulation of vulval development, Ras protein signal transduction, regulation of cell fate specification, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
ceh-13	R13A5.5	a homolog of Hox genes of labial/Hox1 type. affects viability, body shape and anterior patterning during embryogenesis, interacts genetically with hox genes. and is expressed in A, D, E and MS lineages in the early embryo, and in the anterior dorsal hypodermal cells, anterior body wall muscle cells, and in the cells of the prospective ventral nerve cord at the comma stage. and in the ventral nerve cord and and ventral and dorsal hypodermal cells in L1 larvae. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
lgc-12	R13A5.4		transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
R13A5.6	R13A5.6	R13A5.6 [Source:RefSeq_peptide;Acc:NP_498657]			
R13A5.3	R13A5.3	R13A5.3 [Source:RefSeq_peptide;Acc:NP_498658]	negative regulation of locomotion, 		
R13A5.7	R13A5.7	R13A5.7 [Source:RefSeq_peptide;Acc:NP_498659]			
rpl-9	R13A5.8	rpl-9 encodes a large ribosomal subunit L9 protein that affects fertility and embryonic viability. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
lpd-7	R13A5.12	lpd-7 encodes a BRCT domain-containing protein that is orthologous to Saccharomyces cerevisiae Nop7p and the vertebrate pescadillo proteins required for nucleolar assembly, ribosome biogenesis, and cell proliferation. loss of lpd-7 activity via RNAi indicates that, in C. elegans, LPD-7 is required for fat storage and for larval growth and development. based upon its similarity to the yeast and vertebrate proteins, LPD-7 is predicted to localize to the nucleolus. [Source: WormBase]	cell proliferation, growth, sequestering of lipid, 	intracellular, nucleolus, 	
R13A5.9	R13A5.9	R13A5.9 [Source:RefSeq_peptide;Acc:NP_498662]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
R13A5.10	R13A5.10	R13A5.10 [Source:RefSeq_peptide;Acc:NP_498663]			zinc ion binding, hydrolase activity, 
cup-5	R13A5.1	The cup-5 gene encodes an ortholog of the human mucolipin-1 gene, and is required for the normal, negative regulation of endocytotic uptake of markers from pseudocoelomic fluid. [Source: WormBase]	ion transport, regulation of endocytosis, 	membrane, 	ion channel activity, protein binding, calcium channel activity, 
R13A5.11	R13A5.11	R13A5.11 [Source:RefSeq_peptide;Acc:NP_498666]			hydrolase activity, 
T04A6.3	T04A6.3	T04A6.3 [Source:RefSeq_peptide;Acc:NP_498667]	metal ion transport, 		metal ion binding, 
T04A6.2	T04A6.2	T04A6.2 [Source:RefSeq_peptide;Acc:NP_498668]			
T04A6.1	T04A6.1	T04A6.1a [Source:RefSeq_peptide;Acc:NP_741229]			
fbn-1	ZK783.1	fbn-1 encodes a protein homologous to the human extracellular matrix protein fibrillin-1 (FBN1) which when mutated leads to Marfan syndrome (OMIM:154700), a connective tissue disorder. in C. elegans, fbn-1 activity is required for completion of molting, particularly the L3/L4 or L4/Adult molts. [Source: WormBase]	proteolysis, biological_process, 		calcium ion binding, serine-type endopeptidase activity, 
ZK783.2	ZK783.2	ZK783.2 [Source:RefSeq_peptide;Acc:NP_498671]	nucleoside metabolic process, nucleotide catabolic process, 	cytoplasm, 	catalytic activity, uridine phosphorylase activity, 
ZK783.t1	ZK783.t1				
ZK783.5	ZK783.5	ZK783.5 [Source:RefSeq_peptide;Acc:NP_001023034]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ZK783.3	ZK783.3	ZK783.3 [Source:RefSeq_peptide;Acc:NP_498672]			
ZK783.6	ZK783.6	ZK783.6 [Source:RefSeq_peptide;Acc:NP_001033390]			
flt-1	ZK783.4	flt-1 encodes a putative homolog of flectin, an extracellular matrix protein thought to provide a microenvironment of great elasticity. however, FLT-1 protein contains no similarity to other ECM components, instead mostly appearing to be made up of chromatin or DNA-binding domains. FLT-1 also contains a glutamine/asparagine-rich domain, which may mediate epigenetic regulation. [Source: WormBase]			protein binding, zinc ion binding, DNA binding, 
C18H2.1	C18H2.1	C18H2.1 [Source:RefSeq_peptide;Acc:NP_498674]	oviposition, 	intracellular, 	
C18H2.2	C18H2.2	C18H2.2 [Source:RefSeq_peptide;Acc:NP_498675]			
C18H2.3	C18H2.3	C18H2.3 [Source:RefSeq_peptide;Acc:NP_498676]		intracellular, 	
C18H2.5	C18H2.5	C18H2.5 [Source:RefSeq_peptide;Acc:NP_741231]		intracellular, 	
C18H2.4	C18H2.4	C18H2.4 is orthologous to the human gene GLOMULIN (FAP48. OMIM:601749), which when mutated leads to disease. [Source: WormBase]	proteolysis, 	intracellular, 	cysteine-type endopeptidase activity, 
lin-13	C03B8.4	Gene Function : lin-13 encodes a large (2248-residue) nuclear protein with multiple zinc fingers of the C2H2 class and a LXCXE retinoblastoma protein-binding motif, that is required for survival through larval development and for negative regulation of vulval fates during postembryonic development. [Source: WormBase]	post-embryonic body morphogenesis, negative regulation of vulval development, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, molecular_function, 
NR_003424.1	C03B8.5	C03B8.5, snoRNA [Source:RefSeq_dna;Acc:NR_003424]			
C03B8.3	C03B8.3	Uncharacterized protein C03B8.3. [Source:Uniprot/SWISSPROT;Acc:Q11106]			
C03B8.2	C03B8.2	Uncharacterized protein C03B8.2. [Source:Uniprot/SWISSPROT;Acc:Q11105]	embryonic development ending in birth or egg hatching, 		
C03B8.1	C03B8.1	Uncharacterized protein C03B8.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q11104]			
ZK112.3	ZK112.3	Uncharacterized protein ZK112.3. [Source:Uniprot/SWISSPROT;Acc:P34612]			
ZK112.4	ZK112.4	Uncharacterized protein ZK112.4. [Source:Uniprot/SWISSPROT;Acc:P34613]			
ncl-1	ZK112.2	ncl-1 encodes a cytoplasmic B-box zinc finger protein that negatively regulates rRNA and 5S RNA transcription, nucleolus size, and body size. NCL-1 is orthologous to Drosophila BRAIN TUMOR (BRAT), and ncl-1 mutants can be rescued by brat transgenes. NCL-1 is required for the normally small size of neuronal, muscle, and hypodermal nucleoli, and is already active in 4-cell embryos. NCL-1 may be a repressor of RNA polymerase I and III transcription and an inhibitor of cell growth, based on mutant analysis. ncl-1 animals have much larger neuronal nucleoli than normal, somewhat larger muscle and hypodermal nucleoli, but essentially normal intestinal and germline nucleoli (the last of which are large even in wild-type animals). conversely, intestinal and germline cells have the lowest amounts of NCL-1 protein. ncl-1 animals are 9% larger, have 22% more protein and twice as much rRNA, and transcribe rRNA twice as much as wild-type worms. ncl-1 functions cell autonomously, and ncl-1 mutations suppress the tumorous germline phenotype of pro-1(na48) mutants. [Source: WormBase]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
ZK112.5	ZK112.5	Uncharacterized protein ZK112.5. [Source:Uniprot/SWISSPROT;Acc:P34614]			
ZK112.6	ZK112.6	Uncharacterized protein ZK112.6. [Source:Uniprot/SWISSPROT;Acc:P34615]			
cdh-3	ZK112.7	cdh-3 encodes a member of the cadherin superfamily that affects morphogenesis of tail epithelia and excretory function. expressed predominantly in developing epithelial cells, and also expressed in the AC, excretory cell, various neurons, and vulval cells during different stages of development. [Source: WormBase]	homophilic cell adhesion, morphogenesis of embryonic epithelium, tail tip morphogenesis, 	membrane, 	calcium ion binding, 
pcp-1	ZK112.1	Putative serine protease pcp-1 precursor (EC 3.4.-.-). [Source:Uniprot/SWISSPROT;Acc:P34610]	proteolysis, 		serine-type peptidase activity, 
mtx-2	ZC97.1	Metaxin-2 homolog. [Source:Uniprot/SWISSPROT;Acc:P34599]			protein binding, 
ZK686.2	ZK686.2	Putative ATP-dependent RNA helicase ZK686.2 (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:P34668]	regulation of transcription, DNA-dependent, growth, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, calcium ion binding, transcription factor activity, helicase activity, ATP-dependent helicase activity, 
ZK686.5	ZK686.5	Putative zinc finger protein ZK686.5. [Source:Uniprot/SWISSPROT;Acc:Q7Z142]		intracellular, 	zinc ion binding, nucleic acid binding, 
ZK686.3	ZK686.3	ZK686.3 is orthologous to the putative tumor suppressor N33 (OMIM:601385, associated with homozygous deletion in metastatic prostate cancer and with loss of function in other tumors). ZK686.3 is also homologous to the S. cerevisiae dolichyl-diphosphooligosaccharide-protein glycotransferase gamma chain (34-kD) subunit, OST3. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
ZK686.4	ZK686.4	Putative zinc finger protein ZK686.4. [Source:Uniprot/SWISSPROT;Acc:P34670]		intracellular, 	zinc ion binding, nucleic acid binding, 
ZK686.6	ZK686.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2ID83]			
ZK686.1	ZK686.1	Uncharacterized protein ZK686.1. [Source:Uniprot/SWISSPROT;Acc:P34667]	positive regulation of growth rate, 		
bath-15	C08C3.2	BTB and MATH domain-containing protein 15 (Fragment). [Source:Uniprot/SWISSPROT;Acc:P34324]			protein binding, 
mab-5	C08C3.3	mab-5 encodes a homeodomain transcription factor related to the Antennapedia, Ultrabithorax, and abdominal-A family of homeodomain proteins. during postembryonic development, mab-5 is required cell autonomously for specification of posterior cell fates, including hypodermal and neuronal fates, programmed cell deaths, cell proliferation and migration, and fate specification of the male-specific copulatory muscles and sensory rays. in addition, ectopic expression of mab-5 is sufficient to alter cell fates, such as direction of migration or sensory ray identity. in regions of the body where mab-5 expression overlaps with that of lin-39, another C. elegans HOM-C gene, the two genes appear to either compensate for one another's activity or act combinatorially to promote cell fates distinct from those where either gene is expressed alone. a mab-5:lacZ reporter fusion is expressed in cells in the posterior body region from the mid-gastrulation stage of embryogenesis through larval and adult stages. further, antibody staining reveals that MAB-5 expression in the V5 lineage is dynamic, switching on and off several times, while expression in V6 is continuous throughout most of the L1-L3 larval stages. early MAB-5 expression is V6 is dependent upon wild-type activity of pal-1, which encodes the C. elegans Caudal ortholog. [Source: WormBase]	regulation of transcription, DNA-dependent, anterior/posterior pattern formation, regulation of cell fate specification, homoiothermy, response to freezing, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, ice binding, 
C08C3.4	C08C3.4	Uncharacterized protein C08C3.4. [Source:Uniprot/SWISSPROT;Acc:P34325]	reproduction, 		protein binding, 
egl-5	C08C3.1	egl-5 encodes a homeodomain transcription factor, orthologous to Drosophila Abd-B and the vertebrate Hox9-13 proteins, that is required for specification of the HSN cell fate and of cell fates within the tail region. EGL-5 is expressed in the posterior of the animal. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, anterior/posterior pattern formation, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
egl-45	C27D11.1	egl-45 encodes a homolog of eukaryotic translation initiation factor 3, subunit 10, that affects development of the HSNs that affect egg laying. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	cellular_component, 	
ZK652.6	ZK652.6	Uncharacterized protein ZK652.6. [Source:Uniprot/SWISSPROT;Acc:P34664]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
ceh-23	ZK652.5	The ceh-23 gene encodes a homeodomain protein required for a specific differentiated trait of the thermosensory interneuron AIY. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ZK652.8	ZK652.8	Uncharacterized protein ZK652.8. [Source:Uniprot/SWISSPROT;Acc:P34665]			
rpl-35	ZK652.4	rpl-35 encodes a large ribosomal subunit L35 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
tag-307	ZK652.10	Temporarily Assigned Gene name family member (tag-307) [Source:RefSeq_peptide;Acc:NP_498703]	determination of adult life span, 		
coq-5	ZK652.9	coq-5 encodes a putative 2-hexaprenyl-6-methoxy-1,4-benzoquinone methyltransferase, homologous to COQ5 in S. cerevisiae and to a family of methyltransferases involved in ubiquinone, menaquinone, biotin and sterol biosynthesis and in phosphatidylethanolamine methylation. COQ-5 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-5 can transgenically rescue a coq-5 deletion in S. cerevisiae. coq-5(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. [Source: WormBase]	metabolic process, DNA methylation, determination of adult life span, 		methyltransferase activity, DNA binding, N-methyltransferase activity, 
tag-277	ZK652.3	tag-277 encodes a conserved eukaryotic protein with a ubiquitin-like fold. [Source: WormBase]			
tomm-7	ZK652.2	Probable mitochondrial import receptor subunit TOM7 homolog (Translocase of outer membrane 7 kDa subunit homolog). [Source:Uniprot/SWISSPROT;Acc:P34660]	intracellular protein transport, 	mitochondrial outer membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
cuc-1	ZK652.11	CU (copper) Chaperonin family member (cuc-1) [Source:RefSeq_peptide;Acc:NP_498707]	copper ion transport, metal ion transport, copper ion import, 		metal ion binding, 
snr-5	ZK652.1	snr-5 encodes an ortholog of human small nuclear ribonucleoprotein SmF, a protein that forms part of a heptameric complex required for biogenesis and function of the snRNPs that catalyze mRNA splicing. in combination with the gene that encodes the human SmE and SmG orthologs (snr-6 and snr-7, respectively), snr-5 affects embryonic viability and nuclear association and localization of P granules in embryos, based on an RNAi assay. affects embryonic and larval viability based on large-scale RNAi assays. snr-5 is expressed in embryos and adult gonads. [Source: WormBase]	mRNA metabolic process, embryonic development ending in birth or egg hatching, 	ribonucleoprotein complex, 	protein binding, 
C02C2.4	C02C2.4	Uncharacterized transporter C02C2.4. [Source:Uniprot/SWISSPROT;Acc:P34272]	transport, 	integral to membrane, 	transporter activity, 
cup-4	C02C2.3	The primary phenotype of cup-4 animals is an accumulation of secreted GFP in the pseudocoelom, suggesting a decrease in, or the absence of, endocytosis in coelomocytes. [Source: WormBase]	transport, ion transport, endocytosis, synaptic transmission, 	membrane, integral to membrane, postsynaptic membrane, cellular_component, 	extracellular ligand-gated ion channel activity, acetylcholine receptor activity, 
tyr-1	C02C2.1	C02C2.1 encodes a tyrosinase homolog with a glutamine/asparagine-rich domain. [Source: WormBase]	metabolic process, 		protein binding, oxidoreductase activity, 
C02C2.5	C02C2.5	Uncharacterized protein C02C2.5. [Source:Uniprot/SWISSPROT;Acc:P34273]	electron transport, 		oxidoreductase activity, 
ZK688.9	ZK688.9	Uncharacterized protein ZK688.9. [Source:Uniprot/SWISSPROT;Acc:P34274]	locomotory behavior, 		
ZK688.11	ZK688.11	ZK688.11 [Source:RefSeq_peptide;Acc:NP_001040896]			
ZK688.5	ZK688.5	Uncharacterized protein ZK688.5. [Source:Uniprot/SWISSPROT;Acc:P34675]	signal transduction, protein modification process, 		protein binding, 
ZK688.3	ZK688.3	Uncharacterized protein ZK688.3. [Source:Uniprot/SWISSPROT;Acc:P34673]	metabolic process, 		catalytic activity, 
ZK688.4	ZK688.4	Uncharacterized protein ZK688.4. [Source:Uniprot/SWISSPROT;Acc:P34674]			
ZK688.10	ZK688.10	ZK688.10 [Source:RefSeq_peptide;Acc:NP_001033389]			
ZK688.2	ZK688.2	Uncharacterized protein ZK688.2. [Source:Uniprot/SWISSPROT;Acc:P34672]			
tag-282	ZK688.6	Putative serine protease tag-282 precursor (EC 3.4.-.-). [Source:Uniprot/SWISSPROT;Acc:P34676]	proteolysis, embryonic development ending in birth or egg hatching, 		serine-type peptidase activity, 
ZK688.1	ZK688.1	Uncharacterized protein ZK688.1. [Source:Uniprot/SWISSPROT;Acc:P34671]			
ZK688.7	ZK688.7	Uncharacterized protein ZK688.7. [Source:Uniprot/SWISSPROT;Acc:P34677]			
ZK688.12	ZK688.12	Uncharacterized protein ZK688.12. [Source:Uniprot/SWISSPROT;Acc:Q27GV2]			structural molecule activity, 
gly-3	ZK688.8	gly-3 encodes an N-acetylgalactosaminyltransferase that is functional in vitro. [Source: WormBase]			
tag-250	C29E4.5	Putative protein tag-250. [Source:Uniprot/SWISSPROT;Acc:P34344]			nucleic acid binding, 
C29E4.14	C29E4.14	C29E4.14 [Source:RefSeq_peptide;Acc:NP_001033352]			calcium ion binding, 
C29E4.13	C29E4.13	C29E4.13 [Source:RefSeq_peptide;Acc:NP_001021187]		intracellular, 	zinc ion binding, nucleic acid binding, 
npp-15	C29E4.4	Nuclear pore complex protein 15 (Nucleoporin npp-15). [Source:Uniprot/SWISSPROT;Acc:P34343]	RNA transport, embryonic development ending in birth or egg hatching, biological_process, 	integral to membrane, nuclear pore, 	transporter activity, molecular_function, 
ran-2	C29E4.3	ran-2 encodes the C. elegans RanGAP (GTPase activating protein) homolog, conserved amongst yeast, Drosophila (segregation distorter), Xenopus, and humans. by homology, RAN-2 is predicted to function as a key regulator of the Ran GTP/GDP cycle by stimulating the otherwise weak Ran GTPase activity. in C. elegans, RAN-2 activity is essential during early embryogenesis for comigration of centrosomes with the male pronucleus, mitotic spindle formation, chromosome segregation, and nuclear envelope assembly. in addition, RAN-2 is also required for nucleocytoplasmic transport. ran-2 reporter gene expression is detected in embryos and larvae, although the precise subcellular localization is not yet known. [Source: WormBase]	reproduction, 		protein binding, GTPase activator activity, growth factor activity, 
C29E4.10	C29E4.10	C29E4.10 is orthologous to the human gene GALACTOCEREBROSIDASE (GALC. OMIM:606890), which when mutated leads to disease. [Source: WormBase]	galactosylceramide catabolic process, 		galactosylceramidase activity, 
C29E4.12	C29E4.12	C29E4.12 [Source:RefSeq_peptide;Acc:NP_741234]	embryonic development ending in birth or egg hatching, 		
kle-2	C29E4.2	Kleisin, abnormal closure, protein 2. [Source:Uniprot/SWISSPROT;Acc:P34341]	embryonic development ending in birth or egg hatching, biological_process, 	cellular_component, 	molecular_function, 
C29E4.7	C29E4.7	Uncharacterized GST-like protein C29E4.7 (EC 2.5.1.-). [Source:Uniprot/SWISSPROT;Acc:P34345]	metabolic process, positive regulation of growth rate, 	cytoplasm, 	glutathione transferase activity, 
col-90	C29E4.1	Putative cuticle collagen 90. [Source:Uniprot/SWISSPROT;Acc:P34340]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
C29E4.8	C29E4.8	Probable adenylate kinase isoenzyme C29E4.8 (EC 2.7.4.3) (ATP-AMP transphosphorylase). [Source:Uniprot/SWISSPROT;Acc:P34346]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleotide kinase activity, phosphotransferase activity, phosphate group as acceptor, adenylate kinase activity, 
C29E4.15	C29E4.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPI3]			
NM_066331.2	C29E4.9	C29E4.11 (C29E4.11) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_066331]			
F54H12.4	F54H12.4	Uncharacterized protein F54H12.4. [Source:Uniprot/SWISSPROT;Acc:P34458]			
F54H12.2	F54H12.2	Uncharacterized protein F54H12.2. [Source:Uniprot/SWISSPROT;Acc:P34456]			ribonucleoside-diphosphate reductase activity, 
F54H12.8	F54H12.8	Uncharacterized protein F54H12.5. [Source:Uniprot/SWISSPROT;Acc:P34459]		peptidoglycan-based cell wall, S-layer, 	structural constituent of cell wall, 
F54H12.7	F54H12.7	F54H12.7 [Source:RefSeq_peptide;Acc:NP_001033365]			
F54H12.5	F54H12.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F54H12.6	F54H12.6	Probable elongation factor 1-beta/1-delta 1 (EF-1-beta/delta 1). [Source:Uniprot/SWISSPROT;Acc:P34460]	translational elongation, positive regulation of growth rate, 	eukaryotic translation elongation factor 1 complex, 	translation elongation factor activity, 
aco-2	F54H12.1	aco-2 encodes an aconitase homolog that is required for embryonic viability, fertility, locomotion, and vulval morphogenesis, and perhaps for normal lifespan. ACO-2 is predicted to be mitochondrial. [Source: WormBase]	metabolic process, tricarboxylic acid cycle, embryonic development ending in birth or egg hatching, 		aconitate hydratase activity, hydro-lyase activity, 4 iron, 4 sulfur cluster binding, 
C06G4.4	C06G4.4	Uncharacterized protein C06G4.4. [Source:Uniprot/SWISSPROT;Acc:P34310]			
C06G4.t1	C06G4.t1				
clp-1	C06G4.2	clp-1 encodes a calpain homolog that has significant identity to mammalian calpains over its whole length and that contains motifs typical of calpains, including a thiol (cysteine) protease active site and a Ca[2+]-binding domain. CLP-1 is required, in parallel with TRA-3 but in series with ASP-3 and ASP-3, for degenerative (necrotic-like) cell death in neurons induced by mutations such as mec-4(d), deg-3(d), or gsa-1(gf). [Source: WormBase]	proteolysis, cell death, protein homooligomerization, 	membrane, intracellular, endoplasmic reticulum, 	calcium ion binding, cysteine-type endopeptidase activity, calcium-dependent cysteine-type endopeptidase activity, 
C06G4.1	C06G4.1	KH domain-containing protein C06G4.1. [Source:Uniprot/SWISSPROT;Acc:P34307]			RNA binding, 
C06G4.5	C06G4.5	Probable G-protein coupled receptor C06G4.5. [Source:Uniprot/SWISSPROT;Acc:P34311]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C06G4.6	C06G4.6	C06G4.6 [Source:RefSeq_peptide;Acc:NP_001033349]			
cit-1.1	F44B9.4	cit-1.1 encodes one of two C. elegans cyclin T orthologs. RNAi experiments indicate that CIT-1.1 functions redundantly with CIT-1.2 to broadly regulate embryonic transcription. by homology, CIT-1.1 and CIT-1.2 are predicted to interact with the CDK-9 kinase to form the P-TEFb transcription elongation factor that in C. elegans is required for Ser2, but not Ser5, phosphorylation in the C-terminal domain (CTD) repeat of AMA-1/Pol [Source: WormBase]			
cit-1.2	F44B9.3	cit-1.2 encodes one of two C. elegans cyclin T orthologs. RNAi experiments indicate that CIT-1.2 functions redundantly with CIT-1.1 to broadly regulate embryonic transcription. by homology, CIT-1.1 and CIT-1.2 are predicted to interact with the CDK-9 kinase to form the P-TEFb transcription elongation factor that in C. elegans is required for Ser2, but not Ser5, phosphorylation in the C-terminal domain (CTD) repeat of AMA-1/PolII. [Source: WormBase]	regulation of cyclin-dependent protein kinase activity, 		
F44B9.5	F44B9.5	Uncharacterized protein F44B9.5. [Source:Uniprot/SWISSPROT;Acc:P34426]	metabolic process, 		acyltransferase activity, 
lin-36	F44B9.6	Protein lin-36 (Abnormal cell lineage protein 36). [Source:Uniprot/SWISSPROT;Acc:P34427]	growth, embryonic digestive tract morphogenesis, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F44B9.2	F44B9.2	Uncharacterized protein F44B9.2. [Source:Uniprot/SWISSPROT;Acc:P34423]			
pqn-38	F44B9.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, 
F44B9.8	F44B9.8	Putative replication factor C subunit 5 (Replication factor C 36 kDa subunit) (RF-C 36 kDa subunit) (RFC36) (Activator 1 36 kDa subunit) (A1 36 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:P34429]	defense response, embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
F44B9.9	F44B9.9	Uncharacterized protein F44B9.9. [Source:Uniprot/SWISSPROT;Acc:P34430]			protein binding, hydrolase activity, 
F44B9.10	F44B9.10	F44B9.10 [Source:RefSeq_peptide;Acc:NP_741239]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
dpf-6	F44B9.1	Dipeptidyl peptidase family member 6 (EC 3.4.14.-). [Source:Uniprot/SWISSPROT;Acc:P34422]	proteolysis, 		serine-type peptidase activity, prolyl oligopeptidase activity, aminopeptidase activity, 
K12H4.6	K12H4.6	Uncharacterized protein K12H4.6. [Source:Uniprot/SWISSPROT;Acc:P34527]			
K12H4.5	K12H4.5	Uncharacterized protein K12H4.5. [Source:Uniprot/SWISSPROT;Acc:P34526]	embryonic development ending in birth or egg hatching, 		
K12H4.4	K12H4.4	Probable signal peptidase complex subunit 3 (EC 3.4.-.-) (Microsomal signal peptidase 22 kDa subunit) (SPase 22 kDa subunit) (SPC22). [Source:Uniprot/SWISSPROT;Acc:P34525]	signal peptide processing, embryonic development ending in birth or egg hatching, 	integral to membrane, signal peptidase complex, 	signal peptidase activity, 
K12H4.3	K12H4.3	Brix domain-containing protein K12H4.3. [Source:Uniprot/SWISSPROT;Acc:P34524]	growth, 		
K12H4.2	K12H4.2	Uncharacterized protein K12H4.2. [Source:Uniprot/SWISSPROT;Acc:P34523]			
K12H4.7	K12H4.7	Putative serine protease K12H4.7 precursor (EC 3.4.-.-). [Source:Uniprot/SWISSPROT;Acc:P34528]	proteolysis, biological_process, 	cellular_component, 	protein binding, serine-type peptidase activity, 
ceh-26	K12H4.1	ceh-26 encodes a protein that contains a prospero-related homeodomain. expressed in nuclei of the adult head, tail neurons, and one cell in the postdeirids. [Source: WormBase]	regulation of transcription, multicellular organismal development, biological_process, 	nucleus, 	transcription regulator activity, DNA binding, 
K12H4.t1	K12H4.t1				
dcr-1	K12H4.8	The dcr-1 gene encodes a bidentate ribonuclease that is homologous to E. coli RNAse III. dcr-1 is required both for RNA interference and for synthesis of small developmental RNAs. DCR-1 interacts in vivo with RDE-4, a double-stranded RNA (dsRNA) binding protein required for RNAi that interacts with trigger dsRNAs and may function to deliver dsRNAs to DCR-1 for endonucleolytic processing. [Source: WormBase]	RNA processing, positive regulation of growth rate, 	intracellular, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, RNA binding, protein binding, double-stranded RNA binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, ribonuclease III activity, 
apc-2	K06H7.6	apc-2 encodes an ortholog of subunit 2 of anaphase-promoting complex (APC, a cyclin-specific E3 RING ubiquitin ligase). APC-2 and S. cerevisiae's Apc2p have 32% identity in their cullin domains (considered crucial for function), but otherwise share no obvious similarity. inactivating apc-2 with RNAi causes embryos to arrest at the meiotic one-cell stage, implying that APC-2 is required for the metaphase-to-anaphase transition of meiosis I. this RNAi phenotype of apc-2 is shared by apc-1, apc-4, apc-11, cdc-16, cdc-23, and cdc-27. by analogy with other APC subunits with hypomorphic alleles, APC-2 is likely to be required for asymmetrical segregation of cell fate determinants in two-cell embryos. [Source: WormBase]	cell cycle, embryonic development ending in birth or egg hatching, 		protein binding, 
K06H7.7	K06H7.7	Uncharacterized protein K06H7.7. [Source:Uniprot/SWISSPROT;Acc:P34515]			
grp-1	K06H7.4	GTP exchange factor for ARFs 1. [Source:Uniprot/SWISSPROT;Acc:P34512]	regulation of ARF protein signal transduction, 	intracellular, 	protein binding, ARF guanyl-nucleotide exchange factor activity, 
K06H7.3	K06H7.3	Uncharacterized protein K06H7.3. [Source:Uniprot/SWISSPROT;Acc:P34511]		intracellular, 	zinc ion binding, nucleic acid binding, 
idi-1	K06H7.9	The K06H7.9 gene encodes a NUDIX hydrolase. [Source: WormBase]	isoprenoid biosynthetic process, 		hydrolase activity, isopentenyl-diphosphate delta-isomerase activity, 
K06H7.2	K06H7.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
K06H7.8	K06H7.8	Putative serine/threonine-protein kinase K06H7.1 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P34516]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
K06H7.1	K06H7.1	Uncharacterized protein K06H7.1. [Source:Uniprot/SWISSPROT;Acc:P34509]	embryonic development ending in birth or egg hatching, 		
plk-1	C14B9.4	plk-1 encodes a serine/threonine polo-like kinase homologous to Drosophila polo and Saccharomyces cerevisiae CDC5. PLK-1 is required for meiotic nuclear envelope breakdown, polar body formation and extrusion, and proper chromosome segregation during meiosis, and additionally, may play a role in germline development. PLK-1 is proposed to phosphorylate REC-8, a meiotic-specific cohesin, thus promoting REC-8 degradation and subsequent separation of sister chromatids. PLK-1 is localized diffusely in the cytoplasm of mature oocytes, but during meiosis I becomes associated with pre-metaphase chromatin and then at anaphase with chromatin and the area between dividing chromatin. in embryos, PLK-1 localizes to centrosomes, metaphase chromatin, and during telophase, to the area between dividing chromatin. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, mitotic spindle organization and biogenesis, mitotic nuclear envelope disassembly, centrosome cycle, central nervous system development, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
C14B9.t1	C14B9.t1				
C14B9.3	C14B9.3	Uncharacterized protein C14B9.3. [Source:Uniprot/SWISSPROT;Acc:P34330]			
C14B9.t2	C14B9.t2				
gei-8	C14B9.6	gei-8 encodes a novel protein highly similar to C. briggsae BP:CBP04038 that contains a glutamine/asparagine (Q/N)-rich ('prion') domain (by the algorithm of Michelitsch and Weissman) and two myb-like DNA-binding domains. interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]		nucleus, 	protein binding, DNA binding, 
rpl-21	C14B9.7	rpl-21 encodes a large ribosomal subunit L21 protein. by homology, RPL-21 is predicted to function in protein biosynthesis. in C. elegans, RPL-21 activity is required for embryonic and germline development. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
C14B9.10	C14B9.10	C14B9.10 [Source:RefSeq_peptide;Acc:NP_741246]	embryonic development ending in birth or egg hatching, 		
C14B9.2	C14B9.2	Probable protein disulfide-isomerase A4 precursor (EC 5.3.4.1) (ERp-72 homolog). [Source:Uniprot/SWISSPROT;Acc:P34329]	cell redox homeostasis, positive regulation of growth rate, 	endoplasmic reticulum, 	isomerase activity, 
hsp-12.2	C14B9.1	hsp-12.2 encodes a small heat-shock protein that forms heterotetramers with HSP-12.3 and has no chaperone-like activity. structurally, HSP-12.2 is mostly a beta-sheet. at least one HSP-12 (which may or may not be HSP-12.2) is ubiquitously expressed in L1 larvae, and later expressed in adult spermatids (and perhaps spermatocytes), and some adult vulval cells. [Source: WormBase]	reproduction, 		protein binding, structural constituent of eye lens, 
C14B9.8	C14B9.8	C14B9.8 is orthologous to the human gene PHOSPHORYLASE KINASE, LIVER, ALPHA-2 SUBUNIT (PHKA2. OMIM:306000), which when mutated leads to liver glycogenosis. [Source: WormBase]	glycogen metabolic process, 		calmodulin binding, 
D2007.4	D2007.4	Uncharacterized protein D2007.4. [Source:Uniprot/SWISSPROT;Acc:P34378]	growth, 		protein binding, 
D2007.3	D2007.3	Uncharacterized protein D2007.3. [Source:Uniprot/SWISSPROT;Acc:P34377]			
D2007.2	D2007.2	D2007.2 is orthologous to the human gene TRANSKETOLASE (WERNICKE-KORSAKOFF SYNDROME) (TNF. OMIM:606781), which when mutated leads to disease. [Source: WormBase]			structural molecule activity, 
D2007.1	D2007.1	Uncharacterized protein D2007.1. [Source:Uniprot/SWISSPROT;Acc:P34375]			
D2007.5	D2007.5	Uncharacterized protein D2007.5. [Source:Uniprot/SWISSPROT;Acc:P34379]			
C50C3.7	C50C3.7	Uncharacterized protein C50C3.7 (EC 3.1.3.-). [Source:Uniprot/SWISSPROT;Acc:P34370]			inositol or phosphatidylinositol phosphatase activity, 
bath-42	C50C3.8	The C50C3.8 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			protein binding, 
prp-8	C50C3.6	prp-8 is orthologous to the human gene SIMILAR TO U5 SNRNP-SPECIFIC PROTEIN (220 KD), ORTHOLOG OF S. [Source: WormBase]	nuclear mRNA splicing, via spliceosome, embryonic development ending in birth or egg hatching, 	spliceosome, 	
C50C3.12	C50C3.12	C50C3.12 [Source:RefSeq_peptide;Acc:NP_741247]			
C50C3.5	C50C3.5	Uncharacterized calcium-binding protein C50C3.5. [Source:Uniprot/SWISSPROT;Acc:P34368]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
C50C3.2	C50C3.2	Uncharacterized protein C50C3.2. [Source:Uniprot/SWISSPROT;Acc:P34367]			calcium ion binding, 
C50C3.1	C50C3.1	Uncharacterized protein C50C3.1. [Source:Uniprot/SWISSPROT;Acc:P34366]			zinc ion binding, nucleic acid binding, 
unc-36	C50C3.9	Voltage-dependent calcium channel unc-36 precursor (Uncoordinated protein 36). [Source:Uniprot/SWISSPROT;Acc:P34374]		membrane, 	
snb-5	C30A5.5	snb-5 encodes a predicted synaptobrevin. [Source: WormBase]	vesicle-mediated transport, 	integral to membrane, 	
C30A5.6	C30A5.6	Uncharacterized protein C30A5.6. [Source:Uniprot/SWISSPROT;Acc:P34352]			
C30A5.10	C30A5.10	C30A5.10a [Source:RefSeq_peptide;Acc:NP_498793]			
unc-86	C30A5.7	unc-86 encodes a transcription factor with a POU-type homeodomain that is required for correct fate determination and differentiaion in diverse neuronal lineages, including those of egg-laying neurons, mechanosensory neurons, and chemosensory interneurons. UNC-86 is orthologous to human BRN-3. UNC-86 is required for tph-1 and cat-1 expression in specific serotonergic neurons, as well as for neurite outgrowth. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, mechanosensory behavior, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
C30A5.4	C30A5.4	Uncharacterized protein C30A5.4. [Source:Uniprot/SWISSPROT;Acc:P34350]			hydrolase activity, 
C30A5.3	C30A5.3	Uncharacterized protein C30A5.3. [Source:Uniprot/SWISSPROT;Acc:P34349]			
rfs-1	C30A5.2	rfs-1 encodes a RAD51-like protein, orthologous to mammalian RAD-51C, that is related to bacterial recA, a multifunctional enzyme involved in DNA repair, homologous recombination, and induction of the SOS response. RFS-1 has no obvious function in mass RNAi assays. however, RFS-1 can interact with RAD-51, a C. elegans RAD51 homolog involved in meiosis and DNA repair, suggesting that RFS-1 may also play a role in these processes. [Source: WormBase]			nucleotide binding, nucleoside-triphosphatase activity, 
C02F5.7	C02F5.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			protein binding, 
C02F5.6	C02F5.6	Uncharacterized protein C02F5.6. [Source:Uniprot/SWISSPROT;Acc:P34283]			
C02F5.14	C02F5.14	C02F5.14 [Source:RefSeq_peptide;Acc:NP_001033346]			
C02F5.5	C02F5.5	Uncharacterized protein C02F5.5. [Source:Uniprot/SWISSPROT;Acc:P34282]			
tsp-2	C02F5.11	C02F5.11 [Source:RefSeq_peptide;Acc:NP_498803]		integral to membrane, 	
tsp-1	C02F5.8	Tetraspanin-1. [Source:Uniprot/SWISSPROT;Acc:P34285]	potassium ion transport, 	integral to membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
C02F5.12	C02F5.12	C02F5.12 encodes a protein with two C-terminal noncanonical C2H2 zinc-fingers whose paralogs include HIM-8 and ZIM-1/-3. while its specific biological function and expression pattern are unknown, C02F5.12 is required for normal meiosis in mass RNAi assays, and thus might share a function in meiotic chromosomal segregation with its better-characterized paralogs. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
pbs-6	C02F5.9	The pbs-6 gene encodes a homolog of mammalian PSMB1. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	proteasome core complex (sensu Eukaryota), 	protein binding, threonine endopeptidase activity, endopeptidase activity, 
C02F5.4	C02F5.4	Uncharacterized protein C02F5.4. [Source:Uniprot/SWISSPROT;Acc:P34281]			
C02F5.3	C02F5.3	Uncharacterized GTP-binding protein C02F5.3. [Source:Uniprot/SWISSPROT;Acc:P34280]		intracellular, 	GTP binding, 
C02F5.13	C02F5.13	TM2 domain-containing protein C02F5.13 precursor. [Source:Uniprot/SWISSPROT;Acc:P61228]			
C02F5.10	C02F5.10	Uncharacterized protein C02F5.10. [Source:Uniprot/SWISSPROT;Acc:P34287]			
C02F5.2	C02F5.2	Uncharacterized protein C02F5.2. [Source:Uniprot/SWISSPROT;Acc:P34279]			
knl-1	C02F5.1	knl-1 encodes a novel acidic protein with a coiled-coil region at its C-terminus. KNL-1 is an essential kinetochore component that is required for proper spindle elongation and chromosome separation, and in the kinetochore assembly pathway, plays a key role in linking the initiation of kinetochore formation with the construction of a functional microtubule-binding interface. in the assembly pathway, KNL-1 functions downstream of the DNA-proximal kinetochore components CeCENP-A/HCP-3 and CeCENP-B/HCP-4 and upstream of the outer kinetochore components HIM-10/Nuf2p, NDC-80/HEC1, CeBUB-1, HCP-1, and CeCLASP2/CLS-2. in expression studies in the one-cell embryo, KNL-1 localizes to kinetochores throughout mitosis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
F09G8.5	F09G8.5	Uncharacterized protein F09G8.5. [Source:Uniprot/SWISSPROT;Acc:P34390]			protein binding, 
ncr-2	F09G8.4	ncr-2 encodes a homolog of human NPC1, which when mutated leads to Niemann-Pick disease, type C (OMIM:257220). [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
col-91	F09G8.6	col-91 encodes a cuticle collagen. loss of col-91 via large-scale RNAi results in no obvious defects. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F09G8.3	F09G8.3	Probable 40S ribosomal protein S9, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:P34388]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F09G8.7	F09G8.7	Uncharacterized protein F09G8.7. [Source:Uniprot/SWISSPROT;Acc:P34392]			
tag-198	F09G8.2	Protein tag-198 precursor (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:P34387]	DNA metabolic process, 		deoxyribonuclease II activity, 
mps-4	F09G8.9	mps-4 encodes a single-pass transmembrane protein that is related to the vertebrate KCNE proteins, also known as MinK-related peptides (MiRPs) that associate with, and regulate, pore-forming ion channels. mps-1 is required for the normal function of several neurons and thus for normal body touch sensation, chemotaxis to select molecules, osmotic avoidance, and nose-touch. when coexpressed in tissue culture cells with C. elegans KVS-1, MPS-4 is able to alter the activity of this potassium-selective channel, suggesting that MPS-4 functions in vivo to regulate KVS-1 activity in neurons in which the two proteins are coexpressed. MPS-4 reporter fusions are expressed in neurons tentatively identified as AIA and AUA, as well as in the PVC neuron and the enteric muscle. [Source: WormBase]			
F09G8.10	F09G8.10	F09G8.10 [Source:RefSeq_peptide;Acc:NP_001033355]			
F09G8.8	F09G8.8	Uncharacterized protein F09G8.8 precursor. [Source:Uniprot/SWISSPROT;Acc:P34393]			sugar binding, 
mig-10	F10E9.6	mig-10 encodes proteins that contain, from N- to C-terminus, an RA-like (Ras association) domain, a PH (pleckstrin homology) domain, and a proline-rich motif, and that are homologous to the vertebrate RIAM, lamellopodin, and GRB7, 10, and 14 cytoplasmic adaptor proteins. during development, mig-10 activity is required for cell migration and axon outgrowth. in regulating axon outgrowth, mig-10 likely functions downstream of unc-6/Netrin and slt-1/Slit and in concert with UNC-34, with which it interacts in vitro. mig-10::gfp reporter fusions are expressed in neurons as well as in pharyngeal and intestinal tissue. when expressed in tissue culture cells, a MIG-10::GFP fusion protein colocalizes with F-actin and promotes lamellipodia formation. [Source: WormBase]	signal transduction, oviposition, vulval development, 		
F10E9.7	F10E9.7	Uncharacterized protein F10E9.7. [Source:Uniprot/SWISSPROT;Acc:P34401]	positive regulation of growth rate, 		
F10E9.5	F10E9.5	Uncharacterized protein F10E9.5. [Source:Uniprot/SWISSPROT;Acc:P34399]	positive regulation of growth rate, 		
F10E9.4	F10E9.4	Uncharacterized protein F10E9.4. [Source:Uniprot/SWISSPROT;Acc:P34398]	positive regulation of growth rate, 		
F10E9.3	F10E9.3	Uncharacterized protein F10E9.3. [Source:Uniprot/SWISSPROT;Acc:P34397]			protein binding, 
F10E9.2	F10E9.2	Uncharacterized protein F10E9.2. [Source:Uniprot/SWISSPROT;Acc:P34396]			protein binding, zinc ion binding, 
sas-4	F10E9.8	sas-4 encodes a predicted coiled-coil protein and centriole component recruited to the centrosome once per cell cycle at the time of organelle duplication and is required for centriole duplication and spindle assembly, levels dictate centrosome size, and also affects germ cell proliferation and locomotion. colocalizes with gamma-tubulin to centrosomes both in sperm and in the syncitial part of the gonad. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F10E9.11	F10E9.11	F10E9.11 [Source:RefSeq_peptide;Acc:NP_498829]	embryonic development ending in birth or egg hatching, 		
F10E9.10	F10E9.10	F10E9.10 [Source:RefSeq_peptide;Acc:NP_498830]	embryonic development ending in birth or egg hatching, 		
F10E9.1	F10E9.1	Uncharacterized protein F10E9.1. [Source:Uniprot/SWISSPROT;Acc:P34395]			
F10E9.12	F10E9.12	F10E9.12 [Source:RefSeq_peptide;Acc:NP_498832]			copper ion binding, 
ZC262.3	ZC262.3	Uncharacterized protein ZC262.3. [Source:Uniprot/SWISSPROT;Acc:P34595]			protein binding, 
ZC262.8	ZC262.8	ZC262.8 [Source:RefSeq_peptide;Acc:NP_498835]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
ZC262.2	ZC262.2	Uncharacterized protein ZC262.2. [Source:Uniprot/SWISSPROT;Acc:P34594]			
ZC262.4	ZC262.4	Uncharacterized protein ZC262.4. [Source:Uniprot/SWISSPROT;Acc:P34596]			
ZC262.9	ZC262.9				
ZC262.1	ZC262.1	R05D3.5 [Source:RefSeq_peptide;Acc:NP_498840]			
ZC262.5	ZC262.5	Putative ATP synthase epsilon chain, mitochondrial (EC 3.6.3.14). [Source:Uniprot/SWISSPROT;Acc:P34539]	ATP synthesis coupled proton transport, 	mitochondrion, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
ZC262.7	ZC262.7				
ZC262.10	ZC262.10				
R05D3.5	R05D3.5	R05D3.5 [Source:RefSeq_peptide;Acc:NP_498840]			
R05D3.6	R05D3.6	R05D3.6 encodes the epsilon subunit of the soluble, catalytic F1 portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V). RNAi experiments indicate that loss of R05D3.6 activity has minor effects on growth rate. [Source: WormBase]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	mitochondrion, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
unc-116	R05D3.7	unc-116 encodes a kinesin-1 heavy chain orthologue. UNC-116 is predicted to function as an an anterograde microtubule-based motor and its activity is required for normal early translocation of the meiotic spindle to the oocyte cortex, cortical positioning of the meiosis II spindle, polar body formation, locomotion, and larval development. in regulating meiotic spindle translocation, UNC-116 may function as part of a complex containing the kinesin light chain KLC-2 and a novel cargo adaptor protein, KCA-1. [Source: WormBase]	microtubule-based movement, positive regulation of multicellular organism growth, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
R05D3.8	R05D3.8	Putative RNA-binding protein R05D3.8. [Source:Uniprot/SWISSPROT;Acc:P34541]			nucleic acid binding, 
rfp-1	R05D3.4	rfp-1 encodes a putative ubiquitin-protein ligase orthologous to budding yeast Bre1p, rat Staring, human RNF20, and human RNF40. RFP-1 inhibits physiological apoptosis in oocytes, keeping it down to a normal level of ~50% in hermaphrodite gonads. RFP-1 is also required for vulval development, egg-laying, and progression through L1 larval stage. RFP-1 binds (in descending strength) UBC-1, UBC-2, and UBC-16 in two-hybrid experiments, while binding UBC-1 in coimmunoprecipitation experiments as well. RFP-1 is a nuclear protein, expressed in oocytes and in neurons, intestine, and gonads of larvae and adults. rfp-1(RNAi) hermaphrodites display elevated levels of physiological germline apoptosis, independent of CEP-1. [Source: WormBase]	positive regulation of growth rate, 	cytoplasm, extrinsic to membrane, 	protein binding, zinc ion binding, cytoskeletal protein binding, 
R05D3.9	R05D3.9	Uncharacterized protein R05D3.9 precursor. [Source:Uniprot/SWISSPROT;Acc:P34542]			
R05D3.3	R05D3.3	Putative zinc finger protein R05D3.3. [Source:Uniprot/SWISSPROT;Acc:P34536]			nucleic acid binding, 
R05D3.2	R05D3.2	R05D3.2 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:16889) (C7orf2. OMIM:605522), which when mutated leads to disease. [Source: WormBase]			
met-2	R05D3.11	Probable histone-lysine N-methyltransferase met-2 (EC 2.1.1.43). [Source:Uniprot/SWISSPROT;Acc:P34544]	chromatin modification, hermaphrodite genitalia development, 	nucleus, 	zinc ion binding, DNA binding, histone-lysine N-methyltransferase activity, 
R05D3.12	R05D3.12	R05D3.12 [Source:RefSeq_peptide;Acc:NP_741252]			ATP binding, 
R05D3.1	R05D3.1	Putative DNA topoisomerase II, mitochondrial precursor (EC 5.99.1.3). [Source:Uniprot/SWISSPROT;Acc:P34534]	DNA metabolic process, DNA topological change, gamete generation, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
ZK353.4	ZK353.4	Uncharacterized protein ZK353.4. [Source:Uniprot/SWISSPROT;Acc:P34627]			
ZK353.10	ZK353.10	ZK353.10 [Source:RefSeq_peptide;Acc:NP_001040895]			
ZK353.5	ZK353.5	Uncharacterized protein ZK353.5. [Source:Uniprot/SWISSPROT;Acc:P34628]			
ZK353.3	ZK353.3	Uncharacterized protein ZK353.3. [Source:Uniprot/SWISSPROT;Acc:P34626]	embryonic development ending in birth or egg hatching, 		
ZK353.2	ZK353.2	Uncharacterized protein ZK353.2. [Source:Uniprot/SWISSPROT;Acc:P34625]			
lap-1	ZK353.6	The lap-1 gene encodes a homolog of the zinc metalloprotease leucine aminopeptidase LAP that is predicted to be mitochondrial. [Source: WormBase]	proteolysis, 	intracellular, 	protein binding, leucyl aminopeptidase activity, aminopeptidase activity, identical protein binding, 
ZK353.7	ZK353.7	Copper homeostasis protein cutC homolog. [Source:Uniprot/SWISSPROT;Acc:P34630]			identical protein binding, 
ubxn-4	ZK353.8	UBX domain-containing protein 4. [Source:Uniprot/SWISSPROT;Acc:P34631]			
ZK353.1	ZK353.1	Uncharacterized cyclin-like protein ZK353.1. [Source:Uniprot/SWISSPROT;Acc:P34624]			
ZK353.9	ZK353.9	UPF0424 protein ZK353.9. [Source:Uniprot/SWISSPROT;Acc:Q95ZI6]			
sor-1	ZK1236.3	Sop-2 related protein 1. [Source:Uniprot/SWISSPROT;Acc:P34619]	multicellular organismal development, biological_process, regulation of gene expression, epigenetic, 	nuclear body, 	RNA binding, protein binding, 
cec-1	ZK1236.2	cec-1 encodes a nuclear protein with a chromodomain that is ubiquitously expressed in somatic cells, but is dispensable for embryonic survival or gross adult morphology. [Source: WormBase]	chromatin assembly or disassembly, DNA topological change, 	nucleus, chromatin, chromosome, 	ATP binding, DNA binding, chromatin binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
ZK1236.1	ZK1236.1	Uncharacterized GTP-binding protein ZK1236.1. [Source:Uniprot/SWISSPROT;Acc:P34617]	small GTPase mediated signal transduction, 	intracellular, 	GTP binding, GTPase activity, translation initiation factor activity, 
ZK1236.5	ZK1236.5	Uncharacterized protein ZK1236.5. [Source:Uniprot/SWISSPROT;Acc:P34621]	positive regulation of growth rate, 		
ZK1236.9	ZK1236.9	ZK1236.9 [Source:RefSeq_peptide;Acc:NP_001033388]	positive regulation of growth rate, 		
pqn-96	ZK1236.6	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
ZK1236.7	ZK1236.7	Uncharacterized protein ZK1236.7. [Source:Uniprot/SWISSPROT;Acc:P34623]	reproduction, 		
C30C11.4	C30C11.4	C30C11.4 encodes a member of the Hsp70 family of heat shock proteins. loss of C30C11.4 activity via large-scale RNAi screens results in a variety of defects including embryonic and larval lethality, slow growth rates, and locomotory and morphological defects. in addition loss of C30C11.4 has been reported to result in a small but reproducible reduction in adult lifespan in otherwise long-lived animals. [Source: WormBase]	positive regulation of growth rate, 		ATP binding, 
rpn-3	C30C11.2	26S proteasome non-ATPase regulatory subunit 3 (26S proteasome regulatory subunit rpn-3). [Source:Uniprot/SWISSPROT;Acc:Q04908]	embryonic development ending in birth or egg hatching, 		protein binding, 
C30C11.1	C30C11.1	Putative 39S ribosomal protein L32, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q04907]	translation, embryonic development ending in birth or egg hatching, 	large ribosomal subunit, 	structural constituent of ribosome, 
F42H10.t1	F42H10.t1				
F42H10.5	F42H10.5	Uncharacterized protein F42H10.5. [Source:Uniprot/SWISSPROT;Acc:P34418]	embryonic development ending in birth or egg hatching, 		DNA binding, protein dimerization activity, 
F42H10.6	F42H10.6	UPF0152 protein F42H10.6. [Source:Uniprot/SWISSPROT;Acc:P34419]			protein binding, catalytic activity, identical protein binding, 
F42H10.3	F42H10.3	LIM and SH3 domain protein F42H10.3. [Source:Uniprot/SWISSPROT;Acc:P34416]	biological_process, 	cellular_component, 	zinc ion binding, molecular_function, 
F42H10.7	F42H10.7	Protein DGCR14 homolog (DiGeorge syndrome critical region 14 homolog). [Source:Uniprot/SWISSPROT;Acc:P34420]			protein binding, molecular_function, 
F42H10.2	F42H10.2	Uncharacterized protein F42H10.2. [Source:Uniprot/SWISSPROT;Acc:P34415]			
F42H10.9	F42H10.9	Uncharacterized protein F42H10.9. [Source:Uniprot/SWISSPROT;Acc:P34414]			
C04D8.1	C04D8.1	GTPase-activating protein GAP (CeGAP). [Source:Uniprot/SWISSPROT;Acc:P34288]	signal transduction, Ras protein signal transduction, Rho protein signal transduction, homoiothermy, response to freezing, 	cytoplasm, intracellular, 	Ras GTPase activator activity, Rho GTPase activator activity, ice binding, 
ZC21.8	ZC21.8	Uncharacterized protein ZC21.8. [Source:Uniprot/SWISSPROT;Acc:P34592]			
ZC21.9	ZC21.9	ZC21.9 [Source:RefSeq_peptide;Acc:NP_001022973]			
ZC21.3	ZC21.3	ZC21.3 encodes a protein predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
ZC21.10	ZC21.10	ZC21.10 [Source:RefSeq_peptide;Acc:NP_001033384]			
trp-1	ZC21.2	trp-1 encodes a predicted transmembrane protein with similarity to transient receptor potential (TRP) ion channels. a TRP-1::GFP reporter fusion is expressed in motor neurons, interneurons, vulval and intestinal muscles, and the BAG sensory neuron. as loss of trp-1 activity via deletion mutation or large-scale RNAi results in no obvious defects, the precise role of trp-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	ion transport, calcium ion transport, 	membrane, integral to membrane, 	ion channel activity, calcium channel activity, ion transmembrane transporter activity, 
ZC21.6	ZC21.6	Uncharacterized protein ZC21.6. [Source:Uniprot/SWISSPROT;Acc:P34590]			
C02D5.3	C02D5.3	Uncharacterized GST-like protein C02D5.3 (EC 2.5.1.-). [Source:Uniprot/SWISSPROT;Acc:P34277]	metabolic process, microtubule-based movement, 	cytoplasm, microtubule, 	GTP binding, structural molecule activity, glutathione transferase activity, 
C02D5.2	C02D5.2	GILT-like protein C02D5.2. [Source:Uniprot/SWISSPROT;Acc:P34276]			
C02D5.1	C02D5.1	Probable isovaleryl-CoA dehydrogenase (EC 1.3.99.10) (IVD). [Source:Uniprot/SWISSPROT;Acc:P34275]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C06E1.3	C06E1.3	DUOXA-like protein C06E1.3. [Source:Uniprot/SWISSPROT;Acc:P34298]			
glr-1	C06E1.4	glr-1 encodes an AMPA (non-NMDA)-type ionotropic glutamate receptor subunit. GLR-1 activity is required for mediating the behavioral response to light nose touch and the frequency with which animals change locomotory direction in response to sensory cues such as food. GLR-1 and GLR-2, a second AMPA-type ionotropic glutatmate receptor, can interact to form functional heteromeric channels. GLR-1 is expressed in motorneurons and interneurons, including four of the five pairs of command interneurons that are required for locomotory control. in the ventral nerve cord and nerve ring, GLR-1 localizes to perinuclear structures in cell bodies and to punctate structures that appear to be glutamatergic postsynaptic specializations. proper GLR-1 localization in the anterior ventral nerve cord of older larvae and adults requires activity of the class I PDZ protein LIN-10. GLR-1 is ubiquitinated in vivo and its abundance at postsynaptic elements, which may influence postsynaptic strength, is regulated by ubiquitination. [Source: WormBase]	transport, ion transport, response to mechanical stimulus, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
fip-3	C06E1.5	Uncharacterized protein C06E1.5. [Source:Uniprot/SWISSPROT;Acc:P34300]			
fipr-16	C06E1.6	Uncharacterized protein C06E1.6. [Source:Uniprot/SWISSPROT;Acc:P34301]			
C06E1.7	C06E1.7	Putative glycosyltransferase C06E1.7 (EC 2.-.-.-). [Source:Uniprot/SWISSPROT;Acc:P34302]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
C06E1.8	C06E1.8	Putative zinc finger protein C06E1.8. [Source:Uniprot/SWISSPROT;Acc:P34303]		intracellular, 	zinc ion binding, nucleic acid binding, 
C06E1.1	C06E1.1	Uncharacterized protein C06E1.1. [Source:Uniprot/SWISSPROT;Acc:P34296]			protein binding, 
C06E1.9	C06E1.9	Uncharacterized protein C06E1.9. [Source:Uniprot/SWISSPROT;Acc:P34304]			
rha-2	C06E1.10	The C06E1.10 gene encodes a DEAH helicase orthologous to the Drosophila KURZ, the human KIAA1517, and the S. cerevisiae ECM16 proteins. [Source: WormBase]	growth, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C06E1.11	C06E1.11	Uncharacterized protein C06E1.11. [Source:Uniprot/SWISSPROT;Acc:P34306]			
C13G5.2	C13G5.2	Uncharacterized protein C13G5.2. [Source:Uniprot/SWISSPROT;Acc:P34327]			
ceh-16	C13G5.1	ceh-16 encodes a homeodomain protein orthologous to Drosophila and vertebrate Engrailed proteins involved in segment and appendage development. ceh-16 is an essential gene required for proper specification and differentiation of the lateral seam cells during embryonic development. in specifying seam cell fates, CEH-16 appears to act as a transcriptional regulator, repressing expression of the eff-1 gene required for cell fusion and inducing expression of seam cell-specific genes such as elt-5/GATA, nhr-73, and nhr-74. a rescuing CEH-16::GFP fusion protein is first expressed in the early embryo in cells of the AB lineage. in later embryonic stages CEH-16::GFP is seen in all lateral seam cell nuclei as well as in some anterior neurons. during postembryonic development, CEH-16::GFP is expressed in the DA1 and DD1 motorneurons. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of multicellular organism growth, plasma membrane fusion, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
polk-1	F22B7.6	DNA polymerase kappa (EC 2.7.7.7). [Source:Uniprot/SWISSPROT;Acc:P34409]	DNA repair, 		
gpr-1	F22B7.13	gpr-1 encodes an extremely similar (97% identity) paralog of GPR-2. GPR-1 (and GPR-2) proteins have two N-terminal tetratricopeptide-like motifs and a C-terminal GoLoco/GPR (G protein regulatory) motif, the latter of which has also been found in mammalian AGS3 and Drosophila Pins. GPR-1 is required for normally asymmetrical cleavage of one-cell embryos. GPR-1 and GPR-2 form a high molecular weight (~700 kDa) complex that includes LIN-5. GPR-1 binds GDP-bound GOA-1 via a GoLoco/GPR motif, and depends on RIC-8 for this binding. GPR-1/2, GOA-1, and LIN-5 colocalize at the cortex of early embryos. cortical enrichment of GPR-1 requires LIN-5, PAR-2, PAR-3, and LET-99. the asymmetric distribution of GPR-1/2 and LET-99 in EMS cells is dependent on MES-1/SRC-1 signaling. GPR-1/2 is co-immunoprecipitated with RIC-8 and GPA-16. [Source: WormBase]	signal transduction, embryonic development ending in birth or egg hatching, 		protein binding, GTPase activator activity, 
dnj-10	F22B7.5	This gene encodes a protein containing a DnaJ ('J') domain that is predicted to be mitochondrial. [Source: WormBase]	protein folding, biological_process, 		heat shock protein binding, protein binding, unfolded protein binding, 
twk-7	F22B7.7	TWiK family of potassium channels protein 7. [Source:Uniprot/SWISSPROT;Acc:P34410]	potassium ion transport, 	membrane, 	potassium channel activity, 
F22B7.t1	F22B7.t1				
fip-1	F22B7.4	Uncharacterized protein F22B7.4. [Source:Uniprot/SWISSPROT;Acc:P34407]			
F22B7.t2	F22B7.t2				
F22B7.3	F22B7.3	Uncharacterized protein F22B7.3. [Source:Uniprot/SWISSPROT;Acc:P34406]			
F22B7.t5	F22B7.t5				
flp-23	F22B7.2	FMRFamide-like neuropeptide 23 precursor [Contains: TKFQDFLRF-amide]. [Source:Uniprot/SWISSPROT;Acc:P34405]			
F22B7.9	F22B7.9	Uncharacterized protein F22B7.9. [Source:Uniprot/SWISSPROT;Acc:P34412]			
F22B7.t3	F22B7.t3				
F22B7.t4	F22B7.t4				
dpy-19	F22B7.10	The dpy-19 gene encodes a novel transmembrane protein whose human homolog is expressed in brain, and that is required for correct polarization and migration of the neuroblasts QL and QR. [Source: WormBase]			
F22B7.1	F22B7.1	Uncharacterized protein F22B7.1. [Source:Uniprot/SWISSPROT;Acc:P34404]			
pgl-2	B0523.3	pgl-2 encodes a novel protein of 532 amino acids that, in C. elegans, is one of three PGL protein family members. PGL-2 associates with P granules during postembryonic development. PGL-2 interacts with PGL-1, an additional P granule component, in yeast two-hybrid assays, but neither protein is required for proper localization of the other. [Source: WormBase]			protein binding, 
kin-31	B0523.1	kin-31 encodes a predicted tyrosine protein kinase expressed in the nucleus and cytoplasm of body-wall muscle cells. the expression of kin-31 was experimentally verified by RT-PCR. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
fli-1	B0523.5	fli-1 encodes a homolog of Drosophila flightless-I. can interact with human Ha-Ras and human actin in vitro. mRNA levels are highest in embryos. [Source: WormBase]			protein binding, actin binding, 
B0523.t1	B0523.t1				
B0303.2	B0303.2	Uncharacterized methyltransferase B0303.2 (EC 2.1.1.-). [Source:Uniprot/SWISSPROT;Acc:P34254]			methyltransferase activity, 
B0303.3	B0303.3	B0303.3 is orthologous to the human gene 3-KETOACYL-COA THIOLASE BETA-SUBUNIT OF TRIFUNCTIONAL PROTEIN (HADHB. OMIM:143450), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		transferase activity, transferring groups other than amino-acyl groups, 
B0303.4	B0303.4	Uncharacterized protein B0303.4. [Source:Uniprot/SWISSPROT;Acc:P34256]	protein modification process, 		
B0303.7	B0303.7	Uncharacterized protein B0303.7. [Source:Uniprot/SWISSPROT;Acc:P34258]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
sdz-1	B0303.8	Skn-1 dependent zygotic transcript 1 protein. [Source:Uniprot/SWISSPROT;Acc:P34259]	mesendoderm development, 	cellular_component, 	molecular_function, 
vps-33.1	B0303.9	Protein slp-1. [Source:Uniprot/SWISSPROT;Acc:P34260]	vesicle-mediated transport, vesicle docking during exocytosis, 		protein binding, 
B0303.11	B0303.11	Uncharacterized amino-acid permease B0303.11. [Source:Uniprot/SWISSPROT;Acc:P34261]	amino acid transport, transport, 	membrane, 	
B0303.16	B0303.16	B0303.16 [Source:RefSeq_peptide;Acc:NP_001040837]			
B0303.14	B0303.14	Uncharacterized protein B0303.14. [Source:Uniprot/SWISSPROT;Acc:P34263]			
B0303.15	B0303.15	Probable 39S ribosomal protein L11, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:P34264]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
ZK370.3	ZK370.3	Protein SLA2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q02328]	signal transduction, 	intracellular, 	actin binding, phospholipid binding, 
ZK370.4	ZK370.4	Uncharacterized NTE family protein ZK370.4. [Source:Uniprot/SWISSPROT;Acc:Q02331]	lipid metabolic process, 		
pdhk-2	ZK370.5	Probable [pyruvate dehydrogenase [lipoamide]] kinase, mitochondrial precursor (EC 2.7.11.2) (Pyruvate dehydrogenase kinase). [Source:Uniprot/SWISSPROT;Acc:Q02332]	phosphorylation, peptidyl-histidine phosphorylation, 		ATP binding, transferase activity, transferring phosphorus-containing groups, protein histidine kinase activity, 
ZK370.6	ZK370.6	Uncharacterized protein ZK370.6. [Source:Uniprot/SWISSPROT;Acc:Q02333]			
ugtp-1	ZK370.7	Uncharacterized protein ZK370.7. [Source:Uniprot/SWISSPROT;Acc:Q02334]	carbohydrate transport, nucleotide-sugar transport, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
sma-2	ZK370.2	sma-2 encodes, along with sma-3 and sma-4, one of three C. elegans Smad proteins, with SMA-2 and SMA-3 most closely related to receptor-regulated Smads (R-Smads) and SMA-4 more closely related to co-mediator Smads (CoSmads). during development, SMA-2 functions in a TGF-beta signaling pathway to regulate body size and specification of sensory structures in the male tail. a sma-2::gfp reporter is expressed in the pharynx, intestine, and hypodermis. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of multicellular organism growth, 	intracellular, 	protein binding, 
ZK370.8	ZK370.8	TPR repeat-containing protein ZK370.8. [Source:Uniprot/SWISSPROT;Acc:Q02335]			binding, 
aak-1	PAR2.3	aak-1 encodes one of two C. elegans homologs of the catalytic alpha subunit of AMP-activated protein kinases (AMPKs). aak-1 activity is required, in parallel with aak-2 and downstream of daf-2, daf-7, and par-4, for negative regulation of germline proliferation during dauer development. [Source: WormBase]	protein amino acid phosphorylation, electron transport, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, iron ion binding, monooxygenase activity, heme binding, 
mig-22	PAR2.4	Chondroitin sulfate synthase 2 (EC 2.4.1.175) (Chondroitin- polymerizing factor S) (N-acetylgalactosaminyl-proteoglycan 3-beta- glucuronosyltransferase 1) (EC 2.4.1.226). [Source:Uniprot/SWISSPROT;Acc:P45895]	embryonic development ending in birth or egg hatching, 		
PAR2.1	PAR2.1	Uncharacterized protein PAR2.1. [Source:Uniprot/SWISSPROT;Acc:P34496]	DNA replication, 		protein binding, single-stranded DNA binding, 
K02D10.1	K02D10.1	Putative NipSnap protein K02D10.1. [Source:Uniprot/SWISSPROT;Acc:P34492]	metabolic process, 		catalytic activity, hydrolase activity, phosphoric monoester hydrolase activity, 
K02D10.2	K02D10.2	Uncharacterized protein K02D10.2. [Source:Uniprot/SWISSPROT;Acc:P34493]			
K02D10.3	K02D10.3	Uncharacterized protein K02D10.3. [Source:Uniprot/SWISSPROT;Acc:P34494]			
K02D10.5	K02D10.5	Uncharacterized protein K02D10.5. [Source:Uniprot/SWISSPROT;Acc:P83351]	vesicle-mediated transport, growth, 	membrane, 	protein binding, 
K02D10.4	K02D10.4	Uncharacterized protein K02D10.4. [Source:Uniprot/SWISSPROT;Acc:P34495]			
ztf-1	F54F2.5	Zinc finger transcription factor family protein 1. [Source:Uniprot/SWISSPROT;Acc:P34450]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
zfp-1	F54F2.2	zfp-1 encodes a leucine zipper, zinc finger, and PHD/LAP domain (plant homeodomain/leukemia-associated protein)-containing protein homologous to human AF10 (OMIM:602409, which is involved in chromosomal translocations associated with acute leukemia). loss of zfp-1 activity via RNA-mediated interference (RNAi) results in suppression of RNAi, suggesting that ZFP-1 plays a role in gene silencing. based on sequence similarity, ZFP-1 is predicted to associate with chromatin. [Source: WormBase]	hermaphrodite genitalia development, RNA interference, homoiothermy, response to freezing, 		protein binding, zinc ion binding, ice binding, 
F54F2.6	F54F2.6	Uncharacterized protein F54F2.6. [Source:Uniprot/SWISSPROT;Acc:P34451]			
F54F2.7	F54F2.7	Uncharacterized protein F54F2.7. [Source:Uniprot/SWISSPROT;Acc:P34452]	positive regulation of growth rate, 		
prx-19	F54F2.8	prx-19 is orthologous to the human gene PEROXISOMAL FARNESYLATED PROTEIN (PXF. OMIM:600279), which when mutated leads to peroxisome biogenesis (Zellweger) syndrome of complementation group J. [Source: WormBase]	nematode larval development, growth, 	peroxisome, 	protein binding, 
F54F2.1	F54F2.1	Integrin alpha pat-2 precursor. [Source:Uniprot/SWISSPROT;Acc:P34446]	cell adhesion, oviposition, 	integrin complex, 	
F54F2.9	F54F2.9	Uncharacterized protein F54F2.9. [Source:Uniprot/SWISSPROT;Acc:P34454]	protein folding, 	nucleus, 	heat shock protein binding, DNA binding, unfolded protein binding, 
F44E2.3	F44E2.3	Uncharacterized protein F44E2.3. [Source:Uniprot/SWISSPROT;Acc:P34433]			
F44E2.10	F44E2.10	F44E2.10 [Source:RefSeq_peptide;Acc:NP_498951]			
F44E2.4	F44E2.4	Uncharacterized protein F44E2.4. [Source:Uniprot/SWISSPROT;Acc:P34434]			
F44E2.6	F44E2.6	Uncharacterized protein F44E2.6. [Source:Uniprot/SWISSPROT;Acc:P34436]			peptide-methionine-(S)-S-oxide reductase activity, 
F44E2.7	F44E2.7	Putative zinc finger protein F44E2.7. [Source:Uniprot/SWISSPROT;Acc:P34437]		intracellular, 	zinc ion binding, nucleic acid binding, 
F44E2.8	F44E2.8	Uncharacterized protein F44E2.8. [Source:Uniprot/SWISSPROT;Acc:P34438]			
F44E2.9	F44E2.9	Uncharacterized protein F44E2.9. [Source:Uniprot/SWISSPROT;Acc:Q9GQ63]			
retr-1	F44E2.2	Uncharacterized protein F44E2.2 (EC 3.4.23.-). [Source:Uniprot/SWISSPROT;Acc:P34431]	proteolysis, DNA integration, RNA-dependent DNA replication, 		RNA binding, zinc ion binding, DNA binding, nucleic acid binding, aspartic-type endopeptidase activity, RNA-directed DNA polymerase activity, 
K01F9.2	K01F9.2	K01F9.2 [Source:RefSeq_peptide;Acc:NP_001022650]			
ZK637.1	ZK637.1	Putative transporter ZK637.1. [Source:Uniprot/SWISSPROT;Acc:P30638]	transport, ion transport, 	integral to membrane, 	transporter activity, ion transmembrane transporter activity, 
ZK637.2	ZK637.2	Uncharacterized protein ZK637.2. [Source:Uniprot/SWISSPROT;Acc:P30629]			
ZK637.14	ZK637.14	Uncharacterized RING finger protein ZK637.14. [Source:Uniprot/SWISSPROT;Acc:P30631]			protein binding, zinc ion binding, 
tag-256	ZK637.3	Putative protein tag-256. [Source:Uniprot/SWISSPROT;Acc:P30639]	embryonic development ending in birth or egg hatching, 		
ZK637.4	ZK637.4	Uncharacterized protein ZK637.4. [Source:Uniprot/SWISSPROT;Acc:P30637]			
asna-1	ZK637.5	asna-1 encodes a putative membrane transporter that is required, non-cell-autonomously, for L1 larvae to proceed through development when fed, and is also required for normal insulin (DAF-28) secretion. the human ASNA1 ortholog stimulates insulin secretion in pancreatic beta cells, and can transgenically rescue asna-1 mutant C. elegans, suggesting that ASNA-1's function is conserved among metazoa. asna-1 mutants only progress to adulthood when rescued by maternal ASNA-1. without maternal rescue, asna-1 mutants eat food and endocytose nutrients normally, but nevertheless arrest growth as L1 larvae and localize DAF-16 to the nucleus as if food were absent. asna-1 is expressed in some sensory neurons, in insulin-producing intestinal cells, and in hypodermis. ASNA-1 positively regulates dauer exit in the same way that overexpression of the insulins DAF-28 or INS-4 does, and requires DAF-28 to do this efficiently. ASNA-1 has ATPase activity in vitro, and this activity is required for transgenic rescue of asna-1 mutations. [Source: WormBase]	electron transport, anion transport, 	membrane, 	ATP binding, protein binding, oxidoreductase activity, 
ZK637.6	ZK637.6				
lin-9	ZK637.7	lin-9 encodes two novel proteins that are conserved amongst C. elegans, Drosophila, plants, and vertebrates. lin-9 activity is required redundantly with activity of the synMuv A genes, such as lin-8, for negative regulation of the RTK/Ras-mediated signal transduction pathway that controls vulval development. in addition, lin-9 activity is required non-redundantly for hermaphrodite gonadal sheath cell development (and thus, reproduction), as well as for development of the male reproductive system including the male sensory rays and spicules. [Source: WormBase]	post-embryonic body morphogenesis, negative regulation of vulval development, gonad development, 		
unc-32	ZK637.8	unc-32 encodes, by alternative splicing, six isoforms of an ortholog of subunit a of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). UNC-32 is orthologous to human ATP6N1A (OMIM:192130), ATP6V0A2, ATP6V0A4 (OMIM:605239, mutated in distal renal tubular acidosis), and TCIRG1 (OMIM:604592, mutated in osteopetrosis). one UNC-32 isoform is essential for locomotion and normal synaptic vesicle morphology in motoneurons, is expressed solely in the nervous system, and is specifically mutated by unc-32(e189) or unc-32(f120). other UNC-32 isoforms are essential for embryonic and larval development. UNC-32 is expressed throughout the life cycle, strongly in the nervous system, but also in vulvae, spermathecal-uterine valves, and pharynx. UNC-32 is required for necrosis, since mutations of unc-32 suppress necrotic neurodegeneration and thapsigargin-induced cell death. in S. cerevisiae, different V0 a-subunits (Stv1p and Vph1p) direct the assembly of V-ATPases to different membranes and organelles, suggesting that the profusion of such subunits in C. elegans (co-orthologous VHA-5, VHA-6, VHA-7, and six UNC-32 isoforms) may have a similar function. UNC-32 is predicted to capture protons from V-ATPase transmembrane rotor components and export the protons across the membrane. [Source: WormBase]	ATP synthesis coupled proton transport, response to antibiotic, proton transport, tetracycline transport, embryonic development ending in birth or egg hatching, negative regulation of locomotion, positive regulation of non-apoptotic programmed cell death, 	membrane, integral to membrane, vacuolar proton-transporting V-type ATPase complex, 	calcium ion binding, tetracycline:hydrogen antiporter activity, 
tpk-1	ZK637.9	Thiamin pyrophosphokinase 1 (EC 2.7.6.2) (Thiamine pyrophosphokinase 1) (TPK1). [Source:Uniprot/SWISSPROT;Acc:P30636]	thiamin metabolic process, thiamin diphosphate biosynthetic process, 		ATP binding, thiamin diphosphokinase activity, 
trxr-2	ZK637.10	Probable glutathione reductase 2 (EC 1.8.1.7) (GR) (GRase). [Source:Uniprot/SWISSPROT;Acc:P30635]	electron transport, cell redox homeostasis, glycerol-3-phosphate metabolic process, 	cytoplasm, glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, NADP binding, FAD binding, oxidoreductase activity, acting on NADH or NADPH, disulfide as acceptor, glycerol-3-phosphate dehydrogenase activity, 
cdc-25.3	ZK637.11	cdc-25.3 encodes a tyrosine phosphatase that is a member of the cell division cycle 25 (CDC25) family of cell cycle regulators that includes Schizosaccharomyces pombe CDC25 and Drosophila string. cdc-25.3 is one of four cdc-25 genes in C. elegans and while it is known to be expressed in hermaphrodites, the precise function of cdc-25.3 is not yet clear. cdc-25.3 may function redundantly with cdc-25.2 during embryonic development and redundantly with cdc-25.1, cdc-25.2, and emb-29 during meiosis. [Source: WormBase]	protein amino acid dephosphorylation, M phase of mitotic cell cycle, 	intracellular, cellular_component, 	protein tyrosine phosphatase activity, 
ZK637.15	ZK637.15	ZK637.15 [Source:RefSeq_peptide;Acc:NP_498973]			
glb-1	ZK637.13	Globin-like protein. [Source:Uniprot/SWISSPROT;Acc:P30627]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
ZK637.12	ZK637.12	Uncharacterized protein ZK637.12. [Source:Uniprot/SWISSPROT;Acc:P34658]			
ZK643.7	ZK643.7	Uncharacterized protein ZK643.7. [Source:Uniprot/SWISSPROT;Acc:P30653]			
ZK643.1	ZK643.1	Uncharacterized protein ZK643.1. [Source:Uniprot/SWISSPROT;Acc:P30647]			
NR_003440.1	ZK643.9	ZK643.9, snoRNA [Source:RefSeq_dna;Acc:NR_003440]			
ZK643.3	ZK643.3	ZK643.3 encodes a transmembrane protein with similarity to the secretin family of G-protein-coupled receptors. unlike other members of this family, however, the product of ZK643.3 contains six, rather than seven, predicted transmembrane domains. expression pattern screens using lacZ reporter fusions reveal ZK643.3 expression in head muscles, the vm1 vulval muscles, and an unidentified cell(s) in the anal region. [Source: WormBase]	transport, 	membrane, extracellular space, 	G-protein coupled receptor activity, 
ZK643.5	ZK643.5	Uncharacterized protein ZK643.5. [Source:Uniprot/SWISSPROT;Acc:P30651]			protein binding, 
ZK643.2	ZK643.2	Probable deoxycytidylate deaminase (EC 3.5.4.12) (dCMP deaminase). [Source:Uniprot/SWISSPROT;Acc:P30648]			zinc ion binding, hydrolase activity, 
ZK643.6	ZK643.6	Uncharacterized protein ZK643.6 precursor. [Source:Uniprot/SWISSPROT;Acc:P30652]			
grl-25	ZK643.8	grl-25 encodes a putatively hedgehog-like protein, with an N-terminal signal sequence and an extended glycine-rich low-complexity region. GRL-25 is expressed in intestine and the nervous system. [Source: WormBase]	regulation of transcription, DNA-dependent, potassium ion transport, protein homooligomerization, 	membrane, proteinaceous extracellular matrix, nucleus, extracellular region, voltage-gated potassium channel complex, 	transcription factor activity, extracellular matrix structural constituent, hormone activity, voltage-gated potassium channel activity, 
R08D7.1	R08D7.1	BUD13 homolog. [Source:Uniprot/SWISSPROT;Acc:P30640]	embryonic development ending in birth or egg hatching, 		
R08D7.2	R08D7.2	UPF0385 protein R08D7.2. [Source:Uniprot/SWISSPROT;Acc:P30641]	positive regulation of growth rate, 		
eif-3.D	R08D7.3	eif-3.D encodes the C. elegans ortholog of the translation initiation factor 3 subunit d (eIF3d/Moe1). by homology, EIF-3.D is predicted to function as part of the eIF3 translation initiation complex but also as part of a Ras-mediated pathway that regulates mitotic spindle formation. in C. elegans, large-scale RNAi screens indicate that eif-3.D is required for embryonic and germline development, locomotion, and normal rates of post-embryonic growth. in the early embryo, eif-3.D is specifically required for the fidelity of meiotic divisions and normal pseudocleavage. eif-3.D function is likely conserved, as expression of eif-3.D in Schizosaccharomyces pombe can rescue the mitotic spindle and growth defects associated with moe1 mutant cells. to date, eif-3.D expression has been reported in anterior neurons and the pharynx, beginning at late stages of embryogenesis. [Source: WormBase]	translational initiation, embryonic development ending in birth or egg hatching, 		protein binding, translation initiation factor activity, 
R08D7.4	R08D7.4	R08D7.8 [Source:RefSeq_peptide;Acc:NP_871670]			
R08D7.5	R08D7.5	Uncharacterized calcium-binding protein R08D7.5. [Source:Uniprot/SWISSPROT;Acc:P30644]			calcium ion binding, 
pde-2	R08D7.6	Probable 3',5'-cyclic phosphodiesterase pde-2 (EC 3.1.4.17). [Source:Uniprot/SWISSPROT;Acc:P30645]	signal transduction, 		catalytic activity, 3',5'-cyclic-nucleotide phosphodiesterase activity, 
R08D7.7	R08D7.7	Uncharacterized sugar kinase R08D7.7 (EC 2.7.1.-). [Source:Uniprot/SWISSPROT;Acc:P30646]	carbohydrate metabolic process, 		
F59B2.2	F59B2.2	Putative amino-acid permease F59B2.2. [Source:Uniprot/SWISSPROT;Acc:P34479]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
F59B2.3	F59B2.3	Putative N-acetylglucosamine-6-phosphate deacetylase (EC 3.5.1.25) (GlcNAc 6-P deacetylase). [Source:Uniprot/SWISSPROT;Acc:P34480]	N-acetylglucosamine metabolic process, 		protein binding, hydrolase activity, N-acetylglucosamine-6-phosphate deacetylase activity, 
F59B2.5	F59B2.5	Uncharacterized protein F59B2.5. [Source:Uniprot/SWISSPROT;Acc:P34481]			
zif-1	F59B2.6	zif-1 encodes a SOCS-box protein that promotes establishment of the germ line by targetting germline proteins for cullin-dependent degradation in non-germline (somatic) cells. ZIF-1 binds germline CCCH-(zinc)-finger proteins and the E3 ubiquitin ligase subunit elongin C (ELC-1). while ZIF-1 has no obvious homologs, it may be analogous to the Drosophila SOCS-box protein GUSTAVUS, which is required for VASA localization to the germline and which does have mammalian homologs. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 		protein binding, 
rab-6.1	F59B2.7	Ras-related protein Rab-6.1. [Source:Uniprot/SWISSPROT;Acc:P34213]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
F59B2.8	F59B2.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F59B2.9	F59B2.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F59B2.11	F59B2.11	Uncharacterized protein F59B2.11 precursor. [Source:Uniprot/SWISSPROT;Acc:P34486]			
F59B2.12	F59B2.12	Uncharacterized protein F59B2.12. [Source:Uniprot/SWISSPROT;Acc:P34487]			
F59B2.13	F59B2.13	Putative G-protein coupled receptor F59B2.13. [Source:Uniprot/SWISSPROT;Acc:P34488]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nac-2	R107.1	nac-2 encodes a high affinity sodium-coupled citrate transporter that is orthologous to the mammalian citrate transporter NaCT and is one of four C. elegans proteins related to Drosophila Indy. when expressed in a heterologous system, NAC-2 exhibits high affinity sodium/citrate and sodium/succinate cotransporter activity, although the transport rate for citrate is much higher than that for succinate. nac-2::gfp reporter fusions are expressed in the intestine, from early larval stages through adulthood. the effects of nac-2(RNAi) are variable, with reports of a 19% increase in lifespan accompanied by decreased body size and fat content in affected animals and reports of no apparent decrease in average lifespan. [Source: WormBase]	sodium ion transport, citrate transport, determination of adult life span, 	membrane, integral to membrane, 	transporter activity, citrate transmembrane transporter activity, 
R107.2	R107.2	Uncharacterized protein R107.2. [Source:Uniprot/SWISSPROT;Acc:P32740]			
ikke-1	R107.4	Putative serine/threonine-protein kinase R107.4 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P32742]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
R107.5	R107.5	Uncharacterized protein R107.5. [Source:Uniprot/SWISSPROT;Acc:P32743]			
cls-2	R107.6	cls-2 encodes one of three predicted orthologs of mammalian CLASPs and of Drosophila ORBIT/MAST, microtubule-binding proteins required for fibroblast polarization and mitosis. cls-2 is required in mass RNAi assays for embryonic development and normal mitotic spindles. it has been claimed that, in an RNAi screen of potential microtubule tip-binding proteins, only cls-2(RNAi) yielded embryonic lethality and meiotic defects. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
gst-1	R107.7	gst-1 encodes a putative glutathione S-transferase of the pi class. GST-1 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. gst-1(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. [Source: WormBase]	metabolic process, defense response, biological_process, 	cellular_component, 	protein binding, glutathione transferase activity, 
lin-12	R107.8	The lin-12 gene encodes a member of the Notch/LIN-12/glp-1 transmembrane receptor family that affects cell fate specification events during development, notably including the anchor cell, secondary vulval precursor cells, and the embryonic ABplp lineage. its expression is dynamic, including Z1.ppp and Z4.aaa, ABplaa descendants, ABplpa descendants, and the intestinal primordium. [Source: WormBase]	multicellular organismal development, cell differentiation, Notch signaling pathway, nematode larval development, oviposition, 	membrane, integral to membrane, 	calcium ion binding, 
F02A9.7	F02A9.7	F02A9.7 [Source:RefSeq_peptide;Acc:NP_001021243]			
F02A9.1	F02A9.1	Uncharacterized protein F02A9.1 precursor. [Source:Uniprot/SWISSPROT;Acc:P34380]			
far-1	F02A9.2	far-1 encodes a fatty acid/retinol binding protein. expressed throughout development with highest expression levels in L3 stage larvae and in adult males. [Source: WormBase]	post-embryonic body morphogenesis, 		lipid binding, 
far-2	F02A9.3	far-2 encodes a protein similar to a class of secreted fatty acid and retinol-binding proteins expressed in parasitic nematodes and secreted in the surrounding tissues of the host. expressed in body wall muscle and vulval cells of adult hermaphrodites, and transcript levels progressively increase during development. [Source: WormBase]			protein binding, lipid binding, 
F02A9.4	F02A9.4	F02A9.4 is orthologous to the human gene SIMILAR TO METHYLCROTONOYL-COENZYME A CARBOXYLASE 2 (BETA) (MCCC2. OMIM:210210), which when mutated leads to disease. [Source: WormBase]	RNA processing, positive regulation of growth rate, 		RNA binding, ribonuclease III activity, ligase activity, 
glp-1	F02A9.6	glp-1 encodes an N-glycosylated transmembrane protein that, along with LIN-12, comprises one of two C. elegans members of the LIN-12/Notch family of receptors. from the N- to the C-terminus, GLP-1 is characterized by ten extracellular EGF-like repeats, three LIN-12/Notch repeats, a CC-linker, a transmembrane domain, a RAM domain, six intracellular ankyrin repeats, and a PEST sequence. in C. elegans, GLP-1 activity is required for cell fate specification in germline and somatic tissues. in the germline, GLP-1, acting as a receptor for the DSL family ligand LAG-2, is essential for mitotic proliferation of germ cells and maintenance of germline stem cells. in somatic tissues, maternally provided GLP-1, acting as a receptor for the DSL family ligand APX-1, is required for inductive interactions that specify the fates of certain embryonic blastomeres. GLP-1 is also required for some later embryonic cell fate decisions, and in these decisions its activity is functionally redundant with that of LIN-12. GLP-1 expression is regulated temporally and spatially via translational control, as GLP-1 mRNA, present ubiquitously in the germline and embryo, yields detectable protein solely in lateral, interior, and endomembranes of distal, mitotic germ cells, and then predominantly in the AB blastomere and its descendants in the early embryo. proper spatial translation of glp-1 mRNA in the embryo is dependent upon genes such as the par genes, that are required for normal anterior-posterior asymmetry in the early embryo. signaling through GLP-1 controls the activity of the downstream Notch pathway components LAG-3 and LAG-1, the latter being predicted to function as part of a transcriptional feedback mechanism that positively regulates GLP-1 expression. signaling through the DNA-binding protein LAG-1 is believed to involve a direct interaction between LAG-1 and the GLP-1 RAM and ankyrin domains [Source: WormBase]	multicellular organismal development, cell differentiation, Notch signaling pathway, embryonic development ending in birth or egg hatching, embryonic pattern specification, 	membrane, integral to membrane, 	calcium ion binding, 
ZK507.1	ZK507.1	Putative serine/threonine-protein kinase ZK507.1 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P34633]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
ZK507.3	ZK507.3	Putative serine/threonine-protein kinase ZK507.3 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P34635]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
ZK507.4	ZK507.4	Uncharacterized protein ZK507.4. [Source:Uniprot/SWISSPROT;Acc:P34636]			
ZK507.t1	ZK507.t1				
ZK507.6	ZK507.6	G2/mitotic-specific cyclin-A1. [Source:Uniprot/SWISSPROT;Acc:P34638]	hermaphrodite genitalia development, 	nucleus, 	
ZK512.1	ZK512.1	Uncharacterized protein ZK512.1. [Source:Uniprot/SWISSPROT;Acc:P34639]			
grl-11	ZK512.9	grl-11 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. GRL-11 is expressed in larval pharynx. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
ced-11	ZK512.3	The ced-11 gene encodes a predicted transmembrane ion channel related to the long transient receptor potential channel (LTRPC) subfamily of TRP channels found in Drosophila and mammals. CED-11 functions as a downstream effector in the programmed cell death pathway and may play a role in affecting the morphological changes seen in the nucleus, cytoplasm, and plasma membrane of apoptotic cells. [Source: WormBase]	positive regulation of programmed cell death, 		
ZK512.5	ZK512.5	Uncharacterized protein ZK512.5. [Source:Uniprot/SWISSPROT;Acc:P34643]	embryonic development ending in birth or egg hatching, 		protein binding, 
ZK512.10	ZK512.10	ZK512.10 [Source:RefSeq_peptide;Acc:NP_001023003]			
eat-4	ZK512.6	eat-4 encodes an ortholog of the mammalian BNPI vesicular glutamate transporter that affects chemotaxis, feeding, foraging and thermotaxis. eat-4 is expressed in specific neurons, including M3L and M3R which are known to be glutamatergic. [Source: WormBase]	transport, reproduction, 	integral to membrane, 	transporter activity, 
ZK512.7	ZK512.7	Uncharacterized protein ZK512.7. [Source:Uniprot/SWISSPROT;Acc:P34645]	reproduction, 		
ZK512.2	ZK512.2	Probable ATP-dependent RNA helicase DDX55 homolog (EC 3.6.1.-) (DEAD box protein 55). [Source:Uniprot/SWISSPROT;Acc:P34640]	positive regulation of growth rate, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
ZK512.11	ZK512.11	ZK512.11 [Source:RefSeq_peptide;Acc:NP_001023004]			
ZK512.4	ZK512.4	Signal recognition particle 9 kDa protein homolog (SRP9). [Source:Uniprot/SWISSPROT;Acc:P34642]	SRP-dependent cotranslational protein targeting to membrane, negative regulation of translational elongation, 	signal recognition particle, 	RNA binding, protein binding, 7S RNA binding, 
ZK512.8	ZK512.8	Uncharacterized protein ZK512.8. [Source:Uniprot/SWISSPROT;Acc:P34646]			
nhl-1	F54G8.4	The nhl-1 gene encodes an RBCC protein, orthologous to the mammalian protein BERP. its C. elegans paralogs include ncl-1 and lin-41. [Source: WormBase]		intracellular, 	protein binding, zinc ion binding, catalytic activity, 
F54G8.1	F54G8.1	Uncharacterized protein F54G8.1. [Source:Uniprot/SWISSPROT;Acc:Q03599]		membrane, 	
ptr-9	F54G8.5	ptr-9 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-9 is required for normal development in mass RNAi assays. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
dgk-3	F54G8.2	dgk-3 encodes a diacylglycerol kinase that is the C. elegans ortholog of mammalian DGK-beta. dgk-3 activity is required for regulation of long-term thermotactic behavioral plasticity and for regulation of olfactory adaptation. large-scale expression studies have reported dgk-3 expression in head neurons, the intestine, and the pharyngeal lumen, while expression profiling indicates that dgk-3 is expressed in the AFD thermosensory neurons as well as a small number of additional sensory neurons. [Source: WormBase]	intracellular signaling cascade, protein kinase C activation, regulation of long-term neuronal synaptic plasticity, 		calcium ion binding, diacylglycerol kinase activity, 
ina-1	F54G8.3	ina-1 encodes one of two C. elegans alpha integrin subunits. during development, ina-1 activity is required for migration of a number of cell types, including neurons, coelomocyte precursors, and the distal tip cells of the somatic gonad. in addition, ina-1 is required for axon fasciculation and morphogenesis of structures such as the head, pharynx, egg-laying apparatus, and male tail. INA-1 coimmunoprecipitates with the PAT-3 beta integrin subunit suggesting that, in vivo, INA-1 and PAT-3 function as a heterodimer to regulate cell migration and tissue morphogenesis. INA-1 is expressed in many tissues, including neurons, the gonad, and the pharyngeal basement membrane. expression begins during gastrulation and continues through to adulthood. [Source: WormBase]	cell adhesion, morphogenesis of an epithelium, 	integrin complex, 	
F54G8.6	F54G8.6				
tax-4	ZC84.2	tax-4 is orthologous to the human gene ROD PHOTORECEPTOR CGMP-GATED CHANNEL (CNGA1. OMIM:123825), which when mutated leads to disease. [Source: WormBase]	protein amino acid phosphorylation, ion transport, potassium ion transport, chemosensory behavior, thermosensory behavior, 	membrane, integral to membrane, cAMP-dependent protein kinase complex, 	ion channel activity, cAMP-dependent protein kinase regulator activity, voltage-gated potassium channel activity, cGMP binding, 
ZC84.7	ZC84.7	ZC84.7 [Source:RefSeq_peptide;Acc:NP_001022979]			
ZC84.3	ZC84.3	Protein CLASP-3. [Source:Uniprot/SWISSPROT;Acc:Q03609]			
ZC84.6	ZC84.6	ZC84.6 [Source:RefSeq_peptide;Acc:NP_499035]			serine-type endopeptidase inhibitor activity, 
ZC84.1	ZC84.1				serine-type endopeptidase inhibitor activity, 
ZC84.5	ZC84.5				
ZC84.4	ZC84.4	ZC84.4 encodes a G protein-coupled receptor with acidic amino acids in the -3 position of its PDZ binding motif. ZC84.4 protein binds PDZ domain 10 of the multi-PDZ domain protein, MPZ-1, in GST pulldown experiments. by analogy with SER-1, the PDZ binding motif of ZC84.4 may enhance its signalling. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
rnr-1	T23G5.1	Ribonucleoside-diphosphate reductase large subunit (EC 1.17.4.1) (Ribonucleotide reductase large chain). [Source:Uniprot/SWISSPROT;Acc:Q03604]	DNA replication, embryonic development ending in birth or egg hatching, 	ribonucleoside-diphosphate reductase complex, 	protein binding, ribonucleoside-diphosphate reductase activity, 
T23G5.7	T23G5.7				
T23G5.3	T23G5.3	Uncharacterized protein T23G5.3. [Source:Uniprot/SWISSPROT;Acc:Q03607]	protein complex assembly, potassium ion transport, actin polymerization and/or depolymerization, 	membrane, actin cytoskeleton, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, small GTPase regulator activity, 
T23G5.2	T23G5.2	Uncharacterized protein T23G5.2. [Source:Uniprot/SWISSPROT;Acc:Q03606]	transport, 	intracellular, 	transporter activity, 
T23G5.6	T23G5.6	Uncharacterized protein T23G5.6. [Source:Uniprot/SWISSPROT;Acc:Q03615]	DNA repair, 		
dat-1	T23G5.5	dat-1 encodes a plasma membrane dopamine transporter. DAT-1 is predicted to regulate dopaminergic neurotransmission via reuptake of dopamine into presynaptic neurons. when expressed in HeLa cells, DAT-1 exhibits high affinity, saturable dopamine transport. further, in primary cultures of C. elegans dopaminergic neurons, DAT-1 also exhibits a channel mode of conduction that leads to membrane depolarization. in hermaphrodites, dat-1 is expressed in the eight dopaminergic neurons (4 CEPs, 2 ADEs, and 2 PDEs), while in males dat-1 is additionally expressed in the three pairs of tail dopaminergic neurons. dat-1 expression begins during embryogenesis with the exception of expression in the PDE neurons which are born postembryonically. [Source: WormBase]	neurotransmitter transport, amine transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
T02C1.1	T02C1.1	Uncharacterized RING finger protein T02C1.1. [Source:Uniprot/SWISSPROT;Acc:Q03605]	protein ubiquitination, 	ubiquitin ligase complex, 	protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
T02C1.2	T02C1.2	T02C1.2 [Source:RefSeq_peptide;Acc:NP_001022740]			protein binding, zinc ion binding, 
M01A8.1	M01A8.1	Uncharacterized protein M01A8.1. [Source:Uniprot/SWISSPROT;Acc:P34530]			
M01A8.2	M01A8.2	Uncharacterized protein M01A8.2. [Source:Uniprot/SWISSPROT;Acc:P34531]			
fozi-1	K01B6.1	fozi-1 encodes an unusual zinc-finger protein that has two C2H2 zinc-finger motifs that probably mediate transcriptional regulation along with a glutamine-rich region and a vestigial formin homology 2 (FH2) domain that has lost its ability to polymerize actin but retained its ability to dimerize. during postembryonic development, FOZI-1 acts with MAB-5 and redundantly with HLH-1/CeMyoD to autonomously specify coelomocyte and striated body wall muscle fates. in addition, fozi-1 is required for the fully asymmetrical phenotypic distinction of ASER cells from ASEL cells. fozi-1 mutant animals variably express flp-4, gcy-6, gcy-7 and lim-6, genes normally restricted to ASEL, in ASER as well, while maintaining expression of ASER-specific genes. ectopic FOZI-1 expression in ASEL can suppress lim-6 expression. fozi-1 genetically interacts with several regulatory proteins and miRNAs. FOZI-1 is a nuclear protein that is expressed in neuronal lineages beginning at the 2-fold stage of embryogenesis, and then in neurons and cells derived from the M mesoblast during larval development. expression in the M lineage corresponds to cells that will generate coelomocytes and body wall muscles and is not seen in the sex myoblasts (SMs). FOZI-1 expression in the M lineage requires the Hox co-factor CEH-20. [Source: WormBase]	actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, mesodermal cell fate specification, 	intracellular, 	protein binding, zinc ion binding, actin binding, 
K01B6.4	K01B6.4	K01B6.4 [Source:RefSeq_peptide;Acc:NP_001022649]			
K01B6.3	K01B6.3	Uncharacterized protein K01B6.3. [Source:Uniprot/SWISSPROT;Acc:P34491]			
srx-45	K01B6.2	Serpentine receptor class X 45 (Protein srx-45). [Source:Uniprot/SWISSPROT;Acc:P34490]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C40H1.8	C40H1.8	C40H1.8 [Source:RefSeq_peptide;Acc:NP_001021213]	lipid metabolic process, 		triacylglycerol lipase activity, 
C40H1.2	C40H1.2	Uncharacterized protein C40H1.2. [Source:Uniprot/SWISSPROT;Acc:Q03572]			triacylglycerol lipase activity, 
C40H1.9	C40H1.9	C40H1.9 [Source:RefSeq_peptide;Acc:NP_001021214]	lipid metabolic process, 		triacylglycerol lipase activity, 
cpb-1	C40H1.1	cpb-1 encodes a cytoplasmic polyadenylation element binding (CPEB) protein homolog involved in two steps of spermatogenesis. two CPEB proteins have distinct functions in spermatogenesis, with FOG-1 specifying sperm cell fate, and CPB-1 conversely executing that decision, being required for progression through meiosis. cpb-1(RNAi) spermatocytes fail to undergo meiotic cell divisions. CPB-1 protein is present in the germ line just prior to overt spermatogenesis, but once sperm differentiation begins, CPB-1 disappears. CPB-1 physically interacts with EBF, which, like CPEB, regulates genes by binding the 3' UTRs of mRNAs. while CPB-1 is required for spermatogenesis, it is dispensable for oogenesis. this is in contrast to CPEBs in vertebrates (Xenopus), arthropods (Drosophila), and molluscs (Spisula), which all participate in oogenesis. [Source: WormBase]	spermatogenesis, regulation of translation, 		nucleic acid binding, 
C40H1.7	C40H1.7	C40H1.7 [Source:RefSeq_peptide;Acc:NP_499052]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
C40H1.3	C40H1.3	Uncharacterized protein C40H1.3. [Source:Uniprot/SWISSPROT;Acc:Q03573]			
C40H1.5	C40H1.5	Transthyretin-like protein C40H1.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q03575]			
C40H1.6	C40H1.6	Probable Ufm1-conjugating enzyme (Ubiquitin-fold modifier-conjugating enzyme). [Source:Uniprot/SWISSPROT;Acc:Q03598]			protein binding, 
elo-4	C40H1.4	The elo-4 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. its function in vivo is unknown. [Source: WormBase]		integral to membrane, 	
emb-9	K04H4.1	emb-9 encodes the alpha-1 chain of Type IV basement membrane collagen most closely equivalent to human COL4A1 (OMIM:120130) on the basis of biological function. EMB-9 forms heterotrimeric Type IV collagen with LET-2, the alpha-2-like chain, and is required for the assembly and/or secretion of LET-2. EMB-9 is essential for embryonic morphogenesis, particularly epidermal elongation, and for larval development. EMB-9 is expresed primarily by body wall muscles and some somatic cells of the gonad and is detected in nearly all basement membranes. [Source: WormBase]	phosphate transport, extracellular matrix organization and biogenesis, positive regulation of growth rate, 	cytoplasm, proteinaceous extracellular matrix, collagen, 	protein binding, extracellular matrix structural constituent, 
K04H4.2	K04H4.2	K04H4.2 encodes, by alternative splicing, three proteins ranging from 628 to 1446 residues in length. K04H4.2 proteins are predicted to be secreted, with an N-terminal chitin-binding peritrophin-A domain followed by up to 15 cysteine-rich domains. the general organization of K04H4.2 protein resembles that of T10E10.4. in mass RNAi assays, K04H4.2 is required for larval growth and locomotion. K04H4.2 transcription is upregulated by hypoxia, in parallel with ketn-1. [Source: WormBase]	chitin metabolic process, growth, 	extracellular region, 	protein binding, chitin binding, 
K04H4.5	K04H4.5	Uncharacterized protein K04H4.5. [Source:Uniprot/SWISSPROT;Acc:P34507]			
flp-25	K04H4.7	FMRF-Like Peptide family member (flp-25) [Source:RefSeq_peptide;Acc:NP_001022665]	neuropeptide signaling pathway, 		
crn-6	K04H4.6	Cell death-related nuclease 6 precursor (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:P34508]	DNA metabolic process, DNA fragmentation during apoptosis, 		deoxyribonuclease II activity, 
C38C10.3	C38C10.3	Uncharacterized protein C38C10.3. [Source:Uniprot/SWISSPROT;Acc:Q03568]			
tkr-1	C38C10.1	tkr-1 encodes a G protein-coupled receptor that is the C. elegans tachykinin-like neuropeptide receptor homolog. by homology, TKR-1 is predicted to function in modulation of excitatory neurotransmission. as loss of tkr-1 activity via RNAi results in moderate reduction of fat content, TKR-1 may play a specific role in regulating lipid metabolism. a tkr-1 reporter gene fusion is reportedly expressed in the socket cells of the deirid and post-deirid sensilla from the L2 larval stage through adulthood. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, plasma membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, tachykinin receptor activity, neuropeptide receptor activity, 
C38C10.2	C38C10.2	C38C10.2 is orthologous to the human gene SOLUTE CARRIER FAMILY 17 (ANION/SUGAR TRANSPORTER), MEMBER 5 (SLC17A5. OMIM:604322), which when mutated leads to disease. [Source: WormBase]	transport, 	integral to membrane, 	transporter activity, 
gpr-2	C38C10.4	gpr-2 encodes a protein containing a GPR (G Protein Regulator)/GoLoco motif characteristic of guanine nucleotide exchange factors specific for G-alpha GTPases. GPR-2 appears to function redundantly during early embryogenesis and germ-line development to regulate chromosome and spindle movements during cell division. GPR-2 likely acts as a positive regulator of G protein signaling and specifically, may regulate GOA-1 signaling in the embryo. GPR-2 forms a protein complex with the nearly identical GPR-1 and with LIN-5, a coiled-coil protein that is required for proper localization of GPR-2 to the cell cortex and spindle asters of the early embryo. in addition, proper GPR-2/GPR-1/LIN-5 localization between the P2 and EMS blastomeres at the four-cell stage, which may contribute to spindle positioning in EMS, requires the MES-1/SRC-1 tyrosine kinase signaling pathway. GPR-2 is believed to act downstream of, or in parallel to, PAR-3, a PDZ domain-containing protein, in mitotic spindle positioning in the early embryo. [Source: WormBase]	signal transduction, embryonic development ending in birth or egg hatching, 		GTPase activator activity, 
rgr-1	C38C10.5	RNA polymerase II mediator complex subunit 14 (Mediator complex subunit rgr-1). [Source:Uniprot/SWISSPROT;Acc:Q03570]	embryonic development ending in birth or egg hatching, 		
C38C10.6	C38C10.6	C38C10.6 [Source:RefSeq_peptide;Acc:NP_001021208]			
T26G10.1	T26G10.1	Putative ATP-dependent RNA helicase T26G10.1 (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:P34580]	growth, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
T26G10.3	T26G10.3	Uncharacterized protein T26G10.3. [Source:Uniprot/SWISSPROT;Acc:P34582]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
T26G10.6	T26G10.6				
T26G10.4	T26G10.4	Uncharacterized protein T26G10.4. [Source:Uniprot/SWISSPROT;Acc:P34583]			
T26G10.5	T26G10.5	Uncharacterized protein T26G10.5. [Source:Uniprot/SWISSPROT;Acc:P34584]	reproduction, 		
cpar-1	F54C8.2	cpar-1 encodes one of two C. elegans proteins homologous to the inner kinetochore histone H3 variant CENP-A (the other is encoded by hcp-3). loss of cpar-1 and hcp-3 activity via RNAi results in mitotic chromosome segregation defects, but no significant defects in meiotic chromosome segregation. when expressed in the germline using the pie-1 promoter, a CPAR-1::GFP fusion protein localizes to meiotic chromosomes during late prophase/prometaphase of meiosis I, but is not seen on chromosomes during meiosis II. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
emb-30	F54C8.3	emb-30 encodes an anaphase-promoting complex/cyclosome (APC/C) component orthologous to mammalian APC-4 and Schizosaccharomyces pombe Lid1. EMB-30 is required for the metaphase-to-anaphase transition during meiosis and mitosis, for establishing anterior-posterior polarity in the early embryo, and for proper localization of germline granules and the maternally provided PAR-2 and PAR-3 proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
F54C8.1	F54C8.1	Probable 3-hydroxyacyl-CoA dehydrogenase F54C8.1 (EC 1.1.1.35). [Source:Uniprot/SWISSPROT;Acc:P34439]	potassium ion transport, fatty acid metabolic process, 		oxidoreductase activity, cation transmembrane transporter activity, 
F54C8.4	F54C8.4	Probable tyrosine-protein phosphatase F54C8.4 (EC 3.1.3.48). [Source:Uniprot/SWISSPROT;Acc:P34442]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F54C8.6	F54C8.6	Uncharacterized protein F54C8.6. [Source:Uniprot/SWISSPROT;Acc:P34444]			
NR_002649.1	F54C8.8	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	F54C8.9	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002640.1	F54C8.10	F54C8.10, snRNA [Source:RefSeq_dna;Acc:NR_002640]			
F54C8.7	F54C8.7	Uncharacterized protein F54C8.7. [Source:Uniprot/SWISSPROT;Acc:P34445]		cytoplasm, 	protein binding, 
rheb-1	F54C8.5	Ras-like protein F54C8.5 precursor. [Source:Uniprot/SWISSPROT;Acc:P34443]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, negative regulation of multicellular organism growth, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
spk-1	B0464.5	spk-1 encodes a serine/threonine kinase orthologous to the highly conserved serine/arginine-rich protein kinases (SRPKs) that phosphorylate SR proteins, essential components of the pre-mRNA splicing machinery. SPK-1, required for embryogenesis and germline development, can directly bind and phosphorylate RSP-3 (CeSF2/ASF), an SR splicing factor homolog. SPK-1 is expressed predominantly in the adult germline. SPK-1 is homologous to human RSK2, which when mutated leads to Coffin-Lowry syndrome (OMIM:303600). [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 	cellular_component, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
B0464.6	B0464.6	Uncharacterized protein B0464.6. [Source:Uniprot/SWISSPROT;Acc:Q03564]			
B0464.9	B0464.9	Uncharacterized protein B0464.9. [Source:Uniprot/SWISSPROT;Acc:Q9BIB3]	aromatic compound metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, hydrolase activity, 
baf-1	B0464.7	baf-1 encodes a small, novel protein that is highly conserved amongst metazoa. BAF-1 binds double-stranded DNA nonspecifically in vitro and is essential for proper chromosome segregation, embryogenesis, and gonad development in vivo. biochemical and phenotypic analyses suggest that BAF-1 functions as an intramolecular bridge that mediates nuclear assembly and chromatin capture by the reforming nuclear envelope. by homology with mammalian BAF proteins, BAF-1 is also predicted to play a role in regulating gene expression and higher-order chromatin structure. during interphase, BAF-1 colocalizes with LMN-1/lamin to the nuclear envelope and nuclear interior. during mitosis, BAF-1 is present in a more punctate pattern, localizing near condensing chromatin and maintaining this localization through telophase. BAF-1 localization during nuclear assembly requires the activity of LMN-1/lamin, EMR-1/emerin, and LEM-2/MAN1. [Source: WormBase]	embryonic development ending in birth or egg hatching, post-embryonic body morphogenesis, 		DNA binding, 
tag-342	B0464.8	Temporarily Assigned Gene name family member (tag-342) [Source:RefSeq_peptide;Acc:NP_499086]	embryonic development ending in birth or egg hatching, 		protein binding, 
bre-3	B0464.4	bre-3 encodes a protein similar to beta-glycosyltransferases from bacteria that is required for the toxicity of Bacillus thuringiensis Cry5B. BRE-3 may act in a pathway with bre-5 and is expressed and functions in the gut epithelium. [Source: WormBase]	glycosphingolipid biosynthetic process, 	cytoplasm, 	beta-1,4-mannosyltransferase activity, 
nlp-36	B0464.3	Neuropeptide-like peptide 36 precursor. [Source:Uniprot/SWISSPROT;Acc:Q03561]			
drs-1	B0464.1	drs-1 encodes a putative aspartyl(D) tRNA synthetase [Source: WormBase]	translation, tRNA aminoacylation for protein translation, aspartyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, aminoacyl-tRNA ligase activity, aspartate-tRNA ligase activity, 
B0464.2	B0464.2	TPR repeat-containing protein B0464.2. [Source:Uniprot/SWISSPROT;Acc:Q03560]	embryonic development ending in birth or egg hatching, 		binding, 
sod-4	F55H2.1	Extracellular superoxide dismutase [Cu-Zn] precursor (EC 1.15.1.1) (EC-SOD). [Source:Uniprot/SWISSPROT;Acc:P34461]	superoxide metabolic process, 		metal ion binding, copper, zinc superoxide dismutase activity, 
lrg-1	F55H2.4	lrg-1 encodes a truncated paralog of let-99, a protein with a DEP domain (Domain found in Dishevelled, Egl-10, and Pleckstrin). lrg-1(RNAi) animals have no obvious phenotype. since the nucleotide similarity of lrg-1 to let-99 extends beyond the lrg-1 CDS, and since lrg-1 has no obvious function in RNAi assays, this gene may be decaying towards pseudogene status. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
vha-14	F55H2.2	vha-14 encodes an ortholog of subunit D of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-14 is a predicted cytosolic rotor (stalk) component. [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
F55H2.5	F55H2.5	Putative cytochrome b561 (Cytochrome b-561). [Source:Uniprot/SWISSPROT;Acc:P34465]	electron transport, 	membrane, integral to membrane, 	mating-type factor pheromone receptor activity, 
F55H2.7	F55H2.7	F55H2.7 encodes an unfamiliar protein that is dispensable for viability and gross morphology in mass RNAi screens. it residues in a common operon with clu-1, and thus might act in concert with it. [Source: WormBase]			
clu-1	F55H2.6	clu-1 encodes an ortholog of CLU1/TIF31 in S. cerevisiae, which directs proper cytoplasmic distribution of mitochondria and physically interacts with eukaryotic translation initiation factor 3 (eIF3). worm CLU-1 may be required for the proper distribution of mitochondria, but is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
ZK1098.1	ZK1098.1	ZK1098.1 encodes a protein, with multiple WW/rsp5/WWP domains and FF domains, required for embryonic viability and for normally high rates of postembryonic growth. [Source: WormBase]	growth, 		protein binding, 
ZK1098.7	ZK1098.7	Uncharacterized protein ZK1098.7. [Source:Uniprot/SWISSPROT;Acc:P34748]	growth, 		
ZK1098.5	ZK1098.5	ZK1098.5 encodes a unfamiliar protein that is individually dispensable for viability and gross morphology in RNAi assays, but is cotranscribed with ZK1098.1 and thus might act in concert with it. [Source: WormBase]	positive regulation of multicellular organism growth, 		protein binding, 
ZK1098.6	ZK1098.6	ZK1098.6 encodes a coiled-coil protein that is individually dispensable for viability and gross morphology in RNAi assays, but is cotranscribed with ZK1098.1 and thus might act in concert with it. [Source: WormBase]			
ZK1098.2	ZK1098.2		reproduction, 		
ZK1098.3	ZK1098.3	Uncharacterized protein ZK1098.3. [Source:Uniprot/SWISSPROT;Acc:P34603]		intracellular, 	nucleic acid binding, 3'-5' exonuclease activity, 
mut-7	ZK1098.8	mut-7 encodes a homolog of RnaseD that represses transposition of Tc1, Tc3, Tc4, and Tc5, perhaps by degrading transposon-specific messages. also affects sperm development, sensitivity to RNAi of mainly germline expressed genes, silencing of some germline transgenes, X chromosome loss, and is required for cosuppression (functional silencing of chromosomal loci induced by transgenes) and for silencing induced by antisense RNA oligomers. cellular fractionation experiments indicate that MUT-7 is expressed in adult worms, and resides in a complex in both the cytosol and nucleus. in the cytosolic complex, MUT-7 interacts with RDE-2, a novel protein also required for RNA interference. [Source: WormBase]	transport, growth, 	intracellular, 	transporter activity, protein binding, nucleic acid binding, 3'-5' exonuclease activity, lipid binding, 
ZK1098.4	ZK1098.4	Probable translation initiation factor eIF-2B subunit alpha (eIF-2B GDP-GTP exchange factor subunit alpha). [Source:Uniprot/SWISSPROT;Acc:P34604]	cellular metabolic process, 		protein binding, 
ZK1098.9	ZK1098.9	Uncharacterized protein ZK1098.9. [Source:Uniprot/SWISSPROT;Acc:P34608]	embryonic development ending in birth or egg hatching, 		
unc-16	ZK1098.10	unc-16 encodes a homolog of murine JIP3/JSAP and Drosophila SUNDAY DRIVER that is involved in vesicle transport, and that affects egg laying, locomotion, and defecation and physically interacts with JNK and JNK kinases. UNC-16 is expressed in neurons of the ventral cord, retrovesicular and preanal ganglia, the nerve ring, intestinal cells, seam and hypodermal cells, body wall and head muscle, and pharynx. [Source: WormBase]	vesicle-mediated transport, defecation, regulation of JNK cascade, 	cytoplasm, 	protein binding, protein kinase binding, kinesin binding, MAP-kinase scaffold activity, 
ZK1098.11	ZK1098.11	ZK1098.11 [Source:RefSeq_peptide;Acc:NP_001022982]			
C48B4.6	C48B4.6	Uncharacterized protein C48B4.6. [Source:Uniprot/SWISSPROT;Acc:P34360]			
C48B4.7	C48B4.7	Uncharacterized protein C48B4.7. [Source:Uniprot/SWISSPROT;Acc:P34361]			
C48B4.8	C48B4.8	Uncharacterized protein C48B4.8. [Source:Uniprot/SWISSPROT;Acc:P34362]			
C48B4.9	C48B4.9	Uncharacterized protein C48B4.9. [Source:Uniprot/SWISSPROT;Acc:P34363]	positive regulation of growth rate, 		
C48B4.10	C48B4.10	Uncharacterized protein C48B4.10. [Source:Uniprot/SWISSPROT;Acc:P34364]			
C48B4.11	C48B4.11	Uncharacterized protein C48B4.11. [Source:Uniprot/SWISSPROT;Acc:P34365]	cation transport, 	membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
C48B4.13	C48B4.13	C48B4.13 [Source:RefSeq_peptide;Acc:NP_001021223]			
ced-7	C48B4.4	ced-7 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. CED-7 activity is required in both dying and engulfing cells for engulfment of cell corpses during programmed cell death. specifically, CED-7 functions upstream of CED-10/Rac and together with CED-1 and CED-6 to mediate actin reorganization around the apoptotic cell corpse. in regulating engulfment with CED-1 and CED-6, CED-7 acts in a pathway parallel to that of CED-2, CED-5, and CED-12. CED-7 localizes to the plasma membrane of many embryonic cells, but in larvae and adults is found in the amphid and phasmid sheath cells and the pharyngeal-intestinal valve. further, CED-7 is expressed in the Z2 and Z3 germline precursor cells and in the germline, except for sperm. [Source: WormBase]	transport, cell death, engulfment of apoptotic cell, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
C48B4.3	C48B4.3	Uncharacterized protein C48B4.3. [Source:Uniprot/SWISSPROT;Acc:P34357]			
C48B4.1	C48B4.1	Probable acyl-coenzyme A oxidase, peroxisomal (EC 1.3.3.6) (Acyl-CoA oxidase) (AOX). [Source:Uniprot/SWISSPROT;Acc:P34355]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
rom-2	C48B4.2	Rhomboid-related protein 2 (EC 3.4.21.105). [Source:Uniprot/SWISSPROT;Acc:P34356]		integral to membrane, 	calcium ion binding, 
C48B4.12	C48B4.12	C48B4.12a [Source:RefSeq_peptide;Acc:NP_499122]	type I hypersensitivity, 		
F58A4.1	F58A4.1	Uncharacterized protein F58A4.1. [Source:Uniprot/SWISSPROT;Acc:P34468]			
F58A4.2	F58A4.2	Uncharacterized protein F58A4.2. [Source:Uniprot/SWISSPROT;Acc:P34469]			
F58A4.12	F58A4.12				
F58A4.5	F58A4.5	C-type lectin domain-containing protein F58A4.5 precursor. [Source:Uniprot/SWISSPROT;Acc:P34472]			sugar binding, 
F58A4.14	F58A4.14	Bardet-Biedl syndrome 4 protein homolog. [Source:Uniprot/SWISSPROT;Acc:Q5CZ52]	embryonic development ending in birth or egg hatching, centrosome organization and biogenesis, 	pericentriolar material, 	binding, microtubule motor activity, 
pri-1	F58A4.4	pri-1 encodes a homolog of the DNA polymerase alpha-primase subunit D that is required in embryos for the normal timing of embryonic cell divisions, much as DIV-1 is. [Source: WormBase]	DNA replication, synthesis of RNA primer, embryonic development ending in birth or egg hatching, 		calcium ion binding, DNA primase activity, 
F58A4.6	F58A4.6	Uncharacterized protein F58A4.6. [Source:Uniprot/SWISSPROT;Acc:P34473]	embryonic development ending in birth or egg hatching, 		
hcp-3	F58A4.3	The hcp-3 gene encodes a centromere protein (CENP)-A homolog required for kinetochore function. inactivation of hcp-3 in one-cell embryos by RNAi causes a complete loss of kinetochores, with total failure of chromosomes to segregate properly during mitosis, to recruit components to the kinetochore other than HCP-3, or to assemble a stable mitotic spindle. in addition, HCP-4 fails to localize properly to the kinetochore in hcp-3(RNAi) embryos. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	protein binding, DNA binding, 
hlh-11	F58A4.7	Helix-loop-helix protein 11. [Source:Uniprot/SWISSPROT;Acc:P34474]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
tbg-1	F58A4.8	tbg-1 encodes gamma-tubulin. in C. elegans, tbg-1 activity is essential and is required for normal bipolar spindle assembly and function, as well as the fast phase of female pronuclear migration following fertilization. while tbg-1 is required for proper organization and function of kinetochore and interpolar microtubules, it does not appear to be absolutely required for microtubule nucleation and growth. TBG-1 localizes to centrosomes in both interphase and mitotic cells, exhibiting a dynamic behavior during mitosis that differs between anterior and posterior centrosomes. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, microtubule nucleation, 	microtubule, protein complex, 	protein binding, GTP binding, GTPase activity, structural molecule activity, 
F58A4.9	F58A4.9	Probable DNA-directed RNA polymerases I and III subunit RPAC2 (RNA polymerases I and III subunit AC2) (DNA-directed RNA polymerase I subunit D) (AC19). [Source:Uniprot/SWISSPROT;Acc:P34476]	transcription, 		DNA binding, DNA-directed RNA polymerase activity, protein dimerization activity, 
ubc-7	F58A4.10	Probable ubiquitin-conjugating enzyme E2 7 (EC 6.3.2.19) (Ubiquitin- protein ligase 7) (Ubiquitin carrier protein 7). [Source:Uniprot/SWISSPROT;Acc:P34477]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
gei-13	F58A4.11	gei-13 encodes a protein, with a BED finger domain (predicted to be DNA-binding) and a glutamine/asparagine-rich domain. GEI-13 physically interacts with GEX-3, and is required for normal body shape, cuticle synthesis, and locomotion. [Source: WormBase]	biological_process, positive regulation of multicellular organism growth, 	cellular_component, 	protein binding, DNA binding, 
C15H7.3	C15H7.3	Putative tyrosine-protein phosphatase C15H7.3 (EC 3.1.3.48). [Source:Uniprot/SWISSPROT;Acc:P34337]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C15H7.2	C15H7.2				
C15H7.4	C15H7.4	Uncharacterized protein C15H7.4. [Source:Uniprot/SWISSPROT;Acc:P34338]	hermaphrodite genitalia development, 		
C07A9.9	C07A9.9				
ugt-60	C07A9.6	Putative UDP-glucuronosyltransferase ugt-60 precursor (EC 2.4.1.17) (UDPGT 60). [Source:Uniprot/SWISSPROT;Acc:P34317]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C07A9.13	C07A9.13	C07A9.13 [Source:RefSeq_peptide;Acc:NP_001021156]			
C07A9.5	C07A9.5	Uncharacterized protein C07A9.5. [Source:Uniprot/SWISSPROT;Acc:P34316]			calcium ion binding, 
C07A9.10	C07A9.10	Uncharacterized protein C07A9.10. [Source:Uniprot/SWISSPROT;Acc:P34321]			
C07A9.8	C07A9.8	Uncharacterized protein C07A9.8. [Source:Uniprot/SWISSPROT;Acc:P34319]			
set-3	C07A9.7	Uncharacterized protein C07A9.7. [Source:Uniprot/SWISSPROT;Acc:P34318]		nucleus, 	
C07A9.2	C07A9.2	Protein BUD31 homolog (Protein G10 homolog). [Source:Uniprot/SWISSPROT;Acc:P34313]	embryonic development ending in birth or egg hatching, 	nucleus, 	
tlk-1	C07A9.3	tlk-1 encodes, through alternative splicing, two isoforms of a Tousled-class serine/threonine protein kinase. TLK-1A/B are orthologous to Tousled from A. thaliana. tlk-1(RNAi) embryos have, compared to normal embryos, reduced phosphorylation of the RNA polymerase II C-terminal domain at Serine-2 and methylation of histone H3 at Lysine-36 (posttranslational modifications associated with transcriptional elongation), along with a lethal phenotype consistent with general defects in zygotic transcription. TLK-1A/B have a glutamine/asparagine-rich domain and a putative coil domain. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, regulation of transcription from RNA polymerase II promoter, protein amino acid autophosphorylation, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ncx-6	C07A9.4	Putative sodium/calcium exchanger 6 precursor (Na(+)/Ca(2+)-exchange protein 6). [Source:Uniprot/SWISSPROT;Acc:P34315]	potassium ion transport, 	integral to membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
ncx-7	C07A9.11	Putative sodium/calcium exchanger 7 precursor (Na(+)/Ca(2+)-exchange protein 7). [Source:Uniprot/SWISSPROT;Acc:P34322]		integral to membrane, 	
NR_003426.1	C07A9.14	C07A9.14, snoRNA [Source:RefSeq_dna;Acc:NR_003426]			
C07A9.1	C07A9.1	C-type lectin domain-containing protein C07A9.1 precursor. [Source:Uniprot/SWISSPROT;Acc:P34312]			sugar binding, 
C07A9.12	C07A9.12	Uncharacterized protein C07A9.12. [Source:Uniprot/SWISSPROT;Acc:Q5CZ51]			
pqm-96	T05G5.11	ParaQuat (Methylviologen) responsive family member (pqm-96) [Source:RefSeq_peptide;Acc:NP_499149]			
dao-6	T05G5.12	dao-6 encodes a small (92-residue) and probably non-globular protein. dao-6 is negatively regulated by DAF-2 but positively regulated by DAF-16, and thus might be involved in the extended lifespan caused by daf-2(m41). [Source: WormBase]			
hlh-4	T05G5.2	Helix-loop-helix protein 4. [Source:Uniprot/SWISSPROT;Acc:P34555]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	transcription regulator activity, 
T05G5.1	T05G5.1	Uncharacterized protein T05G5.1 precursor. [Source:Uniprot/SWISSPROT;Acc:P34554]			
iff-1	T05G5.10	iff-1 encodes an eIF-5A homolog that affects fertility and is required for germ cell proliferation and for some P granule components to localize properly. expression is germline specific and mRNA is expressed in the distal region of gonads where germ cells actively proliferate. [Source: WormBase]	translational initiation, embryonic development ending in birth or egg hatching, gamete generation, 		protein binding, translation initiation factor activity, 
cdk-1	T05G5.3	cdk-1 encodes a cyclin-dependent kinase, orthologous to and functionally interchangeable with CDC28 from S. cerevisiae. CDK-1 is required for cell-cycle progression through M phase in both meiosis and mitosis. [Source: WormBase]	protein amino acid phosphorylation, M phase of mitotic cell cycle, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
T05G5.4	T05G5.4	Uncharacterized protein T05G5.4. [Source:Uniprot/SWISSPROT;Acc:P34557]	embryonic development ending in birth or egg hatching, 		
T05G5.5	T05G5.5	Uncharacterized protein T05G5.5. [Source:Uniprot/SWISSPROT;Acc:P34558]			ATP binding, uridine kinase activity, 
ech-6	T05G5.6	Probable enoyl-CoA hydratase, mitochondrial (EC 4.2.1.17). [Source:Uniprot/SWISSPROT;Acc:P34559]	metabolic process, positive regulation of growth rate, 		protein binding, catalytic activity, 
T05G5.8	T05G5.8	T05G5.8 (T05G5.8) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_066756]	negative regulation of multicellular organism growth, 		
T05G5.9	T05G5.9	GRIP and coiled-coil domain-containing protein T05G5.9. [Source:Uniprot/SWISSPROT;Acc:P34562]	embryonic development ending in birth or egg hatching, 		
T05G5.7	T05G5.7	Uncharacterized protein T05G5.7. [Source:Uniprot/SWISSPROT;Acc:P34560]	embryonic development ending in birth or egg hatching, 		
cbp-1	R10E11.1	cbp-1 encodes a homolog of the mammalian transcriptional cofactors CBP (OMIM:600140) and p300 (E1A-BINDING PROTEIN, 300-KD. OMIM:602700) that have been shown to possess histone acetyltransferase activity, and which, when mutated, lead to Rubinstein-Taybi syndrome (OMIM:180849) and colorectal cancer (OMIM:114500). at least one splicing form of CBP-1 exhibits histone acetyltransferase (HAT) activity in vitro and has a glutamine/asparagine-rich domain. CBP-1 is required during embryogenesis for differentiation of all non-neuronal somatic cell types. CBP-1 is expressed very early in embryogenesis, suggesting that it may interact with maternally provided transcription factors, such as SKN-1, to specific developmental fates. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, embryonic development, biological_process, positive regulation of transcription from RNA polymerase II promoter, 	nucleus, 	protein binding, zinc ion binding, transcription cofactor activity, transcription coactivator activity, 
R10E11.3	R10E11.3	Probable ubiquitin carboxyl-terminal hydrolase R10E11.3 (EC 3.1.2.15) (Ubiquitin thioesterase) (Ubiquitin-specific-processing protease) (Deubiquitinating enzyme). [Source:Uniprot/SWISSPROT;Acc:P34547]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
sqv-3	R10E11.4	sqv-3 encodes a beta(1,4)-galactosyltransferase, biochemically active in vitro, that is required for cytokinesis of one-cell embryos, vulval morphogenesis, and chondroitin synthesis. SQV-3 is orthologous to human human galactosyltransferase I (B4GALT7. OMIM:604327, mutated in the progeroid form of Ehlers-Danlos syndrome). sqv-3 transgenically rescues hamster cells lacking galactosyl transferase I. the common requirement for SQV-3 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	electron transport, carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		iron ion binding, transferase activity, transferring glycosyl groups, heme binding, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
vha-1	R10E11.8	vha-1 encodes an ortholog of subunit c of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-1 is a predicted V-ATPase transmembrane rotor component. VHA-1 and VHA-2/3 comprise a closely related family of subunit c co-orthologs, predicted to carry protons from the cytosol to a-subunits (VHA-5, VHA-6, VHA-7, or UNC-32) for transmembrane export. VHA-1, like VHA-12 and VHA-17, antagonizes EFF-1-mediated cell fusion in hypodermal cells. VHA-1 is required for ovulation and embryogenesis, since vha-1(RNAi) animals are sterile with polyploid, unmatured oocytes and dead progeny. VHA-1 is required for alae formation, like the V0 subunits VHA-4 and VHA-5, but not like the V1 subunits VHA-8 or VHA-13. vha-1 shares an operon with vha-2 and R10E11.6. both vha-1 and vha-2 are expressed in the excretory cell, the rectum, and a pair of cells near the anus. [Source: WormBase]	ATP synthesis coupled proton transport, proton transport, embryonic development ending in birth or egg hatching, reproduction, 	membrane, integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
vha-2	R10E11.2	vha-2 and vha-3 encode an ortholog of subunit c of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). the protein encoded by vha-2 and vha-3 (VHA-2/3) is identical. VHA-2/3 is a predicted V-ATPase transmembrane rotor component, whose polypeptide sequence is identical to that of VHA-3. VHA-1 and VHA-2/3 comprise a closely related family of subunit c co-orthologs, predicted to carry protons from the cytosol to a-subunits (VHA-5, VHA-6, VHA-7, or UNC-32) for transmembrane export. VHA-2/3 is dispensable for viability, since vha-2/3(RNAi) animals have mostly healthy progeny. however, VHA-2 is required for ovulation and embryogenesis, since vha-2(RNAi) animals are sterile with polyploid, unmatured oocytes. VHA-2, along with VHA-15 and probably all V-ATPase subunits, is required for systemic RNAi, probably during endocytotic RNAi uptake. VHA-2 is required for necrosis, since vha-2(RNAi) suppresses necrotic neurodegeneration. vha-2 shares an operon with vha-1 and R10E11.6. both vha-2 and vha-1 are expressed in the excretory cell, the rectum, and a pair of cells posterior to the anus. [Source: WormBase]	ATP synthesis coupled proton transport, proton transport, reproduction, positive regulation of non-apoptotic programmed cell death, 	membrane, integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
R10E11.6	R10E11.6	R10E11.6 encodes, by alternative splicing, two truncated orthologs of AP1 subunit gamma-binding protein 1 (gamma-synergin). R10E11.6 shares an operon with vha-1 and vha-2, both of which encode c-subunits of vacuolar proton-translocating ATPase (V-ATPase). R10E11.6 may thus be a previously undescribed V-ATPase component or ancillary protein. specifically, R10E11.6 might (like both AP-3 subunits and the V-ATPase subunit VHA-11) be required for lysosomal biogenesis (e.g., gut granule formation). like both vha-1 and vha-2, R10E11.6 should be expressed in the excretory cell, the rectum, and a pair of cells near the anus. [Source: WormBase]			calcium ion binding, 
R10E11.5	R10E11.5	Uncharacterized protein R10E11.5. [Source:Uniprot/SWISSPROT;Acc:P34549]			
R10E11.9	R10E11.9	R10E11.9 [Source:RefSeq_peptide;Acc:NP_499169]			
mcm-6	ZK632.1	mcm-6 encodes a protein that has similarity to human DNA replication licensing factor MCM6 and affects embryonic viability. [Source: WormBase]	DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, 
srxa-10	R10E11.7	Serpentine receptor class XA 10 (Protein srxa-10). [Source:Uniprot/SWISSPROT;Acc:P34551]	embryonic development ending in birth or egg hatching, 		
ZK632.2	ZK632.2	Uncharacterized protein ZK632.2. [Source:Uniprot/SWISSPROT;Acc:P34648]	hermaphrodite genitalia development, 	intracellular, 	protein binding, double-stranded RNA binding, 
ZK632.3	ZK632.3	Putative RIO-type serine/threonine-protein kinase ZK632.3 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:P34649]			protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
ZK632.4	ZK632.4	ZK632.4 is orthologous to the human gene PHOSPHOMANNOSE ISOMERASE (MPI. OMIM:154550), which when mutated leads to disease. [Source: WormBase]	carbohydrate metabolic process, 		zinc ion binding, mannose-6-phosphate isomerase activity, 
ZK632.5	ZK632.5	Uncharacterized protein ZK632.5. [Source:Uniprot/SWISSPROT;Acc:P34651]			
ZK632.14	ZK632.14	ZK632.14 encodes an ortholog of Rpp25, a protein subunit shared by the endoribonucleases RNase MRP and RNAse P. RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. RNAse P cleaves tRNA precursors to produce their mature 5' end. ZK632.14 may dissociate from the RNase MRP complex when it binds to ribosomal precursors. [Source: WormBase]			
cnx-1	ZK632.6	cnx-1 encodes the C. elegans ortholog of calnexin, a type I Ca2+-binding integral membrane protein of the endoplasmic reticulum (ER). CNX-1 binds calcium and is predicted to function as a molecular chaperone required for glycoprotein folding and maturation as well as regulation of intracellular calcium homeostasis. in C. elegans, cnx-1 activity is required at 25 degrees C for wild-type levels of fertility and normal embryonic and larval development. cnx-1 activity is also required for maintaining viability in response to ER stress. in addition, cnx-1(RNAi) can suppress necrotic-like cell death induced by hyperactivated MEC-4 and DEG-1 ion channels, suggesting that CNX-1 also plays a role in regulating necrotic cell death. CNX-1 expression is first detected ubiquitously in the early embryo, with expression then becoming restricted to embryonic head and tail regions. post-embryonic expression is seen in the excretory cell, head and tail neurons, spermatheca, intestine, germ cells, and spicules in the male tail. antibody staining of early embryos indicates that CNX-1 localizes to the endoplasmic reticulum. in regulating reproduction at 25 degrees C, cnx-1 functions redundantly with crt-1, which encodes calreticulin, an additional Ca2+-binding ER chaperone protein. [Source: WormBase]			protein binding, calcium ion binding, 
ZK632.7	ZK632.7	Uncharacterized protein ZK632.7. [Source:Uniprot/SWISSPROT;Acc:P34653]			protein binding, 
arl-5	ZK632.8	arl-5 encodes a paralog of the ADP-ribosylation factor-like protein EVL-20. ARL-5 is an ortholog of mammalian ARL5. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, defense response, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
lin-52	ZK632.13	lin-52 encodes a novel protein that is most closely related to the Drosophila melanogaster CG15929 protein and the human protein XP_040376. lin-52 is a class B synthetic multivulva (synMuv) gene that appears to function with lin-35/Rb to negatively regulate vulval development. in addition, lin-52 is also required for germline and larval development. [Source: WormBase]	growth, 		
ZK632.9	ZK632.9	Uncharacterized protein ZK632.9. [Source:Uniprot/SWISSPROT;Acc:P34654]			
ZK632.10	ZK632.10	UPF0057 membrane protein ZK632.10. [Source:Uniprot/SWISSPROT;Acc:P34655]		integral to membrane, 	
ZK632.11	ZK632.11	Uncharacterized protein ZK632.11. [Source:Uniprot/SWISSPROT;Acc:P34656]			zinc ion binding, nucleic acid binding, 
ZK632.12	ZK632.12	ZK632.12 encodes one of 12 C. elegans FYVE-domain containing proteins and is orthologous to mammalian Phafin2. as loss of ZK632.12 activity via RNAi screens results in no obvious defects, the precise role of ZK632.12 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			protein binding, zinc ion binding, 
K11H3.4	K11H3.4	Uncharacterized protein K11H3.4. [Source:Uniprot/SWISSPROT;Acc:P34520]		intracellular, 	zinc ion binding, nucleic acid binding, 
K11H3.5	K11H3.5	Uncharacterized protein K11H3.5 precursor. [Source:Uniprot/SWISSPROT;Acc:P34521]			
K11H3.2	K11H3.2	Uncharacterized protein K11H3.2. [Source:Uniprot/SWISSPROT;Acc:P34518]	positive regulation of growth rate, 		
K11H3.6	K11H3.6	K11H3.6 [Source:RefSeq_peptide;Acc:NP_001022680]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
K11H3.3	K11H3.3	Putative tricarboxylate transport protein, mitochondrial precursor (Citrate transport protein) (CTP). [Source:Uniprot/SWISSPROT;Acc:P34519]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
gpdh-2	K11H3.1	gpdh-2 encodes one of two C. elegans glycerol 3-phosphate dehydrogenases. although loss of gpdh-2 activity via large-scale RNAi screens results in no obvious defects, expression of a gpdh-2 cDNA in Saccharomyces cerevisiae hog1 mutants is able to rescue the high osmolarity-sensitive growth phenotype of these mutants, suggesting that gpdh-2 encodes a functional glycerol 3-phosphate dehydrogenase. [Source: WormBase]	carbohydrate metabolic process, potassium ion transport, glycerol-3-phosphate metabolic process, glycerol-3-phosphate catabolic process, 	cytoplasm, glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, NAD binding, cation transmembrane transporter activity, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, oxidoreductase activity, acting on CH-OH group of donors, glycerol-3-phosphate dehydrogenase (NAD+) activity, 
K11H3.7	K11H3.7	K11H3.7 [Source:RefSeq_peptide;Acc:NP_001022681]	potassium ion transport, 	membrane, 	potassium channel activity, 
K11H3.t2	K11H3.t2				
K11H3.t1	K11H3.t1				
ZK757.4	ZK757.4	Uncharacterized protein ZK757.4. [Source:Uniprot/SWISSPROT;Acc:Q8I0G4]			zinc ion binding, 
ZK757.1	ZK757.1	Uncharacterized protein ZK757.1. [Source:Uniprot/SWISSPROT;Acc:P34679]	electron transport, aerobic respiration, 	integral to membrane, 	iron ion binding, heme binding, 
ZK757.2	ZK757.2	Uncharacterized protein ZK757.2. [Source:Uniprot/SWISSPROT;Acc:P34680]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, 
tag-76	ZK757.3	Putative protein tag-76. [Source:Uniprot/SWISSPROT;Acc:P34681]			
F40F12.4	F40F12.4	F40F12.4 [Source:RefSeq_peptide;Acc:NP_499194]		membrane, 	
F40F12.5	F40F12.5	F40F12.5 encodes an ortholog of human CYLD1 (OMIM:605018, mutated in cylindromatosis). CYLD1 binds several members of the NF-kappaB signalling pathway, and can deubiquitinate target proteins. [Source: WormBase]			structural constituent of ribosome, 
F40F12.10	F40F12.10				
F40F12.9	F40F12.9				
F40F12.7	F40F12.7	F40F12.7 [Source:RefSeq_peptide;Acc:NP_499197]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, transcription cofactor activity, 
sdz-17	F40F12.1	SKN-1 Dependent Zygotic transcript family member (sdz-17) [Source:RefSeq_peptide;Acc:NP_499198]			
F40F12.3	F40F12.3	F40F12.3 [Source:RefSeq_peptide;Acc:NP_499200]			
F40F12.8	F40F12.8				
K03H1.10	K03H1.10	K03H1.10 [Source:RefSeq_peptide;Acc:NP_499201]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, transcription cofactor activity, 
K03H1.3	K03H1.3	Transthyretin-like protein K03H1.3 precursor. [Source:Uniprot/SWISSPROT;Acc:P34499]			
K03H1.4	K03H1.4	Transthyretin-like protein K03H1.4 precursor. [Source:Uniprot/SWISSPROT;Acc:P34500]			
ttr-1	K03H1.6	Transthyretin-like protein 1 precursor. [Source:Uniprot/SWISSPROT;Acc:P34502]			
K03H1.5	K03H1.5	Uncharacterized protein K03H1.5 precursor. [Source:Uniprot/SWISSPROT;Acc:P34501]	cell-matrix adhesion, 		
K03H1.9	K03H1.9	K03H1.9 [Source:RefSeq_peptide;Acc:NP_499206]			
K03H1.12	K03H1.12	K03H1.12 [Source:RefSeq_peptide;Acc:NP_499207]			
gln-2	K03H1.1	Probable glutamine synthetase (EC 6.3.1.2) (Glutamate--ammonia ligase). [Source:Uniprot/SWISSPROT;Acc:P34497]	glutamine biosynthetic process, nitrogen compound metabolic process, 		glutamate-ammonia ligase activity, 
K03H1.8	K03H1.8	K03H1.8 [Source:RefSeq_peptide;Acc:NP_499209]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
K03H1.7	K03H1.7	K03H1.7 [Source:RefSeq_peptide;Acc:NP_499210]			
K03H1.13	K03H1.13	K03H1.13 [Source:RefSeq_peptide;Acc:NP_001076643]			
K03H1.11	K03H1.11	K03H1.11 [Source:RefSeq_peptide;Acc:NP_499211]	embryonic development ending in birth or egg hatching, 		
mog-1	K03H1.2	The mog-1 gene encodes a DEAH helicase orthologous to the Drosophila CG1375/1405, the human PRP16, and the S. cerevisiae PRP16 proteins. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
alx-1	R10E12.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77) [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	nutrient reservoir activity, 
R10E12.2	R10E12.2	Uncharacterized protein R10E12.2. [Source:Uniprot/SWISSPROT;Acc:P34553]			
C05B5.1	C05B5.1	Uncharacterized protein C05B5.1. [Source:Uniprot/SWISSPROT;Acc:P34289]			
C05B5.4	C05B5.4	Uncharacterized protein C05B5.4. [Source:Uniprot/SWISSPROT;Acc:P34292]	positive regulation of growth rate, 		
pqn-8	C05B5.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
C05B5.2	C05B5.2	Uncharacterized protein C05B5.2. [Source:Uniprot/SWISSPROT;Acc:P34290]			
C05B5.5	C05B5.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
NM_001025972.1	C05B5.9	C05B5.9 (C05B5.9) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_001025972]			
C05B5.11	C05B5.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPK1]			
C05B5.8	C05B5.8	Uncharacterized protein C05B5.8. [Source:Uniprot/SWISSPROT;Acc:Q86DA7]			
fbxa-155	C05B5.6	Uncharacterized protein C05B5.6. [Source:Uniprot/SWISSPROT;Acc:P34294]			
C05B5.10	C05B5.10				
rgs-1	C05B5.7	rgs-1 encodes a regulator of G protein signaling. by homology, RGS-1 is predicted to function as a GTPase-activating protein for heterotrimeric G-protein alpha-subunits, and in vitro RGS-1 can stimulate the GTPase activity of purified GOA-1. in vivo, rgs-1 appears to function redundantly with rgs-2 to regulate egg-laying behavior when animals are refed following starvation. rgs-1 is expressed in most or all neurons. [Source: WormBase]			signal transducer activity, 
ins-21	M04D8.1	ins-21 encodes an insulin-like peptide. [Source: WormBase]			hormone activity, 
ins-22	M04D8.2	ins-22 encodes predicted type-alpha insulin-like molecule that lacks a C peptide domain and does not have an A6/A11 disulfide bond. expressed throughout development in some neurons beginning in the four-fold elongated embryo. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		hormone activity, 
ins-23	M04D8.3	ins-23 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-23 is one of 38 insulin-like peptides in C. elegans, and is expressed in amphid sensory neurons, labial neurons, the nerve ring, and ventral nerve cord neurons. as loss of INS-23 function via RNA-mediated interference does not results in any abnormalities, the precise role of INS-23 in C. elegans development is not yet clear. [Source: WormBase]			hormone activity, 
M04D8.4	M04D8.4	M04D8.4 [Source:RefSeq_peptide;Acc:NP_499225]			
M04D8.5	M04D8.5	M04D8.5 [Source:RefSeq_peptide;Acc:NP_499226]			
M04D8.8	M04D8.8	M04D8.8 [Source:RefSeq_peptide;Acc:NP_001022692]			
xbx-3	M04D8.6	X-BoX promoter element regulated family member (xbx-3) [Source:RefSeq_peptide;Acc:NP_499227]			
M04D8.7	M04D8.7	M04D8.7 [Source:RefSeq_peptide;Acc:NP_499228]			
T16G12.7	T16G12.7	T16G12.7 [Source:RefSeq_peptide;Acc:NP_499229]			hydrolase activity, 
T16G12.1	T16G12.1	T16G12.1 [Source:RefSeq_peptide;Acc:NP_499230]	proteolysis, embryonic development ending in birth or egg hatching, 		zinc ion binding, metallopeptidase activity, copper ion binding, membrane alanyl aminopeptidase activity, 
T16G12.3	T16G12.3				
T16G12.10	T16G12.10				
T16G12.4	T16G12.4	T16G12.4 [Source:RefSeq_peptide;Acc:NP_499232]			
T16G12.8	T16G12.8	T16G12.8 [Source:RefSeq_peptide;Acc:NP_499233]			
T16G12.5	T16G12.5	T16G12.5 [Source:RefSeq_peptide;Acc:NP_499234]	morphogenesis of an epithelium, 		
T16G12.6	T16G12.6	T16G12.6 [Source:RefSeq_peptide;Acc:NP_499235]			
T16G12.9	T16G12.9	T16G12.9 [Source:RefSeq_peptide;Acc:NP_001022760]			
T16H12.3	T16H12.3	Uncharacterized protein T16H12.3. [Source:Uniprot/SWISSPROT;Acc:P34566]			
T16H12.1	T16H12.1	Uncharacterized protein T16H12.1. [Source:Uniprot/SWISSPROT;Acc:P34564]			
T16H12.2	T16H12.2	Uncharacterized protein T16H12.2. [Source:Uniprot/SWISSPROT;Acc:P34565]			
T16H12.11	T16H12.11	T16H12.11 [Source:RefSeq_peptide;Acc:NP_001022761]	embryonic development ending in birth or egg hatching, 		
T16H12.4	T16H12.4	Probable TFIIH basal transcription factor complex p44 subunit (General transcription factor IIH polypeptide 2). [Source:Uniprot/SWISSPROT;Acc:P34567]	intracellular signaling cascade, DNA repair, regulation of transcription, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, RNA polymerase II transcription factor activity, 
bath-43	T16H12.5	The T16H12.5 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			protein binding, 
kel-10	T16H12.6	Kelch repeat-containing protein kel-10. [Source:Uniprot/SWISSPROT;Acc:P34569]			protein binding, 
srt-57	T16H12.10				
srt-55	T16H12.8	Serpentine receptor class T-55 precursor (Protein srt-55). [Source:Uniprot/SWISSPROT;Acc:P34571]			
T16H12.9	T16H12.9	Uncharacterized protein T16H12.9. [Source:Uniprot/SWISSPROT;Acc:P34572]			
vps-29	ZK1128.8	related to yeast Vacuolar Protein Sorting factor family member (vps-29) [Source:RefSeq_peptide;Acc:NP_001022987]			hydrolase activity, 
ZK1128.1	ZK1128.1	ZK1128.1 [Source:RefSeq_peptide;Acc:NP_499246]			
ZK1128.2	ZK1128.2	UPF0049 protein ZK1128.2. [Source:Uniprot/SWISSPROT;Acc:Q09357]			protein binding, 
ZK1128.3	ZK1128.3	Uncharacterized protein ZK1128.3. [Source:Uniprot/SWISSPROT;Acc:Q09358]	positive regulation of growth rate, 		
ZK1128.4	ZK1128.4	ZK1128.4 [Source:RefSeq_peptide;Acc:NP_499249]	DNA repair, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	core TFIIH complex, 	transcription factor activity, general RNA polymerase II transcription factor activity, 
tag-246	ZK1128.5	ZK1128.5/tag-246 encodes an ortholog of SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily D (SMARCD) proteins. ZK1128.5/TAG-246 is required for full levels of LIN-3/EGF signalling during vulval development, though this effect is only visible in genetically sensitized backgrounds. [Source: WormBase]	locomotory behavior, 	nucleus, 	
ttll-4	ZK1128.6	ttll-4 encodes, by alternative splicing, two isoforms of a putative tubulin polyglutamylase orthologous to human TTLL4. TTLL-4 has no obvious function in mass RNAi assays. by orthology, TTLL-4 is expected to initiate glutamyl chains rather than elongating them, to have broad substrate specificity, acting on both alpha- and beta-tubulin, and to have multiple non-tubulin substrates such as nucleosome assembly proteins (NAPs). [Source: WormBase]	protein modification process, 		tubulin-tyrosine ligase activity, 
ZK1128.7	ZK1128.7	ZK1128.7 [Source:RefSeq_peptide;Acc:NP_499252]			protein binding, structural constituent of eye lens, 
K08E5.4	K08E5.4		embryonic development ending in birth or egg hatching, 		
K08E5.1	K08E5.1		embryonic development ending in birth or egg hatching, 		
nac-3	K08E5.2	nac-3 encodes a high affinity, sodium-coupled dicarboxylate transporter that is one of four C. elegans proteins related to Drosophila Indy and the mammalian NaDC1 and NaDC3 transporters. when expressed in a heterologous system, NAC-3 exhibits high affinity sodium/succinate cotransporter activity indicating that, functionally, NAC-3 is more closely related to mammalian NaDC3 than NaDC1. nac-3 mRNA is present during larval and adult stages, with highest levels seen in L3 and L4 larvae. nac-3::gfp reporter fusions are expressed in the intestine, from early larval stages through adulthood. the effects of nac-3(RNAi) on average lifespan are variable, with reports of no effect on lifespan and reports of a 15% increase in lifespan in affected animals. [Source: WormBase]	sodium ion transport, citrate transport, determination of adult life span, 	membrane, integral to membrane, 	transporter activity, citrate transmembrane transporter activity, 
mua-3	K08E5.3	Transmembrane cell adhesion receptor mua-3 precursor (Muscle attachment abnormal protein 3). [Source:Uniprot/SWISSPROT;Acc:P34576]	biological_process, 		protein binding, calcium ion binding, serine-type endopeptidase inhibitor activity, 
unc-47	T20G5.6	unc-47 encodes a novel transmembrane vesicular GABA transporter. UNC-47 and UNC-46, a predicted novel transmembrane protein, are required in GABAergic neurons for all GABA neurotransmission, specifically for loading of GABA into synaptic vesicles, where UNC-47 is localized. UNC-47 is required for the localization of UNC-46, and when overexpressed can rescue unc-46 mutant animals. UNC-47 expression in type D neurons is transcriptionally regulated by the UNC-30 homeodomain protein. [Source: WormBase]	oviposition, 		
epac-1	T20G5.5	Uncharacterized protein T20G5.5. [Source:Uniprot/SWISSPROT;Acc:P34578]	intracellular signaling cascade, protein amino acid phosphorylation, small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, cAMP-dependent protein kinase complex, 	cAMP-dependent protein kinase regulator activity, guanyl-nucleotide exchange factor activity, 
dod-6	T20G5.7	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-6) [Source:RefSeq_peptide;Acc:NP_499257]	determination of adult life span, 		
T20G5.8	T20G5.8	T20G5.8 [Source:RefSeq_peptide;Acc:NP_499258]	determination of adult life span, 		
T20G5.13	T20G5.13	T20G5.13 [Source:RefSeq_peptide;Acc:NP_741267]	determination of adult life span, 	extracellular region, 	protein binding, 
T20G5.12	T20G5.12	T20G5.12 [Source:RefSeq_peptide;Acc:NP_499259]		extracellular region, 	protein binding, 
chc-1	T20G5.1	Probable clathrin heavy chain protein 1. [Source:Uniprot/SWISSPROT;Acc:P34574]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	clathrin coat of trans-Golgi network vesicle, clathrin coat of coated pit, 	protein transporter activity, protein binding, structural molecule activity, 
T20G5.9	T20G5.9	T20G5.9 [Source:RefSeq_peptide;Acc:NP_499261]			
T20G5.10	T20G5.10	Uncharacterized protein T20G5.10. [Source:Uniprot/SWISSPROT;Acc:Q22616]			
T20G5.4	T20G5.4	Uncharacterized protein T20G5.4. [Source:Uniprot/SWISSPROT;Acc:P34577]			
cts-1	T20G5.2	cts-1 encodes a citrate synthase, predicted to be mitochondrial, that is required for embryonic development. [Source: WormBase]	tricarboxylic acid cycle, carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 	cytoplasm, mitochondrial matrix, 	citrate (Si)-synthase activity, transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer, 
rde-4	T20G5.11	rde-4 encodes a dsRNA binding protein (dsRBP). during the initiation phase of RNA interference (RNAi), RDE-4 appears to function in recognition and subsequent cleavage of long-trigger dsRNA molecules into small, interfering RNAs (siRNAs). RDE-4 exists in solution as a homodimer and binds long dsRNA with high affinity in a sequence-non-specific manner. in addition to forming a complex with the RNaseIII-related enzyme DCR-1, RDE-4 also interacts in vivo with RDE-1 and DRH-1, a conserved DExH-box helicase. [Source: WormBase]	RNA interference, production of siRNA, 	intracellular, 	double-stranded RNA binding, 
T20G5.14	T20G5.14	T20G5.14 [Source:RefSeq_peptide;Acc:NP_001022775]			
Y70G10A.1	Y70G10A.1				
Y70G10A.2	Y70G10A.2	Y70G10A.2 [Source:RefSeq_peptide;Acc:NP_499266]			
Y70G10A.4	Y70G10A.4				
Y70G10A.3	Y70G10A.3	Y70G10A.3 [Source:RefSeq_peptide;Acc:NP_499267]	transport, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, 
div-1	R01H10.1	div-1 encodes a homolog of the B subunit of the DNA polymerase alpha-primase complex. DIV-1 is required in embryos for the normal timing of interphase in cell divisions, and for the asymmetric distribution of PIE-1 and P granules. [Source: WormBase]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, DNA-directed DNA polymerase activity, 
cor-1	R01H10.3	The cor-1 gene encodes an ortholog of the actin-binding protein coronin. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
R01H10.4	R01H10.4	R01H10.4 [Source:RefSeq_peptide;Acc:NP_499270]			
R01H10.5	R01H10.5	R01H10.5 [Source:RefSeq_peptide;Acc:NP_499271]			protein binding, 
bbs-5	R01H10.6	BBS (Bardet-Biedl Syndrome) protein family member (bbs-5) [Source:RefSeq_peptide;Acc:NP_499272]	phosphate metabolic process, 	cytoplasm, 	protein binding, magnesium ion binding, inorganic diphosphatase activity, 
R01H10.7	R01H10.7	R01H10.7 [Source:RefSeq_peptide;Acc:NP_499273]			
cnk-1	R01H10.8	cnk-1 encodes a protein that contains a SAM domain, a PDZ domain, and a PH domain. [Source: WormBase]	biological_process, 		protein binding, 
pad-2	K10G9.3	pad-2 encodes an O-fucosyltransferase. by homology, PAD-2 is predicted to catalyze the transfer of fucose to serine or threonine residues on recipient proteins. RNAi experiments indicate that pad-2 activity is required for embryogenesis, particularly morphogenesis and late embryonic patterning, and for various aspects of post-embryonic development including neuronal, body wall muscle, and vulval development as well as spermatozoid differentiation. pad-2 expression begins during embryonic morphogenesis and continues through adulthood. pad-2 is widely expressed in tissues such as hypodermis, neurons, intestine, somatic gonad, and tissues surrounding the vulva. [Source: WormBase]	embryonic development ending in birth or egg hatching, biological_process, 	cellular_component, 	molecular_function, 
K10G9.2	K10G9.2	K10G9.2 [Source:RefSeq_peptide;Acc:NP_499275]	positive regulation of growth rate, 		
K10G9.1	K10G9.1	K10G9.1 [Source:RefSeq_peptide;Acc:NP_499276]	transport, 	integral to membrane, 	transporter activity, 
ostf-4	T07A5.4	T07A5.4 [Source:RefSeq_peptide;Acc:NP_001022750]			
T07A5.3	T07A5.3	Uncharacterized transporter T07A5.3. [Source:Uniprot/SWISSPROT;Acc:Q10046]	transport, 	integral to membrane, 	transporter activity, 
T07A5.1	T07A5.1				
T07A5.7	T07A5.7	T07A5.1 (T07A5.1) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_066877]			
T07A5.2	T07A5.2	Uncharacterized protein T07A5.2. [Source:Uniprot/SWISSPROT;Acc:Q10045]			
T07A5.5	T07A5.5	T07A5.5 [Source:RefSeq_peptide;Acc:NP_001022751]			
T07A5.6	T07A5.6	T07A5.6b [Source:RefSeq_peptide;Acc:NP_001022753]			protein binding, 
T07C4.10	T07C4.10	T07C4.10 [Source:RefSeq_peptide;Acc:NP_001022754]			
nex-2	T07C4.9	nex-2 encodes an annexin, a member of a family of calcium-dependent phospholipid binding proteins. by homology, NEX-2 could function in a number of processes, such as membrane fusion, cytoskeletal interactions, and intracellular signaling. however, as loss of nex-2 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of NEX-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein homooligomerization, 	membrane, 	calcium ion binding, calcium-dependent phospholipid binding, phospholipase inhibitor activity, 
T07C4.11	T07C4.11	T07C4.11 [Source:RefSeq_peptide;Acc:NP_001040871]	embryonic development ending in birth or egg hatching, 		
T07C4.12	T07C4.12	T07C4.12 [Source:RefSeq_peptide;Acc:NP_001040872]			
mev-1	T07C4.7	mev-1 is orthologous to the human gene SUCCINATE DEHYDROGENASE COMPLEX, SUBUNIT C, INTEGRAL MEMBRANE PROTEIN, 15KD (SDHC. OMIM:602413), which when mutated leads to familial nonchromaffin paragangliomas type 3. [Source: WormBase]	tricarboxylic acid cycle, electron transport, embryonic development ending in birth or egg hatching, mitochondrial electron transport, succinate to ubiquinone, 	membrane, 	succinate dehydrogenase activity, 
ced-9	T07C4.8	ced-9 encodes the sole C. elegans homolog of the mammalian cell-death inhibitor Bcl-2. during development, CED-9 activity is essential for preventing cells from undergoing programmed cell death and CED-9 functions by binding and repressing the activity of CED-4, a protein similar to human APAF-1 that positively regulates CED-3 caspase activity. CED-9 localizes to mitochondria. [Source: WormBase]	anti-apoptosis, regulation of apoptosis, embryonic development ending in birth or egg hatching, 		protein binding, 
T07C4.5	T07C4.5	Transthyretin-like protein T07C4.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q22288]			
tbx-9	T07C4.6	T-box transcription factor tbx-9. [Source:Uniprot/SWISSPROT;Acc:Q22289]	regulation of transcription, DNA-dependent, post-embryonic body morphogenesis, embryonic body morphogenesis, 	nucleus, 	DNA binding, transcription factor activity, 
tbx-8	T07C4.2	T-box transcription factor tbx-8. [Source:Uniprot/SWISSPROT;Acc:Q22292]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, embryonic body morphogenesis, 	nucleus, 	DNA binding, transcription factor activity, 
T07C4.3	T07C4.3	T07C4.3b [Source:RefSeq_peptide;Acc:NP_499289]			protein binding, 
spp-1	T07C4.4	spp-1 encodes a predicted transmembrane protein containing a saposin (B) domain that is a member of a saposin-like protein superfamily containing mammalian NK-lysin and granulysin and the protozoan amoebapores. SPP-1 is predicted to function as a lipid-binding protein with cytotoxic, pore-forming activity, and in vitro, does exhibit antibacterial activity. loss of SPP-1 function via RNA-mediated interference (RNAi) does not, however, result in any abnormalities. [Source: WormBase]	determination of adult life span, 		
T07C4.1	T07C4.1	T07C4.1 is orthologous to the human gene URIDINE MONOPHOSPHATE SYNTHETASE (OROTATE PHOSPHORIBOSYL TRANSFERASE AND OROTIDINE-5'-DECARBOXYLASE) (UMPS. OMIM:258900), which when mutated leads to disease. [Source: WormBase]	'de novo' pyrimidine base biosynthetic process, nucleoside metabolic process, pyrimidine nucleotide biosynthetic process, positive regulation of growth rate, 		protein binding, catalytic activity, transferase activity, orotidine-5'-phosphate decarboxylase activity, orotate phosphoribosyltransferase activity, 
C38H2.1	C38H2.1	C38H2.1 [Source:RefSeq_peptide;Acc:NP_499292]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
C38H2.2	C38H2.2	C38H2.2 encodes a core 1 UDP-Gal:GalNAcalpha1-Ser/Thr beta1,3-galactosyltransferase (core 1 beta3-Gal-T or T-synthase, EC2.4.1.122). C38H2.2 protein is predicted to be primarily extracellular, with an N-terminal transmembrane domain. C38H2.2 shares 6 conserved cysteine residues with all known T-synthases, and is ubiquitously expressed. enzymatically active C38H2.2 can be generated from insect but not mammalian cells, suggesting that invertebrate-specific chaperones are required for its activity. [Source: WormBase]			
C38H2.3	C38H2.3	C38H2.3 [Source:RefSeq_peptide;Acc:NP_001021212]			
M03C11.1	M03C11.1	M03C11.1 [Source:RefSeq_peptide;Acc:NP_499294]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M03C11.2	M03C11.2	M03C11.2 [Source:RefSeq_peptide;Acc:NP_499295]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, ATP-dependent helicase activity, ATP-dependent DNA helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
M03C11.3	M03C11.3				
tag-235	M03C11.4	Temporarily Assigned Gene name family member (tag-235) [Source:RefSeq_peptide;Acc:NP_499296]	embryonic development ending in birth or egg hatching, 		
ymel-1	M03C11.5	Protein YME1 homolog (EC 3.4.24.-). [Source:Uniprot/SWISSPROT;Acc:P54813]	proteolysis, protein catabolic process, 	membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, metalloendopeptidase activity, 
M03C11.6	M03C11.6	M03C11.6 [Source:RefSeq_peptide;Acc:NP_499299]			
M03C11.7	M03C11.7	M03C11.7 [Source:RefSeq_peptide;Acc:NP_499300]	embryonic development ending in birth or egg hatching, 		nucleotide binding, 
M03C11.8	M03C11.8	M03C11.8 [Source:RefSeq_peptide;Acc:NP_499301]	embryonic development ending in birth or egg hatching, 		ATP binding, DNA binding, nucleic acid binding, calcium ion binding, helicase activity, 
H04D03.5	H04D03.5				
H04D03.1	H04D03.1	H04D03.1 [Source:RefSeq_peptide;Acc:NP_499302]			
H04D03.2	H04D03.2	H04D03.2a [Source:RefSeq_peptide;Acc:NP_499304]			
H04D03.3	H04D03.3	H04D03.3 [Source:RefSeq_peptide;Acc:NP_499305]			
H04D03.4	H04D03.4	H04D03.4 [Source:RefSeq_peptide;Acc:NP_001022631]			protein binding, 
D2045.2	D2045.2	D2045.2 [Source:RefSeq_peptide;Acc:NP_499306]			binding, 
atx-2	D2045.1	atx-2 is required for early embryonic patterning. it encodes an ortholog of human ataxin-2, which when mutated leads to spinocerebellar ataxia 2 (SCA2. OMIM:183090). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	nutrient reservoir activity, 
D2045.5	D2045.5	D2045.5 [Source:RefSeq_peptide;Acc:NP_499308]	protein amino acid phosphorylation, germline cell cycle switching, mitotic to meiotic cell cycle, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
cul-1	D2045.6	cul-1 encodes a cullin, orthologous to Cdc53/Cul1 in S. cerevisiae and CUL-1 in humans (OMIM:603134), that is required both maternally and zygotically for developmentally programmed transitions from the G1 phase of the cell cycle to the GO phase or the apoptotic pathway, and that is probably also required for normally slow G1-to-S phase progression. CUL-1 physically interacts with eight Skp1-related proteins (SKR-1, -2, -3, -4, -7, -8, -9, and -10). [Source: WormBase]	cell cycle, embryonic development ending in birth or egg hatching, 		
D2045.9	D2045.9	D2045.9 [Source:RefSeq_peptide;Acc:NP_001021233]	lipopolysaccharide biosynthetic process, locomotory behavior, 	endoplasmic reticulum, 	protein binding, 
D2045.7	D2045.7	D2045.7 [Source:RefSeq_peptide;Acc:NP_499311]	protein amino acid phosphorylation, reproduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
D2045.8	D2045.8	D2045.8 [Source:RefSeq_peptide;Acc:NP_499312]	potassium ion transport, reproduction, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F43D9.1	F43D9.1	F43D9.1 [Source:RefSeq_peptide;Acc:NP_499313]	positive regulation of multicellular organism growth, 	membrane, integral to membrane, 	hedgehog receptor activity, 
rab-33	F43D9.2	Ras-related protein Rab-33. [Source:Uniprot/SWISSPROT;Acc:Q20365]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
taf-11.3	F43D9.5	The taf-11.3 gene encodes an ortholog of human TATA-binding protein associated factor TAF11 (TAFII28, OMIM:600772) that is a component of the TFIID general transcription factor that recognizes the transcription start site. TAF-11.3 is required for proper post-embryonic development. [Source: WormBase]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	RNA polymerase II transcription factor activity, 
sip-1	F43D9.4	sip-1 encodes a member of the small heat shock family of proteins. loss of sip-1 function via antisense or large-scale RNAi experiments results in embryonic lethality and in a small but reproducible reduction in lifespan in otherwise long-lived animals, respectively, suggesting that sip-1 plays a role in embryonic development as well as regulation of adult lifespan. in addition, expression of sip-1 in E. coli is able to confer thermotolerance on the bacterium. sip-1 mRNA is detected in oocytes and developing embryos, with SIP-1 protein abundant and widely expressed in embryos that have not yet begun morphogenesis. [Source: WormBase]	determination of adult life span, 		structural constituent of eye lens, 
F43D9.3	F43D9.3	F43D9.3 [Source:RefSeq_peptide;Acc:NP_499317]	vesicle-mediated transport, vesicle docking during exocytosis, 		
unc-49	T21C12.1	UNCoordinated family member (unc-49) [Source:RefSeq_peptide;Acc:NP_001022781]	transport, ion transport, chloride transport, gamma-aminobutyric acid signaling pathway, locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
hpd-1	T21C12.2	hpd-1 encodes a 4-hydroxyphenylpyruvate dioxygenase that is required for normally short lifespan and negative regulation of the dauer larval stage, with loss of hpd-1 function prolonging lifespan and promoting dauer formation. hpd-1 is a (perhaps evolutionarily conserved) target of transcriptional activation by DAF-16. HPD-1 is orthologous to human HPD (OMIM:276710, mutated in tyrosinemia type III). [Source: WormBase]	aromatic amino acid family metabolic process, 		4-hydroxyphenylpyruvate dioxygenase activity, 
T21C12.3	T21C12.3	Uncharacterized protein T21C12.3. [Source:Uniprot/SWISSPROT;Acc:Q22634]			
T21C12.8	T21C12.8	T21C12.8 [Source:RefSeq_peptide;Acc:NP_001022790]			
T21C12.4	T21C12.4	T21C12.4 [Source:RefSeq_peptide;Acc:NP_499326]			
Y45F3A.1	Y45F3A.1	Y45F3A.1 [Source:RefSeq_peptide;Acc:NP_499327]	embryonic development ending in birth or egg hatching, 		
rab-30	Y45F3A.2	rab-30 encodes a rab related protein of the Ras GTPase superfamily. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y45F3A.3	Y45F3A.3	Y45F3A.3a [Source:RefSeq_peptide;Acc:NP_001033378]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
Y45F3A.4	Y45F3A.4	Y45F3A.4 [Source:RefSeq_peptide;Acc:NP_499330]			
Y45F3A.5	Y45F3A.5	Y45F3A.5 [Source:RefSeq_peptide;Acc:NP_499331]			
Y45F3A.6	Y45F3A.6				
Y45F3A.7	Y45F3A.7				
Y45F3A.8	Y45F3A.8	Y45F3A.8 [Source:RefSeq_peptide;Acc:NP_499332]			
Y45F3A.9	Y45F3A.9	Y45F3A.9 [Source:RefSeq_peptide;Acc:NP_499333]	RNA processing, 		RNA binding, RNA methyltransferase activity, 
Y39A1A.3	Y39A1A.3	Y39A1A.3 [Source:RefSeq_peptide;Acc:NP_499334]			
Y39A1A.1	Y39A1A.1	Y39A1A.1a [Source:RefSeq_peptide;Acc:NP_499335]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
Y39A1A.2	Y39A1A.2	Y39A1A.2 [Source:RefSeq_peptide;Acc:NP_499336]			
rabx-5	Y39A1A.5	RAB eXchange factor family member (rabx-5) [Source:RefSeq_peptide;Acc:NP_499337]			zinc ion binding, DNA binding, 
Y39A1A.24	Y39A1A.24	Y39A1A.24 [Source:RefSeq_peptide;Acc:NP_499339]			
Y39A1A.6	Y39A1A.6	Y39A1A.6 [Source:RefSeq_peptide;Acc:NP_499340]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y39A1A.7	Y39A1A.7	Y39A1A.7 [Source:RefSeq_peptide;Acc:NP_499341]			
hpr-9	Y39A1A.23	Homolog of S.Pombe Rad family member (hpr-9) [Source:RefSeq_peptide;Acc:NP_499342]	DNA repair, 		
Y39A1A.t1	Y39A1A.t1				
Y39A1A.8	Y39A1A.8	Y39A1A.8 [Source:RefSeq_peptide;Acc:NP_499343]			
Y39A1A.9	Y39A1A.9	Y39A1A.9 [Source:RefSeq_peptide;Acc:NP_499344]			
Y39A1A.10	Y39A1A.10	Y39A1A.10 [Source:RefSeq_peptide;Acc:NP_499345]			
dhs-11	Y39A1A.11	dhs-11 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
Y39A1A.12	Y39A1A.12	Y39A1A.12 encodes a homolog of origin recognition complex 1, which is also a distant paralog of CDC-6. both Y39A1A.12 and CDC-6 encode homologs of the origin complex which, in yeast, controls the start of DNA replication. whether either Y39A1A.12 or CDC-6 are required for this function in C. elegans, individually or in parallel, is unknown. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, microtubule motor activity, 
Y39A1A.13	Y39A1A.13	Y39A1A.13 [Source:RefSeq_peptide;Acc:NP_499348]	locomotory behavior, 		
Y39A1A.14	Y39A1A.14	Probable ribosome biogenesis protein nep-1. [Source:Uniprot/SWISSPROT;Acc:Q9XX15]	growth, 	nucleus, 	
cnt-2	Y39A1A.15	CeNTaurin family member (cnt-2) [Source:RefSeq_peptide;Acc:NP_001022839]	protein transport, small GTPase mediated signal transduction, regulation of GTPase activity, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, GTP binding, 
Y39A1A.16	Y39A1A.16	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y39A1A.25	Y39A1A.25		embryonic development ending in birth or egg hatching, 		
Y39A1A.17	Y39A1A.17	Y39A1A.17 [Source:RefSeq_peptide;Acc:NP_499354]			protein binding, 
Y39A1A.18	Y39A1A.18	Y39A1A.18 [Source:RefSeq_peptide;Acc:NP_499355]			
fmo-3	Y39A1A.19	fmo-3 encodes a flavin-containing monoxygenase homologous to human FMO1, FMO2, and FMO3 (OMIM:602079, mutated in trimethylaminuria). [Source: WormBase]	electron transport, reproduction, 	microsome, 	oxidoreductase activity, monooxygenase activity, flavin-containing monooxygenase activity, 
Y39A1A.20	Y39A1A.20	Y39A1A.20 [Source:RefSeq_peptide;Acc:NP_499357]			
Y39A1A.21	Y39A1A.21	Y39A1A.21a [Source:RefSeq_peptide;Acc:NP_001022840]			
Y39A1A.22	Y39A1A.22	Y39A1A.22 [Source:RefSeq_peptide;Acc:NP_499359]	positive regulation of growth rate, 	integral to membrane, 	
W09D10.3	W09D10.3	W09D10.3 [Source:RefSeq_peptide;Acc:NP_499360]	translation, growth, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
W09D10.5	W09D10.5	W09D10.5 [Source:RefSeq_peptide;Acc:NP_499361]			
W09D10.4	W09D10.4	W09D10.4 [Source:RefSeq_peptide;Acc:NP_499362]			catalytic activity, phosphoprotein phosphatase activity, 
tat-3	W09D10.2	W09D10.2 [Source:RefSeq_peptide;Acc:NP_499363]	transport, metabolic process, phospholipid transport, 	membrane, integral to membrane, 	ATP binding, catalytic activity, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
W09D10.1	W09D10.1	W09D10.1 [Source:RefSeq_peptide;Acc:NP_499364]	regulation of GTPase activity, growth, 		
K01G5.8	K01G5.8	K01G5.8b [Source:RefSeq_peptide;Acc:NP_499365]	positive regulation of growth rate, 		
tbb-1	K01G5.7	This gene encodes a homolog of mammalian beta-tubulin (TUBB) that is expressed at high levels in the germline. TBB-1 is redundant for embryonic viability, due to its paralog TBB-2. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, 	cytoplasm, microtubule, protein complex, 	protein binding, GTP binding, GTPase activity, structural molecule activity, 
rib-2	K01G5.6	The rib-2 gene encodes an ortholog of human EXT2, which when mutated leads to hereditary multiple exostoses, type II (OMIM:133701). [Source: WormBase]		membrane, 	
ran-1	K01G5.4	GTP-binding nuclear protein ran-1. [Source:Uniprot/SWISSPROT;Acc:O17915]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
K01G5.5	K01G5.5	The K01G5.5 gene encodes an ortholog of human DYSKERIN (DKC1. OMIM:300126), which when mutated leads to X-linked dyskeratosis congenita (OMIM:305000). the K01G5.5 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	RNA processing, growth, 		RNA binding, tRNA-pseudouridine synthase activity, 
K01G5.3	K01G5.3	K01G5.3 [Source:RefSeq_peptide;Acc:NP_499371]			
hpl-2	K01G5.2	hpl-2 encodes one of two C. elegans heterochromatin protein 1 (HP1) homologs. hpl-2 activity is required for silencing of transgenes in the germline, germline development, and vulval cell fate specification. in addition, hpl-2 negatively regulates RNA-mediated interference (RNAi). hpl-2 also functions redundantly with hpl-1 in larval, somatic gonad and germline development, and redundantly with hpl-1, lin-13, lin-15A, lin-9, and lin-35 in vulval development. HPL-2 reporter fusion proteins are expressed in nuclei throughout the life cycle with expression also seen in the germline and developing oocytes. in nuclei, HPL-2 fusion proteins are associated with condensed chromatin. HPL-2::RFP foci do not significantly overlap with those of HPL-1. [Source: WormBase]	chromatin assembly or disassembly, gonad development, 	nucleus, chromatin, endoplasmic reticulum, 	protein binding, chromatin binding, 
tag-331	K01G5.1	Putative RING finger protein 113 homolog. [Source:Uniprot/SWISSPROT;Acc:O17917]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, nucleic acid binding, 
K01G5.10	K01G5.10	K01G5.10 [Source:RefSeq_peptide;Acc:NP_499376]	proteolysis, metabolic process, embryonic development ending in birth or egg hatching, 	membrane, 	catalytic activity, serine-type peptidase activity, phosphoglycolate phosphatase activity, 
K01G5.9	K01G5.9	K01G5.9 [Source:RefSeq_peptide;Acc:NP_499377]	glycoprotein catabolic process, 		asparaginase activity, 
dpy-28	Y39A1B.3	dpy-28 encodes a non-SMC condensin subunit homolog, similar to XCAP-D2 in Xenopus, Cnd1 in S. pombe, and Ycs4p in S. cerevisiae, that is required for negative, chromosome-wide regulation of X-chromosomal genes in XX but not XO animals (dosage compensation), and for some undetermined aspect of body morphogenesis. DPY-28 is part of a multiprotein 'dosage compensation' complex with DPY-26, DPY-27 and MIX-1. [Source: WormBase]	mitosis, positive regulation of multicellular organism growth, 		
ptr-19	Y39A1B.2	ptr-19 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. PTR-19 is required for normal development in mass RNAi assays. PTR-19 is expressed in pharynx, hypodermis, nervous system (including head neurons), and other cells. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
Y39A1B.1	Y39A1B.1	Y39A1B.1 [Source:RefSeq_peptide;Acc:NP_499381]			sugar binding, 
K11D9.3	K11D9.3	K11D9.3 [Source:RefSeq_peptide;Acc:NP_499382]	transport, 	membrane, integral to membrane, 	transporter activity, 
klp-7	K11D9.1	klp-7 encodes two isoforms of a kinesin, related to XKCM1/MCAK, that is required to pull mitotic spindles asymmetrically to the posterior, probably by means of their posterior spindle poles, at the end of anaphase during the first embryonic mitosis. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
sca-1	K11D9.2	The sca-1 gene encodes a sarco-endoplasmic reticulum Ca[2+] ATPase homolog that is required for development and muscle function. sca-1 is also a ortholog of human ATP2A1 (OMIM:108730), which when mutated leads to Darier-White disease (OMIM:124200). [Source: WormBase]	transport, metabolic process, calcium ion transport, cation transport, cellular calcium ion homeostasis, biological_process, dauer larval development, 	membrane, integral to membrane, endoplasmic reticulum, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, calcium-transporting ATPase activity, chromatin DNA binding, 
R17.3	R17.3	R17.3 encodes an ortholog of human retinal pigment epithelium (RPE)-spondin (RPESP). [Source: WormBase]			
R17.2	R17.2	R17.2 [Source:RefSeq_peptide;Acc:NP_499388]			
fbxb-85	R17.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
hex-3	Y39A1C.4	hex-3 encodes a beta-N-acetylhexosaminidase. [Source: WormBase]	carbohydrate metabolic process, 		beta-N-acetylhexosaminidase activity, 
Y39A1C.1	Y39A1C.1	Y39A1C.1 [Source:RefSeq_peptide;Acc:NP_499391]			
oxi-1	Y39A1C.2	OXidative stress Induced family member (oxi-1) [Source:RefSeq_peptide;Acc:NP_499392]	protein modification process, ubiquitin cycle, 	intracellular, 	ubiquitin-protein ligase activity, 
cey-4	Y39A1C.3	cey-4 encodes a Y box-containing protein with no known function in vivo. CEY-4 associates with CGH-1 and CEY-2/3 in cytoplasmic particles of the gonad and early embryo. [Source: WormBase]	regulation of transcription, DNA-dependent, 		DNA binding, nucleic acid binding, 
C44B9.1	C44B9.1	C44B9.1 [Source:RefSeq_peptide;Acc:NP_499394]	phosphate metabolic process, 	cytoplasm, 	nucleotide binding, magnesium ion binding, inorganic diphosphatase activity, sugar binding, 
C44B9.2	C44B9.2	C44B9.2 [Source:RefSeq_peptide;Acc:NP_499395]	G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
C44B9.3	C44B9.3	C44B9.3 [Source:RefSeq_peptide;Acc:NP_499396]			
athp-1	C44B9.4	AT Hook plus PHD finger transcription factor family member (athp-1) [Source:RefSeq_peptide;Acc:NP_499397]	reproduction, 	extracellular region, 	protein binding, zinc ion binding, calcium ion binding, 
fbxb-87	C44B9.6	F-box B protein family member (fbxb-87) [Source:RefSeq_peptide;Acc:NP_001021216]			
C44B9.5	C44B9.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
unc-119	M142.1	unc-119 encodes a novel protein that is highly conserved amongst metazoans. unc-119 activity is required for proper development of the nervous system, including axonal branching and fasciculation, and hence, for normal movement, chemosensation, and feeding. unc-119 is expressed pan-neuronally beginning in the early embryo (~60 cells) and continuing through adulthood. although the molecular function of UNC-119 is not yet known, human UNC119, which can rescue C. elegans unc-119 mutant animals, is reported to function as a receptor-associated activator of signal transduction. thus, UNC-119 may be part of a signal transduction pathway that mediates axonal patterning in response to external developmental cues. [Source: WormBase]	locomotion, 		protein binding, molecular_function, 
cut-6	M142.2	M142.2 [Source:RefSeq_peptide;Acc:NP_499400]	positive regulation of multicellular organism growth, 		extracellular matrix structural constituent, 
M142.7	M142.7				
vab-7	M142.4	The vab-7 gene encodes an even-skipped-like homeodomain protein that is required for DB motoneuron identity and posterior DB axonal polarity. [Source: WormBase]	regulation of transcription, DNA-dependent, post-embryonic body morphogenesis, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
M142.3	M142.3				
M142.5	M142.5	M142.5 [Source:RefSeq_peptide;Acc:NP_499402]			
M142.8	M142.8	M142.8 [Source:RefSeq_peptide;Acc:NP_001022694]	proteolysis, methylation, 		methyltransferase activity, nucleic acid binding, cysteine-type endopeptidase activity, 
rle-1	M142.6	Regulation of Longevity by E3 ubiquitin ligase family member (rle-1) [Source:RefSeq_peptide;Acc:NP_499403]	positive regulation of growth rate, 		protein binding, zinc ion binding, 
strd-1	Y52D3.1	Y52D3.1a [Source:RefSeq_peptide;Acc:NP_001022902]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
zig-5	Y48A6A.1	zig-5 encodes a predicted membrane-associated protein containing two C2-type immunoglobulin domains and a GPI (glycosylated phosphatidylinositol) anchor site, but no transmembrane domain. ZIG-5 is predicted to function in cell adhesion and/or signaling, and appears to be required for embryogenesis as well as maintenance of ventral nerve cord organization during larval stages. ZIG-5 is expressed in several different neurons and is detected in the PVT guidepost neuron beginning at the three-fold stage of embryogenesis and continuing throughout larval development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
W05B2.2	W05B2.2	W05B2.2 [Source:RefSeq_peptide;Acc:NP_499406]			serine-type endopeptidase inhibitor activity, protease inhibitor activity, 
W05B2.t1	W05B2.t1				
W05B2.3	W05B2.3				
W05B2.4	W05B2.4	W05B2.4 [Source:RefSeq_peptide;Acc:NP_499407]		proteinaceous extracellular matrix, 	DNA binding, 
NR_003436.1	W05B2.9	W05B2.9, snoRNA [Source:RefSeq_dna;Acc:NR_003436]			
col-92	W05B2.6	COLlagen family member (col-92) [Source:RefSeq_peptide;Acc:NP_499408]	phosphate transport, G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
col-93	W05B2.5	COLlagen family member (col-93) [Source:RefSeq_peptide;Acc:NP_499409]	phosphate transport, G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
col-94	W05B2.1	COLlagen family member (col-94) [Source:RefSeq_peptide;Acc:NP_499410]	phosphate transport, G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
W05B2.7	W05B2.7	W05B2.7 [Source:RefSeq_peptide;Acc:NP_499411]			
NR_002649.1	W05B2.8	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
Y48A6B.1	Y48A6B.1	Y48A6B.1 [Source:RefSeq_peptide;Acc:NP_499413]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
fipr-17	Y48A6B.4	Y48A6B.4 [Source:RefSeq_peptide;Acc:NP_499414]			
Y48A6B.3	Y48A6B.3	Putative H/ACA ribonucleoprotein complex subunit 2-like protein. [Source:Uniprot/SWISSPROT;Acc:Q9XXD4]	translation, ribosome biogenesis and assembly, positive regulation of growth rate, rRNA pseudouridine synthesis, 	intracellular, ribosome, ribonucleoprotein complex, small nucleolar ribonucleoprotein complex, 	structural constituent of ribosome, snoRNA binding, rRNA pseudouridylation guide activity, 
exos-1	Y48A6B.5	Y48A6B.5 [Source:RefSeq_peptide;Acc:NP_499416]	biological_process, 		
Y48A6B.6	Y48A6B.6	Y48A6B.6b [Source:RefSeq_peptide;Acc:NP_001022889]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated potassium channel activity, 
Y48A6B.7	Y48A6B.7	Y48A6B.7 [Source:RefSeq_peptide;Acc:NP_499418]			zinc ion binding, hydrolase activity, 
Y48A6B.8	Y48A6B.8	Y48A6B.8 [Source:RefSeq_peptide;Acc:NP_499419]	protein amino acid phosphorylation, 		protein serine/threonine kinase activity, 
Y48A6B.9	Y48A6B.9	Probable trans-2-enoyl-CoA reductase 2, mitochondrial precursor (EC 1.3.1.38). [Source:Uniprot/SWISSPROT;Acc:Q9XXC8]			protein binding, zinc ion binding, 
Y48A6B.10	Y48A6B.10	Y48A6B.10 [Source:RefSeq_peptide;Acc:NP_499421]			
spat-2	Y48A6B.13	SPAT-2 encodes an unfamiliar protein with no obvious homologs outside of nematodes, and with several stretches of low-complexity sequence that may be nonglobular. SPAT-2 is specifically required for PAR protein-dependent cell-polarity. as with par-3, par-6, pkc-3, and cdc-42, RNAi of spat-2 suppresses the embryonic lethality of par-2(it5ts) at restrictive temperature. [Source: WormBase]			
rsa-2	Y48A6B.11	Y48A6B.11a [Source:RefSeq_peptide;Acc:NP_001022886]	embryonic development ending in birth or egg hatching, 		
W09D6.t2	W09D6.t2				
W09D6.t1	W09D6.t1				
W09D6.1	W09D6.1	W09D6.1b [Source:RefSeq_peptide;Acc:NP_871636]	metabolic process, electron transport, 		catalytic activity, phosphopantetheine binding, 
str-261	W09D6.2	Seven TM Receptor family member (str-261) [Source:RefSeq_peptide;Acc:NP_499425]			
str-246	W09D6.3	Seven TM Receptor family member (str-246) [Source:RefSeq_peptide;Acc:NP_499426]			
W09D6.4	W09D6.4	W09D6.4 [Source:RefSeq_peptide;Acc:NP_499427]			
W09D6.5	W09D6.5	W09D6.5 [Source:RefSeq_peptide;Acc:NP_499428]			
NR_002650.1	W09D6.7	W09D6.7, snRNA [Source:RefSeq_dna;Acc:NR_002650]			
NR_002651.1	W09D6.8	W09D6.8, snRNA [Source:RefSeq_dna;Acc:NR_002651]			
hmt-1	W09D6.6	hmt-1 encodes a predicted transmembrane half-molecule ATP-binding cassette (ABC) transporter orthologous to Schizosaccharomyces pombe heavy metal tolerance factor 1 (SpHMT1), an ATP-dependent phytochelatin transporter. HMT-1 is required for cadmium detoxification and by homology, is predicted to promote sequestration of heavy metal-containing phytochelatins into intracellular vacuoles to protect cells from potential damage. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
Y48A6C.1	Y48A6C.1	Y48A6C.1 [Source:RefSeq_peptide;Acc:NP_499430]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
Y48A6C.2	Y48A6C.2				
Y48A6C.3	Y48A6C.3	Y48A6C.3 [Source:RefSeq_peptide;Acc:NP_499432]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y48A6C.4	Y48A6C.4	Y48A6C.4 encodes an ortholog of S. cerevisiae IPI1 that may suppress tumorous growth in the germline. like PRO-1, -2, and -3, Y48A6C.4 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. [Source: WormBase]	growth, 		
pha-1	Y48A6C.5	pha-1 encodes a novel protein that contains a DUF1114 domain of unknown function found in a number of other nematode proteins. during embryonic development, pha-1 functions redundantly with class B SynMuv genes such as lin-35/Rb and efl-1 to effect pharyngeal morphogenesis. in regulating pharyngeal development, PHA-1 also appears to act with the UBC-18 ubiquitin conjugating enzyme. a PHA-1::GFP reporter is broadly expressed during embryonic development and localizes to the cytoplasm. expression is also observed in early- and late-larval-stage animals, as well as adults, although postembryonic expression is generally weaker than that seen in the embryo. [Source: WormBase]	growth, embryonic digestive tract morphogenesis, 		
fbxa-128	Y47D3A.2	F-box A protein family member (fbxa-128) [Source:RefSeq_peptide;Acc:NP_499435]			
Y47D3A.1	Y47D3A.1	Y47D3A.1 [Source:RefSeq_peptide;Acc:NP_499436]			
Y47D3A.29	Y47D3A.29	Y47D3A.29 encodes the catalytic subunit of DNA polymerase alpha. large-scale RNAi screens indicate that Y47D3A.29 activity is essential for embryogenesis and required specifically for normal pronuclear migration, as well as normal nuclear position and cell division timing in early blastomeres. [Source: WormBase]	DNA replication, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 	nucleus, 	nucleotide binding, DNA binding, nucleic acid binding, DNA-directed DNA polymerase activity, 
cku-70	Y47D3A.4	cku-70 encodes an ortholog of human XRCC6 (Ku70. OMIM:152690, antigen of systemic lupus erythematosus). CKU-70 is required for resistance to ionizing radiation (IR) in somatic tissues (such as motor neurons, vulva or uterus) and in endoreduplicating intestinal cells, but not in the germline. CKU-70 is also required for survival of dauer larvae subjected to IR, and for resistance of developing embryos to methyl methane sulfonate. CKU-70, unlike CKU-80, inhibits DAF-16-dependent thermotolerance, and slightly shortens normal lifespan. CKU-70 binds CKU-80 in yeast two-hybrid assays, and requires HIM-10 for fully effective DNA repair in somatic cells. by orthology, CKU-70 is expected to function (as a heterodimer with CKU-80) in nonhomologous end-joining of double-stranded breaks in DNA. mutant cku-70 late-stage embryos or dauer larvae are hypersensitive to radiation-induced DNA damage in somatic cells. after irradiation, cku-70 mutants tend to display various postembryonic phenotypes (such as slow growth, uncoordinated locomotion, impaired egg-laying, or vulval defects) that are enhanced by him-10 mutations, and that are thought to reflect missegregation of fragmented chromosomes. cku-70(RNAi) animals show a minor extension of lifespan in an rrf-3(pk1426) mutant background, independently of the presence or absence of either functional DAF-2 or germline cells, but a reduction of lifespan with a loss of DAF-16 activity. [Source: WormBase]	double-strand break repair via nonhomologous end joining, determination of adult life span, 		DNA binding, ATP-dependent DNA helicase activity, 
Y47D3A.31	Y47D3A.31	Y47D3A.31 [Source:RefSeq_peptide;Acc:NP_001022878]			
Y47D3A.5	Y47D3A.5	Y47D3A.5 [Source:RefSeq_peptide;Acc:NP_499439]			
tra-1	Y47D3A.6	tra-1 encodes Zn2+-finger-containing proteins that are the sole C. elegans members of the GLI transcription factor family. during development, tra-1 functions cell autonomously as the terminal regulator of the sex determination pathway and positively regulates all aspects of hermaphrodite somatic sexual differentiation. in addition, tra-1 activity is required for proper development of the male somatic gonad and for sustained spermatogenesis in both sexes. in regulating sex-specific development, TRA-1 functions, in part, by repressing transcription of mab-3 and egl-1 in the intestine and HSN neurons, respectively. TRA-1 is expressed in hermaphrodites and males and localizes to both the nucleus and cytoplasm of many different cell types. expression of C-terminally truncated TRA-1 isoforms is much higher in hermaphrodites than males, due to sex-specific proteolysis that results in the presence of feminizing TRA-1 isoforms in hermaphrodites. [Source: WormBase]	morphogenesis of an epithelium, spermatogenesis, female somatic sex determination, female germ-line sex determination, 	cytoplasm, intracellular, nucleus, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, protein C-terminus binding, 
tbx-34	Y47D3A.10	tbx-34 encodes a diverged member of the T-box transcription factor family. by homology, TBX-34 is predicted to function as a transcriptional regulator during development, but as loss of tbx-34 activity via RNAi results in no obvious defects, the precise role of TBX-34 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
wht-8	Y47D3A.11	Y47D3A.11 [Source:RefSeq_peptide;Acc:NP_499442]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
Y47D3A.13	Y47D3A.13	Y47D3A.13 [Source:RefSeq_peptide;Acc:NP_499443]			
tbx-37	Y47D3A.12	tbx-37 encodes a T box transcription factor. during embryonic development, tbx-37 functions redundantly with tbx-38 to effect Notch-mediated pharyngeal mesoderm induction in descendants of the ABa blastomere. in addition, tbx-37 and tbx-38 are required for proper cell fate specification of other ABa descendants, such as those that give rise to hypodermal tissue. a tbx-37::gfp fusion is expressed exclusively in the 8 ABa descendents at the 24-cell stage of embryogenesis. negative regulation of tbx-37 expression in ABp descendants depends upon Notch signaling, while negative regulation of expression in both ABp and EMS descendents appears to be controlled by members of the REF-1 family of bHLH transcriptions factors, specifically REF-1, HLH-26, HLH-27, and HLH-29. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
elo-8	Y47D3A.30	The elo-8 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. elo-8 has no known function in vivo. [Source: WormBase]		integral to membrane, 	
Y47D3A.14	Y47D3A.14	Y47D3A.14 [Source:RefSeq_peptide;Acc:NP_499445]			zinc ion binding, hydrolase activity, 
aakb-2	Y47D3A.15	AMP-Activated Kinase Beta subunit family member (aakb-2) [Source:RefSeq_peptide;Acc:NP_499446]			
rsks-1	Y47D3A.16	rsks-1 encodes a putative ribosomal protein S6 kinase (S6K) required additively with IFG-1 for normally high levels of protein synthesis, and for normally short lifespan. RSKS-1's effect on lifespan is independent of DAF-16, ISP-1, and SIR-2.1, and does not correlate with juglone resistance, but does correlate with abnormally high resistance to starvation and (perhaps) thermotolerance. RSKS-1 is required for normal juglone resistance, as well as normally rapid growth and normal brood sizes. RSKS-1 is expressed in E-lineage embryonic cells, and in pharyngeal and hypodermal cells of larvae and adults. RSKS-1 is orthologous to human RPS6KB1 (OMIM:608938) and RPS6KB2 (OMIM:608939). [Source: WormBase]	protein amino acid phosphorylation, biological_process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y47D3A.32	Y47D3A.32	Y47D3A.32 [Source:RefSeq_peptide;Acc:NP_001022879]			
obr-1	Y47D3A.17	Oxysterol Binding protein (OSBP) Related family member (obr-1) [Source:RefSeq_peptide;Acc:NP_499448]	steroid metabolic process, embryonic development ending in birth or egg hatching, 		
Y47D3A.20	Y47D3A.20	Y47D3A.20 [Source:RefSeq_peptide;Acc:NP_001022875]	embryonic development ending in birth or egg hatching, 		
Y47D3A.21	Y47D3A.21	Density-regulated protein homolog. [Source:Uniprot/SWISSPROT;Acc:Q9NAH4]	translational initiation, 		translation initiation factor activity, 
gly-9	Y47D3A.23	Probable N-acetylgalactosaminyltransferase 9 (EC 2.4.1.-) (Protein-UDP acetylgalactosaminyltransferase 9) (UDP-GalNAc:polypeptide N- acetylgalactosaminyltransferase 9) (pp-GaNTase 9). [Source:Uniprot/SWISSPROT;Acc:Q9U2C4]			
Y47D3A.22	Y47D3A.22	Y47D3A.22 [Source:RefSeq_peptide;Acc:NP_499452]	electron transport, 		iron ion binding, protein binding, zinc ion binding, monooxygenase activity, heme binding, 
smc-3	Y47D3A.26		DNA metabolic process, chromosome organization and biogenesis, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, protein serine/threonine kinase activity, ATPase activity, protein binding, 
rab-35	Y47D3A.25	rab-35 encodes a small, monomeric Rab GTPase that is most closely related to the human and Drosophila Rab35 GTPases. by homology, RAB-35 is predicted to function as a membrane-associated GTPase required for intracellular vesicular trafficking and for regulation of endo- and exocytosis. however, as loss of rab-35 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of RAB-35 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
teg-1	Y47D3A.27	Tumorous Enhancer of Glp-1(gf) family member (teg-1) [Source:RefSeq_peptide;Acc:NP_499455]			protein binding, 
Y47D3A.28	Y47D3A.28	Y47D3A.28 [Source:RefSeq_peptide;Acc:NP_499456]			
T28D6.6	T28D6.6	T28D6.6 [Source:RefSeq_peptide;Acc:NP_499457]	embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
T28D6.5	T28D6.5	T28D6.5a [Source:RefSeq_peptide;Acc:NP_499458]			
pen-2	T28D6.9	Gamma-secretase subunit pen-2 (Presenilin enhancer protein 2). [Source:Uniprot/SWISSPROT;Acc:Q9U357]			
T28D6.7	T28D6.7	T28D6.7 [Source:RefSeq_peptide;Acc:NP_499460]			
T28D6.t1	T28D6.t1				
T28D6.t2	T28D6.t2				
T28D6.4	T28D6.4	T28D6.4 [Source:RefSeq_peptide;Acc:NP_499461]	positive regulation of growth rate, 		protein binding, 
T28D6.3	T28D6.3	T28D6.3 [Source:RefSeq_peptide;Acc:NP_499462]			
tba-7	T28D6.2	TuBulin, Alpha family member (tba-7) [Source:RefSeq_peptide;Acc:NP_499463]	microtubule-based process, microtubule-based movement, protein polymerization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
T28D6.10	T28D6.10				
dpy-18	Y47D3B.10	An alpha subunit of prolyl-4-hydroxylase which is a procollagen modifying enzyme required for exoskeleton formation, morphogenesis and maintenance of body shape. it is expressed throughout the hypodermis and certain head and posterior neurons. [Source: WormBase]	protein metabolic process, embryonic development, positive regulation of multicellular organism growth, 		oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
Y47D3B.1	Y47D3B.1	Y47D3B.1 [Source:RefSeq_peptide;Acc:NP_499465]	G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, 	rhodopsin-like receptor activity, 
nlp-21	Y47D3B.2	nlp-21 encodes nine predicted neuropeptide-like proteins. in C. elegans, nlp-21 is part of the GGARAF neuropeptide family that also contains nlp-9. nlp-21 is expressed in a variety of neurons, including AFD, five head neurons, the ventral nerve cord, one anterior pharyngeal neuron, and one tail neuron. nlp-21 expression is also detected in the embryo and the intestine. as loss of nlp-21 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of nlp-21-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
Y47D3B.3	Y47D3B.3	Y47D3B.3 [Source:RefSeq_peptide;Acc:NP_499468]			
Y47D3B.4	Y47D3B.4	Y47D3B.4 [Source:RefSeq_peptide;Acc:NP_499469]			
twk-31	Y47D3B.5	TWiK family of potassium channels family member (twk-31) [Source:RefSeq_peptide;Acc:NP_001022884]	potassium ion transport, post-embryonic body morphogenesis, 	membrane, 	potassium channel activity, 
Y47D3B.6	Y47D3B.6	Y47D3B.6 [Source:RefSeq_peptide;Acc:NP_499471]			nutrient reservoir activity, 
sbp-1	Y47D3B.7	sbp-1 encodes a basic helix-loop-helix (bHLH) transcription factor homologous to the mammalian Sterol Regulatory Element Binding Proteins (SREBPs, OMIM:184756, overexpression of nuclear form of SREBP-1c is associated with insulin resistance and features of congenital generalized lipodystrophy). in C. elegans, SBP-1 activity is required for normal lipid metabolism and wild-type levels of lipogenic enzyme expression, as well as for embryonic and larval development. sbp-1 expression is detected exclusively in the intestine, the major site of fat storage, from early embryogenesis through adulthood. [Source: WormBase]	regulation of transcription, positive regulation of growth rate, 	nucleus, 	protein binding, transcription regulator activity, 
Y47D3B.11	Y47D3B.11	Y47D3B.11 [Source:RefSeq_peptide;Acc:NP_499473]			protein binding, zinc ion binding, 
Y47D3B.9	Y47D3B.9	Y47D3B.9 [Source:RefSeq_peptide;Acc:NP_499474]			protein binding, DNA binding, 
Y66A7A.t1	Y66A7A.t1				
Y66A7A.3	Y66A7A.3	Y66A7A.3 [Source:RefSeq_peptide;Acc:NP_499475]			
fbxa-220	Y66A7A.1	Y66A7A.1 [Source:RefSeq_peptide;Acc:NP_499476]			
Y66A7A.2	Y66A7A.2	Y66A7A.2 encodes an ortholog of Pop5, a protein subunit shared by the endoribonucleases RNase MRP and RNAse P. RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. RNAse P cleaves tRNA precursors to produce their mature 5' end. Y66A7A.2 is evolutionarily ubiquitous among eukaryotes. [Source: WormBase]	tRNA processing, 		ribonuclease activity, 
Y66D12A.23	Y66D12A.23	Y66D12A.23 [Source:RefSeq_peptide;Acc:NP_499478]	translation, tRNA aminoacylation for protein translation, G-protein coupled receptor protein signaling pathway, aspartyl-tRNA aminoacylation, lysyl-tRNA aminoacylation, 	integral to membrane, cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, aminoacyl-tRNA ligase activity, aspartate-tRNA ligase activity, lysine-tRNA ligase activity, 
Y66D12A.24	Y66D12A.24	Y66D12A.24 [Source:RefSeq_peptide;Acc:NP_499479]			
tin-10	Y66D12A.22	Mitochondrial import inner membrane translocase subunit Tim10. [Source:Uniprot/SWISSPROT;Acc:Q9Y0V6]	protein targeting to mitochondrion, protein import into mitochondrial inner membrane, embryonic development ending in birth or egg hatching, 	mitochondrial intermembrane space protein transporter complex, 	
Y66D12A.21	Y66D12A.21	TM2 domain-containing protein Y66D12A.21 precursor. [Source:Uniprot/SWISSPROT;Acc:Q95PJ8]			
spe-6	Y66D12A.20	spe-6 encodes a predicted protein-serine threonine kinase in the casein kinase 1 family that is required for spermatid activation, and for progression through late prophase of meiosis I, and is specifically required for the assembly of MSP (major sperm protein) in the fibrous bodies of spermatocytes. bypasses the requirement for spe-27, spe-8, spe-12, and spe-29 with respect to spermatid activation. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
Y66D12A.19	Y66D12A.19	Y66D12A.19 [Source:RefSeq_peptide;Acc:NP_499483]			
Y66D12A.18	Y66D12A.18	Y66D12A.18 [Source:RefSeq_peptide;Acc:NP_499484]			
such-1	Y66D12A.17	such-1 encodes a component of the anaphase promoting complex/cyclosome (APC/C), paralogous to GFI-3 and distantly similar to APC5, that helps enforce the spindle assembly checkpoint of the metaphase-to-anaphase transition, and that is required for mitosis at 25 deg. C.. in such-1(h1960) mutants, anaphase onset (and mitosis generally) is delayed in both germline and early embryonic mitosis, X chromosome missegregation is decreased, IFY-1 accumulation is delayed during mitosis, and the long-term sterility (over two to three generations) of homozygous mdf-1(gk2) mutations is suppressed. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y66D12A.16	Y66D12A.16	Y66D12A.16 [Source:RefSeq_peptide;Acc:NP_499486]			
Y66D12A.15	Y66D12A.15	Y66D12A.15 is orthologous to the human gene EXCISION REPAIR CROSS-COMPLEMENTING RODENT REPAIR DEFICIENCY, COMPLEMENTATION GROUP 3 (XERODERMA PIGMENTOSUM GROUP B COMPLEMENTING) (ERCC3. OMIM:133510), which when mutated leads to disease. [Source: WormBase]	nucleotide-excision repair, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent DNA helicase activity, 
Y66D12A.14	Y66D12A.14	Y66D12A.14 [Source:RefSeq_peptide;Acc:NP_499488]	metabolic process, 		cofactor binding, catalytic activity, phosphopantetheine binding, 
Y66D12A.13	Y66D12A.13	Y66D12A.13 [Source:RefSeq_peptide;Acc:NP_499489]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
Y66D12A.t1	Y66D12A.t1				
Y66D12A.12	Y66D12A.12	Y66D12A.12 [Source:RefSeq_peptide;Acc:NP_499490]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y66D12A.11	Y66D12A.11	Y66D12A.11 [Source:RefSeq_peptide;Acc:NP_499491]			
Y66D12A.10	Y66D12A.10	Y66D12A.10 [Source:RefSeq_peptide;Acc:NP_499492]			
Y66D12A.9	Y66D12A.9	Y66D12A.9 [Source:RefSeq_peptide;Acc:NP_499493]		proteasome activator complex, 	protein binding, proteasome activator activity, 
Y66D12A.8	Y66D12A.8	Y66D12A.8 [Source:RefSeq_peptide;Acc:NP_499494]			
Y66D12A.7	Y66D12A.7	Y66D12A.7 [Source:RefSeq_peptide;Acc:NP_499495]	regulation of translational fidelity, 		
Y66D12A.6	Y66D12A.6	Y66D12A.6 [Source:RefSeq_peptide;Acc:NP_499496]			
Y66D12A.5	Y66D12A.5	Y66D12A.5 [Source:RefSeq_peptide;Acc:NP_499497]			
Y66D12A.3	Y66D12A.3	Y66D12A.3 [Source:RefSeq_peptide;Acc:NP_499499]	electron transport, 		
Y66D12A.25	Y66D12A.25				
Y66D12A.1	Y66D12A.1	Y66D12A.1 [Source:RefSeq_peptide;Acc:NP_499501]			
Y66A7A.4	Y66A7A.4	Y66A7A.4 [Source:RefSeq_peptide;Acc:NP_499502]			serine-type endopeptidase inhibitor activity, 
Y66A7A.5	Y66A7A.5	Y66A7A.5 encodes a protein with a THAP or THAP-like domain that is required for fertility, normal body thickness, vulval morphogenesis, and general health. Y66A7A.5 is expressed in intestine, renal gland cells, and head neurons. other proteins with THAP or THAP-like domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
gly-8	Y66A7A.6	gly-8 encodes a predicted transmembrane polypeptide N-acetylgalactosaminyl transferase (ppGaNTase) similar to the essential Drosophila ppGaNTase encoded by Pgant35A. by homology, GLY-8 is predicted to function as a Golgi enzyme that catalyzes transfer of N-acetylgalactosamine to serine and threonine-containing acceptor peptides, thus initiating mucin-type O-glycosylation. as loss of gly-8 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GLY-8 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		endoplasmic reticulum, 	
Y66A7A.7	Y66A7A.7	Y66A7A.7 [Source:RefSeq_peptide;Acc:NP_499505]			
tbx-33	Y66A7A.8	Putative T-box protein 33. [Source:Uniprot/SWISSPROT;Acc:O45291]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, 
Y41C4A.17	Y41C4A.17	Y41C4A.17 [Source:RefSeq_peptide;Acc:NP_871710]			
Y41C4A.1	Y41C4A.1	Y41C4A.1 [Source:RefSeq_peptide;Acc:NP_499507]			
Y41C4A.2	Y41C4A.2	Y41C4A.2 [Source:RefSeq_peptide;Acc:NP_499508]			amidase activity, 
crh-1	Y41C4A.4	crh-1 encodes a homolog of the cyclic AMP-response element binding protein (CREB). crh-1 is involved in the transcription of CRE-sequence dependant genes activated by a CaM kinase cascade. crh-1 may also be involved in the integration of environmental cues that induce dauer formation and may be part of a chemosensory cascade that regulates TGF-beta signaling. CRH-1 is ubiquitously expressed and localizes to nuclei. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, dauer larval development, 	nucleus, 	protein binding, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
Y41C4A.6	Y41C4A.6	Y41C4A.6 [Source:RefSeq_peptide;Acc:NP_499512]			
Y41C4A.7	Y41C4A.7	Y41C4A.7 [Source:RefSeq_peptide;Acc:NP_499513]			
pqn-84	Y41C4A.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			sugar binding, 
col-95	Y41C4A.16	Y41C4A.16 [Source:RefSeq_peptide;Acc:NP_871702]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-96	Y41C4A.19	Y41C4A.19 [Source:RefSeq_peptide;Acc:NP_871711]	phosphate transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, cholecystokinin receptor activity, 
Y41C4A.8	Y41C4A.8	Y41C4A.8 [Source:RefSeq_peptide;Acc:NP_499515]			
Y41C4A.9	Y41C4A.9	Y41C4A.9 [Source:RefSeq_peptide;Acc:NP_499516]	positive regulation of growth rate, 		
elb-1	Y41C4A.10	elb-1 encodes an Elongin B ortholog required for chromosome condensation and segregation during mitosis and meiotic division II, and also for cell proliferation (probably through degradation of CKI-1). elb-1(RNAi) animals tend to arrest at the second meiotic cell division, with escapers showing many other defects in chromosomal dynamics and cell cycle control such as abnormal pronuclear rotation and cortical protrusion, aberrant chromosomal structures in the intestine, and deficient germ cell proliferation. ELB-1 interacts with ELC-1 and ELC-2 in bacterial two-hybrid experiments. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y41C4A.11	Y41C4A.11	Y41C4A.11 encodes a divergent paralog of F38E11.5, the beta' (beta-prime) subunit of the coatomer (COPI) complex. unlike F38E11.5, Y41C4A.11 has no obvious function in mass RNAi assays. [Source: WormBase]			
Y41C4A.12	Y41C4A.12	Y41C4A.12b [Source:RefSeq_peptide;Acc:NP_871699]			protein binding, 
Y41C4A.18	Y41C4A.18	Y41C4A.18 [Source:RefSeq_peptide;Acc:NP_871686]			
Y41C4A.13	Y41C4A.13	Y41C4A.13 [Source:RefSeq_peptide;Acc:NP_499520]			
mrt-2	Y41C4A.14	mrt-2 encodes a highly conserved DNA-damage checkpoint protein homologous to the RAD1 protein found in S. pombe, Drosophila, and mammals. MRT-2 interacts with HUS-1 and HPR-9, also conserved DNA-damage checkpoint proteins, and is required in the germline for maintaining chromosomal integrity. mrt-2 mutations result in a failure to induce apoptosis in response to DNA damage, progressive telomere loss, chromosome fusion, and aneuploidy, all leading eventually to germline immortality. [Source: WormBase]	DNA repair, 	nucleus, 	exonuclease activity, damaged DNA binding, 
gbf-1	C24H11.7	GBF1(Golgi-specific Brefeldin-A-resistant Factor 1) homolog family member (gbf-1) [Source:RefSeq_peptide;Acc:NP_499522]	regulation of ARF protein signal transduction, biological_process, 	intracellular, 	ARF guanyl-nucleotide exchange factor activity, 
immp-1	C24H11.6	C24H11.6 [Source:RefSeq_peptide;Acc:NP_499523]	proteolysis, signal peptide processing, 	membrane, 	serine-type peptidase activity, peptidase activity, 
mdt-21	C24H11.9	MeDiaTor family member (mdt-21) [Source:RefSeq_peptide;Acc:NP_001021184]	positive regulation of growth rate, 		
C24H11.5	C24H11.5	C24H11.5 [Source:RefSeq_peptide;Acc:NP_499524]			
srd-74	C24H11.4	Serpentine Receptor, class D (delta) family member (srd-74) [Source:RefSeq_peptide;Acc:NP_499525]			
tbx-38	C24H11.3	tbx-38 encodes a T box transcription factor. during embryonic development, tbx-38 functions redundantly with tbx-37 to effect Notch-mediated pharyngeal mesoderm induction in descendants of the ABa blastomere. in addition, tbx-38 and tbx-37 are required for proper cell fate specification of other ABa descendants, such as those that give rise to hypodermal tissue. TBX-38 expression appears to be limited to the 8 ABa descendents at the 24-cell stage of embryogenesis, with expression diminishing markedly during the next cell cycle. negative regulation of TBX-38 expression in ABp descendants depends upon Notch signaling, while negative regulation of expression in EMS descendents is likely controlled, in part, by ref-1 and unc-37, which encode bHLH and Groucho-like proteins, respectively. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
C24H11.1	C24H11.1	C24H11.1 [Source:RefSeq_peptide;Acc:NP_499527]			hydrolase activity, 
C24H11.2	C24H11.2	C24H11.2 [Source:RefSeq_peptide;Acc:NP_499528]			hydrolase activity, 
C24H11.t1	C24H11.t1				
twk-39	C24H11.8	TWiK family of potassium channels family member (twk-39) [Source:RefSeq_peptide;Acc:NP_001076639]			
C18D11.7	C18D11.7	C18D11.7 [Source:RefSeq_peptide;Acc:NP_001021178]			protein binding, 
C18D11.9	C18D11.9	C18D11.9 [Source:RefSeq_peptide;Acc:NP_001076637]	protein homooligomerization, 	membrane, 	
C18D11.6	C18D11.6	C18D11.6 [Source:RefSeq_peptide;Acc:NP_001021177]	protein homooligomerization, 	membrane, 	
C18D11.1	C18D11.1	C18D11.1 [Source:RefSeq_peptide;Acc:NP_499530]			
maa-1	C18D11.2	maa-1 encodes a predicted membrane-associated Acyl-CoA binding protein. loss of maa-1 activity via RNAi results in no obvious defects. [Source: WormBase]			acyl-CoA binding, 
C18D11.3	C18D11.3	C18D11.3 [Source:RefSeq_peptide;Acc:NP_499532]			
rsp-8	C18D11.4	SR Protein (splicing factor) family member (rsp-8) [Source:RefSeq_peptide;Acc:NP_499533]	G-protein coupled receptor protein signaling pathway, growth, protein homooligomerization, 	membrane, integral to membrane, 	nucleotide binding, nucleic acid binding, calcium ion binding, leukotriene receptor activity, 
C18D11.8	C18D11.8				
ntl-3	Y56A3A.1	ntl-3 is the ortholog of NOT3/NOT5, a member of a protein complex also predicted to contain ccf-1/Y56A3A.20 (CAF1/POP2). ntl-3 is required for embryonic viability in mass RNAi assays. [Source: WormBase]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, 
mif-1	Y56A3A.3	MIF (macrophage migration inhibitory factor) related family member (mif-1) [Source:RefSeq_peptide;Acc:NP_499536]			
Y56A3A.2	Y56A3A.2	Y56A3A.2 [Source:RefSeq_peptide;Acc:NP_499537]	proteolysis, 	membrane, 	protein binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
taf-12	Y56A3A.4	taf-12 encodes a homolog of transcription initiation factor TFIID 20/15 kDa subunits (TAFII-20/TAFII-15) with a glutamine/asparagine-rich N-terminal domain and a a TFIID-like C-terminal domain. [Source: WormBase]	transcription initiation, embryonic development ending in birth or egg hatching, 	transcription factor TFIID complex, 	
Y56A3A.6	Y56A3A.6	Y56A3A.6 [Source:RefSeq_peptide;Acc:NP_499539]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
fbxb-22	Y56A3A.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y56A3A.9	Y56A3A.9	Y56A3A.9 [Source:RefSeq_peptide;Acc:NP_499541]			
Y56A3A.5	Y56A3A.5	Y56A3A.5 [Source:RefSeq_peptide;Acc:NP_499542]			nucleic acid binding, amidase activity, 
Y56A3A.11	Y56A3A.11	Y56A3A.11 [Source:RefSeq_peptide;Acc:NP_499543]	tRNA splicing, 	tRNA-intron endonuclease complex, 	tRNA-intron endonuclease activity, 
Y56A3A.12	Y56A3A.12	Y56A3A.12a [Source:RefSeq_peptide;Acc:NP_499545]			amidase activity, 
sdz-33	Y56A3A.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-24	Y56A3A.15	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y56A3A.16	Y56A3A.16	Y56A3A.16 [Source:RefSeq_peptide;Acc:NP_499548]			
Y56A3A.19	Y56A3A.19	Y56A3A.19 [Source:RefSeq_peptide;Acc:NP_499549]	fatty acid biosynthetic process, positive regulation of growth rate, 		cofactor binding, acyl carrier activity, 
npp-16	Y56A3A.17	Nuclear Pore complex Protein family member (npp-16) [Source:RefSeq_peptide;Acc:NP_499550]	intracellular transport, 		
Y56A3A.18	Y56A3A.18	Y56A3A.18 encodes an ortholog of S. cerevisiae BUD20 that may suppress tumorous growth in the germline. like PRO-1, -2, and -3, Y56A3A.18 is thought to be required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
ccf-1	Y56A3A.20	a homolog of subunit 7 of CCR4-NOT transcription complex from S. cerevisiae. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	nucleus, 	
Y56A3A.21	Y56A3A.21	Y56A3A.21 [Source:RefSeq_peptide;Acc:NP_499554]	locomotory behavior, 	integral to membrane, endoplasmic reticulum, 	protein binding, 
Y56A3A.22	Y56A3A.22	Y56A3A.22 [Source:RefSeq_peptide;Acc:NP_499555]			
nft-1	Y56A3A.13	The nft-1 gene encodes an ortholog of human FHIT, which when mutated is associated with head and neck cancers (OMIM:601153). [Source: WormBase]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, nitrogen compound metabolic process, 	cellular_component, 	protein binding, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, bis(5'-adenosyl)-triphosphatase activity, 
Y56A3A.36	Y56A3A.36	Y56A3A.36 [Source:RefSeq_peptide;Acc:NP_001022925]	phospholipid biosynthetic process, 	membrane, 	phosphatidate cytidylyltransferase activity, 
Y56A3A.7	Y56A3A.7	Y56A3A.7 [Source:RefSeq_peptide;Acc:NP_499557]			
top-3	Y56A3A.27	top-3 encodes DNA topoisomerase IIIalpha. [Source: WormBase]	DNA topological change, DNA modification, DNA unwinding during replication, gamete generation, 	chromosome, 	zinc ion binding, DNA binding, nucleic acid binding, DNA topoisomerase type I activity, DNA topoisomerase activity, 
Y56A3A.28	Y56A3A.28	Y56A3A.28 [Source:RefSeq_peptide;Acc:NP_499559]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
ung-1	Y56A3A.29	ung-1 encodes a uracil-DNA glycosylase. UNG-1 is required for genomic stability in somatic cells, and possibly also in germline, as well as for the recruitment of ATL-1 and RAD-51 to chromatin after depletion of dUTPase by dut-1(RNAi). ung-1(qa7600) or ung-1(RNAi) partially suppresses the lethality of dut-1(RNAi). [Source: WormBase]	DNA repair, base-excision repair, 		uracil DNA N-glycosylase activity, 
Y56A3A.30	Y56A3A.30	Y56A3A.30 [Source:RefSeq_peptide;Acc:NP_499562]			
Y56A3A.31	Y56A3A.31	Y56A3A.31 [Source:RefSeq_peptide;Acc:NP_499563]			
wah-1	Y56A3A.32	wah-1 encodes a putative flavin-adenine dinucleotide (FAD)-binding oxidoreductase orthologous to mammalian PDCD8 (AIF. OMIM:300169, mutated in Harlequin mice). WAH-1 is required for apoptotic DNA degratation, SCRM-1 phospholipid scramblase activity, phosphatidylserine exposure, rapid apoptosis during embryonic development, and rapid engulfment of apoptotic cells in the germline. WAH-1 is also required for normally rapid growth and large brood sizes, and has a subtle proapoptotic function revealed in ced-3 or ced-4 mutant backgrounds. WAH-1 is expressed in most, if not all, cells of embryos and larvae. WAH-1 is normally mitochondrial, but can be released into the cytosol and nucleus by EGL-1 and CED-3. residues 380-550 of WAH-1 specifically bind SCRM-1 in vitro, but not SCRM-2 through SCRM-4, and WAH-1 binding is required in liposomes for more than residual SCRM-1 activity. WAH-1 also binds and activates CPS-6, promoting apoptotic DNA degradation, and transgenic coexpression of WAH-1 with CPS-6 specifically induces ectopic CED-3-dependent apoptosis in touch receptor neurons. CPS-6 shares a genetic pathway with WAH-1, whereas CED-3, CED-4, CED-8, and NUC-1 act independently of it. WAH-1 is paralogous to C. elegans F20D6.11 and human AIFM3 (AIFL). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, DNA fragmentation during apoptosis, 		oxidoreductase activity, FAD binding, 
Y56A3A.33	Y56A3A.33	Y56A3A.33 [Source:RefSeq_peptide;Acc:NP_499565]	DNA repair, 	intracellular, 	exonuclease activity, 
brp-1	Y79H2A.1	brp-1 encodes a glutamine-rich protein that is conserved in nematodes, but that has no known homologies or sequence motifs. BRP-1 is able to bypass the need for the S. cerevisiae mating pheromone MAP kinase cascade to activate the mating pheromone-responsive gene FUSl. [Source: WormBase]			protein binding, 
Y79H2A.12	Y79H2A.12	Y79H2A.12 [Source:RefSeq_peptide;Acc:NP_001022954]			
Y79H2A.2	Y79H2A.2	Y79H2A.2 [Source:RefSeq_peptide;Acc:NP_499567]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
Y79H2A.3	Y79H2A.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
Y79H2A.4	Y79H2A.4	Y79H2A.4 [Source:RefSeq_peptide;Acc:NP_499569]			nucleic acid binding, 
arx-3	Y79H2A.6	arx-3 encodes the C. elegans ortholog of the p41Arc subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
zyg-8	Y79H2A.11	The zyg-8 gene encodes a protein with a doublecortin-like domain and a protein kinase domain. mutations of zyg-8 impair mitosis at the one-cell embryonic stage, which is normally asymmetrical, but which fails to show proper asymmetry in zyg-8 mutant embryos. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, dTMP biosynthetic process, post-embryonic body morphogenesis, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, thymidylate synthase activity, 
php-3	Y75B8A.1	Posterior Hox gene Paralog family member (php-3) [Source:RefSeq_peptide;Acc:NP_499573]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
nob-1	Y75B8A.2	The nob-1 gene encodes one of three C. elegans posterior group homeodomain transcription factors orthologous to Drosophila Abd-B and the vertebrate Hox9-13 proteins. NOB-1, along with an additional posterior Hox ortholog, PHP-3, is required during embryogenesis for proper fate specification and morphogenesis of cells in the posterior region. [Source: WormBase]	regulation of transcription, DNA-dependent, post-embryonic body morphogenesis, embryonic body morphogenesis, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
Y75B8A.3	Y75B8A.3	Y75B8A.3 [Source:RefSeq_peptide;Acc:NP_499576]			
Y75B8A.4	Y75B8A.4	Y75B8A.4 [Source:RefSeq_peptide;Acc:NP_499577]	proteolysis, defense response, ATP-dependent proteolysis, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
Y75B8A.5	Y75B8A.5	Y75B8A.5 [Source:RefSeq_peptide;Acc:NP_499578]			
Y75B8A.6	Y75B8A.6	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			zinc ion binding, DNA binding, 
Y75B8A.7	Y75B8A.7	Y75B8A.7 [Source:RefSeq_peptide;Acc:NP_499580]	rRNA processing, positive regulation of growth rate, 		
Y75B8A.8	Y75B8A.8	Y75B8A.8 [Source:RefSeq_peptide;Acc:NP_499581]			
gly-11	Y75B8A.9	Putative polypeptide N-acetylgalactosaminyltransferase 11 (EC 2.4.1.41) (Protein-UDP acetylgalactosaminyltransferase 11) (UDP- GalNAc:polypeptide N-acetylgalactosaminyltransferase 11) (pp-GaNTase 11). [Source:Uniprot/SWISSPROT;Acc:Q7K755]			
Y75B8A.10	Y75B8A.10	Y75B8A.10 [Source:RefSeq_peptide;Acc:NP_499583]	cell redox homeostasis, 		protein binding, zinc ion binding, 
Y75B8A.11	Y75B8A.11	Y75B8A.11 [Source:RefSeq_peptide;Acc:NP_499584]			
osm-12	Y75B8A.12	OSMotic avoidance abnormal family member (osm-12) [Source:RefSeq_peptide;Acc:NP_499585]			protein binding, 
Y75B8A.13	Y75B8A.13	Y75B8A.13 [Source:RefSeq_peptide;Acc:NP_499586]			
Y75B8A.14	Y75B8A.14	Y75B8A.14 [Source:RefSeq_peptide;Acc:NP_499587]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, 
Y75B8A.16	Y75B8A.16	Y75B8A.16 [Source:RefSeq_peptide;Acc:NP_499588]			
gmn-1	Y75B8A.17	GeMiNin homolog family member (gmn-1) [Source:RefSeq_peptide;Acc:NP_499589]	reproduction, 		
Y75B8A.18	Y75B8A.18	Y75B8A.18 [Source:RefSeq_peptide;Acc:NP_499590]			
Y75B8A.19	Y75B8A.19	Y75B8A.19 [Source:RefSeq_peptide;Acc:NP_499591]			
grl-15	Y75B8A.20	grl-15 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-15 is expressed in the reproductive system, vulva, and larval hypodermis. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
fbxa-89	Y75B8A.21	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
tim-1	Y75B8A.22	TIMeless (Drosophila/mammal) related family member (tim-1) [Source:RefSeq_peptide;Acc:NP_499594]			
NR_002655.1	Y75B8A.38	Y75B8A.38, snRNA [Source:RefSeq_dna;Acc:NR_002655]			
Y75B8A.23	Y75B8A.23	Y75B8A.23 [Source:RefSeq_peptide;Acc:NP_499595]			
Y75B8A.24	Y75B8A.24	Y75B8A.24 [Source:RefSeq_peptide;Acc:NP_499596]	gamete generation, 		phosphotransferase activity, alcohol group as acceptor, inositol or phosphatidylinositol kinase activity, 
Y75B8A.25	Y75B8A.25	Y75B8A.25 [Source:RefSeq_peptide;Acc:NP_499597]			
mrp-8	Y75B8A.26	mrp-8 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCC subfamily of ABC transporters that includes the multidrug resistance-associated proteins and the cystic fibrosis transmembrane conductance regulator. by homology, MRP-8 is predicted to function as an ATP-dependent organic anion transporter that transports molecules across the plasma membrane into the extracellular space. at present, the precise role of MRP-8 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
Y75B8A.40	Y75B8A.40				
pqn-92	Y75B8A.27	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	growth, 		
Y75B8A.39	Y75B8A.39	Y75B8A.39 [Source:RefSeq_peptide;Acc:NP_001022947]			
Y75B8A.37	Y75B8A.37	Y75B8A.37 [Source:RefSeq_peptide;Acc:NP_001022946]			transferase activity, transferring groups other than amino-acyl groups, 
Y75B8A.41	Y75B8A.41				
Y75B8A.28	Y75B8A.28	Y75B8A.28 [Source:RefSeq_peptide;Acc:NP_499600]			
Y75B8A.29	Y75B8A.29	Y75B8A.29 [Source:RefSeq_peptide;Acc:NP_499601]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
zip-1	Y75B8A.35	zip-1 encodes a protein with weak similarity to basic-leucine zipper-type transcription factors. ZIP-1 was identified in a screen for proteins able to bind a pharyngeal muscle-specific enhancer in the promoter of myo-2, which encodes a pharyngeal muscle-specific myosin. as loss of ZIP-1 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, ZIP-1 may function redundantly in pharyngeal muscle specification. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
pph-4.1	Y75B8A.30	Protein PHosphatase family member (pph-4.1) [Source:RefSeq_peptide;Acc:NP_499603]	embryonic development ending in birth or egg hatching, 		protein binding, hydrolase activity, 
Y75B8A.31	Y75B8A.31	Y75B8A.31 [Source:RefSeq_peptide;Acc:NP_499604]			
Y75B8A.32	Y75B8A.32	Y75B8A.32 [Source:RefSeq_peptide;Acc:NP_499605]			
Y75B8A.34	Y75B8A.34	Y75B8A.34 [Source:RefSeq_peptide;Acc:NP_499606]			
Y75B8A.33	Y75B8A.33	Y75B8A.33 [Source:RefSeq_peptide;Acc:NP_499607]	embryonic development ending in birth or egg hatching, 		
his-72	Y49E10.6	his-72 encodes an H3 histone required for embryonic viability. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	protein binding, DNA binding, 
rpt-6	Y49E10.1	rpt-6 encodes a triple A ATPase that is a subunit of the 26S proteasome 19S regulatory particle (RP) base subcomplex. RPT-6 is required for embryonic and larval development and by homology, is predicted to function in unfolding protein substrates and translocating them into the core proteolytic particle (CP) of the proteasome. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, protein catabolic process, embryonic development ending in birth or egg hatching, 	cytoplasm, intracellular, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, GTP binding, hydrolase activity, 
glrx-5	Y49E10.2	GLutaRedoXin family member (glrx-5) [Source:RefSeq_peptide;Acc:NP_499610]	cell redox homeostasis, positive regulation of growth rate, 		electron carrier activity, protein disulfide oxidoreductase activity, 
pph-4.2	Y49E10.3	pph-4.2 encodes a member of the PPP family of protein serine threonine phosphatases and is a homolog of protein phosphatase 4 (PP4). affects larval viability at low penetrance in RNAi screens. [Source: WormBase]	biological_process, 		hydrolase activity, 
Y49E10.7	Y49E10.7				
Y49E10.4	Y49E10.4	Y49E10.4 [Source:RefSeq_peptide;Acc:NP_499613]	cell redox homeostasis, 		isomerase activity, 
Y49E10.5	Y49E10.5				
Y49E10.26	Y49E10.26				
Y49E10.8	Y49E10.8				
wht-9	Y49E10.9	Temporarily Assigned Gene name family member (tag-222) [Source:RefSeq_peptide;Acc:NP_499616]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
Y49E10.10	Y49E10.10	Y49E10.10 [Source:RefSeq_peptide;Acc:NP_499617]			
tat-1	Y49E10.11	Transbilayer Amphipath Transporters (subfamily IV P-type ATPase) family member (tat-1) [Source:RefSeq_peptide;Acc:NP_001022894]	transport, metabolic process, phospholipid transport, 	membrane, integral to membrane, 	ATP binding, catalytic activity, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
Y49E10.t1	Y49E10.t1				
pie-1	Y49E10.14	pie-1 encodes a C-x8-C-x5-C-x3-H-type zinc-finger protein. maternally provided PIE-1 is essential for germline cell fate determination, as it functions as a repressor of RNA polymerase II-dependent gene expression in the developing germ line. PIE-1 localization, initially uniform and then concentrated in the posterior germ cell lineages, is regulated by other maternally supplied gene products including PAR-1, MEX-5, and MEX-6. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic pattern specification, cell fate determination, 		protein binding, zinc ion binding, nucleic acid binding, 
snr-6	Y49E10.15	snr-6 encodes the C. elegans ortholog of the small nuclear ribonucleoprotein E, one of seven subunits of the heptameric Sm complex required for the biogenesis and function of snRNPs that catalyze mRNA splicing. in addition to its predicted role in pre-mRNA processing, SNR-6 activity is essential for embryogenesis and is required for several aspects of germ cell specification including cell division patterns, localization and subcellular distribution of P granules, maintenance of transcriptional quiescence, and expression of the germ lineage-specific proteins PIE-1, GLD-1, and NOS-2. snr-6 is also required for wild-type levels of fertility. immunostaining of adults and embryos using antibodies raised against mammalian Sm proteins suggests that SNR-6 localizes to the nucleus and cytoplasm in many cell types, as well as to P granules in germ cells and their embryonic precursors. [Source: WormBase]	mRNA metabolic process, embryonic development ending in birth or egg hatching, 	ribonucleoprotein complex, 	
Y49E10.16	Y49E10.16	Y49E10.16 [Source:RefSeq_peptide;Acc:NP_499621]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
Y49E10.27	Y49E10.27	Y49E10.27 [Source:RefSeq_peptide;Acc:NP_001022897]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription cofactor activity, 
fbxa-218	Y49E10.17	Y49E10.17 [Source:RefSeq_peptide;Acc:NP_499622]			
Y49E10.18	Y49E10.18	Y49E10.18 [Source:RefSeq_peptide;Acc:NP_499623]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
ani-1	Y49E10.19	Anillin-like protein 1. [Source:Uniprot/SWISSPROT;Acc:Q9XTT4]	embryonic development ending in birth or egg hatching, 		
Y49E10.20	Y49E10.20	Y49E10.20 encodes a ortholog of human CD36 antigen (OMIM:173510, mutated in platelet glycoprotein IV deficiency). Y49E10.20 is needed for cell corpse engulfment in the germline and in the three-fold embryo, and for migration of the anterior arm of the gonad. [Source: WormBase]	cell adhesion, reproduction, 	membrane, 	
Y49E10.21	Y49E10.21	Y49E10.21 [Source:RefSeq_peptide;Acc:NP_499626]	positive regulation of growth rate, 		
Y49E10.28	Y49E10.28	Y49E10.28 [Source:RefSeq_peptide;Acc:NP_001076651]			
pstk-1	Y49E10.22	Y49E10.22 [Source:RefSeq_peptide;Acc:NP_499627]	embryonic development ending in birth or egg hatching, 		
Y49E10.29	Y49E10.29	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPL3]			
Y49E10.23	Y49E10.23	Y49E10.23a [Source:RefSeq_peptide;Acc:NP_499628]	regulation of apoptosis, 	intracellular, 	protein binding, 
Y49E10.24	Y49E10.24				
Y49E10.25	Y49E10.25	Y49E10.25 [Source:RefSeq_peptide;Acc:NP_499630]	lipid metabolic process, 		triacylglycerol lipase activity, 
Y111B2A.1	Y111B2A.1	Y111B2A.1 [Source:RefSeq_peptide;Acc:NP_499631]	protein amino acid phosphorylation, DNA repair, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y111B2A.2	Y111B2A.2	Y111B2A.2 [Source:RefSeq_peptide;Acc:NP_499632]			
Y111B2A.3	Y111B2A.3	Y111B2A.3 [Source:RefSeq_peptide;Acc:NP_499633]	embryonic development ending in birth or egg hatching, 		
Y111B2A.4	Y111B2A.4	Y111B2A.4 [Source:RefSeq_peptide;Acc:NP_499634]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, structural constituent of cytoskeleton, 
Y111B2A.5	Y111B2A.5	Y111B2A.5a [Source:RefSeq_peptide;Acc:NP_001022821]			
Y111B2A.26	Y111B2A.26	Y111B2A.26 [Source:RefSeq_peptide;Acc:NP_001022818]	aromatic compound biosynthetic process, 	cytoplasm, 	GTP cyclohydrolase I activity, 
Y111B2A.25	Y111B2A.25		embryonic development ending in birth or egg hatching, 		
Y111B2A.27	Y111B2A.27	Y111B2A.27 [Source:RefSeq_peptide;Acc:NP_001022819]			protein kinase activity, 
Y111B2A.8	Y111B2A.8	Y111B2A.8 is orthologous to the human gene AMP-ACTIVATED PROTEIN KINASE GAMMA SUBUNIT (PRKAG2. OMIM:602743), which when mutated leads to disease. [Source: WormBase]			
Y111B2A.9	Y111B2A.9	Y111B2A.9a [Source:RefSeq_peptide;Acc:NP_001022822]			
Y111B2A.10	Y111B2A.10	Y111B2A.10b [Source:RefSeq_peptide;Acc:NP_499641]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
epc-1	Y111B2A.11	Enhancer of PolyComb-like family member (epc-1) [Source:RefSeq_peptide;Acc:NP_499642]	biological_process, 		
Y111B2A.12	Y111B2A.12	Y111B2A.12 [Source:RefSeq_peptide;Acc:NP_499643]	glycolysis, biological_process, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, 
Y111B2A.28	Y111B2A.28	Y111B2A.28 [Source:RefSeq_peptide;Acc:NP_001022820]			
Y111B2A.13	Y111B2A.13	Probable transcription initiation factor IIA gamma chain (TFIIA P12 subunit) (TFIIA-12) (TFIIAS) (TFIIA-gamma). [Source:Uniprot/SWISSPROT;Acc:Q9NEX2]	transcription initiation from RNA polymerase II promoter, 	transcription factor TFIIA complex, 	RNA polymerase II transcription factor activity, 
pqn-80	Y111B2A.14	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	reproduction, 		
Y111B2A.15	Y111B2A.15	Protein-tyrosine sulfotransferase A (EC 2.8.2.20) (Tyrosylprotein sulfotransferase-A) (TPST-A). [Source:Uniprot/SWISSPROT;Acc:O77081]	positive regulation of growth rate, 		sulfotransferase activity, 
taf-7.2	Y111B2A.16	TAF (TBP-associated transcription factor) family member (taf-7.2) [Source:RefSeq_peptide;Acc:NP_499647]	regulation of transcription, 	transcription factor TFIID complex, 	transcription factor activity, general RNA polymerase II transcription factor activity, 
Y111B2A.17	Y111B2A.17	Y111B2A.17 [Source:RefSeq_peptide;Acc:NP_499648]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
rsp-3	Y111B2A.18	rsp-3 encodes a putative ortholog of human SF2/ASF and member of the SR protein family of nuclear phosphoproteins that are required for constitutive splicing and influence alternative splicing regulation. rsp-3 affects the development of oocytes together with rsr-1, and is required for late embryonic viability. SPK-1 binds directly to and phosphorylates the RS domain of RSP-3 in vitro and the mRNA of rsp-3 is predominantly expressed in the germline. [Source: WormBase]	RNA splicing, embryonic development ending in birth or egg hatching, 		nucleotide binding, RNA binding, protein binding, nucleic acid binding, 
Y111B2A.19	Y111B2A.19	Y111B2A.19 [Source:RefSeq_peptide;Acc:NP_499650]	transport, 	integral to membrane, 	transporter activity, 
Y111B2A.24	Y111B2A.24	Y111B2A.24 [Source:RefSeq_peptide;Acc:NP_499651]			
Y111B2A.20	Y111B2A.20	Y111B2A.20 [Source:RefSeq_peptide;Acc:NP_499652]	embryonic development ending in birth or egg hatching, 	integral to membrane, 	
ssl-1	Y111B2A.22	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77) [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, DNA binding, nucleic acid binding, helicase activity, 
Y111B2A.21	Y111B2A.21	Y111B2A.21 [Source:RefSeq_peptide;Acc:NP_499655]			
ZC482.2	ZC482.2	ZC482.2 [Source:RefSeq_peptide;Acc:NP_499656]		membrane, 	
ZC482.7	ZC482.7	ZC482.7 [Source:RefSeq_peptide;Acc:NP_499657]		membrane, 	
srw-10	ZC482.6	Serpentine Receptor, class W family member (srw-10) [Source:RefSeq_peptide;Acc:NP_499658]			
srw-9	ZC482.8	Serpentine Receptor, class W family member (srw-9) [Source:RefSeq_peptide;Acc:NP_001022977]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZC482.3	ZC482.3	ZC482.3 [Source:RefSeq_peptide;Acc:NP_499659]		membrane, 	
ZC482.4	ZC482.4	ZC482.4 [Source:RefSeq_peptide;Acc:NP_499660]		membrane, 	
srw-5	ZC482.9				
gab-1	ZC482.1	gab-1 encodes a gamma-aminobutyric acid (GABA) receptor beta-like subunit with both the neurotransmitter-gated ion-channel ligand binding and transmembrane domains. gab-1 can form a GABA-responsive channel when co-expressed with alpha/gamma type subunits in a heterologous expression system. experiments with gab-1 indicate that GABA receptors are involved in the mechanism of resistance to the widely used broad-spectrum anthelmintic drug Ivermectin. [Source: WormBase]	transport, ion transport, chloride transport, gamma-aminobutyric acid signaling pathway, 	membrane, integral to membrane, postsynaptic membrane, synapse, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
ZC482.5	ZC482.5	ZC482.5 is orthologous to the human gene GAMMA-AMINOBUTYRIC ACID A RECEPTOR GAMMA 2 (GABRG2. OMIM:137164), which when mutated leads to disease. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, protein binding, GABA-A receptor activity, 
BE10.1	BE10.1	BE10.1 [Source:RefSeq_peptide;Acc:NP_499663]			
BE10.2	BE10.2	BE10.2 [Source:RefSeq_peptide;Acc:NP_499664]			
BE10.6	BE10.6				
BE10.5	BE10.5	BE10.5 [Source:RefSeq_peptide;Acc:NP_001021137]			
BE10.3	BE10.3	BE10.3 [Source:RefSeq_peptide;Acc:NP_499665]			
BE10.4	BE10.4	BE10.4 [Source:RefSeq_peptide;Acc:NP_499666]			
arx-5	Y37D8A.1	arx-5 encodes the C. elegans ortholog of the p21Arc subunit of the actin-related protein (Arp) 2/3 complex. [Source: WormBase]	regulation of actin filament polymerization, oviposition, 	cytoskeleton, 	
Y37D8A.25	Y37D8A.25	Y37D8A.25 [Source:RefSeq_peptide;Acc:NP_001022833]			
Y37D8A.2	Y37D8A.2	LAMA-like protein Y37D8A.2 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9XWV2]			
Y37D8A.3	Y37D8A.3	Y37D8A.3 [Source:RefSeq_peptide;Acc:NP_499669]			
Y37D8A.4	Y37D8A.4	Y37D8A.4 [Source:RefSeq_peptide;Acc:NP_499670]	intracellular signaling cascade, 		
Y37D8A.5	Y37D8A.5	Y37D8A.5 [Source:RefSeq_peptide;Acc:NP_499671]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
Y37D8A.26	Y37D8A.26	Y37D8A.26 [Source:RefSeq_peptide;Acc:NP_001022834]			
Y37D8A.6	Y37D8A.6	Y37D8A.6 [Source:RefSeq_peptide;Acc:NP_499672]			
Y37D8A.8	Y37D8A.8	Y37D8A.8 [Source:RefSeq_peptide;Acc:NP_499674]			
mrg-1	Y37D8A.9	mrg-1 encodes a chromodomain-containing protein orthologous to mammalian MRG15, an essential mortality factor-related protein that promotes cell proliferation. during development, maternal MRG-1 is required for embryonic viability and for proliferation and survival of primordial germs cells (PGCs). in embryonic and PGC development MRG-1 likely functions as a transcriptional regulator, as loss of mrg-1 activity results in aberrant patterns of gene expression in wild-type and mutant backgrounds in germline and somatic tissues, respectively. MRG-1 is a nuclear protein that localizes to autosomes in a MES-2- and MES-4-independent manner. MRG-1 is present at all stages of development, with expression in embryos and young larvae seen in both germ and somatic cells and expression in older larvae and adults seen primarily in germ cells. [Source: WormBase]	chromatin assembly or disassembly, gamete generation, positive regulation of transcription from RNA polymerase II promoter, germ cell development, 	nucleus, chromatin, 	chromatin binding, 
Y37D8A.10	Y37D8A.10	Probable signal peptidase complex subunit 2 (EC 3.4.-.-) (Microsomal signal peptidase 25 kDa subunit) (SPase 25 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:Q9XWW1]	signal peptide processing, reproduction, 	integral to membrane, microsome, signal peptidase complex, 	protein binding, signal peptidase activity, 
Y37D8A.11	Y37D8A.11	Y37D8A.11a [Source:RefSeq_peptide;Acc:NP_001022827]	chromatin assembly or disassembly, post-embryonic body morphogenesis, 	nucleus, chromatin, 	chromatin binding, 
Y37D8A.12	Y37D8A.12	Y37D8A.12a [Source:RefSeq_peptide;Acc:NP_499678]			
unc-71	Y37D8A.13	unc-71 encodes an ADAM, a disintegrin and metalloprotease-containing transmembrane protein that is a member of the metzincin superfamily of proteases. UNC-71 is required non-cell autonomously for motor axon guidance and sex myoblast migration. UNC-71 does not appear to have an active metalloprotease domain, but functions with UNC-6/netrin and integrins INA-1/PAT-3 to provide guidance cues during axonal migration. UNC-71 is expressed in a restricted pattern in the excretory and excretory gland cells, some head neurons, the sphincter muscles, and hypodermal cells surrounding the vulva. [Source: WormBase]	proteolysis, locomotory behavior, 		zinc ion binding, metalloendopeptidase activity, cysteine-type endopeptidase activity, 
cco-2	Y37D8A.14	Cytochrome c oxidase subunit 5A, mitochondrial precursor (EC 1.9.3.1) (Cytochrome c oxidase polypeptide Va). [Source:Uniprot/SWISSPROT;Acc:P55954]	electron transport, embryonic development ending in birth or egg hatching, 		cytochrome-c oxidase activity, 
flp-14	Y37D8A.15	flp-14 encodes four copies of a single FMRFamide-related short peptide neurotransmitter. FLP-14 can increase pharyngeal action potential frequency, although its exact role in C. elegans neurotransmission is not yet clear. [Source: WormBase]	neuropeptide signaling pathway, 		
Y37D8A.16	Y37D8A.16	Y37D8A.16 [Source:RefSeq_peptide;Acc:NP_499683]	positive regulation of growth rate, 		
Y37D8A.17	Y37D8A.17	UPF0121 protein Y37D8A.17. [Source:Uniprot/SWISSPROT;Acc:Q9XWV0]	positive regulation of growth rate, 	integral to membrane, 	protein binding, 
Y37D8A.18	Y37D8A.18	Putative mitochondrial ribosomal protein S10. [Source:Uniprot/SWISSPROT;Acc:Q9XWV5]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y37D8A.21	Y37D8A.21	Y37D8A.21 [Source:RefSeq_peptide;Acc:NP_499686]	growth, 		nucleotide binding, nucleic acid binding, 
Y37D8A.19	Y37D8A.19	Y37D8A.19 [Source:RefSeq_peptide;Acc:NP_499687]	growth, 		
Y37D8A.22	Y37D8A.22	Y37D8A.22 [Source:RefSeq_peptide;Acc:NP_499688]			
unc-25	Y37D8A.23	unc-25 encodes the C. elegans ortholog of the GABA neurotransmitter biosynthetic enzyme, glutamic acid decarboxylase (GAD). unc-25 activity is required for GABA synthesis and thus for normal synaptic transmission and GABA-mediated behaviors. UNC-25 is expressed specifically in the 26 GABAergic neurons as soon as they are generated and localizes to cell bodies, axonal branches, and synaptic regions, including some localization to synaptic vesicles. in the 19 type D GABAergic neurons, unc-25 expression is positively regulated by the UNC-30 homeodomain transcription factor, which binds to the unc-25 promoter in a sequence-specific manner. [Source: WormBase]	amino acid and derivative metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, 
Y39E4A.1	Y39E4A.1	Y39E4A.1 [Source:RefSeq_peptide;Acc:NP_499690]			
ttm-1	Y39E4A.2	Toxin-regulated Target of p38MAPK family member (ttm-1) [Source:RefSeq_peptide;Acc:NP_499691]	cation transport, 	membrane, 	protein binding, cation transmembrane transporter activity, 
Y39E4A.3	Y39E4A.3	Y39E4A.3 is orthologous to the human gene MAPLE SYRUP URINE DISEASE, TYPE IA (MSUD, TYPE IA. E1-alpha subunit of branched-chain keto acid dehydrogenase. OMIM:248600), which when mutated leads to maple syrup urine disease. Y39E4A.3 protein is predicted to be mitochondrial. [Source: WormBase]	metabolic process, 		protein binding, oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor, 
ZK1010.2	ZK1010.2	ZK1010.2 [Source:RefSeq_peptide;Acc:NP_499694]			
ubq-2	ZK1010.1	ubq-2 encodes a bifunctional protein that contains two domains. an N-terminal ubiquitin peptide, and a C-terminal large ribosomal subunit protein L40 peptide. [Source: WormBase]	translation, protein modification process, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
ZK1010.3	ZK1010.3	Protein FRG1 homolog. [Source:Uniprot/SWISSPROT;Acc:O18282]	positive regulation of growth rate, 		
ZK1010.4	ZK1010.4	ZK1010.4 [Source:RefSeq_peptide;Acc:NP_499697]		extracellular region, 	protein binding, 
ZK1010.5	ZK1010.5	ZK1010.5 [Source:RefSeq_peptide;Acc:NP_499698]			
ZK1010.6	ZK1010.6	ZK1010.6 [Source:RefSeq_peptide;Acc:NP_499699]			
col-97	ZK1010.7	col-97 encodes a cuticular collagen. loss of col-97 activity via large-scale RNAi screens results in defects in body morphology and locomotion. [Source: WormBase]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
ZK1010.8	ZK1010.8	ZK1010.8 [Source:RefSeq_peptide;Acc:NP_499701]			
snf-7	ZK1010.9	Sodium:Neurotransmitter symporter Family family member (snf-7) [Source:RefSeq_peptide;Acc:NP_499702]	electron transport, neurotransmitter transport, aerobic respiration, 	membrane, integral to membrane, integral to plasma membrane, 	iron ion binding, heme binding, neurotransmitter:sodium symporter activity, 
ZK1010.t1	ZK1010.t1				
F14F7.t1	F14F7.t1				
col-98	F14F7.1	F14F7.1 [Source:RefSeq_peptide;Acc:NP_499703]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, G-protein coupled receptor protein signaling pathway, post-embryonic body morphogenesis, 	integral to membrane, cytoplasm, extracellular region, 	signal transducer activity, structural constituent of cuticle, cholecystokinin receptor activity, 
cyp-13A11	F14F7.2	CYtochrome P450 family member (cyp-13A11) [Source:RefSeq_peptide;Acc:NP_499704]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-13A12	F14F7.3	CYtochrome P450 family member (cyp-13A12) [Source:RefSeq_peptide;Acc:NP_499705]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F14F7.4	F14F7.4	F14F7.4 [Source:RefSeq_peptide;Acc:NP_499706]	blood coagulation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	thrombin receptor activity, 
F14F7.5	F14F7.5	F14F7.5 [Source:RefSeq_peptide;Acc:NP_499707]			
F54F12.2	F54F12.2	F54F12.2 [Source:RefSeq_peptide;Acc:NP_499708]			
F54F12.1	F54F12.1	F54F12.1 [Source:RefSeq_peptide;Acc:NP_499709]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y39E4B.6	Y39E4B.6	Y39E4B.6 [Source:RefSeq_peptide;Acc:NP_499710]			
pqn-83	Y39E4B.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, biological_process, protein homooligomerization, 	membrane, integral to membrane, 	
Y39E4B.13	Y39E4B.13	Y39E4B.13 [Source:RefSeq_peptide;Acc:NP_499712]			
Y39E4B.7	Y39E4B.7	Y39E4B.7 [Source:RefSeq_peptide;Acc:NP_499713]			protein binding, zinc ion binding, 
zig-8	Y39E4B.8	2 (Zwei) IG-domain protein family member (zig-8) [Source:RefSeq_peptide;Acc:NP_499714]			
bre-2	Y39E4B.9	bre-2 is required for Cry5B toxicity. [Source: WormBase]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
Y39E4B.10	Y39E4B.10	Y39E4B.10 [Source:RefSeq_peptide;Acc:NP_499716]	embryonic development ending in birth or egg hatching, 		
abce-1	Y39E4B.1	Temporarily Assigned Gene name family member (tag-351) [Source:RefSeq_peptide;Acc:NP_499717]	electron transport, embryonic development ending in birth or egg hatching, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, electron carrier activity, iron-sulfur cluster binding, 
Y39E4B.14	Y39E4B.14		biological_process, 		
Y39E4B.2	Y39E4B.2	Y39E4B.2 [Source:RefSeq_peptide;Acc:NP_499719]			
Y39E4B.5	Y39E4B.5	Y39E4B.5 [Source:RefSeq_peptide;Acc:NP_499720]	transport, carbohydrate transport, growth, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
gly-5	Y39E4B.12	gly-5 encodes a predicted member of the UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase (ppGaNTase) family. [Source: WormBase]			inositol or phosphatidylinositol phosphatase activity, 
Y39E4B.11	Y39E4B.11	Y39E4B.11 [Source:RefSeq_peptide;Acc:NP_499723]	embryonic development ending in birth or egg hatching, 		
tsp-3	Y39E4B.4	Y39E4B.4 [Source:RefSeq_peptide;Acc:NP_499724]		integral to membrane, 	
Y43F4A.1	Y43F4A.1	Y43F4A.1a [Source:RefSeq_peptide;Acc:NP_001022870]	cell adhesion, proteolysis, 	membrane, 	zinc ion binding, metalloendopeptidase activity, 
Y43F4A.t1	Y43F4A.t1				
Y43F4A.t2	Y43F4A.t2				
Y43F4A.3	Y43F4A.3	Y43F4A.3 [Source:RefSeq_peptide;Acc:NP_499727]			zinc ion binding, nucleic acid binding, 
Y43F4A.4	Y43F4A.4	Y43F4A.4 [Source:RefSeq_peptide;Acc:NP_499728]			
F56A8.1	F56A8.1	F56A8.1 [Source:RefSeq_peptide;Acc:NP_499729]			
F56A8.3	F56A8.3	F56A8.3a [Source:RefSeq_peptide;Acc:NP_499730]	embryonic development ending in birth or egg hatching, 		protein binding, 
F56A8.4	F56A8.4	F56A8.4 [Source:RefSeq_peptide;Acc:NP_499732]			
F56A8.5	F56A8.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
cpf-2	F56A8.6	Cleavage and Polyadenylation Factor family member (cpf-2) [Source:RefSeq_peptide;Acc:NP_499734]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, nucleic acid binding, 
unc-64	F56A8.7	unc-64 encodes syntaxin, an plasma membrane receptor for intracellular vesicles that is orthologous to vertebrate syntaxin 1A (OMIM:186590) and Drosophila Syx1A. UNC-64 is required for normal locomotion and possibly also for insulin secretion. as an essential component of the core synaptic vesicle fusion machinery, UNC-64 interacts with UNC-13, a diacylglycerol-binding protein, and SNB-1/synaptobrevin. UNC-64 protein levels are reduced in an unc-18 mutant background. unc-64 mutations can be suppressed by mutations in slo-1, a calcium-activated potassium channel. UNC-64 is expressed ubiquitously in the nervous system and in secretory cells such as the uv1 cell in the vulva and excretory gland cells. [Source: WormBase]	intracellular protein transport, vesicle-mediated transport, 	membrane, 	protein transporter activity, protein binding, 
set-25	Y43F4B.3	Y43F4B.3 [Source:RefSeq_peptide;Acc:NP_499738]	DNA repair, 	nucleus, 	
F56A8.8	F56A8.8	F56A8.8 [Source:RefSeq_peptide;Acc:NP_499736]			
Y43F4B.2	Y43F4B.2	Y43F4B.2 [Source:RefSeq_peptide;Acc:NP_499739]			
npp-18	Y43F4B.4	Nuclear Pore complex Protein family member (npp-18) [Source:RefSeq_peptide;Acc:NP_499740]	chromosome segregation, 		
Y43F4B.5	Y43F4B.5	Y43F4B.5a [Source:RefSeq_peptide;Acc:NP_001022872]	carbohydrate metabolic process, growth, 		protein binding, intramolecular transferase activity, phosphotransferases, 
klp-19	Y43F4B.6	klp-19 encodes a plus-end-directed microtubule motor protein that is most closely related to motors of the kinesin-4 family. KLP-19 activity is essential for embryonic and larval development and is required for generating a force that aligns sister chromatid kinetochores directly opposite the spindle poles thus ensuring proper holocentric chromosome segregation. KLP-19 expression is detected in embryos and in the gonad, where it is most strongly expressed in distal mitotic nuclei and in late meiotic prophase nucleoplasm. during meiosis and mitosis, KLP-19 expression is dynamic and is detected in the nucleoplasm, the spindle body, in association with condensed chromosomes (particularly between homologous chromosomes), and in the spindle interzone. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
NR_003437.1	Y43F4B.11	Y43F4B.11, snoRNA [Source:RefSeq_dna;Acc:NR_003437]			
NR_003438.1	Y43F4B.12	Y43F4B.12, snoRNA [Source:RefSeq_dna;Acc:NR_003438]			
Y43F4B.7	Y43F4B.7	Y43F4B.7 [Source:RefSeq_peptide;Acc:NP_499743]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
Y43F4B.10	Y43F4B.10	Y43F4B.10 [Source:RefSeq_peptide;Acc:NP_741280]			
Y43F4B.9	Y43F4B.9	Y43F4B.9 [Source:RefSeq_peptide;Acc:NP_499744]			
NM_067343.4	Y43F4B.13	Y43F4B.9 (Y43F4B.9) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_067343]			
F53A2.1	F53A2.1	F53A2.1 [Source:RefSeq_peptide;Acc:NP_499746]			
sdz-20	F53A2.2	SKN-1 Dependent Zygotic transcript family member (sdz-20) [Source:RefSeq_peptide;Acc:NP_499747]			
F53A2.3	F53A2.3	F53A2.3 [Source:RefSeq_peptide;Acc:NP_499748]			
nud-1	F53A2.4	nud-1 encodes the C. elegans ortholog of the Aspergillus nidulans nudC, which mediates nuclear migration along Aspergillus hyphae. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
dro-1	F53A2.5	DR1 (One) transcription factor family member (dro-1) [Source:RefSeq_peptide;Acc:NP_499750]		intracellular, 	DNA binding, sequence-specific DNA binding, 
ife-1	F53A2.6	The ife-1 gene encodes one of five C. elegans homologs of the mRNA cap-binding protein eIF4E. it is specifically required for spermatogenesis, and is expressed in P granules. [Source: WormBase]	translational initiation, 	cytoplasm, 	RNA binding, protein binding, translation initiation factor activity, 
F53A2.7	F53A2.7	F53A2.7 [Source:RefSeq_peptide;Acc:NP_499752]	positive regulation of multicellular organism growth, 		transferase activity, transferring groups other than amino-acyl groups, 
mtm-6	F53A2.8	mtm-6 encodes a myotubularin-related protein that regulates phosphoinositide 3-phosphate localization and/or levels in vivo and mutation blocks endocytosis by coelomocytes. the MTM-6A isoform, which rescues the endocytic defect of mtm-6 mutants, is believed to function as part of a complex with MTM-9 and MTM-6A is predominantly localized to the coelomocyte cytoplasm, with some localization to the coelomocyte membrane. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, phospholipid dephosphorylation, positive regulation of multicellular organism growth, 		zinc ion binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, inositol or phosphatidylinositol phosphatase activity, 
F53A2.9	F53A2.9	F53A2.9 [Source:RefSeq_peptide;Acc:NP_499754]			
T03F6.8	T03F6.8	T03F6.8 [Source:RefSeq_peptide;Acc:NP_001022744]			hydrolase activity, 
T03F6.7	T03F6.7	T03F6.7 [Source:RefSeq_peptide;Acc:NP_001022743]			
T03F6.9	T03F6.9				
lis-1	T03F6.5	lis-1 encodes an ortholog of human LIS1, which when mutated leads to lissencephaly (OMIM:247200). it also encodes an ortholog of the Aspergillus nidulans nudF, which mediates nuclear migration along Aspergillus hyphae. [Source: WormBase]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	
T03F6.6	T03F6.6	T03F6.6 [Source:RefSeq_peptide;Acc:NP_499756]			
T03F6.4	T03F6.4	T03F6.4 [Source:RefSeq_peptide;Acc:NP_499757]			
T03F6.3	T03F6.3	Probable glucosamine-6-phosphate isomerase (EC 3.5.99.6) (Glucosamine- 6-phosphate deaminase) (GNPDA) (GlcN6P deaminase). [Source:Uniprot/SWISSPROT;Acc:Q9XVJ2]	carbohydrate metabolic process, N-acetylglucosamine metabolic process, 		protein binding, glucosamine-6-phosphate deaminase activity, 
dnj-17	T03F6.2	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	reproduction, 	intracellular, 	heat shock protein binding, zinc ion binding, nucleic acid binding, 
qdpr-1	T03F6.1	The T03F6.1 gene encodes an ortholog of the human gene QUINOID DIHYDROPTERIDINE REDUCTASE (QDPR. DHPR), which when mutated leads to phenylketonuria II (OMIM:261630). [Source: WormBase]	metabolic process, cellular metabolic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, 
F11F1.1	F11F1.1	F11F1.1 [Source:RefSeq_peptide;Acc:NP_001021249]			ATP binding, 
F11F1.8	F11F1.8	F11F1.8 [Source:RefSeq_peptide;Acc:NP_001021250]			
F11F1.2	F11F1.2	F11F1.2 [Source:RefSeq_peptide;Acc:NP_499763]			
F11F1.4	F11F1.4	F11F1.4 [Source:RefSeq_peptide;Acc:NP_499764]			
F11F1.5	F11F1.5	F11F1.5 [Source:RefSeq_peptide;Acc:NP_499765]	signal transduction, 	membrane, 	two-component sensor activity, 
F11F1.6	F11F1.6	F11F1.6 [Source:RefSeq_peptide;Acc:NP_499766]			
F11F1.7	F11F1.7	F11F1.7 [Source:RefSeq_peptide;Acc:NP_499767]			
nas-1	F45G2.1	Zinc metalloproteinase nas-1 precursor (EC 3.4.24.21) (Nematode astacin 1). [Source:Uniprot/SWISSPROT;Acc:O62243]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F45G2.2	F45G2.2	F45G2.2a [Source:RefSeq_peptide;Acc:NP_001022590]	intracellular signaling cascade, signal transduction, 	intracellular, myosin complex, 	ATP binding, nucleotide binding, motor activity, 
F45G2.t1	F45G2.t1				
F45G2.3	F45G2.3	F45G2.3 [Source:RefSeq_peptide;Acc:NP_499770]	DNA repair, 		nuclease activity, 
F45G2.4	F45G2.4	F45G2.4 encodes an epsilon subunit of the coatomer (COPI) complex. in mass RNAi assays, F45G2.4 is required for larval viability, proper locomotion, and properly rapid growth. [Source: WormBase]	protein complex assembly, retrograde vesicle-mediated transport, Golgi to ER, positive regulation of growth rate, 	COPI vesicle coat, 	protein transporter activity, protein binding, structural molecule activity, 
bli-5	F45G2.5	bli-5 encodes a protease inhibitor that affects the integrity of the cuticle and the development of the bursa in the adult male. [Source: WormBase]	collagen and cuticulin-based cuticle attachment to epithelium, 		serine-type endopeptidase inhibitor activity, 
trf-1	F45G2.6	The trf-1 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]			protein binding, zinc ion binding, 
F45G2.7	F45G2.7	F45G2.7 [Source:RefSeq_peptide;Acc:NP_499774]			
F45G2.8	F45G2.8	Mitochondrial import inner membrane translocase subunit Tim16. [Source:Uniprot/SWISSPROT;Acc:O62250]	embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, 		ice binding, 
F45G2.9	F45G2.9	Putative ribosomal RNA methyltransferase F45G2.9 (EC 2.1.1.-) (rRNA (uridine-2'-O-)-methyltransferase). [Source:Uniprot/SWISSPROT;Acc:O62251]	rRNA processing, 		
F45G2.10	F45G2.10	UPF0195 protein F45G2.10. [Source:Uniprot/SWISSPROT;Acc:O62252]			
cua-1	Y76A2A.2	The cua-1 gene encodes a putative E1-E2 ATPase orthologous to the human gene KIAA1347 (ATP7A. OMIM:604384), which when mutated leads to Hailey-Hailey disease. [Source: WormBase]	transport, metabolic process, copper ion transport, metal ion transport, proton transport, biological_process, mercury ion transport, 	membrane, integral to membrane, 	ATP binding, metal ion binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, copper-exporting ATPase activity, metal ion transmembrane transporter activity, copper ion binding, copper ion transmembrane transporter activity, mercury ion transmembrane transporter activity, 
abcf-2	T27E9.7	T27E9.7 [Source:RefSeq_peptide;Acc:NP_499779]	defense response, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
T27E9.2	T27E9.2	T27E9.2 [Source:RefSeq_peptide;Acc:NP_499781]	mitochondrial electron transport, ubiquinol to cytochrome c, positive regulation of growth rate, 		ubiquinol-cytochrome-c reductase activity, 
tag-164	Y76A2A.1	Temporarily Assigned Gene name family member (tag-164) [Source:RefSeq_peptide;Acc:NP_499780]			
tag-61	T27E9.1	Temporarily Assigned Gene name family member (tag-61) [Source:RefSeq_peptide;Acc:NP_001022800]	transport, mitochondrial transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, protein binding, binding, 
cdk-5	T27E9.3	cdk-5 encodes a putative homolog of cyclin dependent kinase 5 that affects pronuclear migration and rotation in one-cell embryos and may affect neuronal development. expressed in neurons. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
kel-3	T27E9.4	KELch-repeat containing protein family member (kel-3) [Source:RefSeq_peptide;Acc:NP_499785]			protein binding, 
pssy-2	T27E9.5		phosphatidylserine biosynthetic process, 		
T27E9.6	T27E9.6	T27E9.6 [Source:RefSeq_peptide;Acc:NP_499787]			
fbxb-86	T27E9.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
acc-4	T27E9.9	T27E9.9 [Source:RefSeq_peptide;Acc:NP_499789]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
twk-40	T28A8.1	TWiK family of potassium channels family member (twk-40) [Source:RefSeq_peptide;Acc:NP_499790]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
T28A8.2	T28A8.2	T28A8.2 [Source:RefSeq_peptide;Acc:NP_499791]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
T28A8.6	T28A8.6	T28A8.6 [Source:RefSeq_peptide;Acc:NP_499792]			
T28A8.5	T28A8.5	T28A8.5 [Source:RefSeq_peptide;Acc:NP_499793]			
T28A8.4	T28A8.4	T28A8.4 [Source:RefSeq_peptide;Acc:NP_499794]			
T28A8.3	T28A8.3	T28A8.3 [Source:RefSeq_peptide;Acc:NP_499795]			protein binding, 
mlh-1	T28A8.7	The mlh-1 gene encodes a DNA mismatch repair protein homolog that is orthologous to human MLH1. [Source: WormBase]	DNA repair, mismatch repair, 		ATP binding, protein binding, mismatched DNA binding, 
pod-1	Y76A2B.1	The pod-1 gene encodes a coronin-like protein required for asymmetry along the anterior-posterior axis at the beginning of embryonic development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y76A2B.t1	Y76A2B.t1				
Y76A2B.t2	Y76A2B.t2				
Y76A2B.2	Y76A2B.2	Y76A2B.2 [Source:RefSeq_peptide;Acc:NP_499798]			
Y76A2B.3	Y76A2B.3	Y76A2B.3 [Source:RefSeq_peptide;Acc:NP_499799]	metabolic process, 		catalytic activity, 
Y76A2B.4	Y76A2B.4	Y76A2B.4 [Source:RefSeq_peptide;Acc:NP_499800]			nutrient reservoir activity, 
Y76A2B.5	Y76A2B.5	Y76A2B.5 [Source:RefSeq_peptide;Acc:NP_499801]	DNA repair, 		protein binding, 
Y76A2B.6	Y76A2B.6	Y76A2B.6 encodes a ortholog of human CD36 antigen (OMIM:173510, mutated in platelet glycoprotein IV deficiency). Y76A2B.6 is needed for cell corpse engulfment in the germline and in the three-fold embryo, and for migration of the anterior arm of the gonad. [Source: WormBase]	cell adhesion, 	membrane, lysosome, 	receptor activity, 
T05D4.2	T05D4.2	T05D4.2 [Source:RefSeq_peptide;Acc:NP_499803]			
T05D4.1	T05D4.1	T05D4.1 is orthologous to the human gene ALDOLASE A, FRUCTOSE-BISPHOSPHATE (ALDOA. OMIM:103850), which when mutated leads to aldolase A deficiency. [Source: WormBase]	glycolysis, 	cellular_component, 	fructose-bisphosphate aldolase activity, identical protein binding, 
T05D4.3	T05D4.3	T05D4.3 [Source:RefSeq_peptide;Acc:NP_499805]	protein secretion, locomotory behavior, 	membrane, 	
osm-7	T05D4.4	T05D4.4 [Source:RefSeq_peptide;Acc:NP_499806]	positive regulation of growth rate, 		
T05D4.5	T05D4.5	T05D4.5 [Source:RefSeq_peptide;Acc:NP_499807]			structural molecule activity, 
gln-4	T25C8.3				
act-5	T25C8.2	an ortholog of human cytoplasmic actin. and is expressed only in microvillous intestinal cells and excretory cell. [Source: WormBase]	biological_process, lumen formation, 		ATP binding, protein binding, 
T25C8.1	T25C8.1	T25C8.1 [Source:RefSeq_peptide;Acc:NP_499810]	transport, carbohydrate metabolic process, 		transporter activity, binding, 
T12D8.8	T12D8.8	T12D8.8 [Source:RefSeq_peptide;Acc:NP_499811]			binding, 
T12D8.9	T12D8.9	T12D8.9b [Source:RefSeq_peptide;Acc:NP_001022759]	cell adhesion, 		calcium ion binding, 
T12D8.6	T12D8.6	T12D8.6 [Source:RefSeq_peptide;Acc:NP_499813]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
taf-9	T12D8.7	TAF (TBP-associated transcription factor) family member (taf-9) [Source:RefSeq_peptide;Acc:NP_499814]	transcription initiation, embryonic development ending in birth or egg hatching, 	transcription factor TFIID complex, 	protein binding, 
T12D8.5	T12D8.5	T12D8.5 [Source:RefSeq_peptide;Acc:NP_499815]			
T12D8.4	T12D8.4	T12D8.4 [Source:RefSeq_peptide;Acc:NP_499816]			
acbp-5	T12D8.3	Acyl-Coenzyme A Binding Protein family member (acbp-5) [Source:RefSeq_peptide;Acc:NP_499817]			acyl-CoA binding, 
T12D8.10	T12D8.10	T12D8.10 [Source:RefSeq_peptide;Acc:NP_001022757]			
drr-2	T12D8.2	T12D8.2 [Source:RefSeq_peptide;Acc:NP_499818]			nucleotide binding, nucleic acid binding, 
set-16	T12D8.1	Temporarily Assigned Gene name family member (tag-350) [Source:RefSeq_peptide;Acc:NP_499819]	intracellular signaling cascade, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, DNA binding, 
flp-15	ZK525.1	flp-15 encodes two FMRFamide-related short peptide neurotransmitter. the precise roles for these peptides in C. elegans neurotransmission are not yet known. [Source: WormBase]			
aqp-11	ZK525.2	AQuaPorin or aquaglyceroporin related family member (aqp-11) [Source:RefSeq_peptide;Acc:NP_499821]	transport, copper ion transport, 	membrane, 	ATP binding, transporter activity, copper-exporting ATPase activity, 
dyf-2	ZK520.3	dyf-2 encodes an ortholog of human WDR19. DYF-2 associates with intraflagellar transport (IFT) particle complex B in sensory cilia, and is required for normal assembly and motion of IFT structures, including complex A particles. consequently, DYF-2 is also required for normal cilial structure and chemosensation. dyf-2 expression is regulated by DAF-19. dyf-2 mutants are longer-lived than normal. this seems to correlate with the ability to withstand prolonged heat stress and starvation in L1 larvae. in mice, WDR19 also localizes to cilia. [Source: WormBase]	positive regulation of growth rate, 		
sid-2	ZK520.2	sid-2 encodes a novel transmembrane protein required for ingestion-mediated (or soaking) RNAi. expressed strongly in the intestine and localized to the apical membrane lining the lumen, and expression levels respond to environmental conditions. [Source: WormBase]			
cul-2	ZK520.4	cul-2 encodes an E3 ubiquitin ligase. during development, CUL-2 functions as part of a Cul2-RING ubiquitin-ligase complex that regulates diverse biological processes, such as the initiation of meiotic anaphase II, cytokinesis and mitotic chromosome segregation, embryonic cell fate specification, and sex determination, via ubiquitin-mediated proteolysis. targets of CUL-2-mediated degradation include CYB-1/cyclin B and the zinc-finger protein TRA-1. CUL-2 is expressed in diverse cell types during embryonic and larval development and is also expressed in the adult germ line. [Source: WormBase]	cell cycle, embryonic development ending in birth or egg hatching, sister chromosome movement towards spindle pole during meiosis II, asymmetric protein localization, 		
cyn-2	ZK520.5	cyn-2 is a predicted member of the cytosolic Cyclosporin A-binding cyclophilin family that is functional when expressed in E. coli. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
lit-1	W06F12.1	lit-1 encodes a serine threonine protein kinase homolog related to the Drosophila protein Nemo that is required for embryonic viability, plays a central role in controlling the asymmetry of cell divisions during embryogenesis, and affects EMS, MS, and C lineages. acts downstream of mom-2 with respect to polarity defects and mediates larval cell fate decisions that involve POP-1, and is expressed in most embryonic and larval cells. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, asymmetric cell division, Wnt receptor signaling pathway, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, 
W06F12.2	W06F12.2	W06F12.2b [Source:RefSeq_peptide;Acc:NP_499833]			
W06F12.3	W06F12.3	W06F12.3 [Source:RefSeq_peptide;Acc:NP_499835]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
tyr-2	K08E3.1	K08E3.1 [Source:RefSeq_peptide;Acc:NP_499836]	metabolic process, 		oxidoreductase activity, 
K08E3.2	K08E3.2	K08E3.2 [Source:RefSeq_peptide;Acc:NP_499837]			structural molecule activity, 
K08E3.10	K08E3.10	K08E3.10 [Source:RefSeq_peptide;Acc:NP_001022669]			calcium ion binding, 
toca-2	K08E3.3	TOCA (Transducer Of Cdc42-dependent Actin assembly) homolog family member (toca-2) [Source:RefSeq_peptide;Acc:NP_499839]	signal transduction, 	intracellular, 	
K08E3.4	K08E3.4	K08E3.4 [Source:RefSeq_peptide;Acc:NP_499840]		intracellular, 	actin binding, 
K08E3.5	K08E3.5	K08E3.5c [Source:RefSeq_peptide;Acc:NP_499841]	metabolic process, embryonic development ending in birth or egg hatching, 		nucleotidyltransferase activity, identical protein binding, 
cyk-4	K08E3.6	cyk-4 encodes a GTPase activating protein (GAP) for the Rho family of GTPases that, together with ZEN-4, is sufficient to promote the formation of the large bundles of microtubules that form the central spindle during anaphase, and is required for fertility and coordinated locomotion postembryonically. localizes to the central spindle during anaphase interdependently with ZEN-4, and interacts with ZEN-4 in vitro and in vivo. [Source: WormBase]	intracellular signaling cascade, signal transduction, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, polar body extrusion after meiotic divisions, 	integral to membrane, intracellular, 	melatonin receptor activity, 
NR_003432.1	K08E3.11	K08E3.11, snoRNA [Source:RefSeq_dna;Acc:NR_003432]			
pdr-1	K08E3.7	pdr-1 encodes an ortholog of human parkin (PARK2. OMIM:602544), which when mutated leads to the juvenile 2 form of Parkinson disease (OMIM:600116). [Source: WormBase]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
mdt-29	K08E3.8	mdt-29 encodes a putative mediator subunit with a prion-like (asparagine- or glutamine-rich) domain. note that K08E3.8 is allegedly an ortholog of Drosophila INTERSEX/IX, but the actual C. elegans IX ortholog appears to be PQN-15). in yeast two-hybrid screens, MDT-29 interacts with SEL-7 and SEL-8. MDT-29 protein also self-associates. RNAi of K08E3.8 weakly enhances the two-anchor-cell phenotype of lin-12(ar170), roughly as much as sel-7 RNAi. since SEL-7 is a novel nuclear protein, MDT-29/SEL-7/SEL-8 is likely to form a nuclear complex formed in response to LIN-12 activation. [Source: WormBase]	positive regulation of Notch signaling pathway, 		protein binding, 
3R5.1	3R5.1	3R5.1 [Source:RefSeq_peptide;Acc:NP_499848]			
3R5.2	3R5.2				
Y38C1AB.4	Y38C1AB.4	Y38C1AB.4 [Source:RefSeq_peptide;Acc:NP_499850]		cytoskeleton, 	protein binding, 
Y38C1AB.5	Y38C1AB.5	Y38C1AB.1 [Source:RefSeq_peptide;Acc:NP_499857]			
Y38C1AB.6	Y38C1AB.6	Y38C1AB.2 [Source:RefSeq_peptide;Acc:NP_499855]			
Y38C1AB.3	Y38C1AB.3	Y38C1AB.7 [Source:RefSeq_peptide;Acc:NP_499854]			
Y38C1AB.7	Y38C1AB.7	Y38C1AB.7 [Source:RefSeq_peptide;Acc:NP_499854]			
Y38C1AB.2	Y38C1AB.2	Y38C1AB.2 [Source:RefSeq_peptide;Acc:NP_499855]			
frm-5	Y38C1AB.8	frm-5 encodes a protein that contains a FERM (Band 4.1-ezrin-radixin-moesin) domain near the center of the molecule and two C-terminal PDZ domains. by homology, FRM-5 is predicted to function as a membrane-cytoskeleton linker protein that plays a role in cell adhesion, migration, or organization of cell surface structures. however, as loss of frm-5 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of FRM-5 in C. elegans development and/or behavior is not yet known. the FRM-5 FERM and PDZ domains are most similar to those found in cytoplasmic protein tyrosine phosphatases, even though FRM-5 does not appear to be a phosphatase. [Source: WormBase]	growth, 	cytoskeleton, 	protein binding, 
Y38C1AB.1	Y38C1AB.1	Y38C1AB.1 [Source:RefSeq_peptide;Acc:NP_499857]			
T05C7.1	T05C7.1	T05C7.1 [Source:RefSeq_peptide;Acc:NP_499858]			
T05C7.t1	T05C7.t1				
B0545.3	B0545.3	B0545.3 [Source:RefSeq_peptide;Acc:NP_499859]		extracellular region, 	
tpa-1	B0545.1	tpa-1 encodes two protein kinase C isoforms, TPA-1A and TPA-1B. analysis of tpa-1 mutations indicates that at least one TPA-1 isoform plays a role in nicotine-induced adaptation and that both isoforms appear to play a role in gpa-12/G protein-mediated signaling that modulates feeding and growth. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, cellulose and pectin-containing cell wall organization and biogenesis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0545.4	B0545.4	B0545.4 [Source:RefSeq_peptide;Acc:NP_499862]	embryonic development ending in birth or egg hatching, 		protein dimerization activity, 
F29C4.4	F29C4.4	F29C4.4 [Source:RefSeq_peptide;Acc:NP_499863]			
duo-2	F29C4.5	Deubiquitylating with usp/ubp and otu domains protein 2. [Source:Uniprot/SPTREMBL;Acc:O76364]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
F29C4.3	F29C4.3				
F29C4.6	F29C4.6	F29C4.6 [Source:RefSeq_peptide;Acc:NP_499865]	DNA repair, 		ATP binding, 
F29C4.7	F29C4.7	F29C4.7 is orthologous to human RBM15 (OMIM:606077, mutated in infantile acute megakaryoblastic leukemia) and Drosophila NITO. F29C4.7 encodes a paralog of DIN-1. like DIN-1, it has N-terminal RNA recognition motifs (RRMs) and a C-terminal SID/RD (SMRT interaction domain/repressor) domain. [Source: WormBase]	regulation of transcription, 	nucleus, 	nucleotide binding, binding, nucleic acid binding, 
F29C4.2	F29C4.2	F29C4.2 [Source:RefSeq_peptide;Acc:NP_499867]	positive regulation of growth rate, 		
daf-1	F29C4.1	daf-1 encodes a TGF-beta type I receptor homolog required, in association with the TGF beta-like type II receptor DAF-4, for the regulation of dauer formation by environmental signals through the ASI chemosensory neuron. DAF-1 is bound by BRA-1 and has an intracellular serine-threonine kinase domain. mutations in daf-1 result in constitutive formation of dauer larvae even in abundant food. [Source: WormBase]	protein amino acid phosphorylation, dauer larval development, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, transmembrane receptor protein serine/threonine kinase activity, 
col-99	F29C4.8	Putative cuticle collagen 99 precursor. [Source:Uniprot/SWISSPROT;Acc:O76368]	phosphate transport, 	cytoplasm, 	
F29C4.t1	F29C4.t1				
Y38C1AA.8	Y38C1AA.8	Y38C1AA.8 [Source:RefSeq_peptide;Acc:NP_499870]			
Y38C1AA.9	Y38C1AA.9	Y38C1AA.9 [Source:RefSeq_peptide;Acc:NP_499871]			calcium ion binding, 
Y38C1AA.7	Y38C1AA.7	Y38C1AA.7 [Source:RefSeq_peptide;Acc:NP_499872]	protein secretion, biological_process, 	integral to membrane, 	protein binding, P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
Y38C1AA.6	Y38C1AA.6	Y38C1AA.6 [Source:RefSeq_peptide;Acc:NP_499873]			protein binding, zinc ion binding, 
Y38C1AA.5	Y38C1AA.5	Y38C1AA.5b [Source:RefSeq_peptide;Acc:NP_001023450]			
tcl-2	Y38C1AA.4	T-cell defective protein 2. [Source:Uniprot/SWISSPROT;Acc:Q9N428]	sodium ion transport, regulation of pH, hermaphrodite genitalia development, 	integral to membrane, 	protein binding, sodium:hydrogen antiporter activity, 
pnc-1	Y38C1AA.3	Y38C1AA.3 [Source:RefSeq_peptide;Acc:NP_499876]	metabolic process, 		catalytic activity, 
Y38C1AA.12	Y38C1AA.12	Y38C1AA.12 [Source:RefSeq_peptide;Acc:NP_001023447]			
csn-3	Y38C1AA.2	csn-3 encodes a subunit ortholog of the eukaryotic COP9/signalosome complex which promotes deneddylation of CUL-3 and is involved in the degradation of the microtubule-severing Katanin-like protein MEI-1 during mitosis. RNA interference of csn-3 results in spindle orientation and cytokinesis defects in the embryo. [Source: WormBase]	establishment of mitotic spindle orientation, 		
Y38C1AA.13	Y38C1AA.13				
Y38C1AA.1	Y38C1AA.1	Y38C1AA.1a [Source:RefSeq_peptide;Acc:NP_741285]	metabolic process, 		acyltransferase activity, 
prdx-6	Y38C1AA.11	PeRoxireDoXin family member (prdx-6) [Source:RefSeq_peptide;Acc:NP_741287]			oxidoreductase activity, antioxidant activity, 
R02D3.3	R02D3.3	R02D3.3 [Source:RefSeq_peptide;Acc:NP_499880]	gamete generation, 		
R02D3.4	R02D3.4	R02D3.4 [Source:RefSeq_peptide;Acc:NP_499881]			
R02D3.5	R02D3.5	R02D3.5 [Source:RefSeq_peptide;Acc:NP_499882]	protein amino acid prenylation, embryonic development ending in birth or egg hatching, 		protein prenyltransferase activity, 
cogc-8	R02D3.2	cogc-8 encodes an ortholog of mammalian COG-8, a subunit of lobe B of the conserved oligomeric Golgi complex (COGC). COGC-8 is weakly required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe B subunits in both C. elegans and S. cerevisiae, COGC-8 is only partially required for normal function, while lobe A subunits are strongly required in either worms or yeast. [Source: WormBase]	regulation of cell migration, 		
R02D3.1	R02D3.1	The R02D3.1 gene encodes an ortholog of the human gene ALPHA-AMINOADIPATE SEMIALDEHYDE SYNTHASE (AASS. OMIM:605113), which when mutated leads to hyperlysinemia (OMIM:238700). [Source: WormBase]	electron transport, potassium ion transport, 		oxidoreductase activity, cation transmembrane transporter activity, 
grl-19	R02D3.6	grl-19 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-19 is expressed in intestine. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
R02D3.7	R02D3.7	R02D3.7 [Source:RefSeq_peptide;Acc:NP_499886]		intracellular, 	zinc ion binding, nucleic acid binding, 
R02D3.8	R02D3.8	R02D3.8 [Source:RefSeq_peptide;Acc:NP_499887]		intracellular, 	exonuclease activity, 
dpy-9	T21D12.2	dpy-9 encodes a cuticular collagen family member with similarity to human collagen alpha 5, type IV, and affects body length. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, positive regulation of multicellular organism growth, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, galanin receptor activity, 
T21D12.3	T21D12.3	T21D12.3 [Source:RefSeq_peptide;Acc:NP_499890]			protein binding, 
pat-6	T21D12.4	pat-6 encodes the worm ortholog of alpha-parvin. it is required for muscle assembly and function, with mutations leading to embryonic lethality. [Source: WormBase]	biological_process, 		protein binding, 
T21D12.12	T21D12.12	T21D12.12 [Source:RefSeq_peptide;Acc:NP_499892]			serine-type endopeptidase inhibitor activity, 
T21D12.11	T21D12.11	T21D12.11 [Source:RefSeq_peptide;Acc:NP_499893]			protein binding, 
srh-282	T21D12.5	Serpentine Receptor, class H family member (srh-282) [Source:RefSeq_peptide;Acc:NP_499894]			
T21D12.9	T21D12.9	T21D12.9a [Source:RefSeq_peptide;Acc:NP_499896]	gamete generation, 		protein binding, 
T21D12.14	T21D12.14	T21D12.14 [Source:RefSeq_peptide;Acc:NP_001076712]			
T21D12.7	T21D12.7	T21D12.7 [Source:RefSeq_peptide;Acc:NP_499899]	phospholipid metabolic process, lipid catabolic process, 		serine-type endopeptidase inhibitor activity, phospholipase A2 activity, 
K02D7.1	K02D7.1	K02D7.1 is orthologous to the human gene PURINE NUCLEOSIDE PHOSPHORYLASE (NP. OMIM:164050), which when mutated leads to disease. [Source: WormBase]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, locomotory behavior, 		transferase activity, transferring pentosyl groups, purine-nucleoside phosphorylase activity, 
K02D7.5	K02D7.5	K02D7.5 [Source:RefSeq_peptide;Acc:NP_499901]			
K02D7.2	K02D7.2	K02D7.2 encodes an ortholog of human SNAI2/SLUG (OMIM:602150, mutated in Waardenburg syndrome type IID) and Drosophila ESCARGOT. based on its orthology to SNAI2, K02D7.2 is predicted to be a transcriptional inhibitor. [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
dsc-4	K02D7.4	dsc-4 encodes the C. elegans ortholog of the large subunit of the microsomal triglyceride transfer protein. dsc-4 affects the length of the defecation cycle and genetically interacts with clk-1 with respect to defecation cycle length, and also with respect to the clk-1- dependent adjustment of defecation cycle length to temperature. a DSC-4::GFP fusion protein is expressed in the intestine beginning during embryonic elongation and continuing on through adulthood. [Source: WormBase]	positive regulation of growth rate, 		
grl-26	K02D7.6	grl-26 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
K02D7.t1	K02D7.t1				
col-101	K02D7.3	col-101 encodes a cuticle collagen. loss of col-101 via large-scale RNAi screens results in animals that are pale and slow growing. [Source: WormBase]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
F18F11.5	F18F11.5	F18F11.5 [Source:RefSeq_peptide;Acc:NP_001023134]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F18F11.4	F18F11.4	F18F11.4 [Source:RefSeq_peptide;Acc:NP_499906]			
F18F11.1	F18F11.1	F18F11.1 [Source:RefSeq_peptide;Acc:NP_499907]			
cdh-8	F18F11.3	cdh-8 encodes a cadherin that may be nematode specific. CDH-8 is predicted to function as a membrane protein that plays a role in cell adhesion and/or morphogenesis, but as loss of cdh-8 activity via mutation or large-scale RNAi experiments results in no obvious abnormalities, the precise role of cdh-8 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	protein binding, calcium ion binding, 
Y66H1B.2	Y66H1B.2	Y66H1B.2 is orthologous to the human gene FLJ00343 PROTEIN (FLNA. OMIM:300017), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y66H1B.5	Y66H1B.5	Y66H1B.5 [Source:RefSeq_peptide;Acc:NP_001023553]			
Y66H1B.3	Y66H1B.3	Y66H1B.3 [Source:RefSeq_peptide;Acc:NP_499912]	embryonic development ending in birth or egg hatching, 		
spl-1	Y66H1B.4	Sphingosine-1-phosphate lyase (EC 4.1.2.27) (SP-lyase) (SPL) (Sphingosine-1-phosphate aldolase). [Source:Uniprot/SWISSPROT;Acc:Q9Y194]	metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, transaminase activity, 
T07A9.1	T07A9.1	T07A9.1 [Source:RefSeq_peptide;Acc:NP_499914]			
rps-24	T07A9.11	rps-24 encodes a small ribosomal subunit S24 protein. by homology, RPS-24 is predicted to function in protein biosynthesis. in C. elegans, RPS-24 activity is required for germline development and the overall health of the animal. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	nucleotide binding, structural constituent of ribosome, 
T07A9.14	T07A9.14	T07A9.14 [Source:RefSeq_peptide;Acc:NP_001040986]	biological_process, 		
tag-261	T07A9.13	T07A9.13b [Source:RefSeq_peptide;Acc:NP_001023362]			
ers-3	T07A9.2	ers-3 encodes a a glutamine (E)/glutaminyl (Q) tRNA synthetase. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, glutamyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, aminoacyl-tRNA synthetase multienzyme complex, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, glutamate-tRNA ligase activity, 
T07A9.10	T07A9.10	T07A9.10 [Source:RefSeq_peptide;Acc:NP_499918]	vesicle-mediated transport, vesicle docking during exocytosis, 		
T07A9.15	T07A9.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2V8C7]			
T07A9.9	T07A9.9	Probable nucleolar GTP-binding protein 1. [Source:Uniprot/SWISSPROT;Acc:O44411]	protein transport, small GTPase mediated signal transduction, positive regulation of growth rate, 	intracellular, 	GTP binding, 
T07A9.8	T07A9.8	T07A9.8 [Source:RefSeq_peptide;Acc:NP_499920]	metabolic process, positive regulation of growth rate, 		methyltransferase activity, 
gpa-4	T07A9.7	gpa-4 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ASI. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 		GTP binding, signal transducer activity, guanyl nucleotide binding, 
kgb-1	T07A9.3	kgb-1 encodes a serine/threonine kinase that is a member of the JNK (Jun-N-terminal kinase) subfamily of MAP (mitogen-activated protein)kinases. loss of kgb-1 activity results in temperature-sensitive sterility in hermaphrodites and males. in hermaphrodites, this sterility is associated with disorganized gonads and endomitotic oocytes that have likely failed to undergo oocyte maturation. in kgb-1 mutant males, sperm is present, but is non-functional. KGB-1 interacts in vitro with all four C. elegans germline helicases, GLH-1, -2, -3, and -4, that localize to P granules in vivo. Northern analyses indicate that kgb-1 mRNA is present in both somatic and germline tissues. [Source: WormBase]	protein amino acid phosphorylation, female meiosis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, 
T07A9.12	T07A9.12	T07A9.12a [Source:RefSeq_peptide;Acc:NP_741290]			
eri-1	T07A9.5	eri-1 encodes a conserved RNAse that contains a SAP/SAF box domain and a DEDDh-like 3'-5' exonuclease domain. eri-1 activity is required for negative regulation of RNA interference as well as for normal sperm function at high temperatures and proper meiotic chromosome segreation. in vitro, ERI-1 demonstrates exonuclease activity against siRNAs with 2-nt 3' overhangs, consistent with genetic analyses suggesting that, in vivo, eri-1 activity depends upon formation of siRNAs by the canonical RNAi pathway. an ERI-1::GFP reporter fusion protein is expressed in a subset of neurons and in the spermatheca and localizes mainly to the cytoplasm. eri-1::gfp promoter fusions also reveal low ubiquitous expression throughout the animal. [Source: WormBase]	RNA interference, 	intracellular, 	protein binding, nucleic acid binding, exonuclease activity, 
daf-18	T07A9.6	daf-18 encodes a lipid phosphatase homologous to the human PTEN tumor suppresor (OMIM:601728, mutated in Cowden disease and several cancers). DAF-18 negatively regulates insulin-like signaling mediated by DAF-2/IR and AGE-1/PI3K and thus plays a role in metabolism, development, and longevity. based on sequence and genetic analysis, DAF-18 is predicted to dephosphorylate AGE-1-generated PIP3 in order to limit activation of the downstream AKT-1 and AKT-2 kinases that negatively regulate DAF-16. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, morphogenesis of an epithelium, dauer larval development, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y66H1A.4	Y66H1A.4	Putative H/ACA ribonucleoprotein complex subunit 1-like protein. [Source:Uniprot/SWISSPROT;Acc:Q9TYK1]	G-protein coupled receptor protein signaling pathway, rRNA processing, positive regulation of growth rate, 	integral to membrane, small nucleolar ribonucleoprotein complex, 	rRNA binding, leukotriene receptor activity, 
Y66H1A.5	Y66H1A.5	Y66H1A.5 [Source:RefSeq_peptide;Acc:NP_499928]			
hum-8	Y66H1A.6	Heavy chain, Unconventional Myosin family member (hum-8) [Source:RefSeq_peptide;Acc:NP_001023549]		myosin complex, 	ATP binding, motor activity, 
tag-313	Y66H1A.3	Temporarily Assigned Gene name family member (tag-313) [Source:RefSeq_peptide;Acc:NP_499930]	positive regulation of growth rate, 		
Y66H1A.2	Y66H1A.2	Y66H1A.2 [Source:RefSeq_peptide;Acc:NP_499931]	embryonic development ending in birth or egg hatching, 		protein binding, 
M04G7.1	M04G7.1	M04G7.1 [Source:RefSeq_peptide;Acc:NP_499933]			
M04G7.2	M04G7.2	M04G7.2 [Source:RefSeq_peptide;Acc:NP_499934]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
M04G7.3	M04G7.3	M04G7.3b [Source:RefSeq_peptide;Acc:NP_001023319]			
W03G1.5	W03G1.5	W03G1.5 [Source:RefSeq_peptide;Acc:NP_499936]		extracellular region, 	protein binding, 
pig-1	W03G1.6	pig-1 encodes an ortholog of the human MELK serine/threonine kinase (OMIM:607025). PIG-1 is cytoplasmic, and is required for normal polarity in asymmetrical cell divisions yielding apoptotic cells versus neurons. whereas normal HSN/PHB and Q.p neuroblast divisions yield daughter cells that differ in size, those of pig-1 mutants are abnormally equal in size, and produce excess neurons. pig-1 acts cell-autonomously in the Q.p lineage. pig-1 is ubiquitously expressed in early embryos, broadly expressed in dividing larval cells, and silent in adults. the pig-1 phenotype is enhanced by ced-3 mutants, perhaps because mutations in pig-1 transform cell fates but fail to fully suppress apoptosis. pig-1 phenotypes are maternally rescued, probably due to pig-1 transcripts in the hermaphrodite germ line. [Source: WormBase]	protein amino acid phosphorylation, asymmetric cell division, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W03G1.4	W03G1.4	Y55F3C.6 [Source:RefSeq_peptide;Acc:NP_499974]			
W03G1.3	W03G1.3	W03G1.3 [Source:RefSeq_peptide;Acc:NP_499939]			
asm-3	W03G1.7	Putative sphingomyelin phosphodiesterase asm-3 precursor (EC 3.1.4.12). [Source:Uniprot/SWISSPROT;Acc:Q9UAY4]	sphingomyelin catabolic process, ceramide biosynthetic process, 	extracellular region, 	sphingomyelin phosphodiesterase activity, hydrolase activity, 
W03G1.2	W03G1.2	W03G1.2 [Source:RefSeq_peptide;Acc:NP_499941]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
W03G1.8	W03G1.8	W03G1.8 [Source:RefSeq_peptide;Acc:NP_499942]			
glt-7	W03G1.1	GLutamate Transporter family member (glt-7) [Source:RefSeq_peptide;Acc:NP_499944]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
F09C11.1	F09C11.1	F09C11.1 [Source:RefSeq_peptide;Acc:NP_499945]			
F56A11.4	F56A11.4	F56A11.4 [Source:RefSeq_peptide;Acc:NP_499946]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
efn-4	F56A11.3	efn-4 encodes a member of the ephrin family of ligands that affects neuroblast migrations during closure of the ventral gastrulation cleft and subsequent epidermal morphogenesis, possibly functioning independently of EFN-1, EFN-2, EFN-3, and the VAB-1 receptor during morphogenesis. can interact with VAB-1 in vitro, and is expressed in neural and epidermal precursors at the 100-cell stage, in head neurons, pharyngeal cells, lateral and tail neurons, and in the ectoderm during epidermal enclosure. [Source: WormBase]	regulation of cell adhesion, embryonic development ending in birth or egg hatching, 	membrane, 	
F56A11.7	F56A11.7	F56A11.7 [Source:RefSeq_peptide;Acc:NP_001023230]			
F56A11.5	F56A11.5	F56A11.5 [Source:RefSeq_peptide;Acc:NP_499948]	neuropeptide signaling pathway, 		protein binding, catalytic activity, pyridoxal phosphate binding, molybdenum ion binding, neuropeptide hormone activity, 
gex-2	F56A11.1	The gex-2 gene encodes a homolog of p140/Sra-1, a mammalian protein ligand of the small GTPase Rac1. gex-2 is required for tissue morphogenesis and cell migrations. [Source: WormBase]	embryonic development ending in birth or egg hatching, cell migration, embryonic body morphogenesis, 	cellular_component, 	protein binding, 
F56A11.6	F56A11.6	F56A11.6 [Source:RefSeq_peptide;Acc:NP_499950]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
C18H7.10	C18H7.10	C18H7.10 [Source:RefSeq_peptide;Acc:NP_001033399]			
C18H7.5	C18H7.5	C18H7.5 [Source:RefSeq_peptide;Acc:NP_499951]			
C18H7.6	C18H7.6	C18H7.6 [Source:RefSeq_peptide;Acc:NP_499952]	protein homooligomerization, 	membrane, 	nucleic acid binding, pancreatic ribonuclease activity, 
C18H7.4	C18H7.4	C18H7.4 [Source:RefSeq_peptide;Acc:NP_499953]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C18H7.7	C18H7.7	C18H7.7 [Source:RefSeq_peptide;Acc:NP_499954]			
C18H7.11	C18H7.11	C18H7.11 [Source:RefSeq_peptide;Acc:NP_001033400]			
srt-59	C18H7.8	Serpentine Receptor, class T family member (srt-59) [Source:RefSeq_peptide;Acc:NP_499955]	electron transport, 		electron carrier activity, 
C18H7.9	C18H7.9	C18H7.9 [Source:RefSeq_peptide;Acc:NP_499956]	metabolic process, 		methyltransferase activity, 
col-102	C18H7.3	col-102 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, translation, homoiothermy, response to freezing, 	cytoplasm, intracellular, ribosome, 	structural constituent of cuticle, structural constituent of ribosome, ice binding, 
inx-18	C18H7.2	inx-18 encodes a predicted member of the innexin family. [Source: WormBase]		gap junction, 	
C18H7.1	C18H7.1	C18H7.1 [Source:RefSeq_peptide;Acc:NP_499959]			extracellular matrix structural constituent, 
C05G6.t1	C05G6.t1				
nhr-76	C05G6.1	Nuclear Hormone Receptor family member (nhr-76) [Source:RefSeq_peptide;Acc:NP_499961]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
K11H12.9	K11H12.9	K11H12.9 [Source:RefSeq_peptide;Acc:NP_499962]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
K11H12.1	K11H12.1	Putative bolA-like protein K11H12.1. [Source:Uniprot/SWISSPROT;Acc:P91375]			
rpl-15	K11H12.2	rpl-15 encodes a large ribosomal subunit L15 protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	structural constituent of ribosome, 
NR_003452.1	K11H12.12	K11H12.12, snoRNA [Source:RefSeq_dna;Acc:NR_003452]			
NR_003453.1	K11H12.13	K11H12.13, snoRNA [Source:RefSeq_dna;Acc:NR_003453]			
K11H12.8	K11H12.8	K11H12.8a [Source:RefSeq_peptide;Acc:NP_741296]			
K11H12.t1	K11H12.t1				
K11H12.7	K11H12.7	K11H12.7 [Source:RefSeq_peptide;Acc:NP_499966]			
K11H12.6	K11H12.6	K11H12.6 [Source:RefSeq_peptide;Acc:NP_499967]			
K11H12.11	K11H12.11	K11H12.11 [Source:RefSeq_peptide;Acc:NP_001040975]			
K11H12.3	K11H12.3	K11H12.3 [Source:RefSeq_peptide;Acc:NP_499968]			
K11H12.4	K11H12.4	K11H12.4 [Source:RefSeq_peptide;Acc:NP_499969]			
K11H12.10	K11H12.10	K11H12.10 [Source:RefSeq_peptide;Acc:NP_001033425]			
K11H12.5	K11H12.5	K11H12.5 [Source:RefSeq_peptide;Acc:NP_499970]			
F41A4.t1	F41A4.t1				
F41A4.1	F41A4.1	F41A4.1 [Source:RefSeq_peptide;Acc:NP_499971]	blood coagulation, proteolysis, 	extracellular region, 	serine-type endopeptidase activity, 
Y55F3C.7	Y55F3C.7	Y55F3C.7a [Source:RefSeq_peptide;Acc:NP_741298]			
Y55F3C.6	Y55F3C.6	Y55F3C.6 [Source:RefSeq_peptide;Acc:NP_499974]			
Y55F3C.11	Y55F3C.11	Y55F3C.11 [Source:RefSeq_peptide;Acc:NP_001041042]			
Y55F3C.5	Y55F3C.5	Y55F3C.5 [Source:RefSeq_peptide;Acc:NP_499975]			sugar binding, 
Y55F3C.10	Y55F3C.10	Y55F3C.10 [Source:RefSeq_peptide;Acc:NP_001033451]	electron transport, 		electron carrier activity, 
Y55F3C.9	Y55F3C.9	Y55F3C.9 [Source:RefSeq_peptide;Acc:NP_001033452]			protein binding, 
srt-24	Y55F3C.8	Serpentine Receptor, class T family member (srt-24) [Source:RefSeq_peptide;Acc:NP_499976]	electron transport, 		electron carrier activity, 
Y55F3C.4	Y55F3C.4	Y55F3C.4 [Source:RefSeq_peptide;Acc:NP_499977]			
Y55F3C.3	Y55F3C.3	Y55F3C.3 [Source:RefSeq_peptide;Acc:NP_499978]	ion transport, potassium ion transport, dicarboxylic acid transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, sodium:dicarboxylate symporter activity, 
srt-23	Y55F3C.2	Serpentine Receptor, class T family member (srt-23) [Source:RefSeq_peptide;Acc:NP_499979]	proteolysis, electron transport, response to antibiotic, pathogenesis, tetracycline transport, 	integral to membrane, 	electron carrier activity, peptidase activity, tetracycline:hydrogen antiporter activity, 
gst-40	F56B3.10	Glutathione S-Transferase family member (gst-40) [Source:RefSeq_peptide;Acc:NP_499981]			protein binding, 
col-103	F56B3.1	COLlagen family member (col-103) [Source:RefSeq_peptide;Acc:NP_499982]	phosphate transport, locomotory behavior, protein homooligomerization, 	membrane, cytoplasm, 	structural constituent of cuticle, 
F56B3.2	F56B3.2	F56B3.2a [Source:RefSeq_peptide;Acc:NP_499983]	locomotory behavior, 		
F56B3.3	F56B3.3	F56B3.3 [Source:RefSeq_peptide;Acc:NP_499985]			
F56B3.9	F56B3.9	F56B3.9 [Source:RefSeq_peptide;Acc:NP_499986]			
F56B3.8	F56B3.8	F56B3.8 [Source:RefSeq_peptide;Acc:NP_499987]	translation, negative regulation of multicellular organism growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
ugt-52	F56B3.7	UDP-GlucuronosylTransferase family member (ugt-52) [Source:RefSeq_peptide;Acc:NP_499988]	metabolic process, 		transferase activity, transferring hexosyl groups, 
skr-18	F56B3.4	skr-18 encodes a homolog of Skp1 in S. cerevisiae, a core component of the SCF (Skp1p, Cullin, F-box) ubiquitin-ligase complex that facilitates ubiquitin-mediated protein degradation. SKR-18 has no known function in vivo, since skr-18(RNAi) animals are at least superficially normal. [Source: WormBase]	positive regulation of growth rate, 		
F56B3.6	F56B3.6	F56B3.6 [Source:RefSeq_peptide;Acc:NP_499990]	electron transport, 		iron ion binding, heme binding, electron carrier activity, 
F56B3.12	F56B3.12	F56B3.12 [Source:RefSeq_peptide;Acc:NP_741300]	positive regulation of growth rate, 		
F56B3.11	F56B3.11	F56B3.11a [Source:RefSeq_peptide;Acc:NP_499991]			
ech-5	F56B3.5	Enoyl-CoA Hydratase family member (ech-5) [Source:RefSeq_peptide;Acc:NP_499993]	metabolic process, 		catalytic activity, 
Y55F3BL.1	Y55F3BL.1	Y55F3BL.1 [Source:RefSeq_peptide;Acc:NP_499994]	positive regulation of growth rate, 		
Y55F3BL.2	Y55F3BL.2	Y55F3BL.2 [Source:RefSeq_peptide;Acc:NP_499995]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
Y55F3BR.5	Y55F3BR.5	Y55F3BR.5 [Source:RefSeq_peptide;Acc:NP_499997]			
Y55F3BR.10	Y55F3BR.10	Y55F3BR.10 [Source:RefSeq_peptide;Acc:NP_001041040]			
Y55F3BR.6	Y55F3BR.6	Y55F3BR.6 [Source:RefSeq_peptide;Acc:NP_499998]			structural constituent of eye lens, 
Y55F3BR.7	Y55F3BR.7	Y55F3BR.7 [Source:RefSeq_peptide;Acc:NP_499999]			
Y55F3BR.t1	Y55F3BR.t1				
Y55F3BR.4	Y55F3BR.4	Y55F3BR.4 [Source:RefSeq_peptide;Acc:NP_500000]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
Y55F3BR.8	Y55F3BR.8	Y55F3BR.8a [Source:RefSeq_peptide;Acc:NP_001023514]	embryonic development ending in birth or egg hatching, 		
Y55F3BR.11	Y55F3BR.11	Y55F3BR.11 [Source:RefSeq_peptide;Acc:NP_001041041]			
Y55F3BR.2	Y55F3BR.2	Y55F3BR.2b [Source:RefSeq_peptide;Acc:NP_001023513]	embryonic development ending in birth or egg hatching, 		serine-type endopeptidase inhibitor activity, 
NR_001499.1	Y55F3BR.9	Y55F3BR.9, snoRNA [Source:RefSeq_dna;Acc:NR_001499]			
Y55F3BR.1	Y55F3BR.1	Y55F3BR.1 [Source:RefSeq_peptide;Acc:NP_500004]	positive regulation of growth rate, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
mak-2	C44C8.6	MAP kinase Activated protein Kinase family member (mak-2) [Source:RefSeq_peptide;Acc:NP_500005]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
C44C8.4	C44C8.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C44C8.10	C44C8.10	C44C8.2 [Source:RefSeq_peptide;Acc:NP_500009]			
C44C8.3	C44C8.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C44C8.9	C44C8.9	C44C8.2 [Source:RefSeq_peptide;Acc:NP_500009]			
C44C8.2	C44C8.2	F58H7.8 [Source:RefSeq_peptide;Acc:NP_500011]			
C44C8.8	C44C8.8	C44C8.2 [Source:RefSeq_peptide;Acc:NP_500009]			
C44C8.1	C44C8.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C44C8.7	C44C8.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFF5]			
F58H7.8	F58H7.8	F58H7.8 [Source:RefSeq_peptide;Acc:NP_500011]			
F58H7.7	F58H7.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F58H7.5	F58H7.5	F58H7.5 [Source:RefSeq_peptide;Acc:NP_500014]			
lgc-30	F58H7.3		transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F58H7.1	F58H7.1	F58H7.1 [Source:RefSeq_peptide;Acc:NP_500016]			
F58H7.2	F58H7.2	F58H7.2 [Source:RefSeq_peptide;Acc:NP_500017]			amidase activity, 
plx-1	Y55F3AL.1	plx-1 encodes a C. elegans plexin ortholog. by homology, PLX-1 is predicted to function as a semaphorin receptor whose activity is required for proper positioning of the ray 1 cells in the male tail. genetic analyses indicate that while plx-1 functions in the same genetic pathway as the smp-1 and smp-2 semaphorin-encoding genes to position ray 1 cells, it functions in parallel to unc-73/GEF and the ced-10, mig-2, and rho-1 GTPase genes in affecting ray 1 position. plx-1 reporter gene fusions are expressed in all body wall muscles, male sex-specific muscles, and lateral hypodermal cells during postembryonic development. in the male tail, during the L3 larval stage when ray 1 cells are positioned, the plx-1 reporter is expressed predominantly in cells of the ray 1 and ray 2 lineages, with weaker and transient expression visible in the more posterior 3-9 rays. [Source: WormBase]	multicellular organismal development, tail morphogenesis, 	membrane, 	serine-type endopeptidase inhibitor activity, receptor activity, 
egrh-2	Y55F3AM.7	Y55F3AM.7 encodes a zinc-finger protein with partial similarity to Krox20/EGR2 (OMIM:129010, mutated in Charcot-Marie-Tooth disease). [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
Y55F3AM.6	Y55F3AM.6	Y55F3AM.6a [Source:RefSeq_peptide;Acc:NP_001023510]			protein binding, zinc ion binding, nucleic acid binding, 
Y55F3AM.5	Y55F3AM.5	Y55F3AM.5 [Source:RefSeq_peptide;Acc:NP_500021]			
immp-2	Y55F3AM.8	Y55F3AM.8 [Source:RefSeq_peptide;Acc:NP_500022]	proteolysis, 	membrane, 	serine-type peptidase activity, 
Y55F3AM.9	Y55F3AM.9	Y55F3AM.9 [Source:RefSeq_peptide;Acc:NP_500023]			
Y55F3AM.4	Y55F3AM.4	Y55F3AM.4 [Source:RefSeq_peptide;Acc:NP_500024]			
Y55F3AM.3	Y55F3AM.3	Y55F3AM.3a [Source:RefSeq_peptide;Acc:NP_500025]	mRNA processing, potassium ion transport, positive regulation of growth rate, 	integral to membrane, nucleus, 	nucleotide binding, RNA binding, nucleic acid binding, voltage-gated potassium channel activity, 
Y55F3AM.10	Y55F3AM.10	Y55F3AM.10 [Source:RefSeq_peptide;Acc:NP_500027]			protein binding, 
Y55F3AM.11	Y55F3AM.11	Y55F3AM.11 [Source:RefSeq_peptide;Acc:NP_500028]			
srx-12	Y55F3AM.2	Serpentine Receptor, class X family member (srx-12) [Source:RefSeq_peptide;Acc:NP_500029]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
dcap-1	Y55F3AM.12	dcap-1 encodes an ortholog of budding yeast Dcp1p and human DCP1A (OMIM:607010) and DCP1B (OMIM:609843). DCAP-1 is expressed in diverse tissues, including muscle, intestine, neurons, and the reproductive system. DCAP-1 is colocalized with CAR-1 to P granules, and with AIN-1 and CAR-1 to discrete cytoplasmic foci that resemble P bodies. although it is orthologous to mRNA decapping complex subunits, DCAP-1 itself shows no decapping activity in vitro on either m7GpppG- or m2,2,7GpppG-capped RNAs. however, dcap-1(RNAi) shows weak synthetic lethality with dcap-2(RNAi), suggesting that DCAP-1 and DCAP-2 are partially redundant in vivo. [Source: WormBase]			
Y55F3AM.13	Y55F3AM.13	Y55F3AM.13 [Source:RefSeq_peptide;Acc:NP_500031]			protein binding, 
Y55F3AM.1	Y55F3AM.1	Probable mitochondrial 28S ribosomal protein S25 (S25mt) (MRP-S25). [Source:Uniprot/SWISSPROT;Acc:Q9N361]	embryonic development ending in birth or egg hatching, 		
Y55F3AM.14	Y55F3AM.14	Y55F3AM.14 [Source:RefSeq_peptide;Acc:NP_500033]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
csn-4	Y55F3AM.15	csn-4 encodes a protein with similarity to human COP9 proteasome subunit 4. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y55F3AR.3	Y55F3AR.3	T-complex protein 1 subunit theta (TCP-1-theta) (CCT-theta). [Source:Uniprot/SWISSPROT;Acc:Q9N358]	protein folding, cellular protein metabolic process, positive regulation of growth rate, 		ATP binding, protein binding, unfolded protein binding, 
Y55F3AR.2	Y55F3AR.2	Y55F3AR.2 [Source:RefSeq_peptide;Acc:NP_500036]	regulation of transcription, DNA-dependent, cell redox homeostasis, 	nucleus, 	transcription factor activity, 
Y55F3AR.1	Y55F3AR.1	Y55F3AR.1 [Source:RefSeq_peptide;Acc:NP_500037]	protein insertion into membrane, positive regulation of growth rate, 	integral to membrane, 	
C44B12.9	C44B12.9	C44B12.9 [Source:RefSeq_peptide;Acc:NP_001033402]			
C44B12.3	C44B12.3	C44B12.3 [Source:RefSeq_peptide;Acc:NP_500038]			
ost-1	C44B12.2	ost-1 encodes the C. elegans ortholog of the conserved basement membrane glycoprotein component osteonectin/SPARC/BM-40. loss of ost-1 function via RNAi indicates that ost-1 activity is required for embryonic and larval development, as well as for normal gut development, body size, and fecundity. an OST-1::GFP reporter fusion protein localizes to the basement membranes along body wall and sex muscles, as well as around the pharynx and gonad, with particular concentration at the spermatheca and distal tip cells. [Source: WormBase]	positive regulation of growth rate, 		calcium ion binding, 
srx-14	C44B12.8	Serpentine Receptor, class X family member (srx-14) [Source:RefSeq_peptide;Acc:NP_001023064]			
srx-13	C44B12.4	Serpentine Receptor, class X family member (srx-13) [Source:RefSeq_peptide;Acc:NP_500040]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C44B12.5	C44B12.5	C44B12.5 [Source:RefSeq_peptide;Acc:NP_500041]	reproduction, 		
C44B12.1	C44B12.1	C44B12.1 [Source:RefSeq_peptide;Acc:NP_500042]	embryonic development ending in birth or egg hatching, 		
C44B12.6	C44B12.6	C44B12.6 [Source:RefSeq_peptide;Acc:NP_500043]			cytokine activity, 
C50A2.t1	C50A2.t1				
C50A2.3	C50A2.3	C50A2.3 [Source:RefSeq_peptide;Acc:NP_500045]			
C50A2.t2	C50A2.t2				
C50A2.4	C50A2.4	C50A2.4 [Source:RefSeq_peptide;Acc:NP_500046]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C50A2.2	C50A2.2	C50A2.2 [Source:RefSeq_peptide;Acc:NP_500047]	chromatin assembly or disassembly, positive regulation of growth rate, 	nucleus, chromatin, 	chromatin binding, 
Y104H12D.2	Y104H12D.2	Y104H12D.2 [Source:RefSeq_peptide;Acc:NP_500049]			
Y104H12D.4	Y104H12D.4	Y104H12D.4 [Source:RefSeq_peptide;Acc:NP_741302]			
mdt-20	Y104H12D.1	Y104H12D.1 [Source:RefSeq_peptide;Acc:NP_500050]			
Y104H12D.3	Y104H12D.3	Y104H12D.3 [Source:RefSeq_peptide;Acc:NP_500051]	carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, transaminase activity, 
dsl-2	W09G12.1	dsl-2 encodes a putative transmembrane protein whose extracellular domain has single DSL and EGF domains in series, somewhat like Delta/LAG-2. DSL-2 belongs to a nematode-specific family of Delta/LAG-2-like proteins that includes DSL-1, -2, -3, -5, -6, and -7. [Source: WormBase]	cell communication, 	membrane, 	
dsl-1	W09G12.4	dsl-1 encodes a secreted protein with a single DSL and EGF domain in series, resembling Delta/LAG-2. DSL-1, with APX-1 and LAG-2, is collectively required for LIN-12/Notch-mediated lateral signalling during postembryonic vulval development. DSL-1, when misexpressed by lag-2 sequences, can rescue the larval-lethal and anchor cell phenotypes of lag-2(q420ts). dsl-1(RNAi) animals have abnormal vulvae in a genetic background sensitized for lateral signalling defects. dsl-1(ok810) mutants, while viable and fertile, have a 4% penetrant defect in lateral signaling, which exceeds 13% with apx-1 and lag-2 RNAi. dsl-1 is strongly transcribed in P6.p cells. SUR-2 regulates dsl-1 along with apx-1 and lag-2. DSL-1 belongs to a nematode-specific family of Delta/LAG-2-like proteins that includes DSL-2, -3, -5, -6, and -7. [Source: WormBase]	cell communication, 	membrane, 	
W09G12.9	W09G12.9	W09G12.9 [Source:RefSeq_peptide;Acc:NP_500055]			
W09G12.10	W09G12.10	W09G12.10 [Source:RefSeq_peptide;Acc:NP_001033437]			
W09G12.8	W09G12.8	W09G12.8 [Source:RefSeq_peptide;Acc:NP_500056]	positive regulation of growth rate, 		
W09G12.7	W09G12.7	W09G12.7 [Source:RefSeq_peptide;Acc:NP_500057]	cell adhesion, nucleosome assembly, biological_process, ossification, 	nucleus, nucleosome, 	protein binding, DNA binding, 
W09G12.6	W09G12.6	W09G12.6 [Source:RefSeq_peptide;Acc:NP_500058]	homoiothermy, response to freezing, 		ice binding, 
W09G12.5	W09G12.5	W09G12.5 [Source:RefSeq_peptide;Acc:NP_500059]	SRP-dependent cotranslational protein targeting to membrane, positive regulation of growth rate, 	membrane, 	RNA binding, GTP binding, 7S RNA binding, 
F38A1.8	F38A1.8	F38A1.8 [Source:RefSeq_peptide;Acc:NP_741303]	intracellular protein transport, SRP-dependent cotranslational protein targeting to membrane, biological_process, 	membrane, signal recognition particle receptor complex, signal recognition particle, 	RNA binding, GTP binding, GTPase activity, signal recognition particle binding, 7S RNA binding, 
F38A1.15	F38A1.15	F38A1.15 [Source:RefSeq_peptide;Acc:NP_001076689]			
F38A1.9	F38A1.9	F38A1.9 [Source:RefSeq_peptide;Acc:NP_741304]			
F38A1.10	F38A1.10	F38A1.10 [Source:RefSeq_peptide;Acc:NP_741305]			sugar binding, 
F38A1.11	F38A1.11	F38A1.11 [Source:RefSeq_peptide;Acc:NP_741306]			
F38A1.5	F38A1.5	F38A1.5 [Source:RefSeq_peptide;Acc:NP_741307]			sugar binding, 
F38A1.6	F38A1.6	F38A1.6 [Source:RefSeq_peptide;Acc:NP_741308]			
F38A1.16	F38A1.16				
F38A1.4	F38A1.4	F38A1.4 [Source:RefSeq_peptide;Acc:NP_741309]			sugar binding, 
F38A1.7	F38A1.7	F38A1.7 [Source:RefSeq_peptide;Acc:NP_741310]			sugar binding, 
F38A1.17	F38A1.17				
F38A1.14	F38A1.14	F38A1.14 [Source:RefSeq_peptide;Acc:NP_001023187]			sugar binding, 
F38A1.13	F38A1.13	F38A1.13 [Source:RefSeq_peptide;Acc:NP_741311]	embryonic development ending in birth or egg hatching, 		
F38A1.1	F38A1.1	F38A1.1 [Source:RefSeq_peptide;Acc:NP_741312]			sugar binding, 
C09E9.2	C09E9.2	C09E9.2 [Source:RefSeq_peptide;Acc:NP_741314]			
C09E9.1	C09E9.1	Uncharacterized protein C09E9.1. [Source:Uniprot/SWISSPROT;Acc:Q93196]			
Y104H12BL.1	Y104H12BL.1	Y104H12BL.1 [Source:RefSeq_peptide;Acc:NP_500060]			
Y104H12BR.1	Y104H12BR.1	Y104H12BR.1 [Source:RefSeq_peptide;Acc:NP_500061]			
F53H1.1	F53H1.1	F53H1.1 [Source:RefSeq_peptide;Acc:NP_001033411]	positive regulation of growth rate, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
F53H1.4	F53H1.4	F53H1.4a [Source:RefSeq_peptide;Acc:NP_001023217]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
F53H1.3	F53H1.3	F53H1.3 [Source:RefSeq_peptide;Acc:NP_500065]			
F53H1.2	F53H1.2				
F58F6.6	F58F6.6	F58F6.6 [Source:RefSeq_peptide;Acc:NP_500067]			
F58F6.5	F58F6.5	F58F6.5 [Source:RefSeq_peptide;Acc:NP_500068]	embryonic development ending in birth or egg hatching, 		
rfc-2	F58F6.4	rfc-2 encodes a member of the AAA family that are ATPases associated with DNA replication and has highest similarity to the mouse Replication factor C 40 kDa subunit, and affects embryonic viability, fertility, and locomotion in a large-scale RNAi screen. [Source: WormBase]	defense response, embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
col-104	F58F6.1	COLlagen family member (col-104) [Source:RefSeq_peptide;Acc:NP_500070]	phosphate transport, metabolic process, 	cytoplasm, 	catalytic activity, structural constituent of cuticle, 
F58F6.t1	F58F6.t1				
col-105	F58F6.2	COLlagen family member (col-105) [Source:RefSeq_peptide;Acc:NP_500071]	phosphate transport, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
F58F6.t2	F58F6.t2				
F58F6.3	F58F6.3	F58F6.3 [Source:RefSeq_peptide;Acc:NP_500072]			
Y104H12A.t2	Y104H12A.t2				
nhr-41	Y104H12A.1	nhr-41 encodes a nuclear receptor of the NR2D1 subfamily that is orthologous to the Drosophila DHR78 nuclear receptor essential for the onset of metamorphosis, and the mammalian TR2 and TR4 receptors which are expressed in androgen-sensitive organs and brain tissue, respectively. by homology, NHR-41 likely functions as a transcription factor that, based upon RNAi experiments, plays a role in the formation of SDS-resistant dauer larvae. using two different reporter fusions, nhr-41 expression is detected in seam cells, excretory cells, and rectal epithelia, or in chemosensory neurons, gut, and head and tail hypodermis. nhr-41 mRNAs are expressed at all larval stages at precise intervals relative to molting: mRNA produced by upstream promoter sequence is detected at the time larval molts occur, while mRNA produced by promoter sequence in the fourth intron is detected at variable levels during larval development with distinct peaks of expression seen at the beginning of the intermolt. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y104H12A.t1	Y104H12A.t1				
Y77E11A.t1	Y77E11A.t1				
Y77E11A.14	Y77E11A.14	Y77E11A.14 [Source:RefSeq_peptide;Acc:NP_500075]			
Y77E11A.6	Y77E11A.6	Y77E11A.6 [Source:RefSeq_peptide;Acc:NP_500076]	regulation of transcription, transcription, 		zinc ion binding, transcription regulator activity, DNA binding, nucleic acid binding, DNA-directed RNA polymerase activity, 
Y77E11A.7	Y77E11A.7	Y77E11A.7b [Source:RefSeq_peptide;Acc:NP_741316]	embryonic development ending in birth or egg hatching, 		protein binding, 
jtr-1	Y77E11A.4	jtr-1 encodes a predicted transmembrane protein that is related to the conserved jumping translocation breakpoint (JTB) family of proteins (OMIM:604671, the human JTB gene is found fused to telomeric repeats in a case of jumping translocation leading to leukemia). as loss of jtr-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of JTR-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		integral to membrane, 	
Y77E11A.8	Y77E11A.8	Y77E11A.8 [Source:RefSeq_peptide;Acc:NP_500079]			
Y77E11A.9	Y77E11A.9	Y77E11A.9 [Source:RefSeq_peptide;Acc:NP_500080]			
clp-6	Y77E11A.10	clp-6 encodes a calpain homolog that has significant identity to mammalian calpains over its whole length and that contains motifs typical of calpains, including a thiol (cysteine) protease active site and a Ca[2+]-binding domain. CLP-6 is not required for degenerative (necrotic-like) cell death in neurons induced by mutations such as mec-4(d), deg-3(d), or gsa-1(gf), since clp-6(RNAi) has no effect on such degeneration. [Source: WormBase]	proteolysis, cell death, 	intracellular, 	cysteine-type endopeptidase activity, calcium-dependent cysteine-type endopeptidase activity, 
clp-7	Y77E11A.11	clp-7 encodes a member of the calpain family of cysteine proteases. [Source: WormBase]	proteolysis, cell death, 	intracellular, 	cysteine-type endopeptidase activity, calcium-dependent cysteine-type endopeptidase activity, 
Y77E11A.3	Y77E11A.3	Y77E11A.3 [Source:RefSeq_peptide;Acc:NP_500083]			
Y77E11A.2	Y77E11A.2	Y77E11A.2 [Source:RefSeq_peptide;Acc:NP_500084]	metabolic process, electron transport, 		protein binding, oxidoreductase activity, NAD+ kinase activity, 
col-106	Y77E11A.15	COLlagen family member (col-106) [Source:RefSeq_peptide;Acc:NP_741318]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
Y77E11A.12	Y77E11A.12	Y77E11A.12b [Source:RefSeq_peptide;Acc:NP_001023583]			
Y77E11A.t2	Y77E11A.t2				
Y77E11A.t3	Y77E11A.t3				
Y77E11A.16	Y77E11A.16	Y77E11A.16 [Source:RefSeq_peptide;Acc:NP_001033461]			
npp-20	Y77E11A.13	Nuclear Pore complex Protein family member (npp-20) [Source:RefSeq_peptide;Acc:NP_500087]	positive regulation of growth rate, 		
Y77E11A.1	Y77E11A.1	Y77E11A.1 [Source:RefSeq_peptide;Acc:NP_500088]	glycolysis, 		ATP binding, hexokinase activity, 
K03H6.2	K03H6.2	K03H6.2 [Source:RefSeq_peptide;Acc:NP_500090]	lipid metabolic process, multicellular organismal development, 		catalytic activity, triacylglycerol lipase activity, 
K03H6.t1	K03H6.t1				
K03H6.7	K03H6.7	K03H6.7 [Source:RefSeq_peptide;Acc:NP_001040962]			sugar binding, 
K03H6.4	K03H6.4	K03H6.4 [Source:RefSeq_peptide;Acc:NP_500091]			
K03H6.1	K03H6.1	K03H6.1 [Source:RefSeq_peptide;Acc:NP_500092]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K03H6.5	K03H6.5	K03H6.5 [Source:RefSeq_peptide;Acc:NP_500093]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K03H6.6	K03H6.6	K03H6.6 [Source:RefSeq_peptide;Acc:NP_001033421]			
C34H4.5	C34H4.5	C34H4.5 [Source:RefSeq_peptide;Acc:NP_741319]			
col-107	C34H4.4	COLlagen family member (col-107) [Source:RefSeq_peptide;Acc:NP_872105]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
tag-244	C34H4.3	Temporarily Assigned Gene name family member (tag-244) [Source:RefSeq_peptide;Acc:NP_500095]			
C34H4.2	C34H4.2	C34H4.2 [Source:RefSeq_peptide;Acc:NP_500096]			
C34H4.1	C34H4.1	C34H4.1 [Source:RefSeq_peptide;Acc:NP_500097]			
Y41D4B.18	Y41D4B.18	Y41D4B.18 [Source:RefSeq_peptide;Acc:NP_500098]			
Y41D4B.17	Y41D4B.17	Y41D4B.17 [Source:RefSeq_peptide;Acc:NP_500099]			
Y41D4B.16	Y41D4B.16	Y41D4B.16 [Source:RefSeq_peptide;Acc:NP_500100]			
Y41D4B.15	Y41D4B.15	Y41D4B.15 [Source:RefSeq_peptide;Acc:NP_500101]			
npp-8	Y41D4B.19	Nuclear Pore complex Protein family member (npp-8) [Source:RefSeq_peptide;Acc:NP_500102]	nucleocytoplasmic transport, embryonic development ending in birth or egg hatching, 	nuclear pore, 	protein binding, structural constituent of nuclear pore, nucleocytoplasmic transporter activity, 
Y41D4B.14	Y41D4B.14	Y41D4B.14 [Source:RefSeq_peptide;Acc:NP_500103]			
ced-2	Y41D4B.13	The ced-2 gene encodes a Src homology (SH) 2 and 3-containing adaptor protein, homologous to human CrkII, that is required for phagocytosis during programmed cell death and for migration of the distal tip cells of the somatic gonad. CED-2 functions in the engulfing cell during apoptosis and interacts with CED-5/DOCK180 to activate CED-10/Rac and promote formation of the polarized cell extensions associated with cell corpse engulfment. [Source: WormBase]	intracellular signaling cascade, engulfment of apoptotic cell, 	plasma membrane, 	
set-23	Y41D4B.12	Probable histone-lysine N-methyltransferase Y41D4B.12 (EC 2.1.1.43). [Source:Uniprot/SWISSPROT;Acc:Q95Y12]	chromatin modification, 	nucleus, 	zinc ion binding, histone-lysine N-methyltransferase activity, 
Y41D4B.11	Y41D4B.11	Y41D4B.11 [Source:RefSeq_peptide;Acc:NP_500107]	positive regulation of growth rate, 		
dsl-3	Y41D4B.10	dsl-3 encodes a putative secreted protein with single DSL and EGF domains in series, somewhat like Delta/LAG-2. DSL-3 belongs to a nematode-specific family of Delta/LAG-2-like proteins that includes DSL-1, -2, -3, -5, -6, and -7. [Source: WormBase]	cell communication, 	membrane, 	
nhr-122	Y41D4B.9	Nuclear Hormone Receptor family member (nhr-122) [Source:RefSeq_peptide;Acc:NP_500109]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-287	Y41D4B.20	Nuclear Hormone Receptor family member (nhr-287) [Source:RefSeq_peptide;Acc:NP_500110]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
nhr-92	Y41D4B.8	Nuclear Hormone Receptor family member (nhr-92) [Source:RefSeq_peptide;Acc:NP_500111]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-87	Y41D4B.7	Nuclear Hormone Receptor family member (nhr-87) [Source:RefSeq_peptide;Acc:NP_500112]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y41D4B.27	Y41D4B.27	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2V8C5]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-146	Y41D4B.26	Nuclear Hormone Receptor family member (nhr-146) [Source:RefSeq_peptide;Acc:NP_741322]	cell communication, 	membrane, 	
Y41D4B.6	Y41D4B.6	Y41D4B.6 [Source:RefSeq_peptide;Acc:NP_500113]	reproduction, 		
nhr-274	Y41D4B.21	Nuclear Hormone Receptor family member (nhr-274) [Source:RefSeq_peptide;Acc:NP_500114]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
rps-28	Y41D4B.5	rps-28 encodes a small ribosomal subunit S28 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y41D4B.4	Y41D4B.4	Y41D4B.4 [Source:RefSeq_peptide;Acc:NP_500116]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
Y41D4B.1	Y41D4B.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q95Y02]			
Y41D4B.24	Y41D4B.24	Y41D4B.24 [Source:RefSeq_peptide;Acc:NP_500122]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K08D12.5	K08D12.5	K08D12.5 [Source:RefSeq_peptide;Acc:NP_500123]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
K08D12.4	K08D12.4	K08D12.4 [Source:RefSeq_peptide;Acc:NP_500124]			
pbs-1	K08D12.1	pbs-1 encodes a protease subunit with highest similarity to vertebrate proteasome subunit beta type 6 that affects fertility, embryonic viability, locomotion, and larval viability [Source: WormBase]	ubiquitin-dependent protein catabolic process, biological_process, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
K08D12.3	K08D12.3	K08D12.3 is orthologous to human ZNF9 (CNBP. OMIM:116955, mutated in myotonic dystrophy type 2) and ZCCHC13. like ZNF9, K08D12.3 is most conspicuously expressed in muscle cells. K08D12.3 is required for normal locomotion in mass RNAi assays, as well as for fertility, embryonic and larval viability, and general health. [Source: WormBase]	biological_process, 		zinc ion binding, nucleic acid binding, 
K08D12.2	K08D12.2	K08D12.2 is orthologous to human RP2 (OMIM:312600, mutated in retinitis pigmentosa 2), and paralogous to human TBCC (OMIM:602971) and Y71H2AM.24. K08D12.2 localizes to rings around the transistion zones at the base of cilia, but has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of adenylate cyclase activity, 		adenylate cyclase binding, 
K08D12.6	K08D12.6	K08D12.6 [Source:RefSeq_peptide;Acc:NP_741325]	regulation of transcription, DNA-dependent, translation, homoiothermy, response to freezing, 	intracellular, nucleus, ribosome, 	DNA binding, ligand-dependent nuclear receptor activity, structural constituent of ribosome, structural constituent of cell wall, nutrient reservoir activity, ice binding, 
K08D12.7	K08D12.7	K08D12.7 [Source:RefSeq_peptide;Acc:NP_001023283]			
Y41D4A.5	Y41D4A.5	Y41D4A.5 [Source:RefSeq_peptide;Acc:NP_500128]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y41D4A.6	Y41D4A.6	Y41D4A.6 [Source:RefSeq_peptide;Acc:NP_500129]			amidase activity, 
Y41D4A.4	Y41D4A.4	Y41D4A.4 [Source:RefSeq_peptide;Acc:NP_500130]	dicarboxylic acid transport, 	membrane, integral to membrane, 	sodium:dicarboxylate symporter activity, 
Y41D4A.3	Y41D4A.3	Y41D4A.3 [Source:RefSeq_peptide;Acc:NP_500131]			
Y41D4A.7	Y41D4A.7	Y41D4A.7 [Source:RefSeq_peptide;Acc:NP_500132]			
col-108	Y41D4A.2	COLlagen family member (col-108) [Source:RefSeq_peptide;Acc:NP_500133]	phosphate transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
Y41D4A.1	Y41D4A.1	Y41D4A.1 [Source:RefSeq_peptide;Acc:NP_500134]			
Y41D4A.8	Y41D4A.8	Y41D4A.8 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that Y41D4A.8 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, purinergic nucleotide receptor activity, G-protein coupled, 
Y38C1BA.1	Y38C1BA.1	Y38C1BA.1 [Source:RefSeq_peptide;Acc:NP_500136]			
snn-1	Y38C1BA.2	SyNapsiN family member (snn-1) [Source:RefSeq_peptide;Acc:NP_741327]	neurotransmitter secretion, 	synaptic vesicle, 	catalytic activity, 
col-109	Y38C1BA.3	col-109 encodes a cuticular collagen. loss of col-109 via large-scale RNAi screens results in no obvious defects. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
cmk-1	K07A9.2	cmk-1 encodes a Ca+2/calmodulin-dependent protein kinase I (CaMK1). CMK-1 activity is required, cell autonomously and downstream of the cyclic nucleotide-gated channel TAX-4, for several aspects of AFD thermosensory neuron differentiation, including expression of the gcy-8 guanylyl cyclase and nhr-38 nuclear hormone receptor genes and morphology of the AFD sensory endings. cmk-1 activity is thus also required for normal thermosensory behavior. a cmk-1::gfp reporter is expressed in head sensory and interneurons as well as in the ventral nerve cord. expression is seen specifically in the neurons of the thermosensory circuit, AFD, AIY, and AIZ. CMK-1 localizes exclusively to the cytoplasm. [Source: WormBase]	protein amino acid phosphorylation, thermosensory behavior, 	calcium- and calmodulin-dependent protein kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
K07A9.3	K07A9.3	K07A9.3 [Source:RefSeq_peptide;Acc:NP_500140]	metabolic process, 		catalytic activity, 
K07A9.4	K07A9.4	K07A9.4 [Source:RefSeq_peptide;Acc:NP_741328]			
egl-4	F55A8.2	The egl-4 gene encodes a cyclic GMP-dependant protein kinase that may act through the TGF-beta signalling pathway relay sensory cues that modulate chemosensory behavior, dauer formation, foraging and egg-laying. [Source: WormBase]	protein amino acid phosphorylation, 	cAMP-dependent protein kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, cAMP-dependent protein kinase regulator activity, cGMP-dependent protein kinase activity, 
egl-18	F55A8.1	egl-18 encodes a member of the GATA-family of transcription factors that affects cell migration, cell fate specification. expressed in the head, in hypodermal seam cells, VC neurons, and vulval precursor cells. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of multicellular organism growth, cell fate specification, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
elt-6	F52C12.5	Erythroid-Like Transcription factor family member (elt-6) [Source:RefSeq_peptide;Acc:NP_500144]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
F52C12.4	F52C12.4	F52C12.4 [Source:RefSeq_peptide;Acc:NP_500145]			
F52C12.3	F52C12.3	F52C12.3 [Source:RefSeq_peptide;Acc:NP_500146]	tRNA splicing, 	tRNA-intron endonuclease complex, 	tRNA-intron endonuclease activity, 
F52C12.2	F52C12.2	F52C12.2 [Source:RefSeq_peptide;Acc:NP_741332]			
F52C12.1	F52C12.1	Probable tyrosyl-DNA phosphodiesterase (EC 3.1.4.-) (Tyr-DNA phosphodiesterase). [Source:Uniprot/SWISSPROT;Acc:Q9TXV7]	metabolic process, DNA repair, 	nucleus, 	catalytic activity, phosphoric diester hydrolase activity, 
ulp-3	Y48A5A.2	Ubiquitin-Like Protease family member (ulp-3) [Source:RefSeq_peptide;Acc:NP_001023477]	proteolysis, 		cysteine-type peptidase activity, 
Y48A5A.1	Y48A5A.1	Y48A5A.1 [Source:RefSeq_peptide;Acc:NP_500150]			
Y48A5A.3	Y48A5A.3	Y48A5A.3 [Source:RefSeq_peptide;Acc:NP_001033439]			
Y76B12C.4	Y76B12C.4	Y76B12C.4 [Source:RefSeq_peptide;Acc:NP_500151]			
Y76B12C.3	Y76B12C.3	Y76B12C.3 [Source:RefSeq_peptide;Acc:NP_500152]			
Y76B12C.8	Y76B12C.8	Y76B12C.8 [Source:RefSeq_peptide;Acc:NP_500153]			
Y76B12C.6	Y76B12C.6	Y76B12C.6 [Source:RefSeq_peptide;Acc:NP_500155]	electron transport, 		acyl-CoA dehydrogenase activity, 
xpc-1	Y76B12C.2	XPC (Xeroderma Pigmentosum group C) DNA repair gene homolog family member (xpc-1) [Source:RefSeq_peptide;Acc:NP_500156]	nucleotide-excision repair, 	nucleus, 	damaged DNA binding, 
Y76B12C.7	Y76B12C.7	Probable cleavage and polyadenylation specificity factor subunit 1 (Cleavage and polyadenylation specificity factor 160 kDa subunit) (CPSF 160 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:Q9N4C2]	mRNA polyadenylation, embryonic development ending in birth or egg hatching, mRNA cleavage, 	nucleus, mRNA cleavage and polyadenylation specificity factor complex, 	nucleic acid binding, 
Y76B12C.9	Y76B12C.9	Y76B12C.9 [Source:RefSeq_peptide;Acc:NP_741333]			
Y76B12C.1	Y76B12C.1	Y76B12C.1 [Source:RefSeq_peptide;Acc:NP_500158]	ion transport, potassium ion transport, 	membrane, 	ion channel activity, voltage-gated potassium channel activity, 
R05C11.4	R05C11.4	R05C11.4 [Source:RefSeq_peptide;Acc:NP_001033426]			
R05C11.2	R05C11.2	R05C11.2 [Source:RefSeq_peptide;Acc:NP_500159]			
R05C11.1	R05C11.1	R05C11.1 [Source:RefSeq_peptide;Acc:NP_500160]			
R05C11.3	R05C11.3	R05C11.3 encodes a calcium-transporting ATPase. large-scale RNAi screens indicate that R05C11.3 activity is required for locomotion and normal rates of postembryonic growth. [Source: WormBase]	transport, metabolic process, calcium ion transport, cation transport, positive regulation of growth rate, 	membrane, 	ATP binding, catalytic activity, calcium ion binding, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, calcium-transporting ATPase activity, calcium ion transmembrane transporter activity, 
C23H5.11	C23H5.11	C23H5.11 [Source:RefSeq_peptide;Acc:NP_001040913]			
C23H5.5	C23H5.5				
C23H5.4	C23H5.4				
C23H5.6	C23H5.6				
NR_002658.1	C23H5.10	C23H5.10, miscRNA [Source:RefSeq_dna;Acc:NR_002658]			
C23H5.7	C23H5.7	C23H5.7 [Source:RefSeq_peptide;Acc:NP_500162]	ion transport, 	membrane, 	ion channel activity, 
C23H5.8	C23H5.8	C23H5.8a [Source:RefSeq_peptide;Acc:NP_500163]			protein binding, 
xbx-4	C23H5.3	X-BoX promoter element regulated family member (xbx-4) [Source:RefSeq_peptide;Acc:NP_500165]			
C23H5.2	C23H5.2	C23H5.2 [Source:RefSeq_peptide;Acc:NP_500166]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
grl-20	C23H5.9	grl-20 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
C23H5.1	C23H5.1	C23H5.1 [Source:RefSeq_peptide;Acc:NP_500168]	metabolic process, 		methyltransferase activity, 
C54E4.2	C54E4.2	C54E4.2b [Source:RefSeq_peptide;Acc:NP_001023099]			calcium ion binding, 
C54E4.5	C54E4.5	C54E4.5 [Source:RefSeq_peptide;Acc:NP_500170]			
gcy-37	C54E4.3	gcy-37 encodes a predicted soluble guanylyl cyclase that is expressed in four candidate sensory neurons connected to the pseudocoelom, URXL, URXR, AQR, and PQR. as loss of gcy-37 activity via RNA-mediated interference does not result in any abnormalities, the precise role of GCY-37 in C. elegans development and/or behavior is not yet known. GCY-37 expression in neurons connected to the pseudocoelom suggests, however, that GCY-37 may play a role in fluid homeostasis. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, embryonic development ending in birth or egg hatching, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
C54E4.4	C54E4.4	C54E4.4 [Source:RefSeq_peptide;Acc:NP_500172]	embryonic development ending in birth or egg hatching, 		
C54E4.1	C54E4.1	C54E4.1 [Source:RefSeq_peptide;Acc:NP_500173]			
Y71G10AL.1	Y71G10AL.1	Y71G10AL.1a [Source:RefSeq_peptide;Acc:NP_741335]			nucleic acid binding, 
Y71G10AR.4	Y71G10AR.4	Y71G10AR.4 [Source:RefSeq_peptide;Acc:NP_001041058]	sodium ion transport, 	membrane, 	phosphopantetheine binding, bile acid:sodium symporter activity, 
Y71G10AR.1	Y71G10AR.1	Y71G10AR.1 [Source:RefSeq_peptide;Acc:NP_500176]			bile acid:sodium symporter activity, 
T04C4.1	T04C4.1	T04C4.1a [Source:RefSeq_peptide;Acc:NP_001023357]			
M70.3	M70.3	M70.3a [Source:RefSeq_peptide;Acc:NP_500179]			
M70.2	M70.2	M70.2 [Source:RefSeq_peptide;Acc:NP_500181]			
M70.1	M70.1	M70.1 [Source:RefSeq_peptide;Acc:NP_500182]	protein secretion by the type II secretion system, 	type II protein secretion system complex, 	protein transporter activity, 
M70.4	M70.4	M70.4 is orthologous to human O-MANNOSE BETA-1,2-N-ACETYLGLUCOSAMINYLTRANSFERASE (FLJ20277. OMIM:606822), which when mutated leads to muscle-eye-brain disease. [Source: WormBase]			
M70.5	M70.5	M70.5 [Source:RefSeq_peptide;Acc:NP_500184]			
lin-1	C37F5.1	lin-1 encodes an Ets-domain-containing transcription factor that is a member of the ETS gene family that includes human ELK1, 3, and 4 (OMIM:600247). LIN-1 functions as a general effector of MAP kinase-mediated signaling. when MAP kinase is inactive, LIN-1 forms a complex with LIN-31/WH that inhibits vulval cell fate specification. upon MAP kinase activation (vulval induction), LIN-1 is phosphorylated, dissociates from LIN-31, and becomes inactive, thus allowing for vulval development. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, vulval development, regulation of cell fate specification, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
tza-1	Y38F2AL.2	Y38F2AL.2 [Source:RefSeq_peptide;Acc:NP_500186]			protein binding, 
vha-11	Y38F2AL.3	vha-11 encodes, by alternative splicing, two isoforms of an ortholog of subunit C of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-11 is a predicted cytosolic stator (stalk) component. VHA-11 is found in dot-like structures around embryonic nuclei, with diffuse distribution in embryonic cytoplasm. in later embryos (comma stage onward), VHA-11 is found in gut granules (a type of lysosome, expected to require acidification). VHA-11 is predominantly expressed in the excretory cell and in intestinal cells in the adult. VHA-11 is required for ovulation and embryogenesis, since vha-11(RNAi) animals are sterile with polyploid, unmatured oocytes and dead progeny. VHA-11 is also required for normal formation of gut granules, since vha-11(RNAi) embryonic intestines fail to stain with acridine orange. glo-1 mutant intestines fail to show punctate VHA-11. vha-11 shares an operon with vha-3. transgenic vha-11 complements a null mutation of its S. cerevisiae ortholog, VMA5. [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development, positive regulation of growth rate, ovulation, 	proton-transporting two-sector ATPase complex, vacuolar proton-transporting V-type ATPase complex, 	ATP binding, hydrolase activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, hydrogen ion transmembrane transporter activity, 
vha-3	Y38F2AL.4	vha-3 and vha-2 encode an ortholog of subunit c of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). the protein encoded by vha-2 and vha-3 (VHA-2/3) is identical. VHA-2/3 is a predicted V-ATPase transmembrane rotor component. VHA-1 and VHA-2/3 comprise a closely related family of subunit c co-orthologs, predicted to carry protons from the cytosol to a-subunits (VHA-5, VHA-6, VHA-7, or UNC-32) for transmembrane export. vha-3 shares an operon with vha-11. unlike its twin vha-2, the vha-3 gene is intronless. VHA-2/3 is dispensable for viability, since vha-2/3(RNAi) animals have mostly healthy progeny. vha-3 is expressed predominantly in the gastrointestinal and hypodermal cells, and weakly in the excretory cell. [Source: WormBase]	ATP synthesis coupled proton transport, proton transport, positive regulation of growth rate, 	membrane, integral to membrane, proton-transporting two-sector ATPase complex, vacuolar proton-transporting V-type ATPase, V0 domain, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
nsy-4	Y38F2AL.1	Y38F2AL.1 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. Y38F2AL.1 is worm-specific, with obvious homologs only in C. elegans. Y38F2AL.1 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]	positive regulation of multicellular organism growth, 	integral to membrane, 	
nhr-236	Y38F2AL.5	Nuclear Hormone Receptor family member (nhr-236) [Source:RefSeq_peptide;Acc:NP_500190]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
Y38F2AL.6	Y38F2AL.6	Y38F2AL.6 [Source:RefSeq_peptide;Acc:NP_741337]			
ppgn-1	Y38F2AR.7	ParaPleGiN AAA protease family member (ppgn-1) [Source:RefSeq_peptide;Acc:NP_500191]	proteolysis, protein catabolic process, 	membrane, integral to membrane, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, zinc ion binding, metalloendopeptidase activity, 
Y38F2AR.6	Y38F2AR.6	Y38F2AR.6 [Source:RefSeq_peptide;Acc:NP_500193]			
Y38F2AR.5	Y38F2AR.5	Y38F2AR.5 [Source:RefSeq_peptide;Acc:NP_500194]			
Y38F2AR.13	Y38F2AR.13	Y38F2AR.13 [Source:RefSeq_peptide;Acc:NP_001023456]			
Y38F2AR.3	Y38F2AR.3	Y38F2AR.3 [Source:RefSeq_peptide;Acc:NP_500196]			
Y38F2AR.9	Y38F2AR.9	Y38F2AR.9 [Source:RefSeq_peptide;Acc:NP_500197]			
Y38F2AR.2	Y38F2AR.2	Y38F2AR.2 [Source:RefSeq_peptide;Acc:NP_500198]	cotranslational protein targeting to membrane, 	integral to endoplasmic reticulum membrane, translocon complex, 	
eri-5	Y38F2AR.1	Enhanced RNAI (RNA interference) family member (eri-5) [Source:RefSeq_peptide;Acc:NP_500199]			nucleic acid binding, 
Y38F2AR.10	Y38F2AR.10	Y38F2AR.10 [Source:RefSeq_peptide;Acc:NP_500200]			structural molecule activity, 
Y38F2AR.12	Y38F2AR.12	Y38F2AR.12a [Source:RefSeq_peptide;Acc:NP_001076725]			catalytic activity, hydrolase activity, sugar binding, 
NR_002668.1	Y38F2AR.14	Y38F2AR.14, snoRNA [Source:RefSeq_dna;Acc:NR_002668]			
C45G7.4	C45G7.4	C45G7.4 [Source:RefSeq_peptide;Acc:NP_500203]			protein binding, zinc ion binding, 
cdh-10	C45G7.5	cdh-10 encodes a member of the cadherin superfamily. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	calcium ion binding, 
ilys-3	C45G7.3	C45G7.3 [Source:RefSeq_peptide;Acc:NP_500206]			
ilys-2	C45G7.2	C45G7.2 [Source:RefSeq_peptide;Acc:NP_500207]			
ilys-1	C45G7.1	C45G7.1 [Source:RefSeq_peptide;Acc:NP_500208]			
grd-16	Y69A2AL.1	GRounDhog (hedgehog-like family) family member (grd-16) [Source:RefSeq_peptide;Acc:NP_500209]			
Y69A2AL.2	Y69A2AL.2	Y69A2AL.2 [Source:RefSeq_peptide;Acc:NP_001033458]	phospholipid metabolic process, lipid catabolic process, 		calcium ion binding, phospholipase A2 activity, 
Y69A2AR.19	Y69A2AR.19	Y69A2AR.19 [Source:RefSeq_peptide;Acc:NP_500211]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y69A2AR.21	Y69A2AR.21	Y69A2AR.21 [Source:RefSeq_peptide;Acc:NP_500212]	embryonic development ending in birth or egg hatching, 		
Y69A2AR.18	Y69A2AR.18	Y69A2AR.18a [Source:RefSeq_peptide;Acc:NP_500214]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	membrane, proton-transporting two-sector ATPase complex, 	protein binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
Y69A2AR.17	Y69A2AR.17	Y69A2AR.17 [Source:RefSeq_peptide;Acc:NP_500215]			
Y69A2AR.16	Y69A2AR.16	Y69A2AR.16 [Source:RefSeq_peptide;Acc:NP_500216]	metabolic process, 		oxidoreductase activity, 
Y69A2AR.22	Y69A2AR.22	Y69A2AR.22 [Source:RefSeq_peptide;Acc:NP_500217]			
Y69A2AR.15	Y69A2AR.15	Y69A2AR.15 [Source:RefSeq_peptide;Acc:NP_500218]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y69A2AR.23	Y69A2AR.23	Y69A2AR.23 [Source:RefSeq_peptide;Acc:NP_500219]			
Y69A2AR.14	Y69A2AR.14	Y69A2AR.14 [Source:RefSeq_peptide;Acc:NP_500220]			
Y69A2AR.24	Y69A2AR.24	Y69A2AR.24 [Source:RefSeq_peptide;Acc:NP_500221]			
Y69A2AR.25	Y69A2AR.25	Y69A2AR.25 [Source:RefSeq_peptide;Acc:NP_500222]			
Y69A2AR.13	Y69A2AR.13	Y69A2AR.13 [Source:RefSeq_peptide;Acc:NP_500223]			
Y69A2AR.12	Y69A2AR.12	Y69A2AR.12 [Source:RefSeq_peptide;Acc:NP_500224]			
nhr-242	Y69A2AR.26	Nuclear Hormone Receptor family member (nhr-242) [Source:RefSeq_peptide;Acc:NP_500225]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y69A2AR.11	Y69A2AR.11				
Y69A2AR.9	Y69A2AR.9	Y69A2AR.9 [Source:RefSeq_peptide;Acc:NP_500228]			
Y69A2AR.8	Y69A2AR.8	Y69A2AR.8 [Source:RefSeq_peptide;Acc:NP_500229]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
Y69A2AR.27	Y69A2AR.27	Y69A2AR.27 [Source:RefSeq_peptide;Acc:NP_500230]			
Y69A2AR.7	Y69A2AR.7	Y69A2AR.7a [Source:RefSeq_peptide;Acc:NP_741338]			
Y69A2AR.6	Y69A2AR.6	Y69A2AR.6 [Source:RefSeq_peptide;Acc:NP_500232]	vesicle-mediated transport, 	integral to membrane, 	
Y69A2AR.32	Y69A2AR.32	Y69A2AR.32a [Source:RefSeq_peptide;Acc:NP_741340]	positive regulation of multicellular organism growth, 		RNA binding, 
Y69A2AR.28	Y69A2AR.28	Y69A2AR.28 [Source:RefSeq_peptide;Acc:NP_500233]			
Y69A2AR.5	Y69A2AR.5	Y69A2AR.5 encodes a D-amino acid oxidase (DAAO). recombinant Y69A2AR.5 protein has DAAO activity on neutral and basic D-amino acid substrates (e.g., D-alanine or D-methionine, and D-arginine), with highest catalytic efficiency on D-arginine. since the C-terminal residues of Y69A2AR.5 match the PTS1 consensus sequence, Y69A2AR.5 is predicted to be peroxisomal. [Source: WormBase]	electron transport, 		oxidoreductase activity, D-amino-acid oxidase activity, 
smf-3	Y69A2AR.4	yeast SMF (divalent cation transporter) homolog family member (smf-3) [Source:RefSeq_peptide;Acc:NP_500235]	transport, response to stress, 	membrane, 	transporter activity, 
ngn-1	Y69A2AR.29	ngn-1 encodes a member of the neurogenein family that is required for axonal guidance and connectivity of a subset of neurons, and also affects locomotion. [Source: WormBase]	electron transport, regulation of transcription, 	nucleus, 	transcription regulator activity, electron carrier activity, 
mdf-2	Y69A2AR.30	mdf-2 encodes the C. elegans ortholog of the Mad2p spindle assembly checkpoint protein. mdf-2 activity is essential for regulation of the anaphase-promoting complex (APC) during oocyte meiosis I as well as for normal brood size, growth rates, and embryonic, larval, and vulval development. by genetic analyses and comparison to studies in budding yeast, MDF-2 likely negatively regulates APC activity by inhibiting the activity of the FZY-1/CDC20p APC co-activator. [Source: WormBase]	mitosis, locomotory behavior, 		protein binding, 
Y69A2AR.t2	Y69A2AR.t2				
Y69A2AR.3	Y69A2AR.3	Y69A2AR.3 [Source:RefSeq_peptide;Acc:NP_500238]			
ric-8	Y69A2AR.2	ric-8 encodes a receptor-independent G alpha guanine nucleotide exchange factor (GEF). ric-8 activity is required for regulating heterotrimeric G protein signaling pathways that control asymmetric cell division in the embryo as well as synaptic transmission in the nervous system. in the 1-cell embryo, RIC-8 functions as a GEF for GOA-1 thereby regulating spindle morphology, position, and consequently, the first asymmetric cell division. in the nervous system, ric-8 interacts with the goa-1/egl-30 pathways to regulate neurotransmitter secretion and effect normal egg laying, movement, and body flexion. in vitro, RIC-8 preferentially binds GOA-1-GDP and increases the rate of GOA-1 GTP binding. in the early embryo, RIC-8 localizes to the cellular cortex, junctions between cells, asters of the mitotic spindle, the central spindle (kinetochore microtubules), the nuclear envelope, and chromatin. RIC-8's localization to the cortex and asters mirrors that of GOA-1, while localization to the cortex and central spindle is similar to that of the GOA-1 regulators GPR-1/2, whose subcellular localization is RIC-8-dependent. in later stage animals, RIC-8 is seen in head and tail ganglia, amphid processes, and the ventral nerve cord, as well as in larval nonneuronal cells, such as germline nuclei, where it localizes near the nuclear membrane. [Source: WormBase]	spindle organization and biogenesis, 		protein binding, 
Y69A2AR.31	Y69A2AR.31	Y69A2AR.31 [Source:RefSeq_peptide;Acc:NP_500240]			receptor activity, 
Y69A2AR.t1	Y69A2AR.t1				
Y69A2AR.t3	Y69A2AR.t3				
Y69A2AR.1	Y69A2AR.1	Y69A2AR.1d [Source:RefSeq_peptide;Acc:NP_741346]			
Y94H6A.4	Y94H6A.4	Y94H6A.4 [Source:RefSeq_peptide;Acc:NP_500242]	response to oxidative stress, 		glutathione peroxidase activity, 
Y94H6A.3	Y94H6A.3	Y94H6A.3 [Source:RefSeq_peptide;Acc:NP_500243]			
egrh-3	Y94H6A.11	Y94H6A.11 [Source:RefSeq_peptide;Acc:NP_001041062]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
Y94H6A.5	Y94H6A.5	Y94H6A.5a [Source:RefSeq_peptide;Acc:NP_741348]		nucleus, 	ATP binding, RNA binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides, 
ubc-8	Y94H6A.6	UBiquitin Conjugating enzyme family member (ubc-8) [Source:RefSeq_peptide;Acc:NP_500245]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
Y94H6A.10	Y94H6A.10	Y94H6A.10 [Source:RefSeq_peptide;Acc:NP_001023589]			
Y94H6A.7	Y94H6A.7	Y94H6A.7 [Source:RefSeq_peptide;Acc:NP_500246]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, non-membrane spanning protein tyrosine phosphatase activity, 
Y94H6A.8	Y94H6A.8	Probable NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 12 (EC 1.6.5.3) (EC 1.6.99.3) (NADH-ubiquinone oxidoreductase 17.0 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:Q9N2W7]	electron transport, 	membrane, 	electron carrier activity, NADH dehydrogenase (ubiquinone) activity, 
ubxn-2	Y94H6A.9	UBX-containing protein in Nematode family member (ubxn-2) [Source:RefSeq_peptide;Acc:NP_001023591]			protein binding, 
Y94H6A.2	Y94H6A.2	Y94H6A.2 [Source:RefSeq_peptide;Acc:NP_500249]			
Y94H6A.t1	Y94H6A.t1				
nhr-277	Y94H6A.1	Nuclear Hormone Receptor family member (nhr-277) [Source:RefSeq_peptide;Acc:NP_500250]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y54G2A.41	Y54G2A.41	Y54G2A.41 [Source:RefSeq_peptide;Acc:NP_001033441]			
Y54G2A.38	Y54G2A.38	Y54G2A.38 [Source:RefSeq_peptide;Acc:NP_001023503]	signal transduction, 	membrane, 	transmembrane receptor activity, 
Y54G2A.11	Y54G2A.11	Y54G2A.11a [Source:RefSeq_peptide;Acc:NP_001023488]		nucleus, 	DNA binding, 
Y54G2A.12	Y54G2A.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8P6]			
Y54G2A.42	Y54G2A.42	Y54G2A.42 [Source:RefSeq_peptide;Acc:NP_001033442]			
Y54G2A.2	Y54G2A.2	Y54G2A.2a [Source:RefSeq_peptide;Acc:NP_001023492]	reproduction, 		GTP binding, GTPase activity, 
Y54G2A.52	Y54G2A.52	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8P7]			
Y54G2A.10	Y54G2A.10	Y54G2A.10a [Source:RefSeq_peptide;Acc:NP_001023486]			
Y54G2A.t1	Y54G2A.t1				
Y54G2A.t5	Y54G2A.t5				
Y54G2A.44	Y54G2A.44	Y54G2A.44 [Source:RefSeq_peptide;Acc:NP_001033444]			
Y54G2A.t2	Y54G2A.t2				
Y54G2A.32	Y54G2A.32	Y54G2A.32 [Source:RefSeq_peptide;Acc:NP_500255]			
Y54G2A.t3	Y54G2A.t3				
Y54G2A.45	Y54G2A.45	Y54G2A.45 [Source:RefSeq_peptide;Acc:NP_001033445]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
Y54G2A.t4	Y54G2A.t4				
Y54G2A.37	Y54G2A.37	Y54G2A.37 [Source:RefSeq_peptide;Acc:NP_001023502]			
Y54G2A.13	Y54G2A.13	Y54G2A.13 [Source:RefSeq_peptide;Acc:NP_500256]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
clec-80	Y54G2A.39	C-type LECtin family member (clec-80) [Source:RefSeq_peptide;Acc:NP_001023504]			sugar binding, 
clec-81	Y54G2A.9	C-type LECtin family member (clec-81) [Source:RefSeq_peptide;Acc:NP_500257]			sugar binding, 
Y54G2A.48	Y54G2A.48	Y54G2A.48 [Source:RefSeq_peptide;Acc:NP_001033448]			
Y54G2A.46	Y54G2A.46	Y54G2A.46 [Source:RefSeq_peptide;Acc:NP_001033446]			
Y54G2A.47	Y54G2A.47	Y54G2A.47 [Source:RefSeq_peptide;Acc:NP_001033447]			
clec-82	Y54G2A.8	C-type LECtin family member (clec-82) [Source:RefSeq_peptide;Acc:NP_001023507]			sugar binding, 
clec-83	Y54G2A.14	C-type LECtin family member (clec-83) [Source:RefSeq_peptide;Acc:NP_500260]			sugar binding, 
clec-84	Y54G2A.33	C-type LECtin family member (clec-84) [Source:RefSeq_peptide;Acc:NP_741349]			sugar binding, 
Y54G2A.15	Y54G2A.15	Y54G2A.15 [Source:RefSeq_peptide;Acc:NP_500261]	reproduction, 		
Y54G2A.40	Y54G2A.40	Y54G2A.40 [Source:RefSeq_peptide;Acc:NP_001033440]			protein binding, zinc ion binding, 
Y54G2A.49	Y54G2A.49	Y54G2A.49 [Source:RefSeq_peptide;Acc:NP_001033449]			
clec-85	Y54G2A.6	C-type LECtin family member (clec-85) [Source:RefSeq_peptide;Acc:NP_500262]			sugar binding, 
Y54G2A.16	Y54G2A.16	Y54G2A.16 [Source:RefSeq_peptide;Acc:NP_500263]			
Y54G2A.17	Y54G2A.17	Y54G2A.17a [Source:RefSeq_peptide;Acc:NP_500264]	pyridine nucleotide biosynthetic process, 		nicotinate phosphoribosyltransferase activity, 
Y54G2A.5	Y54G2A.5	Y54G2A.5a [Source:RefSeq_peptide;Acc:NP_001023505]	embryonic development ending in birth or egg hatching, 		
Y54G2A.18	Y54G2A.18	Y54G2A.18 [Source:RefSeq_peptide;Acc:NP_500267]	intracellular protein transport, apoptosis, 	integral to membrane, endoplasmic reticulum, 	
Y54G2A.19	Y54G2A.19	Y54G2A.19 [Source:RefSeq_peptide;Acc:NP_500268]			
Y54G2A.20	Y54G2A.20	Y54G2A.20 [Source:RefSeq_peptide;Acc:NP_500269]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y54G2A.36	Y54G2A.36	Y54G2A.36 [Source:RefSeq_peptide;Acc:NP_001023501]			
Y54G2A.21	Y54G2A.21	Y54G2A.21 [Source:RefSeq_peptide;Acc:NP_500270]			
Y54G2A.50	Y54G2A.50	Y54G2A.50 [Source:RefSeq_peptide;Acc:NP_001033450]			
Y54G2A.22	Y54G2A.22	Y54G2A.22 [Source:RefSeq_peptide;Acc:NP_500271]			
ubc-13	Y54G2A.31	UBiquitin Conjugating enzyme family member (ubc-13) [Source:RefSeq_peptide;Acc:NP_500272]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, 		small conjugating protein ligase activity, 
Y54G2A.23	Y54G2A.23	Y54G2A.23 is orthologous to the human gene ARGININE-RICH PROTEIN (ARMET. OMIM:601916), which has been found mutated in solid tumors of many different types, including pancreatic tumors. [Source: WormBase]		endoplasmic reticulum, 	nucleic acid binding, 
Y54G2A.4	Y54G2A.4	Y54G2A.4 [Source:RefSeq_peptide;Acc:NP_500274]			transporter activity, 
Y54G2A.24	Y54G2A.24	Y54G2A.24a [Source:RefSeq_peptide;Acc:NP_001023494]			hydrolase activity, 
Y54G2A.35	Y54G2A.35	Y54G2A.35 [Source:RefSeq_peptide;Acc:NP_741350]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, 
lad-2	Y54G2A.25	lad-2 encodes a member of the immunoglobulin superfamily that is orthologous to Drosophila Neuroglian and the vertebrate L1-type neural adhesion molecules. although the precise role of LAD-2 in C. elegans development and/or behavior is not yet known, by homology, LAD-2 is predicted to function as an integral membrane receptor that regulates axon guidance and tissue morphogenesis. a lad-2 transcriptional reporter fusion is expressed in the SMD, SAA, SDQ, ALN, and PLN neurons. [Source: WormBase]	pathogenesis, 		protein binding, 
Y54G2A.26	Y54G2A.26	Y54G2A.26a [Source:RefSeq_peptide;Acc:NP_001023499]			protein binding, 
Y54G2A.27	Y54G2A.27	Y54G2A.27 [Source:RefSeq_peptide;Acc:NP_500278]			
Y54G2A.28	Y54G2A.28	Y54G2A.28 [Source:RefSeq_peptide;Acc:NP_500279]			
Y54G2A.3	Y54G2A.3	Y54G2A.3 [Source:RefSeq_peptide;Acc:NP_500280]			
lin-22	Y54G2A.1	lin-22 encodes a basic helix-loop-helix (bHLH)-containing protein that is homologous to the Drosophila hairy/Enhancer of split transcriptional repressors. during postembryonic development, lin-22 activity is required for patterning of midbody epidermal and neuronal lineages. [Source: WormBase]	regulation of transcription, anterior/posterior pattern formation, 	nucleus, 	transcription regulator activity, 
Y54G2A.29	Y54G2A.29	Y54G2A.29 [Source:RefSeq_peptide;Acc:NP_500282]			
eel-1	Y67D8C.5	Y67D8C.5 [Source:RefSeq_peptide;Acc:NP_500284]	protein modification process, ubiquitin cycle, mRNA transport, embryonic development ending in birth or egg hatching, 	cytoplasm, intracellular, 	ubiquitin-protein ligase activity, 
Y67D8C.4	Y67D8C.4	Y67D8C.4 [Source:RefSeq_peptide;Acc:NP_500285]			
Y67D8C.3	Y67D8C.3	Y67D8C.3a [Source:RefSeq_peptide;Acc:NP_001023557]	ciliary or flagellar motility, biological_process, 	flagellin-based flagellum, 	motor activity, 
Y67D8C.6	Y67D8C.6	Y67D8C.6 [Source:RefSeq_peptide;Acc:NP_500287]			
Y67D8C.7	Y67D8C.7	Y67D8C.7 [Source:RefSeq_peptide;Acc:NP_500288]			
cpg-9	Y67D8C.8	cpg-9 encodes a small (69-residue), putatively secreted protein with 4 potential chondroitin attachment sites, 2 of them verified by mass spectrometry. CPG-9 has no obvious function in mass RNAi assays. [Source: WormBase]			
Y67D8C.2	Y67D8C.2	Y67D8C.2 [Source:RefSeq_peptide;Acc:NP_500290]			
Y67D8C.1	Y67D8C.1	Y67D8C.1 [Source:RefSeq_peptide;Acc:NP_500291]			
Y67D8C.9	Y67D8C.9	Y67D8C.9 [Source:RefSeq_peptide;Acc:NP_500292]			zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
mca-3	Y67D8C.10	mca-3 encodes one of three C. elegans plasma membrane Ca2+ ATPases (PMCAs). by homology, MCA-3 is predicted to function as a molecular pump that couples ATP hydrolysis to extrusion of cytosolic Ca2+. mca-3 activity is required for coelomoycte endocytosis, normal coordinated locomotion, and embryonic and larval development. in regulating endocytosis, MCA-3 is required specifically in the early stages for recruitment of the endocytic machinery to the plasma membrane. an mca-3::gfp reporter is expressed from embryogenesis through adulthood and seen in body wall muscle, the nervous system, intestine, and coelomocytes. in coelomocytes, an MCA-3::GFP fusion protein localizes to the plasma membrane. [Source: WormBase]	transport, metabolic process, endocytosis, calcium ion transport, cation transport, biological_process, 	membrane, 	ATP binding, catalytic activity, calcium ion binding, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, calcium-transporting ATPase activity, calcium ion transmembrane transporter activity, 
NR_000290.1	Y67D8C.12	Y67D8C.12, miscRNA [Source:RefSeq_dna;Acc:NR_000290]			
T23E1.2	T23E1.2	T23E1.2 [Source:RefSeq_peptide;Acc:NP_500295]	oviposition, 		
T23E1.3	T23E1.3	T23E1.3 [Source:RefSeq_peptide;Acc:NP_001023400]			
T23E1.1	T23E1.1	T23E1.1 [Source:RefSeq_peptide;Acc:NP_500296]			
Y67D8B.1	Y67D8B.1	Y67D8B.1 [Source:RefSeq_peptide;Acc:NP_500297]		intracellular, 	protein binding, zinc ion binding, 
Y67D8B.4	Y67D8B.4	Y67D8B.4 [Source:RefSeq_peptide;Acc:NP_500298]			
Y67D8B.2	Y67D8B.2	Y67D8B.2 [Source:RefSeq_peptide;Acc:NP_500299]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
NR_002670.1	Y67D8B.3	Y67D8B.3, miscRNA [Source:RefSeq_dna;Acc:NR_002670]			
Y67D8B.5	Y67D8B.5	Y67D8B.5 [Source:RefSeq_peptide;Acc:NP_741354]			
puf-4	M4.2	PUF (Pumilio/FBF) domain-containing family member (puf-4) [Source:RefSeq_peptide;Acc:NP_500301]			RNA binding, binding, 
M4.1	M4.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q8ITW1]			
Y67D8A.2	Y67D8A.2	Y67D8A.2a [Source:RefSeq_peptide;Acc:NP_741355]	translation, tRNA aminoacylation for protein translation, glycogen metabolic process, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, calmodulin binding, 
Y67D8A.1	Y67D8A.1	Y67D8A.1 is orthologous to the human gene PHOSPHORYLASE KINASE, BETA SUBUNIT (PHKB. OMIM:172490), which when mutated leads to glycogen storage disease. [Source: WormBase]	glycogen metabolic process, 		calmodulin binding, 
Y67D8A.3	Y67D8A.3	Y67D8A.3 [Source:RefSeq_peptide;Acc:NP_500305]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
T26C12.1	T26C12.1	T26C12.1 [Source:RefSeq_peptide;Acc:NP_500306]	embryonic development ending in birth or egg hatching, 		catalytic activity, magnesium ion binding, transferase activity, thiamin pyrophosphate binding, 
T26C12.2	T26C12.2	T26C12.2 [Source:RefSeq_peptide;Acc:NP_500307]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
T26C12.6	T26C12.6	T26C12.6 [Source:RefSeq_peptide;Acc:NP_001033434]			sugar binding, 
T26C12.3	T26C12.3	T26C12.3 [Source:RefSeq_peptide;Acc:NP_500308]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	protein binding, zinc ion binding, GTP binding, 
gcy-23	T26C12.4	gcy-23 encodes a receptor-type guanylyl cyclase that, along with gcy-8 and gcy-18, constitutes a subfamily of guanylyl cyclase genes in C. elegans. gcy-23 functions redundantly with gcy-8 and gcy-18, and upstream of tax-4, to regulate thermotaxis via the AFD thermosensory neurons, although of the three guanylyl cyclases required, genetic analyses suggest that GCY-18 is the primary guanylyl cyclase required. in addition, loss of gcy-23 activity via RNAi results in lifespan extension. GCY-23 is expressed exclusively in the AFD thermosensory neurons, where it localizes to sensory endings. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, blood coagulation, cyclic nucleotide biosynthetic process, thermosensory behavior, 	membrane, integral to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, metabotropic glutamate, GABA-B-like receptor activity, GABA-B receptor activity, 
W08E12.8	W08E12.8	W08E12.8 [Source:RefSeq_peptide;Acc:NP_500310]			protein binding, 
W08E12.7	W08E12.7	W08E12.7 [Source:RefSeq_peptide;Acc:NP_500311]	proteolysis, nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, metalloexopeptidase activity, 
W08E12.6	W08E12.6	W08E12.6 [Source:RefSeq_peptide;Acc:NP_500312]			
W08E12.5	W08E12.5	W08E12.4 [Source:RefSeq_peptide;Acc:NP_500314]	electron transport, 		electron carrier activity, 
W08E12.4	W08E12.4	W08E12.4 [Source:RefSeq_peptide;Acc:NP_500314]	electron transport, 		electron carrier activity, 
W08E12.3	W08E12.3	W08E12.3 [Source:RefSeq_peptide;Acc:NP_500315]	electron transport, 		electron carrier activity, 
W08E12.2	W08E12.2	W08E12.2 [Source:RefSeq_peptide;Acc:NP_500316]	electron transport, 		electron carrier activity, 
W08E12.9	W08E12.9	W08E12.9 [Source:RefSeq_peptide;Acc:NP_500317]			
W08E12.1	W08E12.1	W08E12.1 [Source:RefSeq_peptide;Acc:NP_500318]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
F42A6.3	F42A6.3				
cyp-25A5	F42A6.4	CYtochrome P450 family member (cyp-25A5) [Source:RefSeq_peptide;Acc:NP_500322]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F42A6.5	F42A6.5	F42A6.5 [Source:RefSeq_peptide;Acc:NP_500323]		intracellular, 	
F42A6.6	F42A6.6	F42A6.6 [Source:RefSeq_peptide;Acc:NP_500324]	embryonic development ending in birth or egg hatching, 		
hrp-1	F42A6.7	The hrp-1 gene encodes a homolog of the human DRPLA gene (OMIM:125370), which when mutated leads to dentatorubral-pallidoluysian atrophy or to Haw River syndrome (OMIM:140340). [Source: WormBase]	positive regulation of growth rate, protein homooligomerization, 	membrane, 	nucleotide binding, nucleic acid binding, 
fbxa-130	F42A6.8	F-box A protein family member (fbxa-130) [Source:RefSeq_peptide;Acc:NP_500327]	defecation, 		
F42A6.2	F42A6.2	F42A6.2 [Source:RefSeq_peptide;Acc:NP_500328]			
elks-1	F42A6.9	elks-1 encodes the C. elegans homolog of the vertebrate ELKS (glutamine, leucine, lysine, and serine-rich) proteins. although loss of elks-1 activity results in no obvious developmental or behavioral abnormalities, the ELKS-1 C-terminus interacts with the PDZ domain of UNC-10/RIM in vitro, and in vivo each protein appears to play a nonessential role in localizing the other to the presynaptic active zone. in addition to the active zone, ELKS-1 also localizes to the pharyngeal basal lamina. [Source: WormBase]	protein localization, 		protein binding, 
F42A6.1	F42A6.1	F42A6.1 [Source:RefSeq_peptide;Acc:NP_500330]			
Y55H10A.2	Y55H10A.2	Y55H10A.2 [Source:RefSeq_peptide;Acc:NP_500331]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
vha-19	Y55H10A.1	vha-19 encodes an ortholog of subunit Ac45 of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-19 is a predicted V-ATPase transmembrane rotor component. Ac45 is a nonhomologous replacement for subunit c', which is found in fungi but not in animals. conversely, orthologs of Ac45 are only found in animals. VHA-19 is predicted to help carry protons from the cytosol to a-subunits (VHA-5, VHA-6, VHA-7, or UNC-32) for transmembrane export. [Source: WormBase]	ATP synthesis coupled proton transport, biological_process, 	integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
B0546.2	B0546.2	B0546.2 [Source:RefSeq_peptide;Acc:NP_500333]			
B0546.3	B0546.3	B0546.3 [Source:RefSeq_peptide;Acc:NP_500334]			
B0546.4	B0546.4	Protein yippee-like B0546.4. [Source:Uniprot/SWISSPROT;Acc:O44440]			
mai-2	B0546.1	mai-2/B0546.1 is orthologous to mitochondrial intrinsic ATPase inhibitor protein (IF(1)), which blocks reverse action (ATP hydrolysis) by F(0)F(1)-ATPase when its (normally required) proton gradient is lost. MAI-2 has a mitochondrial import signal at its N-terminus, and is transported to yeast mitochondria. MAI-2 can inhibit yeast F(0)F(1)-ATPase, and this inhibition is pH-dependent. MAI-2's tertiary structure is dominated by beta-strands and random loops. [Source: WormBase]	immune response, negative regulation of nucleotide metabolic process, 	membrane, mitochondrion, 	tumor necrosis factor receptor binding, enzyme inhibitor activity, 
B0546.5	B0546.5	B0546.5 [Source:RefSeq_peptide;Acc:NP_500337]			
C04C3.4	C04C3.4	C04C3.4 [Source:RefSeq_peptide;Acc:NP_500338]	embryonic development ending in birth or egg hatching, 		
dyf-3	C04C3.5	dyf-3 encodes an ortholog of zebrafish cluap1 (also qilin, and like PKD2 required to suppress kidney cysts) and human clusterin-associated protein 1 (CLUAP1). DYF-3 is predicted to have two coiled-coil domains. DYF-3 is required for normal assembly of middle and distal ciliary segments, with dyf-3 mutants showing truncated sensory cilia. DYF-3 is required cell-autonomously for dye uptake. dyf-3 is expressed in amphid, phasmid, and IL2 sensory neurons. dyf-3 expression requires DAF-19. [Source: WormBase]			protein binding, 
C04C3.3	C04C3.3	Pyruvate dehydrogenase E1 component subunit beta, mitochondrial precursor (EC 1.2.4.1). [Source:Uniprot/SWISSPROT;Acc:O44451]	positive regulation of growth rate, 		protein binding, 1-deoxy-D-xylulose-5-phosphate synthase activity, 
lgc-9	C04C3.2	C04C3.2 [Source:RefSeq_peptide;Acc:NP_500341]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, protein binding, 
C04C3.6	C04C3.6	C04C3.6 [Source:RefSeq_peptide;Acc:NP_500342]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-60	C04C3.1	Serpentine Receptor, class Z family member (srz-60) [Source:RefSeq_peptide;Acc:NP_500343]			
C04C3.7	C04C3.7	C04C3.7 [Source:RefSeq_peptide;Acc:NP_500344]			
srz-32	W05E7.2	Serpentine Receptor, class Z family member (srz-32) [Source:RefSeq_peptide;Acc:NP_500345]		membrane, 	transmembrane receptor activity, 
grd-13	W05E7.3	grd-13 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. GRD-13 is expressed in posterior intestine and seam cells. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-13 is required for normal growth to full size, locomotion, and vulval morphogenesis. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
grd-3	W05E7.1	grd-3 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. GRD-3 is expressed in adult anterior and posterior seam cells, overlapping GRD-5 expression. GRD-3 is also strongly expressed upon infection with the gram-negative bacterium Serratia marcescens, indicating that GRD-3 may be part of C. elegans' innate immunity response. the Ground domain is predicted to form a cysteine-crosslinked protein acting as an intercellular signal, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-3 is weakly required for normal molting. GRD-3 is also required for normal growth to full size and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
grd-10	F09D12.1	grd-10 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. GRD-10 is expressed in seam cells. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-10 is weakly required for normal molting. GRD-10 is also required for normal growth to full size and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
F09D12.2	F09D12.2	F09D12.2 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F09D12.2 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F58E2.5	F58E2.5	F58E2.5 [Source:RefSeq_peptide;Acc:NP_500349]		extracellular region, 	
F58E2.6	F58E2.6				
srz-23	F58E2.9	Serpentine Receptor, class Z family member (srz-23) [Source:RefSeq_peptide;Acc:NP_500350]	embryonic development ending in birth or egg hatching, 		
srz-88	F58E2.7				
srz-22	F58E2.10				
F58E2.8	F58E2.8				
F58E2.4	F58E2.4	F58E2.4 [Source:RefSeq_peptide;Acc:NP_500352]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
F58E2.3	F58E2.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F58E2.2	F58E2.2	F58E2.2 [Source:RefSeq_peptide;Acc:NP_500354]			
F58E2.1	F58E2.1				
srz-69	C09G12.15				
srz-70	C09G12.6	Serpentine Receptor, class Z family member (srz-70) [Source:RefSeq_peptide;Acc:NP_500355]			
C09G12.5	C09G12.5	C09G12.5 [Source:RefSeq_peptide;Acc:NP_500356]			
srz-37	C09G12.16	Serpentine Receptor, class Z family member (srz-37) [Source:RefSeq_peptide;Acc:NP_001021316]			
srz-55	C09G12.14				
srz-82	C09G12.11	Serpentine Receptor, class Z family member (srz-82) [Source:RefSeq_peptide;Acc:NP_001021315]			
srz-81	C09G12.13				
srz-77	C09G12.4				
srz-80	C09G12.12				
srz-78	C09G12.3	Serpentine Receptor, class Z family member (srz-78) [Source:RefSeq_peptide;Acc:NP_500358]			
srz-79	C09G12.2	Serpentine Receptor, class Z family member (srz-79) [Source:RefSeq_peptide;Acc:NP_500359]			
C09G12.17	C09G12.17	C09G12.17 [Source:RefSeq_peptide;Acc:NP_001033393]			
C09G12.t1	C09G12.t1				
C09G12.1	C09G12.1	C09G12.1 encodes a paired-like homeodomain protein of the K50 class, which has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
srz-83	C09G12.10	Serpentine Receptor, class Z family member (srz-83) [Source:RefSeq_peptide;Acc:NP_001021314]			
ced-10	C09G12.8	ced-10 encodes a GTPase orthologous to human RAC1 (OMIM:602048) that is required for phagocytosis during programmed cell death and for migration of the distal tip cells of the somatic gonad. CED-10 functions in the engulfing cell during apoptosis, and is activated by a complex of CED-2(CrkII) and CED-5(DOCK180) to promote formation of the polarized cell extensions associated with cell corpse engulfment. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, potassium ion transport, regulation of cell migration, cell migration, regulation of phagocytosis, 	integral to membrane, intracellular, 	protein binding, GTP binding, GTPase activity, cation transmembrane transporter activity, 
C09G12.9	C09G12.9	C09G12.9 is orthologous to the human gene TUMOR SUSCEPTIBILITY GENE 101 (TSG101. OMIM:601387), which when mutated leads to disease. [Source: WormBase]	protein transport, protein modification process, ubiquitin cycle, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	small conjugating protein ligase activity, histamine receptor activity, 
unc-33	Y37E11C.1	unc-33 encodes a conserved member of the CRMP/TOAD/Ulip/DRP family of proteins that includes mammalian CRMP-2 (Collapsin response mediator protein-2), which is essential for axon guidance and axonogenesis. in C. elegans, unc-33 activity is required for several biological processes including outgrowth and guidance of sensory, motor, and interneurons, sex myoblast migration, normal body movement and morphology, egg laying, and defecation. by homology to CRMP-2, UNC-33 is predicted to bind tubulin heterodimers and promote microtubule assembly, thereby regulating the extension and branching of cellular projections during neuronal polarization. UNC-33 is reportedly expressed exclusively in axonal processes from after early embryogenesis through larval and adult stages. [Source: WormBase]		cytoplasm, 	hydrolase activity, 
M57.t1	M57.t1				
M57.2	M57.2	M57.2 [Source:RefSeq_peptide;Acc:NP_500367]	protein amino acid prenylation, embryonic development ending in birth or egg hatching, 		protein binding, protein prenyltransferase activity, 
M57.1	M57.1	M57.1 [Source:RefSeq_peptide;Acc:NP_500368]			
B0212.3	B0212.3	B0212.3 [Source:RefSeq_peptide;Acc:NP_500369]			protein binding, 
B0212.4	B0212.4	B0212.4c [Source:RefSeq_peptide;Acc:NP_001021263]	carbohydrate transport, nucleotide-sugar transport, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
osm-9	B0212.5	The osm-9 gene encodes a capsaicin receptor homolog involved in sensory responses to a subset of chemical stimuli and to ASH neuron-mediated osmotic and mechanical stimuli. OSM-9 is also involved in adaptation to volatile odorants and salts. [Source: WormBase]	ion transport, olfactory learning, sensory perception of smell, 	membrane, integral to membrane, 	ion channel activity, 
B0212.t1	B0212.t1				
sre-5	B0212.2	Serpentine Receptor, class E (epsilon) family member (sre-5) [Source:RefSeq_peptide;Acc:NP_500373]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
B0212.6	B0212.6	B0212.6 encodes a novel, 179 amino acid protein that shows some conservation amongst other nematodes. [Source: WormBase]			
B0212.1	B0212.1	B0212.1 [Source:RefSeq_peptide;Acc:NP_500374]			
Y37E11B.2	Y37E11B.2	Y37E11B.2 [Source:RefSeq_peptide;Acc:NP_500375]			
Y37E11B.1	Y37E11B.1	Y37E11B.1a [Source:RefSeq_peptide;Acc:NP_001023440]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
Y37E11B.3	Y37E11B.3	Y37E11B.3 [Source:RefSeq_peptide;Acc:NP_500377]			
taf-2	Y37E11B.4	taf-2 encodes a member of the peptidase M1 family, a predicted aminopeptidase with similarity to human TBP-associated factor 2. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
Y37E11B.t1	Y37E11B.t1				
Y37E11B.t2	Y37E11B.t2				
Y37E11B.5	Y37E11B.5	Y37E11B.5 [Source:RefSeq_peptide;Acc:NP_500379]	tRNA processing, 		zinc ion binding, oxidoreductase activity, nucleic acid binding, catalytic activity, FAD binding, 
Y37E11B.6	Y37E11B.6	Y37E11B.6 encodes an ortholog of Rpp21 (Rpr2), a protein subunit of the endoribonuclease RNAse P, which cleaves tRNA precursors to produce their mature 5' end. [Source: WormBase]			
Y37E11B.7	Y37E11B.7	Y37E11B.7 [Source:RefSeq_peptide;Acc:NP_500381]			
Y37E11B.9	Y37E11B.9	Y37E11B.9 [Source:RefSeq_peptide;Acc:NP_500382]			
Y37E11B.10	Y37E11B.10	Y37E11B.10b [Source:RefSeq_peptide;Acc:NP_001023443]			
kgb-2	ZC416.4	Kinase, GLH-Binding family member (kgb-2) [Source:RefSeq_peptide;Acc:NP_500384]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
ZC416.6	ZC416.6	ZC416.6 [Source:RefSeq_peptide;Acc:NP_500385]	proteolysis, leukotriene biosynthetic process, 		zinc ion binding, metallopeptidase activity, actin binding, membrane alanyl aminopeptidase activity, 
cha-1	ZC416.8	unc-17 encodes a synaptic vesicle acetylcholine transporter (VAChT) highly conserved amongst metazoans including Drosophila and humans (OMIM:600336). UNC-17 is essential for embryonic development, and is required in cholinergic neurons for loading acetylcholine into synaptic vesicles to which UNC-17 is localized. UNC-17 expression may be regulated indirectly by the UNC-4/UNC-37 transcriptional repressor complex, as UNC-17 expression is greatly reduced in unc-4 and unc-37 mutant backgrounds. [Source: WormBase]	transport, drug transport, regulation of locomotion, regulation of pharyngeal pumping, regulation of muscle contraction, acetylcholine transport, 	integral to membrane, integral to plasma membrane, 	transporter activity, drug transporter activity, acyltransferase activity, acetylcholine transmembrane transporter activity, 
ZC416.2	ZC416.2	ZC416.2 [Source:RefSeq_peptide;Acc:NP_500388]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZC416.1	ZC416.1	ZC416.1 [Source:RefSeq_peptide;Acc:NP_500389]			
CC8.1	CC8.1	CC8.1 [Source:RefSeq_peptide;Acc:NP_500390]	homoiothermy, response to freezing, 		protein binding, ice binding, 
CC8.2	CC8.2	CC8.2b [Source:RefSeq_peptide;Acc:NP_500391]			
Y37E11AL.5	Y37E11AL.5	Y37E11AL.5 [Source:RefSeq_peptide;Acc:NP_500393]	neuropeptide signaling pathway, 	membrane, 	
Y37E11AL.4	Y37E11AL.4	Y37E11AL.4 [Source:RefSeq_peptide;Acc:NP_500394]			
Y37E11AL.6	Y37E11AL.6	Y37E11AL.6 encodes a predicted secreted protein with two cadherin domains and a C-terminal EGF-like domain. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	calcium ion binding, 
Y37E11AL.t1	Y37E11AL.t1				
map-1	Y37E11AL.7	Methionine AminoPeptidase family member (map-1) [Source:RefSeq_peptide;Acc:NP_500396]	proteolysis, 		metalloexopeptidase activity, methionyl aminopeptidase activity, 
taf-6.2	Y37E11AL.8	TAF (TBP-associated transcription factor) family member (taf-6.2) [Source:RefSeq_peptide;Acc:NP_500397]	gamete generation, 		
Y37E11AL.3	Y37E11AL.3	Y37E11AL.3a [Source:RefSeq_peptide;Acc:NP_001023436]			
Y37E11AL.2	Y37E11AL.2	Y37E11AL.2 [Source:RefSeq_peptide;Acc:NP_500399]			
Y37E11AL.9	Y37E11AL.9	Y37E11AL.9 [Source:RefSeq_peptide;Acc:NP_500400]			
Y37E11AL.1	Y37E11AL.1	Y37E11AL.1 [Source:RefSeq_peptide;Acc:NP_500401]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y37E11AM.3	Y37E11AM.3	Y37E11AM.3 encodes an ortholog of Rpp14, a protein subunit of the endoribonuclease RNAse P, which cleaves tRNA precursors to produce their mature 5' end. [Source: WormBase]			
Y37E11AM.2	Y37E11AM.2	Y37E11AM.2 [Source:RefSeq_peptide;Acc:NP_500404]			
smgl-2	Y37E11AM.1	The Y37E11AM.1 gene encodes a DEAH helicase orthologous to the Drosophila CG12211 protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, 
Y37E11AR.3	Y37E11AR.3	Y37E11AR.3a [Source:RefSeq_peptide;Acc:NP_500407]			
Y37E11AR.4	Y37E11AR.4	Y37E11AR.4 [Source:RefSeq_peptide;Acc:NP_500408]			
siah-1	Y37E11AR.2	Y37E11AR.2 [Source:RefSeq_peptide;Acc:NP_500409]	multicellular organismal development, ubiquitin-dependent protein catabolic process, 	nucleus, 	protein binding, zinc ion binding, 
ugt-45	Y37E11AR.5	UDP-GlucuronosylTransferase family member (ugt-45) [Source:RefSeq_peptide;Acc:NP_500410]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
Y37E11AR.7	Y37E11AR.7	Y37E11AR.7 [Source:RefSeq_peptide;Acc:NP_001023439]			
Y37E11AR.1	Y37E11AR.1	Y37E11AR.1 [Source:RefSeq_peptide;Acc:NP_500411]			
vab-2	Y37E11AR.6	The vab-2 gene encodes an ephrin molecule related to human ephrin B2 (OMIM:600527). VAB-2, expressed primarily in neuronal cells, is a ligand for the VAB-1 ephrin receptor and plays a role in embryonic cell movements, epidermal morphogenesis during later embryogenesis, and oocyte maturation. VAB-2 synergizes with PTP-3, a LAR-like receptor tyrosine phosphatase, to regulate morphogenesis. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 	membrane, 	
W07G9.2	W07G9.2	W07G9.2 [Source:RefSeq_peptide;Acc:NP_001040998]		membrane, 	galactosylgalactosylxylosylprotein 3-beta-glucuronosyltransferase activity, 
K09B3.1	K09B3.1	K09B3.1 [Source:RefSeq_peptide;Acc:NP_500415]			
osm-3	M02B7.3	osm-3 encodes a homolog of the heavy chain subunit of heteromeric anterograde motor kinesins. OSM-3 is required for formation of the distal segment of amphid channel cilia, for responses to osmotic stimuli, for normal dauer formation, and for sensitivity to caffeine. [Source: WormBase]	microtubule-based movement, DNA topological change, DNA unwinding during replication, regulation of insulin receptor signaling pathway, 	microtubule, microtubule associated complex, chromosome, 	ATP binding, GTP binding, DNA binding, structural molecule activity, microtubule motor activity, DNA topoisomerase type I activity, 
M02B7.4	M02B7.4	M02B7.4 [Source:RefSeq_peptide;Acc:NP_500417]			
M02B7.2	M02B7.2	M02B7.2 [Source:RefSeq_peptide;Acc:NP_500418]		intracellular, 	exonuclease activity, 
M02B7.1	M02B7.1	M02B7.1 [Source:RefSeq_peptide;Acc:NP_500419]			
M02B7.7	M02B7.7	M02B7.7 [Source:RefSeq_peptide;Acc:NP_001040976]			
M02B7.5	M02B7.5	M02B7.5 [Source:RefSeq_peptide;Acc:NP_500420]	regulation of ARF protein signal transduction, 	intracellular, 	ARF guanyl-nucleotide exchange factor activity, 
cal-3	M02B7.6	cal-3 encodes a member of the calmodulin family. [Source: WormBase]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
F28F9.3	F28F9.3	F28F9.3 [Source:RefSeq_peptide;Acc:NP_500422]			
F28F9.2	F28F9.2	F28F9.2 [Source:RefSeq_peptide;Acc:NP_500423]			
zag-1	F28F9.1	zag-1 encodes a homeodomain protein of the ZFH class which consists of a homeodomain flanked by two clusters of C2H2-type zinc fingers and is related to transcriptional repressors encoded by Drosophila zfh-1 and the vertebrate ZEB genes. ZAG-1 is required for locomotion, for neuronal differentiation, and for proper axonal branching and fasciculation. from late embryogenesis through adult stages of development, ZAG-1 is expressed dynamically in head and tail neurons and in the intestinal and anal depressor muscles. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of transcription, positive regulation of axon extension, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, 
aat-8	F28F9.4	aat-8 encodes a predicted amino acid transporter catalytic subunit. unlike catalytic subunits in other organisms, however, AAT-8 does not contain the highly conserved cysteine residue known to facilitate covalent interaction with a glycoprotein subunit, suggesting that AAT-8 does not require this residue for heterodimer formation or alternatively, does not require the glycoprotein subunit for function. [Source: WormBase]	amino acid transport, transport, dicarboxylic acid transport, 	membrane, 	amino acid transmembrane transporter activity, sodium:dicarboxylate symporter activity, 
F37C4.4	F37C4.4	F37C4.4a [Source:RefSeq_peptide;Acc:NP_741363]	signal transduction, embryonic development ending in birth or egg hatching, 		signal transducer activity, 
F37C4.5	F37C4.5	Protein F37C4.5. [Source:Uniprot/SWISSPROT;Acc:O44400]			protein binding, 
F37C4.6	F37C4.6	F37C4.6 [Source:RefSeq_peptide;Acc:NP_500428]	electron transport, 		oxidoreductase activity, 
F37C4.7	F37C4.7	F37C4.7 [Source:RefSeq_peptide;Acc:NP_500429]			
F37C4.8	F37C4.8	F37C4.8 [Source:RefSeq_peptide;Acc:NP_500430]			
F37C4.3	F37C4.3	F37C4.3 [Source:RefSeq_peptide;Acc:NP_500431]			transferase activity, transferring groups other than amino-acyl groups, 
F37C4.2	F37C4.2	F37C4.2 [Source:RefSeq_peptide;Acc:NP_500432]			nucleic acid binding, transferase activity, transferring groups other than amino-acyl groups, pancreatic ribonuclease activity, 
F37C4.1	F37C4.1	F37C4.1 [Source:RefSeq_peptide;Acc:NP_500433]			nucleic acid binding, transferase activity, transferring groups other than amino-acyl groups, pancreatic ribonuclease activity, 
F56D6.9	F56D6.9	F56D6.9 [Source:RefSeq_peptide;Acc:NP_001033418]	protein secretion, 	integral to membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
F56D6.8	F56D6.8	F56D6.8 [Source:RefSeq_peptide;Acc:NP_001023235]			
F56D6.10	F56D6.10	F56D6.10 [Source:RefSeq_peptide;Acc:NP_001033412]			
srz-62	F56D6.7	Serpentine Receptor, class Z family member (srz-62) [Source:RefSeq_peptide;Acc:NP_001023234]			
F56D6.6	F56D6.6	F56D6.6 [Source:RefSeq_peptide;Acc:NP_500434]			
F56D6.11	F56D6.11	F56D6.11 [Source:RefSeq_peptide;Acc:NP_001033413]			
F56D6.12	F56D6.12	F56D6.12 [Source:RefSeq_peptide;Acc:NP_001033414]			
F56D6.13	F56D6.13	F56D6.13 [Source:RefSeq_peptide;Acc:NP_001033415]			
srz-20	F56D6.5	Serpentine Receptor, class Z family member (srz-20) [Source:RefSeq_peptide;Acc:NP_500435]	transport, response to antibiotic, tetracycline transport, 	membrane, integral to membrane, 	tetracycline:hydrogen antiporter activity, hydrogen:sugar symporter activity, 
F56D6.14	F56D6.14	F56D6.14 [Source:RefSeq_peptide;Acc:NP_001033416]			
srz-19	F56D6.4	Serpentine Receptor, class Z family member (srz-19) [Source:RefSeq_peptide;Acc:NP_500436]			
clec-67	F56D6.2	C-type LECtin family member (clec-67) [Source:RefSeq_peptide;Acc:NP_500437]			sugar binding, 
clec-68	F56D6.1	C-type LECtin family member (clec-68) [Source:RefSeq_peptide;Acc:NP_500438]			sugar binding, 
clec-69	F56D6.15	C-type LECtin family member (clec-69) [Source:RefSeq_peptide;Acc:NP_001033417]			sugar binding, 
clec-70	Y46C8AL.3	C-type LECtin family member (clec-70) [Source:RefSeq_peptide;Acc:NP_500439]			sugar binding, 
clec-71	Y46C8AL.4	C-type LECtin family member (clec-71) [Source:RefSeq_peptide;Acc:NP_500440]			sugar binding, 
Y46C8AL.2	Y46C8AL.2	Y46C8AL.2 [Source:RefSeq_peptide;Acc:NP_500441]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, sugar binding, 
clec-72	Y46C8AL.5	C-type LECtin family member (clec-72) [Source:RefSeq_peptide;Acc:NP_500442]			sugar binding, 
clec-73	Y46C8AL.1	C-type LECtin family member (clec-73) [Source:RefSeq_peptide;Acc:NP_500445]	cell adhesion, 		protein binding, sugar binding, hyaluronic acid binding, 
clec-74	Y46C8AL.8	C-type LECtin family member (clec-74) [Source:RefSeq_peptide;Acc:NP_500446]			sugar binding, 
clec-75	Y46C8AL.9	C-type LECtin family member (clec-75) [Source:RefSeq_peptide;Acc:NP_001023475]			sugar binding, 
clec-76	Y46C8AR.1	C-type LECtin family member (clec-76) [Source:RefSeq_peptide;Acc:NP_500449]			sugar binding, 
clec-77	Y46C8AR.3	C-type LECtin family member (clec-77) [Source:RefSeq_peptide;Acc:NP_001023476]			sugar binding, 
clec-79	F47C12.4	C-type LECtin family member (clec-79) [Source:RefSeq_peptide;Acc:NP_500450]	cell adhesion, 		sugar binding, hyaluronic acid binding, 
srh-220	F47C12.5	Serpentine Receptor, class H family member (srh-220) [Source:RefSeq_peptide;Acc:NP_500451]			
srh-222	F47C12.10	Serpentine Receptor, class H family member (srh-222) [Source:RefSeq_peptide;Acc:NP_500452]			
srh-223	F47C12.3	Serpentine Receptor, class H family member (srh-223) [Source:RefSeq_peptide;Acc:NP_500453]			
clec-78	F47C12.2	C-type LECtin family member (clec-78) [Source:RefSeq_peptide;Acc:NP_500454]			sugar binding, 
F47C12.6	F47C12.6	F47C12.6 [Source:RefSeq_peptide;Acc:NP_500455]			
F47C12.11	F47C12.11	F47C12.11 [Source:RefSeq_peptide;Acc:NP_001040946]			
F47C12.7	F47C12.7	F47C12.7 [Source:RefSeq_peptide;Acc:NP_500456]			
F47C12.8	F47C12.8	F47C12.8 [Source:RefSeq_peptide;Acc:NP_500457]			
F47C12.1	F47C12.1	F47C12.1 [Source:RefSeq_peptide;Acc:NP_500458]	cell adhesion, 		calcium ion binding, 
W02C12.2	W02C12.2	W02C12.2 [Source:RefSeq_peptide;Acc:NP_500459]			
W02C12.1	W02C12.1	W02C12.1 [Source:RefSeq_peptide;Acc:NP_500460]			calcium ion binding, 
hlh-30	W02C12.3	W02C12.3 is orthologous to the human gene TRANSCRIPTION FACTOR BINDING TO IGHM ENHANCER 3 (TFE3. OMIM:314310), which when mutated leads to disease [Source: WormBase]	regulation of transcription, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	transcription regulator activity, lysosphingolipid and lysophosphatidic acid receptor activity, 
F35F11.3	F35F11.3	F35F11.3 [Source:RefSeq_peptide;Acc:NP_500463]			
F35F11.2	F35F11.2	F35F11.2 [Source:RefSeq_peptide;Acc:NP_500464]			
F35F11.1	F35F11.1	F35F11.1 [Source:RefSeq_peptide;Acc:NP_500465]	embryonic development ending in birth or egg hatching, 		
pcn-1	W03D2.4	pcn-1 encodes the C. elegans ortholog of proliferating cell nuclear antigen (PCNA), an acidic protein that is an essential component of the DNA replication and repair machinery and serves as a processivity factor for DNA polymerase delta. PCN-1 is required for early embryogenesis and for proper germ-line development, and directly interacts with CKI-2, a cyclin-dependent kinase inhibitor homolog that may be required for cell cycle progression during embryogenesis, and with ATL-1/PI3K, KIN-20, MRT-2/RAD1, and RFC-1, proteins that all play a role in the DNA damage checkpoint pathway. PCN-1 is highly expressed in ovaries and developing embryos. [Source: WormBase]	regulation of DNA replication, embryonic development ending in birth or egg hatching, 	PCNA complex, 	protein binding, DNA binding, DNA polymerase processivity factor activity, 
wrt-5	W03D2.5	wrt-5 encodes a secreted protein with an N-terminal signal sequence and a C-terminal Wart domain. WRT-5 is required for hypodermal integrity. wrt-5 mutants have cold-sensitive lethality with abnormally located adherens junctions, and with defective cuticle structure, adhesion, and molting. by alternative splicing, wrt-5 also encodes a shorter protein. WRT-5 is expressed in seam cells and the excretory cell from the beginning of embryonic morphogenesis to the adult stage, in the six cells of the pharyngeal-intestinal valve and rectal valve in larvae and adults, in the gonadal sheath cells, spermathecal sheath cells, and uterus in adults, and in amphid and phasmid sheath, and interneurons PVT, PVQL, and PVQR. pharyngeal WRT-5 expression cycles in parallel with molting. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-5 is a paralog of WRT-3, which may enable the conditional viability of wrt-5 mutants. all of WRT-5's functions in vivo may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
W03D2.6	W03D2.6	W03D2.6 [Source:RefSeq_peptide;Acc:NP_500469]			
W03D2.7	W03D2.7	W03D2.7 [Source:RefSeq_peptide;Acc:NP_500470]			
str-122	W03D2.10	Seven TM Receptor family member (str-122) [Source:RefSeq_peptide;Acc:NP_500472]			
fbxb-55	W03D2.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
pqn-75	W03D2.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, extracellular region, chromatin, 	DNA binding, hormone activity, rhodopsin-like receptor activity, 
W03D2.9	W03D2.9	W03D2.9 [Source:RefSeq_peptide;Acc:NP_500475]		membrane, 	
C35B1.8	C35B1.8	C35B1.8 [Source:RefSeq_peptide;Acc:NP_001023047]			
C35B1.4	C35B1.4	C35B1.4 [Source:RefSeq_peptide;Acc:NP_500476]			
C35B1.3	C35B1.3	C35B1.3 [Source:RefSeq_peptide;Acc:NP_500477]			
C35B1.5	C35B1.5	C35B1.5 [Source:RefSeq_peptide;Acc:NP_500478]	cell redox homeostasis, 		oxidoreductase activity, antioxidant activity, 
C35B1.2	C35B1.2	C35B1.2 [Source:RefSeq_peptide;Acc:NP_001040920]			
ubc-1	C35B1.1	ubc-1 encodes an E2 ubiquitin-conjugating enzyme that contains a novel 40 amino acid C-terminal tail, and is homologous to Saccharomyces cerevisiae RAD6/UBC2 which is involved in DNA repair. although loss of UBC-1 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, UBC-1 is able to complement the DNA repair defects of a Saccharomyces cerevisiae rad6 null mutant, suggesting that UBC-1 can function in the DNA repair pathway. ubc-1 mRNA is detectable in embryos. [Source: WormBase]	protein modification process, ubiquitin cycle, biological_process, 		protein binding, small conjugating protein ligase activity, 
C35B1.t1	C35B1.t1				
C35B1.7	C35B1.7	C35B1.7 [Source:RefSeq_peptide;Acc:NP_500482]			
F49F1.14	F49F1.14	F49F1.14 [Source:RefSeq_peptide;Acc:NP_001033410]			
F49F1.3	F49F1.3	F49F1.3 [Source:RefSeq_peptide;Acc:NP_500483]			
F49F1.1	F49F1.1	F49F1.1 [Source:RefSeq_peptide;Acc:NP_500485]			
F49F1.5	F49F1.5	F49F1.5 [Source:RefSeq_peptide;Acc:NP_500486]			
F49F1.6	F49F1.6	F49F1.6 [Source:RefSeq_peptide;Acc:NP_500487]			
F49F1.7	F49F1.7	F49F1.7 [Source:RefSeq_peptide;Acc:NP_500488]			
F49F1.8	F49F1.8	F49F1.8 [Source:RefSeq_peptide;Acc:NP_500489]			zinc ion binding, nucleic acid binding, 
F49F1.9	F49F1.9	F49F1.9 [Source:RefSeq_peptide;Acc:NP_500490]			sugar binding, 
F49F1.10	F49F1.10	F49F1.10 [Source:RefSeq_peptide;Acc:NP_500491]			sugar binding, 
F49F1.11	F49F1.11	F49F1.11 [Source:RefSeq_peptide;Acc:NP_500492]			sugar binding, 
F49F1.12	F49F1.12	F49F1.12 [Source:RefSeq_peptide;Acc:NP_500493]			
F49F1.13	F49F1.13				
R07C12.3	R07C12.3	R07C12.3 [Source:RefSeq_peptide;Acc:NP_500494]			
R07C12.2	R07C12.2	R07C12.2 [Source:RefSeq_peptide;Acc:NP_500495]			
R07C12.4	R07C12.4	R07C12.4 [Source:RefSeq_peptide;Acc:NP_500496]			
R07C12.1	R07C12.1	R07C12.1 [Source:RefSeq_peptide;Acc:NP_500497]			
K08D10.10	K08D10.10	K08D10.10 [Source:RefSeq_peptide;Acc:NP_500498]			
K08D10.9	K08D10.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q21317]			
scrm-5	K08D10.8	scrm-5 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). scrm-5(RNAi) animals have no obvious phenotype. [Source: WormBase]			protein binding, 
scrm-8	K08D10.7	scrm-8 encodes a putative phospholipid scramblase required for normally short lifespan. SCRM-8 is homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). [Source: WormBase]			protein binding, 
K08D10.5	K08D10.5	K08D10.5 [Source:RefSeq_peptide;Acc:NP_500503]			
rnp-2	K08D10.4	rnp-2 encodes the small nuclear ribonucleoprotein (snRNP)-associated protein RNP-2/U1A, which associates with U1 snRNPs. rnp-2 is coexpressed with rnp-3, dnj-15, and K08D10.12 in an operon. RNP-2 and RNP-3 are paralogs with ~50% identity that are more closely related to one another than to non-nematode orthologs. despite their association with distinct snRNPs, RNP-2 and RNP-3 are functionally interchangeable in vivo. either rnp-2(RNAi) or rnp-3(ok1424) animals are viable, with only rpn-2(RNAi) rpn-3(ok1424) animals showing lethality. moreover, RNAi against only RNP-3 causes RNP-2 to associate with RNP-3's normal U2 snRNP partners. [Source: WormBase]			nucleotide binding, nucleic acid binding, 
rnp-3	K08D10.3	rnp-3 encodes the small nuclear ribonucleoprotein (snRNP)-associated protein RNP-3/U2B [Source: WormBase]	growth, 		nucleotide binding, nucleic acid binding, 
dnj-15	K08D10.2	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	DNA repair, protein folding, 		heat shock protein binding, protein binding, chaperone binding, 
K08D10.12	K08D10.12	K08D10.12 encodes a putative tRNA 3'-site splicing endonuclease subunit, orthologous to human TSEN34 and budding yeast SEN34. K08D10.12 is coexpressed (as is DNJ-15) with the paralogous small nuclear ribonucleoprotein (snRNP)-associated proteins RNP-2/U1A and RNP-3/U2B [Source: WormBase]	tRNA splicing, 	tRNA-intron endonuclease complex, 	tRNA-intron endonuclease activity, 
K08D10.1	K08D10.1	K08D10.1 [Source:RefSeq_peptide;Acc:NP_500507]	biological_process, 	cellular_component, 	molecular_function, 
K08D10.11	K08D10.11	K08D10.11 [Source:RefSeq_peptide;Acc:NP_500508]			
K06B9.2	K06B9.2	K06B9.2 encodes a putative UDP-N-acetylglucosamine pyrophosphorylase, paralogous to C36A4.4 and orthologous to human UAP1 (OMIM:602862) and UAP1L1. K06B9.2 is thought to catalyse the fourth step of the hexosamine pathway to UDP-N-acetylglucosamine or UDP-N-acetylgalactosamine. K06B9.2 transcripts are enriched during oogenesis. K06B9.2(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, presumably because of defects in chitin and eggshell synthesis. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 		nucleotidyltransferase activity, 
K06B9.4	K06B9.4	K06B9.4 [Source:RefSeq_peptide;Acc:NP_500510]	chromosome segregation, 		
K06B9.6	K06B9.6	K06B9.6 [Source:RefSeq_peptide;Acc:NP_001033422]			
cyp-25A6	K06B9.1	CYtochrome P450 family member (cyp-25A6) [Source:RefSeq_peptide;Acc:NP_500512]	electron transport, 	membrane, 	iron ion binding, monooxygenase activity, heme binding, 
pax-2	K06B9.5	PAX (Paired box) transcription factor family member (pax-2) [Source:RefSeq_peptide;Acc:NP_500513]	multicellular organismal development, 	nucleus, 	
F30B5.4	F30B5.4	Uncharacterized protein F30B5.4. [Source:Uniprot/SWISSPROT;Acc:Q19910]	electron transport, aromatic compound metabolic process, reproduction, 		monooxygenase activity, 
srbc-72	F30B5.9				
srbc-71	F30B5.8	Serpentine Receptor, class BC (class B-like) family member (srbc-71) [Source:RefSeq_peptide;Acc:NP_001023162]			
srbc-70	F30B5.6	Serpentine Receptor, class BC (class B-like) family member (srbc-70) [Source:RefSeq_peptide;Acc:NP_500516]			
F30B5.7	F30B5.7	F30B5.7 [Source:RefSeq_peptide;Acc:NP_500517]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
dpy-13	F30B5.1	dpy-13 encodes a member of the collagen superfamily containing 20 copies of the collagen triple helix repeat. transcipt levels oscillate, peaking once during each larval stage. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
F36A4.9	F36A4.9				
col-34	F36A4.10	col-34 encodes a cuticle collagen protein and is a critical component of male tail cuticle organization affecting ray morphology. [Source: WormBase]	phosphate transport, post-embryonic body morphogenesis, collagen and cuticulin-based cuticle development, 	cytoplasm, proteinaceous extracellular matrix, extracellular region, 	structural constituent of cuticle, extracellular matrix structural constituent, 
F36A4.11	F36A4.11	F36A4.11 [Source:RefSeq_peptide;Acc:NP_500521]			
F36A4.8	F36A4.8	F36A4.8 [Source:RefSeq_peptide;Acc:NP_500522]			
ama-1	F36A4.7	ama-1 encodes the large subunit of RNA polymerase II required for mRNA transcription. AMA-1 is essential for proper embryonic development, particularly for the early division and migration of the endodermal precursor (E) cells that initiate gastrulation. AMA-1 is expressed ubiquitously in the developing embryo until the 550-cell stage. [Source: WormBase]	regulation of transcription, DNA-dependent, transcription, transcription from RNA polymerase II promoter, embryonic development ending in birth or egg hatching, 	nucleus, DNA-directed RNA polymerase II, core complex, 	DNA binding, DNA-directed RNA polymerase activity, ligand-dependent nuclear receptor activity, 
col-33	F36A4.6	col-33 encodes a predicted cuticular collagen. by homology, col-33 is predicted to play a role in cuticle biosynthesis and regulation of body size and morphogenesis. however, as loss of col-33 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of COL-33 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F36A4.5	F36A4.5	F36A4.5 [Source:RefSeq_peptide;Acc:NP_500525]			
F36A4.4	F36A4.4	F36A4.4 [Source:RefSeq_peptide;Acc:NP_500526]			
F36A4.3	F36A4.3	F36A4.3 [Source:RefSeq_peptide;Acc:NP_500527]			
F36A4.2	F36A4.2	F36A4.2 [Source:RefSeq_peptide;Acc:NP_500528]			
F36A4.1	F36A4.1	F36A4.1 [Source:RefSeq_peptide;Acc:NP_500529]			
nhr-78	F36A4.14	Nuclear Hormone Receptor family member (nhr-78) [Source:RefSeq_peptide;Acc:NP_500530]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F15E6.6	F15E6.6	F15E6.6 [Source:RefSeq_peptide;Acc:NP_500531]	electron transport, reproduction, 		metal ion binding, oxidoreductase activity, electron carrier activity, iron-sulfur cluster binding, 
srv-4	F15E6.7	Serpentine Receptor, class V family member (srv-4) [Source:RefSeq_peptide;Acc:NP_500532]	signal transduction, 	membrane, 	transmembrane receptor activity, 
F15E6.5	F15E6.5	F15E6.5 [Source:RefSeq_peptide;Acc:NP_500533]			
F15E6.8	F15E6.8	F15E6.8 [Source:RefSeq_peptide;Acc:NP_500534]			
F15E6.4	F15E6.4	F15E6.4 [Source:RefSeq_peptide;Acc:NP_500535]			
set-10	F15E6.10	F15E6.10 [Source:RefSeq_peptide;Acc:NP_001033408]			
F15E6.9	F15E6.9	F15E6.9 [Source:RefSeq_peptide;Acc:NP_500536]	reproduction, 		
F15E6.3	F15E6.3	F15E6.3 [Source:RefSeq_peptide;Acc:NP_500537]	reproduction, 		
lgc-22	F15E6.2	F15E6.2 [Source:RefSeq_peptide;Acc:NP_500538]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
set-9	F15E6.1	F15E6.1 [Source:RefSeq_peptide;Acc:NP_500539]	DNA repair, 	nucleus, 	protein binding, zinc ion binding, 
Y24D9B.1	Y24D9B.1	Y24D9B.1 [Source:RefSeq_peptide;Acc:NP_500540]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
W03B1.2	W03B1.2	W03B1.2 [Source:RefSeq_peptide;Acc:NP_500541]		membrane, 	
W03B1.3	W03B1.3	W03B1.3 [Source:RefSeq_peptide;Acc:NP_500542]			
W03B1.1	W03B1.1	W03B1.1 [Source:RefSeq_peptide;Acc:NP_500543]			
W03B1.7	W03B1.7	W03B1.7 [Source:RefSeq_peptide;Acc:NP_500544]			transferase activity, transferring groups other than amino-acyl groups, 
W03B1.6	W03B1.6	W03B1.6 [Source:RefSeq_peptide;Acc:NP_500545]			transferase activity, transferring groups other than amino-acyl groups, 
W03B1.8	W03B1.8	W03B1.8 [Source:RefSeq_peptide;Acc:NP_500546]			transferase activity, transferring groups other than amino-acyl groups, 
W03B1.5	W03B1.5	W03B1.5 [Source:RefSeq_peptide;Acc:NP_500547]			
W03B1.9	W03B1.9	W03B1.9 [Source:RefSeq_peptide;Acc:NP_500548]			
srs-1	W03B1.4	srs-1 encodes a predicted mitochondrial seryl-tRNA synthetase (SerRS), a class II aminoacyl-tRNA synthetase that catalyzes the attachment of serine to its cognate tRNA and is thus required for protein biosynthesis. in C. elegans, SRS-1 activity is required for normal postembryonic morphology and rates of growth. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, seryl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, serine-tRNA ligase activity, 
F55F10.1	F55F10.1	F55F10.1 [Source:RefSeq_peptide;Acc:NP_500551]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	intracellular, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, transcription factor binding, 
Y24D9A.8	Y24D9A.8	Y24D9A.8 is orthologous to the human gene TRANSALDOLASE 1 (TALDO1. OMIM:602063), which when mutated leads to disease. [Source: WormBase]	carbohydrate metabolic process, pentose-phosphate shunt, 	cytoplasm, 	catalytic activity, transaldolase activity, 
rpl-7A	Y24D9A.4	rpl-7A encodes a large ribosomal subunit L7a protein required in mass RNAi assays for fertility, vulval development, and general health. the rpl-7A transcription unit has one nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that rpl-7A is a natural substrate for SMG-mediated nonsense suppresssion. several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-10, rpl-12) have protein products that are involved in translation. [Source: WormBase]	translation, ribosome biogenesis and assembly, biological_process, 	intracellular, ribosome, ribonucleoprotein complex, 	structural constituent of ribosome, 
NR_003457.1	Y24D9A.10	Y24D9A.10, snoRNA [Source:RefSeq_dna;Acc:NR_003457]			
NR_003458.1	Y24D9A.9	Y24D9A.9, snoRNA [Source:RefSeq_dna;Acc:NR_003458]			
set-21	Y24D9A.2	Y24D9A.2 encodes a histone H3 (Lys9) methyltransferase ortholog, predicted to function in transcriptional repression. Y24D9A.2 protein is specifically cleaved by CED-3, both in a genomic expression screen and in an in vitro assay. [Source: WormBase]		nucleus, 	
Y24D9A.5	Y24D9A.5	Y24D9A.5 [Source:RefSeq_peptide;Acc:NP_500556]			
Y24D9A.6	Y24D9A.6	Y24D9A.6 [Source:RefSeq_peptide;Acc:NP_500557]			
Y24D9A.7	Y24D9A.7	Y24D9A.7 [Source:RefSeq_peptide;Acc:NP_500558]			
Y24D9A.1	Y24D9A.1	Y24D9A.1a [Source:RefSeq_peptide;Acc:NP_741374]			nucleotide binding, 
R08C7.6	R08C7.6	R08C7.6 [Source:RefSeq_peptide;Acc:NP_500560]			sugar binding, 
str-185	R08C7.7	Seven TM Receptor family member (str-185) [Source:RefSeq_peptide;Acc:NP_500561]			
R08C7.5	R08C7.5	R08C7.5 [Source:RefSeq_peptide;Acc:NP_500562]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
R08C7.8	R08C7.8	R08C7.8 [Source:RefSeq_peptide;Acc:NP_500563]			calcium ion binding, hydrolase activity, 
R08C7.4	R08C7.4	R08C7.4 [Source:RefSeq_peptide;Acc:NP_500564]			
fbxb-74	R08C7.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-75	R08C7.13	F-box B protein family member (fbxb-75) [Source:RefSeq_peptide;Acc:NP_001023331]			
R08C7.10	R08C7.10	R08C7.10a [Source:RefSeq_peptide;Acc:NP_500567]	embryonic development ending in birth or egg hatching, 		
htz-1	R08C7.3	htz-1 encodes the C. elegans ortholog of the H2A.Z histone variant. htz-1 is an essential gene and during development, HTZ-1 functions with the PHA-4/FoxA transcription factor and the MYS-1/TIP60-SSL-1/SWR1 remodeling complex to regulate gene expression during pharyngeal (foregut) organogenesis. a YFP::HTZ-1 fusion protein localizes to pharyngeal gene promoters at the onset of transcription, in a manner that requires PHA-4. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
R08C7.2	R08C7.2	R08C7.2a [Source:RefSeq_peptide;Acc:NP_001023332]	positive regulation of growth rate, 	membrane, 	
R08C7.12	R08C7.12	Uncharacterized protein R08C7.12. [Source:Uniprot/SWISSPROT;Acc:Q9GQ60]			
R08C7.1	R08C7.1	R08C7.1 [Source:RefSeq_peptide;Acc:NP_500571]			
R08C7.11	R08C7.11	R08C7.11 [Source:RefSeq_peptide;Acc:NP_500572]			
M01H9.2	M01H9.2	M01H9.2 [Source:RefSeq_peptide;Acc:NP_500574]		extracellular region, 	serine-type endopeptidase inhibitor activity, receptor activity, 
M01H9.5	M01H9.5	M01H9.5 [Source:RefSeq_peptide;Acc:NP_741376]			
M01H9.3	M01H9.3	M01H9.3a [Source:RefSeq_peptide;Acc:NP_500575]			
M01H9.4	M01H9.4	M01H9.4 [Source:RefSeq_peptide;Acc:NP_500577]			
M01H9.1	M01H9.1	M01H9.1 [Source:RefSeq_peptide;Acc:NP_500578]	cell redox homeostasis, 		
ZK180.7	ZK180.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ6]			
ZK180.1	ZK180.1	ZK180.1 [Source:RefSeq_peptide;Acc:NP_500579]		membrane, 	metabotropic glutamate, GABA-B-like receptor activity, GABA-B receptor activity, 
ZK180.2	ZK180.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q23443]	electron transport, 	membrane, 	electron carrier activity, copper ion binding, GABA-B receptor activity, 
ZK180.3	ZK180.3	ZK180.3a [Source:RefSeq_peptide;Acc:NP_001023610]	lipid transport, nuclear division, negative regulation of multicellular organism growth, 	integral to membrane, 	lipid transporter activity, 
ZK180.4	ZK180.4	GTP-binding protein SAR1. [Source:Uniprot/SWISSPROT;Acc:Q23445]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, reproduction, 	intracellular, 	GTP binding, 
ZK180.5	ZK180.5	ZK180.5c [Source:RefSeq_peptide;Acc:NP_741379]	regulation of transcription, DNA-dependent, potassium ion transport, 	nucleus, extracellular region, voltage-gated potassium channel complex, 	transcription factor activity, hormone activity, voltage-gated potassium channel activity, 
ZK180.6	ZK180.6	ZK180.6 [Source:RefSeq_peptide;Acc:NP_500584]			
ZK185.3	ZK185.3	ZK185.3 [Source:RefSeq_peptide;Acc:NP_500585]			
ZK185.4	ZK185.4	ZK185.4 [Source:RefSeq_peptide;Acc:NP_001033462]			
ZK185.2	ZK185.2	ZK185.2 [Source:RefSeq_peptide;Acc:NP_500586]	cation transport, 		cation transmembrane transporter activity, 
ZK185.5	ZK185.5	ZK185.5 [Source:RefSeq_peptide;Acc:NP_001033463]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
ZK185.1	ZK185.1	ZK185.1 [Source:RefSeq_peptide;Acc:NP_500587]		intracellular, 	zinc ion binding, nucleic acid binding, 
F28E10.2	F28E10.2	F28E10.2 [Source:RefSeq_peptide;Acc:NP_500589]			
F28E10.4	F28E10.4	F28E10.4 [Source:RefSeq_peptide;Acc:NP_500590]	transport, 	membrane, 	transporter activity, 
F28E10.1	F28E10.1	F28E10.1a [Source:RefSeq_peptide;Acc:NP_001023152]			nucleotide binding, 
F28E10.5	F28E10.5	F28E10.5 [Source:RefSeq_peptide;Acc:NP_001023156]	proteolysis, 		serine-type peptidase activity, 
F19C7.6	F19C7.6	F19C7.6 [Source:RefSeq_peptide;Acc:NP_500592]			
F19C7.5	F19C7.5	F19C7.5 [Source:RefSeq_peptide;Acc:NP_500593]			
F19C7.3	F19C7.3	F19C7.3 [Source:RefSeq_peptide;Acc:NP_500594]			
F19C7.2	F19C7.2	F19C7.2 [Source:RefSeq_peptide;Acc:NP_500595]	proteolysis, pathogenesis, 		serine-type peptidase activity, 
F19C7.4	F19C7.4	F19C7.4 [Source:RefSeq_peptide;Acc:NP_500596]	proteolysis, pathogenesis, 		serine-type peptidase activity, 
F19C7.1	F19C7.1	F19C7.1 [Source:RefSeq_peptide;Acc:NP_500597]	positive regulation of growth rate, 		
col-110	F19C7.7	COLlagen family member (col-110) [Source:RefSeq_peptide;Acc:NP_500598]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	
F19C7.8	F19C7.8	F19C7.8a [Source:RefSeq_peptide;Acc:NP_741380]			protein kinase activity, 
R105.1	R105.1	R105.1 [Source:RefSeq_peptide;Acc:NP_500601]			
F29B9.8	F29B9.8	F29B9.8 [Source:RefSeq_peptide;Acc:NP_500602]	embryonic development ending in birth or egg hatching, 		
F29B9.7	F29B9.7	F29B9.7 [Source:RefSeq_peptide;Acc:NP_500603]			
ubc-9	F29B9.6	ubc-9 encodes an E2 ubiquitin-conjugating enzyme orthologous to Saccharomyces cerevisiae Ubc9p, which mediates the covalent attachment of the small ubiquitin-related modifier (SUMO) to various substrates including Ran-GAP1 and p53. UBC-9 activity is required for several developmental processes including embryogenesis, larval development, vulval development, posterior morphogenesis, and the DNA damage response (both DNA repair and DNA damage checkpoint function). UBC-9 interacts with LIN-1, an ETS-domain-containing transcription factor that negatively regulates vulval development, and with RAD-51, the C. elegans RecA homolog that is required for DNA repair. the expression pattern and subcellular localization of UBC-9 are not yet known. [Source: WormBase]	protein modification process, ubiquitin cycle, embryonic development, biological_process, 		protein binding, small conjugating protein ligase activity, 
F29B9.5	F29B9.5	F29B9.5 [Source:RefSeq_peptide;Acc:NP_500604]	cell redox homeostasis, biological_process, 		oxidoreductase activity, antioxidant activity, 
psr-1	F29B9.4	psr-1 encodes an ortholog of the mammalian apoptotic phosphatidylserine receptor, whose product recognizes phosphatidylserine on apoptotic cells and enables cells expressing the receptor to recognize and engulf apoptotic cells in a phosphatidylserine-specific manner. psr-1 was not mutated in classical screens for Ced mutants, but, given its high similarity, may nevertheless mediate phosphatidylserine recognition on apoptotic cells during their removal by phagocytes. [Source: WormBase]		nucleus, 	protein binding, 
col-111	F29B9.9	F29B9.9 [Source:RefSeq_peptide;Acc:NP_500607]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F29B9.10	F29B9.10	F29B9.10 [Source:RefSeq_peptide;Acc:NP_500608]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F29B9.11	F29B9.11	F29B9.11 [Source:RefSeq_peptide;Acc:NP_500609]	positive regulation of growth rate, 		
F29B9.2	F29B9.2	F29B9.2a [Source:RefSeq_peptide;Acc:NP_500610]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
F29B9.1	F29B9.1	F29B9.1 [Source:RefSeq_peptide;Acc:NP_500612]			
F29B9.12	F29B9.12	F29B9.12 [Source:RefSeq_peptide;Acc:NP_001033409]			
T22B11.4	T22B11.4	T22B11.4a [Source:RefSeq_peptide;Acc:NP_001023393]			
T22B11.3	T22B11.3	T22B11.3 [Source:RefSeq_peptide;Acc:NP_500614]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T22B11.2	T22B11.2	T22B11.2 [Source:RefSeq_peptide;Acc:NP_500615]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
T22B11.1	T22B11.1	T22B11.1 [Source:RefSeq_peptide;Acc:NP_500616]			
T22B11.5	T22B11.5	The T22B11.5 gene encodes an ortholog of the human gene OGDH, which when mutated leads to alpha-ketoglutarate deficiency (OMIM:203740). the T22B11.5 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	metabolic process, glycolysis, embryonic development ending in birth or egg hatching, 		thiamin pyrophosphate binding, oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor, oxoglutarate dehydrogenase (succinyl-transferring) activity, 
cif-1	K08F11.3	Probable COP9 signalosome complex subunit 7 (Signalosome subunit 7). [Source:Uniprot/SWISSPROT;Acc:Q94261]	embryonic development ending in birth or egg hatching, 		protein binding, 
yrs-1	K08F11.4	yrs-1 encodes a tyrosinyl tRNA synthetase predicted to be mitochondrial. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, tyrosyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, tyrosine-tRNA ligase activity, 
K08F11.5	K08F11.5	Mitochondrial Rho GTPase (EC 3.6.5.-) (Miro). [Source:Uniprot/SWISSPROT;Acc:Q94263]	protein transport, small GTPase mediated signal transduction, apoptosis, biological_process, cellular homeostasis, mitochondrion transport along microtubule, 	intracellular, integral to mitochondrial outer membrane, 	GTP binding, calcium ion binding, 
K08F11.2	K08F11.2	K08F11.2 [Source:RefSeq_peptide;Acc:NP_500621]	biological_process, 	cellular_component, 	molecular_function, 
K08F11.1	K08F11.1	K08F11.1 [Source:RefSeq_peptide;Acc:NP_500622]			
K08F11.6	K08F11.6		growth, 		
E04A4.3	E04A4.3	E04A4.3 [Source:RefSeq_peptide;Acc:NP_500623]			
fbxb-80	E04A4.2	F-box B protein family member (fbxb-80) [Source:RefSeq_peptide;Acc:NP_500624]			
fbxb-78	E04A4.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
hoe-1	E04A4.4	hoe-1 is orthologous to human ELAC2 (OMIM:605367, associated with susceptibility to prostate cancer). hoe-1 is required for normally rapid growth and normally short body length in mass RNAi assays. [Source: WormBase]	negative regulation of multicellular organism growth, 		hydrolase activity, 
E04A4.5	E04A4.5	Probable mitochondrial import inner membrane translocase subunit Tim17. [Source:Uniprot/SWISSPROT;Acc:O44477]	protein transport, intracellular protein transport, positive regulation of growth rate, 	mitochondrial inner membrane, mitochondrial inner membrane presequence translocase complex, 	protein transporter activity, P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
E04A4.6	E04A4.6	E04A4.6 [Source:RefSeq_peptide;Acc:NP_500628]			
cyc-2.1	E04A4.7	E04A4.7 encodes, along with ZC116.2, one of two C. elegans cytochrome c proteins. the product of E04A4.7 is predicted to function in the electron transport chain by transferring electrons from respiratory chain Complex III to Complex IV. large-scale RNAi screens indicate the E04A4.7 activity is required for embryonic and larval development as well as for normal brood sizes and growth rates. [Source: WormBase]	electron transport, positive regulation of growth rate, 		iron ion binding, heme binding, electron carrier activity, 
rpl-20	E04A4.8	rpl-20 encodes a large ribosomal subunit L18a protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y17G9B.5	Y17G9B.5	Y17G9B.5 [Source:RefSeq_peptide;Acc:NP_500631]			protein binding, structural molecule activity, 
Y17G9B.4	Y17G9B.4	Y17G9B.4 [Source:RefSeq_peptide;Acc:NP_500632]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
Y17G9B.6	Y17G9B.6	Y17G9B.6 [Source:RefSeq_peptide;Acc:NP_500633]			
fbxb-77	Y17G9B.7	F-box B protein family member (fbxb-77) [Source:RefSeq_peptide;Acc:NP_500634]			
Y17G9B.8	Y17G9B.8	Y17G9B.8 [Source:RefSeq_peptide;Acc:NP_500635]			nucleic acid binding, 
Y17G9B.9	Y17G9B.9	Y17G9B.9 [Source:RefSeq_peptide;Acc:NP_500636]			protein binding, 
cyp-31A3	Y17G9B.3	The Y17G9B.3 gene encodes a homolog of the human gene CYP7B1, which when mutated leads to pseudovitamin D deficiency rickets (OMIM:264700). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		iron ion binding, monooxygenase activity, heme binding, 
Y17G9B.2	Y17G9B.2	Y17G9B.2 [Source:RefSeq_peptide;Acc:NP_500638]			
Y17G9B.1	Y17G9B.1	Y17G9B.1 [Source:RefSeq_peptide;Acc:NP_500639]			
R11E3.2	R11E3.2	R11E3.2 [Source:RefSeq_peptide;Acc:NP_500641]	transport, 	membrane, 	transporter activity, 
set-15	R11E3.4	R11E3.4 [Source:RefSeq_peptide;Acc:NP_500642]		nucleus, 	
nhr-104	R11E3.5	nhr-104 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
R11E3.1	R11E3.1	R11E3.1 [Source:RefSeq_peptide;Acc:NP_500644]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
eor-1	R11E3.6	eor-1 encodes an ortholog of the human BTB/zinc-finger transcription factor PLZF (OMIM:176797), which is is found as a retinoic acid receptor alpha (RARA) fusion in acute promyelocytic leukemia (APL). EOR-1 positively regulates RAS/RAF-mediated signalling during excretory system development, as well as RAS/RAF- and WNT-mediated signalling during P12 fate specification. EOR-1 may function with EOR-2 and Hox genes to control the expression of Ras- and Wnt-responsive genes. [Source: WormBase]	biological_process, cell fate specification, Ras protein signal transduction, 	intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
dpf-7	R11E3.7	Dipeptidyl Peptidase Four (IV) family member (dpf-7) [Source:RefSeq_peptide;Acc:NP_741386]			
dpf-5	R11E3.8	dpf-5 encodes a putative acylamino-acid-releasing enzyme (AARE. EC 3.4.19.1), orthologous to human APEH, with no obvious function in mass RNAi assays. [Source: WormBase]	proteolysis, 		serine-type peptidase activity, 
H06H21.11	H06H21.11	H06H21.11 [Source:RefSeq_peptide;Acc:NP_001033419]			
ubxn-6	H06H21.6	UBX-containing protein in Nematode family member (ubxn-6) [Source:RefSeq_peptide;Acc:NP_500648]			
H06H21.3	H06H21.3	H06H21.3 [Source:RefSeq_peptide;Acc:NP_500650]	translational initiation, positive regulation of growth rate, 		RNA binding, translation initiation factor activity, 
srw-95	H06H21.2	Serpentine Receptor, class W family member (srw-95) [Source:RefSeq_peptide;Acc:NP_500651]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-94	H06H21.1	Serpentine Receptor, class W family member (srw-94) [Source:RefSeq_peptide;Acc:NP_500652]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
H06H21.8	H06H21.8	H06H21.8a [Source:RefSeq_peptide;Acc:NP_001023254]			
H06H21.9	H06H21.9	H06H21.9 encodes a Caenorhabditis-specific protein with two PDZ domains that inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]			protein binding, 
tat-2	H06H21.10	H06H21.10a [Source:RefSeq_peptide;Acc:NP_001023252]	transport, phospholipid transport, 	membrane, integral to membrane, 	ATP binding, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
21ur-1816	H06H21.12				
21ur-103	Y17G9A.11				
21ur-3256	Y17G9A.23				
21ur-3648	Y17G9A.12				
21ur-5268	Y17G9A.15				
21ur-2692	Y17G9A.16				
21ur-233	Y17G9A.20				
21ur-1103	Y17G9A.9				
21ur-5006	Y17G9A.17				
21ur-1855	Y17G9A.13				
21ur-193	Y17G9A.8				
21ur-5162	Y17G9A.18				
21ur-4047	Y17G9A.21				
21ur-1381	Y17G9A.19				
21ur-4056	Y17G9A.24				
21ur-1320	Y17G9A.14				
21ur-3389	Y17G9A.10				
21ur-4504	Y17G9A.25				
21ur-1940	Y17G9A.22				
Y17G9A.2	Y17G9A.2	Y17G9A.2 [Source:RefSeq_peptide;Acc:NP_500656]			
Y17G9A.3	Y17G9A.3	Y17G9A.3 [Source:RefSeq_peptide;Acc:NP_500657]			
Y17G9A.4	Y17G9A.4	Y17G9A.4 [Source:RefSeq_peptide;Acc:NP_500658]			
Y17G9A.t1	Y17G9A.t1				
str-173	Y17G9A.1	Seven TM Receptor family member (str-173) [Source:RefSeq_peptide;Acc:NP_500659]			
str-172	Y17G9A.5	Seven TM Receptor family member (str-172) [Source:RefSeq_peptide;Acc:NP_500660]			
str-175	Y17G9A.6	Seven TM Receptor family member (str-175) [Source:RefSeq_peptide;Acc:NP_500661]			
str-174	Y17G9A.7	Seven TM Receptor family member (str-174) [Source:RefSeq_peptide;Acc:NP_001041019]			
21ur-1212	T08B6.11				
21ur-2777	T08B6.17				
str-170	T08B6.7	Seven TM Receptor family member (str-170) [Source:RefSeq_peptide;Acc:NP_500663]			
21ur-4189	T08B6.22				
21ur-1541	T08B6.15				
str-166	T08B6.6	Seven TM Receptor family member (str-166) [Source:RefSeq_peptide;Acc:NP_500664]			
21ur-4152	T08B6.13				
T08B6.1	T08B6.1	T08B6.1 [Source:RefSeq_peptide;Acc:NP_500665]			
21ur-1583	T08B6.20				
T08B6.5	T08B6.5	T08B6.5 [Source:RefSeq_peptide;Acc:NP_500666]			nucleotide binding, nucleic acid binding, 
21ur-4153	T08B6.12				
T08B6.9	T08B6.9	T08B6.9 [Source:RefSeq_peptide;Acc:NP_001023366]			
T08B6.2	T08B6.2	T08B6.2 [Source:RefSeq_peptide;Acc:NP_500667]			
21ur-756	T08B6.21				
21ur-1302	T08B6.14				
21ur-152	T08B6.18				
21ur-3978	T08B6.19				
21ur-3048	T08B6.10				
str-161	T08B6.3	Seven TM Receptor family member (str-161) [Source:RefSeq_peptide;Acc:NP_500668]	positive regulation of growth rate, 		
T08B6.4	T08B6.4	T08B6.4 [Source:RefSeq_peptide;Acc:NP_500669]			
21ur-1929	T08B6.16				
str-159	Y9C9A.18	Seven TM Receptor family member (str-159) [Source:RefSeq_peptide;Acc:NP_500671]			
Y9C9A.17	Y9C9A.17	Y9C9A.17 [Source:RefSeq_peptide;Acc:NP_500672]			
str-156	Y9C9A.11	Seven TM Receptor family member (str-156) [Source:RefSeq_peptide;Acc:NP_500673]	transport, dicarboxylic acid transport, 	membrane, 	transporter activity, sodium:dicarboxylate symporter activity, 
str-155	Y9C9A.10	Seven TM Receptor family member (str-155) [Source:RefSeq_peptide;Acc:NP_500674]	transport, 	membrane, 	transporter activity, 
str-158	Y9C9A.9	Seven TM Receptor family member (str-158) [Source:RefSeq_peptide;Acc:NP_500675]	leukotriene metabolic process, 	integral to membrane, 	enzyme activator activity, 
21ur-4175	Y9C9A.23				
Y9C9A.8	Y9C9A.8	Y9C9A.8 [Source:RefSeq_peptide;Acc:NP_500676]			
str-153	Y9C9A.7	Seven TM Receptor family member (str-153) [Source:RefSeq_peptide;Acc:NP_500677]			
fbxa-86	Y9C9A.12	F-box A protein family member (fbxa-86) [Source:RefSeq_peptide;Acc:NP_500678]			
str-168	Y9C9A.6	Seven TM Receptor family member (str-168) [Source:RefSeq_peptide;Acc:NP_500679]			
Y9C9A.5	Y9C9A.5	Y9C9A.5 [Source:RefSeq_peptide;Acc:NP_500680]			
21ur-5116	Y9C9A.20				
21ur-1423	Y9C9A.22				
str-169	Y9C9A.4	Seven TM Receptor family member (str-169) [Source:RefSeq_peptide;Acc:NP_001023592]			
21ur-3606	Y9C9A.33				
str-163	Y9C9A.3	Seven TM Receptor family member (str-163) [Source:RefSeq_peptide;Acc:NP_500682]			
21ur-4542	Y9C9A.24				
21ur-1824	Y9C9A.27				
str-164	Y9C9A.2	Seven TM Receptor family member (str-164) [Source:RefSeq_peptide;Acc:NP_500683]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-2441	Y9C9A.19				
21ur-1750	Y9C9A.21				
21ur-3882	Y9C9A.25				
21ur-357	Y9C9A.29				
21ur-5256	Y9C9A.36				
21ur-2669	Y9C9A.28				
21ur-3295	Y9C9A.30				
Y9C9A.1	Y9C9A.1	Y9C9A.1 [Source:RefSeq_peptide;Acc:NP_500684]			
21ur-4237	Y9C9A.35				
Y9C9A.13	Y9C9A.13	Y9C9A.13 [Source:RefSeq_peptide;Acc:NP_500685]			protein binding, 
21ur-4650	Y9C9A.26				
srz-27	Y9C9A.14				
21ur-1931	Y9C9A.31				
srz-28	Y9C9A.15	Serpentine Receptor, class Z family member (srz-28) [Source:RefSeq_peptide;Acc:NP_500687]			
Y9C9A.16	Y9C9A.16	Y9C9A.16 [Source:RefSeq_peptide;Acc:NP_500688]			
21ur-5126	Y9C9A.34				
21ur-2020	Y9C9A.32				
E03H12.5	E03H12.5	E03H12.5 [Source:RefSeq_peptide;Acc:NP_500689]	G-protein coupled receptor protein signaling pathway, nucleosome assembly, 	integral to membrane, nucleus, nucleosome, 	DNA binding, alpha2-adrenergic receptor activity, 
srz-24	E03H12.6	Serpentine Receptor, class Z family member (srz-24) [Source:RefSeq_peptide;Acc:NP_001023107]			
E03H12.4	E03H12.4	E03H12.4 [Source:RefSeq_peptide;Acc:NP_500691]			
E03H12.3	E03H12.3	E03H12.3 [Source:RefSeq_peptide;Acc:NP_500692]			
21ur-4975	E03H12.12				
21ur-3455	E03H12.11				
E03H12.2	E03H12.2	E03H12.2 [Source:RefSeq_peptide;Acc:NP_500693]			sugar binding, 
E03H12.7	E03H12.7	E03H12.7 [Source:RefSeq_peptide;Acc:NP_500694]			
E03H12.8	E03H12.8				
E03H12.9	E03H12.9	E03H12.9 [Source:RefSeq_peptide;Acc:NP_500695]			
str-162	E03H12.1	Seven TM Receptor family member (str-162) [Source:RefSeq_peptide;Acc:NP_500696]			
ssp-9	E03H12.10	Sperm-specific class P protein 9/11. [Source:Uniprot/SWISSPROT;Acc:Q23058]			structural molecule activity, 
ssq-2	T28H11.5	Sperm-Specific family, class Q family member (ssq-2) [Source:RefSeq_peptide;Acc:NP_500698]	G-protein coupled receptor protein signaling pathway, locomotory behavior, 	integral to membrane, viral capsid, 	structural molecule activity, leukotriene receptor activity, 
ssp-11	T28H11.6	Sperm-specific class P protein 9/11. [Source:Uniprot/SWISSPROT;Acc:Q23058]			structural molecule activity, 
pes-1	T28H11.4	Patterned Expression Site family member (pes-1) [Source:RefSeq_peptide;Acc:NP_001023406]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
srm-2	T28H11.3	Serpentine Receptor, class M family member (srm-2) [Source:RefSeq_peptide;Acc:NP_500701]			
srm-1	T28H11.2	Serpentine Receptor, class M family member (srm-1) [Source:RefSeq_peptide;Acc:NP_500702]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
T28H11.7	T28H11.7	T28H11.7 [Source:RefSeq_peptide;Acc:NP_500703]		cytoplasm, 	protein binding, 
ssq-4	T28H11.1	Sperm-Specific family, class Q family member (ssq-4) [Source:RefSeq_peptide;Acc:NP_500704]	electron transport, protein homooligomerization, 	membrane, cytoplasm, 	GTP binding, oxidoreductase activity, 
T28H11.8	T28H11.8	T28H11.8 [Source:RefSeq_peptide;Acc:NP_500705]			transporter activity, 
C09B9.3	C09B9.3	Uncharacterized protein C09B9.3. [Source:Uniprot/SWISSPROT;Acc:Q17851]			
C09B9.2	C09B9.2	C09B9.2 [Source:RefSeq_peptide;Acc:NP_500707]			
21ur-1875	C09B9.22				
21ur-1140	C09B9.21				
C09B9.4	C09B9.4	C09B9.4 [Source:RefSeq_peptide;Acc:NP_500708]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
21ur-3393	C09B9.20				
21ur-1192	C09B9.19				
21ur-1427	C09B9.13				
21ur-2652	C09B9.15				
21ur-1626	C09B9.9				
C09B9.1	C09B9.1	C09B9.1 [Source:RefSeq_peptide;Acc:NP_500709]			
21ur-4266	C09B9.18				
C09B9.t1	C09B9.t1				
C09B9.8	C09B9.8	C09B9.8 [Source:RefSeq_peptide;Acc:NP_001033392]			
21ur-3113	C09B9.12				
21ur-5282	C09B9.10				
21ur-1406	C09B9.17				
21ur-1411	C09B9.11				
21ur-3753	C09B9.16				
21ur-4729	C09B9.14				
msp-55	C09B9.6	msp-55 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
C09B9.7	C09B9.7	C09B9.7 [Source:RefSeq_peptide;Acc:NP_500712]			
msp-57	R13H9.2	msp-57 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
NR_002664.1	R13H9.7	R13H9.7, snRNA [Source:RefSeq_dna;Acc:NR_002664]			
msp-53	R13H9.4	msp-53 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-53 has a C. briggsae homolog as identified by the Wobble Aware Bulk Aligner (WABA). the MSP family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
R13H9.5	R13H9.5	R13H9.5 [Source:RefSeq_peptide;Acc:NP_500715]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R13H9.6	R13H9.6	R13H9.6 [Source:RefSeq_peptide;Acc:NP_500716]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R13H9.1	R13H9.1	R13H9.1 [Source:RefSeq_peptide;Acc:NP_500717]			
C02B10.6	C02B10.6	C02B10.6 [Source:RefSeq_peptide;Acc:NP_500718]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
21ur-2058	C02B10.11				
21ur-4280	C02B10.24				
21ur-4762	C02B10.26				
21ur-506	C02B10.9				
21ur-2397	C02B10.8				
21ur-2481	C02B10.16				
21ur-778	C02B10.29				
C02B10.5	C02B10.5	C02B10.5 [Source:RefSeq_peptide;Acc:NP_500719]	reproduction, 	proteinaceous extracellular matrix, 	protein binding, extracellular matrix structural constituent, 
ivd-1	C02B10.1	The C02B10.1 gene encodes an isovaleryl-CoA dehydrogenase. this function has been verified by both sequence homology and direct biochemical assay. [Source: WormBase]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C02B10.2	C02B10.2	C02B10.2 [Source:RefSeq_peptide;Acc:NP_500721]	embryonic development ending in birth or egg hatching, 		
C02B10.4	C02B10.4	C02B10.4 [Source:RefSeq_peptide;Acc:NP_500722]			nucleotide binding, nucleic acid binding, 
C02B10.3	C02B10.3	EGF-like domain-containing protein C02B10.3 precursor. [Source:Uniprot/SWISSPROT;Acc:O44443]			
21ur-2121	C02B10.20				
21ur-3444	C02B10.23				
21ur-5230	C02B10.22				
21ur-4588	C02B10.13				
21ur-4870	C02B10.12				
21ur-116	C02B10.7				
21ur-12	C02B10.18				
21ur-950	C02B10.25				
21ur-62	C02B10.21				
21ur-5430	C02B10.15				
21ur-4622	C02B10.10				
21ur-3953	C02B10.17				
21ur-5324	C02B10.14				
21ur-2943	C02B10.27				
21ur-3719	C02B10.19				
21ur-3428	C02B10.28				
AC7.3	AC7.3	AC7.3 [Source:RefSeq_peptide;Acc:NP_500724]			
tag-49	AC7.1	Temporarily Assigned Gene name family member (tag-49) [Source:RefSeq_peptide;Acc:NP_001021258]	G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, neuropeptide receptor activity, 
21ur-3769	AC7.10				
21ur-3367	AC7.13				
21ur-3365	AC7.19				
21ur-1084	AC7.7				
21ur-1688	AC7.9				
21ur-2664	AC7.12				
21ur-4695	AC7.14				
21ur-1052	AC7.16				
soc-2	AC7.2	soc-2 encodes a leucine-rich repeat protein. soc-2 functions downstream in the let-60/Ras and egl-15/FGF receptor signaling pathways to positively and negatively regulate signaling through these pathways, respectively, and thus affect such processes as vulval development, osmoregulation, and muscle membrane extension. consistent with its role in regulating Ras-mediated signal transduction, SOC-2 interacts with LET-60/Ras in yeast two-hybrid assays. soc-2 is reported to be widely expressed in larval and adult tissues. [Source: WormBase]	biological_process, muscle development, fibroblast growth factor receptor signaling pathway, 		protein binding, 
21ur-4118	AC7.11				
21ur-2318	AC7.18				
21ur-2269	AC7.15				
21ur-4804	AC7.6				
21ur-3853	AC7.4				
21ur-4409	AC7.5				
21ur-3835	AC7.20				
21ur-3864	AC7.17				
21ur-905	AC7.8				
21ur-4816	C24D10.15				
21ur-1146	C24D10.11				
C24D10.5	C24D10.5	C24D10.5 [Source:RefSeq_peptide;Acc:NP_500727]			
21ur-2878	C24D10.14				
21ur-3717	C24D10.21				
C24D10.9	C24D10.9	C24D10.9 [Source:RefSeq_peptide;Acc:NP_001033401]			
21ur-4351	C24D10.10				
21ur-1305	C24D10.20				
21ur-3831	C24D10.16				
21ur-1700	C24D10.22				
C24D10.6	C24D10.6	C24D10.6 [Source:RefSeq_peptide;Acc:NP_500728]			
C24D10.4	C24D10.4	C24D10.4 [Source:RefSeq_peptide;Acc:NP_500729]	positive regulation of growth rate, 		
21ur-1556	C24D10.13				
C24D10.3	C24D10.3				
nspd-3	C24D10.7	Nematode Specific Peptide family, group D family member (nspd-3) [Source:RefSeq_peptide;Acc:NP_500730]			
C24D10.2	C24D10.2	C24D10.2 [Source:RefSeq_peptide;Acc:NP_500731]		nucleus, chromatin, 	DNA binding, 
nspd-6	C24D10.8	Nematode Specific Peptide family, group D family member (nspd-3) [Source:RefSeq_peptide;Acc:NP_500730]			
C24D10.1	C24D10.1	C24D10.1 [Source:RefSeq_peptide;Acc:NP_500733]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
21ur-270	C24D10.17				
21ur-4194	C24D10.19				
21ur-718	C24D10.12				
21ur-1167	C24D10.18				
lam-1	W03F8.5	lam-1 encodes a laminin beta that affects degenerin-induced cell death and is required redundantly with lam-2 for morphogenesis. [Source: WormBase]	non-apoptotic programmed cell death, 	proteinaceous extracellular matrix, 	
21ur-2448	W03F8.14				
21ur-419	W03F8.11				
21ur-3211	W03F8.23				
21ur-2189	W03F8.12				
W03F8.10	W03F8.10	W03F8.10 [Source:RefSeq_peptide;Acc:NP_001023419]	signal transduction, chemotaxis, embryonic development ending in birth or egg hatching, 	membrane, intracellular, 	protein binding, signal transducer activity, 
21ur-390	W03F8.16				
21ur-2798	W03F8.25				
W03F8.4	W03F8.4	W03F8.4 [Source:RefSeq_peptide;Acc:NP_500735]			
W03F8.3	W03F8.3	Probable peptide chain release factor 1, mitochondrial precursor (MRF- 1). [Source:Uniprot/SWISSPROT;Acc:O44568]	translational termination, 		translation release factor activity, 
W03F8.6	W03F8.6	W03F8.6 [Source:RefSeq_peptide;Acc:NP_500736]			
gpa-18	W03F8.9	gpa-18 encodes a divergent G protein alpha subunit, with roughly as much similarity to fungal as to metazoan homologs. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		signal transducer activity, guanyl nucleotide binding, 
21ur-4263	W03F8.32				
W03F8.2	W03F8.2	W03F8.2 [Source:RefSeq_peptide;Acc:NP_500739]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
21ur-2673	W03F8.30				
21ur-4955	W03F8.17				
21ur-2081	W03F8.18				
21ur-4520	W03F8.19				
21ur-3507	W03F8.28				
21ur-2580	W03F8.27				
21ur-3177	W03F8.33				
21ur-4419	W03F8.15				
21ur-1826	W03F8.31				
21ur-4445	W03F8.20				
21ur-4001	W03F8.24				
21ur-3986	W03F8.21				
21ur-3808	W03F8.13				
tni-4	W03F8.1	tni-4 encodes one of the four elegans troponin I proteins. tni-4 is required for the normal development of the pharynx during embryonic development. TNI-4 interacts only with the pharyngeal troponin C. tni-4 is expressed exclusively in the pharyngeal muscles. [Source: WormBase]	embryonic development, positive regulation of growth rate, 		
21ur-872	W03F8.26				
21ur-77	W03F8.22				
21ur-4432	W03F8.29				
Y59E9AL.4	Y59E9AL.4	Y59E9AL.4 [Source:RefSeq_peptide;Acc:NP_500742]	transport, 	membrane, 	nucleotide binding, transporter activity, nucleic acid binding, 
Y59E9AL.7	Y59E9AL.7	Y59E9AL.7 [Source:RefSeq_peptide;Acc:NP_001023538]			
21ur-3696	Y59E9AL.13				
21ur-2847	Y59E9AL.10				
21ur-325	Y59E9AL.9				
21ur-3626	Y59E9AL.12				
21ur-1576	Y59E9AL.14				
21ur-1347	Y59E9AL.11				
Y59E9AL.3	Y59E9AL.3	Y59E9AL.2 [Source:RefSeq_peptide;Acc:NP_001023536]			
Y59E9AL.5	Y59E9AL.5	Y59E9AL.5 [Source:RefSeq_peptide;Acc:NP_500744]			
Y59E9AL.8	Y59E9AL.8	Y59E9AL.8 [Source:RefSeq_peptide;Acc:NP_001023539]			protein binding, 
Y59E9AL.6	Y59E9AL.6	Y59E9AL.6 [Source:RefSeq_peptide;Acc:NP_500745]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y59E9AL.2	Y59E9AL.2	Y59E9AL.2 [Source:RefSeq_peptide;Acc:NP_001023536]			
thn-6	Y59E9AL.1	THaumatiN family member (thn-6) [Source:RefSeq_peptide;Acc:NP_500747]			
thn-5	Y59E9AR.4	THaumatiN family member (thn-5) [Source:RefSeq_peptide;Acc:NP_500748]			
Y59E9AR.5	Y59E9AR.5	Putative T-box protein 30. [Source:Uniprot/SWISSPROT;Acc:Q9N2K7]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, 
tbx-30	Y59E9AR.3	Putative T-box protein 30. [Source:Uniprot/SWISSPROT;Acc:Q9N2K7]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, 
thn-7	Y59E9AR.6				
Y59E9AR.7	Y59E9AR.7	Y59E9AR.1 [Source:RefSeq_peptide;Acc:NP_500755]			structural molecule activity, 
Y59E9AR.9	Y59E9AR.9	Y59E9AR.10 [Source:RefSeq_peptide;Acc:NP_001033453]			
Y59E9AR.2	Y59E9AR.2	Y59E9AR.8 [Source:RefSeq_peptide;Acc:NP_500754]			
Y59E9AR.8	Y59E9AR.8	Y59E9AR.8 [Source:RefSeq_peptide;Acc:NP_500754]			
Y59E9AR.10	Y59E9AR.10	Y59E9AR.10 [Source:RefSeq_peptide;Acc:NP_001033453]			
Y59E9AR.1	Y59E9AR.1	Y59E9AR.1 [Source:RefSeq_peptide;Acc:NP_500755]			structural molecule activity, 
F36H12.10	F36H12.10	F36H12.10 [Source:RefSeq_peptide;Acc:NP_500756]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F36H12.11	F36H12.11	F36H12.11 [Source:RefSeq_peptide;Acc:NP_500757]			
F36H12.9	F36H12.9	F36H12.9 [Source:RefSeq_peptide;Acc:NP_500758]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F36H12.8	F36H12.8	F36H12.8 [Source:RefSeq_peptide;Acc:NP_500759]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-19	F36H12.7	msp-19 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-19 has a homolog in C. briggsae as predicted by the Wobble Aware Bulk Aligner (WABA). the msp gene family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
NR_002662.1	F36H12.19	F36H12.19, snRNA [Source:RefSeq_dna;Acc:NR_002662]			
F36H12.14	F36H12.14	F36H12.14 [Source:RefSeq_peptide;Acc:NP_500762]			
F36H12.13	F36H12.13	F36H12.13 [Source:RefSeq_peptide;Acc:NP_500761]			
sls-2.19	F36H12.20				
msp-52	F36H12.6	msp-52 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			
F36H12.5	F36H12.5	F36H12.5 [Source:RefSeq_peptide;Acc:NP_500763]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F36H12.15	F36H12.15	F36H12.15 [Source:RefSeq_peptide;Acc:NP_500764]			
21ur-2996	F36H12.23				
F36H12.4	F36H12.4	F36H12.4 [Source:RefSeq_peptide;Acc:NP_500765]			
F36H12.16	F36H12.16	F36H12.16 [Source:RefSeq_peptide;Acc:NP_500766]			
F36H12.3	F36H12.3	F36H12.3 [Source:RefSeq_peptide;Acc:NP_500767]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, structural molecule activity, 
21ur-4486	F36H12.28				
F36H12.2	F36H12.2	F36H12.2 [Source:RefSeq_peptide;Acc:NP_500768]			
F36H12.17	F36H12.17	F36H12.17 [Source:RefSeq_peptide;Acc:NP_500769]			
21ur-4832	F36H12.22				
21ur-4025	F36H12.32				
21ur-200	F36H12.26				
21ur-2585	F36H12.30				
21ur-2425	F36H12.25				
21ur-5352	F36H12.27				
21ur-689	F36H12.24				
21ur-676	F36H12.21				
21ur-662	F36H12.29				
21ur-5123	F36H12.31				
21ur-1597	F36H12.33				
F36H12.1	F36H12.1	F36H12.1 [Source:RefSeq_peptide;Acc:NP_500770]			
msp-51	ZK354.5	msp-51 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-51 has a C. briggsae homolog as predicted by the Wobble Aware Bulk Aligner (WABA). the MSP family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
ZK354.6	ZK354.6	ZK354.6 [Source:RefSeq_peptide;Acc:NP_500772]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-113	ZK354.4	msp-113 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. msp-113 has a C. briggsae homolog as detected by the Wobble Aware Bulk Aligner (WABA). the MSP family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. the msp-113 promoter region contains two conserved cis elements that are recognition sites for elt-1, a gene that encodes a homolog of the vertebrate GATA transcription factor family. this suggests that a MSP protein is a potential target for ELT-1 in the germ-line. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
ZK354.7	ZK354.7	ZK354.7 [Source:RefSeq_peptide;Acc:NP_500774]			structural molecule activity, 
ZK354.8	ZK354.8	ZK354.8 [Source:RefSeq_peptide;Acc:NP_500775]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ZK354.9	ZK354.9	ZK354.9 [Source:RefSeq_peptide;Acc:NP_500776]			hydrolase activity, 
msp-58	ZK354.10	msp-58 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			
ZK354.3	ZK354.3	ZK354.3 [Source:RefSeq_peptide;Acc:NP_500777]	calcium ion transport, 	integral to membrane, 	voltage-gated calcium channel activity, 
msp-59	ZK354.11	msp-59 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
ZK354.2	ZK354.2	ZK354.2b [Source:RefSeq_peptide;Acc:NP_741394]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-65	ZK354.1	msp-65 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
NR_002671.1	ZK354.12	ZK354.12, snRNA [Source:RefSeq_dna;Acc:NR_002671]			
Y4C6B.5	Y4C6B.5	Y4C6B.5 [Source:RefSeq_peptide;Acc:NP_500781]			
21ur-3603	Y4C6B.22				
21ur-1035	Y4C6B.23				
21ur-1022	Y4C6B.24				
21ur-347	Y4C6B.25				
Y4C6B.4	Y4C6B.4	Y4C6B.4a [Source:RefSeq_peptide;Acc:NP_741396]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
21ur-2158	Y4C6B.14				
21ur-5302	Y4C6B.11				
21ur-731	Y4C6B.20				
21ur-3622	Y4C6B.27				
21ur-1272	Y4C6B.21				
Y4C6B.3	Y4C6B.3	Y4C6B.3 [Source:RefSeq_peptide;Acc:NP_500783]	transport, response to antibiotic, tetracycline transport, 	membrane, integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
21ur-5279	Y4C6B.13				
Y4C6B.t1	Y4C6B.t1				
21ur-2888	Y4C6B.10				
21ur-4673	Y4C6B.8				
21ur-4186	Y4C6B.12				
21ur-1662	Y4C6B.28				
Y4C6B.2	Y4C6B.2	Y4C6B.2a [Source:RefSeq_peptide;Acc:NP_001023478]	amino acid transport, locomotory behavior, 	membrane, 	
21ur-4904	Y4C6B.26				
21ur-4915	Y4C6B.9				
21ur-5375	Y4C6B.18				
Y4C6B.t2	Y4C6B.t2				
Y4C6B.6	Y4C6B.6	The Y4C6B.6 gene encodes a homolog of the human gene GLCM, which when mutated leads to Gaucher disease type I (OMIM:230800). [Source: WormBase]	sphingolipid metabolic process, lysosome organization and biogenesis, 	lysosome, 	glucosylceramidase activity, 
21ur-5057	Y4C6B.16				
21ur-4002	Y4C6B.17				
21ur-1014	Y4C6B.19				
21ur-1963	Y4C6B.15				
Y4C6B.t3	Y4C6B.t3				
Y4C6B.7	Y4C6B.7	Y4C6B.7 [Source:RefSeq_peptide;Acc:NP_001023480]			
Y4C6B.1	Y4C6B.1	Y4C6B.1 [Source:RefSeq_peptide;Acc:NP_500786]			
F41H10.6	F41H10.6	Histone deacetylase 6. [Source:Uniprot/SWISSPROT;Acc:Q20296]			zinc ion binding, 
F41H10.5	F41H10.5	F41H10.5 [Source:RefSeq_peptide;Acc:NP_500789]		integral to membrane, 	
F41H10.4	F41H10.4	F41H10.4 [Source:RefSeq_peptide;Acc:NP_500790]			protein binding, 
sand-1	F41H10.11	sand-1 encodes an ortholog of human MON1A and MON1B and S. cerevisiae MON1, required for normal association of RAB-7 with the membrane, and thus also required for normal (RAB-7-mediated) traffic between early and late endosomes. SAND-1 has a SAND/DUF254 domain, which has structural similarity to longins and distant similarity to human HPS1 (OMIM:604982). SAND-1, like its yeast ortholog Mon1p, binds the CHiPS domain protein F58G11.6 (CCZ-1/HPS-4). sand-1(or552) mutants phenotypically resemble rab-7(ok511) or rab-7(RNAi) animals, with strongly defective endocytosis but normal lysosomes. unlike RAB-7, SAND-1 is cytoplasmic, and its localization is unaffected by loss of RAB-7 function. sand-1(or552) mutants can begin uptake of yolk protein or soluble GFP by oocytes or coelomocytes normally, but further intracellular transport (to oocyte yolk granules or coelomocyte lysosomes) being delayed or blocked. sand-1(or552) mutants accumulate excess RAB-5 and RAB-7, though rab-5(RNAi) animals do not resemble sand-1(or552) or rab-7(RNAi) ones. by orthology with Mon1p, SAND-1 may also be required for autophagy. SAND-1 acts cell-autonomously, and is necessary for embryonic viability and development, with an absolute zygotic requirement and a partial maternal one. sand-1(or552) or sand-1(RNAi) escapers have abnormal body shapes and movement. transgenic SAND-1 partially rescues a mon1 deletion in yeast. [Source: WormBase]			
F41H10.3	F41H10.3	F41H10.3a [Source:RefSeq_peptide;Acc:NP_741398]			
elo-5	F41H10.7	The elo-5 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. ELO-5 is required for normally rapid growth and for normal fatty acid composition. [Source: WormBase]	positive regulation of growth rate, 	integral to membrane, 	
F41H10.2	F41H10.2	F41H10.2 [Source:RefSeq_peptide;Acc:NP_500794]			
F41H10.12	F41H10.12	F41H10.12 [Source:RefSeq_peptide;Acc:NP_500796]			
elo-6	F41H10.8	The elo-6 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. ELO-6 may be required for a normally high growth rate. [Source: WormBase]	positive regulation of growth rate, 	integral to membrane, 	
F41H10.9	F41H10.9	F41H10.9 [Source:RefSeq_peptide;Acc:NP_500798]			
htp-1	F41H10.10	Him-Three Paralog family member (htp-1) [Source:RefSeq_peptide;Acc:NP_500799]	mitosis, chromosome segregation, 		
ZK616.5	ZK616.5	ZK616.5 [Source:RefSeq_peptide;Acc:NP_500800]			
ZK616.6	ZK616.6	ZK616.6 [Source:RefSeq_peptide;Acc:NP_500802]	growth, 		
ZK616.4	ZK616.4	ZK616.4 [Source:RefSeq_peptide;Acc:NP_500801]	embryonic development ending in birth or egg hatching, 		ATP binding, protein binding, 
ZK616.3	ZK616.3	ZK616.3 [Source:RefSeq_peptide;Acc:NP_500803]			protein binding, 
ZK616.2	ZK616.2	ZK616.2 [Source:RefSeq_peptide;Acc:NP_500804]			
21ur-5073	ZK616.11				
21ur-2571	ZK616.22				
ZK616.1	ZK616.1	ZK616.1 [Source:RefSeq_peptide;Acc:NP_500805]			nucleotide binding, nucleic acid binding, 
ZK616.7	ZK616.7	ZK616.7 [Source:RefSeq_peptide;Acc:NP_500806]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ZK616.8	ZK616.8	ZK616.8 [Source:RefSeq_peptide;Acc:NP_500807]			
spp-7	ZK616.9	SaPosin-like Protein family member (spp-7) [Source:RefSeq_peptide;Acc:NP_500808]		extracellular region, 	hormone activity, 
21ur-4141	ZK616.19				
ehn-3	ZK616.10	ehn-3 encodes a nuclear Zn-finger protein with no obvious orthologs. EHN-3 controls development of somatic gonadal precursors (SGPs), and enables both HND-1 and TRA-1 functions in gonadogenesis. EHN-2 is expressed in SGP nuclei. ehn-3 expression is regulated by HND-1, while EHN-3 regulates tra-1 expression. enh-3(q689) homozygotes have mild defects in gonadogenesis, but double homozygotes also carrying hnd-1(q740) or enh-3(q689) are strongly enhanced in the gonad defect. tra-1(e1099) is a dominant enhancer of ehn-3(q689). enh-3(q689) homozygotes have normal expression of HND-1, consistent with the hypothesis that hnd-1 and ehn-3 act in parallel. [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
21ur-4181	ZK616.18				
21ur-4253	ZK616.15				
21ur-4965	ZK616.14				
21ur-3297	ZK616.12				
21ur-3597	ZK616.21				
21ur-1191	ZK616.17				
21ur-665	ZK616.16				
21ur-1274	ZK616.13				
21ur-3799	ZK616.20				
21ur-5098	Y4C6A.19				
21ur-1307	Y4C6A.15				
21ur-3607	Y4C6A.10				
21ur-580	Y4C6A.16				
21ur-1678	Y4C6A.13				
21ur-4756	Y4C6A.6				
21ur-2136	Y4C6A.5				
21ur-954	Y4C6A.8				
21ur-4386	Y4C6A.18				
mgl-3	Y4C6A.2	Metabotropic GLutamate receptor family member (mgl-3) [Source:RefSeq_peptide;Acc:NP_741400]		membrane, 	G-protein coupled receptor activity, metabotropic glutamate, GABA-B-like receptor activity, 
21ur-1392	Y4C6A.17				
21ur-2968	Y4C6A.9				
21ur-4908	Y4C6A.14				
21ur-495	Y4C6A.20				
21ur-1841	Y4C6A.7				
21ur-1230	Y4C6A.11				
21ur-5421	Y4C6A.12				
Y4C6A.3	Y4C6A.3	Y4C6A.3 [Source:RefSeq_peptide;Acc:NP_500811]		membrane, 	protein binding, zinc ion binding, mating-type factor pheromone receptor activity, 
Y4C6A.4	Y4C6A.4	Y4C6A.4 [Source:RefSeq_peptide;Acc:NP_741402]			
Y4C6A.1	Y4C6A.1	Y4C6A.1 [Source:RefSeq_peptide;Acc:NP_500812]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y52D5A.2	Y52D5A.2	Y52D5A.2 [Source:RefSeq_peptide;Acc:NP_500813]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y52D5A.1	Y52D5A.1	Y52D5A.1 [Source:RefSeq_peptide;Acc:NP_500814]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
rme-2	T11F8.3	rme-2 encodes a member of the low-density lipoprotein (LDL) receptor superfamily. RME-2 functions as the C. elegans yolk receptor whose activity is required for yolk uptake during oogenesis. RME-2 is expressed in developing oocytes where it localizes at or near the cell surface. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, 	calcium ion binding, 
T11F8.4	T11F8.4	T11F8.4 [Source:RefSeq_peptide;Acc:NP_500816]	protein amino acid phosphorylation, proteolysis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, subtilase activity, 
T11F8.2	T11F8.2	T11F8.2 [Source:RefSeq_peptide;Acc:NP_500817]			
T11F8.1	T11F8.1	T11F8.1 [Source:RefSeq_peptide;Acc:NP_500818]			
21ur-369	T11F8.6				
21ur-1993	T11F8.7				
T11F8.5	T11F8.5	T11F8.5 [Source:RefSeq_peptide;Acc:NP_001033431]			
B0273.3	B0273.3	B0273.3 [Source:RefSeq_peptide;Acc:NP_500819]			
puf-7	B0273.2	puf-7 encodes a protein 97% identical to PUF-6 and functions redundantly with the other PUF genes, fbf-1, fbf-2, puf-6, and puf-8, during primordial germ cell development, based on combinatorial RNAi. interacts with NOS-2 in yeast two-hybrid screens. [Source: WormBase]	germ cell development, 		RNA binding, 
21ur-3771	B0273.12				
21ur-5240	B0273.22				
B0273.1	B0273.1	B0273.1 [Source:RefSeq_peptide;Acc:NP_500821]			
21ur-2650	B0273.20				
21ur-3591	B0273.8				
unc-5	B0273.4	unc-5 encodes a netrin receptor. unc-5 activity is required cell autonomously for dorsalward cell and pioneer motor axon migrations along the body wall that are essential for normal locomotion and gonad development. unc-5 mRNAs are expressed throughout the entire life cycle, with increasing levels seen as animals progess to adulthood. [Source: WormBase]	signal transduction, positive regulation of locomotion, 		protein binding, 
21ur-3767	B0273.10				
21ur-4213	B0273.5				
21ur-5402	B0273.18				
21ur-5385	B0273.7				
21ur-1163	B0273.15				
21ur-2258	B0273.25				
21ur-883	B0273.37				
21ur-4921	B0273.32				
21ur-67	B0273.14				
21ur-971	B0273.13				
21ur-4907	B0273.35				
21ur-4254	B0273.9				
21ur-1256	B0273.26				
21ur-1966	B0273.34				
21ur-2114	B0273.21				
21ur-525	B0273.19				
21ur-1677	B0273.27				
21ur-293	B0273.29				
21ur-4170	B0273.24				
21ur-3310	B0273.28				
21ur-886	B0273.17				
21ur-1156	B0273.36				
21ur-3197	B0273.11				
21ur-2682	B0273.38				
21ur-2196	B0273.33				
21ur-1410	B0273.23				
21ur-2735	B0273.30				
21ur-3011	B0273.16				
21ur-22	B0273.6				
21ur-4687	B0273.31				
21ur-2426	F35D6.2				
fem-1	F35D6.1	The fem-1 gene encodes an ankyrin repeat-containing protein orthologous to human FEM1A and is required for masculinization of germline and somatic tissues. FEM-1 is widely expressed and functions as a second messenger in the sex determination pathway, connecting the membrane protein TRA-2A to the transcription factor TRA-1A which it negatively regulates. FEM-1 may also play a role in apoptosis, as it is a substrate for the CED-3 protease and can induce apoptosis when overexpressed in mammalian cells. [Source: WormBase]	gamete generation, 		
drp-1	T12E12.4	drp-1 encodes a dynamin-related protein, orthologous to Dnm1p in S. cerevisiae and DRP1 in mammals, that is required for severing of the mitochondrial outer membrane during mitochondrial division. [Source: WormBase]	glycolysis, morphogenesis of an epithelium, apoptotic mitochondrial changes, 		protein binding, GTP binding, GTPase activity, phosphoglycerate kinase activity, 
T12E12.3	T12E12.3	T12E12.3 [Source:RefSeq_peptide;Acc:NP_500827]			
T12E12.2	T12E12.2	T12E12.2 [Source:RefSeq_peptide;Acc:NP_500828]	chromatin assembly or disassembly, 	nucleus, chromatin, 	chromatin binding, 
T12E12.1	T12E12.1	Probable protein ariadne-2 (Ari-2). [Source:Uniprot/SWISSPROT;Acc:Q22431]			protein binding, zinc ion binding, 
21ur-3255	T12E12.18				
21ur-4199	T12E12.16				
21ur-4713	T12E12.17				
21ur-3329	T12E12.11				
21ur-1860	T12E12.10				
21ur-1430	T12E12.9				
T12E12.6	T12E12.6	T12E12.6 [Source:RefSeq_peptide;Acc:NP_500831]	proteolysis, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
21ur-3581	T12E12.13				
21ur-838	T12E12.14				
21ur-1994	T12E12.12				
21ur-3837	T12E12.20				
21ur-2804	T12E12.19				
21ur-3848	T12E12.15				
21ur-1351	H01M01.1				
21ur-3482	F26D12.27				
21ur-3868	F26D12.11				
21ur-3426	F26D12.18				
21ur-4563	F26D12.20				
21ur-1865	F26D12.5				
fkh-7	F26D12.1	fkh-7 encodes one of 15 forkhead transcriptional regulators encoded by the C. elegans genome. by homology, FKH-7 is predicted to function as a transcription factor that regulates gene expression during development. however, as loss of fkh-7 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of FKH-7 in C. elegans development and/or behavior is not yet known. however, reporter gene studies indicate that fkh-7 expression is detected only in neurons of the head and tail ganglia, the nerve cord, and the male tail, suggesting that FKH-7 likely functions in nervous system differentiation. [Source: WormBase]	regulation of transcription, DNA-dependent, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, transcription factor activity, sequence-specific DNA binding, 
21ur-5035	F26D12.17				
21ur-3446	F26D12.22				
21ur-4006	F26D12.25				
21ur-4144	F26D12.12				
21ur-934	F26D12.16				
21ur-5253	F26D12.3				
21ur-735	F26D12.28				
21ur-2239	F26D12.4				
21ur-2236	F26D12.9				
21ur-4736	F26D12.6				
21ur-4099	F26D12.8				
21ur-4721	F26D12.19				
21ur-2427	F26D12.10				
21ur-5149	F26D12.26				
21ur-3065	F26D12.24				
21ur-3962	F26D12.13				
21ur-1357	F26D12.15				
21ur-3341	F26D12.21				
21ur-1663	F26D12.7				
21ur-3187	F26D12.14				
21ur-4009	F26D12.23				
21ur-1635	C39H7.24				
21ur-4758	C39H7.17				
C39H7.2	C39H7.2				
C39H7.4	C39H7.4	C39H7.4 [Source:RefSeq_peptide;Acc:NP_500834]			
21ur-4114	C39H7.15				
21ur-5354	C39H7.10				
21ur-3796	C39H7.16				
21ur-1242	C39H7.11				
srsx-16	C39H7.9	Serpentine Receptor, class SX family member (srsx-16) [Source:RefSeq_peptide;Acc:NP_001023055]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-874	C39H7.21				
21ur-1064	C39H7.19				
21ur-237	C39H7.12				
21ur-4161	C39H7.14				
21ur-3638	C39H7.13				
21ur-746	C39H7.22				
srsx-15	C39H7.8	Serpentine Receptor, class SX family member (srsx-15) [Source:RefSeq_peptide;Acc:NP_001023054]	cell communication, G-protein coupled receptor protein signaling pathway, 	integral to membrane, connexon complex, 	rhodopsin-like receptor activity, 
21ur-4818	C39H7.23				
srsx-14	C39H7.5	Serpentine Receptor, class SX family member (srsx-14) [Source:RefSeq_peptide;Acc:NP_500835]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-2612	C39H7.18				
21ur-4856	C39H7.20				
srd-12	C39H7.6	Serpentine Receptor, class D (delta) family member (srd-12) [Source:RefSeq_peptide;Acc:NP_500836]			
C39H7.1	C39H7.1	C39H7.1 [Source:RefSeq_peptide;Acc:NP_500837]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
srd-13	C39H7.7	Serpentine Receptor, class D (delta) family member (srd-13) [Source:RefSeq_peptide;Acc:NP_500838]			
srd-14	B0547.3				
srd-8	B0547.4	Serpentine Receptor, class D (delta) family member (srd-8) [Source:RefSeq_peptide;Acc:NP_500839]			
B0547.2	B0547.2	B0547.2 [Source:RefSeq_peptide;Acc:NP_500840]			
srd-6	B0547.5				
csn-5	B0547.1	csn-5 encodes an ortholog of subunit 5 of the COP9 signalosome complex (CSN5), which in turn is a pan-eukaryotic multiprotein complex that positively regulates E3 ubiquitin ligases, physically interacts with SCF-type E3 ubiquitin ligases, and probably regulates protein degradation. CSN-5 (along with KGB-1 and ZYX-1) physically binds germline RNA helicases (GLH proteins), and csn-5(RNAi) results in sterile worms with small gonads and no oocytes, causing oogenesis to cease, but not affecting the initial assembly of P granules -- a defect essentially identical to that produced by RNAi with a combination of glh-1 and glh-4. [Source: WormBase]	embryonic development ending in birth or egg hatching, reproduction, 		protein binding, 
skn-1	T19E7.2	skn-1 encodes a transcription factor with similarity to the basic region of bZip transcription factors. during early embryogenesis, maternally provided SKN-1 is required for specification of the EMS blastomere, a mesendodermal precursor that gives rise to pharyngeal, muscle, and intestinal cells. later, during postembryonic development, SKN-1 functions in the p38 MAPK-mediated oxidative stress response pathway, as well as in regulation of lifespan. SKN-1 is detected at highest levels in nuclei of the P1 blastomere and its descendants through the 8-cell stage of embryogenesis. later in embryogenesis, SKN-1 is observed in all hypodermal and intestinal nuclei, with reporter constructs indicating that intestinal expression begins as early as the 50-100-cell stage. in larvae and young adults, SKN-1 reporters are expressed in the intestine and ASI neurons, with expression in intestinal nuclei greatly enhanced under stress-inducing conditions. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, multicellular organismal development, embryonic development ending in birth or egg hatching, positive regulation of transcription from RNA polymerase II promoter, mesendoderm development, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
T19E7.1	T19E7.1	T19E7.1 [Source:RefSeq_peptide;Acc:NP_500843]	embryonic development ending in birth or egg hatching, 		sugar binding, 
bec-1	T19E7.3	bec-1 encodes a coiled-coil protein that is orthologous to the yeast and mammalian autophagy proteins Apg6/Vps30p/beclin1. bec-1 activity is required for normal dauer morphogenesis and survival of dauer larvae, as well as for adult life span extension of daf-2(e1370) mutants at 15 degrees. in addition, loss of bec-1 activity by large-scale RNAi indicates that BEC-1 is required for normal growth rates, movement, and vulval morphogenesis. by homology, BEC-1 may be part of a Class III phosphatidylinositol 3-kinase complex that plays a role in localizing autophagy proteins to preautophagosomal structures, and overexpression of C. elegans bec-1 in S. cerevisiae APG6/VPS30 mutants can rescue associated autophagy defects. a bec-1::GFP reporter fusion is expressed in the hypodermis, intestine, nervous system, pharynx, and reproductive organs, all tissues that are remodelled during dauer larval development. [Source: WormBase]	autophagy, positive regulation of growth rate, 		oxidoreductase activity, transition metal ion binding, 
T19E7.6	T19E7.6	T19E7.6 [Source:RefSeq_peptide;Acc:NP_001033432]			
srd-5	T19E7.5	Serpentine Receptor, class D (delta) family member (srd-5) [Source:RefSeq_peptide;Acc:NP_500845]	pathogenesis, 	integral to membrane, 	
C55C3.4	C55C3.4	C55C3.4 [Source:RefSeq_peptide;Acc:NP_500846]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C55C3.7	C55C3.7	C55C3.7 [Source:RefSeq_peptide;Acc:NP_001023100]			
C55C3.6	C55C3.6	C55C3.6 [Source:RefSeq_peptide;Acc:NP_741407]			
C55C3.3	C55C3.3	C55C3.3 [Source:RefSeq_peptide;Acc:NP_500847]	embryonic development ending in birth or egg hatching, 		
C55C3.8	C55C3.8	C55C3.8 [Source:RefSeq_peptide;Acc:NP_001033406]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
C55C3.5	C55C3.5	C55C3.5 [Source:RefSeq_peptide;Acc:NP_500848]	embryonic development ending in birth or egg hatching, 		lipid binding, 
21ur-3660	C55C3.26				
21ur-1247	C55C3.24				
C55C3.2	C55C3.2	C55C3.2 [Source:RefSeq_peptide;Acc:NP_500849]			
21ur-1722	C55C3.21				
21ur-1539	C55C3.10				
C55C3.1	C55C3.1	C55C3.1 [Source:RefSeq_peptide;Acc:NP_500850]			protein binding, lipid binding, 
21ur-4087	C55C3.25				
21ur-4664	C55C3.13				
21ur-1479	C55C3.19				
21ur-2404	C55C3.14				
21ur-1596	C55C3.16				
21ur-3128	C55C3.20				
21ur-2966	C55C3.15				
21ur-2781	C55C3.29				
21ur-1012	C55C3.22				
21ur-385	C55C3.27				
21ur-3069	C55C3.9				
21ur-1232	C55C3.17				
21ur-3947	C55C3.18				
21ur-1890	C55C3.30				
21ur-2972	C55C3.28				
21ur-2999	C55C3.12				
21ur-3326	C55C3.23				
21ur-281	C55C3.11				
21ur-5153	H35B03.3				
21ur-4645	H35B03.4				
21ur-1735	H35B03.7				
H35B03.1	H35B03.1	H35B03.1 [Source:RefSeq_peptide;Acc:NP_500851]			
21ur-5205	H35B03.5				
21ur-1015	H35B03.6				
H35B03.2	H35B03.2	H35B03.2 encodes an ortholog of Rpp1 (Rpp30), a protein subunit shared by the endoribonucleases RNase MRP and RNAse P. RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. RNAse P cleaves tRNA precursors to produce their mature 5' end. H35B03.2 is evolutionarily ubiquitous among eukaryotes. [Source: WormBase]	tRNA processing, positive regulation of growth rate, 		ribonuclease activity, 
21ur-4106	C45E5.8				
21ur-2958	C45E5.16				
C45E5.4	C45E5.4	C45E5.4 [Source:RefSeq_peptide;Acc:NP_500854]			
21ur-3340	C45E5.17				
21ur-5094	C45E5.10				
21ur-4132	C45E5.13				
21ur-1991	C45E5.15				
C45E5.3	C45E5.3	C45E5.3 [Source:RefSeq_peptide;Acc:NP_500855]	carbohydrate metabolic process, chitin catabolic process, negative regulation of translation, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, rRNA N-glycosylase activity, 
C45E5.2	C45E5.2	C45E5.2 [Source:RefSeq_peptide;Acc:NP_500856]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C45E5.1	C45E5.1	C45E5.1 [Source:RefSeq_peptide;Acc:NP_500857]	metabolic process, 		catalytic activity, hydrolase activity, 
21ur-2984	C45E5.11				
21ur-3725	C45E5.18				
21ur-3089	C45E5.9				
nhr-46	C45E5.6	Nuclear Hormone Receptor family member (nhr-46) [Source:RefSeq_peptide;Acc:NP_001023065]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
21ur-5146	C45E5.7				
21ur-1601	C45E5.12				
21ur-5296	C45E5.14				
21ur-1048	F44E8.9				
21ur-3280	F44E8.2				
21ur-3433	F44E8.7				
21ur-2138	F44E8.15				
21ur-3510	F44E8.4				
21ur-3828	F44E8.10				
21ur-535	F44E8.14				
21ur-2899	F44E8.11				
21ur-1802	F44E8.13				
21ur-1257	F44E8.3				
21ur-4454	F44E8.5				
21ur-3131	F44E8.6				
21ur-618	F44E8.12				
21ur-5074	F44E8.8				
21ur-882	C31H1.32				
21ur-299	C31H1.10				
21ur-4327	C31H1.9				
21ur-3411	C31H1.21				
21ur-206	C31H1.34				
21ur-3108	C31H1.19				
21ur-79	C31H1.35				
21ur-265	C31H1.11				
21ur-86	C31H1.12				
21ur-900	C31H1.23				
21ur-4847	C31H1.26				
C31H1.2	C31H1.2	C31H1.2 [Source:RefSeq_peptide;Acc:NP_500862]	carbohydrate metabolic process, 	nucleus, 	serine-type endopeptidase inhibitor activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
21ur-4156	C31H1.31				
21ur-1047	C31H1.29				
C31H1.5	C31H1.5	C31H1.5 [Source:RefSeq_peptide;Acc:NP_500864]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
21ur-3026	C31H1.22				
21ur-2938	C31H1.18				
C31H1.1	C31H1.1	C31H1.1 [Source:RefSeq_peptide;Acc:NP_500865]			
21ur-2076	C31H1.14				
lntl-1	C31H1.6	C31H1.6a [Source:RefSeq_peptide;Acc:NP_500866]			protein binding, 
21ur-2036	C31H1.33				
21ur-273	C31H1.17				
21ur-2417	C31H1.16				
21ur-4549	C31H1.15				
21ur-4081	C31H1.28				
21ur-4276	C31H1.27				
21ur-2073	C31H1.30				
21ur-2402	C31H1.13				
C31H1.7	C31H1.7	C31H1.7 [Source:RefSeq_peptide;Acc:NP_500867]			
21ur-5028	C31H1.20				
21ur-2982	C31H1.25				
21ur-3416	C31H1.24				
C31H1.8	C31H1.8	C31H1.8 [Source:RefSeq_peptide;Acc:NP_500868]	embryonic development ending in birth or egg hatching, 		
21ur-398	C10G6.3				
21ur-187	C10G6.5				
21ur-1908	C10G6.21				
21ur-4977	C10G6.11				
21ur-1359	C10G6.9				
21ur-878	C10G6.20				
21ur-4525	C10G6.16				
21ur-441	C10G6.17				
C10G6.1	C10G6.1	C10G6.1b [Source:RefSeq_peptide;Acc:NP_001021324]	morphogenesis of an epithelium, 	intracellular, 	protein binding, nucleic acid binding, 3'-5' exonuclease activity, 
21ur-4010	C10G6.13				
21ur-3912	C10G6.4				
21ur-594	C10G6.7				
21ur-987	C10G6.8				
21ur-1819	C10G6.19				
21ur-3616	C10G6.12				
21ur-4658	C10G6.14				
21ur-776	C10G6.18				
21ur-48	C10G6.2				
21ur-2619	C10G6.15				
21ur-1180	C10G6.6				
21ur-5433	C10G6.10				
21ur-4550	C06E7.9				
21ur-2199	C06E7.25				
21ur-4178	C06E7.26				
21ur-3003	C06E7.17				
21ur-5141	C06E7.35				
21ur-2176	C06E7.34				
21ur-1042	C06E7.12				
21ur-2174	C06E7.24				
21ur-2162	C06E7.13				
21ur-4042	C06E7.23				
21ur-2869	C06E7.38				
21ur-4352	C06E7.27				
21ur-178	C06E7.10				
21ur-3600	C06E7.18				
21ur-3476	C06E7.30				
C06E7.2	C06E7.2	C06E7.2 [Source:RefSeq_peptide;Acc:NP_500870]			
21ur-2895	C06E7.28				
21ur-5196	C06E7.19				
21ur-321	C06E7.37				
C06E7.3	C06E7.3	Probable S-adenosylmethionine synthetase C06E7.3 (EC 2.5.1.6) (Methionine adenosyltransferase) (AdoMet synthetase). [Source:Uniprot/SWISSPROT;Acc:P50306]	one-carbon compound metabolic process, positive regulation of growth rate, 		ATP binding, methionine adenosyltransferase activity, 
21ur-432	C06E7.36				
C06E7.1	C06E7.1	Probable S-adenosylmethionine synthetase C06E7.1 (EC 2.5.1.6) (Methionine adenosyltransferase) (AdoMet synthetase). [Source:Uniprot/SWISSPROT;Acc:P50305]	one-carbon compound metabolic process, positive regulation of growth rate, 		ATP binding, methionine adenosyltransferase activity, 
C06E7.4	C06E7.4	C06E7.4 [Source:RefSeq_peptide;Acc:NP_500874]			protein binding, 
21ur-1106	C06E7.32				
21ur-1779	C06E7.33				
21ur-5016	C06E7.14				
21ur-5221	C06E7.39				
21ur-995	C06E7.31				
21ur-4374	C06E7.45				
21ur-3467	C06E7.43				
21ur-5290	C06E7.44				
21ur-2191	C06E7.40				
21ur-224	C06E7.16				
21ur-5187	C06E7.20				
21ur-855	C06E7.22				
21ur-71	C06E7.41				
spe-27	C06E7.6	spe-27 encodes a novel, hydrophilic protein. spe-27 is required for sperm activation (morphogenesis of sperm to crawling spermatozoa), and may act in a common signaling pathway with spe-12 and spe-29 to initiate sperm activation, based on genetic analysis. [Source: WormBase]			
21ur-3996	C06E7.8				
21ur-1948	C06E7.15				
21ur-3585	C06E7.21				
21ur-1205	C06E7.29				
srv-17	C06E7.7	Serpentine Receptor, class V family member (srv-17) [Source:RefSeq_peptide;Acc:NP_500876]			
21ur-1203	C06E7.42				
21ur-906	C06E7.11				
srv-18	H04M03.5				
srv-19	H04M03.6	Serpentine Receptor, class V family member (srv-19) [Source:RefSeq_peptide;Acc:NP_500878]			
21ur-4270	H04M03.20				
21ur-4460	H04M03.25				
srv-20	H04M03.7				
srv-21	H04M03.8	Serpentine Receptor, class V family member (srv-21) [Source:RefSeq_peptide;Acc:NP_500880]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-3567	H04M03.22				
srv-22	H04M03.9	Serpentine Receptor, class V family member (srv-22) [Source:RefSeq_peptide;Acc:NP_500881]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-23	H04M03.10				
21ur-3144	H04M03.14				
H04M03.11	H04M03.11	H04M03.11 [Source:RefSeq_peptide;Acc:NP_500883]			
glf-1	H04M03.4	H04M03.4 encodes a UDP-galactopyranose mutase predicted to synthesize galactofuranose (Gal(f)) as a nucleotide sugar (UDP-Gal(f)). recombinant H04M03.4 has biochemical activity either in vivo (expressed in E. coli) or in vitro. orthologs of H04M03.4 are found in the urochordates Halocynthia and Ciona. [Source: WormBase]	positive regulation of multicellular organism growth, 		
21ur-1235	H04M03.21				
21ur-3682	H04M03.18				
21ur-2797	H04M03.23				
H04M03.3	H04M03.3	H04M03.3 [Source:RefSeq_peptide;Acc:NP_500885]	metabolic process, 		oxidoreductase activity, 
21ur-198	H04M03.15				
21ur-3134	H04M03.27				
nspb-6	H04M03.2	Nematode Specific Peptide family, group B family member (nspb-6) [Source:RefSeq_peptide;Acc:NP_500886]			
21ur-4682	H04M03.16				
21ur-3843	H04M03.19				
H04M03.1	H04M03.1	H04M03.1 [Source:RefSeq_peptide;Acc:NP_500887]	gluconeogenesis, reproduction, 		GTP binding, phosphoenolpyruvate carboxykinase activity, 
21ur-2522	H04M03.13				
H04M03.12	H04M03.12	H04M03.12 [Source:RefSeq_peptide;Acc:NP_500888]			
21ur-1649	H04M03.26				
21ur-2309	H04M03.17				
21ur-918	H04M03.24				
21ur-3101	Y44C4A.1				
21ur-2745	Y44C4A.2				
21ur-5108	H32C10.27				
21ur-4177	H32C10.25				
21ur-5320	H32C10.16				
21ur-5099	H32C10.20				
21ur-1792	H32C10.17				
21ur-2751	H32C10.5				
21ur-816	H32C10.6				
21ur-4318	H32C10.4				
H32C10.3	H32C10.3	H32C10.3 [Source:RefSeq_peptide;Acc:NP_500889]			zinc ion binding, 
21ur-2287	H32C10.23				
21ur-2541	H32C10.11				
21ur-5128	H32C10.19				
21ur-4088	H32C10.24				
21ur-4771	H32C10.9				
21ur-82	H32C10.15				
21ur-3078	H32C10.22				
21ur-4005	H32C10.26				
21ur-5246	H32C10.21				
21ur-2021	H32C10.14				
21ur-100	H32C10.13				
21ur-3611	H32C10.7				
21ur-126	H32C10.10				
21ur-640	H32C10.18				
21ur-1204	H32C10.12				
lin-33	H32C10.2	H32C10.2 [Source:RefSeq_peptide;Acc:NP_500890]			
21ur-1248	H32C10.8				
H32C10.1	H32C10.1	H32C10.1 [Source:RefSeq_peptide;Acc:NP_500891]	metabolic process, hermaphrodite genitalia development, 		hydrolase activity, 
K02B2.3	K02B2.3	K02B2.3 [Source:RefSeq_peptide;Acc:NP_500892]			
K02B2.1	K02B2.1	Putative 6PF-2-K/Fru-2,6-P2ASE [Includes: 6-phosphofructo-2-kinase (EC 2.7.1.105); Fructose-2,6-bisphosphatase (EC 3.1.3.46)]. [Source:Uniprot/SWISSPROT;Acc:Q21122]	metabolic process, fructose 2,6-bisphosphate metabolic process, 		ATP binding, catalytic activity, 
inx-7	K02B2.4	Innexin-7 (Protein opu-7). [Source:Uniprot/SWISSPROT;Acc:Q21123]		gap junction, 	
rps-25	K02B2.5	rps-25 encodes a small ribosomal subunit S25 protein. [Source: WormBase]	positive regulation of growth rate, 	nucleus, chromatin, 	DNA binding, 
21ur-2478	K02B2.18				
21ur-1221	K02B2.11				
21ur-97	K02B2.8				
21ur-3140	K02B2.12				
21ur-4913	K02B2.16				
21ur-5405	K02B2.19				
21ur-1829	K02B2.13				
21ur-4302	K02B2.9				
21ur-4293	K02B2.15				
21ur-4250	K02B2.14				
21ur-2380	K02B2.7				
21ur-141	K02B2.17				
21ur-3568	K02B2.10				
K02B2.6	K02B2.6	K02B2.6 [Source:RefSeq_peptide;Acc:NP_500896]	embryonic development ending in birth or egg hatching, 		
B0350.3	B0350.3	B0350.3 [Source:RefSeq_peptide;Acc:NP_500897]			
21ur-4665	B0350.24				
21ur-4891	B0350.15				
21ur-356	B0350.16				
unc-44	B0350.2	The unc-44 gene encodes an ankyrin-like protein required for proper sex myoblast and axonal guidance during development. [Source: WormBase]	signal transduction, carbohydrate metabolic process, positive regulation of locomotion, 		protein binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 
21ur-5229	B0350.4				
B0350.t1	B0350.t1				
21ur-3644	B0350.25				
21ur-3043	B0350.13				
21ur-3836	B0350.5				
21ur-664	B0350.10				
21ur-184	B0350.17				
21ur-3216	B0350.12				
21ur-3556	B0350.20				
21ur-3689	B0350.21				
21ur-401	B0350.14				
21ur-2935	B0350.6				
21ur-4973	B0350.7				
21ur-4928	B0350.19				
21ur-2403	B0350.9				
21ur-83	B0350.8				
21ur-5083	B0350.26				
21ur-3429	B0350.22				
21ur-3496	B0350.23				
21ur-1749	B0350.11				
21ur-830	B0350.18				
C46G7.3	C46G7.3	C46G7.3 [Source:RefSeq_peptide;Acc:NP_500903]			zinc ion binding, nucleic acid binding, 
C46G7.5	C46G7.5	C46G7.5 [Source:RefSeq_peptide;Acc:NP_001033403]			
C46G7.2	C46G7.2	C46G7.2 [Source:RefSeq_peptide;Acc:NP_500904]			
21ur-5104	C46G7.22				
C46G7.1	C46G7.1	C46G7.1 [Source:RefSeq_peptide;Acc:NP_500905]	positive regulation of growth rate, 		
pqn-22	C46G7.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
21ur-4234	C46G7.23				
21ur-3405	C46G7.17				
21ur-767	C46G7.20				
21ur-751	C46G7.18				
21ur-3768	C46G7.9				
21ur-3780	C46G7.14				
21ur-4315	C46G7.24				
21ur-4584	C46G7.27				
21ur-2567	C46G7.15				
21ur-1165	C46G7.10				
21ur-2946	C46G7.34				
21ur-3983	C46G7.31				
21ur-5132	C46G7.29				
21ur-4731	C46G7.6				
21ur-5365	C46G7.21				
21ur-4430	C46G7.12				
21ur-3825	C46G7.30				
21ur-919	C46G7.11				
21ur-2179	C46G7.7				
21ur-2444	C46G7.35				
21ur-542	C46G7.19				
21ur-3127	C46G7.8				
21ur-4021	C46G7.28				
21ur-615	C46G7.16				
21ur-1804	C46G7.33				
21ur-2480	C46G7.25				
21ur-4068	C46G7.13				
21ur-4200	C46G7.26				
21ur-4137	C46G7.32				
21ur-2732	H16O14.17				
21ur-2322	H16O14.13				
21ur-5295	H16O14.14				
H16O14.2	H16O14.2	H16O14.2 [Source:RefSeq_peptide;Acc:NP_500909]			
kcc-3	H16O14.1	K+/Cl- Cotransporter family member (kcc-3) [Source:RefSeq_peptide;Acc:NP_500910]	transport, ion transport, sodium ion transport, 	membrane, 	transporter activity, sodium:amino acid symporter activity, 
21ur-2354	H16O14.5				
21ur-3386	H16O14.9				
21ur-2348	H16O14.15				
21ur-4492	H16O14.21				
21ur-1078	H16O14.3				
21ur-2933	H16O14.8				
21ur-2320	H16O14.19				
21ur-4620	H16O14.7				
21ur-2839	H16O14.11				
21ur-940	H16O14.10				
21ur-4299	H16O14.4				
21ur-1207	H16O14.12				
21ur-417	H16O14.20				
21ur-1764	H16O14.16				
21ur-223	H16O14.18				
21ur-5175	H16O14.6				
K08B4.2	K08B4.2	K08B4.2 [Source:RefSeq_peptide;Acc:NP_500911]			
21ur-1157	K08B4.12				
21ur-3734	K08B4.11				
ugt-19	K08B4.3	UDP-GlucuronosylTransferase family member (ugt-19) [Source:RefSeq_peptide;Acc:NP_500912]	metabolic process, 		transferase activity, transferring hexosyl groups, 
21ur-331	K08B4.13				
21ur-3740	K08B4.10				
21ur-2987	K08B4.8				
ugt-20	K08B4.4	UDP-GlucuronosylTransferase family member (ugt-20) [Source:RefSeq_peptide;Acc:NP_500913]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
21ur-4109	K08B4.9				
K08B4.5	K08B4.5	K08B4.5 [Source:RefSeq_peptide;Acc:NP_500914]	ubiquitin-dependent protein catabolic process, G-protein coupled receptor protein signaling pathway, 		signal transducer activity, ubiquitin thiolesterase activity, guanyl nucleotide binding, 
K08B4.7	K08B4.7	K08B4.7 [Source:RefSeq_peptide;Acc:NP_001023280]			
cpi-1	K08B4.6	cpi-1 encodes a homolog of cysteine protease inhibitors (cystatins). cpi-1 is at least superficially dispensable for viability and gross morphology. [Source: WormBase]			cysteine protease inhibitor activity, 
lag-1	K08B4.1	lag-1 encodes a transcription factor orthologous to members of the CSL (CBF1, Suppressor of Hairless, LAG-1) family that is highly conserved amongst metazoans. during development, LAG-1 functions as a downstream effector in both the lin-12- and glp-1-mediated Notch-like signaling pathways and accordingly, is required for such processes as germline induction, AC/VU lateral signaling, and embryonic development. LAG-1 can bind a consensus CSL family binding site found in multiple copies in the predicted regulatory regions of lin-12, glp-1, and lag-1, thus implicating LAG-1 as an important component of the positive feedback loop observed in the LIN-12/GLP-1 signaling pathway. [Source: WormBase]	embryonic development ending in birth or egg hatching, oviposition, 		protein binding, 
M03D4.3	M03D4.3	M03D4.3 [Source:RefSeq_peptide;Acc:NP_500917]			
21ur-1374	M03D4.19				
21ur-2651	M03D4.18				
21ur-2964	M03D4.20				
zen-4	M03D4.1	zen-4 encodes a kinesin-like protein that is a member of the kinesin-6 subfamily of plus-end-directed microtubule motors. loss-of-function mutations and RNAi experiments indicate that ZEN-4 is required for completion of cytokinesis after mitosis and for polar body extrusion after meiotic divisions. during mitosis, ZEN-4 is detected at the spindle midzone where it co-localizes with spindle microtubules, and ZEN-4 persists at the midbody remnant once cell division is complete. ZEN-4 is also occasionally seen at centrosomes in interphase cells. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
M03D4.4	M03D4.4	M03D4.4a [Source:RefSeq_peptide;Acc:NP_001023313]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
21ur-1646	M03D4.16				
21ur-4368	M03D4.13				
21ur-386	M03D4.27				
21ur-2260	M03D4.14				
21ur-4317	M03D4.7				
21ur-1440	M03D4.23				
21ur-1818	M03D4.22				
21ur-4364	M03D4.24				
21ur-2501	M03D4.9				
21ur-4438	M03D4.26				
21ur-254	M03D4.10				
21ur-255	M03D4.11				
21ur-3678	M03D4.17				
21ur-563	M03D4.12				
21ur-2924	M03D4.25				
21ur-5209	M03D4.8				
21ur-759	M03D4.21				
21ur-4552	M03D4.15				
M03D4.5	M03D4.5				
M03D4.6	M03D4.6	M03D4.6 [Source:RefSeq_peptide;Acc:NP_500921]	reproduction, 		
H10D12.2	H10D12.2	H10D12.2 [Source:RefSeq_peptide;Acc:NP_500922]			
C11D2.3	C11D2.3	C11D2.3 [Source:RefSeq_peptide;Acc:NP_500923]			
C11D2.7	C11D2.7	C11D2.7 [Source:RefSeq_peptide;Acc:NP_741412]			RNA binding, 
C11D2.4	C11D2.4	C11D2.4 [Source:RefSeq_peptide;Acc:NP_500924]			
nca-1	C11D2.6	nca-1 encodes a novel, four-domain alpha1U Ca2+ channel subunit. nca-1 functions redundantly with a paralog, nca-2, to regulate locomotion and the response to specific volatile anesthetics. in regulating these processes, nca-1 and nca-2 function in the same pathway as unc-79, which encodes a conserved novel protein that positively regulates levels of NCA-1 and NCA-2 protein. nca-1::gfp reporters are expressed in the nervous system in pharyngeal neurons, nerve ring interneurons, some ventral cord neurons, and a few cell bodies in the dorsorectal and lumbar ganglia. [Source: WormBase]	ion transport, translation, calcium ion transport, 	membrane, intracellular, voltage-gated calcium channel complex, ribosome, 	ion channel activity, voltage-gated calcium channel activity, structural constituent of ribosome, 
21ur-4770	C11D2.38				
21ur-319	C11D2.39				
21ur-2707	C11D2.11				
21ur-2245	C11D2.19				
21ur-5158	C11D2.34				
21ur-2262	C11D2.21				
21ur-4260	C11D2.25				
21ur-4646	C11D2.26				
21ur-3465	C11D2.20				
21ur-3839	C11D2.31				
21ur-3737	C11D2.32				
21ur-3155	C11D2.41				
21ur-4948	C11D2.29				
21ur-3844	C11D2.27				
21ur-4335	C11D2.30				
21ur-623	C11D2.23				
21ur-622	C11D2.24				
21ur-555	C11D2.37				
21ur-3209	C11D2.12				
21ur-586	C11D2.10				
21ur-5213	C11D2.13				
21ur-4041	C11D2.9				
21ur-1198	C11D2.18				
21ur-3166	C11D2.35				
21ur-2511	C11D2.40				
21ur-2119	C11D2.15				
21ur-5425	C11D2.36				
C11D2.2	C11D2.2	C11D2.2 [Source:RefSeq_peptide;Acc:NP_500928]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
21ur-4577	C11D2.16				
21ur-21	C11D2.17				
21ur-733	C11D2.28				
21ur-1512	C11D2.14				
21ur-3162	C11D2.8				
21ur-4902	C11D2.22				
21ur-3846	C11D2.33				
C11D2.1	C11D2.1	C11D2.1 [Source:RefSeq_peptide;Acc:NP_500929]			
21ur-2429	H08M21.4				
21ur-297	H08M21.1				
21ur-762	H08M21.2				
21ur-1741	H08M21.3				
21ur-820	C49A9.11				
21ur-3914	C49A9.12				
C49A9.7	C49A9.7	C49A9.7 [Source:RefSeq_peptide;Acc:NP_500930]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, plasma membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, tachykinin receptor activity, neuropeptide receptor activity, 
C49A9.10	C49A9.10	C49A9.10 [Source:RefSeq_peptide;Acc:NP_001023083]			
ugt-24	C49A9.8	UDP-GlucuronosylTransferase family member (ugt-24) [Source:RefSeq_peptide;Acc:NP_500931]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
C49A9.6	C49A9.6	C49A9.6 [Source:RefSeq_peptide;Acc:NP_500932]			
C49A9.5	C49A9.5	C49A9.5 [Source:RefSeq_peptide;Acc:NP_500933]			
C49A9.9	C49A9.9	C49A9.9b [Source:RefSeq_peptide;Acc:NP_001023085]	embryonic development ending in birth or egg hatching, 		
C49A9.4	C49A9.4	C49A9.4 is orthologous to the human gene CYSTATIN B (STEFIN B) (CSTB. OMIM:601145), which when mutated leads to disease. [Source: WormBase]			
C49A9.3	C49A9.3	C49A9.3 [Source:RefSeq_peptide;Acc:NP_500936]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
C49A9.2	C49A9.2	C49A9.2 [Source:RefSeq_peptide;Acc:NP_500937]			
C49A9.1	C49A9.1	C49A9.1 [Source:RefSeq_peptide;Acc:NP_500938]			
F58F9.4	F58F9.4	F58F9.4 [Source:RefSeq_peptide;Acc:NP_500939]			
F58F9.3	F58F9.3	F58F9.3b [Source:RefSeq_peptide;Acc:NP_001023242]			
F58F9.6	F58F9.6	F58F9.6 [Source:RefSeq_peptide;Acc:NP_500942]			
F58F9.8	F58F9.8	F58F9.8 [Source:RefSeq_peptide;Acc:NP_001023243]			
F58F9.9	F58F9.9	F58F9.9 [Source:RefSeq_peptide;Acc:NP_001023244]			
F58F9.10	F58F9.10	F58F9.10 [Source:RefSeq_peptide;Acc:NP_001023239]			
F58F9.11	F58F9.11	F58F9.11 [Source:RefSeq_peptide;Acc:NP_001023240]			
F58F9.7	F58F9.7	F58F9.7 [Source:RefSeq_peptide;Acc:NP_500943]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F58F9.1	F58F9.1	F58F9.1 [Source:RefSeq_peptide;Acc:NP_500944]			ribonucleoside-diphosphate reductase activity, 
T13A10.2	T13A10.2	T13A10.2 [Source:RefSeq_peptide;Acc:NP_500945]			protein binding, zinc ion binding, 
nlp-16	T13A10.5	nlp-16 encodes a predicted neuropeptide that does not belong to a multigene family in C. elegans and is not clearly related to well-characterized neuropeptides. the peptide encoded by nlp-16 has been isolated from Ascaris suum. [Source: WormBase]			
srv-28	T13A10.14	Serpentine Receptor, class V family member (srv-28) [Source:RefSeq_peptide;Acc:NP_001023383]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-29	T13A10.6	Serpentine Receptor, class V family member (srv-29) [Source:RefSeq_peptide;Acc:NP_500948]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-30	T13A10.7	Serpentine Receptor, class V family member (srv-30) [Source:RefSeq_peptide;Acc:NP_500949]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-31	T13A10.9	Serpentine Receptor, class V family member (srv-31) [Source:RefSeq_peptide;Acc:NP_500951]	translation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, intracellular, ribosome, 	rhodopsin-like receptor activity, structural constituent of ribosome, 
aat-4	T13A10.10	aat-4 encodes a predicted amino acid transporter catalytic subunit. unlike catalytic subunits in other organisms, however, AAT-4 does not contain the highly conserved cysteine residue known to facilitate covalent interaction with a glycoprotein subunit, suggesting that AAT-4 does not require this residue for heterodimer formation or, alternatively, does not require the glycoprotein subunit for function. [Source: WormBase]	amino acid transport, transport, 	membrane, 	amino acid transmembrane transporter activity, 
T13A10.1	T13A10.1	T13A10.1 [Source:RefSeq_peptide;Acc:NP_500953]			
tag-32	T13A10.11	Probable S-adenosylmethionine synthetase tag-32 (EC 2.5.1.6) (Methionine adenosyltransferase) (AdoMet synthetase). [Source:Uniprot/SWISSPROT;Acc:Q27522]	one-carbon compound metabolic process, positive regulation of growth rate, 		ATP binding, methionine adenosyltransferase activity, 
srv-32	T13A10.12	Serpentine Receptor, class V family member (srv-32) [Source:RefSeq_peptide;Acc:NP_500955]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, mating-type factor pheromone receptor activity, 
srv-33	T13A10.13	Serpentine Receptor, class V family member (srv-33) [Source:RefSeq_peptide;Acc:NP_500956]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-24	Y73B6BL.10	Serpentine Receptor, class V family member (srv-24) [Source:RefSeq_peptide;Acc:NP_500957]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
hil-2	Y73B6BL.9	Histone H1.2 (Histone H1-like protein 2). [Source:Uniprot/SWISSPROT;Acc:P15796]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
srv-27	Y73B6BL.41	Serpentine Receptor, class V family member (srv-27) [Source:RefSeq_peptide;Acc:NP_500959]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-26	Y73B6BL.40	Serpentine Receptor, class V family member (srv-26) [Source:RefSeq_peptide;Acc:NP_872113]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srv-25	Y73B6BL.11	Serpentine Receptor, class V family member (srv-25) [Source:RefSeq_peptide;Acc:NP_872112]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
csp-2	Y73B6BL.7	The csp-2 gene encodes a caspase homolog that may be involved in apoptosis. [Source: WormBase]	proteolysis, apoptosis, 		cysteine-type peptidase activity, caspase activity, 
Y73B6BL.12	Y73B6BL.12	Y73B6BL.12 [Source:RefSeq_peptide;Acc:NP_500961]	cell redox homeostasis, 	endoplasmic reticulum, 	
Y73B6BL.29	Y73B6BL.29	Y73B6BL.29 [Source:RefSeq_peptide;Acc:NP_500962]			pseudouridylate synthase activity, 
sqd-1	Y73B6BL.6	homologous to Drosophila SQD (squid) protein family member (sqd-1) [Source:RefSeq_peptide;Acc:NP_001023573]	gamete generation, 		nucleotide binding, nucleic acid binding, 
lsm-8	Y73B6BL.32	LSM Sm-like protein family member (lsm-8) [Source:RefSeq_peptide;Acc:NP_500964]	mRNA metabolic process, 	ribonucleoprotein complex, 	
Y73B6BL.5	Y73B6BL.5	Y73B6BL.5b [Source:RefSeq_peptide;Acc:NP_500966]			
Y73B6BL.30	Y73B6BL.30	Y73B6BL.30 [Source:RefSeq_peptide;Acc:NP_500967]			
mif-4	Y73B6BL.13	MIF (macrophage migration inhibitory factor) related family member (mif-4) [Source:RefSeq_peptide;Acc:NP_500968]			
Y73B6BL.4	Y73B6BL.4	Y73B6BL.4 [Source:RefSeq_peptide;Acc:NP_500969]	lipid metabolic process, 		
Y73B6BL.14	Y73B6BL.14	Y73B6BL.14 [Source:RefSeq_peptide;Acc:NP_500970]			
Y73B6BL.16	Y73B6BL.16	Y73B6BL.16 [Source:RefSeq_peptide;Acc:NP_500972]			
Y73B6BL.47	Y73B6BL.47	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2V8C6]			
smg-3	Y73B6BL.18	Suppressor with Morphological effect on Genitalia family member (smg-3) [Source:RefSeq_peptide;Acc:NP_500974]	RNA metabolic process, mRNA catabolic process, nonsense-mediated decay, 	cellular_component, 	protein binding, 
Y73B6BL.33	Y73B6BL.33	Y73B6BL.33 [Source:RefSeq_peptide;Acc:NP_741422]	biological_process, 		nucleotide binding, protein binding, nucleic acid binding, 
col-112	Y73B6BL.34	COLlagen family member (col-112) [Source:RefSeq_peptide;Acc:NP_741423]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
Y73B6BL.19	Y73B6BL.19	Y73B6BL.19 encodes a SHAL/Kv4 ortholog, which encodes voltage-dependent potassium channels expressed in muscle. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
21ur-298	Y73B6BL.51				
21ur-3666	Y73B6BL.65				
Y73B6BL.20	Y73B6BL.20	Y73B6BL.20 [Source:RefSeq_peptide;Acc:NP_500976]			
21ur-4751	Y73B6BL.55				
21ur-1336	Y73B6BL.63				
21ur-3080	Y73B6BL.64				
Y73B6BL.21	Y73B6BL.21	Y73B6BL.21 [Source:RefSeq_peptide;Acc:NP_500977]			
21ur-2430	Y73B6BL.71				
21ur-3344	Y73B6BL.82				
21ur-267	Y73B6BL.60				
21ur-4451	Y73B6BL.67				
21ur-3335	Y73B6BL.69				
21ur-2182	Y73B6BL.58				
srv-13	Y73B6BL.39	Serpentine Receptor, class V family member (srv-13) [Source:RefSeq_peptide;Acc:NP_872111]	G-protein coupled receptor protein signaling pathway, visual perception, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sevenless binding, 
21ur-2450	Y73B6BL.68				
Y73B6BL.35	Y73B6BL.35	Y73B6BL.35 [Source:RefSeq_peptide;Acc:NP_741424]			
21ur-3958	Y73B6BL.56				
21ur-1323	Y73B6BL.78				
exos-2	Y73B6BL.3	Y73B6BL.3 [Source:RefSeq_peptide;Acc:NP_500978]			RNA binding, 
Y73B6BL.22	Y73B6BL.22	Y73B6BL.22 [Source:RefSeq_peptide;Acc:NP_500979]			
Y73B6BL.23	Y73B6BL.23	Y73B6BL.23 [Source:RefSeq_peptide;Acc:NP_500980]			
htp-2	Y73B6BL.2	Him-Three Paralog family member (htp-2) [Source:RefSeq_peptide;Acc:NP_500981]	mitosis, 		
Y73B6BL.45	Y73B6BL.45	Y73B6BL.45 [Source:RefSeq_peptide;Acc:NP_001041059]			
puf-11	Y73B6BL.38	PUF (Pumilio/FBF) domain-containing family member (puf-11) [Source:RefSeq_peptide;Acc:NP_741425]	embryonic development ending in birth or egg hatching, 		RNA binding, binding, 
Y73B6BL.24	Y73B6BL.24	Y73B6BL.24 [Source:RefSeq_peptide;Acc:NP_500982]			acid phosphatase activity, 
Y73B6BL.25	Y73B6BL.25	Y73B6BL.25 [Source:RefSeq_peptide;Acc:NP_500983]			acid phosphatase activity, 
Y73B6BL.43	Y73B6BL.43	Y73B6BL.43 [Source:RefSeq_peptide;Acc:NP_001023571]	microtubule-based process, 	microtubule associated complex, 	microtubule motor activity, 
Y73B6BL.31	Y73B6BL.31	Y73B6BL.31a [Source:RefSeq_peptide;Acc:NP_001023568]		membrane, 	
21ur-2591	Y73B6BL.57				
21ur-4705	Y73B6BL.54				
21ur-1928	Y73B6BL.77				
lgc-10	Y73B6BL.26	Y73B6BL.26 [Source:RefSeq_peptide;Acc:NP_500985]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
21ur-1363	Y73B6BL.75				
21ur-899	Y73B6BL.70				
NR_003463.1	Y73B6BL.46	Y73B6BL.46, snRNA [Source:RefSeq_dna;Acc:NR_003463]			
acr-25	Y73B6BL.42		transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
Y73B6BL.36	Y73B6BL.36	Y73B6BL.36 [Source:RefSeq_peptide;Acc:NP_741426]			
21ur-1520	Y73B6BL.84				
Y73B6BL.27	Y73B6BL.27	Y73B6BL.27 [Source:RefSeq_peptide;Acc:NP_500986]			
21ur-3194	Y73B6BL.72				
21ur-4395	Y73B6BL.74				
21ur-4507	Y73B6BL.83				
21ur-3202	Y73B6BL.73				
Y73B6BL.1	Y73B6BL.1	Y73B6BL.1 is orthologous to the human gene TRANSTHYRETIN (PREALBUMIN, AMYLOIDOSIS TYPE I) (TYR. OMIM:176300), which when mutated leads to disease. [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
Y73B6BL.t1	Y73B6BL.t1				
21ur-4616	Y73B6BL.50				
Y73B6BL.28	Y73B6BL.28	Y73B6BL.28 [Source:RefSeq_peptide;Acc:NP_500988]			
21ur-277	Y73B6BL.79				
Y73B6BL.37	Y73B6BL.37	Y73B6BL.37 [Source:RefSeq_peptide;Acc:NP_741427]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
21ur-526	Y73B6BL.53				
21ur-984	Y73B6BL.81				
21ur-1414	Y73B6BL.80				
Y73B6BL.44	Y73B6BL.44	Y73B6BL.44 [Source:RefSeq_peptide;Acc:NP_001023572]			
21ur-5051	Y73B6BL.49				
21ur-818	Y73B6BL.59				
21ur-3463	Y73B6BL.66				
21ur-3318	Y73B6BL.62				
21ur-3368	Y73B6BL.61				
21ur-1029	Y73B6BL.76				
21ur-1840	Y73B6BL.52				
21ur-2113	Y73B6BL.48				
21ur-1534	Y73B6BR.4				
21ur-4522	Y73B6BR.3				
21ur-2048	Y73B6BR.2				
pqn-89	Y73B6BR.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
21ur-4265	Y73B6BR.5				
C01G5.7	C01G5.7	C01G5.7 [Source:RefSeq_peptide;Acc:NP_500990]			
C01G5.9	C01G5.9	C01G5.9 [Source:RefSeq_peptide;Acc:NP_500991]			
C01G5.6	C01G5.6	C01G5.6 [Source:RefSeq_peptide;Acc:NP_500992]	proteolysis, 		aspartic-type endopeptidase activity, 
C01G5.5	C01G5.5	C01G5.5 [Source:RefSeq_peptide;Acc:NP_500993]	embryonic development ending in birth or egg hatching, 		oxidoreductase activity, 
tag-292	C01G5.2	Temporarily Assigned Gene name family member (tag-292) [Source:RefSeq_peptide;Acc:NP_500994]	embryonic development ending in birth or egg hatching, 		
C01G5.4	C01G5.4	C01G5.4 [Source:RefSeq_peptide;Acc:NP_500995]		viral capsid, 	structural molecule activity, 
C01G5.3	C01G5.3	C01G5.3 [Source:RefSeq_peptide;Acc:NP_500996]			
C01G5.8	C01G5.8	C01G5.8 [Source:RefSeq_peptide;Acc:NP_500997]			protein binding, 
C43G2.1	C43G2.1	ADIPOR-like receptor C43G2.1. [Source:Uniprot/SWISSPROT;Acc:Q94177]	signal transduction, regulation of transcription, DNA-dependent, hormone-mediated signaling, fatty acid oxidation, 	integral to membrane, 	hormone binding, 
C43G2.t1	C43G2.t1				
try-3	C43G2.5	C43G2.5 [Source:RefSeq_peptide;Acc:NP_500999]	proteolysis, 		serine-type endopeptidase activity, 
C43G2.4	C43G2.4	Uncharacterized protein C43G2.4. [Source:Uniprot/SWISSPROT;Acc:Q94175]			
C43G2.t2	C43G2.t2				
C43G2.2	C43G2.2	C43G2.2 [Source:RefSeq_peptide;Acc:NP_501001]	regulation of transcription, positive regulation of multicellular organism growth, 	nucleus, 	transcription regulator activity, 
C43G2.3	C43G2.3	C43G2.3 [Source:RefSeq_peptide;Acc:NP_501002]			
F38A5.1	F38A5.1	Probable Ufm1-specific protease (EC 3.4.22.-) (UfSP). [Source:Uniprot/SWISSPROT;Acc:Q94218]			
F38A5.2	F38A5.2	F38A5.2a [Source:RefSeq_peptide;Acc:NP_501004]			
dnj-11	F38A5.13	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	nucleus, 	heat shock protein binding, DNA binding, 
lec-11	F38A5.3	lec-11 encodes a predicted member of the galectin family that shares highest similarity with lec-7 through lec-10 within the C-terminal tail and also shares a higher relative histidine content in common with lec-7 through lec-10. can bind sugar in vitro. [Source: WormBase]			sugar binding, 
nspb-1	F38A5.14	Nematode Specific Peptide family, group B family member (nspb-1) [Source:RefSeq_peptide;Acc:NP_001023190]	biological_process, 		
nspb-2	F38A5.12	Nematode Specific Peptide family, group B family member (nspb-2) [Source:RefSeq_peptide;Acc:NP_501008]	biological_process, 		
F38A5.11	F38A5.11	F38A5.11 [Source:RefSeq_peptide;Acc:NP_501009]		membrane, 	
nspb-3	F38A5.5	Nematode Specific Peptide family, group B family member (nspb-3) [Source:RefSeq_peptide;Acc:NP_501010]	biological_process, 		
F38A5.6	F38A5.6	F38A5.6 [Source:RefSeq_peptide;Acc:NP_501011]		cytoplasm, 	protein binding, 
nspb-4	F38A5.10	Nematode Specific Peptide family, group B family member (nspb-4) [Source:RefSeq_peptide;Acc:NP_501012]	biological_process, 		
nspb-5	F38A5.9	Nematode Specific Peptide family, group B family member (nspb-5) [Source:RefSeq_peptide;Acc:NP_501013]	biological_process, 		
F38A5.8	F38A5.8	F38A5.8 [Source:RefSeq_peptide;Acc:NP_501014]			
F38A5.7	F38A5.7	F38A5.7 [Source:RefSeq_peptide;Acc:NP_501015]			protein binding, 
F15B10.3	F15B10.3	F15B10.3 [Source:RefSeq_peptide;Acc:NP_501016]			
F15B10.1	F15B10.1	The F15B10.1 gene encodes an ortholog of the Kluyveromyces lactis UDP-N-acetylglucosamine (UPD-GlcNAc) transporter. when expressed in human cells deficient for GDP-fucose transport into the Golgi, F15B10.1 is able to weakly restore such transport (with ~10% efficiency). [Source: WormBase]	nucleotide-sugar transport, 	integral to membrane, 	nucleotide-sugar transmembrane transporter activity, 
drh-1	F15B10.2	drh-1 encodes a DExH-box helicase. loss of drh-1 activity via RNAi suggests that drh-1 is required, perhaps redundantly with drh-2, for both germline and somatic RNA interference (RNAi). DRH-1 interacts in vivo with RDE-4, a double-stranded RNA-binding protein required for the initiation phase of RNAi. [Source: WormBase]	RNA interference, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, 
drh-2	C01B10.1	drh-2 encodes a DExH-box helicase. loss of drh-2 activity via RNAi suggests that drh-2 is required, perhaps redundantly with drh-1, for both germline and somatic RNA interference (RNAi). [Source: WormBase]	RNA interference, 		ATP binding, nucleic acid binding, helicase activity, 
C01B10.3	C01B10.3	C01B10.3 encodes a paralog of IPP-5, and thus may functionally overlap with ipp-5 in vivo. [Source: WormBase]			protein binding, inositol or phosphatidylinositol phosphatase activity, 
C01B10.10	C01B10.10	C01B10.10 [Source:RefSeq_peptide;Acc:NP_501021]	proteolysis, 		aminopeptidase activity, 
C01B10.4	C01B10.4	C01B10.4 [Source:RefSeq_peptide;Acc:NP_501022]			
C01B10.9	C01B10.9	C01B10.9 [Source:RefSeq_peptide;Acc:NP_501023]	metabolic process, nucleotide metabolic process, 		hydrolase activity, 
C01B10.8	C01B10.8	C01B10.8 [Source:RefSeq_peptide;Acc:NP_501024]	metabolic process, 		protein binding, methyltransferase activity, catalytic activity, 
C01B10.7	C01B10.7	C01B10.7 [Source:RefSeq_peptide;Acc:NP_501025]			transferase activity, transferring hexosyl groups, 
C01B10.6	C01B10.6	C01B10.6b [Source:RefSeq_peptide;Acc:NP_741429]			
hil-7	C01B10.5	hil-7 encodes a histone H1.1 isoform that is required in the germline for chromatin silencing (assayed by silencing of transgenic DNA), for proliferation and differentiation, and for fertility. hil-7(RNAi) phenotypes resemble the Mes phenotype resulting from the desilencing of genes required for somatic differentiation in the germline. HIL-7 is required in both the hermaphrodite and the male germlines, and is ubiquitously expressed in all nuclei (somatic and germline). [Source: WormBase]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
C01B10.11	C01B10.11	C01B10.11 [Source:RefSeq_peptide;Acc:NP_001021280]	positive regulation of multicellular organism growth, 		
Y73B6A.1	Y73B6A.1	Y73B6A.1 [Source:RefSeq_peptide;Acc:NP_501030]	protein amino acid phosphorylation, nucleosome assembly, 	nucleus, nucleosome, 	protein kinase activity, ATP binding, protein serine/threonine kinase activity, DNA binding, 
Y73B6A.6	Y73B6A.6	Y73B6A.6 [Source:RefSeq_peptide;Acc:NP_001033459]			
Y73B6A.2	Y73B6A.2	Y73B6A.2 [Source:RefSeq_peptide;Acc:NP_501031]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
Y73B6A.3	Y73B6A.3	Y73B6A.3 [Source:RefSeq_peptide;Acc:NP_501032]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, transferase activity, transferring hexosyl groups, 
smg-7	Y73B6A.4	Suppressor with Morphological effect on Genitalia family member (smg-7) [Source:RefSeq_peptide;Acc:NP_501033]	mRNA catabolic process, nonsense-mediated decay, 		
lin-45	Y73B6A.5	The lin-45 gene encodes an ortholog of the vertebrate protein RAF which is required for larval viability, fertility and the induction of vulval cell fates. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, signal transduction, nematode larval development, reproduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, receptor signaling protein activity, 
H34C03.2	H34C03.2	H34C03.2 [Source:RefSeq_peptide;Acc:NP_501035]	ubiquitin cycle, ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
H34C03.1	H34C03.1	H34C03.1 [Source:RefSeq_peptide;Acc:NP_501036]			
C17H12.13	C17H12.13	C17H12.13a [Source:RefSeq_peptide;Acc:NP_001076662]	metabolic process, 		N-acetyltransferase activity, 
dyci-1	C17H12.1	DYnein Chain, light Intermediate family member (dyci-1) [Source:RefSeq_peptide;Acc:NP_501038]	embryonic development ending in birth or egg hatching, 		protein binding, 
C17H12.2	C17H12.2	C17H12.2 [Source:RefSeq_peptide;Acc:NP_501039]			
vha-8	C17H12.14	vha-8 encodes an ortholog of subunit E of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-8 is a predicted cytosolic stator (stalk) component. VHA-8 is required for embryonic and larval viability, for ovulation, and for receptor-mediated endocytosis of yolk protein. VHA-8 is highly expressed in the cytoplasm of excretory canals throughout development, and in the stacked apical plasma membrane sheets of syncytial hypodermal cells. general levels of VHA-8 protein are very low in embryos but increase strongly after hatching. vha-8 mutants show necrotic cell death in hypodermis and intestine, paralleling the role of VHA-12 and other V-ATPase subunits in neuronal necrosis. VHA-8 is dispensable for alae formation, like the V1 subunit VHA-13, but not like the V0 subunits VHA-1 and VHA-4. [Source: WormBase]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
C17H12.3	C17H12.3	C17H12.3 [Source:RefSeq_peptide;Acc:NP_501041]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C17H12.12	C17H12.12	C17H12.12 [Source:RefSeq_peptide;Acc:NP_501042]			protein binding, 
C17H12.4	C17H12.4	C17H12.4 [Source:RefSeq_peptide;Acc:NP_501043]			
C17H12.11	C17H12.11	C17H12.11 [Source:RefSeq_peptide;Acc:NP_501044]			
C17H12.10	C17H12.10	C17H12.10 [Source:RefSeq_peptide;Acc:NP_501045]			
ceh-48	C17H12.9	ceh-48 encodes a ONECUT class CUT homeobox protein with a single N-terminal cut domain. the cut domain may be a compact DNA-binding domain composed of alpha helices. CEH-48 is strongly affiliated with, and may be orthologous to, Drosophila ONECUT and mammalian HNF6 proteins. ceh-48 has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, ATP synthesis coupled proton transport, 	nucleus, proton-transporting two-sector ATPase complex, 	ATP binding, protein binding, DNA binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, transcription factor activity, sequence-specific DNA binding, 
C17H12.5	C17H12.5	C17H12.5 [Source:RefSeq_peptide;Acc:NP_501047]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C17H12.8	C17H12.8	C17H12.8 [Source:RefSeq_peptide;Acc:NP_501048]			
C17H12.6	C17H12.6	C17H12.6 [Source:RefSeq_peptide;Acc:NP_501049]			
C17H12.7	C17H12.7				
H20E11.3	H20E11.3	H20E11.3b [Source:RefSeq_peptide;Acc:NP_001023262]			
H20E11.2	H20E11.2	H20E11.2 [Source:RefSeq_peptide;Acc:NP_501051]	type I hypersensitivity, 		
H20E11.1	H20E11.1	H20E11.1a [Source:RefSeq_peptide;Acc:NP_001023259]			
lip-1	C05B10.1	lip-1 encodes a mitogen-activated protein (MAP) kinase phosphatase homologous to the vertebrate dual specificity phosphatase MKP-3. during development, LIP-1 negatively regulates MAP kinase activity to control the extent of germline proliferation and oocyte meiotic cell cycle progression. lip-1 activity is also required redundantly with dep-1 to negatively regulate MAPK signaling during vulval induction. in addition, lip-1 is required for normal embryonic development. lip-1 expression begins during embryogenesis and continues through adulthood. expression is seen in most somatic cells and in germ cells of the pachytene region, transition zone and proximal-most region of the mitotic zone. in the pachytene region, LIP-1 is associated with the plasma membrane. in early L3 larvae, LIP-1 expression increases in secondary vulval precursor cells in a lin-12/Notch-dependent manner, suggesting that lip-1 may be a direct downstream target of lin-12-mediated signaling. interaction with the Notch pathway is further demonstrated by chromatin immunoprecipitation experiments showing that, in the germline, the lip-1 promoter region coprecipitates with LAG-3. germline lip-1 mRNA accumulation is negatively regulated by the FBF proteins (FBF-1 and FBF-2) that bind to the lip-1 3'UTR. [Source: WormBase]	protein amino acid dephosphorylation, dephosphorylation, negative regulation of MAP kinase activity, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, MAP kinase tyrosine/serine/threonine phosphatase activity, 
R13H7.2	R13H7.2	R13H7.2a [Source:RefSeq_peptide;Acc:NP_741433]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
R13H7.3	R13H7.3				
srx-20	R13H7.1	Serpentine Receptor, class X family member (srx-20) [Source:RefSeq_peptide;Acc:NP_501056]			
srx-19	T05A12.1	Serpentine Receptor, class X family member (srx-19) [Source:RefSeq_peptide;Acc:NP_501057]			
tre-2	T05A12.2	tre-2 encodes one of four putative trehalases in C. elegans of unknown function, as RNAi analysis has not produced an obvious phenotype. expressed throughout development. [Source: WormBase]	trehalose metabolic process, 		alpha,alpha-trehalase activity, 
T05A12.3	T05A12.3	T05A12.3 [Source:RefSeq_peptide;Acc:NP_501059]			
T05A12.4	T05A12.4	T05A12.4a [Source:RefSeq_peptide;Acc:NP_001023359]	DNA repair, 		ATP binding, protein binding, zinc ion binding, DNA binding, nucleic acid binding, helicase activity, 
T22D1.6	T22D1.6	T22D1.6 [Source:RefSeq_peptide;Acc:NP_501061]			
T22D1.8	T22D1.8	T22D1.8 [Source:RefSeq_peptide;Acc:NP_501062]			
T22D1.5	T22D1.5	T22D1.5 [Source:RefSeq_peptide;Acc:NP_501063]	embryonic development ending in birth or egg hatching, 		
rpn-1	T22D1.9	rpn-1 encodes a non-ATPase subunit of the 26S proteasome's 19S regulatory particle (RP) base subcomplex. rpn-1 activity is essential for embryonic, larval, and germline development. by homology, RPN-1 is predicted to function in unfolding and recognition of protein substrates and/or recycling of ubiquitin moieties during protein degradation. [Source: WormBase]	biological_process, reproduction, 		
T22D1.4	T22D1.4	T22D1.4 [Source:RefSeq_peptide;Acc:NP_501065]	protein amino acid glycosylation, negative regulation of multicellular organism growth, 	integral to membrane, endoplasmic reticulum, 	dolichyl-diphosphooligosaccharide-protein glycotransferase activity, 
T22D1.3	T22D1.3	T22D1.3b [Source:RefSeq_peptide;Acc:NP_001023396]	response to antibiotic, GMP biosynthetic process, tetracycline transport, 	integral to membrane, 	catalytic activity, tetracycline:hydrogen antiporter activity, IMP dehydrogenase activity, 
ruvb-2	T22D1.10	RUVB (recombination protein) homolog family member (ruvb-2) [Source:RefSeq_peptide;Acc:NP_501067]	positive regulation of growth rate, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA helicase activity, 
T22D1.2	T22D1.2	T22D1.2 [Source:RefSeq_peptide;Acc:NP_501068]			nutrient reservoir activity, 
T22D1.1	T22D1.1	T22D1.1 [Source:RefSeq_peptide;Acc:NP_501069]	intracellular signaling cascade, signal transduction, lipid metabolic process, embryonic development ending in birth or egg hatching, 		protein binding, phosphoinositide phospholipase C activity, 
T22D1.11	T22D1.11	T22D1.11 [Source:RefSeq_peptide;Acc:NP_501070]			
T22D1.12	T22D1.12	T22D1.12 [Source:RefSeq_peptide;Acc:NP_501071]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
jnk-1	B0478.1	jnk-1 encodes a serine/threonine kinase that is the sole C. elegans member of the c-Jun N-terminal kinase (JNK) subgroup of mitogen-activated protein (MAP) kinases. JNK-1 exhibits kinase activity in vitro that is dependent upon activation by the JKK-1 MAPKK. a JNK-1::GFP translational fusion protein is expressed in nearly all neuronal cell bodies and processes, including the nerve ring, head and tail ganglions, and the dorsal and ventral nerve cords, at all stages of development. [Source: WormBase]	protein amino acid phosphorylation, hyperosmotic response, JNK cascade, vesicle transport along actin filament, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, 
B0478.3	B0478.3	B0478.3 [Source:RefSeq_peptide;Acc:NP_501074]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
ZK381.2	ZK381.2	UPF0392 protein ZK381.2. [Source:Uniprot/SWISSPROT;Acc:Q23469]			
ZK381.8	ZK381.8	ZK381.8 [Source:RefSeq_peptide;Acc:NP_001023614]			
nhr-249	ZK381.3	Nuclear Hormone Receptor family member (nhr-249) [Source:RefSeq_peptide;Acc:NP_501076]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
pgl-1	ZK381.4	pgl-1 encodes a predicted RNA-binding protein that contains a number of C-terminal RGG box motifs. PGL-1 activity is required at high temperatures during midlarval to adult stages for postembryonic germline development and hence fertility, and also for proper formation of the germline-specific P granules. PGL-1 protein, supplied maternally and embryonically, is a constitutive P granule component and thus, its localization is cytoplasmic in oocytes and early embryos, while perinuclear in the germline blastomere P4 and proliferating germ cells of larvae and adults. pgl-1 mRNA is expressed exclusively in hermaphrodite and male germlines and is detectable at all stages of development, with highest levels seen in adults. PGL-1 localization to P granules requires wild-type activity of the predicted germline helicase GLH-1. [Source: WormBase]	gamete generation, 		protein binding, identical protein binding, 
him-3	ZK381.1	him-3 encodes a homolog of the S. cerevisiae HOP1 protein which is required for the formation of the synaptonemal complex during meiosis. him-3 is required for synapsis and chiasma formation during meiotic recombination and for chromosome segregation. him-3 mutants show a high frequency of males in the population as well as a high frequency of arrested embryos due to defects in X-chromosome segregation. HIM-3 localizes to the meiotic chromosome associating with both unsynapsed and synapsed chromosomes. [Source: WormBase]	mitosis, embryonic development ending in birth or egg hatching, sister chromatid cohesion, 		
prkl-1	ZK381.5	prkl-1 encodes a homolog of Drosophila ESPINAS and PRICKLE, and of human PRICKLE1, PRICKLE2, and LMO6. prkl-1 enables Wnt-directed planar cell polarity. prkl-1 is required for the fully asymmetrical division of B.a versus B.p cells, though this requirement is quantitatively weak. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		zinc ion binding, 
21ur-1101	ZK381.13				
21ur-2087	ZK381.10				
21ur-4660	ZK381.9				
21ur-870	ZK381.12				
21ur-1004	ZK381.11				
C25A8.5	C25A8.5	C25A8.5 [Source:RefSeq_peptide;Acc:NP_501081]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C25A8.4	C25A8.4	Chitinase-like protein C25A8.4 precursor (EC 3.2.1.-). [Source:Uniprot/SWISSPROT;Acc:Q18143]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C25A8.2	C25A8.2	C25A8.2 [Source:RefSeq_peptide;Acc:NP_501083]	nucleosome assembly, 	nucleus, chromatin, nucleosome, 	DNA binding, 
C25A8.1	C25A8.1	C25A8.1 [Source:RefSeq_peptide;Acc:NP_501084]			
trxr-1	C06G3.7	C06G3.7 encodes an homolog of the mammalian thioredoxin reductase isozymes TR1 and TR2. like its mammalian homologs, C06G3.7 has a TGA-encoded C-terminal penultimate selenocysteine (Sec) residue. labelling of C. elegans with selenium-75 demonstrates that TR-Se is the major naturally occurring selenoprotein in C. elegans, and computational analysis indicates that it is probably the only selenoprotein encoded by the genome. the 3'-untranslated region of this gene contains a selenocysteine insertion sequence that is functional in mammalian cell culture. by phylogenetic profiling, C06G3.7 protein is predicted to be mitochondrial. [Source: WormBase]	electron transport, cell redox homeostasis, thioredoxin pathway, 	cytoplasm, cytosol, 	oxidoreductase activity, NADP binding, FAD binding, thioredoxin-disulfide reductase activity, disulfide oxidoreductase activity, oxidoreductase activity, acting on NADH or NADPH, disulfide as acceptor, 
C06G3.6	C06G3.6	C06G3.6 [Source:RefSeq_peptide;Acc:NP_501086]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, zinc ion binding, 
C06G3.5	C06G3.5	C06G3.5 is orthologous to human ADENOSINE DEAMINASE (ADA. OMIM:102700), which when mutated leads to severe combined immunodeficiency. [Source: WormBase]	purine ribonucleoside monophosphate biosynthetic process, embryonic development ending in birth or egg hatching, 		adenosine deaminase activity, deaminase activity, 
C06G3.4	C06G3.4	C06G3.4 [Source:RefSeq_peptide;Acc:NP_501088]		intracellular, 	
C06G3.8	C06G3.8	C06G3.8 [Source:RefSeq_peptide;Acc:NP_501089]			nucleic acid binding, 
C06G3.9	C06G3.9	C06G3.9 [Source:RefSeq_peptide;Acc:NP_501090]			
C06G3.3	C06G3.3	C06G3.3 [Source:RefSeq_peptide;Acc:NP_501091]			
cogc-2	C06G3.10	cogc-2 encodes an ortholog of mammalian COG-2, a subunit of lobe A of the conserved oligomeric Golgi complex (COGC). COGC-2 is required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe A subunits in both C. elegans and S. cerevisiae, COGC-2 is strongly required for normal function, while lobe B subunits are only partially required in either worms or yeast. [Source: WormBase]	protein transport, Golgi organization and biogenesis, positive regulation of growth rate, 	membrane, 	protein binding, 
klp-18	C06G3.2	klp-18 encodes a kinesin motor protein whose motor domain is most similar to that of the Xenopus and human klp2 proteins. loss of klp-18 activity via RNAi indicates that KLP-18 is required for the assembly of a disordered array of acentrosomal (female meiotic) microtubules into an organized, functional, bipolar spindle. in addition, KLP-18 may also play a role in cortex dynamics during post-meiotic development. antibody staining indicates that during meiosis and mitosis (early embryonic) KLP-18 localizes to: 1) spindles, and especially spindle poles, during prometaphase, metaphase, and early anaphase, and 2) the interzone during late anaphase and telophase. in early embryos, KLP-18 is also seen around the nucleus and cell cortex at sites of cell-cell contact. KLP-18 expression in later embryos and larvae is confined to the germ line which, in adults, stains brightly in both distal and proximal regions. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
tin-9.1	C06G3.11	tin-9 encodes a member of the Tim10/DDP family of zinc finger proteins, a family of proteins typically involved in mitochondrial protein import, and localized to the mitochondrial intermembrane space. [Source: WormBase]	protein targeting to mitochondrion, protein import into mitochondrial inner membrane, biological_process, 	mitochondrial intermembrane space protein transporter complex, 	
nhr-105	C06G3.1	nhr-105 encodes a nuclear receptor that is most highly conserved amongst nematode species. nhr-105 mRNA levels are upregulated in response to progesterone treatment. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srx-50	Y43B11AL.2	Serpentine Receptor, class X family member (srx-50) [Source:RefSeq_peptide;Acc:NP_001023464]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-64	Y43B11AL.3				
Y43B11AL.1	Y43B11AL.1	Y43B11AL.1 [Source:RefSeq_peptide;Acc:NP_501099]			
srg-49	Y43B11AR.6				
srg-48	Y43B11AR.5	Serpentine Receptor, class G (gamma) family member (srg-48) [Source:RefSeq_peptide;Acc:NP_872110]			
srg-50	Y43B11AR.2	Serpentine Receptor, class G (gamma) family member (srg-50) [Source:RefSeq_peptide;Acc:NP_501100]			
Y43B11AR.1	Y43B11AR.1	Y43B11AR.1 [Source:RefSeq_peptide;Acc:NP_501101]			
Y43B11AR.3	Y43B11AR.3	Y43B11AR.3 [Source:RefSeq_peptide;Acc:NP_501102]			protein binding, 
rps-4	Y43B11AR.4	rps-4 encodes a small ribosomal subunit S4 protein. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural constituent of ribosome, 
NR_003459.1	Y43B11AR.7	Y43B11AR.7, snoRNA [Source:RefSeq_dna;Acc:NR_003459]			
deb-1	ZC477.9	The deb-1 gene encodes a vinculin ortholog highly conserved amongst metazoans including Drosophila, chick, and humans (OMIM:193065). DEB-1 is a muscle attachment protein found in dense bodies, and is required for attaching actin thin filaments to the basal sarcolemma. DEB-1 requires PAT-4/integrin-linked kinase for full assembly into nascent attachments. [Source: WormBase]	cell adhesion, G-protein coupled receptor protein signaling pathway, cytoskeletal anchoring, reproduction, 	integral to membrane, cytoskeleton, actin cytoskeleton, 	protein binding, structural molecule activity, cadherin binding, structural constituent of cytoskeleton, histamine receptor activity, 
ZC477.4	ZC477.4	ZC477.4 [Source:RefSeq_peptide;Acc:NP_501106]			
ZC477.5	ZC477.5	ZC477.5 [Source:RefSeq_peptide;Acc:NP_501107]			
ZC477.3	ZC477.3	ZC477.3a [Source:RefSeq_peptide;Acc:NP_001023604]			
ZC477.10	ZC477.10	ZC477.10 [Source:RefSeq_peptide;Acc:NP_501110]			hydrolase activity, 
ZC477.2	ZC477.2	ZC477.2 [Source:RefSeq_peptide;Acc:NP_501111]	embryonic development ending in birth or egg hatching, 		hydrolase activity, 
ZC477.7	ZC477.7	ZC477.7 [Source:RefSeq_peptide;Acc:NP_501112]			
ssq-3	ZC477.1	Sperm-Specific family, class Q family member (ssq-3) [Source:RefSeq_peptide;Acc:NP_501113]	metabolic process, DNA metabolic process, 	cytoplasm, 	ATP binding, phosphotransferase activity, alcohol group as acceptor, DNA binding, DNA-dependent ATPase activity, kinase activity, 
nas-8	C34D4.9	Zinc metalloproteinase nas-8 precursor (EC 3.4.24.21) (Nematode astacin 8). [Source:Uniprot/SWISSPROT;Acc:Q18439]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
C34D4.10	C34D4.10	C34D4.10 [Source:RefSeq_peptide;Acc:NP_501115]			
str-48	C34D4.8	Seven TM Receptor family member (str-48) [Source:RefSeq_peptide;Acc:NP_501116]			
str-49	C34D4.7				
str-51	C34D4.6				
str-50	C34D4.16				
grsp-3	C34D4.11	Glycine Rich Secreted Protein family member (grsp-3) [Source:RefSeq_peptide;Acc:NP_501117]	cell adhesion, potassium ion transport, nucleosome assembly, protein homooligomerization, 	membrane, integral to membrane, nucleus, nucleosome, 	DNA binding, voltage-gated potassium channel activity, 
cyn-12	C34D4.12	cyn-12 encodes a member of the cyclophilin family that is related to human PPIL1 (CGI-124). based upon its sequence similarity, CYN-12 is predicted to be a cytoplasmic protein potentially involved in a wide range of signal transduction pathways. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
C34D4.13	C34D4.13	C34D4.13 [Source:RefSeq_peptide;Acc:NP_501119]			
C34D4.14	C34D4.14	C34D4.14 [Source:RefSeq_peptide;Acc:NP_501120]	protein modification process, ubiquitin cycle, 	intracellular, 	binding, ubiquitin-protein ligase activity, 
C34D4.4	C34D4.4	Uncharacterized FAM18-like protein C34D4.4. [Source:Uniprot/SWISSPROT;Acc:Q18449]		integral to membrane, 	
col-113	C34D4.15	COLlagen family member (col-113) [Source:RefSeq_peptide;Acc:NP_501123]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	cytoplasm, extracellular region, 	signal transducer activity, structural constituent of cuticle, 
C34D4.3	C34D4.3	C34D4.3 [Source:RefSeq_peptide;Acc:NP_501124]			structural molecule activity, 
C34D4.2	C34D4.2	C34D4.2 [Source:RefSeq_peptide;Acc:NP_501125]			hydrolase activity, 
C34D4.1	C34D4.1	C34D4.1 [Source:RefSeq_peptide;Acc:NP_501126]	intracellular signaling cascade, 		
rpc-1	C42D4.8	RNA Polymerase, Class III (C) family member (rpc-1) [Source:RefSeq_peptide;Acc:NP_501127]	transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, DNA-directed RNA polymerase activity, 
skr-16	C42D4.6	The skr-16 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-16(RNAi) animals are at least superficially normal. [Source: WormBase]			
str-220	C42D4.9	str-220 encodes a seven transmembrane chemoreceptor. microarray analyses indicate that str-220 is expressed at higher levels in the AWB olfactory neurons than the AFD thermosensory neurons. anatomical expression studies confirm expression in the AWB neurons. expression of str-220 in AWB is regulated, in part, by the KIN-29 Ser/Thr kinase. [Source: WormBase]			
str-219	C42D4.10				
str-1	C42D4.5	Seven TM Receptor family member (str-1) [Source:RefSeq_peptide;Acc:NP_501130]			
str-44	C42D4.4	Seven TM Receptor family member (str-44) [Source:RefSeq_peptide;Acc:NP_501131]			
C42D4.3	C42D4.3	C42D4.3 [Source:RefSeq_peptide;Acc:NP_501132]		extracellular region, 	protein binding, 
C42D4.2	C42D4.2	C42D4.2 [Source:RefSeq_peptide;Acc:NP_501133]			
C42D4.11	C42D4.11	C42D4.11 [Source:RefSeq_peptide;Acc:NP_501134]			sugar binding, 
str-249	C42D4.12				
C42D4.13	C42D4.13	C42D4.13 [Source:RefSeq_peptide;Acc:NP_501135]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
C42D4.1	C42D4.1	C42D4.1 [Source:RefSeq_peptide;Acc:NP_501136]			
R13A1.5	R13A1.5	R13A1.5 [Source:RefSeq_peptide;Acc:NP_501137]			
R13A1.9	R13A1.9	R13A1.9 [Source:RefSeq_peptide;Acc:NP_001023344]			
unc-8	R13A1.4	unc-8 encodes an amiloride-sensitive DEG/ENaC cation-selective channel subunit orthologous to human ENaCB (OMIM:600760, associated with Liddle syndrome, an autosomal dominant form of hypertension). UNC-8 is predicted to function as part of a mechanically gated channel that responds to stretch, and is required for modulating the sinusoidal body wave that is characteristic of C. elegans locomotion. unc-8 interacts genetically with unc-1 and unc-24, which encode stomatin-like proteins, and with mec-6, which encodes a paraoxonase. UNC-8 is expressed in motor neurons, sensory neurons, and interneurons in the nerve ring. UNC-8 may form a channel with the degenerin DEL-1, with which it is coexpressed in ventral cord motor neurons. [Source: WormBase]	ion transport, sodium ion transport, locomotion, 	membrane, integral to membrane, plasma membrane, 	ion channel activity, sodium channel activity, 
R13A1.3	R13A1.3	R13A1.3 [Source:RefSeq_peptide;Acc:NP_501139]			protein binding, 
R13A1.7	R13A1.7	R13A1.7 [Source:RefSeq_peptide;Acc:NP_501140]			
kcc-1	R13A1.2	K+/Cl- Cotransporter family member (kcc-1) [Source:RefSeq_peptide;Acc:NP_501141]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	transporter activity, 
R13A1.8	R13A1.8	R13A1.8 [Source:RefSeq_peptide;Acc:NP_501142]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
R13A1.1	R13A1.1	R13A1.1 [Source:RefSeq_peptide;Acc:NP_501143]			
R13A1.10	R13A1.10	R13A1.10 [Source:RefSeq_peptide;Acc:NP_001033429]			
D2024.5	D2024.5	D2024.5b [Source:RefSeq_peptide;Acc:NP_741439]	embryonic development ending in birth or egg hatching, 		
cap-1	D2024.6	cap-1 encodes an F-actin capping protein alpha subunit that affects fertility. likely expressed in touch receptor neurons. [Source: WormBase]	actin cytoskeleton organization and biogenesis, reproduction, 	F-actin capping protein complex, 	actin binding, 
D2024.4	D2024.4	D2024.4 [Source:RefSeq_peptide;Acc:NP_501146]			
elo-3	D2024.3	The elo-3 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. ELO-3 may be required for normally rapid growth. [Source: WormBase]	positive regulation of growth rate, 	integral to membrane, 	
D2024.7	D2024.7	Uncharacterized GST-like protein D2024.7. [Source:Uniprot/SWISSPROT;Acc:Q18973]		outer membrane-bounded periplasmic space, 	protein disulfide oxidoreductase activity, 
D2024.2	D2024.2	D2024.2 [Source:RefSeq_peptide;Acc:NP_501149]			
col-114	D2024.8	COLlagen family member (col-114) [Source:RefSeq_peptide;Acc:NP_501150]	phosphate transport, morphogenesis of an epithelium, 	cytoplasm, 	structural constituent of cuticle, 
D2024.1	D2024.1	D2024.1 [Source:RefSeq_peptide;Acc:NP_501151]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
D2024.10	D2024.10	D2024.10 [Source:RefSeq_peptide;Acc:NP_001033407]			
C06E4.5	C06E4.5	C06E4.5 [Source:RefSeq_peptide;Acc:NP_501153]			
C06E4.6	C06E4.6	C06E4.6 [Source:RefSeq_peptide;Acc:NP_501154]	metabolic process, electron transport, growth, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C06E4.4	C06E4.4	C06E4.4 [Source:RefSeq_peptide;Acc:NP_501155]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
C06E4.3	C06E4.3	C06E4.3 [Source:RefSeq_peptide;Acc:NP_501156]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C06E4.7	C06E4.7	C06E4.7 [Source:RefSeq_peptide;Acc:NP_501157]			
C06E4.t1	C06E4.t1				
C06E4.2	C06E4.2	C06E4.2 [Source:RefSeq_peptide;Acc:NP_501158]			protein binding, 
C06E4.1	C06E4.1	C06E4.1 [Source:RefSeq_peptide;Acc:NP_501159]			
C06E4.8	C06E4.8	C06E4.8 [Source:RefSeq_peptide;Acc:NP_501160]			
F42C5.3	F42C5.3	F42C5.3 [Source:RefSeq_peptide;Acc:NP_501161]			
F42C5.4	F42C5.4	F42C5.4 [Source:RefSeq_peptide;Acc:NP_501162]			protein binding, zinc ion binding, 
F42C5.5	F42C5.5	F42C5.5 [Source:RefSeq_peptide;Acc:NP_501163]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
F42C5.2	F42C5.2	F42C5.2 [Source:RefSeq_peptide;Acc:NP_501164]	G-protein coupled receptor protein signaling pathway, visual perception, 	integral to membrane, 	rhodopsin-like receptor activity, 
F42C5.6	F42C5.6	F42C5.6 [Source:RefSeq_peptide;Acc:NP_501165]	embryonic development ending in birth or egg hatching, 		
grl-4	F42C5.7	grl-4 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-4 is expressed in pharynx, reproductive system, vulva, larval neurons, and larval rectal epithelium. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	cell adhesion, electron transport, regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, nucleus, actin cytoskeleton, 	oxidoreductase activity, transcription factor activity, structural molecule activity, rhodopsin-like receptor activity, structural constituent of cell wall, nutrient reservoir activity, 
rps-8	F42C5.8	rps-8 encodes a small ribosomal subunit S8 protein. by homology, RPS-8 is predicted to function in protein biosynthesis. in C. elegans, RPS-8 activity is required for germline development and the overall health of the animal. [Source: WormBase]	biological_process, 	intracellular, 	
F42C5.9	F42C5.9	F42C5.9 [Source:RefSeq_peptide;Acc:NP_501169]	biological_process, 		protein binding, 
F42C5.10	F42C5.10	F42C5.10 [Source:RefSeq_peptide;Acc:NP_501170]	positive regulation of growth rate, 		protein binding, 
Y40C5A.1	Y40C5A.1	Y40C5A.1 [Source:RefSeq_peptide;Acc:NP_501171]			protein binding, zinc ion binding, 
ocr-4	Y40C5A.2	Osm-9 and capsaicin receptor-related protein 4. [Source:Uniprot/SPTREMBL;Acc:Q9N3Y9]	ion transport, 	membrane, 	ion channel activity, 
Y40C5A.3	Y40C5A.3	Y40C5A.3 [Source:RefSeq_peptide;Acc:NP_501173]	embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	
Y40C5A.t1	Y40C5A.t1				
Y40C5A.4	Y40C5A.4	Y40C5A.4a [Source:RefSeq_peptide;Acc:NP_741441]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T12B3.3	T12B3.3	T12B3.3 [Source:RefSeq_peptide;Acc:NP_501176]	glycerol metabolic process, 		glycerophosphodiester phosphodiesterase activity, 
T12B3.2	T12B3.2	T12B3.2 [Source:RefSeq_peptide;Acc:NP_501177]	transport, 	integral to membrane, 	transporter activity, 
T12B3.1	T12B3.1	T12B3.1 [Source:RefSeq_peptide;Acc:NP_501178]	electron transport, protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, electron carrier activity, copper ion binding, 
T12B3.4	T12B3.4	T12B3.4 [Source:RefSeq_peptide;Acc:NP_501179]			oxidoreductase activity, transition metal ion binding, 
C48A7.2	C48A7.2	C48A7.2 [Source:RefSeq_peptide;Acc:NP_501180]	phosphate transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	membrane, membrane coat, 	inorganic phosphate transmembrane transporter activity, protein transporter activity, protein binding, 
egl-19	C48A7.1	egl-19 encodes an ortholog of the alpha subunit of mammalian L-type calcium ion channels that affects muscle contraction in late embryonic morphogenesis, movement, egg-laying, mating and feeding. egl-19 is expressed in muscle cells and some neurons. [Source: WormBase]	ion transport, calcium ion transport, potassium ion transport, oviposition, regulation of pharyngeal pumping, 	membrane, integral to membrane, voltage-gated calcium channel complex, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated calcium channel activity, voltage-gated potassium channel activity, 
B0496.6	B0496.6	B0496.6 [Source:RefSeq_peptide;Acc:NP_501182]			
B0496.5	B0496.5	B0496.5 [Source:RefSeq_peptide;Acc:NP_501183]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
B0496.4	B0496.4	B0496.4 [Source:RefSeq_peptide;Acc:NP_501184]			
unc-82	B0496.3	B0496.3b [Source:RefSeq_peptide;Acc:NP_501186]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0496.7	B0496.7	B0496.7 encodes a LIM domain-containing protein. [Source: WormBase]			protein binding, zinc ion binding, 
B0496.1	B0496.1	B0496.1 [Source:RefSeq_peptide;Acc:NP_501188]			protein binding, 
B0496.2	B0496.2	B0496.2 [Source:RefSeq_peptide;Acc:NP_501189]			protein binding, 
tag-224	B0496.8	tag-224 encodes an ortholog of Drosophila CG6522-PA and of human LMCD1 and TESTIN. TAG-224 is dispensable for Wnt-directed planar cell polarity and the fully asymmetrical division of B.a versus B.p cells. [Source: WormBase]			zinc ion binding, 
F13B6.1	F13B6.1	F13B6.1 [Source:RefSeq_peptide;Acc:NP_501191]			
F13B6.2	F13B6.2	F13B6.2 [Source:RefSeq_peptide;Acc:NP_501192]			
F13B6.3	F13B6.3	F13B6.3 [Source:RefSeq_peptide;Acc:NP_501193]			
F55G1.7	F55G1.7	F55G1.7 [Source:RefSeq_peptide;Acc:NP_501195]			
plk-3	F55G1.8	Serine/threonine-protein kinase plk-3 (EC 2.7.11.21) (Polo-like kinase 3). [Source:Uniprot/SWISSPROT;Acc:Q20845]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F55G1.6	F55G1.6	F55G1.6 [Source:RefSeq_peptide;Acc:NP_501197]			protein binding, zinc ion binding, 
F55G1.5	F55G1.5	F55G1.5 [Source:RefSeq_peptide;Acc:NP_501198]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
F55G1.9	F55G1.9	Putative pyrroline-5-carboxylate reductase (EC 1.5.1.2) (P5CR) (P5C reductase). [Source:Uniprot/SWISSPROT;Acc:Q20848]	electron transport, proline biosynthetic process, 		pyrroline-5-carboxylate reductase activity, 
rod-1	F55G1.4	ROD (Drosophila RoughDeal) homolog family member (rod-1) [Source:RefSeq_peptide;Acc:NP_501200]	biological_process, 	proteinaceous extracellular matrix, 	sugar binding, 
his-61	F55G1.10	his-61 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-62	F55G1.3	his-62 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-60	F55G1.11	his-60 encodes an H4 histone. by homology, HIS-60 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-60 expression is detected in early embryos, beginning at the 28-cell stage and continuing through the comma stage (early morphogenesis). his-60 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome IV. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-59	F55G1.2	his-59 encodes an H3 histone. by homology, HIS-59 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-59 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome IV. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
F55G1.1	F55G1.1	F55G1.1 [Source:RefSeq_peptide;Acc:NP_501205]			
F55G1.12	F55G1.12	F55G1.12 [Source:RefSeq_peptide;Acc:NP_501206]	sodium ion transport, 	membrane, 	sodium channel activity, 
F55G1.13	F55G1.13	F55G1.13 encodes a protein that contains EGF-like repeats that are most closely related to those of Notch family members. [Source: WormBase]			calcium ion binding, sugar binding, 
F55G1.15	F55G1.15	F55G1.15 [Source:RefSeq_peptide;Acc:NP_501209]			
glt-6	R05G6.6	glt-6 encodes an ortholog of glutamate/aspartate and neutral amino acid transporters. [Source: WormBase]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
R05G6.7	R05G6.7	Probable voltage-dependent anion-selective channel. [Source:Uniprot/SWISSPROT;Acc:Q21752]	anion transport, 	mitochondrial outer membrane, 	voltage-gated ion-selective channel activity, 
R05G6.5	R05G6.5	R05G6.5 [Source:RefSeq_peptide;Acc:NP_501212]	GTP biosynthetic process, UTP biosynthetic process, CTP biosynthetic process, spermatid differentiation, 		ATP binding, nucleoside diphosphate kinase activity, 
plc-4	R05G6.8	R05G6.8 [Source:RefSeq_peptide;Acc:NP_501213]	intracellular signaling cascade, signal transduction, lipid metabolic process, 		calcium ion binding, phosphoinositide phospholipase C activity, phospholipase C activity, 
R05G6.4	R05G6.4	Nitric oxide synthase-interacting protein-like. [Source:Uniprot/SWISSPROT;Acc:Q21755]	protein ubiquitination, 	ubiquitin ligase complex, 	ubiquitin-protein ligase activity, 
R05G6.9	R05G6.9	R05G9.6 encodes a protein with a predicted signal sequence and EGF-like repeats that are related to those of Notch family members. [Source: WormBase]			calcium ion binding, 
R05G6.10	R05G6.10	R05G6.10 [Source:RefSeq_peptide;Acc:NP_501217]	small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	guanyl-nucleotide exchange factor activity, 
R05G6.11	R05G6.11	R05G6.11 [Source:RefSeq_peptide;Acc:NP_001033427]			
R05G6.12	R05G6.12	R05G6.12 [Source:RefSeq_peptide;Acc:NP_001033428]			
R05G6.1	R05G6.1	R05G6.1 [Source:RefSeq_peptide;Acc:NP_501219]			
pam-1	F49E8.3	Puromycin-sensitive AMinopeptidase family member (pam-1) [Source:RefSeq_peptide;Acc:NP_001023210]	proteolysis, embryonic development ending in birth or egg hatching, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
cdd-2	F49E8.4	A functional cytidine deaminase that affects morphology of embryos. it is expressed at all life cycle stages. [Source: WormBase]	cytidine metabolic process, embryonic development, 		protein binding, zinc ion binding, hydrolase activity, cytidine deaminase activity, 
F49E8.2	F49E8.2	F49E8.2 [Source:RefSeq_peptide;Acc:NP_501222]	electron transport, cell redox homeostasis, 	intracellular, 	zinc ion binding, nucleic acid binding, electron carrier activity, 
dif-1	F49E8.5	dif-1 encodes a putative mitochondrial solute carrier, orthologous to human SLC25A20 (OMIM:212138, mutated in carnitine-acylcarnitine translocase deficiency) that is required for the maintenance of embryonic tissue differentiation and viability. expressed throughout development and in the intestinal cells and hypodermis of the embryo. [Source: WormBase]	transport, mitochondrial transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrion, mitochondrial envelope, mitochondrial inner membrane, 	transporter activity, binding, 
F49E8.6	F49E8.6	F49E8.6 [Source:RefSeq_peptide;Acc:NP_501224]			
F49E8.7	F49E8.7	F49E8.7a [Source:RefSeq_peptide;Acc:NP_001023212]	embryonic development ending in birth or egg hatching, 		protein binding, 
F49E8.1	F49E8.1	F49E8.1 [Source:RefSeq_peptide;Acc:NP_501226]			
ima-3	F32E10.4	ima-3 encodes one of three C. elegans importin alpha nuclear transport factors and the importin alpha that is most similar to the alpha3-subtype. ima-3 activity is required throughout development: during oogenesis, ima-3 is essential for progression past pachytene of meiotic prophase I and for proper organization of the nuclear pore complex (NPC) as well as association of P granules with the NPC. ima-3 is also required for normal embryonic, larval, and germline development. in vitro, IMA-3 can interact with human importin beta1, suggesting that it functions in a complex with C. elegans importin betas in vivo. IMA-3 is expressed in males and hermaphrodites, in both the germline and in somatic tissue. in the germline, IMA-3 is seen in the common cytoplasm of the rachis and in association with the nuclear envelope of germline nuclei and the residual body of developing spermatids. [Source: WormBase]	intracellular protein transport, protein import into nucleus, embryonic development ending in birth or egg hatching, oogenesis, female gamete generation, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, protein binding, 
F32E10.9	F32E10.9	F32E10.9 [Source:RefSeq_peptide;Acc:NP_001023167]			
F32E10.8	F32E10.8	F32E10.8 [Source:RefSeq_peptide;Acc:NP_501228]			
F32E10.3	F32E10.3	C-type lectin domain-containing protein F32E10.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19970]			sugar binding, 
NR_003450.1	F32E10.10	F32E10.10, snoRNA [Source:RefSeq_dna;Acc:NR_003450]			
F32E10.5	F32E10.5	F32E10.5 [Source:RefSeq_peptide;Acc:NP_501230]	protein amino acid phosphorylation, transmembrane receptor protein tyrosine kinase signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, 	ATP binding, nucleic acid binding, transmembrane receptor protein tyrosine kinase activity, 
F32E10.2	F32E10.2	F32E10.2 [Source:RefSeq_peptide;Acc:NP_501231]	chromatin assembly or disassembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	chromatin binding, 
F32E10.6	F32E10.6	F32E10.6 [Source:RefSeq_peptide;Acc:NP_501232]	chromatin assembly or disassembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	chromatin binding, 
nol-10	F32E10.1	F32E10.1 [Source:RefSeq_peptide;Acc:NP_501233]	positive regulation of growth rate, 	nucleus, 	
F32E10.7	F32E10.7	F32E10.7 [Source:RefSeq_peptide;Acc:NP_501234]			transcription factor activity, 
tag-80	Y2C2A.1	Temporarily Assigned Gene name family member (tag-80) [Source:RefSeq_peptide;Acc:NP_501235]		proteinaceous extracellular matrix, 	
tag-199	F45E4.4	Temporarily Assigned Gene name family member (tag-199) [Source:RefSeq_peptide;Acc:NP_501236]		proteinaceous extracellular matrix, 	protein binding, 
F45E4.3	F45E4.3	F45E4.3a [Source:RefSeq_peptide;Acc:NP_501237]			protein binding, 
F45E4.5	F45E4.5	F45E4.5 [Source:RefSeq_peptide;Acc:NP_501239]			
F45E4.6	F45E4.6	F45E4.6 [Source:RefSeq_peptide;Acc:NP_501240]			
plp-1	F45E4.2	plp-1 encodes a protein containing three PUR repeats that are predicted to bind DNA/RNA and has similarity to the mammalian transcription factor pur alpha, and is required for embryonic development, development of the pharynx, and affects formation of the intestine. interacts with an Lef-1 site within the end-1 promoter and binding is regulated by phosphorylation [Source: WormBase]			
arf-1.1	F45E4.1	arf-1.1 encodes a member of the ADP-ribosylation factor family. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, 	intracellular, 	GTP binding, 
F45E4.7	F45E4.7	F45E4.7a [Source:RefSeq_peptide;Acc:NP_001023203]			neprilysin activity, 
nlp-20	F45E4.8	nlp-20 encodes a predicted neuropeptide of the FAFA family. expressed in pharyngeal neurons. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
hmg-5	F45E4.9	HMG family member (hmg-5) [Source:RefSeq_peptide;Acc:NP_501245]	regulation of transcription, DNA-dependent, gamete generation, 		DNA binding, 
gfi-4	F45E4.10	gfi-4 encodes a novel protein that was identified in screens for proteins that interact with GEI-4, a coiled-coil domain protein required for embryonic viability, fertility, and vulval morphogenesis that also interacts with GEX-2, a putative Rac-binding protein, and intermediate filaments. based on its interaction with GEI-4, GFI-4 may be predicted to play a role in intermediate filament rearrangements during germline development or embryonic or vulval morphogenesis. however, as loss of gfi-4 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GFI-4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
F45E4.11	F45E4.11	F45E4.11 [Source:RefSeq_peptide;Acc:NP_501248]	transport, 	integral to membrane, 	transporter activity, 
C08G9.1	C08G9.1	C08G9.1 [Source:RefSeq_peptide;Acc:NP_741444]			
C08G9.2	C08G9.2	C08G9.2 [Source:RefSeq_peptide;Acc:NP_501249]		intracellular, 	zinc ion binding, nucleic acid binding, serine-type endopeptidase inhibitor activity, enzyme inhibitor activity, protease inhibitor activity, 
itr-1	F33D4.2	itr-1 encodes a putative inositol (1,4,5) trisphosphate receptor that affects the defecation cycle and pharyngeal pumping, and also affects ovulation in a pathway downstream of LET-23. interacts with UNC-54 in vivo, and is expressed in the adult intestine, pharynx, excretory cell, germ line, and spermatheca, with limited neuronal expression. [Source: WormBase]	ion transport, calcium ion transport, reproduction, regulation of pharyngeal pumping, rhythmic behavior, 	membrane, endoplasmic reticulum, 	ion channel activity, calcium channel activity, inositol 1,4,5-triphosphate-sensitive calcium-release channel activity, 
flp-13	F33D4.3	FMRFamide-like neuropeptide 13 precursor [Contains: SDRPTRAMDSPLIRF- amide; AADGAPLIRF-amide 1; APEASPFIRF-amide 1; AADGAPLIRF-amide 2; APEASPFIRF-amide 2; ASPSAPLIRF-amide; SPSAVPLIRF-amide; SAAAPLIRF- amide; ASSAPLIRF-amide]. [Source:Uniprot/SWISSPROT;Acc:O44185]	neuropeptide signaling pathway, 	extracellular region, 	molecular_function, 
F33D4.4	F33D4.4	F33D4.4 [Source:RefSeq_peptide;Acc:NP_501256]	proteolysis, 		zinc ion binding, metallopeptidase activity, oxidoreductase activity, 
F33D4.5	F33D4.5	F33D4.5 [Source:RefSeq_peptide;Acc:NP_501257]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F33D4.7	F33D4.7	F33D4.7 [Source:RefSeq_peptide;Acc:NP_501258]	embryonic development ending in birth or egg hatching, 		
F33D4.8	F33D4.8	28S ribosomal protein S24, mitochondrial precursor (S24mt) (MRP-S24). [Source:Uniprot/SWISSPROT;Acc:Q688C0]	translation, embryonic development ending in birth or egg hatching, 	mitochondrial large ribosomal subunit, 	structural constituent of ribosome, 
nhr-8	F33D4.1	The nhr-8 gene encodes a nuclear hormone receptor homolog. nhr-8(ok186) mutants have abnormally low resistance to the toxins colchicine and chloroquine. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F33D4.6	F33D4.6	F33D4.6b [Source:RefSeq_peptide;Acc:NP_501260]			protein binding, 
C50F7.6	C50F7.6	C50F7.6 [Source:RefSeq_peptide;Acc:NP_501262]			
C50F7.5	C50F7.5	C50F7.5 [Source:RefSeq_peptide;Acc:NP_501263]			structural constituent of cell wall, 
C50F7.4	C50F7.4	Probable succinyl-CoA ligase [GDP-forming] beta-chain, mitochondrial precursor (EC 6.2.1.4) (Succinyl-CoA synthetase, beta chain) (SCS- beta). [Source:Uniprot/SWISSPROT;Acc:P53589]	metabolic process, biological_process, 		oxidoreductase activity, catalytic activity, 
C50F7.9	C50F7.9	C50F7.9 [Source:RefSeq_peptide;Acc:NP_501267]			
C50F7.3	C50F7.3	C50F7.3 [Source:RefSeq_peptide;Acc:NP_501268]			protein binding, 
clx-1	C50F7.2	clx-1 encodes a protein that contains 23 copies of a 15 amino acid repeat, possibly derived from a collagen triplet. there is no transcript evidence for this locus. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C50F7.1	C50F7.1	C50F7.1b [Source:RefSeq_peptide;Acc:NP_001023088]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide receptor activity, 
C50F7.10	C50F7.10	C50F7.10 [Source:RefSeq_peptide;Acc:NP_501271]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
C46A5.4	C46A5.4	C46A5.4 [Source:RefSeq_peptide;Acc:NP_501272]	electron transport, response to oxidative stress, hermaphrodite genitalia development, 		peroxidase activity, heme binding, 
col-14	C46A5.3	col-14 encodes a collagen protein that affects vulval morphology in a large-scale RNAi screen. mRNA expressed in embryos and transcript levels peak during each larval stage. [Source: WormBase]	phosphate transport, hermaphrodite genitalia development, collagen and cuticulin-based cuticle development, 	cytoplasm, extracellular region, 	structural constituent of cuticle, nutrient reservoir activity, 
C46A5.5	C46A5.5	C46A5.5 [Source:RefSeq_peptide;Acc:NP_501274]	hermaphrodite genitalia development, 		
C46A5.6	C46A5.6	C46A5.6 [Source:RefSeq_peptide;Acc:NP_501275]			
C46A5.2	C46A5.2	C46A5.2 [Source:RefSeq_peptide;Acc:NP_501276]	sodium ion transport, 	membrane, 	sodium channel activity, 
C46A5.1	C46A5.1	C46A5.1 [Source:RefSeq_peptide;Acc:NP_501277]	protein amino acid dephosphorylation, dephosphorylation, locomotory behavior, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C46A5.8	C46A5.8	C46A5.8 [Source:RefSeq_peptide;Acc:NP_501278]			
hcf-1	C46A5.9	human HCF1 related family member (hcf-1) [Source:RefSeq_peptide;Acc:NP_501279]			
C33H5.7	C33H5.7	C33H5.7 [Source:RefSeq_peptide;Acc:NP_501280]	biological_process, 		
C33H5.6	C33H5.6	C33H5.6 [Source:RefSeq_peptide;Acc:NP_501281]			
C33H5.8	C33H5.8	C33H5.8 [Source:RefSeq_peptide;Acc:NP_501282]			binding, 
sec-10	C33H5.9	Probable exocyst complex component 5 (Exocyst complex component Sec10). [Source:Uniprot/SWISSPROT;Acc:Q18406]	exocytosis, vesicle docking, positive regulation of multicellular organism growth, 	cytoplasm, 	nucleotide binding, 
tag-321	C33H5.19	Temporarily Assigned Gene name family member (tag-321) [Source:RefSeq_peptide;Acc:NP_501284]			
tag-322	C33H5.10	Temporarily Assigned Gene name family member (tag-322) [Source:RefSeq_peptide;Acc:NP_501285]	positive regulation of growth rate, 		
imp-3	C33H5.11	IntraMembrane Protease (IMPAS) family member (imp-3) [Source:RefSeq_peptide;Acc:NP_501286]		integral to membrane, 	aspartic-type endopeptidase activity, 
rsp-6	C33H5.12	Probable splicing factor, arginine/serine-rich 6 (RNA-binding protein srp-1) (CeSRp20). [Source:Uniprot/SWISSPROT;Acc:Q18409]	multicellular organismal development, RNA splicing, gonad development, 	nucleus, 	RNA binding, protein binding, nucleic acid binding, 
C33H5.13	C33H5.13	C33H5.13 [Source:RefSeq_peptide;Acc:NP_501288]			
ntp-1	C33H5.14	Nucleoside-triphosphatase ntp-1 (EC 3.6.1.15). [Source:Uniprot/SWISSPROT;Acc:Q18411]	translation, 		hydrolase activity, aminoacyl-tRNA hydrolase activity, 
sgo-1	C33H5.15	Shugoshin. [Source:Uniprot/SWISSPROT;Acc:Q18412]	meiotic chromosome segregation, embryonic development ending in birth or egg hatching, 	nucleus, chromosome, pericentric region, 	
klp-10	C33H5.4	klp-10 encodes a predicted kinesin motor protein that while similar to the Xenopus and human klp2 kinesins, lacks the switch I motif critical for interaction with ATP. although RNAi experiments purportedly targeting klp-10 result in meiotic defects and embryonic lethality, loss of klp-10 activity via a deletion allele results in no obvious abnormalities, suggesting that the reported RNAi phenotypes are due to targeting of the highly similar klp-18 gene. klp-10 expression levels appear to be below the level of detection of RT-PCR, Northern, and Western analyses. [Source: WormBase]	microtubule-based movement, embryonic development ending in birth or egg hatching, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
C33H5.16	C33H5.16	C33H5.16 [Source:RefSeq_peptide;Acc:NP_501293]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C33H5.2	C33H5.2	UPF0392 protein C33H5.2. [Source:Uniprot/SWISSPROT;Acc:Q18416]			
C33H5.1	C33H5.1	C33H5.1 [Source:RefSeq_peptide;Acc:NP_501295]			
C33H5.17	C33H5.17	C33H5.17 [Source:RefSeq_peptide;Acc:NP_501296]		intracellular, 	nucleotide binding, zinc ion binding, nucleic acid binding, 
C33H5.18	C33H5.18	C33H5.18 encodes a CDP-diglyceride synthetase ortholog required for locomotion and osmoregulation. given its biochemical function in other organisms, C33H5.18 is expected to catalyse synthesis of cytidine diphosphate-diacylglycerol (CDP-DAG), an activated precursor for anionic and zwitterionic phospholipids, and is likely to regulate phosphatidylinositol lipid signalling. one might expect loss of C33H5.18 function to be lethal, but its deficiency may be supplemented by lipids in food. [Source: WormBase]	phospholipid biosynthetic process, locomotory behavior, 	membrane, 	phosphatidate cytidylyltransferase activity, 
ric-3	T14A8.1	The ric-3 gene encodes a novel, highly charged protein with two transmembrane domains and extensive coiled-coil domains. it is necessary for the function of at least four nicotinic acetylcholine receptors. specifically, it is needed for assembly or trafficking of the DEG-3 nicotinic acetylcholine receptor. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T14A8.2	T14A8.2	T14A8.2b [Source:RefSeq_peptide;Acc:NP_001076709]			
C06A6.4	C06A6.4	C06A6.4a [Source:RefSeq_peptide;Acc:NP_001021300]	proteolysis, amino acid metabolic process, 	cytoplasm, 	metallopeptidase activity, hydrolase activity, protein dimerization activity, aminoacylase activity, 
C06A6.3	C06A6.3	C06A6.3 [Source:RefSeq_peptide;Acc:NP_501302]			
C06A6.5	C06A6.5	Thioredoxin domain-containing protein C06A6.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q17688]	cell redox homeostasis, 		
C06A6.7	C06A6.7	C06A6.7 [Source:RefSeq_peptide;Acc:NP_001021302]			
C06A6.2	C06A6.2	C06A6.2a [Source:RefSeq_peptide;Acc:NP_741450]	catabolic process, embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, hydrolase activity, acting on ester bonds, 
flp-10	T06C10.4	flp-10 encodes a FMRFamide-related neuropeptide. in males, flp-10 activity is required for a sensory transduction pathway that negatively regulates the frequency of certain substeps of turning behavior during mating. a flp-10::gfp reporter is expressed in a number of neurons including AIM, ASI, AUA, BAG, BDU, DVB, PQR, PVR, and URX, and in the vulD cells. [Source: WormBase]			
T06C10.3	T06C10.3	T06C10.3 [Source:RefSeq_peptide;Acc:NP_501307]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
kin-26	T06C10.6	protein KINase family member (kin-26) [Source:RefSeq_peptide;Acc:NP_501309]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
srt-73	T06C10.2	Serpentine Receptor, class T family member (srt-73) [Source:RefSeq_peptide;Acc:NP_501310]			
C55F2.1	C55F2.1	C55F2.1b [Source:RefSeq_peptide;Acc:NP_741452]	purine nucleotide biosynthetic process, reproduction, 		IMP cyclohydrolase activity, phosphoribosylaminoimidazolecarboxamide formyltransferase activity, 
NR_001504.1	C55F2.3	C55F2.3, snoRNA [Source:RefSeq_dna;Acc:NR_001504]			
ilys-4	C55F2.2	C55F2.2 [Source:RefSeq_peptide;Acc:NP_501313]	reproduction, 		
C49H3.8	C49H3.8	C49H3.8 [Source:RefSeq_peptide;Acc:NP_501314]	positive regulation of growth rate, 		protein binding, 
C49H3.6	C49H3.6	C49H3.6a [Source:RefSeq_peptide;Acc:NP_501316]			
C49H3.9	C49H3.9	C49H3.9 [Source:RefSeq_peptide;Acc:NP_501317]		nucleus, 	zinc ion binding, 
ntl-4	C49H3.5	ntl-4 encodes two proteins by alternative splicing, one of which (NTL-4A) has an N-terminal RING finger and a RNA recognition motif ('RRM', 'RBD', or 'RNP'), and both of which have glutamine/asparagine-rich domains. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, zinc ion binding, nucleic acid binding, 
C49H3.4	C49H3.4	C49H3.4 [Source:RefSeq_peptide;Acc:NP_501319]	mRNA metabolic process, 	ribonucleoprotein complex, 	
imb-6	C49H3.10	imb-6 encodes an importin-beta-like protein orthologous to vertebrate Exportin-t, a specific mediator of tRNA export from the nucleus. IMB-6 is predicted to function by binding tRNAs directly in the presence of the RAN-1 GTPase and facilitating their nucleocytoplasmic transport. in C. elegans, loss of imb-6 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. [Source: WormBase]			
C49H3.3	C49H3.3	C49H3.3 [Source:RefSeq_peptide;Acc:NP_501321]			
rps-2	C49H3.11	rps-2 encodes a small ribosomal subunit S2 protein. [Source: WormBase]	translation, reproduction, 	intracellular, small ribosomal subunit, ribosome, 	RNA binding, protein binding, structural constituent of ribosome, 
C49H3.12	C49H3.12	C49H3.12 [Source:RefSeq_peptide;Acc:NP_501323]			
gcy-8	C49H3.1	gcy-8 encodes a receptor-type guanylyl cyclase that, along with gcy-18 and gcy-23, constitutes a subfamily of guanylyl cyclase genes in C. elegans. gcy-8 functions redundantly with gcy-18 and gcy-23, and upstream of tax-4, to regulate thermotaxis via the AFD thermosensory neurons, although of the three guanylyl cyclases required, genetic analyses suggest that GCY-18 is the primary guanylyl cyclase required. GCY-8 is expressed exclusively in the AFD thermosensory neurons where it localizes to sensory endings. GCY-8 expression in the AFD neurons requires activity of the TAX-2/4 cyclic nucleotide gated channel and the CMK-1 Ca2+/calmodulin-dependent protein kinase I, while maintenance of GCY-8 expression requires the OTD/OTX homeodomain protein TTX-1. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, thermosensory behavior, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
bbs-2	F20D12.3	bbs-2 is orthologous to human BBS2 (OMIM:606151, mutated in Bardet-Biedl syndrome 2). while the function of BBS-2 is unknown, it shares conserved domains with its human paralogs BBS1 and BBS7, which also are mutated in other Bardet-Biedl syndromes. [Source: WormBase]			
F20D12.7	F20D12.7	F20D12.7 [Source:RefSeq_peptide;Acc:NP_741455]			
exc-9	F20D12.5	exc-9 encodes a LIM domain-containing protein. exc-9 activity is required for proper development and morphogenesis of the excretory cell canal. [Source: WormBase]			zinc ion binding, 
czw-1	F20D12.4	Caenorhabditis Zeste White 10 (Drosophila) homolog family member (czw-1) [Source:RefSeq_peptide;Acc:NP_501327]	mitosis, reproduction, 	nucleus, chromosome, pericentric region, 	
F20D12.2	F20D12.2	F20D12.2 [Source:RefSeq_peptide;Acc:NP_501328]	embryonic development ending in birth or egg hatching, 		
ceh-19	F20D12.6	ceh-19 encodes a homeobox protein similar to Bar-like homeoproteins from Drosophila and vertebrates. it has no known function or expression pattern. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
csr-1	F20D12.1	Chromosome-Segregation and RNAi deficient family member (csr-1) [Source:RefSeq_peptide;Acc:NP_001040938]	embryonic development ending in birth or egg hatching, 		
F57H12.5	F57H12.5	F57H12.5 [Source:RefSeq_peptide;Acc:NP_501331]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F57H12.4	F57H12.4	F57H12.4 [Source:RefSeq_peptide;Acc:NP_501332]	metabolic process, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, racemase and epimerase activity, acting on amino acids and derivatives, 
F57H12.6	F57H12.6	F57H12.6 [Source:RefSeq_peptide;Acc:NP_501333]			
ora-1	F57H12.3	Onchocerca Related Antigen family member (ora-1) [Source:RefSeq_peptide;Acc:NP_501334]			
unc-24	F57H12.2	unc-24 encodes a protein that contains a stomatin-like domain and a lipid transfer domain. unc-24 activity is essential for normal locomotion and for wild-type sensitivity to lipid-soluble volatile anesthetics. unc-24 is genetically epistatic to unc-79 and to unc-1, which encodes an additional stomatin whose stability and localization to the nerve ring are dependent upon UNC-24. unc-24 is expressed in the touch receptor neurons as well as neurons in the ventral cord. [Source: WormBase]	response to drug, 	membrane, 	sterol carrier activity, 
arf-3	F57H12.1	arf-3 encodes a member of the ADP-ribosylation factor related protein family. likely expressed in touch receptors and regulated by MEC-3. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, positive regulation of growth rate, 	intracellular, 	GTP binding, 
mec-17	F57H12.7	mec-17 encodes a protein that has no clearly recognizable motifs yet shares a domain of similarity with an additional C. elegans protein as well as proteins from Drosophila, mouse, and human. MEC-17 activity is required for maintaining the differentiated state of the touch receptors, and hence the animal's touch sensitivity, during later stages of larval development. mec-17 is expressed solely in the touch receptor cells from late embryogenesis through adulthood, and this expression is dependent upon the MEC-3 LIM homeodomain transcription factor. in turn, as MEC-17 is necessary for maintaining differentiated touch receptors, its activity is required for continued expression of MEC-3 and the MEC-7 beta-tubulin. [Source: WormBase]	neuron development, 		
col-115	Y42H9B.1	COLlagen family member (col-115) [Source:RefSeq_peptide;Acc:NP_501338]	phosphate transport, 	cytoplasm, 	nutrient reservoir activity, 
rig-4	Y42H9B.2	Protein sidekick homolog precursor (Neuronal IgCAM protein 4). [Source:Uniprot/SWISSPROT;Acc:Q9N3X8]		proteinaceous extracellular matrix, 	
Y42H9B.3	Y42H9B.3	Y42H9B.3 [Source:RefSeq_peptide;Acc:NP_501340]			
C26B2.8	C26B2.8	C26B2.8 [Source:RefSeq_peptide;Acc:NP_501341]			
C26B2.7	C26B2.7	C26B2.7 [Source:RefSeq_peptide;Acc:NP_501342]			
C26B2.6	C26B2.6	Putative elongator complex protein 4 (ELP4). [Source:Uniprot/SWISSPROT;Acc:Q18195]	regulation of transcription from RNA polymerase II promoter, 	cytoplasm, transcription elongation factor complex, 	protein binding, phosphorylase kinase regulator activity, 
C26B2.1	C26B2.1	C26B2.1 [Source:RefSeq_peptide;Acc:NP_501344]	embryonic development ending in birth or egg hatching, peptide cross-linking, 		protein-glutamine gamma-glutamyltransferase activity, 
C26B2.2	C26B2.2	C26B2.2 [Source:RefSeq_peptide;Acc:NP_501345]			
nhr-31	C26B2.3	Nuclear hormone receptor family member nhr-31. [Source:Uniprot/SWISSPROT;Acc:Q18192]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
C26B2.5	C26B2.5	C26B2.5 [Source:RefSeq_peptide;Acc:NP_501347]			
nhr-258	C26B2.4	Nuclear Hormone Receptor family member (nhr-258) [Source:RefSeq_peptide;Acc:NP_501348]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
sax-7	C18F3.2	sax-7 encodes an ortholog of human L1CAM (OMIM:308840, mutated in hydrocephalus, MASA syndrome, and CRASH syndrome). SAX-7 is required for germline development, embryonic morphogenesis, and gonadal morphogenesis, and perhaps more generally for maintaining tissue attachment. SAX-7 is ubiquitously expressed at sites of cell-cell contact. SAX-7 interacts physically with the ankyrin UNC-44, and nonphosphorylated SAX-7 is colocalized with UNC-44 at sites of cellular contact in vivo. sax-7 mutants show uncoordinated movements, variable embryonic lethality, and abnormal neuronal distribution and axon trajectories. [Source: WormBase]			
C18F3.4	C18F3.4	C18F3.4 [Source:RefSeq_peptide;Acc:NP_001033398]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y42H9AR.2	Y42H9AR.2	Y42H9AR.2 [Source:RefSeq_peptide;Acc:NP_501350]			
Y42H9AR.5	Y42H9AR.5	Y42H9AR.5 [Source:RefSeq_peptide;Acc:NP_501351]			
rabs-5	Y42H9AR.3	RABenoSyn (trafficking protein) homolog family member (rabs-5) [Source:RefSeq_peptide;Acc:NP_501352]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y42H9AR.4	Y42H9AR.4	Y42H9AR.4 [Source:RefSeq_peptide;Acc:NP_501353]			
Y42H9AR.1	Y42H9AR.1	Y42H9AR.1 [Source:RefSeq_peptide;Acc:NP_501354]			protein binding, 
F42G8.9	F42G8.9	F42G8.9 [Source:RefSeq_peptide;Acc:NP_501355]			
F42G8.8	F42G8.8	F42G8.8 [Source:RefSeq_peptide;Acc:NP_501356]			hydrolase activity, 
F42G8.7	F42G8.7	F42G8.7 [Source:RefSeq_peptide;Acc:NP_501357]	cell redox homeostasis, 		
F42G8.10	F42G8.10	F42G8.10b [Source:RefSeq_peptide;Acc:NP_001023202]	growth, 		
F42G8.6	F42G8.6	F42G8.6 [Source:RefSeq_peptide;Acc:NP_501359]	hermaphrodite genitalia development, 		catalytic activity, 
sph-1	F42G8.11	sph-1 encodes a member of the synaptophysin/synaptoporin family that contains a MARVEL domain, a membrane-associating domain found in lipid-associating proteins, and contains a transmembrane domain. [Source: WormBase]	transport, 	membrane, synaptic vesicle, 	transporter activity, 
isp-1	F42G8.12	isp-1 encodes a Rieske iron sulphur protein (ISP) which is a subunit of the mitochondrial complex III in the mitochondrial membrane. the subunits are highly conserved in all mitochondria and aerobic bacteria. mitochondrial complex III catalyses electron transport from ubiquinol to cytochrome c. isp-1 mutants show low oxygen consumption, a decreased sensitivity to reactive oxygen species and increased lifespan suggesting that mitochondrial electron transport is a key factor affecting life span. isp-1 affects the rates of physiological processes like reproduction and development and also affects behavior. [Source: WormBase]	electron transport, mitochondrial electron transport, ubiquinol to cytochrome c, embryonic development ending in birth or egg hatching, 	membrane, 	oxidoreductase activity, ubiquinol-cytochrome-c reductase activity, 
F42G8.5	F42G8.5	F42G8.5 [Source:RefSeq_peptide;Acc:NP_501362]			
pmk-3	F42G8.4	pmk-3 encodes a homolog of p38, a mitogen-activated protein kinase (MAPK), activated in vitro by MEK6, indicating that it does respond like p38 to physiological stress. PMK-3 is expressed in nuclei throughout the intestine. PMK-3 is activated by osmotic stresses when heterologously expressed in mammalian cells. null mutants do not exhibit observable growth defects or hypersensitivity to several tested known stresses. [Source: WormBase]	protein amino acid phosphorylation, response to stress, regulation of synapse organization and biogenesis, 	nucleus, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
pmk-2	F42G8.3	The pmk-2 gene encodes a homolog of p38, a type of mitogen-activated protein kinase (MAPK) that in mammals is generally activated by diverse cellular stresses and ligands. [Source: WormBase]	protein amino acid phosphorylation, response to stress, protein kinase cascade, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, MP kinase activity, 
pmk-1	B0218.3	pmk-1 encodes a mitogen-activated protein kinase (MAPK), orthologous to human p38 MAPK (OMIM:600289), that is required for eliciting gonadal programmed cell death in response to Salmonella enterica infection. PMK-1 lies upstream of CED-9, a negative regulator of apoptosis, in the programmed cell death pathway. [Source: WormBase]	protein amino acid phosphorylation, response to stress, defense response, hyperosmotic response, protein kinase cascade, 	cellular_component, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, MAP kinase activity, MP kinase activity, 
B0218.2	B0218.2	B0218.2 [Source:RefSeq_peptide;Acc:NP_501366]			amidase activity, 
B0218.5	B0218.5	B0218.5 [Source:RefSeq_peptide;Acc:NP_501367]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
B0218.1	B0218.1	B0218.1a [Source:RefSeq_peptide;Acc:NP_501368]			amidase activity, 
clec-51	B0218.6	C-type LECtin family member (clec-51) [Source:RefSeq_peptide;Acc:NP_501369]	immune response, 		sugar binding, 
B0218.7	B0218.7	B0218.7 [Source:RefSeq_peptide;Acc:NP_501370]			
clec-52	B0218.8	C-type LECtin family member (clec-52) [Source:RefSeq_peptide;Acc:NP_501371]	immune response, 		sugar binding, 
pct-1	C07G1.3	PCTAIRE class cell cycle kinase family member (pct-1) [Source:RefSeq_peptide;Acc:NP_501372]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
wsp-1	C07G1.4	wsp-1 encodes a homolog of human WASP that interacts with Arp2/3 and is required for hypodermal cell migration during morphogenesis (ventral enclosure). when mutated, human WASP leads to Wiskott-Aldrich syndrome (OMIM:301000). [Source: WormBase]	protein complex assembly, potassium ion transport, G-protein coupled receptor protein signaling pathway, actin polymerization and/or depolymerization, 	integral to membrane, actin cytoskeleton, 	protein binding, rhodopsin-like receptor activity, voltage-gated potassium channel activity, small GTPase regulator activity, histamine receptor activity, 
glrx-22	C07G1.8	GLutaRedoXin family member (glrx-22) [Source:RefSeq_peptide;Acc:NP_001033391]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
hgrs-1	C07G1.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	intracellular protein transport, positive regulation of growth rate, 		protein binding, zinc ion binding, 
C07G1.2	C07G1.2	C07G1.2 [Source:RefSeq_peptide;Acc:NP_501376]		membrane, 	sugar binding, scavenger receptor activity, 
C07G1.6	C07G1.6	C07G1.6 [Source:RefSeq_peptide;Acc:NP_501377]			
C07G1.7	C07G1.7	C07G1.7 [Source:RefSeq_peptide;Acc:NP_501378]			
try-2	C07G1.1	try-2 encodes a homolog of human TRYP1 and ELA2. mutation of human TRYP1 or ELA2 leads, respectively, to hereditary pancreatitis (OMIM:276000) or cyclic haematopoiesis (OMIM:162800). [Source: WormBase]	proteolysis, 		serine-type endopeptidase activity, 
ocr-2	T09A12.3	ocr-2 encodes a TRPV (transient receptor potential channel, vanilloid subfamily) ion channel. OCR-2 activity is required for several types of sensory transduction including olfaction, osmosensation, mechanosensation, and chemosensation. an OCR-2 fusion protein is expressed in sensory cilia and requires the OSM-9 TRPV channel protein for proper localization. likewise, OSM-9 requires OCR-2 for its cilial localization. [Source: WormBase]	ion transport, 	membrane, 	ion channel activity, 
T09A12.2	T09A12.2	T09A12.2b [Source:RefSeq_peptide;Acc:NP_001023368]	response to oxidative stress, 		glutathione peroxidase activity, 
T09A12.5	T09A12.5	T09A12.5 [Source:RefSeq_peptide;Acc:NP_741461]			
nhr-66	T09A12.4	nhr-66 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. expression studies using GFP fusions indicate that nhr-66 is expressed in several neuronal and nonneuronal cells. microarray analysis indicates that expression of nhr-66 in neurons and seam cells is upregulated in response to exposure to cholesterol. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T09A12.1	T09A12.1	T09A12.1 [Source:RefSeq_peptide;Acc:NP_501383]			
NR_001506.1	H09I01.2	H09I01.2, snoRNA [Source:RefSeq_dna;Acc:NR_001506]			
H09I01.1	H09I01.1	H09I01.1 [Source:RefSeq_peptide;Acc:NP_501384]			
K07H8.7	K07H8.7	K07H8.7 [Source:RefSeq_peptide;Acc:NP_501385]		nucleus, chromatin, 	DNA binding, 
vit-6	K07H8.6	Vitellogenin-6 precursor. [Source:Uniprot/SWISSPROT;Acc:P18948]	lipid transport, 		lipid transporter activity, 
K07H8.8	K07H8.8	K07H8.8 [Source:RefSeq_peptide;Acc:NP_501387]			
K07H8.5	K07H8.5	K07H8.5 [Source:RefSeq_peptide;Acc:NP_501388]			
K07H8.11	K07H8.11	K07H8.11 [Source:RefSeq_peptide;Acc:NP_001033423]			
K07H8.12	K07H8.12	K07H8.12 [Source:RefSeq_peptide;Acc:NP_001033424]			
K07H8.9	K07H8.9	K07H8.9 [Source:RefSeq_peptide;Acc:NP_501390]			RNA binding, 
K07H8.10	K07H8.10	K07H8.10 [Source:RefSeq_peptide;Acc:NP_501391]	positive regulation of growth rate, 		nucleotide binding, nucleic acid binding, 
K07H8.3	K07H8.3	K07H8.3 [Source:RefSeq_peptide;Acc:NP_501392]	metabolic process, growth, 		N-acetyltransferase activity, 
K07H8.2	K07H8.2	K07H8.2a [Source:RefSeq_peptide;Acc:NP_501393]	cation transport, 		cation transmembrane transporter activity, 
K07H8.1	K07H8.1	K07H8.1 [Source:RefSeq_peptide;Acc:NP_501395]	embryonic development ending in birth or egg hatching, 		protein binding, 
F35H10.7	F35H10.7	UPF0171 protein F35H10.7. [Source:Uniprot/SWISSPROT;Acc:Q20069]	morphogenesis of an epithelium, 		
F35H10.6	F35H10.6	F35H10.6 [Source:RefSeq_peptide;Acc:NP_501397]	protein folding, 	prefoldin complex, 	unfolded protein binding, 
F35H10.5	F35H10.5	F35H10.5 [Source:RefSeq_peptide;Acc:NP_501398]	biological_process, 		
vha-5	F35H10.4	vha-5 encodes an ortholog of subunit a of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-5 is orthologous to human ATP6N1A (OMIM:192130), ATP6V0A2, ATP6V0A4 (OMIM:605239, mutated in distal renal tubular acidosis), and TCIRG1 (OMIM:604592, mutated in osteopetrosis). VHA-5 is expressed broadly in embryos (in dot- or cup-like perinuclear compartments in each cell), and in the postembryonic pharynx, excretory cell, and epidermal syncytium. VHA-5 is required for survival past the L2 larval stage. VHA-5 is required for osmoregulation, since vha-5(mc38) die as fluid-filled L1 larvae. VHA-5 is also required for apical secretion of the hedgehog-like proteins WRT-2 and -8, and this requirement is genetically separable from V-ATPase activity (i.e., WRT secretion may require only the V0 domain, acting separately from the V1 domain). VHA-5 is required for alae formation, like the V0 subunits VHA-1 and VHA-4, but not like the V1 subunits VHA-8 or VHA-13. in S. cerevisiae, different V0 a-subunits (Stv1p and Vph1p) direct the assembly of V-ATPases to different membranes and organelles, suggesting that the profusion of such subunits in C. elegans (VHA-5, VHA-6, VHA-7, and six UNC-32 isoforms) may have a similar function. VHA-5 is predicted to capture protons from V-ATPase transmembrane rotor components and export the protons across the membrane. [Source: WormBase]	proton transport, positive regulation of growth rate, nematode larval development, 	membrane, 	calcium ion binding, 
F35H10.10	F35H10.10	F35H10.10 [Source:RefSeq_peptide;Acc:NP_501400]		membrane, 	metabotropic glutamate, GABA-B-like receptor activity, 
NR_001505.1	F35H10.12	F35H10.12, snoRNA [Source:RefSeq_dna;Acc:NR_001505]			
F35H10.3	F35H10.3	F35H10.3 [Source:RefSeq_peptide;Acc:NP_501401]			
F35H10.2	F35H10.2	F35H10.2 [Source:RefSeq_peptide;Acc:NP_501402]			
his-29	F35H10.11	his-29 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-30	F35H10.1	his-30 encodes an H2A histone. by homology, HIS-30 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-30 is a replication-dependent histone locus that resides in the HIS5 cluster on chromosome IV. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
lys-10	F17E9.11	LYSozyme family member (lys-10) [Source:RefSeq_peptide;Acc:NP_501405]			catalytic activity, 
his-31	F17E9.12	his-31 encodes an H4 histone. his-31 is contained within the histone gene cluster HIS5. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-32	F17E9.10	his-32 encodes an H3 histone. by homology, HIS-32 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-32 is a replication-dependent histone locus that resides in the HIS5 cluster on chromosome IV. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-33	F17E9.13	his-33 encodes an H2A histone. by homology, HIS-33 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-33 is a replication-dependent histone locus that resides in the HIS5 cluster on chromosome IV. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-34	F17E9.9	his-34 encodes an H2B histone. his-34 is contained within the histone gene cluster HIS5. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
F17E9.14	F17E9.14		embryonic development ending in birth or egg hatching, 		
lgc-6	F17E9.8	F17E9.8 [Source:RefSeq_peptide;Acc:NP_501410]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
lgc-5	F17E9.7	F17E9.7 [Source:RefSeq_peptide;Acc:NP_501411]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
F17E9.5	F17E9.5	F17E9.5 [Source:RefSeq_peptide;Acc:NP_501412]			protein binding, 
F17E9.4	F17E9.4	F17E9.4 [Source:RefSeq_peptide;Acc:NP_501413]			
F17E9.3	F17E9.3	F17E9.3 [Source:RefSeq_peptide;Acc:NP_501414]			
F17E9.2	F17E9.2	F17E9.2 [Source:RefSeq_peptide;Acc:NP_501415]			
col-116	F17E9.1	COLlagen family member (col-116) [Source:RefSeq_peptide;Acc:NP_501416]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
D2096.13	D2096.13	D2096.13 [Source:RefSeq_peptide;Acc:NP_001076671]			
D2096.5	D2096.5	D2096.5 [Source:RefSeq_peptide;Acc:NP_501417]			
sqv-1	D2096.4	sqv-1 encodes a UDP-glucuronic acid decarboxylase, biochemically active in vitro, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. SQV-1 is coexpressed with the nucleotide-sugar transporter homolog SQV-7 in in the vulva and in oocytes. SQV-1 colocalizes with SQV-5 and SQV-7 to punctate foci (probably the Golgi apparatus) in the cytoplasm of the vulva, the uterus and oocytes, within which SQV-1 may act to promote the biosynthesis of chondroitin glycosaminoglycans. the common requirement for SQV-1 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	cellular metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, morphogenesis of an epithelium, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
D2096.12	D2096.12	D2096.12 [Source:RefSeq_peptide;Acc:NP_001023103]	protein amino acid phosphorylation, locomotory behavior, 		protein kinase activity, ATP binding, protein binding, 
D2096.3	D2096.3	D2096.3 [Source:RefSeq_peptide;Acc:NP_501419]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
D2096.6	D2096.6	Uncharacterized protein D2096.6. [Source:Uniprot/SWISSPROT;Acc:Q19005]			nutrient reservoir activity, 
D2096.7	D2096.7	D2096.7b [Source:RefSeq_peptide;Acc:NP_001040933]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
D2096.8	D2096.8	D2096.8 [Source:RefSeq_peptide;Acc:NP_501422]	nucleosome assembly, positive regulation of growth rate, 	nucleus, 	
NR_003447.1	D2096.14	D2096.14, snoRNA [Source:RefSeq_dna;Acc:NR_003447]			
D2096.2	D2096.2	D2096.2a [Source:RefSeq_peptide;Acc:NP_001023104]			protein binding, 
D2096.9	D2096.9	D2096.9 [Source:RefSeq_peptide;Acc:NP_501424]	embryonic development ending in birth or egg hatching, 		
D2096.10	D2096.10	D2096.10 [Source:RefSeq_peptide;Acc:NP_501425]			
D2096.11	D2096.11	D2096.11 [Source:RefSeq_peptide;Acc:NP_501426]	cell cycle arrest, 		
D2096.1	D2096.1	D2096.1 [Source:RefSeq_peptide;Acc:NP_501427]	protein transport, 	mitochondrial inner membrane, 	protein transporter activity, 
M116.2	M116.2	M116.2 [Source:RefSeq_peptide;Acc:NP_501428]	carbohydrate biosynthetic process, 		transferase activity, transferring hexosyl groups, 
sdz-25	M116.4	SKN-1 Dependent Zygotic transcript family member (sdz-25) [Source:RefSeq_peptide;Acc:NP_501430]			
M116.1	M116.1	M116.1 [Source:RefSeq_peptide;Acc:NP_501431]			
M116.5	M116.5	M116.5 [Source:RefSeq_peptide;Acc:NP_501432]	cell cycle arrest, 		actin binding, 
srz-84	T26A8.5				
T26A8.3	T26A8.3	T26A8.3 [Source:RefSeq_peptide;Acc:NP_501433]			
T26A8.2	T26A8.2	T26A8.2 [Source:RefSeq_peptide;Acc:NP_501434]			
T26A8.4	T26A8.4	T26A8.4 [Source:RefSeq_peptide;Acc:NP_501435]	positive regulation of embryonic development, 		zinc ion binding, nucleic acid binding, 
T26A8.1	T26A8.1	T26A8.1 [Source:RefSeq_peptide;Acc:NP_501436]			
T01B11.1	T01B11.1	T01B11.1 [Source:RefSeq_peptide;Acc:NP_501437]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T01B11.2	T01B11.2	Alanine--glyoxylate aminotransferase 2-like (EC 2.6.1.-). [Source:Uniprot/SWISSPROT;Acc:P91408]	embryonic development ending in birth or egg hatching, 		pyridoxal phosphate binding, transaminase activity, 
syn-4	T01B11.3	syn-4 encodes a Type-I transmembrane protein that is orthologous to mammalian Syntaxin 1, a t-SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein (SNAP) receptor). by homology, SYN-4 is predicted to function as a receptor for intracellular transport vesicles during membrane fusion reactions. in C. elegans, SYN-4 activity is essential for three aspects of early embryogenesis: polar body extrusion, cytokinesis, and nuclear envelope reassembly following mitosis. in addition, SYN-4 may also play a role in formation of the vitelline membrane and/or eggshell. SYN-4 is expressed in the outer membrane of the early embryo, in a punctate pattern around reforming nuclear envelopes, and at the cleavage furrow during ingression. in L1 larvae, SYN-4 is expressed at high levels in lateral seam cells, and in adult hermaphrodites SYN-4 localizes to the incomplete membranes that separate germline nuclei in the gonad. [Source: WormBase]	intracellular protein transport, vesicle-mediated transport, embryonic development ending in birth or egg hatching, synaptic vesicle docking during exocytosis, 	membrane, 	protein transporter activity, protein binding, 
tag-316	T01B11.4	Temporarily Assigned Gene name family member (tag-316) [Source:RefSeq_peptide;Acc:NP_501440]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
str-176	T01B11.5				
oat-1	T01B11.7	oat-1 encodes a transmembrane organic anion transporter. although loss of oat-1 activity via large-scale RNAi screens results in no obvious abnormalities, when expressed in mammalian cells OAT-1 can transport a variety of structurally diverse organic anions via an anion exchange mechanism that is functionally coupled to a sodium-coupled dicarboxylate transporter. by homology with mammalian OAT1 transporters, C. elegans OAT-1 is predicted to function in xenobiotic elimination. [Source: WormBase]	transport, 	membrane, integral to membrane, 	transporter activity, 
C28C12.11	C28C12.11	C28C12.11 [Source:RefSeq_peptide;Acc:NP_501443]			
spp-10	C28C12.7	spp-10 encodes two protein isoforms that are orthologous to the human gene PROSAPOSIN (PSAP. OMIM:176801, mutated in Gaucher disease and metachromatic leukodystrophy). SPP-10A and -10B are predicted to have 3 and 4 embedded saposin sequences, that are likely to be split into individual saposin peptides by proteolysis. in mammals, saposins activate the enzymes sphingomyelinphosphodiesterase and beta-glucosylceramidase. spp-10 has no obvious function in mass RNAi assays. [Source: WormBase]	lipid metabolic process, sphingolipid metabolic process, 	lysosome, 	
hlh-12	C28C12.8	Helix Loop Helix family member (hlh-12) [Source:RefSeq_peptide;Acc:NP_501445]	regulation of transcription, regulation of transcription, DNA-dependent, gamete generation, 	nucleus, 	transcription regulator activity, transcription factor activity, 
spp-8	C28C12.5	SaPosin-like Protein family member (spp-8) [Source:RefSeq_peptide;Acc:NP_501447]			
C28C12.4	C28C12.4	C28C12.4 [Source:RefSeq_peptide;Acc:NP_501448]	embryonic development ending in birth or egg hatching, 		
C28C12.3	C28C12.3	Uncharacterized protein C28C12.3. [Source:Uniprot/SWISSPROT;Acc:P50437]			
sru-7	C28C12.13	Serpentine Receptor, class U family member (sru-7) [Source:RefSeq_peptide;Acc:NP_501450]			
C28C12.12	C28C12.12	C28C12.12 [Source:RefSeq_peptide;Acc:NP_501451]			
gei-9	C28C12.9	gei-9 encodes a protein containing a putative acyl-CoA dehydrogenase domain. interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]	proteolysis, metabolic process, electron transport, positive regulation of growth rate, 		subtilase activity, acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
C28C12.2	C28C12.2	C28C12.2 [Source:RefSeq_peptide;Acc:NP_501453]	positive regulation of growth rate, 		
C28C12.1	C28C12.1	C28C12.1 [Source:RefSeq_peptide;Acc:NP_501454]		cell outer membrane, 	
tag-77	C28C12.10	Temporarily Assigned Gene name family member (tag-77) [Source:RefSeq_peptide;Acc:NP_501455]	regulation of Rho protein signal transduction, reproduction, 	intracellular, 	zinc ion binding, Rho guanyl-nucleotide exchange factor activity, 
mes-6	C09G4.5	mes-6 encodes a WD repeat-containing protein that is orthologous to Drosophila Extra sex combs (Esc). as a member of a Polycomb-like chromatin repressive complex with MES-2 and MES-3, MES-6 is required maternally for normal germline development and during larval development, for anteroposterior patterning. during germline development, the MES-2/MES-3/MES-6 complex is believed to be essential for maintaining repression of the X chromosome, and in transgenic animals, the complex is necessary for germline repression of repetitive transgenes. in axial patterning, the MES-2/MES-3/MES-6 complex is required in somatic tissues for maintaining homeotic gene repression, acting upstream of the Hox genes lin-39, mab-5, and egl-5, as well as the egl-5 target gene lin-32. MES-6 expression is detected in the nuclei of all cells during early embryogenesis, in the germline precursors Z2 and Z3 and faintly in some somatic cells during late embryogenesis and the L1 larval stage, widely in later larvae, and in germline and oocyte nuclei in adults. normal MES-6 distribution is dependent upon wild-type activity of MES-2 and MES-3, and likewise, distribution of MES-3 is dependent upon wild-type activity of MES-2 and MES-6 [Source: WormBase]	biological_process, 		
C09G4.4	C09G4.4	C09G4.4 [Source:RefSeq_peptide;Acc:NP_001021319]	biological_process, 		
dom-6	C09G4.3	A homolog of Cks/Suc1, a highly conserved member of the eukaryotic cell cycle machinery that affects both meiosis and mitosis and has a role in the inactivation of the M-phase promoting factor (MPF) during early embryogenesis. [Source: WormBase]	cell cycle, embryonic development ending in birth or egg hatching, 		protein binding, cyclin-dependent protein kinase regulator activity, 
C09G4.2	C09G4.2	C09G4.2c [Source:RefSeq_peptide;Acc:NP_741467]	protein amino acid phosphorylation, 	cAMP-dependent protein kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, cAMP-dependent protein kinase regulator activity, 
hyl-1	C09G4.1	hyl-1 encodes a predicted transmembrane protein that is related to Saccharomyces cerevisiae LAG1 (longevity assurance gene), a protein preferentially expressed in young yeasts. by homology, HYL-1 is predicted to have several possible functions, including regulation of lipid, particularly ceramide, biosynthesis, regulation of lipid transport, and regulation of protein translocation in the endoplasmic reticulum. in C. elegans, however, neither the precise role of HYL-1 in development and/or behavior nor the hyl-1 expression pattern is yet known. [Source: WormBase]		integral to membrane, 	
Y59H11AL.1	Y59H11AL.1	Y59H11AL.1a [Source:RefSeq_peptide;Acc:NP_001023540]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
Y59H11AM.3	Y59H11AM.3	Y59H11AM.2 [Source:RefSeq_peptide;Acc:NP_501462]			
Y59H11AM.2	Y59H11AM.2	Y59H11AM.2 [Source:RefSeq_peptide;Acc:NP_501462]			
Y59H11AM.4	Y59H11AM.4	Y59H11AM.4 [Source:RefSeq_peptide;Acc:NP_501463]			
Y59H11AM.1	Y59H11AM.1	Y59H11AM.1 [Source:RefSeq_peptide;Acc:NP_501464]			structural molecule activity, 
Y59H11AR.2	Y59H11AR.2	Y59H11AR.2a [Source:RefSeq_peptide;Acc:NP_001023542]	transport, metabolic process, cation transport, proton transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, catalytic activity, hydrolase activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
Y59H11AR.3	Y59H11AR.3	Y59H11AR.3 [Source:RefSeq_peptide;Acc:NP_501466]			
Y59H11AR.5	Y59H11AR.5	Y59H11AR.5 [Source:RefSeq_peptide;Acc:NP_001033456]			sugar binding, 
Y59H11AR.4	Y59H11AR.4	Y59H11AR.4 [Source:RefSeq_peptide;Acc:NP_501467]	amino acid transport, 	membrane, 	
F42A9.6	F42A9.6	F42A9.6 [Source:RefSeq_peptide;Acc:NP_501469]			
cyp-33E2	F42A9.5	CYtochrome P450 family member (cyp-33E2) [Source:RefSeq_peptide;Acc:NP_501470]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-33E3	F42A9.4	CYtochrome P450 family member (cyp-33E3) [Source:RefSeq_peptide;Acc:NP_501471]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F42A9.7	F42A9.7	F42A9.7 [Source:RefSeq_peptide;Acc:NP_501472]			structural molecule activity, 
F42A9.3	F42A9.3	F42A9.3 [Source:RefSeq_peptide;Acc:NP_501473]			
F42A9.8	F42A9.8	F42A9.8 [Source:RefSeq_peptide;Acc:NP_501474]			
lin-49	F42A9.2	Protein lin-49 (Abnormal cell lineage protein 49). [Source:Uniprot/SWISSPROT;Acc:Q20318]	intracellular signaling cascade, positive regulation of growth rate, 		protein binding, zinc ion binding, 
tag-137	F42A9.1	F42A9.1a [Source:RefSeq_peptide;Acc:NP_501476]	intracellular signaling cascade, protein kinase C activation, 		diacylglycerol kinase activity, 
F42A9.9	F42A9.9	F42A9.9 [Source:RefSeq_peptide;Acc:NP_501478]			
C49C8.3	C49C8.3	C49C8.3 [Source:RefSeq_peptide;Acc:NP_501479]			
cyp-33E1	C49C8.4	CYtochrome P450 family member (cyp-33E1) [Source:RefSeq_peptide;Acc:NP_501480]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C49C8.5	C49C8.5	C49C8.5 [Source:RefSeq_peptide;Acc:NP_501481]	signal transduction, 		receptor binding, 
C49C8.2	C49C8.2	C49C8.2 [Source:RefSeq_peptide;Acc:NP_501482]			
C49C8.1	C49C8.1	C49C8.1 [Source:RefSeq_peptide;Acc:NP_501483]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C49C8.6	C49C8.6	C49C8.6 [Source:RefSeq_peptide;Acc:NP_501484]	embryonic development ending in birth or egg hatching, 		
F08B4.3	F08B4.3	F08B4.3 [Source:RefSeq_peptide;Acc:NP_501485]			protein kinase activity, 
cdh-5	F08B4.2	a homolog of cadherin. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	calcium ion binding, 
F08B4.4	F08B4.4	F08B4.4 [Source:RefSeq_peptide;Acc:NP_501488]			
F08B4.5	F08B4.5	Probable DNA polymerase epsilon subunit 2 (EC 2.7.7.7) (DNA polymerase II subunit 2) (DNA polymerase epsilon subunit B). [Source:Uniprot/SWISSPROT;Acc:Q19196]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, DNA-directed DNA polymerase activity, 
F08B4.7	F08B4.7	F08B4.7 [Source:RefSeq_peptide;Acc:NP_501490]	positive regulation of growth rate, 	nucleus, 	zinc ion binding, nucleic acid binding, 
hst-1	F08B4.6	Bifunctional heparan sulfate N-deacetylase/N-sulfotransferase 1 (EC 2.8.2.8) (Glucosaminyl N-deacetylase/N-sulfotransferase 1) [Includes: Heparan sulfate N-deacetylase 1 (EC 3.-.-.-); Heparan sulfate N-sulfotransferase 1 (EC 2.8.2.-)]. [Source:Uniprot/SWISSPROT;Acc:Q966W3]	embryonic development ending in birth or egg hatching, 		sulfotransferase activity, 
dic-1	F08B4.1	dic-1 encodes an ortholog of Drosophila CG3125 and human DEAD/H BOX 26 (DDX26, DICE-1. OMIM:604331. nuclear protein, lost or downregulated in nonsmall cell lung carcinomas). DIC-1 and its orthologs have an N-terminal von Willebrand factor (vWF) type A domain. DIC-1 is required for embryonic development and normal locomotion. [Source: WormBase]	methylation, embryonic development ending in birth or egg hatching, 		methyltransferase activity, nucleic acid binding, 
ttll-11	H23L24.3	ttll-11 encodes a putative tubulin polyglutamylase orthologous to human TTLL11. TTLL-11 has no obvious function in mass RNAi assays. by orthology, TTLL-11 is expected to elongate glutamyl chains rather than initiating them and to prefer alpha-tubulin over beta-tubulin as a substrate. [Source: WormBase]	protein modification process, 		tubulin-tyrosine ligase activity, 
H23L24.4	H23L24.4	H23L24.4 [Source:RefSeq_peptide;Acc:NP_501495]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
pme-4	H23L24.5	pme-4 encodes a poly(ADP-ribose) glycohydrolase (PARG) orthologous to human PARG (OMIM:603501) and paralogous to PME-3. PME-4 has PARG activity in vitro, and is required in vivo for normal resistance to ionizing radiation. PME-4 is primarily expressed in the cytoplasm of nerve cells, and in embryos. neuronal expression of PME-4 may reflect a requirement for PARG in preventing neurodegeneration like that seen in Drosophila. [Source: WormBase]			
H23L24.2	H23L24.2	H23L24.2 [Source:RefSeq_peptide;Acc:NP_501497]	lipid metabolic process, 		
H23L24.1	H23L24.1	H23L24.1 [Source:RefSeq_peptide;Acc:NP_501498]			
F21D5.9	F21D5.9	F21D5.9 [Source:RefSeq_peptide;Acc:NP_501499]		intracellular, 	zinc ion binding, nucleic acid binding, 
F21D5.1	F21D5.1	F21D5.1 encodes a putative phosphoacetylglucosamine mutase orthologous to human PGM3 (OMIM:172100). F21D5.1 is thought to catalyse the third step of the hexosamine pathway to UDP-N-acetylglucosamine or UDP-N-acetylgalactosamine. F21D5.1 transcripts are enriched during oogenesis. F21D5.1(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, presumably because of defects in chitin and eggshell synthesis. [Source: WormBase]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		intramolecular transferase activity, phosphotransferases, 
F21D5.2	F21D5.2	F21D5.2 [Source:RefSeq_peptide;Acc:NP_501501]			
F21D5.3	F21D5.3	F21D5.3 [Source:RefSeq_peptide;Acc:NP_501502]			oxidoreductase activity, copper ion binding, 
F21D5.5	F21D5.5	Uncharacterized protein F21D5.5. [Source:Uniprot/SWISSPROT;Acc:Q19683]	histidine biosynthetic process, positive regulation of growth rate, 		
F21D5.4	F21D5.4	F21D5.4 [Source:RefSeq_peptide;Acc:NP_501504]			DNA binding, 
F21D5.8	F21D5.8	F21D5.8 [Source:RefSeq_peptide;Acc:NP_501505]	positive regulation of growth rate, 		
F21D5.6	F21D5.6	F21D5.6 [Source:RefSeq_peptide;Acc:NP_501506]			
F21D5.7	F21D5.7	F21D5.7 [Source:RefSeq_peptide;Acc:NP_501507]	SRP-dependent cotranslational protein targeting to membrane, biological_process, 	membrane, signal recognition particle, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, GTP binding, 7S RNA binding, 
F20C5.7	F20C5.7	F20C5.7 [Source:RefSeq_peptide;Acc:NP_001023140]			
pme-3	F20C5.1	pme-3 encodes a poly(ADP-ribose) glycohydrolase (PARG) orthologous to human PARG (OMIM:603501) and paralogous to PME-4. PME-3 has PARG activity in vitro, and is required in vivo for normal resistance to ionizing radiation. PME-3 is primarily expressed in the nuclei of nerve cells, and in embryos. neuronal expression of PME-3 may reflect a requirement for PARG in preventing neurodegeneration like that seen in Drosophila. [Source: WormBase]	carbohydrate metabolic process, 		
F20C5.3	F20C5.3	F20C5.3 [Source:RefSeq_peptide;Acc:NP_501509]	embryonic development ending in birth or egg hatching, 		
klp-11	F20C5.2	klp-11 encodes a predicted kinesin protein with high similarity to OSM-3 in the motor domain and encodes one of the motor subunits of heterotrimeric CeKinesin-II. expressed throughout the nervous system. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, nucleotide binding, protein binding, microtubule motor activity, 
F20C5.4	F20C5.4	F20C5.4 [Source:RefSeq_peptide;Acc:NP_501511]		membrane, 	
F20C5.5	F20C5.5	F20C5.5 [Source:RefSeq_peptide;Acc:NP_501512]			oxidoreductase activity, 
F20C5.6	F20C5.6	F20C5.6 [Source:RefSeq_peptide;Acc:NP_501513]	SRP-dependent cotranslational protein targeting to membrane, 	signal recognition particle, 	protein binding, GTP binding, 7S RNA binding, 
C33D9.9	C33D9.9	C33D9.9 [Source:RefSeq_peptide;Acc:NP_501514]			
C33D9.6	C33D9.6	C33D9.6 [Source:RefSeq_peptide;Acc:NP_501515]			
C33D9.5	C33D9.5	C33D9.5 encodes a predicted coiled-coil protein. as loss of C33D9.5 activity via large-scale RNAi results in no obvious abnormalities, the precise role of C33D9.5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
C33D9.8	C33D9.8	C33D9.8 [Source:RefSeq_peptide;Acc:NP_501517]	DNA topological change, DNA unwinding during replication, 	chromosome, 	DNA binding, DNA topoisomerase type I activity, 
C33D9.10	C33D9.10	C33D9.10 [Source:RefSeq_peptide;Acc:NP_001023040]			
sru-35	C33D9.4	Serpentine Receptor, class U family member (sru-35) [Source:RefSeq_peptide;Acc:NP_501518]			
C33D9.3	C33D9.3	C33D9.3a [Source:RefSeq_peptide;Acc:NP_001023041]			
C33D9.2	C33D9.2	C33D9.2 [Source:RefSeq_peptide;Acc:NP_501520]			sugar binding, 
exc-5	C33D9.1	exc-5 encodes a protein orthologous to human FGD1 which is a guanine nucleotide exchange factor (GEF) for the Rho GTPase, Cdc-42. exc-5 is involved in the morphogenesis and structural organization of the excretory cell and is predominantly expressed in the excretory cell during development. mutations in human FGD1 cause Aarskog syndrome that affects skeletal development. [Source: WormBase]	regulation of Rho protein signal transduction, cell morphogenesis, locomotory behavior, 	intracellular, 	zinc ion binding, Rho guanyl-nucleotide exchange factor activity, 
grsp-2	T28C6.1	Glycine Rich Secreted Protein family member (grsp-2) [Source:RefSeq_peptide;Acc:NP_501522]	G-protein coupled receptor protein signaling pathway, protein homooligomerization, 	membrane, integral to membrane, 	
T28C6.10	T28C6.10	T28C6.10 [Source:RefSeq_peptide;Acc:NP_001076715]			
T28C6.3	T28C6.3	T28C6.3 [Source:RefSeq_peptide;Acc:NP_501524]			
T28C6.5	T28C6.5	T28C6.5 [Source:RefSeq_peptide;Acc:NP_501525]	intracellular signaling cascade, signal transduction, glycolysis, 	6-phosphofructokinase complex, 	phospholipase C activity, 6-phosphofructokinase activity, 
col-117	T28C6.4	COLlagen family member (col-3) [Source:RefSeq_peptide;Acc:NP_501527]	phosphate transport, biological_process, 	cytoplasm, 	structural constituent of cuticle, 
col-3	T28C6.6	col-3 encodes a collagen protein that affects body morphogenesis, larval viability, and locomotion in large scale RNAi screens. mRNA is expressed during all developmental stages examined (in embryos, during the L2 to dauer molt, during the dauer to L4 larval molt, and during the L4 to adult molt). [Source: WormBase]	phosphate transport, biological_process, 	cytoplasm, 	structural constituent of cuticle, 
T28C6.7	T28C6.7	T28C6.7 [Source:RefSeq_peptide;Acc:NP_501528]		cytoplasm, 	protein binding, 
T28C6.8	T28C6.8	T28C6.8 [Source:RefSeq_peptide;Acc:NP_501529]			
T28C6.9	T28C6.9	T28C6.9 [Source:RefSeq_peptide;Acc:NP_001040993]			GTPase activator activity, growth factor activity, 
T11B7.1	T11B7.1	T11B7.1 [Source:RefSeq_peptide;Acc:NP_501530]			protein binding, 
T11B7.2	T11B7.2	T11B7.2 [Source:RefSeq_peptide;Acc:NP_501531]			
col-118	T11B7.3	COLlagen family member (col-118) [Source:RefSeq_peptide;Acc:NP_501532]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T11B7.6	T11B7.6				
alp-1	T11B7.4	ALP/Enigma encoding family member (alp-1) [Source:RefSeq_peptide;Acc:NP_001023371]	locomotory behavior, 		protein binding, zinc ion binding, identical protein binding, 
T11B7.5	T11B7.5	T11B7.5 [Source:RefSeq_peptide;Acc:NP_501535]			
C09G9.1	C09G9.1	C09G9.1 [Source:RefSeq_peptide;Acc:NP_501536]			
C09G9.2	C09G9.2	C09G9.2 [Source:RefSeq_peptide;Acc:NP_501537]			
C09G9.3	C09G9.3	C09G9.3 [Source:RefSeq_peptide;Acc:NP_501538]			
C09G9.9	C09G9.9				
tag-19	C09G9.4	tag-19 superficially resembles aromatic-L-amino-acid/L-histidine decarboxylases. however, it is distantly related, being no closer to them than to glutamine decarboxylase/sphingosinge lyase (e.g., tag-38, spl-1). tag-19 thus might be termed a Pyridoxal-phosphate (PLP) dependent decarboxylase-like protei, but is missing the absolutely conserved Lys residue of all PLP-DCs (hence the -like would be needed). tag-19 is dispensable in mass RNAi assays. [Source: WormBase]	amino acid and derivative metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, 
C09G9.7	C09G9.7	C09G9.7 [Source:RefSeq_peptide;Acc:NP_501540]	multicellular organismal development, embryonic development ending in birth or egg hatching, 	nucleus, 	
C09G9.8	C09G9.8	C09G9.8 [Source:RefSeq_peptide;Acc:NP_001021321]			
C09G9.5	C09G9.5	C09G9.5 [Source:RefSeq_peptide;Acc:NP_501541]			
oma-1	C09G9.6	The oma-1 gene encodes a zinc finger protein of the TIS11 finger type that is paralogous to OMA-2. while either oma-1 or oma-2 individually have no obvious mutant phenotype, a normal copy of at least one of these genes is required for oocyte maturation. [Source: WormBase]	oocyte maturation, 		zinc ion binding, nucleic acid binding, catalytic activity, 
spr-2	C27B7.1	spr-2 encodes the C. elegans ortholog of the Drosophila and mammalian SET proteins (OMIM:600960, translocation breakpoint in human SET is associated with acute myeloid leukemia). SPR-2 is predicted to be a member of the SET protein complex that functions in chromatin remodeling, DNA repair, and transcriptional regulation. in C. elegans, SPR-2 may function to regulate the activity and/or levels of the presenilin proteins encoded by sel-12 and hop-1, as mutations in spr-2 suppress mutations in sel-12 in a hop-1-dependent manner. spr-2 is detected in the nuclei of all cells at several developmental stages, including the L3 larval stage. [Source: WormBase]	nucleosome assembly, 	nucleus, 	protein binding, 
C27B7.2	C27B7.2	C27B7.2 [Source:RefSeq_peptide;Acc:NP_501544]			
rad-26	C27B7.4	RADiation sensitivity abnormal/yeast RAD-related family member (rad-26) [Source:RefSeq_peptide;Acc:NP_501545]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	ATP binding, protein binding, DNA binding, nucleic acid binding, helicase activity, rhodopsin-like receptor activity, 
C27B7.5	C27B7.5	C27B7.5 [Source:RefSeq_peptide;Acc:NP_501546]			zinc ion binding, nucleic acid binding, 
C27B7.6	C27B7.6	Putative serine/threonine-protein phosphatase C27B7.6 (EC 3.1.3.16). [Source:Uniprot/SWISSPROT;Acc:P48460]			hydrolase activity, 
C27B7.7	C27B7.7	Ig-like and fibronectin type-III domain-containing protein C27B7.7 precursor. [Source:Uniprot/SWISSPROT;Acc:Q18245]			
C27B7.9	C27B7.9	C27B7.9 [Source:RefSeq_peptide;Acc:NP_001021334]			
rap-1	C27B7.8	rap-1 encodes a member of the Ras superfamily of small GTPases. the activated protein interacts with W05B10.4 and T14G10.2 in yeast two-hybrid assays and rap-1 is expressed in some neurons in the head and tail, the rectal epithelial cells, body muscle, hypodermis, and in the somatic cells of the gonad. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
D1046.2	D1046.2	D1046.2 [Source:RefSeq_peptide;Acc:NP_501550]	morphogenesis of an epithelium, 	intracellular, 	zinc ion binding, nucleic acid binding, 
D1046.1	D1046.1	D1046.1 [Source:RefSeq_peptide;Acc:NP_501551]	G-protein coupled receptor protein signaling pathway, locomotory behavior, 	integral to membrane, 	protein binding, nucleic acid binding, C-X-C chemokine receptor activity, 
D1046.t1	D1046.t1		locomotory behavior, 		
NR_003446.1	D1046.6	D1046.6, snoRNA [Source:RefSeq_dna;Acc:NR_003446]			
D1046.3	D1046.3	D1046.3 [Source:RefSeq_peptide;Acc:NP_501552]	transport, 	membrane, mitochondrial inner membrane, 	binding, 
D1046.4	D1046.4	D1046.4 [Source:RefSeq_peptide;Acc:NP_501553]	phosphate transport, 		
D1046.5	D1046.5	UPF0359 membrane protein D1046.5. [Source:Uniprot/SWISSPROT;Acc:Q18936]			metal ion binding, catalytic activity, 
C53B4.2	C53B4.2	C53B4.2 [Source:RefSeq_peptide;Acc:NP_501555]			
C53B4.1	C53B4.1	C53B4.1 [Source:RefSeq_peptide;Acc:NP_501556]	transport, 	membrane, integral to membrane, 	transporter activity, 
C53B4.3	C53B4.3	C53B4.3 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:23098) (SLC22A1L. OMIM:602631), which when mutated leads to disease. [Source: WormBase]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
C53B4.4	C53B4.4	C53B4.4a [Source:RefSeq_peptide;Acc:NP_501559]	intracellular signaling cascade, 		protein binding, 
col-119	C53B4.5	C53B4.5 [Source:RefSeq_peptide;Acc:NP_501561]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C53B4.6	C53B4.6	C53B4.6 [Source:RefSeq_peptide;Acc:NP_501562]			nucleotide-sugar transmembrane transporter activity, 
bre-1	C53B4.7	bre-1 is required for Cry5B toxicity. [Source: WormBase]	metabolic process, cellular metabolic process, GDP-mannose metabolic process, 	intracellular, 	oxidoreductase activity, catalytic activity, coenzyme binding, GDP-mannose 4,6-dehydratase activity, 
C53B4.8	C53B4.8	C53B4.8b [Source:RefSeq_peptide;Acc:NP_001040931]			
NR_000347.1	C53B4.9	C53B4.9, snRNA [Source:RefSeq_dna;Acc:NR_000347]			
C53D6.t1	C53D6.t1				
C53D6.8	C53D6.8	C53D6.8 [Source:RefSeq_peptide;Acc:NP_001023097]			
NR_003445.1	C53D6.12	C53D6.12, snRNA [Source:RefSeq_dna;Acc:NR_003445]			
unc-129	C53D6.2	The unc-129 gene encodes a member of the TGF-beta family of secreted growth factor signaling molecules. UNC-129 is required for proper axonal guidance of commissural motorneurons and for proper migration of the distal tip cells of the somatic gonad. UNC-129 is expressed in dorsal body wall muscle and at present does not appear to act through the known TGF-beta type I and II receptors. [Source: WormBase]	axon guidance, 		protein binding, growth factor activity, 
C53D6.11	C53D6.11	C53D6.11 [Source:RefSeq_peptide;Acc:NP_001023095]			
acc-2	C53D6.3	C53D6.3 [Source:RefSeq_peptide;Acc:NP_501567]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
C53D6.4	C53D6.4	C53D6.4 [Source:RefSeq_peptide;Acc:NP_501568]			isomerase activity, 
srx-15	C53D6.9				
C53D6.5	C53D6.5	C53D6.5 [Source:RefSeq_peptide;Acc:NP_501569]			
C53D6.6	C53D6.6	C53D6.6 [Source:RefSeq_peptide;Acc:NP_501570]			protein binding, protein dimerization activity, identical protein binding, 
C53D6.10	C53D6.10	C53D6.10 [Source:RefSeq_peptide;Acc:NP_001023094]			
C53D6.7	C53D6.7	C53D6.7 [Source:RefSeq_peptide;Acc:NP_501571]			sugar binding, 
Y73F4A.3	Y73F4A.3	Y73F4A.3 [Source:RefSeq_peptide;Acc:NP_501572]	histidine catabolic process, carbohydrate catabolic process, 		catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
Y73F4A.2	Y73F4A.2	DOMON domain-containing protein Y73F4A.2 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9XWC3]	histidine catabolic process, embryonic development ending in birth or egg hatching, carbohydrate catabolic process, 		catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
Y73F4A.1	Y73F4A.1	DOMON domain-containing protein Y73F4A.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9XWC2]	histidine catabolic process, carbohydrate catabolic process, 		catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
nhr-11	ZC410.1	nhr-11 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
mppb-1	ZC410.2	Mitochondrial Processing Peptidase Beta family member (mppb-1) [Source:RefSeq_peptide;Acc:NP_501576]	proteolysis, embryonic development ending in birth or egg hatching, 		zinc ion binding, metalloendopeptidase activity, 
ZC410.3	ZC410.3	ZC410.3 [Source:RefSeq_peptide;Acc:NP_501577]	embryonic development ending in birth or egg hatching, 	membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
twk-8	ZC410.4	twk-8 encodes one of more than 40 TWK (two-P domain K+) potassium channels in C. elegans that contain two pore regions and four transmembrane domains. expressed in body-wall muscle. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
ZC410.5	ZC410.5	ZC410.5a [Source:RefSeq_peptide;Acc:NP_001023598]			
lpl-1	ZC410.7	The lpl-1 gene encodes a lipoate ligase homolog. this gene resides in an operon that also contains the genes icl-1 and C01F6.9. [Source: WormBase]	protein modification process, lipoate biosynthetic process, biological_process, 		catalytic activity, 
icl-1	C01F6.8	The icl-1 gene encodes, through alternative splicing, two alternative forms (ICL-1A, or 'IClnN1', and ICL-1B, or 'IClnN2'), with distinct electrophysiological properties, of an anion channel homolog. [Source: WormBase]	chloride transport, cell volume homeostasis, positive regulation of growth rate, 		
C01F6.9	C01F6.9	The C01F6.9 gene resides in an operon that also contains the genes icl-1 and lpl-1. [Source: WormBase]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
C01F6.1	C01F6.1	C01F6.1 encodes a putative calcium-dependent phospholipid binding protein of the copine family. C01F6.1 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. C01F6.1(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. [Source: WormBase]			protein binding, 
C01F6.2	C01F6.2	C01F6.2 [Source:RefSeq_peptide;Acc:NP_501585]	embryonic development ending in birth or egg hatching, 		carbohydrate binding, 
cyp-31A1	C01F6.3		embryonic development ending in birth or egg hatching, 		
fem-3	C01F6.4	fem-3 encodes a novel protein that promotes male development in all tissues. [Source: WormBase]	embryonic development ending in birth or egg hatching, male somatic sex determination, 		protein binding, 
aly-1	C01F6.5	Ref/ALY RNA export adaptor family member (aly-1) [Source:RefSeq_peptide;Acc:NP_501588]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, nucleic acid binding, 
tag-60	C01F6.6	Temporarily Assigned Gene name family member (tag-60) [Source:RefSeq_peptide;Acc:NP_741478]			protein binding, 
NR_002659.1	F23B2.14	F23B2.14, snRNA [Source:RefSeq_dna;Acc:NR_002659]			
21ur-3	F23B2.18				
21ur-4963	F23B2.16				
21ur-308	F23B2.19				
21ur-1028	F23B2.17				
F23B2.3	F23B2.3	F23B2.3 [Source:RefSeq_peptide;Acc:NP_501590]	sodium ion transport, 	membrane, 	sodium channel activity, 
daf-10	F23B2.4	daf-10 encodes a WD- and WAA-repeat containing protein that is the C. elegans ortholog of intraflagellar transport (IFT) complex A component IFT122. daf-10 activity is required for intraflagellar transport and thus for proper development of amphid and phasmid neurons, dauer development, chemotaxis, and normal lifespan. a DAF-10::GFP fusion protein undergoes both anterograde and retrograde intraflagellar transport in amphid or phasmid sensory neurons. [Source: WormBase]	ATP synthesis coupled proton transport, ATP biosynthetic process, regulation of insulin receptor signaling pathway, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
NR_002660.1	F23B2.15	F23B2.15, snRNA [Source:RefSeq_dna;Acc:NR_002660]			
flp-1	F23B2.5	flp-1 can encode up to seven distinct, yet highly similar, FMRFamide-related peptides (FaRPs), small neuromodulatory peptides that are characterized by a C-terminal Arg-Phe-amide motif. in C. elegans, FLP-1 peptides are required for regulation of several behaviors, including well-coordinated, sinusoidal movement and the transition between active and inactive states of egg-laying. receptors for the FLP-1 peptides have not yet been identified, but genetic studies indicate that FLP-1 peptides may act through G-protein coupled receptors. flp-1 mRNAs are detected at all developmental stages, and a FLP-1 translational reporter fusion detects expression in the anteriorly positioned neurons AVK, AVA, AVE, RIG, RMG, AIY, AIA, and M5 [Source: WormBase]	neuropeptide signaling pathway, 		
F23B2.13	F23B2.13	F23B2.13 [Source:RefSeq_peptide;Acc:NP_501593]	transcription, embryonic development ending in birth or egg hatching, 		DNA binding, DNA-directed RNA polymerase activity, 
aly-2	F23B2.6	Ref/ALY RNA export adaptor family member (aly-2) [Source:RefSeq_peptide;Acc:NP_501594]			nucleic acid binding, 
F23B2.9	F23B2.9				
F23B2.7	F23B2.7	F23B2.7 [Source:RefSeq_peptide;Acc:NP_501595]			
F23B2.8	F23B2.8	F23B2.8 [Source:RefSeq_peptide;Acc:NP_501596]			protein binding, 
F23B2.10	F23B2.10	F23B2.10 [Source:RefSeq_peptide;Acc:NP_501597]			protein binding, zinc ion binding, 
pcp-3	F23B2.11	Prolyl Carboxy Peptidase like family member (pcp-3) [Source:RefSeq_peptide;Acc:NP_501598]	proteolysis, 		serine-type peptidase activity, 
pcp-2	F23B2.12	Prolyl Carboxy Peptidase like family member (pcp-2) [Source:RefSeq_peptide;Acc:NP_501599]	proteolysis, 	cell outer membrane, 	serine-type peptidase activity, 
C07C7.1	C07C7.1	C07C7.1 [Source:RefSeq_peptide;Acc:NP_501600]			
C46C2.4	C46C2.4				
NR_003444.1	C46C2.8	C46C2.8, snoRNA [Source:RefSeq_dna;Acc:NR_003444]			
C46C2.5	C46C2.5	C46C2.5 [Source:RefSeq_peptide;Acc:NP_501602]			
C46C2.7	C46C2.7	C46C2.7 [Source:RefSeq_peptide;Acc:NP_001076667]			transcription factor activity, 
wnk-1	C46C2.1	wnk-1 is orthologous to the human gene PROTEIN KINASE, LYSINE-DEFICIENT 1 (PRKWNK1. OMIM:605232), which when mutated leads to pseudohypoaldosteronism type II. [Source: WormBase]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C46C2.6	C46C2.6	C46C2.6a [Source:RefSeq_peptide;Acc:NP_001040925]			
C46C2.2	C46C2.2	C46C2.2 [Source:RefSeq_peptide;Acc:NP_501604]	transport, 	membrane, integral to membrane, 	transporter activity, 
C46C2.3	C46C2.3	C46C2.3 [Source:RefSeq_peptide;Acc:NP_501605]			
Y11D7A.1	Y11D7A.1	Y11D7A.1 [Source:RefSeq_peptide;Acc:NP_501607]			protein binding, catalytic activity, sugar binding, 
srg-52	Y11D7A.17				
Y11D7A.3	Y11D7A.3	Y11D7A.3b [Source:RefSeq_peptide;Acc:NP_001041018]			
rab-28	Y11D7A.4	rab-28 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. the precise biological role and expression pattern of rab-28 are not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y11D7A.5	Y11D7A.5	Y11D7A.5 [Source:RefSeq_peptide;Acc:NP_501610]			
Y11D7A.16	Y11D7A.16		embryonic development ending in birth or egg hatching, 		
Y11D7A.7	Y11D7A.7	Y11D7A.7 [Source:RefSeq_peptide;Acc:NP_501613]			
Y11D7A.8	Y11D7A.8	Y11D7A.8 [Source:RefSeq_peptide;Acc:NP_501614]			
Y11D7A.9	Y11D7A.9	Y11D7A.9 [Source:RefSeq_peptide;Acc:NP_501615]	oviposition, 		
Y11D7A.10	Y11D7A.10	Y11D7A.10 [Source:RefSeq_peptide;Acc:NP_501616]			
col-120	Y11D7A.11	COLlagen family member (col-120) [Source:RefSeq_peptide;Acc:NP_501617]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
Y11D7A.12	Y11D7A.12	Y11D7A.12 [Source:RefSeq_peptide;Acc:NP_501618]			
Y11D7A.13	Y11D7A.13	Y11D7A.13 [Source:RefSeq_peptide;Acc:NP_501619]			
Y11D7A.18	Y11D7A.18				
Y11D7A.14	Y11D7A.14	Y11D7A.14 [Source:RefSeq_peptide;Acc:NP_501620]	microtubule-based movement, 	microtubule associated complex, myosin complex, 	ATP binding, microtubule motor activity, motor activity, 
nhr-267	H22D14.1	Nuclear Hormone Receptor family member (nhr-267) [Source:RefSeq_peptide;Acc:NP_501621]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-264	F14A5.1	Nuclear Hormone Receptor family member (nhr-264) [Source:RefSeq_peptide;Acc:NP_501622]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F49C12.1	F49C12.1	F49C12.1 [Source:RefSeq_peptide;Acc:NP_501623]			
F49C12.2	F49C12.2	F49C12.2 [Source:RefSeq_peptide;Acc:NP_501624]			
F49C12.3	F49C12.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q20581]			
F49C12.4	F49C12.4	F49C12.4 [Source:RefSeq_peptide;Acc:NP_501626]			
F49C12.5	F49C12.5	UPF0392 protein F49C12.5. [Source:Uniprot/SWISSPROT;Acc:Q20593]			
F49C12.6	F49C12.6	F49C12.6 [Source:RefSeq_peptide;Acc:NP_501629]	G-protein coupled receptor protein signaling pathway, carbohydrate transport, 	integral to membrane, 	rhodopsin-like receptor activity, carbohydrate transmembrane transporter activity, 
F49C12.7	F49C12.7	F49C12.7b [Source:RefSeq_peptide;Acc:NP_001040948]			
F49C12.9	F49C12.9	F49C12.9 [Source:RefSeq_peptide;Acc:NP_501631]			
rpn-7	F49C12.8	rpn-7 is predicted to encode a non-ATPase subunit of the 19S regulatory complex of the proteasome that affects fertility and embryonic viability. [Source: WormBase]	reproduction, 		
F49C12.10	F49C12.10	F49C12.10 [Source:RefSeq_peptide;Acc:NP_501633]	metabolic process, 		methyltransferase activity, 
F49C12.11	F49C12.11	Coiled-coil domain-containing protein 72 homolog. [Source:Uniprot/SWISSPROT;Acc:Q20588]	positive regulation of multicellular organism growth, 		
F49C12.12	F49C12.12	F49C12.12 [Source:RefSeq_peptide;Acc:NP_501635]	embryonic development ending in birth or egg hatching, 		
vha-17	F49C12.13	vha-17 (aka 'fus-1') encodes an an ortholog of subunit e of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-17, like VHA-1 and VHA-12, antagonizes EFF-1-mediated cell fusion in hypodermal cells. VHA-17 is expressed in gut cells of comma stage embryos, and in excretory cell and apical membranes of gut cells at later embryonic stages. VHA-17 is found in gut granules (a type of lysosome, expected to require acidification), and glo-1 mutant intestines fail to show punctate VHA-17. VHA-17 is required for viability, but this is at least somewhat genetically separable from VHA-17's antifusogenic activity. [Source: WormBase]	ATP synthesis coupled proton transport, biological_process, 	integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
F49C12.14	F49C12.14	F49C12.14 [Source:RefSeq_peptide;Acc:NP_501637]			
F49C12.15	F49C12.15	F49C12.15 [Source:RefSeq_peptide;Acc:NP_501638]			
T20D3.1	T20D3.1	T20D3.1 [Source:RefSeq_peptide;Acc:NP_501639]			sugar binding, 
T20D3.2	T20D3.2	T20D3.2 [Source:RefSeq_peptide;Acc:NP_501640]			
T20D3.3	T20D3.3	T20D3.3a [Source:RefSeq_peptide;Acc:NP_001023391]	embryonic development ending in birth or egg hatching, 		
NR_000349.1	T20D3.12	T20D3.12, snRNA [Source:RefSeq_dna;Acc:NR_000349]			
NR_000350.1	T20D3.13	T20D3.13, snRNA [Source:RefSeq_dna;Acc:NR_000350]			
T20D3.5	T20D3.5	T20D3.5b [Source:RefSeq_peptide;Acc:NP_001076711]	transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrial inner membrane, 	binding, 
T20D3.6	T20D3.6	T20D3.6 [Source:RefSeq_peptide;Acc:NP_501643]			
vps-26	T20D3.7	Vacuolar protein sorting-associated protein 26 (VPS26 protein homolog). [Source:Uniprot/SWISSPROT;Acc:O01258]	vacuolar transport, 	retromer complex, 	
T20D3.8	T20D3.8	T20D3.8 [Source:RefSeq_peptide;Acc:NP_501645]	GPI anchor biosynthetic process, 	integral to membrane, 	phosphatidylinositol N-acetylglucosaminyltransferase activity, 
T20D3.11	T20D3.11	T20D3.11 [Source:RefSeq_peptide;Acc:NP_501647]			
C10C5.1	C10C5.1	C10C5.1 [Source:RefSeq_peptide;Acc:NP_501648]			
C10C5.2	C10C5.2	C10C5.2 [Source:RefSeq_peptide;Acc:NP_501649]			
C10C5.3	C10C5.3	C10C5.3 [Source:RefSeq_peptide;Acc:NP_501650]	proteolysis, amino acid metabolic process, 	cytoplasm, 	metallopeptidase activity, hydrolase activity, protein dimerization activity, aminoacylase activity, 
C10C5.4	C10C5.4	C10C5.4 [Source:RefSeq_peptide;Acc:NP_501651]	proteolysis, amino acid metabolic process, 	cytoplasm, 	metallopeptidase activity, hydrolase activity, protein dimerization activity, aminoacylase activity, 
C10C5.5	C10C5.5	C10C5.5 [Source:RefSeq_peptide;Acc:NP_501652]	proteolysis, amino acid metabolic process, 	cytoplasm, 	metallopeptidase activity, hydrolase activity, protein dimerization activity, aminoacylase activity, 
C10C5.7	C10C5.7	C10C5.7 [Source:RefSeq_peptide;Acc:NP_001021322]			
daf-15	C10C5.6	daf-15 encodes an ortholog of RAPTOR (the regulatory associated protein of mTOR), and is regulated by DAF-16. daf-15 is required for non-dauer development, at least in some tissues or stages. daf-15(m81) mutants constitutively and irreversibly form abnormal dauer-like larvae (and are thus effectively lethal/sterile). mutants do not form true dauers when exposed to dauer pheromone, yet execute only two molts. [Source: WormBase]	dauer larval development, 		
col-121	F56D5.1	col-121 encodes a cuticle collagen required for resistance to the endocrine disrupting chemical bisphenol A (BPA). col-121(nx3) and col-121(RNAi) animals are hypersensitive to BPA, but are otherwise wild-type (e.g., they have normal body shape). BPA hypersensitivity has also been observed for dpy-2(e8), dpy-7(e88) and dpy-10(e128) mutants. [Source: WormBase]	phosphate transport, response to stress, 	cytoplasm, 	structural constituent of cuticle, 
F56D5.2	F56D5.2	F56D5.2 [Source:RefSeq_peptide;Acc:NP_501656]			
F56D5.3	F56D5.3	F56D5.3 [Source:RefSeq_peptide;Acc:NP_501657]			RNA binding, oxidoreductase activity, catalytic activity, FMN binding, 
F56D5.6	F56D5.6	F56D5.6 [Source:RefSeq_peptide;Acc:NP_501658]			
F56D5.4	F56D5.4				
F56D5.5	F56D5.5	F56D5.5 [Source:RefSeq_peptide;Acc:NP_501660]			
F56D5.8	F56D5.8				
F56D5.9	F56D5.9	F56D5.9 [Source:RefSeq_peptide;Acc:NP_501662]		intracellular, 	
srxa-2	F56D5.10	Serpentine Receptor, class XA family member (srxa-2) [Source:RefSeq_peptide;Acc:NP_501663]			
F59B8.1	F59B8.1	F59B8.1a [Source:RefSeq_peptide;Acc:NP_001023248]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
F59B8.2	F59B8.2	F59B8.2 [Source:RefSeq_peptide;Acc:NP_501665]	metabolic process, 		oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NADP+) activity, 
F38E11.9	F38E11.9	F38E11.9 [Source:RefSeq_peptide;Acc:NP_501666]			
NR_000352.1	F38E11.10	F38E11.11, snRNA [Source:RefSeq_dna;Acc:NR_000352]			
hsp-12.3	F38E11.1	hsp-12.3 encodes a small heat-shock protein that forms heterotetramers with HSP-12.2 and has no chaperone-like activity. structurally, HSP-12.3 is mostly a beta-sheet. at least one HSP-12 (which may or may not be HSP-12.2) is ubiquitously expressed in L1 larvae, and later expressed in adult spermatids (and perhaps spermatocytes), and some adult vulval cells. hsp-12.3 is upregulated in daf-2 mutants, suggesting that hsp-12.3's expression may contribute to prolonged lifespan in dauer larvae. [Source: WormBase]			structural constituent of eye lens, 
hsp-12.6	F38E11.2	hsp-12.6 encodes a small heat-shock protein with very short N- and C-terminal domains flanking its central region of similarity to alpha-crystallins. HSP-12.6 is required in vivo for normal lifespan. HSP-12.6 is predominantly and ubiquitously expressed in L1 larvae without any obvious induction by stressors. but, in adult hermaphrodites, at least one HSP-12 is also expressed in spermatids (and perhaps spermatocytes), as well as in some vulval cells. moreover, hsp-12.6 is upregulated in 6- and 10-day-old daf-2 mutants, and this upregulation is highly reproducible (like that of five other genes, vit-2, vit-5, fat-3, nid-1, and mtl-1), strongly suggesting that hsp-12.6's expression may contribute to prolonged lifespan in dauer larvae. the hsp-12.6 promoter is predicted to have both DAF-16 and HSF-1 binding sites. hsp-12.6(RNAi) animals are shorter-lived than normal. recombinant HSP-12.6 is monomeric, and lacks molecular chaperone activity in vitro. hsp-12.6 induction requires DAF-16 and HSP-1, but not SMK-1. [Source: WormBase]	determination of adult life span, 		protein binding, structural constituent of eye lens, 
F38E11.13	F38E11.13	F38E11.13 [Source:RefSeq_peptide;Acc:NP_001023195]			
cpin-1	F38E11.3	cpin-1 is orthologous to a mammalian protein variously identified as guanine aminohydrolase (or guanine deaminase, or guanase), cypin, or p51-nedasin. [Source: WormBase]			hydrolase activity, 
F38E11.4	F38E11.4	F38E11.4 [Source:RefSeq_peptide;Acc:NP_501670]			
F38E11.5	F38E11.5	F38E11.5 encodes a beta' (beta-prime) subunit of the coatomer (COPI) complex. in mass RNAi assays, F38E11.5 is required for fertility and general health. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	membrane coat, 	protein transporter activity, protein binding, structural molecule activity, 
F38E11.6	F38E11.6	F38E11.6b [Source:RefSeq_peptide;Acc:NP_001023197]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		ATP binding, nucleotide kinase activity, 
NR_000352.1	F38E11.11	F38E11.11, snRNA [Source:RefSeq_dna;Acc:NR_000352]			
F38E11.8	F38E11.8				
wrt-3	F38E11.7	wrt-3 encodes a hedgehog-like protein, with an N-terminal signal sequence, a Wart domain, and a region of low-complexity sequence. WRT-3 is expressed in the trinucleate pharyngeal gland cell g1 beginning at the three-fold stage of embryogenesis, in seam cells and hypodermis, and in single muscle cells and the distal tip cells of late stage larvae and adults. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-3 is required for normal growth to full size and locomotion. both of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
cng-3	F38E11.12	cng-3 is predicted to encode a cyclic nucleotide gated (CNG) channel that is required for wild-type thermotolerance. cng-3 is expressed in five sensory neurons, including the thermosensory neuron AFD. [Source: WormBase]	ion transport, 	membrane, 	ion channel activity, 
NR_003451.1	F38E11.14	F38E11.14, snoRNA [Source:RefSeq_dna;Acc:NR_003451]			
C33A12.12	C33A12.12	C33A12.12 [Source:RefSeq_peptide;Acc:NP_501674]			protein binding, 
sru-2	C33A12.13	Serpentine Receptor, class U family member (sru-2) [Source:RefSeq_peptide;Acc:NP_501675]			
sru-1	C33A12.14	Serpentine Receptor, class U family member (sru-1) [Source:RefSeq_peptide;Acc:NP_501676]			
sru-6	C33A12.8	Serpentine Receptor, class U family member (sru-6) [Source:RefSeq_peptide;Acc:NP_501677]			
C33A12.18	C33A12.18				
sru-5	C33A12.9				
C33A12.17	C33A12.17				
sru-3	C33A12.11	Serpentine Receptor, class U family member (sru-3) [Source:RefSeq_peptide;Acc:NP_501678]			
sru-4	C33A12.10	Serpentine Receptor, class U family member (sru-4) [Source:RefSeq_peptide;Acc:NP_501679]			
ugt-21	C33A12.6	C33A12.6 [Source:RefSeq_peptide;Acc:NP_501680]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C33A12.16	C33A12.16				
C33A12.15	C33A12.15	C33A12.15 [Source:RefSeq_peptide;Acc:NP_501683]			
C33A12.7	C33A12.7	C33A12.7 [Source:RefSeq_peptide;Acc:NP_501684]			hydrolase activity, 
C33A12.4	C33A12.4	C33A12.4 [Source:RefSeq_peptide;Acc:NP_501685]			
C33A12.3	C33A12.3	C33A12.3 [Source:RefSeq_peptide;Acc:NP_501686]			
NR_003442.1	C33A12.21	C33A12.21, snoRNA [Source:RefSeq_dna;Acc:NR_003442]			
NR_003443.1	C33A12.22	C33A12.22, snRNA [Source:RefSeq_dna;Acc:NR_003443]			
C33A12.19	C33A12.19	C33A12.19 [Source:RefSeq_peptide;Acc:NP_001023037]			
nlp-35	C33A12.2	Neuropeptide-Like Protein family member (nlp-35) [Source:RefSeq_peptide;Acc:NP_501687]			
C33A12.1	C33A12.1	C33A12.1 encodes the C. elegans ortholog of the NDUFA5/B13 subunit of the mitochondrial NADH dehydrogenase (ubiquinone) complex (complex I). [Source: WormBase]	electron transport, positive regulation of growth rate, 	mitochondrial inner membrane, 	oxidoreductase activity, acting on NADH or NADPH, 
C33A12.20	C33A12.20		positive regulation of growth rate, 		
elo-1	F56H11.4	elo-1 encodes a component of C-18 polyunsaturated fatty acid (PUFA) elongase that is required for normal elongation of n-6 and n-3 20-carbon PUFA in vivo. ELO-1 is a condensing enzyme that elongates n-6 and n-7 (and, with less efficiency, n-3) series C18 PUFAs. [Source: WormBase]		integral to membrane, 	
F56H11.6	F56H11.6	F56H11.6 [Source:RefSeq_peptide;Acc:NP_501690]			protein kinase activity, 
elo-7	F56H11.3	The elo-7 gene encodes a paralog of elo-1 and elo-2, each of which encodes a polyunsaturated fatty acid (PUFA) elongase. ELO-7 has no known function in vivo. [Source: WormBase]		integral to membrane, 	
F56H11.2	F56H11.2	F56H11.2 [Source:RefSeq_peptide;Acc:NP_501692]			
fbl-1	F56H11.1	fbl-1 encodes, through alternative splicing, at least three proteins orthologous to the vertebrate basement membrane protein fibulin. fbl-1 activity is essential for gonad and body morphology, as well as for reproduction. fbl-1 interacts genetically with gon-1 and mig-17, which encode ADAMTS metalloproteases essential for gonad development. the FBL-1C isoform is expressed in anterior and posterior intestinal cells and localizes to the gonad and pharyngeal basement membranes. the FBL-1D isoform is expressed in some head and tail body wall muscle cells. [Source: WormBase]		proteinaceous extracellular matrix, extracellular region, 	protein binding, calcium ion binding, 
T05A1.5	T05A1.5	T05A1.5b [Source:RefSeq_peptide;Acc:NP_001040985]	transport, 	integral to membrane, 	transporter activity, 
T05A1.8	T05A1.8				
T05A1.3	T05A1.3	T05A1.3 [Source:RefSeq_peptide;Acc:NP_501699]			protein binding, 
col-122	T05A1.2	T05A1.2 [Source:RefSeq_peptide;Acc:NP_501700]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, post-embryonic body morphogenesis, 	cytoplasm, extracellular region, 	signal transducer activity, structural constituent of cuticle, 
npr-2	T05A1.1	Neuropeptide Receptor family member (npr-2) [Source:RefSeq_peptide;Acc:NP_501701]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, neuropeptide receptor activity, 
F27C8.6	F27C8.6	F27C8.6 encodes a putative arylacetamide deacetylase and microsomal lipase. F27C8.6 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. F27C8.6(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 		hydrolase activity, 
F27C8.5	F27C8.5	F27C8.5 [Source:RefSeq_peptide;Acc:NP_501703]			protein binding, 
spp-18	F27C8.4	SaPosin-like Protein family member (spp-18) [Source:RefSeq_peptide;Acc:NP_501704]			nutrient reservoir activity, 
F27C8.3	F27C8.3	F27C8.3 [Source:RefSeq_peptide;Acc:NP_501705]			
F27C8.2	F27C8.2	F27C8.2 [Source:RefSeq_peptide;Acc:NP_501706]			protein binding, 
aat-1	F27C8.1	aat-1 encodes an amino acid transporter catalytic subunit. when co-expressed in Xenopus oocytes with the ATG-2 glycoprotein subunit, AAT-1 is able to facilitate amino acid uptake and exchange, showing a relatively high affinity for small and some large neutral amino acids. in addition, AAT-1 is able to covalently associate with ATG-2 or ATG-1 to form heterodimers in the Xenopus expression system. when co-expressed with ATG-2, AAT-1 localizes to the cell surface of oocytes, but when expressed alone or with ATG-1, AAT-1 localizes intracellularly. [Source: WormBase]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
elt-1	W09C2.1	The elt-1 gene encodes a GATA transcription factor expressed in the embryonic hypodermis, and is essential for the production of most hypodermal cells. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
mca-1	W09C2.3	mca-1 encodes one of three C. elegans plasma membrane Ca2+ ATPases (PMCAs). by homology, MCA-1 is predicted to function as a molecular pump that couples ATP hydrolysis to extrusion of cytosolic Ca2+. when expressed in insect cells, MCA-1 exhibits calcium-pumping ATPase activity and binding to human calmodulin. large-scale RNAi screens indicate that mca-1 activity is required for normal coordinated locomotion and rates of growth. an mca-1::gfp reporter fusion is expressed solely in the excretory canal. [Source: WormBase]	transport, metabolic process, calcium ion transport, cation transport, locomotory behavior, 	membrane, 	ATP binding, catalytic activity, calcium ion binding, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, calcium-transporting ATPase activity, calcium ion transmembrane transporter activity, 
del-2	F58G6.6	del-2 encodes an unfamiliar protein whose promoter drives expression in IL1, ASH, and OLQ. [Source: WormBase]			
F58G6.8	F58G6.8	F58G6.8 [Source:RefSeq_peptide;Acc:NP_001023246]	sodium ion transport, 	membrane, 	sodium channel activity, 
amph-1	F58G6.1	F58G6.1 [Source:RefSeq_peptide;Acc:NP_501711]		cytoplasm, 	protein binding, 
srm-3	F58G6.2	Serpentine Receptor, class M family member (srm-3) [Source:RefSeq_peptide;Acc:NP_501712]			
F58G6.9	F58G6.9	F58G6.9 [Source:RefSeq_peptide;Acc:NP_001023247]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
F58G6.3	F58G6.3	F58G6.3 [Source:RefSeq_peptide;Acc:NP_501713]	sodium ion transport, copper ion transport, 	membrane, integral to membrane, 	copper ion transmembrane transporter activity, sodium:amino acid symporter activity, 
F58G6.7	F58G6.7	F58G6.7 [Source:RefSeq_peptide;Acc:NP_501714]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
acc-1	F58G6.4	F58G6.4 [Source:RefSeq_peptide;Acc:NP_501715]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
nhr-34	F58G6.5	nhr-34 encodes a member of the nuclear receptor superfamily. phylogenetic analyses indicate that NHR-34 is a divergent nuclear receptor that likely arose from the expansion and diversification of the HNF4 (NR2A) subgroup in C. elegans. the role of NHR-34 in C. elegans development and/or behavior, and the NHR-34 expression pattern, are not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ins-8	ZK1251.11	ins-8 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, nutrient reservoir activity, 
ins-7	ZK1251.2	ins-7 encodes an insulin/IGF-1-like peptide. INS-7 is one of 38 insulin-like peptides in C. elegans. INS-7 likely functions as an agonist for the DAF-2 insulin/IGF-1 receptor, as loss of ins-7 activity via RNAi results in: 1) a significantly increased lifespan that is not further extended in long-lived daf-2 mutant animals, and 2) an increased frequency of dauer formation in animals containing an incompletely penetrant daf-2 mutation. an ins-7 promoter fusion is expressed in amphid sensory neurons, labial neurons, the nerve ring, and ventral cord and tail neurons. ins-7 expression is positively regulated by DAF-2-mediated insulin signaling, suggesting that a positive feedback loop involving INS-7 may amplify DAF-2 pathway activity. [Source: WormBase]	determination of adult life span, 	extracellular region, 	hormone activity, 
ZK1251.1	ZK1251.1	ZK1251.1 [Source:RefSeq_peptide;Acc:NP_501718]	nucleosome assembly, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
ZK1251.3	ZK1251.3	ZK1251.3 [Source:RefSeq_peptide;Acc:NP_501719]		integral to membrane, 	
ZK1251.5	ZK1251.5				
msp-76	ZK1251.6	msp-76 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
sdz-36	ZK1251.7	SKN-1 Dependent Zygotic transcript family member (sdz-36) [Source:RefSeq_peptide;Acc:NP_501723]			
twk-9	ZK1251.8	TWiK family of potassium channels protein 9. [Source:Uniprot/SWISSPROT;Acc:Q23435]	potassium ion transport, 	membrane, 	potassium channel activity, 
ZK1251.9	ZK1251.9	VPRBP-like protein. [Source:Uniprot/SWISSPROT;Acc:Q21106]	positive regulation of growth rate, 		
K01H12.1	K01H12.1	K01H12.1 encodes a small protein conserved in diverse eukaryotes, with a CSL motif (a probable zinc finger, sometimes found associated with the N-terminal domain of DnaJ protein). K01H12.1 is probably a small subunit or ancillary protein of RNA polymerase II Elongator or of a hypothetical diphthamide synthase complex. K01H12.1 is orthologous to to mammalian DESR1 (diphtheria toxin and Pseudomonas exotoxin A sensitivity required gene 1) and S. cerevisiae KTI11. DESR1, and probably KTI11, enables the first step in posttranslational modification of histidine to dipthamide. K01H12.1 has no obvious function in mass RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
K01H12.2	K01H12.2	K01H12.2 [Source:RefSeq_peptide;Acc:NP_501727]	transport, mitochondrial transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
nhr-38	K01H12.3	Nuclear Hormone Receptor family member (nhr-38) [Source:RefSeq_peptide;Acc:NP_501728]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, 
K01H12.4	K01H12.4	K01H12.4 [Source:RefSeq_peptide;Acc:NP_501729]			
nhr-138	C28D4.9	Nuclear Hormone Receptor family member (nhr-138) [Source:RefSeq_peptide;Acc:NP_501730]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-100	C28D4.1	nhr-100 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
cka-1	C28D4.2	cka-1 encodes an isoform of choline kinase whose activity has been verified in vitro, and that has a strong preference for choline over ethanolamine. CKA-1 and CKA-2 comprise a related group ('A') of choline kinases. [Source: WormBase]			
C28D4.10	C28D4.10	C28D4.10 [Source:RefSeq_peptide;Acc:NP_001021335]	protein modification process, 		
gln-6	C28D4.3	GLutamiNe synthetase (glutamate-ammonia ligase) family member (gln-6) [Source:RefSeq_peptide;Acc:NP_501733]	glutamine biosynthetic process, nitrogen compound metabolic process, embryonic development ending in birth or egg hatching, 		protein binding, glutamate-ammonia ligase activity, 
C28D4.7	C28D4.7	C28D4.7 [Source:RefSeq_peptide;Acc:NP_501734]			
C28D4.4	C28D4.4	C28D4.4 [Source:RefSeq_peptide;Acc:NP_501735]			
C28D4.5	C28D4.5	C28D4.5 [Source:RefSeq_peptide;Acc:NP_501736]			
C28D4.8	C28D4.8	C28D4.8 [Source:RefSeq_peptide;Acc:NP_501737]			
C28D4.11	C28D4.11				
C28D4.6	C28D4.6				
nhr-97	H27C11.1	Nuclear hormone receptor family member nhr-97. [Source:Uniprot/SWISSPROT;Acc:Q9BJK5]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T13F2.12	T13F2.12	T13F2.12 [Source:RefSeq_peptide;Acc:NP_501739]			structural molecule activity, 
msp-79	T13F2.10	msp-79 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
T13F2.9	T13F2.9	T13F2.9 [Source:RefSeq_peptide;Acc:NP_501741]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
msp-78	T13F2.11	msp-78 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
cav-1	T13F2.8	cav-1 encodes a member of the caveolin protein family that affects viability and Ras/MAP-kinase-dependent progression through the meiotic cell cycle meiotic. expressed in the adult germ line and during embryonic development. [Source: WormBase]	meiosis, Ras protein signal transduction, 	caveolar membrane, 	
sna-2	T13F2.7	sna-2 encodes an snRNP-binding protein (SNA-2/SL75p) homologous to Ascaris SL95p (SL 175kd). SNA-2 is found in at least two Sm snRNPs, SL1 and Y, but not in SL2. in snRNP SL1, SNA-2 associates with the SNA-1/SL21p protein, while associating with SUT-1/SL26p (a paralog of SNA-1) in snRNP Y. sna-2(RNAi) is lethal. SNA-2 can bind either SNA-1 or SUT-1 even in the absence of RNA. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T13F2.6	T13F2.6	T13F2.6 [Source:RefSeq_peptide;Acc:NP_501745]	embryonic development ending in birth or egg hatching, 		
sre-4	T13F2.5	Serpentine Receptor, class E (epsilon) family member (sre-4) [Source:RefSeq_peptide;Acc:NP_501746]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
T13F2.4	T13F2.4	T13F2.4 [Source:RefSeq_peptide;Acc:NP_501747]			
pis-1	T13F2.3	pis-1 encodes an ortholog of mammalian Pax transcription activation domain interacting protein PTIP. PIS-1 has an N-terminal glutamine/asparagine-rich domain and four C-terminal BRCT domains, and is dispensable for obvious functions in mass RNAi assays. mammalian PTIP binds to the activation domain of Pax2 and other Pax proteins, and colocalizes with Pax2 to actively expressed chromatin, and appears to be required for embryonic mitosis (perhaps because of a link between BRCT domains and DNA repair). [Source: WormBase]	positive regulation of multicellular organism growth, 	intracellular, 	
T13F2.2	T13F2.2	Putative RNA polymerase II transcriptional coactivator. [Source:Uniprot/SWISSPROT;Acc:Q94045]	regulation of transcription, DNA-dependent, 		binding, DNA binding, transcription coactivator activity, 
fat-4	T13F2.1	fat-4 encodes a delta-5 fatty acid desaturase. when expressed heterologously in S. cerevisiae, FAT-4 converts di-homo-gamma-linolenic acid (20:3delta8,11,14) to arachidonic acid (20:4delta5,8,11,14), an important precursor in eicosanoid metabolism, as well as on other fatty acids (C18 to C20). FAT-4 is is required in vivo for delta-5 unsaturated fatty acid synthesis. [Source: WormBase]			oxidoreductase activity, heme binding, transition metal ion binding, 
fat-3	W08D2.4	The fat-3 gene encodes a delta-6 fatty acid desaturase ('linoleoyl-CoA desaturase') containing an N-terminal cytochrome b5 domain. FAT-3 expressed in yeast uses linoleic and alpha-linolenic acid as substrates. FAT-3 is absolutely required in vivo for synthesis of delta-6 fatty acids, and also required for fully normal synthesis of C20 fatty acids. FAT-3 is required for a normally fast growth rate and movement speed, and for normal defecation rhythms and fertility. [Source: WormBase]	transport, positive regulation of growth rate, 		transporter activity, protein binding, binding, oxidoreductase activity, heme binding, transition metal ion binding, 
W08D2.3	W08D2.3	W08D2.3b [Source:RefSeq_peptide;Acc:NP_001041000]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
egl-20	W08D2.1	egl-20 encodes a member of the WNT family of developmental signaling proteins that affects migration of QL and QR and their descendents. expressed in muscle and epidermal cells at the posterior of the worm. [Source: WormBase]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, locomotory behavior, 	extracellular region, 	signal transducer activity, 
W08D2.5	W08D2.5	Probable cation-transporting ATPase W08D2.5 (EC 3.6.3.-). [Source:Uniprot/SWISSPROT;Acc:Q27533]	transport, metabolic process, cation transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	ATP binding, ATPase activity, catalytic activity, hydrolase activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
col-123	W08D2.6	col-123 is homologous to the human gene A TYPE IV COLLAGEN (COL6A1. OMIM:303631), which when mutated is sometimes associated with diffuse leiomyomatosis. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
mtr-4	W08D2.7	Uncharacterized helicase W08D2.7 (EC 3.6.1.-). [Source:Uniprot/SWISSPROT;Acc:Q23223]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, calcium ion binding, helicase activity, ATP-dependent helicase activity, 
W08D2.10	W08D2.10				
W08D2.9	W08D2.9				
kin-21	W08D2.8	protein KINase family member (kin-21) [Source:RefSeq_peptide;Acc:NP_501758]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-81	K07F5.1	msp-81 encodes a member of the major sperm protein family. [Source: WormBase]			structural molecule activity, 
msp-10	K07F5.2	msp-10 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
kin-24	K07F5.4	protein KINase family member (kin-24) [Source:RefSeq_peptide;Acc:NP_001040963]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
msp-56	K07F5.3	msp-56 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
K07F5.17	K07F5.17	K07F5.17 [Source:RefSeq_peptide;Acc:NP_001076694]			
nspd-2	K07F5.5	Nematode Specific Peptide family, group D family member (nspd-2) [Source:RefSeq_peptide;Acc:NP_501763]			
K07F5.6	K07F5.6	K07F5.6 [Source:RefSeq_peptide;Acc:NP_501764]	protein amino acid dephosphorylation, dephosphorylation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, rhodopsin-like receptor activity, 
K07F5.18	K07F5.18				
K07F5.7	K07F5.7	K07F5.7 [Source:RefSeq_peptide;Acc:NP_501765]			structural molecule activity, 
K07F5.8	K07F5.8	K07F5.8 [Source:RefSeq_peptide;Acc:NP_501766]	protein amino acid dephosphorylation, dephosphorylation, gamete generation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
ssp-10	K07F5.9	Sperm-specific class P protein 10. [Source:Uniprot/SWISSPROT;Acc:Q21289]	biological_process, 		structural molecule activity, 
ssq-1	K07F5.11	Sperm-Specific family, class Q family member (ssq-1) [Source:RefSeq_peptide;Acc:NP_501768]			
K07F5.12	K07F5.12	K07F5.12 [Source:RefSeq_peptide;Acc:NP_501769]			
npp-1	K07F5.13	npp-1 encodes a nucleoporin that is most closely related to the vertebrate nucleoporin Nup54 and Saccharomyces cerevisiae nucleoporin Nup57p. during embryonic development, npp-1 activity is essential for some aspects of nuclear structure and function, as well as for proper mitotic spindle orientation, asymmetric cell division, cell fate specification, and mitotic cell cycle timing. npp-1 is also required for normal oogenesis and levels of fertility and for effective RNA interference (RNAi). an NPP-1::GFP reporter is expressed at all stages of development and localizes to the nuclear envelope. the NPP-1C isoform interacts with itself and with nucleoporins NPP-3, NPP-4, NPP-11, and NPP-13B in yeast two-hybrid assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, establishment of mitotic spindle orientation, 		
K07F5.14	K07F5.14	K07F5.14 [Source:RefSeq_peptide;Acc:NP_501773]	positive regulation of growth rate, 		
K07F5.16	K07F5.16	K07F5.16 [Source:RefSeq_peptide;Acc:NP_001023271]			heat shock protein binding, 
K07F5.15	K07F5.15	The K07F5.15 gene encodes a small protein that is of ancient origin, and thus is presumably important to eukaryotic life. it is homologous to YNL024C-A (also known as NNL005C) in S. cerevisiae, and has homologs in Drosophila, mammals, and Neurospora, most of which are also small (<100-residue) proteins. [Source: WormBase]			
nhr-4	F32B6.1	nhr-4 is predicted to encode a nuclear hormone receptor (NHR). expression may peak during the late larval stages, based on mRNA expression analysis. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F32B6.3	F32B6.3	F32B6.3 [Source:RefSeq_peptide;Acc:NP_501776]	RNA splicing, morphogenesis of an epithelium, 	spliceosome, 	
F32B6.2	F32B6.2	The F32B6.2 gene encodes an ortholog of the human gene ALPHA METHYLCROTONOYL-COENZYME A CARBOXYLASE 1 (MCCC1. 3-MCC), which when mutated leads to beta-methylcrotonyl-glycinuria (OMIM:210200). the F32B6.2 protein is predicted to be mitochondrial with 52% accuracy. [Source: WormBase]	metabolic process, 		ATP binding, catalytic activity, ligase activity, biotin binding, carbamoyl-phosphate synthase activity, 
F32B6.10	F32B6.10	F32B6.10 [Source:RefSeq_peptide;Acc:NP_501778]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F32B6.4	F32B6.4	F32B6.4 [Source:RefSeq_peptide;Acc:NP_501779]			
sss-1	F32B6.5	Sperm-Specific family, class S family member (sss-1) [Source:RefSeq_peptide;Acc:NP_501780]			protein binding, 
msp-77	F32B6.6	msp-77 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]	biological_process, 		structural molecule activity, 
ssp-32	F32B6.7	Sperm-specific class P protein 32. [Source:Uniprot/SWISSPROT;Acc:O45433]	positive regulation of growth rate, 		structural molecule activity, 
F32B6.8	F32B6.8	F32B6.8a [Source:RefSeq_peptide;Acc:NP_001023164]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
F32B6.9	F32B6.9	Uncharacterized protein F32B6.9. [Source:Uniprot/SWISSPROT;Acc:O45435]			
zbed-6	F25H8.6	F25H8.6 [Source:RefSeq_peptide;Acc:NP_501785]	pathogenesis, growth, 		DNA binding, 
dur-1	F25H8.5	The dur-1 ('Dauer UpRegulated') gene encodes proteins (DUR-1A and DUR-1C) that are predicted to be hydrophilic and heat-resistant, and that might participate in anhydrobiosis. expression of at least one dur-1 transcript is upregulated in dauer larvae and other transcripts may be specifically expressed in dauer larvae. [Source: WormBase]	cell adhesion, translation, homoiothermy, response to freezing, 	cytoplasm, intracellular, actin cytoskeleton, ribosome, 	structural molecule activity, structural constituent of ribosome, ice binding, 
F25H8.1	F25H8.1	F25H8.1 [Source:RefSeq_peptide;Acc:NP_501789]	tRNA processing, 		RNA binding, tRNA methyltransferase activity, 
F25H8.2	F25H8.2	F25H8.2 [Source:RefSeq_peptide;Acc:NP_501790]	biological_process, 		
spe-29	F25H8.7	defective SPErmatogenesis family member (spe-29) [Source:RefSeq_peptide;Acc:NP_501791]			
gon-1	F25H8.3	gon-1 encodes a functional metalloprotease that defines a new sub-family of secreted proteases known as MPT (metalloprotease with thrombospondin type 1 repeats). the other two members of this family are the bovine procollagen I N-protease ( PINP ) and the murine enzyme ADAMTS-1. gon-1 is essential for hermaphrodite gonadal morphogenesis. sequence homology with other metalloproteases suggests that it functions by remodelling the extracellular matrix. GON-1 is expressed at high levels within the gonadal distal tip cell during migration. [Source: WormBase]	proteolysis, morphogenesis of an epithelium, 	proteinaceous extracellular matrix, extracellular matrix, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
T13H10.2	T13H10.2	T13H10.2 [Source:RefSeq_peptide;Acc:NP_001023388]			
kin-5	T13H10.1	kin-5 encodes a predicted protein tyrosine kinase that is most closely related to the non-receptor tyrosine kinases Fes/Fps and Fer that contain an SH2 domain and a tyrosine kinase domain (OMIM:190030, murine Fes appears to be required for hemopoietic homeostasis). as loss of kin-5 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of kin-5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C47E12.11	C47E12.11	C47E12.11 [Source:RefSeq_peptide;Acc:NP_501794]			
C47E12.12	C47E12.12	C47E12.12 [Source:RefSeq_peptide;Acc:NP_001023070]			
C47E12.10	C47E12.10	C47E12.10 [Source:RefSeq_peptide;Acc:NP_501795]			
C47E12.9	C47E12.9	C47E12.9 [Source:RefSeq_peptide;Acc:NP_501796]			
C47E12.14	C47E12.14	C47E12.14 [Source:RefSeq_peptide;Acc:NP_001023072]			
dhp-2	C47E12.8	The dhp-2 gene encodes an ortholog of the human gene DIHYDROPYRIMIDINASE (DPYS), which when mutated leads to dihydropyrimidinuria (OMIM:222748). [Source: WormBase]		cytoplasm, 	hydrolase activity, 
C47E12.7	C47E12.7	RRP1-like protein C47E12.7. [Source:Uniprot/SWISSPROT;Acc:Q18674]	rRNA processing, positive regulation of growth rate, 	nucleolar preribosome, small subunit precursor, 	
C47E12.6	C47E12.6	C47E12.6a [Source:RefSeq_peptide;Acc:NP_501799]		membrane, 	
uba-1	C47E12.5	uba-1 encodes a ubiquitin-activating enzyme orthologous to Saccharomyces cerevisiae UBA1 and human UBE1. UBA-1 is essential for embryogenesis and is required for germline development. by homology, UBA-1 is predicted to function in an ATP-dependent reaction that activates ubiquitin prior to its conjugation to proteins that will subsequently be degraded by the 26S proteasome. a uba-1 transcriptional reporter fusion is expressed in the larval intestine. [Source: WormBase]	protein modification process, ubiquitin cycle, pathogenesis, biological_process, 	extracellular region, 	catalytic activity, small protein activating enzyme activity, 
pyp-1	C47E12.4	Probable inorganic pyrophosphatase 1 (EC 3.6.1.1) (Pyrophosphate phospho-hydrolase) (PPase). [Source:Uniprot/SWISSPROT;Acc:Q18680]	phosphate metabolic process, glycolysis, positive regulation of growth rate, 	cytoplasm, 	magnesium ion binding, inorganic diphosphatase activity, pyruvate kinase activity, potassium ion binding, 
C47E12.3	C47E12.3	C47E12.3 [Source:RefSeq_peptide;Acc:NP_501802]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
C47E12.2	C47E12.2	C47E12.2 [Source:RefSeq_peptide;Acc:NP_501803]	transport, mitochondrial transport, positive regulation of growth rate, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
srs-2	C47E12.1	srs-2 encodes a predicted cytoplasmic seryl-tRNA synthetase (SerRS), a class II aminoacyl-tRNA synthetase that catalyzes the attachment of serine to its cognate tRNA and is thus required for protein biosynthesis. in C. elegans, SRS-2 activity is required for embryonic and germline development and normal postembryonic growth rates. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, seryl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, serine-tRNA ligase activity, 
C47E12.13	C47E12.13	C47E12.13 [Source:RefSeq_peptide;Acc:NP_001023071]			
F44D12.1	F44D12.1	F44D12.1 [Source:RefSeq_peptide;Acc:NP_501805]			protein binding, 
F44D12.2	F44D12.2	F44D12.2 [Source:RefSeq_peptide;Acc:NP_501806]		membrane, 	transmembrane receptor protein serine/threonine kinase activity, transforming growth factor beta receptor activity, 
F44D12.9	F44D12.9	F44D12.9 [Source:RefSeq_peptide;Acc:NP_501807]	transport, dicarboxylic acid transport, 	membrane, 	nucleoside transmembrane transporter activity, sodium:dicarboxylate symporter activity, 
F44D12.3	F44D12.3	F44D12.7 [Source:RefSeq_peptide;Acc:NP_501813]			structural molecule activity, 
F44D12.8	F44D12.8	F44D12.8 [Source:RefSeq_peptide;Acc:NP_501809]	embryonic development ending in birth or egg hatching, 		
F44D12.4	F44D12.4	F44D12.4 [Source:RefSeq_peptide;Acc:NP_501810]			protein binding, 
F44D12.5	F44D12.5	F44D12.7 [Source:RefSeq_peptide;Acc:NP_501813]			structural molecule activity, 
F44D12.12	F44D12.12				
F44D12.6	F44D12.6	F44D12.6 [Source:RefSeq_peptide;Acc:NP_501812]			
F44D12.7	F44D12.7	F44D12.7 [Source:RefSeq_peptide;Acc:NP_501813]			structural molecule activity, 
F44D12.10	F44D12.10	F44D12.10 [Source:RefSeq_peptide;Acc:NP_501814]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
F44D12.11	F44D12.11				
dhs-31	T04B2.6	T04B2.6 [Source:RefSeq_peptide;Acc:NP_501816]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T04B2.1	T04B2.1				
T04B2.10	T04B2.10				
frk-1	T04B2.2	frk-1 encodes a non-receptor tyrosine kinase orthologous to the human proto-oncogene Fer. frk-1 is an essential gene required early for embryonic cell proliferation and later in embryonic epidermal cells for enclosure, morphogenesis and late stages of differentiation. FRK-1's role in embryonic development is independent of its kinase domain, and when expressed in cultured mammalian cells, FRK-1 disrupts cell adhesion. FRK-1 is initially expressed in all cells of the early embryo where it localizes to nuclei and points of cell-cell contact. later expression is seen in epithelial cells, body wall muscle, and the adult germline, including mature sperm. FRK-1 expression in epidermal cells requires activity of the ELT-1 GATA transcription factor, and FRK-1 localization to the plasma membrane requires PAT-3/Beta-integrin, JAC-1/p120 catenin, and HMP-2/Beta-catenin with which FRK-1 interacts in vitro. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T04B2.3	T04B2.3	T04B2.3a [Source:RefSeq_peptide;Acc:NP_001040982]			
T04B2.8	T04B2.8	T04B2.8 [Source:RefSeq_peptide;Acc:NP_001023356]			
srv-12	T04B2.4	Serpentine Receptor, class V family member (srv-12) [Source:RefSeq_peptide;Acc:NP_501820]			
T04B2.9	T04B2.9				
T04B2.7	T04B2.7	T04B2.7 [Source:RefSeq_peptide;Acc:NP_872109]			
T04B2.5	T04B2.5	T04B2.5 [Source:RefSeq_peptide;Acc:NP_501821]	lipid metabolic process, 		
cwn-2	W01B6.1	cwn-2 encodes a member of the WNT family. expressed at highest levels in embryos and expression declines and is almost absent by the third larval stage. [Source: WormBase]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, 	extracellular region, 	signal transducer activity, 
W01B6.3	W01B6.3	W01B6.3 [Source:RefSeq_peptide;Acc:NP_501823]			drug transporter activity, 
W01B6.2	W01B6.2	W01B6.2 [Source:RefSeq_peptide;Acc:NP_501824]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W01B6.4	W01B6.4	W01B6.4 [Source:RefSeq_peptide;Acc:NP_501825]	glycolysis, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, 
W01B6.5	W01B6.5	W01B6.5 [Source:RefSeq_peptide;Acc:NP_501826]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W01B6.6	W01B6.6	W01B6.6 [Source:RefSeq_peptide;Acc:NP_501827]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
W01B6.10	W01B6.10				
W01B6.8	W01B6.8	W01B6.8 [Source:RefSeq_peptide;Acc:NP_501828]			
col-2	W01B6.7	col-2 encodes a member of the collagen superfamily containing collagen triple helix repeats (20 copies). expression peaks during the molt that separates the L2 larval and dauer stages as the dauer cuticle is being formed, and mRNA is expressed at low levels in post-dauer L4 larvae and in adult animals. [Source: WormBase]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
ndc-80	W01B6.9	ndc-80 (cogc-7) encodes an ortholog of mammalian COG-7 (OMIM:606978, mutated in congenital disorder of glycosylation), a subunit of lobe B of the conserved oligomeric Golgi complex (COGC). NDC-80 is also an outer kinetochore component orthologous to S. cerevisiae Ndc80p. NDC-80 affects metaphase plate formation in embryos (thus affecting chromosome segregation), kinetochore-microtubule interactions, locomotion, vulval development, body morphology, and embryonic viability. NDC-80 is weakly required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe B subunits in both C. elegans and S. cerevisiae, NDC-80 is only partially required for normal function, while lobe A subunits are strongly required in either worms or yeast. NDC-80 interacts in vivo with KNL-1, HIM-10, and a homolog of Nuf2p, and NDC-80 and HIM-10 are codependent for kinetochore assembly. [Source: WormBase]	actin cytoskeleton organization and biogenesis, regulation of cell migration, pathogenesis, embryonic development ending in birth or egg hatching, 	actin cytoskeleton, 	protein binding, actin binding, 
C04G2.1	C04G2.1	C04G2.1 [Source:RefSeq_peptide;Acc:NP_501831]			
C04G2.2	C04G2.2	C04G2.2 [Source:RefSeq_peptide;Acc:NP_501832]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C04G2.3	C04G2.3		embryonic development ending in birth or egg hatching, 		
C04G2.5	C04G2.5	C04G2.5 [Source:RefSeq_peptide;Acc:NP_501833]			
msp-36	C04G2.4	msp-36 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family comprises of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSP is involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSP assembles into fibrous networks that drives movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			structural molecule activity, 
dis-3	C04G2.6	Probable exosome complex exonuclease RRP44 (EC 3.1.13.-) (Ribosomal RNA-processing protein 44) (DIS3 protein homolog). [Source:Uniprot/SWISSPROT;Acc:Q17632]	electron transport, regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	RNA binding, transcription factor activity, sequence-specific DNA binding, ribonuclease activity, electron carrier activity, 
egl-38	C04G2.7	The egl-38 gene encodes a Pax5 homolog. [Source: WormBase]	multicellular organismal development, cell fate commitment, 	nucleus, 	
C04G2.8	C04G2.8	C04G2.8 [Source:RefSeq_peptide;Acc:NP_501837]			
C04G2.12	C04G2.12				
C04G2.9	C04G2.9	C04G2.9 [Source:RefSeq_peptide;Acc:NP_501838]			
C04G2.10	C04G2.10	C04G2.10 [Source:RefSeq_peptide;Acc:NP_501839]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
C04G2.11	C04G2.11	C04G2.11 [Source:RefSeq_peptide;Acc:NP_501840]		membrane, 	
K08F4.1	K08F4.1	K08F4.1 [Source:RefSeq_peptide;Acc:NP_501841]	DNA repair, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
K08F4.2	K08F4.2	K08F4.2 [Source:RefSeq_peptide;Acc:NP_501842]	transport, nucleosome assembly, negative regulation of multicellular organism growth, 	intracellular, nucleus, nucleosome, 	nucleotide binding, protein binding, DNA binding, nucleic acid binding, 
K08F4.3	K08F4.3	K08F4.3 [Source:RefSeq_peptide;Acc:NP_501843]		integral to membrane, endoplasmic reticulum, 	
glt-3	K08F4.4	glt-3 encodes an ortholog of glutamate/aspartate and neutral amino acid transporters. [Source: WormBase]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
K08F4.5	K08F4.5	K08F4.5 [Source:RefSeq_peptide;Acc:NP_501845]			
K08F4.12	K08F4.12	K08F4.12 [Source:RefSeq_peptide;Acc:NP_001023289]			
gst-3	K08F4.11	gst-3 encodes a predicted glutathione S-transferase. [Source: WormBase]	biological_process, 	cellular_component, 	catalytic activity, 
gst-2	K08F4.6	Glutathione S-transferase 2 (EC 2.5.1.18) (GST class-sigma) (CeGST2). [Source:Uniprot/SWISSPROT;Acc:O16115]	biological_process, 	cellular_component, 	
gst-4	K08F4.7	gst-4 encodes a putative glutathione-requiring prostaglandin D synthase. gst-4 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. gst-4(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. in mammalian eicosanoid signalling, prostaglandin D synthase is required for the conversion of prostaglandin H2 into D2. gst-4 mRNA is expressed in adults, and accumulation increases in response to paraquat. [Source: WormBase]	biological_process, 	cellular_component, 	
msp-38	K08F4.8	msp-38 encodes a member of the major sperm protein family. msp-38 has a C. briggsae homolog as predicted by the Wobble Bulk Aware Bulk Aligner (WABA). [Source: WormBase]			structural molecule activity, 
msp-37	K08F4.10	msp-37 encodes a protein that belongs to a family of proteins called the Major Sperm Proteins (MSPs) that is conserved in nematodes. this family consists of closely related, small, basic proteins that make up 15% of sperm protein. this multigene family consists of over fifty genes, including many pseudogenes. MSPs are involved in both extracellular signaling and cytoskeletal functions during reproduction-MSP antagonizes Eph/ephrin signaling, in part, by binding VAB-1 Eph receptor tyrosine kinase on oocytes and sheath cells to promote oocyte maturation and MAPK activation. MSPs assemble into fibrous networks that drive movement of the C. elegans sperm. msp genes are expressed only in late primary spermatocytes. [Source: WormBase]			
K08F4.13	K08F4.13				
dhs-12	K08F4.9	DeHydrogenases, Short chain family member (dhs-12) [Source:RefSeq_peptide;Acc:NP_501850]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T14G10.8	T14G10.8	T14G10.8 [Source:RefSeq_peptide;Acc:NP_501851]			
T14G10.7	T14G10.7	T14G10.7 [Source:RefSeq_peptide;Acc:NP_501852]			
tsp-12	T14G10.6	T14G10.6 [Source:RefSeq_peptide;Acc:NP_501853]		integral to membrane, 	
T14G10.5	T14G10.5	T14G10.5 encodes a gamma subunit of the coatomer (COPI) complex. in mass RNAi assays, T14G10.5 is required for locomotion, fertility, normally rapid growth, and general health. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	membrane coat, Golgi-associated vesicle, 	protein transporter activity, protein binding, structural molecule activity, 
T14G10.4	T14G10.4	T14G10.4 [Source:RefSeq_peptide;Acc:NP_501855]			
T14G10.3	T14G10.3	T14G10.3 [Source:RefSeq_peptide;Acc:NP_501856]			
pps-1	T14G10.1	pps-1 is orthologous to human PAPSS1 (OMIM:603262) and human PAPSS2 (OMIM:603005, mutated in spondyloepimetaphyseal dysplasia). [Source: WormBase]	sulfate assimilation, 		ATP binding, transferase activity, transferring phosphorus-containing groups, kinase activity, sulfate adenylyltransferase (ATP) activity, 
pxf-1	T14G10.2	PDZ eXchange Factor family member (pxf-1) [Source:RefSeq_peptide;Acc:NP_001023390]	signal transduction, small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	protein binding, guanyl-nucleotide exchange factor activity, 
rack-1	K04D7.1	Guanine nucleotide-binding protein subunit beta 2-like 1. [Source:Uniprot/SWISSPROT;Acc:Q21215]	positive regulation of growth rate, 		protein binding, 
K04D7.2	K04D7.2	Protein MSP1 homolog. [Source:Uniprot/SWISSPROT;Acc:P54815]	growth, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
gta-1	K04D7.3	The gta-1 gene encodes an ortholog of the human gene GABAT, which when mutated leads to GABA-transaminase deficiency (OMIM:137150). [Source: WormBase]	gamma-aminobutyric acid metabolic process, 		pyridoxal phosphate binding, transaminase activity, 4-aminobutyrate transaminase activity, 
K04D7.4	K04D7.4	Tyrosine-protein phosphatase 2 precursor (EC 3.1.3.48) (Protein- tyrosine phosphatase 2). [Source:Uniprot/SWISSPROT;Acc:P28192]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
gon-4	K04D7.5	gon-4 encodes a large (1336-residue), unfamiliar, acidic (20% acidic residues and pI of 4.4), nuclear protein directly required for gonadogenesis in both sexes and, indirectly, for proper germ line and vulval development. gon-4 is expressed (and functionally required) in somatic gonadal cells during early gonadal development. while Z1 and Z4 (the somatic gonad precursor cells) appear to be specified correctly in gon-4 mutant L1 larvae, and other postembryonic events in somatic gonadal development appear to still occur at normal times, the postembryonic cell divisions of Z1 and Z4 are greatly delayed or missing in gon-4 larvae. GON-4 is subtly similar to human HCCA2 (OMIM:607860, expression associated with hepatocellular carcinoma). [Source: WormBase]	electron transport, gonad development, 		acyl-CoA dehydrogenase activity, 
K04D7.7	K04D7.7				
K04D7.6	K04D7.6	K04D7.6 [Source:RefSeq_peptide;Acc:NP_001023269]			
abt-1	C24F3.5	abt-1 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. ABT-1 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of abt-1 activity via RNAi results in no obvious defects, the precise role of abt-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
C24F3.4	C24F3.4	C24F3.4 [Source:RefSeq_peptide;Acc:NP_501866]	nitrogen compound metabolic process, NAD biosynthetic process, 		ATP binding, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, NAD+ synthase (glutamine-hydrolyzing) activity, 
col-124	C24F3.6	COLlagen family member (col-124) [Source:RefSeq_peptide;Acc:NP_501867]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, extracellular region, 	signal transducer activity, structural constituent of cuticle, cholecystokinin receptor activity, 
tram-1	C24F3.1	C24F3.1b [Source:RefSeq_peptide;Acc:NP_501868]		integral to membrane, 	
C24F3.2	C24F3.2	C24F3.2 [Source:RefSeq_peptide;Acc:NP_501870]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
nas-12	C24F3.3	Zinc metalloproteinase nas-12 precursor (EC 3.4.24.21) (Nematode astacin 12). [Source:Uniprot/SWISSPROT;Acc:Q9XTD6]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F01G10.6	F01G10.6	F01G10.6 [Source:RefSeq_peptide;Acc:NP_501872]			
F01G10.5	F01G10.5	F01G10.5 [Source:RefSeq_peptide;Acc:NP_501873]	signal transduction, 	intracellular, 	protein binding, 
F01G10.4	F01G10.4	F01G10.4 [Source:RefSeq_peptide;Acc:NP_501874]			
F01G10.11	F01G10.11				
ech-9	F01G10.3	Enoyl-CoA Hydratase family member (ech-9) [Source:RefSeq_peptide;Acc:NP_501875]	fatty acid metabolic process, 		oxidoreductase activity, 
ech-8	F01G10.2	Enoyl-CoA Hydratase family member (ech-8) [Source:RefSeq_peptide;Acc:NP_501876]	fatty acid metabolic process, 		oxidoreductase activity, 
F01G10.7	F01G10.7	F01G10.7 [Source:RefSeq_peptide;Acc:NP_501877]	lipid metabolic process, 		catalytic activity, 
F01G10.1	F01G10.1	The F01G10.1 gene encodes an ortholog of the human gene TRANSKETOLASE (TKT. OMIM:606781), which when mutated leads to Wernicke-Korsakoff syndrome (OMIM:277730). [Source: WormBase]	positive regulation of growth rate, 		transketolase activity, 
F01G10.10	F01G10.10	F01G10.10 [Source:RefSeq_peptide;Acc:NP_501879]			lipid binding, 
daf-14	F01G10.8	daf-14 encodes a Smad-related protein that is unusual in that while its C-terminus is well-conserved with Smad proteins, it lacks the N-terminal DNA binding domain found in all other known Smads. DAF-14 is predicted to function as a transducer of the DAF-7/TGF-beta-mediated signal that promotes reproductive growth and negatively regulates dauer formation. as reduction of daf-14 function enhances the dauer constitutive phenotype of daf-8 mutants, and overexpression of daf-14 can rescue daf-8 mutant animals, it is likely that the DAF-14 and DAF-8 Smad proteins function in parallel to control dauer formation. further genetic analyses suggest that DAF-14 and DAF-8 function to antagonize the activities of the DAF-3 Smad and DAF-5 Sno/Ski oncoprotein, which are required for dauer formation. a DAF-14::GFP reporter is expressed in a dynamic pattern in tissues, such as the hypodermis, intestine, and pharynx, that are remodeled during dauer development. [Source: WormBase]	regulation of transcription, DNA-dependent, dauer larval development, 	intracellular, 	
F01G10.9	F01G10.9	F01G10.9 [Source:RefSeq_peptide;Acc:NP_501881]	reproduction, 		
nspd-7	Y43C5A.1	Nematode Specific Peptide family, group D family member (nspd-7) [Source:RefSeq_peptide;Acc:NP_501882]			
Y43C5A.2	Y43C5A.2	Y43C5A.2 [Source:RefSeq_peptide;Acc:NP_501883]	signal transduction, 		receptor binding, 
Y43C5A.3	Y43C5A.3	Y43C5A.3 [Source:RefSeq_peptide;Acc:NP_501884]			
Y43C5A.7	Y43C5A.7	Y43C5A.7 [Source:RefSeq_peptide;Acc:NP_001076731]			
Y43C5A.4	Y43C5A.4	Y43C5A.4 [Source:RefSeq_peptide;Acc:NP_501885]			
thk-1	Y43C5A.5	THymidine Kinase family member (thk-1) [Source:RefSeq_peptide;Acc:NP_501886]	embryonic development ending in birth or egg hatching, 		ATP binding, thymidine kinase activity, 
rad-51	Y43C5A.6	rad-51 encodes two isoforms of a protein orthologous to S. cerevisiae Rad51p and Dmc1p, and to E. coli RecA, and paralogous to C30A5.2. RAD-51 proteins are probably required for meiotic recombination. while dispensable for viability and meiotic synapsis, RAD-51A/B are required for normal chromosomal morphology, univalent formation, dissociation of chiasmata, hyperresistance of meiotic pachytene nuclei to X-irradiation, and the progress of oocytes through diakinesis. RAD-51A/B require CHK-2, MRE-11, and SPO-11 to localize to foci in late zygotene/early pachytene nuclei, and genetically acts downstream of CHK-2 and SPO-11. RAD-51A/B foci later disappear from homologously synapsed chromosomes. [Source: WormBase]	DNA repair, DNA metabolic process, embryonic development ending in birth or egg hatching, DNA damage response, signal transduction by p53 class mediator resulting in induction of apoptosis, 	intracellular, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, DNA binding, sequence-specific DNA binding, DNA-dependent ATPase activity, damaged DNA binding, identical protein binding, 
pqn-55	R09E10.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			zinc ion binding, 
R09E10.6	R09E10.6	R09E10.6 [Source:RefSeq_peptide;Acc:NP_501889]	reproduction, 		
R09E10.5	R09E10.5	Uncharacterized protein R09E10.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q21874]	cell-matrix adhesion, 		
R09E10.4	R09E10.4	R09E10.4a [Source:RefSeq_peptide;Acc:NP_001076699]	metabolic process, 		catalytic activity, 
R09E10.8	R09E10.8	R09E10.8 [Source:RefSeq_peptide;Acc:NP_501892]			
R09E10.3	R09E10.3	R09E10.3 [Source:RefSeq_peptide;Acc:NP_501893]	metabolic process, 		catalytic activity, 
R09E10.t1	R09E10.t1				
R09E10.10	R09E10.10	R09E10.10 [Source:RefSeq_peptide;Acc:NP_001023334]			
R09E10.9	R09E10.9	R09E10.9 [Source:RefSeq_peptide;Acc:NP_001023335]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
R09E10.2	R09E10.2	R09E10.2 [Source:RefSeq_peptide;Acc:NP_501894]			
R09E10.1	R09E10.1	R09E10.1 [Source:RefSeq_peptide;Acc:NP_501895]			
K11E8.6	K11E8.6				
unc-43	K11E8.1	unc-43 encodes the C. elegans type II calcium/calmodulin-dependent protein kinase (CaMKII) ortholog. unc-43 activity is required for a number of processes, including locomotion, neuronal cell fate specification and regulation of synaptic density, egg laying, defecation, and meiotic maturation. in regulating some of these processes, unc-43 acts in concert with MAPKKK and G protein signaling pathways. UNC-43 is expressed in neurons, oocytes, and gonadal sheath cells. [Source: WormBase]	protein amino acid phosphorylation, 	calcium- and calmodulin-dependent protein kinase complex, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
Y43C5B.2	Y43C5B.2	Y43C5B.2 [Source:RefSeq_peptide;Acc:NP_501907]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, 
Y43C5B.3	Y43C5B.3	Y43C5B.3 [Source:RefSeq_peptide;Acc:NP_501908]	transport, glycolysis, 	membrane, 	ATP binding, binding, hexokinase activity, 
R11A8.1	R11A8.1	R11A8.1 [Source:RefSeq_peptide;Acc:NP_501909]			
R11A8.2	R11A8.2	Protein mos-2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q21924]	embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, nucleic acid binding, 
ugt-59	R11A8.3	R11A8.3 [Source:RefSeq_peptide;Acc:NP_501911]	metabolic process, positive regulation of growth rate, 		transferase activity, transferring hexosyl groups, 
sir-2.1	R11A8.4	sir-2.1 encodes a homolog of the S. cerevisiae gene SIR2. [Source: WormBase]	regulation of transcription, DNA-dependent, vesicle-mediated transport, chromatin silencing, determination of adult life span, 	membrane, chromatin silencing complex, 	protein binding, DNA binding, 
R11A8.5	R11A8.5	R11A8.5 [Source:RefSeq_peptide;Acc:NP_501913]	electron transport, cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
irs-1	R11A8.6	irs-1 encodes a predicted cytoplasmic isoleucyl-tRNA synthetase (IleRS), an aminoacyl-tRNA synthetase that catalyzes the attachment of isoleucine to its cognate tRNA and is thus required for protein biosynthesis. loss of irs-1 activity via RNA-mediated interference (RNAi) results in sterility, embryonic lethality, and slower rates of growth, indicating that IRS-1 is essential for development. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, isoleucyl-tRNA aminoacylation, valyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, isoleucine-tRNA ligase activity, valine-tRNA ligase activity, 
R11A8.8	R11A8.8	R11A8.8 [Source:RefSeq_peptide;Acc:NP_001023341]			protein binding, 
R11A8.7	R11A8.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	keratinization, 	cytoplasm, 	RNA binding, 
lpd-8	R10H10.1	lpd-8 encodes a homolog of human and mouse HIRA-interacting protein-5. LPD-8 has C-terminal similarity to a domain of NifU observed in thioredoxin-like proteins and domains (COG0694), and is predicted to be mitochondrial on phylogenetic grounds. [Source: WormBase]	iron-sulfur cluster assembly, embryonic development ending in birth or egg hatching, sequestering of lipid, 		iron ion binding, iron-sulfur cluster binding, 
R10H10.3	R10H10.3	R10H10.3 [Source:RefSeq_peptide;Acc:NP_501918]	embryonic development ending in birth or egg hatching, 		
spe-26	R10H10.2	spe-26 encodes a Kelch motif-containing protein similar to the Drosophila proteins kelch and diablo and the Limulus (horseshoe crab) actin-bundling protein scruin. SPE-26 activity is required for several processes including embryogenesis, spermatogenesis, thermotolerance, and regulation of lifespan. SPE-26 mRNA is detected in spermatogonial cells and spermatocytes, but not in spermatids. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
R10H10.4	R10H10.4	R10H10.4 [Source:RefSeq_peptide;Acc:NP_501920]	embryonic development ending in birth or egg hatching, 		
gpa-7	R10H10.5	gpa-7 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that affects egg laying and response to water- soluble odorants. it is expressed in excitable cells. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		GTP binding, signal transducer activity, guanyl nucleotide binding, 
R10H10.6	R10H10.6	R10H10.6 [Source:RefSeq_peptide;Acc:NP_501922]	riboflavin biosynthetic process, 		FMN adenylyltransferase activity, riboflavin kinase activity, 
R10H10.7	R10H10.7	R10H10.7 [Source:RefSeq_peptide;Acc:NP_501923]	DNA repair, DNA replication, DNA recombination, 		ATP binding, DNA ligase (ATP) activity, 
F13B12.6	F13B12.6	F13B12.6 [Source:RefSeq_peptide;Acc:NP_741483]	intracellular signaling cascade, 		
F13B12.1	F13B12.1	IWS1-like protein. [Source:Uniprot/SWISSPROT;Acc:Q19375]	transcription, 	nucleus, 	protein binding, transcription regulator activity, DNA binding, 
F13B12.2	F13B12.2	F13B12.2 [Source:RefSeq_peptide;Acc:NP_501925]	transport, response to antibiotic, dicarboxylic acid transport, carbohydrate transport, tetracycline transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, sugar:hydrogen ion symporter activity, tetracycline:hydrogen antiporter activity, 
ins-1	F13B12.5	ins-1 encodes an insulin-like peptide orthologous to human insulin (INS. OMIM:176730, mutated in hyperproinsulinemia and diabetes mellitus type II). INS-1 is one of 38 insulin-like peptides in C. elegans and when overexpressed can antagonize insulin-like signaling mediated by DAF-2/IR leading to arrest at the dauer larval stage. loss of INS-1, however, does not result in a dauer phenotype suggesting that INS-1 functions redundantly with other insulin-like peptides to regulate reproductive growth and lifespan. INS-1 is expressed in the amphid sensory neurons ASI and ASJ that regulate dauer arrest, the nerve ring, the intestine, vulval muscles, and other neurons. [Source: WormBase]		extracellular region, 	hormone activity, prothoracicotrophic hormone activity, 
F13B12.3	F13B12.3	F13B12.3 [Source:RefSeq_peptide;Acc:NP_501927]			
F13B12.7	F13B12.7	F13B12.7 [Source:RefSeq_peptide;Acc:NP_001023131]			
F13B12.4	F13B12.4	Putative pyridoxal-phosphate dependent protein F13B12.4 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19374]	metabolic process, 		catalytic activity, pyridoxal phosphate binding, 
F01D4.8	F01D4.8	F01D4.8 [Source:RefSeq_peptide;Acc:NP_501929]	metabolic process, 		catalytic activity, pyridoxal phosphate binding, 
srb-17	F01D4.7	Serpentine receptor class beta-17 (Protein srb-17). [Source:Uniprot/SWISSPROT;Acc:O02241]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
mec-3	F01D4.6	mec-3 encodes a founding member of the LIM (Lin-11, Isl-1, Mec-3) homeodomain family of transcriptional regulators. during C. elegans development, MEC-3 activity is required for proper differentiation and maturation of the mechanosensory neurons. MEC-3 is expressed in the mechanosensory neurons, where initiation of expression is dependent upon the UNC-86 homeodomain protein and maintenance of expression is dependent upon MEC-3 itself and mec-17. [Source: WormBase]	regulation of transcription, DNA-dependent, mechanosensory behavior, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
F01D4.10	F01D4.10				
ugt-43	F01D4.1	F01D4.1 [Source:RefSeq_peptide;Acc:NP_501932]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-44	F01D4.2	F01D4.2 [Source:RefSeq_peptide;Acc:NP_501933]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
F01D4.9	F01D4.9	F01D4.9 [Source:RefSeq_peptide;Acc:NP_001023113]			
F01D4.3	F01D4.3	F01D4.3 [Source:RefSeq_peptide;Acc:NP_501934]	intracellular signaling cascade, protein amino acid phosphorylation, proteolysis, nucleosome assembly, 	nucleus, nucleosome, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, DNA binding, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
egl-21	F01D4.4	egl-21 encodes a putative carboxypeptidase (whose homologs include human enkephalin convertase/carboxypeptidase E). EGL-21 is expressed throughout the nervous system. EGL-21 is required for normal synthesis of FMRFamide-like peptides, and for egg-laying, locomotion, and defecation. EGL-23 promotes acetylcholine release at neuromuscular junctions. egl-21 mutant defects resemble those seen for mutants of the proprotein convertase type 2 EGL-3. [Source: WormBase]	proteolysis, 		protein binding, zinc ion binding, carboxypeptidase A activity, 
F01D4.5	F01D4.5	F01D4.5a [Source:RefSeq_peptide;Acc:NP_501937]			
ced-5	C02F4.1	The ced-5 gene a homolog of the human protein DOCK180 that is required for the cell engulfment stage of programmed cell death. [Source: WormBase]	engulfment of apoptotic cell, 	plasma membrane, 	
tax-6	C02F4.2	tax-6 encodes an ortholog of calcineurin A that is required for inhibition and adaptation of several sensory neurons and for the normal regulation of egg-laying by serotonin. TAX-6 stimulates transcription of rcn-1, and binds RCN-1 protein if free Ca[2+] is present. in general, calcineurin positively regulates calcium-dependent signaling. [Source: WormBase]	positive regulation of growth rate, thermotaxis, 	cytoplasm, 	protein binding, hydrolase activity, 
C02F4.4	C02F4.4	C02F4.4 [Source:RefSeq_peptide;Acc:NP_501941]			
C02F4.5	C02F4.5	C02F4.5 [Source:RefSeq_peptide;Acc:NP_501942]			
cal-4	T07G12.1	cal-4 encodes one of five predicted C. elegans calcium-binding calmodulin homologs (the others being CAL-1, CAL-2, CAL-3 and CMD-1). as loss of cal-4 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of CAL-4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
T07G12.2	T07G12.2	T07G12.2 [Source:RefSeq_peptide;Acc:NP_501944]	transport, 	membrane, 	transporter activity, 
T07G12.3	T07G12.3	T07G12.3 [Source:RefSeq_peptide;Acc:NP_501945]			
T07G12.4	T07G12.4	T07G12.4 [Source:RefSeq_peptide;Acc:NP_501946]	transport, 	membrane, 	transporter activity, 
T07G12.5	T07G12.5	T07G12.5 [Source:RefSeq_peptide;Acc:NP_501947]	transport, 	membrane, 	transporter activity, 
zim-1	T07G12.6	zim-1 encodes a protein with two C-terminal noncanonical C2H2 zinc-fingers whose paralogs include HIM-8, ZIM-2/-3, and C02F5.12. ZIM-1 specifically required for homolog pairing, synapsis, and segregation of chromosomes II and III during meiosis. zim-1(tm1813) oocytes ending prophase have ~4 bivalents and ~4 univalents, the latter of which are consistently chromosomes II and III. ZIM-1 associates with the left ends of chromosomes II and III, which may indicate an association with their pairing centers. while the C-terminal region of ZIM-1 most closely resembles those of its orthologs in other Caenorhabditis species, its N-terminal region instead most closely resembles those of its paralogs in C. elegans, indicating coevolving, species-specific functions. ZIM-1 foci, like HIM-8 foci, associate with the nuclear envelope during meiotic prophase. zim-1 mutants also have some defective segregation of the X chromosome (yielding a Him phenotype), but this may be an indirect effect of autosomal asynapsis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, nucleic acid binding, 
T07G12.14	T07G12.14				
T07G12.8	T07G12.8	T07G12.8 [Source:RefSeq_peptide;Acc:NP_501950]	embryonic development ending in birth or egg hatching, 		
zim-2	T07G12.10	zim-2 encodes a protein with two C-terminal noncanonical C2H2 zinc-fingers whose paralogs include HIM-8, ZIM-1, ZIM-3, and C02F5.12. ZIM-2 is specifically required for homolog pairing, synapsis, and segregation of chromosome V during meiosis. zim-2(tm574) oocytes ending prophase have ~5 bivalents and ~2 univalents, the latter of which are consistently chromosome V. zim-2 oocytes fail to begin chromosome V pairing at the start of meiosis. ZIM-2 associates with the right end of chromosome V, which may indicate an association with its pairing center. while the C-terminal region of ZIM-2 most closely resembles those of its orthologs in other Caenorhabditis species, its N-terminal region instead most closely resembles those of its paralogs in C. elegans, indicating coevolving, species-specific functions. ZIM-2 foci, like HIM-8 foci, associate with the nuclear envelope during meiotic prophase. zim-2 mutants also have some defective segregation of the X chromosome (yielding a Him phenotype), but this may be an indirect effect of autosomal asynapsis. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, oxidoreductase activity, nucleic acid binding, 
zim-3	T07G12.11	zmp-3 encodes a protein with two C-terminal noncanonical C2H2 zinc-fingers whose paralogs include HIM-8, ZIM-1/-2, and C02F5.12. ZIM-3 is specifically required for homolog pairing, synapsis, and segregation of chromosomes I and IV during meiosis. zim-3(tm2303) oocytes ending prophase have ~4 bivalents and ~4 univalents, the latter of which are consistently chromosomes I and IV. ZIM-3 associates with the right end of chromosome I and the left end of chromosome IV, which may indicate an association with their pairing centers. while the C-terminal region of ZIM-3 most closely resembles those of its orthologs in other Caenorhabditis species, its N-terminal region instead most closely resembles those of its paralogs in C. elegans, indicating coevolving, species-specific functions. ZIM-3 foci, like HIM-8 foci, associate with the nuclear envelope during meiotic prophase. zim-3 mutants also have some defective segregation of the X chromosome (yielding a Him phenotype), but this may be an indirect effect of autosomal asynapsis. [Source: WormBase]	metabolic process, embryonic development ending in birth or egg hatching, 	intracellular, 	zinc ion binding, oxidoreductase activity, nucleic acid binding, 
him-8	T07G12.12	him-8 encodes a protein with two C-terminal noncanonical C2H2 zinc-fingers whose paralogs include ZIM-1/-3 and C02F5.12. HIM-8 is required by X chromosomes for normal homolog pairing, synapsis, recombination, and segregation during meiosis. him-8 mutants have an increased frequency of genotypically XO males in self-fertile hermaphrodite populations. HIM-8 is expressed during meiosis, and is associated with the X chromosome's meiotic pairing center (PC), which associates with the nuclear envelope during meiotic prophase. him-8 mutations are enhanced by rearrangements that inactivate the X-chromosomal PC. HIM-8 functions are genetically separable, since the him-8(me4) point mutation (which alters a domain N-terminal to HIM-8's zinc fingers) permits normal chromosome binding and nuclear localization, but causes abnormal pairing and synapsis. while the C-terminal region of HIM-8 most closely resembles those of its orthologs in other Caenorhabditis species, its N-terminal region is highly divergent, suggesting species-specific functions. unlike other him mutations, him-8 solely affects X chromosomes, and does not produce embryonic lethality via autosomal nondisjunction or aneuploidy. however, failure of X-chromosomal synapsis in him-8 mutants blocks the pachytene transistion from polarized to nonpolarized meiotic nuclei, by blocking the resolution of recombination intermediates on other chromosomes. him-8-blocked meiotic autosomes show persistent RAD-51 foci and have excess crossovers, both of which may be symptoms of a HUS-1-independent checkpoint induced by X-chromosomal nonsynapsis rather than DNA damage. HIM-8 also acts outside of meiosis, by inhibiting EGL-13 expression or activity. mutations of the HIM-8 zinc-finger domain semidominantly suppress missense (but not null) egl-13 mutations, due to him-8 haploinsufficiency. mutant HIM-8 fails to suppress mutant egl-13 on a free transgenic array, and also fails to suppress native mutant egl-13 if transgenic excess copies of the egl-13 promoter are present. [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
efn-2	C43F9.8	Eph(F)riN family member (efn-2) [Source:RefSeq_peptide;Acc:NP_501955]		membrane, 	
C43F9.9	C43F9.9	C43F9.9 [Source:RefSeq_peptide;Acc:NP_001023062]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, GABA-A receptor activity, 
C43F9.10	C43F9.10	C43F9.10 [Source:RefSeq_peptide;Acc:NP_001023061]			transferase activity, transferring groups other than amino-acyl groups, 
C43F9.4	C43F9.4	C43F9.4 [Source:RefSeq_peptide;Acc:NP_501956]			
C43F9.5	C43F9.5	C43F9.5 [Source:RefSeq_peptide;Acc:NP_501957]			
C43F9.6	C43F9.6	C43F9.6 [Source:RefSeq_peptide;Acc:NP_501958]	sodium ion transport, potassium ion transport, 	membrane, 	sodium:potassium-exchanging ATPase activity, 
C43F9.7	C43F9.7	C43F9.7 [Source:RefSeq_peptide;Acc:NP_501959]			
C43F9.11	C43F9.11	C43F9.11 [Source:RefSeq_peptide;Acc:NP_001076666]			
R09H10.8	R09H10.8	R09H10.8 [Source:RefSeq_peptide;Acc:NP_001076700]			
R09H10.1	R09H10.1	R09H10.1 [Source:RefSeq_peptide;Acc:NP_501960]			
R09H10.2	R09H10.2	R09H10.2 [Source:RefSeq_peptide;Acc:NP_501961]			
R09H10.3	R09H10.3	R09H10.3 is orthologous to the human gene TRANSTHYRETIN (PREALBUMIN, AMYLOIDOSIS TYPE I) (TTR. OMIM:176300), which when mutated leads to disease. [Source: WormBase]	transport, 		steroid binding, identical protein binding, 
R09H10.6	R09H10.6	R09H10.6 [Source:RefSeq_peptide;Acc:NP_001023336]			calcium ion binding, 
ptr-14	R09H10.4	ptr-14 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-14 is weakly required for normal molting from L4 to adult stages. PTR-14 is also required for normal growth to full size and locomotion. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
R09H10.7	R09H10.7	R09H10.7 [Source:RefSeq_peptide;Acc:NP_001023337]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
R09H10.5	R09H10.5	R09H10.5 [Source:RefSeq_peptide;Acc:NP_501964]			
F56C4.4	F56C4.4	F56C4.4 [Source:RefSeq_peptide;Acc:NP_001076691]			
F56C4.1	F56C4.1	F56C4.1 [Source:RefSeq_peptide;Acc:NP_501965]			
F56C4.2	F56C4.2	F56C4.2 [Source:RefSeq_peptide;Acc:NP_501966]			
F56C4.3	F56C4.3	F56C4.3 [Source:RefSeq_peptide;Acc:NP_001023233]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
K08C7.1	K08C7.1	K08C7.1 [Source:RefSeq_peptide;Acc:NP_501967]			transporter activity, 
fmo-1	K08C7.2	fmo-1 encodes a flavin-containing monoxygenase homologous to human FMO1, FMO2, and FMO3 (OMIM:602079, mutated in trimethylaminuria). [Source: WormBase]	electron transport, 	microsome, 	oxidoreductase activity, monooxygenase activity, flavin-containing monooxygenase activity, 
K08C7.7	K08C7.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
epi-1	K08C7.3	epi-1 encodes a laminin alpha chain that affects oogenesis due to its affect on gonad development, and also affects cell migrations, axon extension and GABAergic defasciculation, morphology of the VD and DD motor neurons, body morphology, locomotion, gonad sheath epithelialization, body muscle structure, and germ cell proliferation. [Source: WormBase]	signal transduction, cell adhesion, chemotaxis, defense response, reproduction, positive regulation of multicellular organism growth, 	membrane, proteinaceous extracellular matrix, extracellular matrix, basement membrane, 	signal transducer activity, structural molecule activity, receptor activity, 
K08C7.4	K08C7.4	K08C7.4 [Source:RefSeq_peptide;Acc:NP_501971]			
fmo-2	K08C7.5	fmo-2 encodes a flavin-containing monoxygenase homologous to human FMO1, FMO2, and FMO3 (OMIM:602079, mutated in trimethylaminuria). [Source: WormBase]	electron transport, 	microsome, 	oxidoreductase activity, monooxygenase activity, flavin-containing monooxygenase activity, 
K08C7.6	K08C7.6	K08C7.6 [Source:RefSeq_peptide;Acc:NP_501973]			
R102.1	R102.1	R102.1 [Source:RefSeq_peptide;Acc:NP_501974]			
R102.2	R102.2	R102.2 [Source:RefSeq_peptide;Acc:NP_501975]			
R102.8	R102.8	R102.8 [Source:RefSeq_peptide;Acc:NP_501976]			
R102.3	R102.3	R102.3 [Source:RefSeq_peptide;Acc:NP_501977]			
R102.4	R102.4	R102.4b [Source:RefSeq_peptide;Acc:NP_501979]	amino acid metabolic process, 		lyase activity, 
R102.5	R102.5	R102.5a [Source:RefSeq_peptide;Acc:NP_501981]	embryonic development ending in birth or egg hatching, 		protein binding, 
R102.6	R102.6	R102.6 [Source:RefSeq_peptide;Acc:NP_501982]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
R102.7	R102.7	R102.7 [Source:RefSeq_peptide;Acc:NP_501983]			
R102.10	R102.10	R102.10 [Source:RefSeq_peptide;Acc:NP_001023338]			
R102.9	R102.9	R102.9 [Source:RefSeq_peptide;Acc:NP_001023339]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
ncx-3	ZC168.1	ncx-3 encodes a predicted transmembrane Na/Ca exchanger. by homology, NCX-3 is predicted to function as a plasma membrane protein that regulates intracellular calcium homeostasis by moving calcium either into or out of cells, depending upon the net electrochemical force. however, as loss of ncx-3 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of NCX-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	cell communication, calcium ion transport, 	membrane, integral to membrane, 	calcium:sodium antiporter activity, 
ZC168.2	ZC168.2	Uncharacterized protein ZC168.2. [Source:Uniprot/SWISSPROT;Acc:Q23247]		extracellular region, 	neuropeptide hormone activity, 
ZC168.3	ZC168.3	ZC168.3 [Source:RefSeq_peptide;Acc:NP_501986]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, 
cyb-1	ZC168.4	cyb-1 encodes a cyclin B homolog that appears to be required both for embryogenesis (via maternally encoded CYB-1) and for postembryonic development and fertility (via zygotically encoded CYB-1). removing maternal product in cyb-1(RNAi) embryos causes multiple nuclei, and affected embryos arrest development at an early embryonic stage. [Source: WormBase]	embryonic development ending in birth or egg hatching, oocyte maturation, 	nucleus, 	
grl-21	ZC168.5	grl-21 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-21 is expressed in arcade cells and hypodermis. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
ZC168.6	ZC168.6	Sperm-specific protein ZC168.6. [Source:Uniprot/SWISSPROT;Acc:Q23246]			structural molecule activity, 
T25B9.3	T25B9.3	T25B9.3a [Source:RefSeq_peptide;Acc:NP_001023402]			
T25B9.1	T25B9.1	T25B9.1 encodes an protein highly similar to 2-amino-3-keto-butyrate coenzyme A ligases (also called AKB ligases or glycine acetyltransferases. EC 2.3.1.29. R.W. [Source: WormBase]	biosynthetic process, 		pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, glycine C-acetyltransferase activity, 
T25B9.2	T25B9.2	T25B9.2 [Source:RefSeq_peptide;Acc:NP_501992]			hydrolase activity, 
T25B9.5	T25B9.5	T25B9.5 [Source:RefSeq_peptide;Acc:NP_501993]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T25B9.4	T25B9.4	T25B9.4 [Source:RefSeq_peptide;Acc:NP_501994]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T25B9.6	T25B9.6	T25B9.6 [Source:RefSeq_peptide;Acc:NP_501995]			phosphopantetheine binding, 
ugt-54	T25B9.7	T25B9.7 [Source:RefSeq_peptide;Acc:NP_501996]	metabolic process, protein secretion by the type II secretion system, 	membrane, type II protein secretion system complex, 	protein transporter activity, transferase activity, transferring hexosyl groups, mating-type a-factor pheromone receptor activity, 
T25B9.11	T25B9.11	T25B9.11 [Source:RefSeq_peptide;Acc:NP_001076713]		endoplasmic reticulum, 	
T25B9.12	T25B9.12	T25B9.12 [Source:RefSeq_peptide;Acc:NP_001076714]			
T25B9.8	T25B9.8	T25B9.8 [Source:RefSeq_peptide;Acc:NP_501997]			
T25B9.9	T25B9.9	6-phosphogluconate dehydrogenase, decarboxylating (EC 1.1.1.44). [Source:Uniprot/SWISSPROT;Acc:Q17761]	pentose-phosphate shunt, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, NADP binding, phosphogluconate dehydrogenase (decarboxylating) activity, 
T25B9.10	T25B9.10	T25B9.10 [Source:RefSeq_peptide;Acc:NP_501999]			inositol or phosphatidylinositol phosphatase activity, 
C06G8.1	C06G8.1	C06G8.1 [Source:RefSeq_peptide;Acc:NP_502000]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
srd-7	C06G8.4	Serpentine receptor class delta-7 (Protein srd-7). [Source:Uniprot/SWISSPROT;Acc:Q17760]			
opt-1	C06G8.2	opt-1 encodes a high-affinity, proton-coupled oligopeptide transporter. when expressed in Xenopus ooctyes, OPT-1 exhibits proton-coupled transport activity for a broad spectrum of peptide substrates. opt-1 mRNA is detected at all stages of development, but is expressed at highest levels in late larval and adult stages. additionally, an opt-1::GFP reporter exhibits expression primarily in vulval, pharyngeal, and anal muscles. as loss of opt-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of opt-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	oligopeptide transport, 	membrane, integral to membrane, 	transporter activity, oligopeptide transporter activity, 
C06G8.3	C06G8.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q6BEU0]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
R13.4	R13.4	R13.4 [Source:RefSeq_peptide;Acc:NP_502004]	biological_process, 		zinc ion binding, 
R13.2	R13.2	R13.2 [Source:RefSeq_peptide;Acc:NP_502006]	multicellular organismal development, 	nucleus, 	
R13.3	R13.3	Bestrophin-1. [Source:Uniprot/SWISSPROT;Acc:Q21973]			
R13.5	R13.5				
T11G6.5	T11G6.5	T11G6.5 [Source:RefSeq_peptide;Acc:NP_502008]			
T11G6.7	T11G6.7	T11G6.7 [Source:RefSeq_peptide;Acc:NP_502009]			
T11G6.6	T11G6.6				
T11G6.4	T11G6.4	T11G6.4 [Source:RefSeq_peptide;Acc:NP_502010]	transport, 	integral to membrane, 	transporter activity, 
T11G6.3	T11G6.3	T11G6.3 [Source:RefSeq_peptide;Acc:NP_502011]	transport, 	integral to membrane, 	transporter activity, 
T11G6.2	T11G6.2	T11G6.2a [Source:RefSeq_peptide;Acc:NP_001076702]	transport, 	integral to membrane, 	transporter activity, 
hrs-1	T11G6.1	hrs-1 encodes predicted cytoplasmic and mitochondrial histidyl-tRNA synthetases (HisRS), class II aminoacyl-tRNA synthetases that catalyze the attachment of histidine to its cognate tRNAs and are thus required for protein biosynthesis. HRS-1 synthetases are required for embryogenesis, germline development, wild type body morphology, and normal rates of postembryonic growth. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, histidyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, histidine-tRNA ligase activity, 
T11G6.8	T11G6.8	T11G6.8 [Source:RefSeq_peptide;Acc:NP_502014]	embryonic development ending in birth or egg hatching, 		nucleotide binding, zinc ion binding, nucleic acid binding, 
F13E9.1	F13E9.1	F13E9.1 [Source:RefSeq_peptide;Acc:NP_502016]	cell communication, 		protein binding, phosphoinositide binding, 
F13E9.11	F13E9.11	F13E9.11 [Source:RefSeq_peptide;Acc:NP_502015]			
F13E9.12	F13E9.12	F13E9.12 [Source:RefSeq_peptide;Acc:NP_741484]			
fipr-14	F13E9.2	F13E9.2 [Source:RefSeq_peptide;Acc:NP_502017]			
sdz-13	F13E9.6	SKN-1 Dependent Zygotic transcript family member (sdz-13) [Source:RefSeq_peptide;Acc:NP_502018]			
fipr-15	F13E9.3	Uncharacterized protein F13E9.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19408]			
F13E9.13	F13E9.13	Uncharacterized protein F13E9.13, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q1NZ26]			
F13E9.5	F13E9.5	F13E9.5 [Source:RefSeq_peptide;Acc:NP_502020]			
F13E9.10	F13E9.10	F13E9.10 [Source:RefSeq_peptide;Acc:NP_502022]			
F13E9.16	F13E9.16	F13E9.16 [Source:RefSeq_peptide;Acc:NP_001076678]			
F13E9.15	F13E9.15	F13E9.15 [Source:RefSeq_peptide;Acc:NP_001076677]			
F13E9.14	F13E9.14	F13E9.14 [Source:RefSeq_peptide;Acc:NP_001076676]			
F13E9.8	F13E9.8	F13E9.8 [Source:RefSeq_peptide;Acc:NP_502023]			
F13E9.4	F13E9.4	F13E9.4 [Source:RefSeq_peptide;Acc:NP_502024]	fusion of sperm to egg plasma membrane, 		
F13E9.9	F13E9.9	F13E9.9 [Source:RefSeq_peptide;Acc:NP_502025]			
ZK596.1	ZK596.1	ZK596.1 [Source:RefSeq_peptide;Acc:NP_502026]			
ZK596.3	ZK596.3	ZK596.3 [Source:RefSeq_peptide;Acc:NP_502027]			
ZK596.2	ZK596.2	ZK596.2 [Source:RefSeq_peptide;Acc:NP_502028]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZK593.1	ZK593.1	ZK593.1 [Source:RefSeq_peptide;Acc:NP_502029]	glycolysis, 		magnesium ion binding, pyruvate kinase activity, potassium ion binding, 
ZK593.2	ZK593.2	ZK593.2 [Source:RefSeq_peptide;Acc:NP_502030]			
ZK593.3	ZK593.3	ZK593.3 [Source:RefSeq_peptide;Acc:NP_502031]			
rbr-2	ZK593.4	Histone demethylase rbr-2 (EC 1.14.11.-) (Jumonji/ARID domain- containing protein rbr-2). [Source:Uniprot/SWISSPROT;Acc:Q23541]		intracellular, nucleus, 	protein binding, zinc ion binding, DNA binding, 
dnc-1	ZK593.5	DNC-1 encodes a dynactin, orthologous to Drosophila GLUED, that is required for pronuclear migration and centrosome separation in one-cell embryos and for the correct alignment of mitotic spindles in early embryos. DNC-1 shares embryonic functions with DNC-2, DHC-1, LIS-1 and NUD-1. DNC-1 is located at cortical microtubule attachment sites. [Source: WormBase]	DNA topological change, DNA unwinding during replication, biological_process, 	chromosome, 	DNA binding, DNA topoisomerase type I activity, 
lsm-7	ZK593.7	LSM Sm-like protein family member (lsm-7) [Source:RefSeq_peptide;Acc:NP_502034]	mRNA metabolic process, biological_process, 	ribonucleoprotein complex, 	
lgg-2	ZK593.6	lgg-2 encodes a homolog of the light chain 3 (LC3) subunit of the microtubule-associated proteins 1A and 1B (MAP1A and MAP1B). by homology, LGG-2 is predicted to associate with MAP1A and MAP1B and with microtubules and to perhaps play a role in regulating the microtubule-binding activity of MAP1A and MAP1B. in C. elegans, loss of lgg-2 activity via RNAi does not result in any obvious abnormalities and specifically, does not appear to affect autophagy as required for dauer formation and life-span extension. [Source: WormBase]			protein binding, 
ZK593.8	ZK593.8	ZK593.8 [Source:RefSeq_peptide;Acc:NP_502036]			
ZK593.9	ZK593.9	ZK593.9 [Source:RefSeq_peptide;Acc:NP_502037]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y69E1A.1	Y69E1A.1	Y69E1A.1 [Source:RefSeq_peptide;Acc:NP_502038]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
Y69E1A.2	Y69E1A.2	Y69E1A.2 [Source:RefSeq_peptide;Acc:NP_502039]	embryonic development ending in birth or egg hatching, 		
Y69E1A.3	Y69E1A.3	Y69E1A.3 [Source:RefSeq_peptide;Acc:NP_502040]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y69E1A.4	Y69E1A.4	Y69E1A.4 [Source:RefSeq_peptide;Acc:NP_502041]			hydrolase activity, 
Y69E1A.5	Y69E1A.5	Y69E1A.5 [Source:RefSeq_peptide;Acc:NP_502042]			
sri-19	Y69E1A.6	Serpentine Receptor, class I family member (sri-19) [Source:RefSeq_peptide;Acc:NP_502043]			
aqp-3	Y69E1A.7	AQuaPorin or aquaglyceroporin related family member (aqp-3) [Source:RefSeq_peptide;Acc:NP_502044]	transport, 	membrane, 	transporter activity, 
Y69E1A.8	Y69E1A.8	Y69E1A.8 [Source:RefSeq_peptide;Acc:NP_502045]			
Y43E12A.2	Y43E12A.2	Y43E12A.2 [Source:RefSeq_peptide;Acc:NP_502046]			zinc ion binding, nucleic acid binding, 
cyb-2.1	Y43E12A.1	CYclin B family member (cyb-2.1) [Source:RefSeq_peptide;Acc:NP_502047]	embryonic development ending in birth or egg hatching, oocyte maturation, 	nucleus, 	
Y43E12A.3	Y43E12A.3	Y43E12A.3 (Y43E12A.3) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_069647]	embryonic development ending in birth or egg hatching, 		protein binding, 
F13H10.5	F13H10.5	F13H10.5 [Source:RefSeq_peptide;Acc:NP_502049]	metabolic process, nucleotide metabolic process, 		hydrolase activity, 
F13H10.9	F13H10.9	F13H10.9 [Source:RefSeq_peptide;Acc:NP_001076683]			
F13H10.1	F13H10.1	F13H10.1 [Source:RefSeq_peptide;Acc:NP_502050]			protein binding, 
F13H10.6	F13H10.6	F13H10.6 [Source:RefSeq_peptide;Acc:NP_741485]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, histamine receptor activity, 
ndx-9	F13H10.2	The ndx-9 gene encodes a member of the NADH pyrophosphatase subfamily of the NUDIX hydrolases. [Source: WormBase]			hydrolase activity, 
F13H10.3	F13H10.3	Putative amino-acid permease F13H10.3. [Source:Uniprot/SWISSPROT;Acc:Q19425]	amino acid transport, 	membrane, 	
F13H10.4	F13H10.4	F13H10.4 is orthologous to the human gene A-GLUCOSIDASE I (GCS1. OMIM:601336), which when mutated leads to disease. [Source: WormBase]	oligosaccharide metabolic process, positive regulation of growth rate, 		mannosyl-oligosaccharide glucosidase activity, 
F13H10.8	F13H10.8	F13H10.8 [Source:RefSeq_peptide;Acc:NP_001040935]			
alh-3	F36H1.6	alh-3 encodes an aldehyde dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, biosynthetic process, translation, 		oxidoreductase activity, formyltetrahydrofolate dehydrogenase activity, hydroxymethyl-, formyl- and related transferase activity, methyltransferase activity, cofactor binding, catalytic activity, 
F36H1.9	F36H1.9	F36H1.9 [Source:RefSeq_peptide;Acc:NP_001023184]			
F36H1.5	F36H1.5	F36H1.5 [Source:RefSeq_peptide;Acc:NP_502055]			
F36H1.10	F36H1.10	F36H1.10 [Source:RefSeq_peptide;Acc:NP_001023181]			
F36H1.13	F36H1.13				
fkb-1	F36H1.1	fkb-1 encodes a homolog of mouse FK506-binding protein 2. [Source: WormBase]	protein folding, 		
tag-144	F36H1.2	F36H1.2 encodes a KAP family P-loop predicted NTPase, with two or four transmembrane helices inserted into the P-loop NTPase domain. KAP NTPases include the neuronal membrane protein and receptor tyrosine kinase substrate Kidins220/ARMS (conserved in metazoa) and the F-plasmid PifA protein involved in phage T7 exclusion (with other bacterial homologs being sporadically distributed). F36H1.2 is expressed in several tissues, including intestine, excretory cell, body wall muscle, and various neurons. F36H1.2 is required for persistence of the germline in RNAi assays. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, morphogenesis of an epithelium, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, 
F36H1.11	F36H1.11	F36H1.11 [Source:RefSeq_peptide;Acc:NP_001023182]			
F36H1.3	F36H1.3	F36H1.3 [Source:RefSeq_peptide;Acc:NP_502058]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F36H1.12	F36H1.12	F36H1.12 [Source:RefSeq_peptide;Acc:NP_001023183]			
lin-3	F36H1.4	lin-3 encodes a member of the EGF family of peptide growth factors that affects induction of vulval development, viability, ovulation, and male spicule deveopment. it acts genetically upstream of let-23, and is expressed in the anchor cell of the developing gonad. [Source: WormBase]	reproduction, vulval development, 	integral to membrane, 	growth factor activity, 
Y5F2A.1	Y5F2A.1	Transthyretin-like protein Y5F2A.1 precursor (Unknown spot 4 protein from 2D-page). [Source:Uniprot/SWISSPROT;Acc:P55955]			
Y5F2A.2	Y5F2A.2	Y5F2A.2 [Source:RefSeq_peptide;Acc:NP_502061]			
Y5F2A.3	Y5F2A.3	Y5F2A.3 [Source:RefSeq_peptide;Acc:NP_502062]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
Y5F2A.5	Y5F2A.5				
Y5F2A.4	Y5F2A.4	Y5F2A.4 [Source:RefSeq_peptide;Acc:NP_502063]		intracellular, 	zinc ion binding, nucleic acid binding, 
atgr-7	M7.5	atgr-7 encodes an E1 ubiquitin-activating-like enzyme that is orthologous to Saccharomyces cerevisiae Apg7p, which is required for autophagy. in C. elegans, atgr-7 activity is essential for normal dauer morphogenesis and autophagy in daf-2 mutant animals. [Source: WormBase]	meiosis, dauer larval development, 		ATP binding, ATPase activity, catalytic activity, 
let-70	M7.1	let-70 encodes a class I E2 ubiquitin conjugating enzyme. let-70 was identified in screens for essential genes and phenotypic analyses indicate that loss of let-70 activity results in embryonic and larval lethality with defects in sarcomere assembly. purified LET-70 can stimulate the self-ubiquitylation activities of CHN-1 and UFD-2, E4 ubiquitin conjugation factors and, in addition, can stimulate the CHN-1- and UFD-2-dependent multiubiquitylation of UNC-45, a myosin-directed chaperone. in this manner, LET-70 may regulate UNC-45 degradation and myosin assembly. RNA blot analyses and a let-70-lacZ reporter fusion reveal that let-70 is abundantly expressed at all stages of development, including the dauer larval stage. strong staining is observed in most somatic tissues until adult stages, when expression generally becomes restricted to the nervous system. [Source: WormBase]	protein modification process, ubiquitin cycle, embryonic development ending in birth or egg hatching, 		protein binding, small conjugating protein ligase activity, 
klc-1	M7.2	klc-1 encodes one of two C. elegans kinesin light chains. by homology, KLC-1 is predicted to function, along with kinesin-like heavy chains, as part of a multimeric kinesin complex involved in intracellular transport. consistent with this, KLC-1 has been shown to interact with UNC-116/kinesin, KCA-1/kinesin cargo adaptor, and the ARX-2/Arp2/3 complex component in yeast two-hybrid assays. RNAi experiments indicate that klc-1 activity is required for normal embryonic development. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	kinesin complex, 	protein binding, microtubule motor activity, 
bcc-1	M7.3	bcc-1 encodes a homolog of Drosophila and vertebrate Bicaudal C (BICC) that contains KH RNA-binding domains, a serine-rich region, and a SAM (sterile alpha motif) domain. by homology, BCC-1 is predicted to function as a cytoplasmic RNA-binding protein that is required for translational regulation and/or mRNA stability during embryonic or germline development. however, as loss of bcc-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of BCC-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		RNA binding, phosphopantetheine binding, 
M7.7	M7.7	M7.7 [Source:RefSeq_peptide;Acc:NP_502068]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M7.8	M7.8	M7.8 [Source:RefSeq_peptide;Acc:NP_502069]			
M7.12	M7.12	M7.12 [Source:RefSeq_peptide;Acc:NP_502070]			
str-3	M7.13	str-3 encodes a seven transmembrane chemosensory receptor. STR-3 is expressed in the ASI chemosensory neurons. STR-3 expression in ASI is repressed in the presence of dauer pheromone at concentrations lower than that which induces dauer formation. [Source: WormBase]			
M7.9	M7.9	M7.9 [Source:RefSeq_peptide;Acc:NP_502072]			
M7.10	M7.10	M7.10 [Source:RefSeq_peptide;Acc:NP_502073]	transport, 	extracellular space, 	
T05E11.7	T05E11.7	T05E11.7 [Source:RefSeq_peptide;Acc:NP_502074]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T05E11.8	T05E11.8	T05E11.8 [Source:RefSeq_peptide;Acc:NP_502075]			
T05E11.9	T05E11.9				
T05E11.6	T05E11.6	Putative GPI-anchor transamidase precursor (EC 3.-.-.-) (GPI transamidase). [Source:Uniprot/SWISSPROT;Acc:P49048]	proteolysis, 		cysteine-type endopeptidase activity, legumain activity, 
rps-5	T05E11.1	rps-5 encodes a small ribosomal subunit S5 protein. [Source: WormBase]	translation, reproduction, 	intracellular, small ribosomal subunit, ribosome, 	protein binding, structural constituent of ribosome, 
T05E11.2	T05E11.2	T05E11.2 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. T05E11.2 is worm-specific, with a with highly divergent sequence lacking obvious homologs. T05E11.2 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
imp-2	T05E11.5	Intramembrane protease 2. [Source:Uniprot/SWISSPROT;Acc:P49049]	negative regulation of multicellular organism growth, 	integral to membrane, 	aspartic-type endopeptidase activity, 
T05E11.3	T05E11.3	T05E11.3 [Source:RefSeq_peptide;Acc:NP_502080]	protein folding, positive regulation of growth rate, 		ATP binding, unfolded protein binding, 
spo-11	T05E11.4	spo-11 encodes an ortholog of Spo11p in S. cerevisiae that is required for meiotic DNA recombination, and (in conjunction with CHK-2 and MRE-11) for the localization of RAD-51 to foci in late zygotene/early pachytene nuclei. like its yeast ortholog, SPO-11 is related to a subunit of archaebacterial topoisomerase VI, and probably causes double-stranded DNA breaks through a topoisomerase-like transesterase mechanism. however, unlike Spo11p, SPO-11 is dispensable for homologous synapsis and formation of the synaptonemal complex. SPO-11 is active even in syp-1 mutants where its double-stranded breaks cannot be correctly processed. spo-11 is transcribed in the germline. [Source: WormBase]	DNA metabolic process, DNA topological change, DNA modification, meiosis, 	chromosome, 	ATP binding, DNA binding, nucleic acid binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
psa-4	F01G4.1	The psa-4 (phasmid socket absent) gene encodes an ortholog of SWI2/SNF2, a component of the SWI/SNF complex that is conserved from yeast to mammals and that is involved in chromatin remodeling. psa-4 is probably required during mitosis of the T cells for asymmetric cell division. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		ATP binding, DNA binding, nucleic acid binding, helicase activity, 
ard-1	F01G4.2	ard-1 encodes a homolog of mammalian 3-hydroxyacyl-CoA dehydrogenase (HADH II)/amyloid-beta binding alcohol dehydrogenase (ABAD) that is predicted to be mitochondrial. [Source: WormBase]	proteolysis, metabolic process, cellular metabolic process, growth, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, cysteine-type endopeptidase activity, coenzyme binding, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F01G4.3	F01G4.3	F01G4.3 [Source:RefSeq_peptide;Acc:NP_502084]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
F01G4.4	F01G4.4	F01G4.4 [Source:RefSeq_peptide;Acc:NP_502085]	embryonic development ending in birth or egg hatching, 		
F01G4.5	F01G4.5	F01G4.5 [Source:RefSeq_peptide;Acc:NP_502086]	GPI anchor biosynthetic process, 	integral to membrane, 	phosphatidylinositol N-acetylglucosaminyltransferase activity, 
F01G4.6	F01G4.6	Phosphate carrier protein, mitochondrial precursor (PTP). [Source:Uniprot/SWISSPROT;Acc:P40614]	transport, G-protein coupled receptor protein signaling pathway, mitochondrial transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, mitochondrion, mitochondrial inner membrane, 	binding, dopamine receptor activity, 
C08F8.2	C08F8.2	C08F8.2a [Source:RefSeq_peptide;Acc:NP_001040911]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, 
pfd-1	C08F8.1	Probable prefoldin subunit 1. [Source:Uniprot/SWISSPROT;Acc:Q17827]	protein folding, embryonic development ending in birth or egg hatching, 	prefoldin complex, 	unfolded protein binding, 
C08F8.3	C08F8.3	C08F8.3 [Source:RefSeq_peptide;Acc:NP_502090]			
C08F8.4	C08F8.4	C08F8.4 [Source:RefSeq_peptide;Acc:NP_502091]			
fbxb-9	C08F8.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
C08F8.6	C08F8.6	C08F8.6 [Source:RefSeq_peptide;Acc:NP_502093]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
nhr-67	C08F8.8	nhr-67 encodes a nuclear receptor that is orthologous to Drosophila and vertebrate tailless hormone receptors. during development, nhr-67 plays an essential role in larval development and also functions as part of a complex regulatory network that regulates vulval patterning and differentiation and thus, egg laying. specifically, nhr-67 functions to positively regulate gene expression in the vulA, vulD, and vulF cells and negatively regulate gene expression in vulE and vulF. in regulating vulval gene expression, nhr-67 functions together with other transcription factors, including egl-38, lin-11, and cog-1. nhr-67 reporter fusion constructs are expressed dynamically in multiple vulval cell types as well as in head neurons, the hyp7 syncytium, late-stage embryos, the male tail, the anchor cell, and the linker cell. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
rap-3	C08F8.7	RAP homolog (vertebrate Rap GTPase family) family member (rap-3) [Source:RefSeq_peptide;Acc:NP_502095]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
C08F8.9	C08F8.9	C08F8.9 [Source:RefSeq_peptide;Acc:NP_001021313]			
cpt-2	R07H5.2	R07H5.2 is orthologous to the human gene CARNITINE PALMITOYLTRANSFERASE II (CPT2. OMIM:600650), which when mutated leads to disease. [Source: WormBase]			acyltransferase activity, 
prx-14	R07H5.1	PeRoXisome assembly factor family member (prx-14) [Source:RefSeq_peptide;Acc:NP_502097]	positive regulation of growth rate, 	membrane, peroxisome, 	protein binding, 
R07H5.3	R07H5.3	R07H5.3b [Source:RefSeq_peptide;Acc:NP_001023329]			
sdz-27	R07H5.4	SKN-1 Dependent Zygotic transcript family member (sdz-27) [Source:RefSeq_peptide;Acc:NP_502099]			
fbxb-79	R07H5.7	F-box B protein family member (fbxb-79) [Source:RefSeq_peptide;Acc:NP_502100]			
R07H5.11	R07H5.11	R07H5.11 [Source:RefSeq_peptide;Acc:NP_741491]			
R07H5.9	R07H5.9	R07H5.9 [Source:RefSeq_peptide;Acc:NP_502103]			
R07H5.8	R07H5.8	R07H5.8 [Source:RefSeq_peptide;Acc:NP_502104]	D-ribose metabolic process, purine ribonucleoside salvage, positive regulation of growth rate, 		protein binding, ribokinase activity, adenosine kinase activity, 
R07H5.10	R07H5.10	R07H5.10 [Source:RefSeq_peptide;Acc:NP_502105]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
C29F4.4	C29F4.4				
C29F4.3	C29F4.3	C29F4.3 [Source:RefSeq_peptide;Acc:NP_502106]			
col-125	C29F4.1	C29F4.1 [Source:RefSeq_peptide;Acc:NP_502107]	phosphate transport, biological_process, 	cytoplasm, 	structural constituent of cuticle, 
C29F4.2	C29F4.2	C29F4.2 [Source:RefSeq_peptide;Acc:NP_502108]			
C29F4.t1	C29F4.t1				
C05C12.6	C05C12.6	C05C12.6 [Source:RefSeq_peptide;Acc:NP_502109]			
C05C12.4	C05C12.4	C05C12.4 [Source:RefSeq_peptide;Acc:NP_502110]			protein binding, 
gtl-1	C05C12.3	gtl-1 encodes a TRPM subfamily member of the TRP channel family that affects the periodicity of the defecation cycle in combination with gon-2. expression includes the intestine. [Source: WormBase]	ion transport, positive regulation of growth rate, defecation, 	membrane, 	ion channel activity, 
C05C12.1	C05C12.1	C05C12.1 [Source:RefSeq_peptide;Acc:NP_502112]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
C05C12.5	C05C12.5	C05C12.5 [Source:RefSeq_peptide;Acc:NP_502113]			
F54D1.1	F54D1.1	F54D1.1 [Source:RefSeq_peptide;Acc:NP_502114]			RNA binding, 
col-126	F54D1.2	F54D1.2 [Source:RefSeq_peptide;Acc:NP_502115]	phosphate transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, beta-adrenergic receptor activity, 
col-127	F54D1.3	F54D1.3 [Source:RefSeq_peptide;Acc:NP_502116]	phosphate transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, beta-adrenergic receptor activity, 
nhr-7	F54D1.4	Nuclear hormone receptor family member nhr-7. [Source:Uniprot/SWISSPROT;Acc:Q20765]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
gtl-2	F54D1.5	gtl-2 encodes a predicted receptor-activated calcium channel and represents a family of calcium channels, the other two family members being gtl-1 and gon-2. [Source: WormBase]	ion transport, calcium ion transport, 	membrane, 	ion channel activity, calcium channel activity, 
F54D1.6	F54D1.6	Uncharacterized protein F54D1.6 precursor. [Source:Uniprot/SWISSPROT;Acc:Q20762]	cell-matrix adhesion, positive regulation of growth rate, 		
B0035.16	B0035.16	Probable tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase (EC 2.1.1.61). [Source:Uniprot/SWISSPROT;Acc:Q17440]	tRNA processing, 	cytoplasm, 	tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase activity, 
B0035.15	B0035.15	Uncharacterized protein B0035.15. [Source:Uniprot/SWISSPROT;Acc:Q17439]	positive regulation of growth rate, 		
dnj-1	B0035.14	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, locomotory behavior, 		heat shock protein binding, unfolded protein binding, 
B0035.13	B0035.13	B0035.13 [Source:RefSeq_peptide;Acc:NP_502123]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
B0035.1	B0035.1	B0035.1b [Source:RefSeq_peptide;Acc:NP_502124]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, intracellular, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, rhodopsin-like receptor activity, 
dnj-2	B0035.2	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
B0035.3	B0035.3	B0035.3 [Source:RefSeq_peptide;Acc:NP_502127]			
pfd-4	B0035.4	Probable prefoldin subunit 4. [Source:Uniprot/SWISSPROT;Acc:Q17435]	protein folding, 	prefoldin complex, 	unfolded protein binding, 
B0035.5	B0035.5	B0035.5 is orthologous to the human gene GLUCOSE-6-PHOSPHATE DEHYDROGENASE (G6PD. OMIM:305900), which when mutated leads to disease. [Source: WormBase]	glucose metabolic process, positive regulation of growth rate, 		glucose-6-phosphate dehydrogenase activity, 
B0035.18	B0035.18	B0035.18 [Source:RefSeq_peptide;Acc:NP_001021261]			
B0035.6	B0035.6	B0035.6 [Source:RefSeq_peptide;Acc:NP_502130]			
his-47	B0035.7	his-47 encodes an H2A histone. by homology, HIS-47 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-47 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome IV. [Source: WormBase]	nucleosome assembly, reproduction, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-48	B0035.8	his-48 encodes an H2B histone. by homology, HIS-48 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-48 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome IV. [Source: WormBase]	nucleosome assembly, reproduction, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-46	B0035.9	his-46 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-45	B0035.10	his-45 encodes an H3 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
B0035.11	B0035.11	B0035.11 [Source:RefSeq_peptide;Acc:NP_502135]	embryonic development ending in birth or egg hatching, 		
B0035.12	B0035.12	B0035.12 [Source:RefSeq_peptide;Acc:NP_502136]	RNA processing, positive regulation of growth rate, 	intracellular, 	nucleotide binding, nucleic acid binding, 
F54E12.2	F54E12.2	F54E12.2 [Source:RefSeq_peptide;Acc:NP_502137]	embryonic development ending in birth or egg hatching, 		ATP binding, DNA binding, nucleic acid binding, helicase activity, 
his-55	F54E12.1	his-55 encodes an H3 histone. by homology, HIS-55 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-55 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome IV. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-56	F54E12.3	his-56 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-58	F54E12.4	his-58 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, reproduction, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-57	F54E12.5	his-57 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, reproduction, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
klp-12	T01G1.1	Kinesin-Like Protein family member (klp-12) [Source:RefSeq_peptide;Acc:NP_001023350]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
T01G1.2	T01G1.2	T01G1.2 [Source:RefSeq_peptide;Acc:NP_502143]			
T01G1.4	T01G1.4	T01G1.4 [Source:RefSeq_peptide;Acc:NP_001023351]	metabolic process, chemotaxis, ciliary or flagellar motility, 	flagellin-based flagellum basal body, 	motor activity, transferase activity, 
T01G1.t1	T01G1.t1				
T01G1.t2	T01G1.t2				
T01G1.3	T01G1.3	T01G1.3 [Source:RefSeq_peptide;Acc:NP_502144]			
H02I12.1	H02I12.1	H02I12.1 encodes a large (1319-residue) protein with 12 chitin-binding peritrophin-A domains. H02I12.1(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, perhaps because of defects in chitin and eggshell synthesis. like CEJ-1 and CPG-2, H02I12.1 may participate in eggshell synthesis and early embryonic development. H02I12.1's multiple peritrophin-A domains might enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, embryonic development ending in birth or egg hatching, 	extracellular region, 	protein binding, chitin binding, 
fbxb-76	H02I12.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
tag-89	H02I12.3	Temporarily Assigned Gene name family member (tag-89) [Source:RefSeq_peptide;Acc:NP_502147]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
dsl-6	H02I12.4	dsl-6 encodes a putative transmembrane protein whose extracellular domain has a single DSL and EGF domains in series, somewhat like Delta/LAG-2. DSL-6 belongs to a nematode-specific family of Delta/LAG-2-like proteins that includes DSL-1, -2, -3, -5, -6, and -7. [Source: WormBase]	cell communication, 	membrane, 	calcium ion binding, 
his-66	H02I12.6	his-66 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, reproduction, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-65	H02I12.7	his-65 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, reproduction, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
H02I12.5	H02I12.5	H02I12.5 [Source:RefSeq_peptide;Acc:NP_502151]	embryonic cleavage, 		protein binding, 
cyp-31A2	H02I12.8	cyp-31A2 encodes a class 4 cytochrome P450 predicted to hydroxylate polyunsaturated fats (PUFAs). CYP-31A2 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. cyp-31A2(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. in mammalian eicosanoid signalling, class 4 cytochrome P450 is required for the omega hydroxylation of PUFAs, prostaglandins, and leukotrienes. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		iron ion binding, monooxygenase activity, heme binding, 
his-63	F22B3.2	his-63 encodes an H3 histone. by homology, HIS-63 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-63 is a replication-dependent histone locus. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-64	F22B3.1	his-64 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
F22B3.4	F22B3.4	F22B3.4 encodes a putative glucosamine-fructose 6-phosphate aminotransferase, paralogous to F07A11.2, thought to catalyse the first step of the hexosamine pathway to UDP-N-acetylglucosamine or UDP-N-acetylgalactosamine. F22B3.4 transcripts are enriched during oogenesis. F22B3.4(RNAi) animals have an osmotically-sensitive embryonic lethal phenotype, presumably because of defects in chitin and eggshell synthesis. [Source: WormBase]	metabolic process, carbohydrate metabolic process, carbohydrate biosynthetic process, embryonic cleavage, 	cytoplasm, 	sugar binding, glutamine-fructose-6-phosphate transaminase (isomerizing) activity, 
F22B3.10	F22B3.10	F22B3.10 [Source:RefSeq_peptide;Acc:NP_001076684]			
F22B3.5	F22B3.5	F22B3.5 [Source:RefSeq_peptide;Acc:NP_502157]			
F22B3.7	F22B3.7	F22B3.7 [Source:RefSeq_peptide;Acc:NP_502158]			
F22B3.8	F22B3.8	F22B3.8 [Source:RefSeq_peptide;Acc:NP_502160]	intracellular signaling cascade, protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F22B3.9	F22B3.9	F22B3.9 [Source:RefSeq_peptide;Acc:NP_001023144]			
kin-4	C10C6.1	protein KINase family member (kin-4) [Source:RefSeq_peptide;Acc:NP_502161]	protein amino acid phosphorylation, gamete generation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
npr-3	C10C6.2	C10C6.2 encodes a G-protein-coupled receptor for the FMRFamide-related peptides (FaRPs) encoded by flp-15. C10C6.2 is primarily coupled to Gi/Go proteins, since C10C6.2 signalling is blocked by pertussis toxin. because of its link to Gi/Go proteins, C10C6.2 is expected to be inhibitory [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
C10C6.3	C10C6.3	C10C6.3 [Source:RefSeq_peptide;Acc:NP_502163]			
C10C6.7	C10C6.7	C10C6.7a [Source:RefSeq_peptide;Acc:NP_001076660]			
C10C6.9	C10C6.9		embryonic development ending in birth or egg hatching, 		
wht-2	C10C6.5	C10C6.5 encodes a putative member of subfamily G of the ATP-binding cassette transporters. C10C6.5 is required, redundantly with its paralog MRP-4, for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. hermaphrodites subjected to double C10C6.5(RNAi) mrp-4(RNAi) are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. in mammalian eicosanoid signalling, subfamily C ABC transporters are required for PUFA and eicosanoid transport. [Source: WormBase]	electron transport, defense response, positive regulation of multicellular organism growth, aerobic respiration, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, iron ion binding, heme binding, 
C10C6.6	C10C6.6	Probable cation-transporting ATPase C10C6.6 (EC 3.6.3.-). [Source:Uniprot/SWISSPROT;Acc:P90747]	transport, metabolic process, cation transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
NR_003441.1	C10C6.8	C10C6.8, snoRNA [Source:RefSeq_dna;Acc:NR_003441]			
mbf-1	H21P03.1	H21P03.1 [Source:RefSeq_peptide;Acc:NP_502166]			DNA binding, sequence-specific DNA binding, 
H21P03.2	H21P03.2	H21P03.2 [Source:RefSeq_peptide;Acc:NP_502167]			
sms-1	H21P03.3	Putative phosphatidylcholine:ceramide cholinephosphotransferase 1 (EC 2.7.8.27) (Sphingomyelin synthase 1). [Source:Uniprot/SWISSPROT;Acc:Q9U3D4]	sphingomyelin biosynthetic process, 	integral to Golgi membrane, 	ceramide cholinephosphotransferase activity, 
twk-25	M04B2.5	TWiK family of potassium channels family member (twk-25) [Source:RefSeq_peptide;Acc:NP_502170]	potassium ion transport, 	membrane, 	potassium channel activity, 
M04B2.6	M04B2.6	M04B2.6 [Source:RefSeq_peptide;Acc:NP_001023316]			
M04B2.8	M04B2.8				
M04B2.4	M04B2.4	M04B2.4 [Source:RefSeq_peptide;Acc:NP_502171]	electron transport, positive regulation of growth rate, 		oxidoreductase activity, 
gfl-1	M04B2.3	gfl-1 encodes an ortholog of human GLIOMA-AMPLIFIED SEQUENCE-41 (GAS41. OMIM:602116, found in increased copy number in low-grade glioma). loss of GLF-1, which is predicted to associate with chromatin, results in potent suppression of the RNA interference (RNAi) mechanism. GLF-1 is also similar to the transcription factors (yeast and human) AF-9 and human ENL, and thus may represent a novel class of transcription factors. [Source: WormBase]	regulation of transcription, DNA-dependent, RNA interference, 	nucleus, 	
mep-1	M04B2.1	mep-1 is required for repression by the fem-3 3' UTR in vivo, and for maintenance of somatic (versus germline) differentiation. MEP-1 protein has zinc-finger domains and a glutamine/asparagine-rich domain. [Source: WormBase]	positive regulation of growth rate, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
M04B2.2	M04B2.2	M04B2.2 [Source:RefSeq_peptide;Acc:NP_502174]	DNA methylation, embryonic development ending in birth or egg hatching, 		DNA binding, N-methyltransferase activity, 
M04B2.7	M04B2.7	M04B2.7 [Source:RefSeq_peptide;Acc:NP_001023317]			
F12F6.10	F12F6.10	F12F6.10 [Source:RefSeq_peptide;Acc:NP_001076675]			
col-128	F12F6.9	F12F6.9 [Source:RefSeq_peptide;Acc:NP_502175]	phosphate transport, 	cytoplasm, 	
F12F6.8	F12F6.8	F12F6.8 [Source:RefSeq_peptide;Acc:NP_502176]			
F12F6.7	F12F6.7	Probable DNA polymerase delta small subunit (EC 2.7.7.7). [Source:Uniprot/SWISSPROT;Acc:Q19366]	DNA replication, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, DNA-directed DNA polymerase activity, 
sec-24.1	F12F6.6	sec-24.1 encodes one of two C. elegans Sec24 homologs. in Saccharomyces cerevisiae, Sec24 is a member of the Sec24-Sec23 subunit of the COPII coat complex, assembly of which is essential for the first step of secretory protein transport from the endoplasmic reticulum (ER) to the Golgi. by homology with Sec24, SEC-24.1 is predicted to facilitate vesicle cargo selection, and likely contains multiple, independent sites for binding to secreted proteins. loss of sec-24.1 activity via RNAi indicates that SEC-24.1 is required for cuticle secretion and oogenesis. [Source: WormBase]	intracellular protein transport, ER to Golgi vesicle-mediated transport, biological_process, 	proteinaceous extracellular matrix, COPII vesicle coat, 	protein binding, zinc ion binding, phosphopantetheine binding, extracellular matrix structural constituent, 
tag-13	F12F6.5	Temporarily Assigned Gene name family member (tag-13) [Source:RefSeq_peptide;Acc:NP_502179]	signal transduction, 	intracellular, 	protein binding, 
rib-1	F12F6.3	The rib-1 gene encodes an ortholog of human EXT1, which when mutated leads to hereditary multiple exostoses, type I (OMIM:133700). [Source: WormBase]		membrane, 	
F12F6.2	F12F6.2	F12F6.2 [Source:RefSeq_peptide;Acc:NP_502181]			
F12F6.1	F12F6.1	F12F6.1 [Source:RefSeq_peptide;Acc:NP_502182]			
F40F11.4	F40F11.4	F40F11.4 [Source:RefSeq_peptide;Acc:NP_502183]	positive regulation of growth rate, 		calcium ion binding, 
F40F11.3	F40F11.3	F40F11.3 [Source:RefSeq_peptide;Acc:NP_502184]	positive regulation of growth rate, 		
F40F11.2	F40F11.2	F40F11.2 [Source:RefSeq_peptide;Acc:NP_502185]			
rps-11	F40F11.1	rps-11 encodes a small ribosomal subunit S11 protein. by homology, RPS-11 is predicted to function in protein biosynthesis. in C. elegans, RPS-11 activity is required for embryonic and germline development, as well as the overall health of the animal. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y24F12A.2	Y24F12A.2	Y24F12A.2 [Source:RefSeq_peptide;Acc:NP_502187]	embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, 	protein binding, GTP binding, 
Y24F12A.1	Y24F12A.1	Y24F12A.1 [Source:RefSeq_peptide;Acc:NP_502188]			
Y24F12A.3	Y24F12A.3	Y24F12A.3 [Source:RefSeq_peptide;Acc:NP_502189]			
NM_069789.1	Y24F12A.4	Y24F12A.4 (Y24F12A.4) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_069789]			
dsl-5	F58B3.8	dsl-5 encodes a putative secreted protein with single DSL and EGF domains in series, somewhat like Delta/LAG-2. DSL-5 belongs to a nematode-specific family of Delta/LAG-2-like proteins that includes DSL-1, -2, -3, -5, -6, and -7. [Source: WormBase]	cell communication, 	membrane, 	calcium ion binding, 
lys-4	F58B3.1	LYSozyme family member (lys-4) [Source:RefSeq_peptide;Acc:NP_502192]	peptidoglycan catabolic process, cell wall catabolic process, 		lysozyme activity, 
lys-5	F58B3.2	LYSozyme family member (lys-5) [Source:RefSeq_peptide;Acc:NP_502193]	peptidoglycan catabolic process, cell wall catabolic process, 		lysozyme activity, 
lys-6	F58B3.3	LYSozyme family member (lys-6) [Source:RefSeq_peptide;Acc:NP_502194]	peptidoglycan catabolic process, cell wall catabolic process, 		lysozyme activity, 
F58B3.4	F58B3.4		biological_process, 		
mrs-1	F58B3.5	mrs-1 encodes a predicted cytoplasmic methionyl-tRNA synthetase (MetRS), a class I aminoacyl-tRNA synthetase that catalyzes the attachment of methionine to its cognate tRNA and is thus required for protein biosynthesis. MRS-1 is essential for embryogenesis and required also for a normal rate of postembryonic growth. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, methionyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, methionine-tRNA ligase activity, tRNA binding, 
F58B3.6	F58B3.6				
F58B3.7	F58B3.7	F58B3.7 [Source:RefSeq_peptide;Acc:NP_502198]		intracellular, nucleus, 	nucleotide binding, RNA binding, nucleic acid binding, 
F58B3.9	F58B3.9	F58B3.9 [Source:RefSeq_peptide;Acc:NP_502199]			
ZK809.1	ZK809.1	ZK809.1 [Source:RefSeq_peptide;Acc:NP_502200]	protein amino acid dephosphorylation, dephosphorylation, biological_process, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
prx-2	ZK809.7	prx-2 is orthologous to the human gene PEROXISOMAL MEMBRANE PROTEIN 3 (PXMP3. OMIM:170993), which when mutated leads to Zellweger syndrome 3 or infantile Refsum disease. [Source: WormBase]	peroxisome organization and biogenesis, positive regulation of growth rate, 	peroxisomal membrane, 	protein binding, zinc ion binding, 
ZK809.8	ZK809.8	ZK809.8 [Source:RefSeq_peptide;Acc:NP_001023626]			
acl-3	ZK809.2	acl-3 encodes a phosphate acyltransferase that is orthologous to human tafazzin (TAZ. OMIM:300394, mutated in Barth syndrome). by homology, ACL-3 is predicted to be a mitochondrial protein that plays a role in phospholipid metabolism, although loss of acl-3 activity via large-scale RNAi screens results in no obvious defects. [Source: WormBase]	metabolic process, 		acyltransferase activity, 
ZK809.3	ZK809.3	ZK809.3 [Source:RefSeq_peptide;Acc:NP_502203]	positive regulation of growth rate, 		
ent-1	ZK809.4	ent-1 encodes a predicted equilibrative nucleoside transporter 1 that affects growth. [Source: WormBase]	transport, biological_process, 	membrane, 	nucleoside transmembrane transporter activity, 
ZK809.5	ZK809.5	ZK809.5b [Source:RefSeq_peptide;Acc:NP_001023625]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	heterotrimeric G-protein complex, 	signal transducer activity, 
ZK792.1	ZK792.1	ZK792.1a [Source:RefSeq_peptide;Acc:NP_502206]			ATP binding, ATPase activity, acid phosphatase activity, 
ZK792.8	ZK792.8	ZK792.8 encodes a cysteine protease that is the C. elegans ortholog of Saccharomyces cerevisiae Apg4p, a protein required for autophagy. loss of ZK792.8 activity via RNAi results in no obvious defects and does not appear to affect dauer larval formation. [Source: WormBase]			
inx-8	ZK792.2	inx-8 encodes a predicted member of the innexin family that affects fertility. expressed in sheath cells. [Source: WormBase]	reproduction, 	gap junction, 	
inx-9	ZK792.3	inx-9 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. although the precise role of INX-9 in C. elegans development and/or behavior is not yet known, INX-9 may play a role in gonad or germline development, as INX-9 expression is detected solely in the sheath cells of the somatic gonad and particularly, the sheath cells in contact with proximal oocytes. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	gap junction, 	
ZK792.4	ZK792.4	ZK792.4b [Source:RefSeq_peptide;Acc:NP_001023620]			protein binding, 
ZK792.5	ZK792.5	ZK792.5 [Source:RefSeq_peptide;Acc:NP_502212]	gamete generation, 		RNA binding, binding, 
let-60	ZK792.6	let-60 encodes a member of the GTP-binding RAS protooncogene family. let-60 activity is required for viability, vulval development, spicule development, germ line meiotic progression, posterior development of the hypodermis, chemotaxis, sex myoblast migration, and muscle membrane extension. let-60 acts genetically downstream of let-23 with respect to vulval development and upstream of the MAPK pathway with respect to chemotaxis. let-60 is expressed in neural, muscle, and hypodermal lineages. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, biological_process, muscle development, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
ZK792.7	ZK792.7	ZK792.7 [Source:RefSeq_peptide;Acc:NP_502214]			hydrolase activity, 
dpy-20	T22B3.1	dpy-20 encodes a BED zinc finger protein, with no known homologs outside of nematodes, that is required for normal body morphology. [Source: WormBase]	positive regulation of multicellular organism growth, 		DNA binding, 
T22B3.3	T22B3.3	T22B3.3 [Source:RefSeq_peptide;Acc:NP_502216]			structural molecule activity, 
T22B3.2	T22B3.2	T22B3.2a [Source:RefSeq_peptide;Acc:NP_502218]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
magi-1	K01A6.2	MAGI (Membrane Associated Guanylate kinase Inverted) homolog family member (magi-1) [Source:RefSeq_peptide;Acc:NP_502219]			protein binding, 
K01A6.t1	K01A6.t1				
K01A6.6	K01A6.6	K01A6.6 [Source:RefSeq_peptide;Acc:NP_502222]			
K01A6.7	K01A6.7				
K01A6.4	K01A6.4	K01A6.4 [Source:RefSeq_peptide;Acc:NP_502223]	positive regulation of growth rate, 		nutrient reservoir activity, 
K01A6.5	K01A6.5	K01A6.5 [Source:RefSeq_peptide;Acc:NP_502224]			
gem-4	T12A7.1	gem-4 encodes a Ca[2+]-dependent phosphatidylserine binding protein (copine) that antagonizes GON-2 in gonadal cell division, with no other obvious function in normal animals. GEM-4 is highly similar to three human proteins, copine I, copine III, and KIA1599 (40% identity over 590 residues). GEM-4 is also similar to its C. elegans paralog, F26D10.4 (73% identity over 637 residues), with at least three other copines being encoded by the C. elegans genome. since both GEM-4 and GON-2 are predicted to be plasma membrane proteins, they may interact directly. [Source: WormBase]			
T12A7.6	T12A7.6	T12A7.6 [Source:RefSeq_peptide;Acc:NP_502226]			
T12A7.7	T12A7.7	T12A7.7 [Source:RefSeq_peptide;Acc:NP_502227]			
T12A7.3	T12A7.3	T12A7.3 [Source:RefSeq_peptide;Acc:NP_502228]	methylation, 	extracellular region, 	methyltransferase activity, nucleic acid binding, 
T12A7.2	T12A7.2	T12A7.2a [Source:RefSeq_peptide;Acc:NP_001076704]			
T12A7.4	T12A7.4	T12A7.4a [Source:RefSeq_peptide;Acc:NP_001076706]	lipid catabolic process, 		lipase activity, 
T12A7.5	T12A7.5	T12A7.5 [Source:RefSeq_peptide;Acc:NP_502231]	transport, 		transporter activity, binding, 
H01G02.3	H01G02.3	H01G02.3a [Source:RefSeq_peptide;Acc:NP_001023250]			
H01G02.2	H01G02.2	H01G02.2 [Source:RefSeq_peptide;Acc:NP_502232]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
H01G02.4	H01G02.4	H01G02.4 [Source:RefSeq_peptide;Acc:NP_001076692]			
H01G02.1	H01G02.1	H01G02.1 [Source:RefSeq_peptide;Acc:NP_502233]			
M117.1	M117.1	M117.1 [Source:RefSeq_peptide;Acc:NP_502234]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
par-5	M117.2	PAR-5 is a 14-3-3 protein. [Source: WormBase]	embryonic development, morphogenesis of an epithelium, 		protein binding, protein domain specific binding, 
M117.3	M117.3	M117.3 can encode a protein with similarity to the C-terminal half of the 14-3-3 proteins PAR-5 and FTT-2, beginning in predicted alpha helix five and continuing through the ends of the proteins. loss of M117.3 activity via large-scale RNAi results in no obvious abnormalities. [Source: WormBase]			protein domain specific binding, 
M117.8	M117.8				
M117.6	M117.6	M117.6 [Source:RefSeq_peptide;Acc:NP_001023321]			
fbxb-4	M117.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
M117.4	M117.4	M117.4 [Source:RefSeq_peptide;Acc:NP_502238]			structural constituent of cell wall, 
M117.7	M117.7				
F38H4.1	F38H4.1	F38H4.1 [Source:RefSeq_peptide;Acc:NP_502239]			
fbxb-3	F38H4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F38H4.3	F38H4.3	F38H4.3 [Source:RefSeq_peptide;Acc:NP_502241]			protein binding, 
F38H4.6	F38H4.6	F38H4.6 [Source:RefSeq_peptide;Acc:NP_502242]			structural molecule activity, 
F38H4.4	F38H4.4	F38H4.4 [Source:RefSeq_peptide;Acc:NP_502243]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
tag-30	F38H4.7	Temporarily Assigned Gene name family member (tag-30) [Source:RefSeq_peptide;Acc:NP_502244]			protein binding, 
F38H4.5	F38H4.5	F38H4.5 [Source:RefSeq_peptide;Acc:NP_502245]			
ech-2	F38H4.8	Enoyl-CoA Hydratase family member (ech-2) [Source:RefSeq_peptide;Acc:NP_502246]	metabolic process, 		catalytic activity, 
let-92	F38H4.9	let-92 encodes a homolog of PP2AC, the catalytic subunit of protein phosphatase 2A (PP2A), identified genetically in screens for essential genes on chromosome IV. LET-92 may regulate a number of signal transduction pathways as it is required for embryogenesis, larval development, Ras-mediated vulval development, and axonal guidance in the DD and VD neurons. let-92 interacts genetically with sur-6 which encodes a regulatory subunit of PP2A. LET-92 protein is bound both by SMG-2 and by POS-1, and also interacts in vitro with UNC-51 and UNC-14. LET-92 is expressed cytoplasmically in nearly all cells and strongly in many neurons. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, hydrolase activity, 
F38H4.10	F38H4.10	F38H4.10 [Source:RefSeq_peptide;Acc:NP_502248]	embryonic cleavage, 		oxidoreductase activity, transition metal ion binding, 
trpa-1	C29E6.2	trpa-1 encodes a transient receptor potential (TRP) ion channel orthologous to the vertebrate and Drosophila TRPA1 channels. in C. elegans, trpa-1 activity is required for specific mechanosensory behaviors such as nose-touch avoidance and touch-mediated foraging. when expressed in mammalian cells, TRPA-1 exhibits channel activity in response to mechanical stimulation. TRPA-1::GFP reporters are expressed in a number of different cell types including sensory neurons, muscle, and epithelial cells. [Source: WormBase]	ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	ion channel activity, 
pph-2	C29E6.3	Protein PHosphatase family member (pph-2) [Source:RefSeq_peptide;Acc:NP_502251]	protein amino acid dephosphorylation, dephosphorylation, biological_process, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
C29E6.4	C29E6.4	C29E6.4 [Source:RefSeq_peptide;Acc:NP_502252]			
let-653	C29E6.1	let-653 encodes a mucin-like protein similar to the highly glycosylated mucins secreted by the apical surface of epithelia and believed to provide a protective barrier to exposed cellular surfaces. LET-653 is required for viability, locomotion, and for maintaining the tubular epithelial structure of the excretory cell canals. [Source: WormBase]	locomotory behavior, 		
nhr-43	C29E6.5	nhr-43 is predicted to encode a nuclear hormone receptor (NHR). the primary sequence of nhr-43 reveals that it has a leucine instead of a methionine that is conserved within the NHR superfamily at the carboxyl boundary of the DNA-binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
VZK822L.2	VZK822L.2	VZK822L.2 [Source:RefSeq_peptide;Acc:NP_872108]			
fat-6	VZK822L.1	fat-6 encodes a delta-9 fatty acid desaturase that is predicted to be mitochondrial. [Source: WormBase]	positive regulation of growth rate, long-chain fatty acid biosynthetic process, 		oxidoreductase activity, stearoyl-CoA 9-desaturase activity, 
ZK822.1	ZK822.1	ZK822.1 [Source:RefSeq_peptide;Acc:NP_502256]			
ZK822.2	ZK822.2	ZK822.2 [Source:RefSeq_peptide;Acc:NP_502257]			
ZK822.6	ZK822.6	ZK822.6 [Source:RefSeq_peptide;Acc:NP_001023630]			
ZK822.4	ZK822.4	ZK822.4 [Source:RefSeq_peptide;Acc:NP_502258]			
ZK822.t1	ZK822.t1				
nhx-9	ZK822.3	nhx-9 encodes a sodium/proton exchanger expressed intracellularly within the excretory cell, in distinct, large aggregates. nhx-9 has no known mutant or RNAi phenotype. NHX-9 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of vesicular sodium for an intracellular proton. [Source: WormBase]	sodium ion transport, regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
ZK822.5	ZK822.5	ZK822.5a [Source:RefSeq_peptide;Acc:NP_001041067]	transport, 	membrane, integral to membrane, 	transporter activity, 
ZK829.1	ZK829.1	ZK829.1 [Source:RefSeq_peptide;Acc:NP_502263]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
ZK829.3	ZK829.3				
hdl-1	ZK829.2	Probable aromatic-L-amino-acid decarboxylase (EC 4.1.1.28) (AADC) (DOPA decarboxylase) (DDC). [Source:Uniprot/SWISSPROT;Acc:P34751]	amino acid and derivative metabolic process, carboxylic acid metabolic process, 		carboxy-lyase activity, pyridoxal phosphate binding, 
tbx-36	ZK829.5	Putative T-box protein 36. [Source:Uniprot/SWISSPROT;Acc:Q23622]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
ZK829.4	ZK829.4	ZK829.4 is orthologous to the human gene GLYCINE DECARBOXYLASE PRECURSOR (GLUD1. OMIM:238300), which when mutated leads to disease. [Source: WormBase]	amino acid metabolic process, positive regulation of growth rate, 		oxidoreductase activity, 
tgt-1	ZK829.6	tgt-1 encodes a tRNA-guanine transglycosylase predicted to be mitochondrial. [Source: WormBase]	queuosine biosynthetic process, tRNA modification, 		queuine tRNA-ribosyltransferase activity, 
ZK829.7	ZK829.7	ZK829.7 [Source:RefSeq_peptide;Acc:NP_502269]			protein binding, zinc ion binding, 
ZK829.12	ZK829.12				
srj-1	ZK829.8	Serpentine Receptor, class J family member (srj-1) [Source:RefSeq_peptide;Acc:NP_502270]			
snf-8	ZK829.10	Sodium:Neurotransmitter symporter Family family member (snf-8) [Source:RefSeq_peptide;Acc:NP_502271]	neurotransmitter transport, meiotic recombination, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
ZK829.9	ZK829.9	ZK829.9 [Source:RefSeq_peptide;Acc:NP_502272]	transport, 	integral to membrane, 	transporter activity, 
unc-22	ZK617.1	unc-22 encodes twitchin, a giant intracellular protein with multiple fibronectin- and immunoglobulin-like domains and a single protein kinase domain that is homologous to titin (OMIM:188840). UNC-22 is required in muscle for regulation of the actomyosin contraction-relaxation cycle and for maintenance of normal muscle morphology. UNC-22 associates with myosin and is localized to A-bands. in vitro, UNC-22 can phosphorylate myosin light-chain peptides and can undergo autophosphorylation. [Source: WormBase]	protein amino acid phosphorylation, translation, tRNA aminoacylation for protein translation, locomotory behavior, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, nucleotide binding, aminoacyl-tRNA ligase activity, 
ZK617.4	ZK617.4	ZK617.4 [Source:RefSeq_peptide;Acc:NP_001023618]			catalytic activity, 
ZK617.t1	ZK617.t1				
spe-17	ZK617.3	Spermatogenesis-defective protein spe-17. [Source:Uniprot/SWISSPROT;Acc:P34890]			
ZK617.2	ZK617.2	ZK617.2 [Source:RefSeq_peptide;Acc:NP_502276]	lipid catabolic process, 		catalytic activity, lipase activity, 
T12G3.7	T12G3.7	T12G3.7 [Source:RefSeq_peptide;Acc:NP_502277]			
T12G3.6	T12G3.6	T12G3.6 [Source:RefSeq_peptide;Acc:NP_502278]			
T12G3.5	T12G3.5	39S ribosomal protein L51, mitochondrial precursor (L51mt) (MRP-L51). [Source:Uniprot/SWISSPROT;Acc:Q22438]	translation, positive regulation of growth rate, 	mitochondrial large ribosomal subunit, 	protein binding, structural constituent of ribosome, 
T12G3.1	T12G3.1	T12G3.1 [Source:RefSeq_peptide;Acc:NP_502280]			protein binding, zinc ion binding, 
T12G3.2	T12G3.2	The T12G3.2 gene encodes a protein that may be involved in apoptosis. [Source: WormBase]			
T12G3.4	T12G3.4	T12G3.4 [Source:RefSeq_peptide;Acc:NP_502282]	biosynthetic process, 		strictosidine synthase activity, 
bre-5	T12G3.8	The bre-5 gene encodes a putative beta-1,3-galactosyltransferase that is predicted to transfer galactose onto proteins or lipids. BRE-5 is required for Cry5B toxicity. [Source: WormBase]	protein amino acid glycosylation, response to toxin, positive regulation of Notch signaling pathway, 	membrane, 	galactosyltransferase activity, 
spt-5	K08E4.1	Transcription elongation factor SPT5 (DRB sensitivity-inducing factor large subunit) (DSIF large subunit). [Source:Uniprot/SWISSPROT;Acc:Q21338]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 		transcription elongation regulator activity, 
K08E4.2	K08E4.2	K08E4.2 [Source:RefSeq_peptide;Acc:NP_502284]			
K08E4.3	K08E4.3	K08E4.3 [Source:RefSeq_peptide;Acc:NP_502285]			
K08E4.8	K08E4.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3RMT5]			
K08E4.4	K08E4.4	K08E4.4 [Source:RefSeq_peptide;Acc:NP_502286]			
bath-37	K08E4.5	BTB and MATH domain containing family member (bath-37) [Source:RefSeq_peptide;Acc:NP_502287]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K08E4.7	K08E4.7	K08E4.7 [Source:RefSeq_peptide;Acc:NP_001076695]	proteolysis, 		protein binding, zinc ion binding, carboxypeptidase A activity, 
K08E4.6	K08E4.6	K08E4.6 [Source:RefSeq_peptide;Acc:NP_502288]	transport, 	integral to membrane, 	
lex-1	F11A10.1	lex-1 encodes a protein that contains an ATPase domain and a bromodomain and is similar to Saccharomyces cerevisiae Yta7p which is involved in maintaining euchromatin-heterochromatin boundaries. lex-1 functions, together with tam-1, to positively regulate expression of repetitive sequences, such as those found in multicopy transgenes. in addition, like tam-1, lex-1 functions as a class B synthetic Multivulva (synMuv) gene that negatively regulates vulval precursor cell (VPC) induction. as lex-1 and tam-1 mutations, unlike other class B synMuv mutations, do not appear to disrupt germline/soma fate specification, they may influence gene expression in a manner distinct from other class B synMuv genes. [Source: WormBase]			ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F11A10.2	F11A10.2	F11A10.2 [Source:RefSeq_peptide;Acc:NP_502290]	embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
F11A10.7	F11A10.7	F11A10.7 [Source:RefSeq_peptide;Acc:NP_502291]	embryonic development ending in birth or egg hatching, 		nucleotide binding, RNA binding, nucleic acid binding, 
NR_003448.1	F11A10.9	F11A10.9, snoRNA [Source:RefSeq_dna;Acc:NR_003448]			
F11A10.6	F11A10.6	F11A10.6 [Source:RefSeq_peptide;Acc:NP_502292]			
mig-32	F11A10.3	abnormal cell MIGration family member (mig-32) [Source:RefSeq_peptide;Acc:NP_502293]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, 
tag-287	F11A10.8	Temporarily Assigned Gene name family member (tag-287) [Source:RefSeq_peptide;Acc:NP_001023126]	embryonic development ending in birth or egg hatching, 		zinc ion binding, nucleic acid binding, 
F11A10.5	F11A10.5	F11A10.5 [Source:RefSeq_peptide;Acc:NP_502294]			
F11A10.4	F11A10.4	Protein MON2 homolog. [Source:Uniprot/SWISSPROT;Acc:Q19338]			
M18.3	M18.3	M18.3 [Source:RefSeq_peptide;Acc:NP_502296]	asparagine biosynthetic process, 		asparagine synthase (glutamine-hydrolyzing) activity, 
col-129	M18.1	M18.1 [Source:RefSeq_peptide;Acc:NP_502297]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
dlc-2	M18.2	Probable dynein light chain 2, cytoplasmic. [Source:Uniprot/SWISSPROT;Acc:Q21557]	microtubule-based process, 	microtubule associated complex, 	microtubule motor activity, 
ddb-1	M18.5	M18.5 is orthologous to the human gene DAMAGE-SPECIFIC DNA BINDING PROTEIN 1 (127KD) (DDB1. OMIM:600045), which when mutated leads to disease. [Source: WormBase]	positive regulation of growth rate, 	nucleus, 	protein binding, nucleic acid binding, calcium ion binding, 
M18.6	M18.6	M18.6 [Source:RefSeq_peptide;Acc:NP_502300]	ATP-dependent proteolysis, 		ATP-dependent peptidase activity, 
aly-3	M18.7	Ref/ALY RNA export adaptor family member (aly-3) [Source:RefSeq_peptide;Acc:NP_001076697]			protein binding, nucleic acid binding, 
M18.8	M18.8	M18.8 [Source:RefSeq_peptide;Acc:NP_502302]			zinc ion binding, 
lin-24	B0001.1	lin-24 was identified in screens for mutations that result in altered vulval cell lineages. lin-24 is defined by two alleles, the first of which, a partially dominant mutation, generally results in vulvaless animals, while the second, a non-null amber mutation that is also partially dominant, results in wild-type animals when homozygous, but vulvaless animals when heterozygous with a wild-type allele. morphological examination of lin-24 animals indicates that some of the Pn.p cells that normally make up the vulva undergo inappropriate cell death that is dependent upon the ced-2, ced-5, and ced-10 engulfment genes, but not on the ced-3 and ced-4 killing genes. the precise molecular identity of lin-24 has not yet been reported. [Source: WormBase]			protein binding, 
B0001.4	B0001.4	Probable uridine-cytidine kinase (EC 2.7.1.48) (UCK) (Uridine monophosphokinase) (Cytidine monophosphokinase). [Source:Uniprot/SWISSPROT;Acc:Q17413]	biosynthetic process, carbohydrate metabolic process, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, kinase activity, uridine kinase activity, phosphoribulokinase activity, 
B0001.8	B0001.8	B0001.8 [Source:RefSeq_peptide;Acc:NP_502305]			
B0001.5	B0001.5	B0001.5 [Source:RefSeq_peptide;Acc:NP_502306]			
B0001.3	B0001.3	B0001.3 [Source:RefSeq_peptide;Acc:NP_502307]			
B0001.2	B0001.2	B0001.2 [Source:RefSeq_peptide;Acc:NP_502308]	embryonic development ending in birth or egg hatching, 		
B0001.7	B0001.7	B0001.7 [Source:RefSeq_peptide;Acc:NP_502309]	hermaphrodite genitalia development, 		
B0001.6	B0001.6	B0001.6 [Source:RefSeq_peptide;Acc:NP_502310]			
F20B10.3	F20B10.3	F20B10.3 [Source:RefSeq_peptide;Acc:NP_502311]			protein binding, 
nlr-1	F20B10.1	Neurexin Like receptor family member (nlr-1) [Source:RefSeq_peptide;Acc:NP_502312]			calcium ion binding, 
F20B10.2	F20B10.2				
F35G2.1	F35G2.1	F35G2.1a [Source:RefSeq_peptide;Acc:NP_502314]	cell redox homeostasis, 		
F35G2.2	F35G2.2	F35G2.2 [Source:RefSeq_peptide;Acc:NP_502315]	metabolic process, 		protein binding, catalytic activity, identical protein binding, 
F35G2.3	F35G2.3	F35G2.3 [Source:RefSeq_peptide;Acc:NP_502316]			
phy-2	F35G2.4	Prolyl 4-hydroxylase subunit alpha-2 precursor (EC 1.14.11.2) (4-PH alpha-2) (Procollagen-proline,2-oxoglutarate-4-dioxygenase alpha-2 subunit). [Source:Uniprot/SWISSPROT;Acc:Q20065]	protein metabolic process, 		oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
F35G2.5	F35G2.5	F35G2.5a [Source:RefSeq_peptide;Acc:NP_001076685]			
Y39C12A.1	Y39C12A.1	Y39C12A.1 [Source:RefSeq_peptide;Acc:NP_502319]	biological_process, 		
Y39C12A.2	Y39C12A.2		embryonic development ending in birth or egg hatching, 		
sre-18	Y39C12A.3	Serpentine Receptor, class E (epsilon) family member (sre-18) [Source:RefSeq_peptide;Acc:NP_502321]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
Y39C12A.10	Y39C12A.10				
sre-17	Y39C12A.4				
sre-16	Y39C12A.5	Serpentine Receptor, class E (epsilon) family member (sre-16) [Source:RefSeq_peptide;Acc:NP_502323]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, mating-type factor pheromone receptor activity, 
sre-19	Y39C12A.6	Serpentine Receptor, class E (epsilon) family member (sre-19) [Source:RefSeq_peptide;Acc:NP_502324]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sre-15	Y39C12A.7	Serpentine Receptor, class E (epsilon) family member (sre-15) [Source:RefSeq_peptide;Acc:NP_502325]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
dnj-26	Y39C12A.8	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
Y39C12A.9	Y39C12A.9	Y39C12A.9 [Source:RefSeq_peptide;Acc:NP_502327]	protein folding, 		heat shock protein binding, unfolded protein binding, 
sre-14	C42C1.1	Serpentine Receptor, class E (epsilon) family member (sre-14) [Source:RefSeq_peptide;Acc:NP_502328]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C42C1.2	C42C1.2	C42C1.2 [Source:RefSeq_peptide;Acc:NP_502329]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein serine/threonine phosphatase activity, 
rpl-34	C42C1.14	rpl-34 encodes a large ribosomal subunit L34 protein that affects growth and body coloration. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
C42C1.3	C42C1.3	C42C1.3 [Source:RefSeq_peptide;Acc:NP_502331]	positive regulation of growth rate, 		
C42C1.4	C42C1.4	C42C1.4b [Source:RefSeq_peptide;Acc:NP_001023060]			
tag-335	C42C1.5	C42C1.5 [Source:RefSeq_peptide;Acc:NP_502333]	biosynthetic process, embryonic development ending in birth or egg hatching, 		acyltransferase activity, nucleotidyltransferase activity, 
C42C1.13	C42C1.13	C42C1.13 [Source:RefSeq_peptide;Acc:NP_502334]			
C42C1.11	C42C1.11	C42C1.11c [Source:RefSeq_peptide;Acc:NP_001023058]	proteolysis, leukotriene biosynthetic process, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
C42C1.12	C42C1.12	C42C1.12 [Source:RefSeq_peptide;Acc:NP_502336]			
C42C1.10	C42C1.10	C42C1.10 [Source:RefSeq_peptide;Acc:NP_502337]	transport, mitochondrial transport, embryonic development ending in birth or egg hatching, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
C42C1.16	C42C1.16	C42C1.16 [Source:RefSeq_peptide;Acc:NP_502338]			transporter activity, 
C42C1.15	C42C1.15	C42C1.15 [Source:RefSeq_peptide;Acc:NP_502339]			protein binding, 
C42C1.9	C42C1.9		protein amino acid phosphorylation, 		ATP binding, protein serine/threonine kinase activity, 
C42C1.8	C42C1.8	C42C1.8 [Source:RefSeq_peptide;Acc:NP_502341]			
C42C1.7	C42C1.7	C42C1.7 [Source:RefSeq_peptide;Acc:NP_502342]			transferase activity, transferring groups other than amino-acyl groups, 
C42C1.6	C42C1.6	C42C1.6 [Source:RefSeq_peptide;Acc:NP_502343]			
K09E10.1	K09E10.1	K09E10.1 [Source:RefSeq_peptide;Acc:NP_502344]			transferase activity, transferring groups other than amino-acyl groups, 
K09E10.2	K09E10.2	K09E10.2 [Source:RefSeq_peptide;Acc:NP_502345]			transferase activity, transferring groups other than amino-acyl groups, 
F19B6.3	F19B6.3	F19B6.3 [Source:RefSeq_peptide;Acc:NP_502347]			
ufd-1	F19B6.2	Ubiquitin fusion degradation protein 1 homolog (UB fusion protein 1). [Source:Uniprot/SWISSPROT;Acc:Q19584]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 		protein binding, 
F19B6.1	F19B6.1	F19B6.1a [Source:RefSeq_peptide;Acc:NP_502351]	biosynthetic process, carbohydrate metabolic process, reproduction, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, kinase activity, uridine kinase activity, phosphoribulokinase activity, 
wht-5	F19B6.4	F19B6.4 [Source:RefSeq_peptide;Acc:NP_502352]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
ZC518.1	ZC518.1	Uncharacterized protein ZC518.1. [Source:Uniprot/SWISSPROT;Acc:Q23369]			
sec-24.2	ZC518.2	yeast SEC homolog family member (sec-24.2) [Source:RefSeq_peptide;Acc:NP_502354]	intracellular protein transport, ER to Golgi vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	COPII vesicle coat, 	protein binding, zinc ion binding, 
ccr-4	ZC518.3	CCR (yeast CCR4/NOT complex component) homolog family member (ccr-4) [Source:RefSeq_peptide;Acc:NP_001023607]	regulation of transcription, DNA-dependent, transcription initiation, embryonic development ending in birth or egg hatching, 		protein binding, DNA binding, transcription factor activity, sigma factor activity, 
ZC518.4	ZC518.4	ZC518.4 [Source:RefSeq_peptide;Acc:NP_502357]			
F28D1.1	F28D1.1	F28D1.1 [Source:RefSeq_peptide;Acc:NP_502358]	positive regulation of growth rate, 		
F28D1.2	F28D1.2	F28D1.2 [Source:RefSeq_peptide;Acc:NP_502359]	embryonic development ending in birth or egg hatching, 		protein binding, 
thn-8	F28D1.12				
thn-1	F28D1.3	THaumatiN family member (thn-1) [Source:RefSeq_peptide;Acc:NP_502360]	determination of adult life span, 		
thn-3	F28D1.4	THaumatiN family member (thn-3) [Source:RefSeq_peptide;Acc:NP_502361]			
thn-2	F28D1.5	THaumatiN family member (thn-2) [Source:RefSeq_peptide;Acc:NP_502362]			
F28D1.6	F28D1.6	F28D1.6 [Source:RefSeq_peptide;Acc:NP_502363]			
F28D1.8	F28D1.8	F28D1.8 [Source:RefSeq_peptide;Acc:NP_502364]	positive regulation of growth rate, homoiothermy, response to freezing, type I hypersensitivity, 		ice binding, 
rps-23	F28D1.7	rps-23 encodes a small ribosomal subunit S23 protein. by homology, RPS-23 is predicted to function in protein biosynthesis. in C. elegans, RPS-23 activity is required for germline development, vulval morphogenesis, and the overall health of the animal. [Source: WormBase]	translation, biological_process, 	intracellular, small ribosomal subunit, ribosome, 	structural constituent of ribosome, 
NR_003449.1	F28D1.13	F28D1.13, snoRNA [Source:RefSeq_dna;Acc:NR_003449]			
F28D1.11	F28D1.11	Probable dolichol-phosphate mannosyltransferase subunit 3 (Dolichol- phosphate mannose synthase subunit 3) (Dolichyl-phosphate beta-D- mannosyltransferase subunit 3) (Mannose-P-dolichol synthase subunit 3) (MPD synthase subunit 3) (DPM synthase complex su [Source:Uniprot/SWISSPROT;Acc:Q9XVV5]	biological_process, 		
F28D1.9	F28D1.9	F28D1.9 [Source:RefSeq_peptide;Acc:NP_502367]	metabolic process, 		catalytic activity, 
gex-3	F28D1.10	The gex-3 gene encodes a homolog of NAP1/NCKAP1, a mammalian protein ligand of the small GTPase Rac1, and of Drosophila HEM2/NAP1/KETTE. gex-3 is required for tissue morphogenesis and cell migrations. in gex-3 mutants, cells differentiate properly but fail to become organized. [Source: WormBase]	embryonic development ending in birth or egg hatching, oviposition, cell migration, embryonic body morphogenesis, 	cellular_component, 	protein binding, 
F08G5.1	F08G5.1	F08G5.1 [Source:RefSeq_peptide;Acc:NP_502369]	embryonic development ending in birth or egg hatching, 		protein binding, 
acl-13	F08G5.2	ACyLtransferase-like family member (acl-13) [Source:RefSeq_peptide;Acc:NP_502370]	metabolic process, 		acyltransferase activity, 
F08G5.3	F08G5.3	F08G5.3a [Source:RefSeq_peptide;Acc:NP_001023120]			
F08G5.t3	F08G5.t3				
F08G5.t2	F08G5.t2				
F08G5.t1	F08G5.t1				
ugt-65	F08G5.5	UDP-GlucuronosylTransferase family member (ugt-65) [Source:RefSeq_peptide;Acc:NP_502373]	metabolic process, 		transferase activity, transferring hexosyl groups, 
col-130	F08G5.4	F08G5.4 [Source:RefSeq_peptide;Acc:NP_502372]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F08G5.7	F08G5.7	F08G5.7 [Source:RefSeq_peptide;Acc:NP_001023122]			sugar binding, 
F08G5.6	F08G5.6	F08G5.6 [Source:RefSeq_peptide;Acc:NP_502374]	defense response, 		
C25G4.1	C25G4.1	C25G4.1 [Source:RefSeq_peptide;Acc:NP_502375]			sugar binding, 
C25G4.2	C25G4.2	C25G4.2 [Source:RefSeq_peptide;Acc:NP_502376]			hydrolase activity, acting on ester bonds, 
C25G4.3	C25G4.3	C25G4.3 [Source:RefSeq_peptide;Acc:NP_502377]	rRNA processing, 		
dpy-26	C25G4.5	dpy-26 encodes a novel, acidic protein that is highly conserved in other Caenorhabditis species. during development, dpy-26 activity is required for both dosage compensation and meiotic chromosome segregation. DPY-26 localizes to all meiotic chromosomes in the germline and to the hermaphrodite X chromosomes in somatic cells. SDC-1, SDC-2, and SDC-3 proteins form a complex and these three proteins, in turn, colocalize with DPY-26, DPY-27, and MIX-1 proteins both on the X chromosome and on a transgenic her-1(+) array. [Source: WormBase]	oviposition, 		transcription regulator activity, 
tag-347	C25G4.4	Temporarily Assigned Gene name family member (tag-347) [Source:RefSeq_peptide;Acc:NP_502379]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	protein binding, binding, DNA binding, 
C25G4.6	C25G4.6	C25G4.6 [Source:RefSeq_peptide;Acc:NP_502380]	reproduction, 		protein binding, 
C25G4.7	C25G4.7	C25G4.7 [Source:RefSeq_peptide;Acc:NP_502381]			
C25G4.8	C25G4.8	C25G4.8 [Source:RefSeq_peptide;Acc:NP_502382]			
C25G4.9	C25G4.9				
C25G4.11	C25G4.11	C25G4.11 [Source:RefSeq_peptide;Acc:NP_502383]			
C25G4.10	C25G4.10	Ig-like and fibronectin type-III domain-containing protein C25G4.10 precursor. [Source:Uniprot/SWISSPROT;Acc:O18023]			
T04A11.1	T04A11.1	T04A11.4 [Source:RefSeq_peptide;Acc:NP_502388]	biosynthetic process, 		catalytic activity, 
T04A11.2	T04A11.2	T04A11.5 [Source:RefSeq_peptide;Acc:NP_502389]	biosynthetic process, 		catalytic activity, 
T04A11.3	T04A11.3	Ig-like and fibronectin type-III domain-containing protein T04A11.3 precursor. [Source:Uniprot/SWISSPROT;Acc:O18016]			
T04A11.4	T04A11.4	T04A11.4 [Source:RefSeq_peptide;Acc:NP_502388]	biosynthetic process, 		catalytic activity, 
T04A11.5	T04A11.5	T04A11.5 [Source:RefSeq_peptide;Acc:NP_502389]	biosynthetic process, 		catalytic activity, 
sru-26	T04A11.12	Serpentine receptor class U-26 (Protein sru-26). [Source:Uniprot/SWISSPROT;Acc:P83502]			
T04A11.13	T04A11.13		positive regulation of growth rate, 		
him-6	T04A11.6	him-6 encodes a RecQ-like ATP-dependent DNA helicase orthologous to human BLM (OMIM:604610, mutated in Bloom syndrome). HIM-6 is required for normal levels of recombination during meiosis and as such, loss of HIM-6 function results in an increased frequency of genotypically XO males and inviable aneuoploid embryos as a result of higher levels of chromosome nondisjunction. HIM-6 interacts both genetically and in vitro with TOP-3, DNA topoisomerase IIIalpha, with which it functions to regulate genomic stability during germ-line mitosis. HIM-6 is expressed primarily in the germ line. [Source: WormBase]	DNA recombination, 	intracellular, 	ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
sru-20	T04A11.7	Serpentine Receptor, class U family member (sru-20) [Source:RefSeq_peptide;Acc:NP_001023355]			
sru-19	T04A11.8	Serpentine Receptor, class U family member (sru-19) [Source:RefSeq_peptide;Acc:NP_502392]			
sru-18	T04A11.9	Serpentine Receptor, class U family member (sru-18) [Source:RefSeq_peptide;Acc:NP_502393]	signal transduction, 	membrane, 	transmembrane receptor activity, 
sru-17	T04A11.10	Serpentine Receptor, class U family member (sru-17) [Source:RefSeq_peptide;Acc:NP_502394]			
T04A11.14	T04A11.14				
T04A11.11	T04A11.11				
F53B2.7	F53B2.7				
F53B2.10	F53B2.10		positive regulation of growth rate, 		
F53B2.1	F53B2.1		positive regulation of growth rate, 		
sru-10	F53B2.9		positive regulation of growth rate, 		
tsp-4	F53B2.2	F53B2.2 [Source:RefSeq_peptide;Acc:NP_502396]		integral to membrane, 	
sru-13	F53B2.4	Serpentine Receptor, class U family member (sru-13) [Source:RefSeq_peptide;Acc:NP_502397]			
eak-4	F53B2.3	eak-4 encodes a novel protein that contains an N-myristoylation signal. eak-4 acts in parallel to akt-1 to regulate insulin-like signaling and dauer formation. EAK-4 is expressed primarily in the neuroendocrine XXXL/R cells, where it associates with the plasma membrane. [Source: WormBase]	dauer larval development, 		
F53B2.8	F53B2.8	F53B2.8 [Source:RefSeq_peptide;Acc:NP_502399]			
F53B2.5	F53B2.5	F53B2.5 [Source:RefSeq_peptide;Acc:NP_502400]			binding, 
ham-1	F53B2.6	ham-1 encodes a novel protein with a winged helix DNA-binding motif. ham-1 is required for the asymmetric divisions of several neuroblasts in the developing embryo and may influence their spindle position. ham-1 mutations also exhibit HSN motor neuron migration defects. HAM-1 interacts with itself in a yeast two-hybrid screen and observations suggest that its multimerization is required for its proper localization. HAM-1 is cytoplasmic and is asymmetrically distributed to the posterior of the HSNPHB neuroblast. [Source: WormBase]	cell fate determination, 		molecular_function, 
ZK795.1	ZK795.1	ZK795.1 [Source:RefSeq_peptide;Acc:NP_502402]			inositol trisphosphate 3-kinase activity, 
ZK795.2	ZK795.2	ZK795.2 [Source:RefSeq_peptide;Acc:NP_502403]			
ZK795.3	ZK795.3	Brix domain-containing protein ZK795.3. [Source:Uniprot/SWISSPROT;Acc:O62518]	positive regulation of growth rate, 		
ZK795.4	ZK795.4	ZK795.4 [Source:RefSeq_peptide;Acc:NP_001023622]	vesicle-mediated transport, 	integral to membrane, 	
K08E7.10	K08E7.10				
K08E7.1	K08E7.1	K08E7.1 [Source:RefSeq_peptide;Acc:NP_502405]			
hsb-1	K08E7.2	Heat Shock factor Binding protein family member (hsb-1) [Source:RefSeq_peptide;Acc:NP_502406]			protein binding, 
let-99	K08E7.3	let-99 encodes a protein with a DEP domain (Domain found in Dishevelled, Egl-10, and Pleckstrin). LET-99 has no obvious homologs in non-nematodes, but has a truncated paralog (LRG-1) in C. elegans. LET-99 is required for the mitotic spindle to be properly oriented with respect to the axis of cellular polarity, both during anterior migration and rotation of the nuclear-centrosome complex and during anaphase. let-99 mutants exhibit hyperactive nuclear movement and abnormal anaphase spindle pole behavior. LET-99 is mislocalized in par-2 and par-3 mutants. like other proteins containing DEP domains, LET-99 may act as part of a G protein signalling pathway (e.g., the one controlling spindle position). [Source: WormBase]	intracellular signaling cascade, embryonic development ending in birth or egg hatching, 		
K08E7.4	K08E7.4	K08E7.4 [Source:RefSeq_peptide;Acc:NP_502408]			
K08E7.5	K08E7.5	K08E7.5c [Source:RefSeq_peptide;Acc:NP_001040967]			protein binding, 
K08E7.6	K08E7.6	K08E7.6 [Source:RefSeq_peptide;Acc:NP_502410]			
K08E7.8	K08E7.8	K08E7.8a [Source:RefSeq_peptide;Acc:NP_001040969]			protein binding, 
cul-6	K08E7.7	cul-6 encodes a member of the cullin family that may physically interact with SKR-3. [Source: WormBase]	cell cycle, positive regulation of growth rate, 		
pgp-1	K08E7.9	pgp-1 encodes a transmembrane protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. along with PGP-3, PGP-1 is required for defense against the pathogenic Pseudomonas aeruginosa strain PA14, and may facilitate ATP-dependent efflux of the toxic phenazine compounds produced by the bacteria. PGP-1 is expressed in the apical membrane of intestinal cells and in the intestinal valve cells. loss of pgp-1 activity via large-scale RNAi screens does not result in any obvious abnormalities. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
K08E7.t1	K08E7.t1				
Y55D9A.2	Y55D9A.2	Y55D9A.2a [Source:RefSeq_peptide;Acc:NP_502414]		intracellular, 	nucleic acid binding, 
efa-6	Y55D9A.1	Y55D9A.1 encodes a putative guanine nucleotide exchange factor EFA6, with a central Sec7 domain predicted to activate guanine-nucleotide exchange in ARF1, and a C-terminal pleckstrin-homology domain predicted to activate the Sec7 domain when binding phosphatidylinositol. Y55D9A.1's human orthologs are the pleckstrin and Sec7 domain proteins PSD/TYL/cytohesin-1 (OMIM:602327), PSD2, PSD3, and PSD4. PSD activates beta2-integrin binding, PSD3 is misregulated in cancers, and PSD4's C-terminal domain induces microvillar lengthening. [Source: WormBase]	regulation of ARF protein signal transduction, 	intracellular, 	ARF guanyl-nucleotide exchange factor activity, 
ark-1	C01C7.1	ark-1 encodes a homolog of the nonreceptor tyrosine kinase ACK which inhibits signalling through the EGF receptor homolog LET-23, both in (RAS-dependent) vulval development and in (RAS-independent) ovulation. [Source: WormBase]	protein amino acid phosphorylation, negative regulation of vulval development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
vha-7	C26H9A.1	vha-7 encodes an ortholog of subunit a of the membrane-bound (V0) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-7 is orthologous to human ATP6N1A (OMIM:192130), ATP6V0A2, ATP6V0A4 (OMIM:605239, mutated in distal renal tubular acidosis), and TCIRG1 (OMIM:604592, mutated in osteopetrosis). vha-7 is expressed in hypodermis and uterus. VHA-7 is dispensable for viability, since vha-7(RNAi) animals develop to normal, healthy adults. in S. cerevisiae, different V0 a-subunits (Stv1p and Vph1p) direct the assembly of V-ATPases to different membranes and organelles, suggesting that the profusion of such subunits in C. elegans (co-orthologous VHA-5, VHA-6, VHA-7, and six UNC-32 isoforms) may have a similar function. VHA-7 is predicted to capture protons from V-ATPase transmembrane rotor components and export the protons across the membrane. [Source: WormBase]	signal transduction, proton transport, 	membrane, intracellular, 	sugar binding, 
C26H9A.2	C26H9A.2	C26H9A.2 [Source:RefSeq_peptide;Acc:NP_502420]			
VT23B5.1	VT23B5.1	VT23B5.1 [Source:RefSeq_peptide;Acc:NP_502421]	electron transport, 		
VT23B5.2	VT23B5.2	The VT23B5.2 gene encodes a homolog of human CHS, when when mutated leads to Chediak-Higashi syndrome (OMIM:214500). [Source: WormBase]			zinc ion binding, 
T23B5.4	T23B5.4	T23B5.4 [Source:RefSeq_peptide;Acc:NP_001023399]		cytoplasm, 	
T23B5.1	T23B5.1	T23B5.1a [Source:RefSeq_peptide;Acc:NP_001040990]	rRNA modification, 		rRNA (adenine-N6,N6-)-dimethyltransferase activity, rRNA methyltransferase activity, 
T23B5.3	T23B5.3	T23B5.3a [Source:RefSeq_peptide;Acc:NP_001023397]			
C27D8.4	C27D8.4	C27D8.4 [Source:RefSeq_peptide;Acc:NP_502425]			oxidoreductase activity, 
C27D8.3	C27D8.3	The C27D8.3 gene encodes a protein that may be involved in apoptosis. [Source: WormBase]			
C27D8.2	C27D8.2	C27D8.2 [Source:RefSeq_peptide;Acc:NP_502427]			
C27D8.1	C27D8.1	C27D8.1 [Source:RefSeq_peptide;Acc:NP_502428]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T23F6.1	T23F6.1	T23F6.1 [Source:RefSeq_peptide;Acc:NP_502429]			
T23F6.2	T23F6.2	T23F6.2 [Source:RefSeq_peptide;Acc:NP_502430]			
T23F6.3	T23F6.3	T23F6.3 [Source:RefSeq_peptide;Acc:NP_502431]			protein binding, zinc ion binding, 
rbd-1	T23F6.4	rbd-1 encodes an ortholog of S. cerevisiae MRD1 that may suppress tumorous growth in the germline. like PRO-1, -2, and -3, RBD-1 is probably required for ribosome biogenesis, suggesting a link between biogenesis in the distal sheath and control of cell division in the germline. [Source: WormBase]	positive regulation of growth rate, 		nucleotide binding, RNA binding, nucleic acid binding, 
T23F6.7	T23F6.7				
T23F6.5	T23F6.5	T23F6.5 [Source:RefSeq_peptide;Acc:NP_502433]			
C36H8.1	C36H8.1	C36H8.1 [Source:RefSeq_peptide;Acc:NP_502434]	positive regulation of locomotion, 		protein binding, structural molecule activity, 
inx-6	C36H8.2	inx-6 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. INX-6 is required for formation of pharyngeal gap junctions and thus for the electrical coupling and synchronous muscle contractions necessary for normal feeding behavior and postembryonic development. INX-6 may function redundantly with EAT-5, another C. elegans innexin. INX-6 expression is first detected in embryonic pharyngeal precursors and during later larval and adult stages, in pharyngeal corpus muscles and isthmus marginal cells, where INX-6 localizes to plaque-like structures in the plasma membrane. [Source: WormBase]		gap junction, 	
flp-9	C36H8.3	flp-9 encodes a predicted FMRFamide-like peptide neurotransmitter that inhibits action potentials in the pharyngeal muscle when applied to the pharynx of dissected worms and inhibits movement when injected into A. suum. expressed at highest levels prior to adulthood. [Source: WormBase]	neuropeptide signaling pathway, locomotory behavior, 	cellular_component, 	
unc-31	ZK897.1	unc-31 encodes a pleckstrin homology (PH) domain-containing protein orthologous to human calcium-dependent activator protein for secretion (CADPS, OMIM:604667). UNC-31 functions in post-docking calcium-regulated dense-core vesicle fusion that is required for egg laying, locomotion, pharyngeal pumping, and recovery from the dauer larval stage. in addition, UNC-31 functions in the insulin receptor signaling pathway that regulates adult life span where it may control Ca[2+]-regulated secretion of an insulin-like ligand. [Source: WormBase]	locomotory behavior, 		
NR_000374.1	ZK897.2	F07C6.5, snRNA [Source:RefSeq_dna;Acc:NR_000374]			
NR_000376.1	ZK897.3	ZK897.3, snRNA [Source:RefSeq_dna;Acc:NR_000376]			
NR_000377.1	ZK897.4	ZK897.4, snRNA [Source:RefSeq_dna;Acc:NR_000377]			
F07C6.3	F07C6.3	F07C6.3 [Source:RefSeq_peptide;Acc:NP_502438]			
F07C6.2	F07C6.2	F07C6.2 [Source:RefSeq_peptide;Acc:NP_502439]			
F07C6.6	F07C6.6	F07C6.6 [Source:RefSeq_peptide;Acc:NP_001076674]			
pin-2	F07C6.1	pin-2 encodes a LIM domain-containing protein that, along with UNC-97, comprises the two C. elegans members of the PINCH family of predicted adapter proteins. based upon its similarity to Drosophila and vertebrate members of the PINCH family, PIN-2 is predicted to play a role in regulation of cell morphology, motility, and survival, but as loss of pin-2 via large-scale RNAi results in no obvious defects, the precise role of PIN-2 in C. elegans development and/or behavior is not yet known. a PIN-2::GFP fusion protein is first expressed in embryos just prior to hatching and in early larvae is seen in several neurons, including the PVT neuron, and in intestinal cells. during postembryonic development, neuronal expression continues, whereas intestinal expression gradually declines. PIN-2 localizes to the cytoplasm and to the nucleus, and in neurons, is seen in axonal processes and varicosities. [Source: WormBase]			protein binding, zinc ion binding, 
NR_000374.1	F07C6.5	F07C6.5, snRNA [Source:RefSeq_dna;Acc:NR_000374]			
F07C6.4	F07C6.4	F07C6.4b [Source:RefSeq_peptide;Acc:NP_502442]	signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, cytoskeleton, 	
M02B1.4	M02B1.4	M02B1.4 [Source:RefSeq_peptide;Acc:NP_502444]	embryonic development ending in birth or egg hatching, 		
M02B1.3	M02B1.3	M02B1.3 [Source:RefSeq_peptide;Acc:NP_502445]		integral to membrane, 	
M02B1.2	M02B1.2	M02B1.2 [Source:RefSeq_peptide;Acc:NP_502446]			
srf-3	M02B1.1	UDP-galactose/UDP-N-acetylglucosamine transporter srf-3 (Surface antigenicity abnormal 3). [Source:Uniprot/SWISSPROT;Acc:Q93890]	carbohydrate transport, nucleotide-sugar transport, UDP-galactose transport, UDP-N-acetylglucosamine transport, 	integral to membrane, Golgi membrane, integral to Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, UDP-galactose transmembrane transporter activity, UDP-N-acetylglucosamine transmembrane transporter activity, 
ZK896.9	ZK896.9	ZK896.9 [Source:RefSeq_peptide;Acc:NP_502448]	carbohydrate transport, nucleotide-sugar transport, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
gcy-18	ZK896.8	gcy-18 encodes a receptor-type guanylyl cyclase that, along with gcy-8 and gcy-23, constitutes a subfamily of guanylyl cyclase genes in C. elegans. gcy-18 functions redundantly with gcy-8 and gcy-23, and upstream of tax-4, to regulate thermotaxis via the AFD thermosensory neurons, although of the three guanylyl cyclases required, genetic analyses suggest that GCY-18 is the primary guanylyl cyclase required. in addition, microarray experiments indicate that gcy-18 expression is induced in daf-16(RNAi). daf-2(RNAi) double mutants and repressed in daf-2(RNAi) mutants, suggesting that GCY-18 activity may contribute to a shortened lifespan. consistent with this, loss of gcy-18 activity via RNAi does result in lifespan extension. GCY-18 is expressed exclusively in the AFD thermosensory neurons, where it localizes to sensory endings. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, determination of adult life span, thermosensory behavior, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, GABA-B receptor activity, 
ZK896.7	ZK896.7	ZK896.7 [Source:RefSeq_peptide;Acc:NP_502450]			sugar binding, 
ZK896.6	ZK896.6	ZK896.6 [Source:RefSeq_peptide;Acc:NP_502451]			sugar binding, 
ZK896.1	ZK896.1	ZK896.1 [Source:RefSeq_peptide;Acc:NP_502452]			
ZK896.5	ZK896.5	ZK896.5 [Source:RefSeq_peptide;Acc:NP_502453]			
ZK896.4	ZK896.4	ZK896.4 [Source:RefSeq_peptide;Acc:NP_502454]			
ZK896.3	ZK896.3				
K08D8.6	K08D8.6	K08D8.6 [Source:RefSeq_peptide;Acc:NP_502457]		membrane, 	
K08D8.1	K08D8.1	K08D8.1 [Source:RefSeq_peptide;Acc:NP_502458]			
K08D8.2	K08D8.2	K08D8.2 [Source:RefSeq_peptide;Acc:NP_502459]			
K08D8.3	K08D8.3	K08D8.3 [Source:RefSeq_peptide;Acc:NP_502460]			
K08D8.4	K08D8.4	K08D8.4c [Source:RefSeq_peptide;Acc:NP_001023286]	transport, 	membrane, 	hydrogen:sugar symporter activity, 
K08D8.5	K08D8.5	K08D8.5 [Source:RefSeq_peptide;Acc:NP_502462]			
C32H11.1	C32H11.1	C32H11.1 [Source:RefSeq_peptide;Acc:NP_502463]			
srz-15	C32H11.2	Serpentine Receptor, class Z family member (srz-15) [Source:RefSeq_peptide;Acc:NP_502464]			
C32H11.3	C32H11.3	C32H11.3 [Source:RefSeq_peptide;Acc:NP_502465]			
C32H11.4	C32H11.4	C32H11.4 [Source:RefSeq_peptide;Acc:NP_502466]			
C32H11.5	C32H11.5	C32H11.5 [Source:RefSeq_peptide;Acc:NP_502467]			protein binding, 
C32H11.6	C32H11.6	C32H11.6 [Source:RefSeq_peptide;Acc:NP_502468]			
C32H11.7	C32H11.7	C32H11.7a [Source:RefSeq_peptide;Acc:NP_001040917]			
C32H11.8	C32H11.8	C32H11.11 [Source:RefSeq_peptide;Acc:NP_502473]			
C32H11.9	C32H11.9	C32H11.9 [Source:RefSeq_peptide;Acc:NP_502471]			
dod-21	C32H11.10	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-21) [Source:RefSeq_peptide;Acc:NP_502472]	determination of adult life span, 		
C32H11.11	C32H11.11	C32H11.11 [Source:RefSeq_peptide;Acc:NP_502473]			
dod-24	C32H11.12	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-24) [Source:RefSeq_peptide;Acc:NP_502474]	determination of adult life span, 		
C32H11.13	C32H11.13	C32H11.13 [Source:RefSeq_peptide;Acc:NP_502475]			
F55G11.1	F55G11.1	F55G11.1 [Source:RefSeq_peptide;Acc:NP_502476]			
F55G11.10	F55G11.10	F55G11.10 [Source:RefSeq_peptide;Acc:NP_502477]			
abt-3	F55G11.9	abt-3 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. ABT-3 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of abt-3 activity via RNAi results in no obvious defects, the precise role of abt-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	UDP-glucose metabolic process, 	membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, cellulose synthase activity, 
F55G11.6	F55G11.6	F55G11.6 [Source:RefSeq_peptide;Acc:NP_502479]			
F55G11.7	F55G11.7	F55G11.7 [Source:RefSeq_peptide;Acc:NP_502480]			
F55G11.8	F55G11.8	F55G11.8 [Source:RefSeq_peptide;Acc:NP_502481]			
dod-22	F55G11.5	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-22) [Source:RefSeq_peptide;Acc:NP_502482]	determination of adult life span, 		
F55G11.2	F55G11.2	F55G11.2 [Source:RefSeq_peptide;Acc:NP_502483]			
F55G11.3	F55G11.3				
F55G11.4	F55G11.4	F55G11.4 [Source:RefSeq_peptide;Acc:NP_502485]			
dod-17	K10D11.1	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-17) [Source:RefSeq_peptide;Acc:NP_502486]	determination of adult life span, 		
K10D11.2	K10D11.2	K10D11.2 [Source:RefSeq_peptide;Acc:NP_502487]			
K10D11.3	K10D11.3	K10D11.3 [Source:RefSeq_peptide;Acc:NP_502488]			
K10D11.6	K10D11.6	K10D11.6 [Source:RefSeq_peptide;Acc:NP_502489]			
K10D11.5	K10D11.5	K10D11.5 [Source:RefSeq_peptide;Acc:NP_502490]			
K10D11.4	K10D11.4	K10D11.4 [Source:RefSeq_peptide;Acc:NP_502491]			
K10D11.7	K10D11.7	K10D11.7 [Source:RefSeq_peptide;Acc:NP_001076696]			
mbk-2	F49E11.1	mbk-2 encodes one of two C. elegans members of the DYRK (dual-specificity Yak1-related kinase) family of proteins that includes S. cerevisiae Yak1 and the Drosophila minibrain and DYRK2 kinases. MBK-2 activity is required maternally for the egg-to-embryo transition that occurs during the earliest stages of embryonic development. specifically, MBK-2 is required for: 1) posterior localization of the germ plasm components PIE-1, POS-1, and PGL-1, and 2) postfertilization degradation of a subset of maternal proteins including the MEI-1 and MEI-2 meiosis-specific katanin subunits, the OMA-1 oocyte maturation factor, and residual PIE-1 that remains anteriorly localized after its normal posterior segregation. genetic analyses suggest that, in regulating the segregation and degradation of maternal proteins, mbk-2 lies downstream of the initial embryonic polarity cues established by the PAR/MEX proteins. MBK-2, whose activity appears to depend upon progression through the meiotic divisions, is expressed uniformly in the cortex of oocytes and newly fertilized zygotes. in later zygotes, just prior to the second meiotic division, MBK-2 becomes localized to discrete cortical foci, and by the first mitosis it is found predominantly on centrosomes and chromosomes. MBK-2 is also associated with P granules in the germline blastomeres P2, P3, and P4. [Source: WormBase]	protein amino acid phosphorylation, morphogenesis of an epithelium, positive regulation of protein catabolic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T13E8.3	T13E8.3		establishment of mitotic spindle orientation, 		
T13E8.2	T13E8.2		establishment of mitotic spindle orientation, 		
T13E8.1	T13E8.1				
F49E11.2	F49E11.2	F49E11.2 [Source:RefSeq_peptide;Acc:NP_502495]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
amt-2	F49E11.3	amt-2 encodes a transmembrane protein that is one of four C. elegans members of the ammonium transporter AMT/Rh family of proteins predicted to function in transport of ammonium ions across the plasma membrane. [Source: WormBase]	transport, 	membrane, 	ammonium transmembrane transporter activity, 
F49E11.t1	F49E11.t1				
F49E11.t2	F49E11.t2				
tag-254	F49E11.4	Temporarily Assigned Gene name family member (tag-254) [Source:RefSeq_peptide;Acc:NP_502497]		extracellular region, 	
F49E11.5	F49E11.5	F49E11.5 [Source:RefSeq_peptide;Acc:NP_502498]		extracellular region, 	
F49E11.6	F49E11.6	F49E11.6 [Source:RefSeq_peptide;Acc:NP_502499]		extracellular region, 	
F49E11.7	F49E11.7	F49E11.7 [Source:RefSeq_peptide;Acc:NP_502500]	embryonic development ending in birth or egg hatching, 		hydrolase activity, 
F49E11.8	F49E11.8	F49E11.8 [Source:RefSeq_peptide;Acc:NP_502501]			
scl-1	F49E11.9	scl-1 encodes a predicted secretory protein that is a member of the cysteine-rich secretory protein (CRISP) family. scl-1 activity positively regulates longevity and stress resistance. in wild-type animals, scl-1 mRNA is detected solely in eggs, while in daf-2 mutants it is detected in eggs and late adult stages. scl-1 expression appears to be under the control of the DAF-2/insulin-like signaling pathway as, in mixed-stage cultures, scl-1 mRNA levels are increased in daf-2 and age-1 mutants and undetectable in daf-16 mutants. scl-1 contains a DAF-16 consensus binding element within its predicted regulatory regions. [Source: WormBase]	response to heat, determination of adult life span, 	extracellular region, 	
F49E11.10	F49E11.10	F49E11.10 [Source:RefSeq_peptide;Acc:NP_502503]		extracellular region, 	
F49E11.11	F49E11.11	F49E11.11 [Source:RefSeq_peptide;Acc:NP_502504]		extracellular region, 	
C39E9.1	C39E9.1	C39E9.1 [Source:RefSeq_peptide;Acc:NP_502505]		extracellular region, 	nutrient reservoir activity, 
C39E9.2	C39E9.2	C39E9.2 [Source:RefSeq_peptide;Acc:NP_502506]		extracellular region, 	
col-131	C39E9.3	C39E9.3 [Source:RefSeq_peptide;Acc:NP_502507]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
C39E9.4	C39E9.4	C39E9.4 [Source:RefSeq_peptide;Acc:NP_502508]		extracellular region, 	
C39E9.5	C39E9.5	C39E9.5 [Source:RefSeq_peptide;Acc:NP_502509]		extracellular region, 	
C39E9.6	C39E9.6	C39E9.6 [Source:RefSeq_peptide;Acc:NP_502510]		extracellular region, 	
C39E9.7	C39E9.7	C39E9.7 [Source:RefSeq_peptide;Acc:NP_502511]			inorganic anion transmembrane transporter activity, 
C39E9.8	C39E9.8	C39E9.8b [Source:RefSeq_peptide;Acc:NP_001023053]			
C39E9.10	C39E9.10	C39E9.10 [Source:RefSeq_peptide;Acc:NP_502513]	transport, immune response, positive regulation of growth rate, 	membrane, integral to membrane, 	transporter activity, tumor necrosis factor receptor binding, 
col-132	C39E9.9	C39E9.9 [Source:RefSeq_peptide;Acc:NP_502514]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C39E9.11	C39E9.11	C39E9.11 is orthologous to the human gene PAPILLARY RENAL CELL CARCINOMA (TRANSLOCATION-ASSOCIATED) (PRCC. OMIM:179755), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
C39E9.12	C39E9.12	C39E9.12 [Source:RefSeq_peptide;Acc:NP_502516]			nucleic acid binding, 
rfc-3	C39E9.13	RFC (DNA replication factor) family member (rfc-3) [Source:RefSeq_peptide;Acc:NP_502517]	embryonic development ending in birth or egg hatching, 		nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
dli-1	C39E9.14	Dynein Light Intermediate chain family member (dli-1) [Source:RefSeq_peptide;Acc:NP_502518]	small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, morphogenesis of an epithelium, 		protein binding, GTP binding, GTPase activity, signal transducer activity, motor activity, guanyl nucleotide binding, 
exos-4.1	B0564.1	The tin-9.2 locus encodes two disjoint protein products by alternative splicing, an ortholog of S. cerevisiae Tin9p (for which the locus is names) and a putative Rrp41 subunit of the exosomal 3'-5' exoribonuclease complex (termed simply B0564.1). TIN-9.2 protein is mitochondrial. TIN-9.2 is required for normal locomotion and development, for mitochondrial import of the ADP/ATP carrier, and (by inference) for import of many other inner mitochondrial membrane proteins. tin-9.2(RNAi) animals have abnormally small body and brood sizes, are sluggish and partly embryonic lethal, have defectively migrating distal tip cells (yielding defective somatic gonads), have an increased frequency of protruding vulvae, and fail to take up ADP/ATP carrier protein into isolated mitochondria. [Source: WormBase]	RNA processing, tRNA processing, protein targeting to mitochondrion, protein import into mitochondrial inner membrane, growth, 	mitochondrial intermembrane space protein transporter complex, 	RNA binding, 3'-5'-exoribonuclease activity, tRNA binding, tRNA-specific ribonuclease activity, 
B0564.7	B0564.7	B0564.7 [Source:RefSeq_peptide;Acc:NP_502521]			
B0564.11	B0564.11	B0564.11 [Source:RefSeq_peptide;Acc:NP_001021278]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
B0564.2	B0564.2	B0564.2 [Source:RefSeq_peptide;Acc:NP_502522]			
B0564.3	B0564.3	Uncharacterized protein B0564.3. [Source:Uniprot/SWISSPROT;Acc:Q17528]			
B0564.4	B0564.4	Uncharacterized protein B0564.4. [Source:Uniprot/SWISSPROT;Acc:Q17529]			
unc-30	B0564.10	unc-30 encodes a homeodomain-containing protein that is orthologous to the Pitx family of homeodomain transcription factors. during develpoment, UNC-30 controls the terminal differentiation of all 19 type D GABA-ergic motor neurons by directly regulating the expression of UNC-25/GAD and UNC-47/VGAT, which regulate GABA formation and secretion, respectively. UNC-30 is expressed most strongly in type D motor neurons during early L1 and L2 larval stages. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of transcription from RNA polymerase II promoter, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
B0564.8	B0564.8				
B0564.6	B0564.6	B0564.9 [Source:RefSeq_peptide;Acc:NP_502528]			protein binding, 
B0564.9	B0564.9	B0564.9 [Source:RefSeq_peptide;Acc:NP_502528]			protein binding, 
F09E8.1	F09E8.1	F09E8.1 [Source:RefSeq_peptide;Acc:NP_502529]			endopeptidase inhibitor activity, 
F09E8.8	F09E8.8	F09E8.8 [Source:RefSeq_peptide;Acc:NP_001023125]			
F09E8.2	F09E8.2	F09E8.2 [Source:RefSeq_peptide;Acc:NP_502530]	immune response, 	endoplasmic reticulum, 	calcium ion binding, 
msh-5	F09E8.3	msh-5 encodes a germline-specific homolog of the yeast and mammalian DNA mismatch repair protein MSH5 (MutS-family) that is required for crossing over and chiasma formation during Caenorhabditis elegans meiosis. inactivation of both rad-51 and msh-5 induces chromosome fragmentation, not seen with inactivation of either gene alone. [Source: WormBase]	mismatch repair, meiotic recombination, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, protein binding, mismatched DNA binding, 
F09E8.5	F09E8.5	F09E8.5 [Source:RefSeq_peptide;Acc:NP_502532]		extracellular region, 	
nas-14	F09E8.6	Zinc metalloproteinase nas-14 precursor (EC 3.4.24.21) (Nematode astacin 14). [Source:Uniprot/SWISSPROT;Acc:Q19269]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
lev-1	F09E8.7	lev-1 encodes an alpha subunit of nicotinic acetylcholine receptor (nAChR) which, when mutated, confers resistance to levamisole. LEV-1 is required for completely normal locomotion, and forms a cation channel when coexpressed with UNC-38 or UNC-63 and UNC-29. LEV-1 falls into the 'UNC-29' class of nAChR subunits, which includes UNC-29, ACR-2, and ACR-3. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F58D2.3	F58D2.3				
F58D2.1	F58D2.1	F58D2.1 [Source:RefSeq_peptide;Acc:NP_502535]	embryonic development ending in birth or egg hatching, 		protein binding, 
F58D2.2	F58D2.2	F58D2.2 [Source:RefSeq_peptide;Acc:NP_502536]			
C48D1.1	C48D1.1	C48D1.1b [Source:RefSeq_peptide;Acc:NP_001040929]			protein binding, 
ced-3	C48D1.2	The ced-3 gene encodes a protease required for apoptosis. [Source: WormBase]	proteolysis, apoptosis, regulation of apoptosis, reproduction, 	intracellular, 	cysteine-type peptidase activity, protein binding, caspase activity, 
C48D1.7	C48D1.7				
cho-1	C48D1.3	cho-1 encodes a high-affinity choline transporter orthologous to members of the sodium-dependent glucose transporter family. CHO-1 is expressed in cholinergic neurons. [Source: WormBase]	transport, acetylcholine biosynthetic process, 	membrane, 	transporter activity, choline transmembrane transporter activity, 
C48D1.5	C48D1.5	C48D1.5 [Source:RefSeq_peptide;Acc:NP_001023082]			
C48D1.6	C48D1.6				
JC8.11	JC8.11	JC8.11a [Source:RefSeq_peptide;Acc:NP_001040956]			
JC8.2	JC8.2	JC8.2 [Source:RefSeq_peptide;Acc:NP_502541]			
tag-115	JC8.13	Temporarily Assigned Gene name family member (tag-115) [Source:RefSeq_peptide;Acc:NP_741494]			
rpl-12	JC8.3	rpl-12 encodes a large ribosomal subunit L12 protein required in mass RNAi assays for embryonic viability, fertility, normally rapid growth, and general health. the rpl-12 transcription unit has a nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that rpl-12 is a natural substrate for SMG-mediated nonsense suppresssion. several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-7, rpl-10) have protein products that are involved in translation. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
lin-54	JC8.6	abnormal cell LINeage family member (lin-54) [Source:RefSeq_peptide;Acc:NP_502544]	positive regulation of growth rate, 		
JC8.4	JC8.4	JC8.4 [Source:RefSeq_peptide;Acc:NP_502546]	embryonic development ending in birth or egg hatching, 		zinc ion binding, hydrolase activity, 
JC8.5	JC8.5	JC8.5 [Source:RefSeq_peptide;Acc:NP_502547]	positive regulation of growth rate, 		copper ion binding, 
JC8.7	JC8.7	JC8.7 [Source:RefSeq_peptide;Acc:NP_502548]			
JC8.8	JC8.8	JC8.8 [Source:RefSeq_peptide;Acc:NP_502549]			
JC8.14	JC8.14	JC8.14 [Source:RefSeq_peptide;Acc:NP_001040959]			
JC8.12	JC8.12	JC8.12a [Source:RefSeq_peptide;Acc:NP_001040957]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
unc-26	JC8.10	unc-26 encodes synaptojanin, a polyphosphoinositide phosphatase orthologous to human synaptojanin 1 (OMIM:604297, 309000, which when mutated leads to Lowe oculocerebrorenal syndrome). UNC-26 is required for normal locomotion, pharyngeal pumping, and defecation, and specifically, appears to function in multiple steps of synaptic vesicle recycling. UNC-26 may also play a role in cytoskeletal organization. [Source: WormBase]	regulation of transcription, DNA-dependent, locomotory behavior, locomotion, 	nucleus, 	ATP binding, DNA binding, inositol or phosphatidylinositol phosphatase activity, 
Y67H2A.1	Y67H2A.1	Y67H2A.1 [Source:RefSeq_peptide;Acc:NP_502553]	embryonic development ending in birth or egg hatching, 		hydrolase activity, 
Y67H2A.10	Y67H2A.10	Y67H2A.10 encodes a divergent ortholog of S. cerevisiae SFP1p. in yeast, and probably other eukaryotes, SFP1p is a stress-modulated transcription factor. Y67H2A.10's orthology is invisible in its primary sequence alone, but is detectable by examining the Brugia malayi ortholog of SFP1p, 14538.m00477. [Source: WormBase]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
Y67H2A.2	Y67H2A.2	Y67H2A.2a [Source:RefSeq_peptide;Acc:NP_001041056]			
Y67H2A.3	Y67H2A.3				
Y67H2A.4	Y67H2A.4	Y67H2A.4a [Source:RefSeq_peptide;Acc:NP_502555]			calcium ion binding, 
Y67H2A.5	Y67H2A.5	Y67H2A.5 [Source:RefSeq_peptide;Acc:NP_502556]	biological_process, 		
csn-6	Y67H2A.6	csn-6 encodes a homolog of COP9 signalosome complex subunit 2 that affects embryonic viability and fertility. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y67H2A.7	Y67H2A.7	Y67H2A.7 [Source:RefSeq_peptide;Acc:NP_502558]	proteolysis, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
fat-1	Y67H2A.8	fat-1 encodes an omega-3 fatty acyl desaturase that acts on substrates of 16-20 carbons with a preference for omega-6 fatty acids. FAT-1 dehydrogenates its substrates 3 carbons from the methyl terminus. FAT-1 is required in vivo for n3 polyunsaturated fatty acid (PUFA) synthesis. the fatty acids of fat-1(wa9) mutants consist of 20% arachidonic acid (20:4n6), instead of the 20% eicosapentaenoic acid (20:5n3) seen in wild-type worms. fat-1(wa9) mutants are generally normal, with normal chemotaxis. fat-4(wa14) fat-1(wa9) double mutants are superficially normal but have deficient chemotaxis to AWA-sensed odorants (though not to AWC-sensed ones), and mildly defective OSM-9/OCR-2-dependent nociception by ASH neurons. fat-1 mutants are abnormally sensitive to excess dihommogamma-linolenic acid (DGLA, 20:3n-6), which induces degeneration of larval germ cells, excess apoptosis in adult germline, and sterility. while this sensitivity is enhanced by fat-4 mutations, it requires excess DGLA (or its precursor, gamma-linolenic acid/18:3n-6) in the food media. fat-1 or fat-1.fat-4 mutants grown on normal food are fertile, despite their having excess DGLA in vivo. transgenic FAT-1 can lower apoptosis in cultured mammalian neurons, suggesting that it may be required for an evolutionarily conserved signalling pathway regulating apoptosis. [Source: WormBase]			oxidoreductase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 
Y67H2A.9	Y67H2A.9				
fat-2	W02A2.1	fat-2 encodes a delta-12 fatty acyl desaturase that increases membrane fluidity when expressed in yeast, and that may protect against cold stress. FAT-2's substrate is unknown, but may be acyl-CoA. FAT-2 is required in vivo for normal levels of C18 or C20 polyunsaturated fatty acids (PUFAs). FAT-2 is fully required for a sperm-attracting cue (perhaps an eicosanoid) secreted by oocytes, and partially required for the polarizing activity of PAR-3, PAR-6, and other proteins. FAT-2 is also required for a normally fast growth rate and movement rate, and for normal body shape, defecation rhythm, and brood size. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		oxidoreductase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 
far-6	W02A2.2	Fatty Acid/Retinol binding protein family member (far-6) [Source:RefSeq_peptide;Acc:NP_502561]			lipid binding, 
pqn-74	W02A2.3	pqn-74 encodes a protein with two chitin-binding peritrophin-A domains, separated by a glutamine/asparagine (Q/N)-rich ('prion') domain. like CEJ-1 and CPG-2, PQN-74 might participate in eggshell synthesis and early embryonic development, and PQN-74's peritrophin-A domains might enable mechanical cross-linking of chitin. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	chitin binding, 
W02A2.4	W02A2.4				
W02A2.5	W02A2.5	W02A2.5 [Source:RefSeq_peptide;Acc:NP_502564]	ion transport, translation, 	membrane, intracellular, ribosome, 	ion channel activity, receptor activity, structural constituent of ribosome, extracellular-glutamate-gated ion channel activity, 
W02A2.9	W02A2.9	W02A2.9 [Source:RefSeq_peptide;Acc:NP_001023410]		integral to membrane, 	
rec-8	W02A2.6	rec-8 encodes a meiosis-specific cohesin complex subunit orthologous to Saccharomyces cerevisiae and Schizosaccharomyces pombe Rec8p. REC-8 is essential for pairing of homologoues and sister chromatids during meiosis and thus for proper chromosome disjunction. in the germline, REC-8 associates with chromatin of transition zone nuclei, and co-localizes with SMC-1 along the longitudinal axes of synapsed chromosomes at pachytene and in a cruciform pattern at diakinesis. REC-8 localization to chromatin is dependent upon TIM-1, a HEAT/Armadillo repeat-containing protein related to Drosophila TIMELESS, and additionally, REC-8 and SCC-3 are mutually required for chromatin localization. REC-8 cleavage and degradation during meiosis I is dependent on the AIR-2 aurora-like kinase and during meiosis II on AIR-2 and the PLK-1 polo-like kinase. [Source: WormBase]	meiotic recombination, embryonic development ending in birth or egg hatching, 		protein binding, 
mex-5	W02A2.7	mex-5 encodes a novel protein that contains two CCCH zinc finger motifs. maternally provided MEX-5, which functions partly redundantly with the highly similar CCCH finger protein MEX-6, is essential for transducing polarity cues and establishing soma/germline asymmetry in the early embryo. in regulating soma/germline asymmetry, MEX-5 interacts with, and activates, the SOCS-box protein ZIF-1, which functions as part of an E3 ubiquitin ligase complex that degrades germ plasm proteins in somatic blastomeres. accordingly, ectopic expression of MEX-5 throughout the early embryo results in reduced expression of germline proteins in germline blastomeres. MEX-5 is a cytoplasmic protein expressed at uniform levels in oocytes and newly fertilized eggs. from the 1-cell to 4-cell stages of embryogenesis, MEX-5 expression is dynamic, with highest levels seen in the anterior AB blastomere and, for a time, its daughters, the anterior portion of the P1 blastomere, P1 centrosomes (both, then posterior only), and the EMS and C blastomeres. the asymmetric distribution of MEX-5 in early embryos depends upon wild-type activity of the PAR and OMA-1 proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, ligand-dependent nuclear receptor activity, 
W02A2.8	W02A2.8	W02A2.8 [Source:RefSeq_peptide;Acc:NP_502567]			
Y62E10A.3	Y62E10A.3	Y62E10A.3 [Source:RefSeq_peptide;Acc:NP_502568]			
srsx-25	Y62E10A.4	Serpentine Receptor, class SX family member (srsx-25) [Source:RefSeq_peptide;Acc:NP_502569]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
agt-1	Y62E10A.5	agt-1 encodes an ortholog of the DNA repair enzyme O6-Alkylguanine DNA-alkyltransferase (AGT). [Source: WormBase]	DNA repair, 	nucleus, 	methylated-DNA-[protein]-cysteine S-methyltransferase activity, 
rla-2	Y62E10A.1	rpa-2 encodes an acidic ribosomal subunit protein P2. [Source: WormBase]	translation, translational elongation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y62E10A.2	Y62E10A.2	Y62E10A.2 encodes an ortholog of Pop7 (Rpp20), a protein subunit shared by the endoribonucleases RNase MRP and RNAse P. RNAse MRP cleaves mitochondrial RNA in mitochondrial DNA synthesis, nucleolar pre-rRNA in ribosome synthesis, and at least one mRNA (CLB2) involved in cell-cycle regulation. RNAse P cleaves tRNA precursors to produce their mature 5' end. Y62E10A.2 may dissociate from the RNase MRP complex when it binds to ribosomal precursors. [Source: WormBase]	positive regulation of growth rate, 		nucleic acid binding, 
Y62E10A.6	Y62E10A.6	Y62E10A.6 [Source:RefSeq_peptide;Acc:NP_502573]	electron transport, 		oxidoreductase activity, 
mau-8	Y62E10A.8	mau-8 encodes a phosducin-like protein (PhLP) required for G protein signaling and for embryonic viability. the partial loss-of-function mau-8(qm57) mutation inhibits GPB-2 and probably also both EGL-30 and GOA-1, which in turn causes hyperactivity and abnormally flat undulations. mau-8(RNAi) is embryonic lethal in a mau-8(qm57) background, and mau-8(qm57) is synthetically lethal with egl-30, goa-1, or gpb-2 mutations. MAU-8 protein binds PAR-5 and GPB-1. mutant MAU-8(qm57) protein lacks a predicted C-terminal phosphorylation site and binding site for G[beta/gamma] heterodimers, and mau-8(qm57) mutants have abnormally stable association of GPB-1 with centersomal microtubules. embryonic MAU-8 is found in cell cortex, mitotic centrosomes, and in the germline blastomere, whereas adult MAU-8 is ubiquitously expressed. [Source: WormBase]			protein binding, 
Y62E10A.10	Y62E10A.10	Y62E10A.10 [Source:RefSeq_peptide;Acc:NP_502575]			
Y62E10A.20	Y62E10A.20	Y62E10A.20 [Source:RefSeq_peptide;Acc:NP_001041053]			
rab-19	Y62E10A.9	rab-19 encodes a small GTPase homologous to the Rab GTPases that function in endocytosis, membrane fusion, and vesicular trafficking events. the precise biological role and expression pattern of rab-19 are not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y62E10A.11	Y62E10A.11	Putative guanine nucleotide exchange factor MSS4 homolog. [Source:Uniprot/SWISSPROT;Acc:Q9U1X4]	small GTPase mediated signal transduction, embryonic development ending in birth or egg hatching, 		zinc ion binding, guanyl-nucleotide exchange factor activity, 
lsm-3	Y62E10A.12	LSM Sm-like protein family member (lsm-3) [Source:RefSeq_peptide;Acc:NP_502579]	mRNA metabolic process, 	ribonucleoprotein complex, 	
Y62E10A.13	Y62E10A.13	Y62E10A.13a [Source:RefSeq_peptide;Acc:NP_502580]	metabolic process, L-serine biosynthetic process, 		catalytic activity, phosphoric monoester hydrolase activity, phosphoserine phosphatase activity, 
Y62E10A.14	Y62E10A.14	Y62E10A.14 [Source:RefSeq_peptide;Acc:NP_502583]	embryonic development ending in birth or egg hatching, 		protein binding, 
cyp-31A5	Y62E10A.15		embryonic development ending in birth or egg hatching, 		
Y62E10A.18	Y62E10A.18	Y62E10A.18 [Source:RefSeq_peptide;Acc:NP_001023545]			
Y62E10A.19	Y62E10A.19	Y62E10A.19 [Source:RefSeq_peptide;Acc:NP_001023546]			
gcl-1	Y62E10A.16	GCL (Drosophila germ cell-less) homolog family member (gcl-1) [Source:RefSeq_peptide;Acc:NP_502585]			protein binding, identical protein binding, 
Y62E10A.17	Y62E10A.17	Y62E10A.17 [Source:RefSeq_peptide;Acc:NP_502586]	embryonic development ending in birth or egg hatching, 		transcription factor activity, 
pik-1	K09B11.1	The pik-1 gene encodes a pelle/IRAK kinase homolog that may be involved in apoptosis. [Source: WormBase]	protein amino acid phosphorylation, signal transduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
K09B11.2	K09B11.2	K09B11.2 [Source:RefSeq_peptide;Acc:NP_502588]	positive regulation of growth rate, 		nucleotide binding, nucleoside-triphosphatase activity, 
K09B11.4	K09B11.4	K09B11.4 [Source:RefSeq_peptide;Acc:NP_502589]			
K09B11.3	K09B11.3	K09B11.3 [Source:RefSeq_peptide;Acc:NP_502590]			
K09B11.5	K09B11.5	K09B11.5a [Source:RefSeq_peptide;Acc:NP_001040971]	intracellular signaling cascade, protein amino acid phosphorylation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, rhodopsin-like receptor activity, 
K09B11.10	K09B11.10	K09B11.10 [Source:RefSeq_peptide;Acc:NP_502592]		membrane, 	
NR_002649.1	K09B11.11	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	K09B11.12	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	K09B11.13	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	K09B11.14	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	K09B11.15	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
NR_002649.1	K09B11.16	W05B2.8, snRNA [Source:RefSeq_dna;Acc:NR_002649]			
K09B11.9	K09B11.9	K09B11.9a [Source:RefSeq_peptide;Acc:NP_001040973]	intracellular protein transport, 	membrane, cytoplasm, 	protein transporter activity, protein binding, identical protein binding, 
Y38H8A.7	Y38H8A.7	Y38H8A.7 [Source:RefSeq_peptide;Acc:NP_001023458]			
Y38H8A.8	Y38H8A.8				
Y38H8A.5	Y38H8A.5	The Y38H8A.5 gene encodes a homolog of the human gene ZNF195 (or p57KIP2), which when mutated leads to Beckwith-Wiedemann syndrome (OMIM:130650). [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
Y38H8A.4	Y38H8A.4	Y38H8A.4 [Source:RefSeq_peptide;Acc:NP_502595]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y38H8A.3	Y38H8A.3	Y38H8A.3 [Source:RefSeq_peptide;Acc:NP_502596]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y38H8A.2	Y38H8A.2	Y38H8A.2a [Source:RefSeq_peptide;Acc:NP_001041022]			protein binding, zinc ion binding, 
Y45F10A.6	Y45F10A.6	Y45F10A.6b [Source:RefSeq_peptide;Acc:NP_502599]	regulation of Rab GTPase activity, 	intracellular, 	calcium ion binding, Rab GTPase activator activity, 
Y38H8A.1	Y38H8A.1	Y38H8A.1 [Source:RefSeq_peptide;Acc:NP_502600]	reproduction, 		
Y45F10A.7	Y45F10A.7	Y45F10A.7a [Source:RefSeq_peptide;Acc:NP_001076732]	intracellular signaling cascade, cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
nlp-17	Y45F10A.5	Neuropeptide-Like Protein family member (nlp-17) [Source:RefSeq_peptide;Acc:NP_502603]	biological_process, 		
seld-1	Y45F10A.4	Probable selenide, water dikinase (EC 2.7.9.3) (Selenophosphate synthetase) (Selenium donor protein). [Source:Uniprot/SWISSPROT;Acc:O62461]			ATP binding, catalytic activity, selenide, water dikinase activity, 
Y45F10A.3	Y45F10A.3	Y45F10A.3 [Source:RefSeq_peptide;Acc:NP_502605]			
puf-3	Y45F10A.2	The puf-3 gene encodes a predicted RNA binding protein that is a member of the conserved PUF (Pumilio and FBF) family of RNA binding proteins. PUF-3 is expressed in the ovary and is required for multiple aspects of early embryogenesis including proper cell cycle timing, spindle positioning, and formation of the polar bodies and pronuclei. [Source: WormBase]	embryonic development ending in birth or egg hatching, pronuclear migration, 		RNA binding, binding, 
dcap-2	F52G2.1	dcap-2 encodes an mRNA decapping enzyme that is a member of the NUDIX hydrolase (NUcleoside Diphosphate linked to some moiety X) family of enzymes. dcap-2 exhibits sequence- and context-dependent hydrolysis of mRNA caps in vitro, but RNAi experiments indicate that this activity is not essential for embryonic development. DCAP-2 localizes to cytoplasmic mRNA processing bodies and to P granules throughout embryonic development. [Source: WormBase]			hydrolase activity, 
rsd-2	F52G2.2	RNAi Spreading Defective (see also sid) family member (rsd-2) [Source:RefSeq_peptide;Acc:NP_001040952]			
F52G2.3	F52G2.3	F52G2.3 [Source:RefSeq_peptide;Acc:NP_502611]			
F52G2.4	F52G2.4				
Y45F10B.13	Y45F10B.13	Y45F10B.13b [Source:RefSeq_peptide;Acc:NP_001023468]	embryonic development ending in birth or egg hatching, 		
qui-1	Y45F10B.10	The qui-1 gene encodes a protein of unknown function that contains several WD-40 domains. [Source: WormBase]			
srd-10	Y45F10B.14	Serpentine Receptor, class D (delta) family member (srd-10) [Source:RefSeq_peptide;Acc:NP_502614]			
Y45F10B.8	Y45F10B.8	Y45F10B.8 [Source:RefSeq_peptide;Acc:NP_502615]	translation, 	intracellular, ribosome, 	protein binding, zinc ion binding, structural constituent of ribosome, 
Y45F10B.7	Y45F10B.7				
sru-16	Y45F10B.4	Serpentine Receptor, class U family member (sru-16) [Source:RefSeq_peptide;Acc:NP_502616]			
sru-12	Y45F10B.5	Serpentine Receptor, class U family member (sru-12) [Source:RefSeq_peptide;Acc:NP_502617]			
sru-11	Y45F10B.6	Serpentine Receptor, class U family member (sru-11) [Source:RefSeq_peptide;Acc:NP_502618]			
Y45F10B.12	Y45F10B.12	Y45F10B.12 [Source:RefSeq_peptide;Acc:NP_502619]			
sru-9	Y45F10B.11	Serpentine Receptor, class U family member (sru-9) [Source:RefSeq_peptide;Acc:NP_502620]			
tsp-5	Y45F10B.1	Y45F10B.1 [Source:RefSeq_peptide;Acc:NP_502621]		integral to membrane, 	
Y45F10B.3	Y45F10B.3	Y45F10B.3 [Source:RefSeq_peptide;Acc:NP_502622]			
Y45F10B.2	Y45F10B.2	Y45F10B.2 [Source:RefSeq_peptide;Acc:NP_502623]			
Y45F10B.9	Y45F10B.9	Y45F10B.9 [Source:RefSeq_peptide;Acc:NP_502624]	translation, 	intracellular, ribosome, 	protein binding, zinc ion binding, structural constituent of ribosome, 
21ur-851	Y45F10B.27				
Y45F10B.17	Y45F10B.17				
NR_003460.1	Y45F10B.19	Y45F10B.19, snRNA [Source:RefSeq_dna;Acc:NR_003460]			
21ur-3338	Y45F10B.22				
21ur-2046	Y45F10B.28				
NR_003461.1	Y45F10B.20	Y45F10B.20, snRNA [Source:RefSeq_dna;Acc:NR_003461]			
21ur-3398	Y45F10B.26				
Y45F10B.16	Y45F10B.16				
Y45F10B.15	Y45F10B.15	UPF0375 protein Y45F10B.15 precursor. [Source:Uniprot/SWISSPROT;Acc:Q7YWQ0]			
21ur-3530	Y45F10B.23				
21ur-5120	Y45F10B.25				
21ur-3641	Y45F10B.21				
Y45F10B.18	Y45F10B.18				
21ur-1830	Y45F10B.29				
21ur-1076	Y45F10B.24				
C08F11.13	C08F11.13	C08F11.13 [Source:RefSeq_peptide;Acc:NP_502625]	ATP synthesis coupled electron transport, 		NADH dehydrogenase (ubiquinone) activity, 
21ur-4428	C08F11.38				
21ur-1241	C08F11.22				
21ur-2161	C08F11.30				
21ur-4995	C08F11.52				
C08F11.19	C08F11.19				
C08F11.18	C08F11.18				
21ur-5326	C08F11.37				
21ur-1439	C08F11.24				
NM_070225.2	C08F11.14	C08F11.14 (C08F11.14) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_070225]			
21ur-1007	C08F11.50				
21ur-5112	C08F11.23				
21ur-2289	C08F11.41				
21ur-814	C08F11.54				
21ur-4604	C08F11.53				
C08F11.15	C08F11.15				
C08F11.3	C08F11.3	C08F11.3 [Source:RefSeq_peptide;Acc:NP_502627]			
21ur-162	C08F11.36				
C08F11.2	C08F11.2	C08F11.2 [Source:RefSeq_peptide;Acc:NP_502628]			
21ur-164	C08F11.21				
C08F11.1	C08F11.1	C08F11.1 [Source:RefSeq_peptide;Acc:NP_502629]			
21ur-2411	C08F11.27				
21ur-2879	C08F11.48				
21ur-3349	C08F11.29				
21ur-2330	C08F11.44				
sru-21	C08F11.4	Serpentine Receptor, class U family member (sru-21) [Source:RefSeq_peptide;Acc:NP_502630]			
21ur-1181	C08F11.32				
21ur-3733	C08F11.33				
21ur-599	C08F11.45				
21ur-1754	C08F11.20				
21ur-4267	C08F11.34				
fbxa-98	C08F11.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
21ur-5399	C08F11.43				
21ur-2604	C08F11.49				
C08F11.6	C08F11.6				
C08F11.7	C08F11.7	C08F11.7 [Source:RefSeq_peptide;Acc:NP_502632]			caspase activity, 
21ur-2202	C08F11.42				
ugt-22	C08F11.8	UDP-GlucuronosylTransferase family member (ugt-22) [Source:RefSeq_peptide;Acc:NP_502633]	metabolic process, 		transferase activity, transferring hexosyl groups, 
21ur-3204	C08F11.35				
21ur-4647	C08F11.47				
21ur-1672	C08F11.51				
21ur-4206	C08F11.46				
21ur-4710	C08F11.39				
srz-29	C08F11.9	Serpentine Receptor, class Z family member (srz-29) [Source:RefSeq_peptide;Acc:NP_502634]			
21ur-743	C08F11.31				
21ur-372	C08F11.26				
21ur-3984	C08F11.28				
C08F11.11	C08F11.11	UPF0375 protein C08F11.11 precursor. [Source:Uniprot/SWISSPROT;Acc:O62053]			
21ur-1600	C08F11.25				
C08F11.10	C08F11.10	C08F11.10 [Source:RefSeq_peptide;Acc:NP_502636]			
21ur-3188	C08F11.40				
C08F11.17	C08F11.17	C08F11.17 [Source:RefSeq_peptide;Acc:NP_001076659]			
C08F11.12	C08F11.12	UPF0375 protein C08F11.12 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9U3R0]			
C08F11.16	C08F11.16				
Y45F10C.6	Y45F10C.6	Y45F10C.6 [Source:RefSeq_peptide;Acc:NP_001023470]			
Y45F10C.1	Y45F10C.1	Y45F10C.1 [Source:RefSeq_peptide;Acc:NP_502638]			
Y45F10C.7	Y45F10C.7				
Y45F10C.2	Y45F10C.2	UPF0375 protein Y45F10C.2 precursor. [Source:Uniprot/SWISSPROT;Acc:O45941]			
Y45F10C.4	Y45F10C.4	UPF0375 protein Y45F10C.4 precursor. [Source:Uniprot/SWISSPROT;Acc:O45944]			
fbxa-215	Y45F10C.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	reproduction, 		
T23G4.4	T23G4.4	T23G4.4 [Source:RefSeq_peptide;Acc:NP_502643]			transferase activity, transferring groups other than amino-acyl groups, 
21ur-1674	T23G4.9				
21ur-3315	T23G4.44				
21ur-4117	T23G4.7				
21ur-2988	T23G4.47				
21ur-85	T23G4.19				
21ur-873	T23G4.22				
T23G4.5	T23G4.5	T23G4.5 [Source:RefSeq_peptide;Acc:NP_502644]			
21ur-4091	T23G4.12				
21ur-3267	T23G4.49				
21ur-3610	T23G4.51				
21ur-70	T23G4.39				
21ur-4070	T23G4.29				
21ur-2500	T23G4.43				
21ur-5359	T23G4.45				
21ur-1807	T23G4.23				
21ur-5388	T23G4.28				
21ur-168	T23G4.32				
21ur-4427	T23G4.10				
21ur-1151	T23G4.33				
T23G4.3	T23G4.3	T23G4.3 [Source:RefSeq_peptide;Acc:NP_502645]			
T23G4.2	T23G4.2	T23G4.2 [Source:RefSeq_peptide;Acc:NP_502646]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
21ur-3987	T23G4.6				
21ur-5024	T23G4.46				
21ur-1753	T23G4.48				
21ur-4252	T23G4.52				
21ur-661	T23G4.34				
21ur-448	T23G4.38				
21ur-1858	T23G4.26				
21ur-4101	T23G4.18				
21ur-3252	T23G4.24				
21ur-2099	T23G4.20				
21ur-509	T23G4.35				
21ur-2051	T23G4.37				
21ur-4851	T23G4.16				
21ur-5222	T23G4.50				
21ur-2045	T23G4.25				
21ur-4313	T23G4.31				
21ur-500	T23G4.11				
21ur-5002	T23G4.13				
21ur-3421	T23G4.42				
21ur-4078	T23G4.36				
21ur-3314	T23G4.14				
21ur-789	T23G4.41				
21ur-1894	T23G4.8				
tlp-1	T23G4.1	The tlp-1 gene encodes a C2H2-type zinc finger of the Sp-1-like protein family, which is required for normal asymmetry in the divisions of the T.p and T.ap cells. such asymmetry, in turn, is required for normal, rounded tail morphology in adult males. [Source: WormBase]		intracellular, 	zinc ion binding, nucleic acid binding, 
21ur-763	T23G4.21				
21ur-3265	T23G4.40				
21ur-2589	T23G4.17				
21ur-3908	T23G4.27				
21ur-645	T23G4.15				
21ur-2851	T23G4.30				
21ur-1691	F52D4.3				
21ur-2908	F52D4.7				
21ur-3250	F52D4.6				
F52D4.1	F52D4.1				
21ur-370	F52D4.5				
21ur-166	F52D4.8				
21ur-1786	F52D4.4				
21ur-457	F52D4.2				
21ur-2756	C47A4.26				
21ur-3877	C47A4.60				
21ur-4565	C47A4.65				
21ur-2824	C47A4.53				
21ur-1776	C47A4.56				
21ur-4776	C47A4.42				
21ur-3087	C47A4.39				
21ur-3697	C47A4.55				
21ur-1785	C47A4.22				
21ur-3752	C47A4.52				
21ur-4944	C47A4.23				
21ur-4704	C47A4.57				
21ur-4142	C47A4.21				
21ur-242	C47A4.58				
C47A4.1	C47A4.1	C47A4.1 [Source:RefSeq_peptide;Acc:NP_502648]			
21ur-1800	C47A4.40				
21ur-2422	C47A4.24				
21ur-3273	C47A4.32				
21ur-5418	C47A4.46				
21ur-1580	C47A4.10				
21ur-1591	C47A4.17				
21ur-3655	C47A4.41				
21ur-1564	C47A4.27				
21ur-568	C47A4.63				
21ur-3637	C47A4.71				
21ur-869	C47A4.15				
21ur-3801	C47A4.59				
21ur-4412	C47A4.72				
21ur-3629	C47A4.25				
21ur-1379	C47A4.61				
21ur-1266	C47A4.19				
21ur-631	C47A4.16				
21ur-2117	C47A4.29				
21ur-4358	C47A4.8				
21ur-790	C47A4.47				
C47A4.2	C47A4.2	C47A4.2a [Source:RefSeq_peptide;Acc:NP_001023068]	transport, intein-mediated protein splicing, 	membrane, 	nucleoside transmembrane transporter activity, 
21ur-4681	C47A4.20				
21ur-2749	C47A4.45				
21ur-4757	C47A4.70				
21ur-4072	C47A4.51				
21ur-1610	C47A4.49				
21ur-3242	C47A4.36				
21ur-4917	C47A4.31				
21ur-1067	C47A4.13				
21ur-949	C47A4.69				
21ur-1548	C47A4.62				
21ur-5092	C47A4.66				
21ur-2894	C47A4.48				
21ur-4	C47A4.18				
21ur-5259	C47A4.28				
21ur-429	C47A4.33				
21ur-280	C47A4.54				
21ur-155	C47A4.11				
21ur-4019	C47A4.43				
C47A4.3	C47A4.3	C47A4.3 [Source:RefSeq_peptide;Acc:NP_502650]			hydrolase activity, 
C47A4.7	C47A4.7				
21ur-3172	C47A4.37				
C47A4.6	C47A4.6				
C47A4.4	C47A4.4				
C47A4.5	C47A4.5	C47A4.5 [Source:RefSeq_peptide;Acc:NP_502651]			
21ur-341	C47A4.9				
21ur-1288	C47A4.64				
21ur-2009	C47A4.67				
21ur-574	C47A4.44				
21ur-2598	C47A4.30				
21ur-4295	C47A4.50				
21ur-5273	C47A4.35				
F56F12.1	F56F12.1	F56F12.1 [Source:RefSeq_peptide;Acc:NP_502652]			protein binding, 
21ur-1676	C47A4.34				
21ur-1366	C47A4.68				
21ur-3032	C47A4.12				
21ur-894	C47A4.14				
21ur-1930	C47A4.38				
21ur-337	F56F12.3				
21ur-1850	F56F12.12				
21ur-1817	F56F12.10				
21ur-5090	F56F12.7				
21ur-1129	F56F12.6				
21ur-1516	F56F12.11				
21ur-3572	F56F12.5				
21ur-3913	F56F12.8				
21ur-4392	F56F12.9				
21ur-3514	F56F12.13				
21ur-5244	F56F12.2				
21ur-1715	F56F12.4				
21ur-3394	Y45F10D.59				
21ur-3781	Y45F10D.20				
21ur-2760	Y45F10D.51				
21ur-1730	Y45F10D.42				
21ur-2693	Y45F10D.55				
21ur-3871	Y45F10D.22				
21ur-236	Y45F10D.45				
21ur-4393	Y45F10D.38				
21ur-1692	Y45F10D.32				
21ur-2584	Y45F10D.24				
21ur-647	Y45F10D.29				
21ur-2575	Y45F10D.48				
21ur-3943	Y45F10D.54				
tag-208	Y45F10D.13	Temporarily Assigned Gene name family member (tag-208) [Source:RefSeq_peptide;Acc:NP_001041035]			protein binding, 
21ur-2017	Y45F10D.23				
21ur-708	Y45F10D.37				
21ur-742	Y45F10D.35				
21ur-5145	Y45F10D.49				
21ur-774	Y45F10D.41				
Y45F10D.2	Y45F10D.2	Y45F10D.2 [Source:RefSeq_peptide;Acc:NP_502654]			
Y45F10D.16	Y45F10D.16	Y45F10D.16 [Source:RefSeq_peptide;Acc:NP_001023473]			
rpl-18	Y45F10D.12	rpl-18 encodes a large ribosomal subunit L18 protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	structural constituent of ribosome, 
gly-10	Y45F10D.3	Putative polypeptide N-acetylgalactosaminyltransferase 10 (EC 2.4.1.41) (Protein-UDP acetylgalactosaminyltransferase 10) (UDP- GalNAc:polypeptide N-acetylgalactosaminyltransferase 10) (pp-GaNTase 10). [Source:Uniprot/SWISSPROT;Acc:O45947]			
lact-9	Y45F10D.11	Y45F10D.11a [Source:RefSeq_peptide;Acc:NP_001041033]	beta-lactam antibiotic catabolic process, response to antibiotic, embryonic development ending in birth or egg hatching, 		phosphopantetheine binding, beta-lactamase activity, 
Y45F10D.4	Y45F10D.4	Y45F10D.4 [Source:RefSeq_peptide;Acc:NP_502658]	iron-sulfur cluster assembly, embryonic development ending in birth or egg hatching, 		iron ion binding, protein binding, iron-sulfur cluster binding, 
Y45F10D.10	Y45F10D.10	Y45F10D.10 [Source:RefSeq_peptide;Acc:NP_502659]			
sas-6	Y45F10D.9	sas-6 encodes a protein that contains a coiled-coil region and a novel PISA (present in SAS-6) motif which is conserved in similar proteins in at least eight other species that contain basal bodies or centrioles. SAS-6 activity, along with that of ZYG-1, SAS-4, SAS-5, and SPD-2, is essential for centriole duplication. SAS-6 functions in a dose-dependent manner and localizes to centriolar cylinders. SAS-6 co-localizes to centrioles with SAS-4 and SAS-5, and is mutually dependent upon SAS-5, with which it interacts physically, for centriolar localization. SAS-6 localization also requires the activity of the ZYG-1 kinase. in addition to the early embryo, SAS-6 is also detected in sperm. [Source: WormBase]	morphogenesis of an epithelium, 		protein binding, 
Y45F10D.7	Y45F10D.7	Y45F10D.7 [Source:RefSeq_peptide;Acc:NP_502661]	electron transport, rRNA processing, DNA methylation, positive regulation of growth rate, 	small subunit processome, 	DNA binding, 
Y45F10D.6	Y45F10D.6	Y45F10D.6 [Source:RefSeq_peptide;Acc:NP_502662]			
21ur-3312	Y45F10D.36				
21ur-4251	Y45F10D.43				
21ur-5171	Y45F10D.21				
21ur-4051	Y45F10D.40				
21ur-2947	Y45F10D.47				
21ur-98	Y45F10D.17				
21ur-4537	Y45F10D.34				
21ur-4575	Y45F10D.18				
Y45F10D.14	Y45F10D.14	Y45F10D.14 [Source:RefSeq_peptide;Acc:NP_001023471]			
21ur-4912	Y45F10D.39				
21ur-3235	Y45F10D.50				
21ur-4636	Y45F10D.52				
21ur-158	Y45F10D.25				
21ur-630	Y45F10D.19				
21ur-677	Y45F10D.33				
21ur-2242	Y45F10D.57				
21ur-1598	Y45F10D.31				
21ur-3229	Y45F10D.46				
21ur-2390	Y45F10D.30				
21ur-4993	Y45F10D.53				
21ur-3357	Y45F10D.44				
21ur-1717	Y45F10D.58				
Y45F10D.15	Y45F10D.15	Y45F10D.15 [Source:RefSeq_peptide;Acc:NP_001023472]			
21ur-4292	Y45F10D.26				
21ur-1949	Y45F10D.56				
21ur-1608	Y45F10D.28				
21ur-4680	Y45F10D.27				
21ur-4136	H08M01.49				
21ur-405	H08M01.54				
21ur-1770	H08M01.19				
21ur-3377	H08M01.27				
21ur-3006	H08M01.55				
21ur-3307	H08M01.50				
21ur-2729	H08M01.37				
21ur-5150	H08M01.24				
21ur-931	H08M01.51				
21ur-4672	H08M01.38				
21ur-2106	H08M01.31				
21ur-2977	H08M01.17				
21ur-3615	H08M01.23				
21ur-5262	H08M01.11				
21ur-2090	H08M01.15				
21ur-3533	H08M01.53				
21ur-541	H08M01.39				
21ur-3880	H08M01.30				
21ur-2307	H08M01.48				
21ur-1127	H08M01.14				
21ur-3098	H08M01.41				
21ur-3045	H08M01.34				
H08M01.2	H08M01.2	H08M01.2b [Source:RefSeq_peptide;Acc:NP_001023257]	signal transduction, electron transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, monooxygenase activity, 
21ur-529	H08M01.8				
21ur-4877	H08M01.40				
21ur-1810	H08M01.20				
21ur-4951	H08M01.12				
21ur-3933	H08M01.35				
21ur-268	H08M01.22				
21ur-1148	H08M01.52				
21ur-2220	H08M01.10				
21ur-1654	H08M01.47				
21ur-464	H08M01.28				
21ur-5041	H08M01.45				
21ur-3438	H08M01.46				
21ur-3814	H08M01.32				
21ur-3258	H08M01.16				
21ur-1869	H08M01.29				
21ur-1112	H08M01.21				
H08M01.1	H08M01.1	H08M01.1 [Source:RefSeq_peptide;Acc:NP_502665]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, ligand-dependent nuclear receptor activity, 
21ur-2389	H08M01.42				
21ur-5247	H08M01.43				
21ur-2471	H08M01.25				
21ur-1433	H08M01.9				
21ur-642	H08M01.36				
21ur-5063	H08M01.6				
21ur-687	H08M01.4				
21ur-3009	H08M01.3				
21ur-4538	H08M01.5				
21ur-4755	H08M01.44				
21ur-2892	H08M01.18				
21ur-2185	H08M01.33				
21ur-3419	H08M01.26				
21ur-1134	H08M01.7				
21ur-1141	H08M01.13				
B0513.7	B0513.7				
B0513.12	B0513.12				
B0513.6	B0513.6	B0513.6 [Source:RefSeq_peptide;Acc:NP_502667]			
B0513.8	B0513.8				
21ur-1467	B0513.22				
B0513.11	B0513.11				
21ur-3524	B0513.34				
B0513.9	B0513.9	B0513.9b [Source:RefSeq_peptide;Acc:NP_001040905]	vesicle-mediated transport, 	integral to membrane, 	nucleotide binding, 
21ur-2137	B0513.38				
21ur-2095	B0513.42				
21ur-296	B0513.27				
21ur-2779	B0513.14				
21ur-1921	B0513.40				
21ur-1277	B0513.39				
21ur-2156	B0513.33				
21ur-523	B0513.29				
21ur-3538	B0513.32				
B0513.5	B0513.5	Probable proline oxidase, mitochondrial precursor (EC 1.5.99.8) (Proline dehydrogenase). [Source:Uniprot/SWISSPROT;Acc:O45228]	glutamate biosynthetic process, proline catabolic process, 		proline dehydrogenase activity, calcium ion binding, 
B0513.t1	B0513.t1				
21ur-5407	B0513.30				
21ur-1417	B0513.36				
21ur-2193	B0513.15				
21ur-4407	B0513.18				
21ur-755	B0513.16				
21ur-4615	B0513.17				
21ur-3500	B0513.23				
21ur-27	B0513.28				
21ur-3203	B0513.35				
21ur-4661	B0513.25				
B0513.4	B0513.4	B0513.4 [Source:RefSeq_peptide;Acc:NP_502670]			
rpl-29	B0513.3	rpl-29 encodes a large ribosomal subunit L29 protein. by homology, RPL-29 is predicted to function in protein biosynthesis. in C. elegans, loss of rpl-29 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. [Source: WormBase]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
B0513.2	B0513.2	B0513.2 [Source:RefSeq_peptide;Acc:NP_001021272]	embryonic development ending in birth or egg hatching, 		
21ur-3636	B0513.19				
lin-66	B0513.1	lin-66 encodes an unfamiliar protein, with visible homologs only in nematodes, that was identified in screens for molecules that interact with GEX-3, a homolog of mammalian protein ligands of the small GTPase Rac1, that is essential for ventral enclosure during embryonic development. LIN-66 is expressed in body wall and vulval muscles, and is also detected in the intestine, neurons, and probably the hypodermis. [Source: WormBase]			protein binding, 
21ur-3387	B0513.26				
21ur-5027	B0513.24				
21ur-4889	B0513.37				
21ur-1259	B0513.20				
21ur-406	B0513.21				
21ur-1446	B0513.13				
21ur-4195	B0513.41				
21ur-5378	B0513.31				
21ur-4166	F14E12.1				
21ur-1607	Y37A1A.72				
21ur-2855	Y37A1A.23				
21ur-3588	Y37A1A.69				
21ur-5315	Y37A1A.25				
21ur-2352	Y37A1A.50				
21ur-2748	Y37A1A.65				
21ur-2666	Y37A1A.37				
21ur-712	Y37A1A.59				
21ur-2877	Y37A1A.24				
21ur-547	Y37A1A.55				
21ur-679	Y37A1A.46				
Y37A1A.3	Y37A1A.3	Y37A1A.3 [Source:RefSeq_peptide;Acc:NP_502675]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
21ur-3602	Y37A1A.27				
21ur-5446	Y37A1A.17				
21ur-890	Y37A1A.34				
21ur-2328	Y37A1A.18				
21ur-1852	Y37A1A.44				
21ur-1946	Y37A1A.56				
21ur-1719	Y37A1A.52				
21ur-3274	Y37A1A.31				
21ur-1220	Y37A1A.9				
21ur-4103	Y37A1A.30				
21ur-2190	Y37A1A.53				
21ur-4084	Y37A1A.40				
21ur-885	Y37A1A.13				
21ur-4855	Y37A1A.61				
Y37A1A.2	Y37A1A.2	Y37A1A.2 [Source:RefSeq_peptide;Acc:NP_502676]			
21ur-1651	Y37A1A.14				
21ur-2944	Y37A1A.12				
21ur-3401	Y37A1A.39				
21ur-5248	Y37A1A.41				
21ur-1874	Y37A1A.45				
21ur-3917	Y37A1A.70				
21ur-1922	Y37A1A.7				
21ur-527	Y37A1A.5				
21ur-3542	Y37A1A.58				
21ur-558	Y37A1A.21				
21ur-926	Y37A1A.20				
21ur-4180	Y37A1A.67				
21ur-2351	Y37A1A.66				
21ur-4895	Y37A1A.71				
21ur-5167	Y37A1A.48				
21ur-1808	Y37A1A.42				
21ur-1847	Y37A1A.63				
21ur-3547	Y37A1A.54				
21ur-3086	Y37A1A.36				
21ur-388	Y37A1A.33				
21ur-1832	Y37A1A.35				
21ur-4887	Y37A1A.22				
21ur-13	Y37A1A.11				
21ur-2469	Y37A1A.57				
21ur-4798	Y37A1A.64				
21ur-3094	Y37A1A.15				
21ur-1671	Y37A1A.68				
21ur-4030	Y37A1A.16				
21ur-3298	Y37A1A.28				
21ur-29	Y37A1A.19				
21ur-4685	Y37A1A.43				
21ur-3911	Y37A1A.8				
21ur-875	Y37A1A.49				
21ur-122	Y37A1A.26				
21ur-590	Y37A1A.51				
21ur-2641	Y37A1A.62				
21ur-249	Y37A1A.60				
21ur-250	Y37A1A.10				
21ur-5176	Y37A1A.6				
Y37A1A.4	Y37A1A.4	Y37A1A.4 [Source:RefSeq_peptide;Acc:NP_001076721]			
21ur-3923	Y37A1A.32				
21ur-2028	Y37A1A.38				
21ur-5043	Y37A1A.29				
21ur-3883	Y37A1A.47				
C27H2.5	C27H2.5	C27H2.5 [Source:RefSeq_peptide;Acc:NP_001076665]			
21ur-3179	C27H2.51				
21ur-4257	C27H2.37				
21ur-213	C27H2.6				
21ur-5266	C27H2.11				
21ur-3268	C27H2.49				
21ur-1393	C27H2.47				
21ur-4228	C27H2.24				
21ur-2375	C27H2.46				
21ur-3915	C27H2.50				
21ur-4406	C27H2.42				
21ur-4034	C27H2.56				
21ur-264	C27H2.52				
21ur-1757	C27H2.34				
21ur-666	C27H2.18				
21ur-823	C27H2.15				
21ur-2698	C27H2.23				
21ur-3129	C27H2.27				
21ur-1474	C27H2.25				
21ur-2934	C27H2.20				
21ur-4641	C27H2.33				
21ur-447	C27H2.8				
21ur-3569	C27H2.38				
21ur-998	C27H2.43				
21ur-2917	C27H2.35				
C27H2.2	C27H2.2	C27H2.2a [Source:RefSeq_peptide;Acc:NP_001040916]			
21ur-939	C27H2.31				
21ur-1588	C27H2.41				
21ur-3720	C27H2.40				
21ur-5105	C27H2.21				
21ur-1388	C27H2.36				
21ur-2554	C27H2.22				
21ur-1472	C27H2.39				
21ur-5012	C27H2.29				
21ur-1925	C27H2.17				
21ur-3531	C27H2.14				
21ur-2638	C27H2.9				
21ur-1936	C27H2.13				
21ur-2460	C27H2.45				
21ur-639	C27H2.26				
21ur-805	C27H2.7				
21ur-2115	C27H2.32				
21ur-4829	C27H2.54				
21ur-5368	C27H2.48				
21ur-2035	C27H2.12				
21ur-3760	C27H2.55				
21ur-3497	C27H2.44				
21ur-316	C27H2.53				
21ur-3100	C27H2.19				
21ur-3875	C27H2.30				
21ur-3076	C27H2.16				
21ur-3206	C27H2.10				
Y37A1B.17	Y37A1B.17	Y37A1B.17a [Source:RefSeq_peptide;Acc:NP_001076722]	regulation of Rho protein signal transduction, 	cytoplasm, intracellular, 	protein binding, Rho guanyl-nucleotide exchange factor activity, 
21ur-1080	C27H2.28				
21ur-4308	Y37A1B.87				
gei-18	Y37A1B.15	GEX Interacting protein family member (gei-18) [Source:RefSeq_peptide;Acc:NP_502681]			
21ur-3687	Y37A1B.91				
21ur-49	Y37A1B.71				
tor-2	Y37A1B.13	human TORsin related family member (tor-2) [Source:RefSeq_peptide;Acc:NP_502683]	chaperone cofactor-dependent protein folding, 	endoplasmic reticulum, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
21ur-181	Y37A1B.68				
tor-1	Y37A1B.12	human TORsin related family member (tor-1) [Source:RefSeq_peptide;Acc:NP_502684]	chaperone cofactor-dependent protein folding, 	endoplasmic reticulum, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
21ur-2447	Y37A1B.77				
21ur-4201	Y37A1B.73				
21ur-4399	Y37A1B.42				
21ur-3681	Y37A1B.51				
21ur-2034	Y37A1B.30				
21ur-4024	Y37A1B.149				
21ur-1314	Y37A1B.107				
21ur-556	Y37A1B.141				
21ur-1737	Y37A1B.98				
21ur-1342	Y37A1B.53				
21ur-3331	Y37A1B.85				
21ur-2741	Y37A1B.70				
21ur-656	Y37A1B.76				
21ur-637	Y37A1B.92				
21ur-1612	Y37A1B.24				
21ur-3788	Y37A1B.40				
21ur-133	Y37A1B.25				
21ur-1502	Y37A1B.28				
21ur-4517	Y37A1B.133				
21ur-4882	Y37A1B.101				
21ur-520	Y37A1B.26				
21ur-1778	Y37A1B.81				
21ur-3578	Y37A1B.50				
21ur-2766	Y37A1B.65				
21ur-2865	Y37A1B.74				
21ur-1092	Y37A1B.34				
21ur-2421	Y37A1B.35				
21ur-2432	Y37A1B.148				
21ur-896	Y37A1B.132				
21ur-5432	Y37A1B.58				
21ur-1182	Y37A1B.83				
21ur-5413	Y37A1B.27				
21ur-3617	Y37A1B.120				
21ur-3153	Y37A1B.117				
21ur-5245	Y37A1B.139				
21ur-965	Y37A1B.116				
egl-23	Y37A1B.11	egl-23 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. egl-23 was originally defined by gain-of-function mutations that result in defects in locomotion, egg-laying, and enteric muscle activation. loss of egl-23 function via reversion or RNA-mediated interference (RNAi) does not result in any abnormalities suggesting that EGL-23 may function redundantly with other TWK channels. egl-23 does not, however, interact genetically with the UNC-93 group of TWKs encoded by unc-93, sup-9, and sup-10. the EGL-23 expression pattern is not yet known. [Source: WormBase]	potassium ion transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	potassium channel activity, histamine receptor activity, 
21ur-5328	Y37A1B.112				
21ur-1110	Y37A1B.103				
21ur-4279	Y37A1B.142				
21ur-3726	Y37A1B.19				
21ur-4767	Y37A1B.129				
21ur-3633	Y37A1B.108				
21ur-989	Y37A1B.90				
21ur-3431	Y37A1B.105				
21ur-2042	Y37A1B.66				
21ur-3869	Y37A1B.88				
21ur-4354	Y37A1B.147				
21ur-4104	Y37A1B.127				
21ur-2949	Y37A1B.89				
21ur-5220	Y37A1B.97				
21ur-4644	Y37A1B.41				
21ur-314	Y37A1B.104				
21ur-4562	Y37A1B.119				
21ur-465	Y37A1B.64				
21ur-2203	Y37A1B.43				
Y37A1B.t1	Y37A1B.t1				
srw-63	Y37A1B.10	Serpentine Receptor, class W family member (srw-63) [Source:RefSeq_peptide;Acc:NP_502686]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y37A1B.9	Y37A1B.9	Y37A1B.9 [Source:RefSeq_peptide;Acc:NP_502687]		membrane, 	
21ur-4217	Y37A1B.100				
21ur-1879	Y37A1B.63				
21ur-2838	Y37A1B.86				
Y37A1B.8	Y37A1B.8	Y37A1B.8 [Source:RefSeq_peptide;Acc:NP_502688]		membrane, 	
21ur-1097	Y37A1B.109				
21ur-1926	Y37A1B.93				
21ur-1245	Y37A1B.110				
21ur-5427	Y37A1B.23				
21ur-5261	Y37A1B.29				
21ur-924	Y37A1B.122				
21ur-3574	Y37A1B.96				
21ur-1227	Y37A1B.126				
21ur-4789	Y37A1B.124				
21ur-262	Y37A1B.111				
21ur-3379	Y37A1B.113				
21ur-1175	Y37A1B.78				
21ur-4422	Y37A1B.125				
21ur-780	Y37A1B.22				
21ur-3833	Y37A1B.59				
21ur-4384	Y37A1B.115				
21ur-2811	Y37A1B.47				
21ur-4413	Y37A1B.106				
21ur-3488	Y37A1B.99				
21ur-4787	Y37A1B.79				
21ur-3684	Y37A1B.144				
21ur-3744	Y37A1B.67				
21ur-2957	Y37A1B.33				
21ur-2831	Y37A1B.54				
21ur-2841	Y37A1B.84				
21ur-39	Y37A1B.137				
21ur-4418	Y37A1B.131				
21ur-1095	Y37A1B.130				
21ur-1477	Y37A1B.56				
21ur-443	Y37A1B.118				
21ur-4618	Y37A1B.138				
21ur-727	Y37A1B.36				
21ur-1057	Y37A1B.143				
Y37A1B.6	Y37A1B.6	Y37A1B.6 [Source:RefSeq_peptide;Acc:NP_502689]			
21ur-4860	Y37A1B.48				
21ur-5243	Y37A1B.94				
21ur-2253	Y37A1B.69				
21ur-4858	Y37A1B.21				
21ur-1519	Y37A1B.134				
21ur-1268	Y37A1B.62				
21ur-4391	Y37A1B.57				
21ur-5115	Y37A1B.146				
21ur-462	Y37A1B.45				
21ur-4370	Y37A1B.72				
Y37A1B.7	Y37A1B.7	Y37A1B.7 [Source:RefSeq_peptide;Acc:NP_502690]			
21ur-2393	Y37A1B.136				
21ur-1876	Y37A1B.82				
21ur-2470	Y37A1B.49				
21ur-36	Y37A1B.145				
21ur-3301	Y37A1B.95				
21ur-973	Y37A1B.46				
21ur-496	Y37A1B.60				
21ur-436	Y37A1B.31				
21ur-4521	Y37A1B.37				
21ur-969	Y37A1B.52				
21ur-5361	Y37A1B.44				
21ur-796	Y37A1B.140				
21ur-4340	Y37A1B.32				
Y37A1B.5	Y37A1B.5	Y37A1B.5 [Source:RefSeq_peptide;Acc:NP_502691]			selenium binding, 
21ur-2893	Y37A1B.123				
21ur-745	Y37A1B.39				
21ur-653	Y37A1B.38				
21ur-5347	Y37A1B.135				
21ur-787	Y37A1B.121				
21ur-975	Y37A1B.75				
21ur-557	Y37A1B.55				
21ur-4346	Y37A1B.128				
21ur-3353	Y37A1B.61				
21ur-199	Y37A1B.80				
21ur-2230	Y37A1B.114				
21ur-3151	Y37A1B.102				
21ur-2337	Y37A1B.20				
Y37A1B.4	Y37A1B.4	Y37A1B.4 [Source:RefSeq_peptide;Acc:NP_502692]			
Y37A1B.18	Y37A1B.18				
lst-4	Y37A1B.2	Lateral Signaling Target family member (lst-4) [Source:RefSeq_peptide;Acc:NP_872090]	cell communication, embryonic development ending in birth or egg hatching, 		protein binding, phosphoinositide binding, 
lst-3	Y37A1B.1	Lateral Signaling Target family member (lst-3) [Source:RefSeq_peptide;Acc:NP_001023434]	nucleosome assembly, locomotory behavior, 	nucleus, nucleosome, 	protein binding, DNA binding, nucleic acid binding, 
F52B11.1	F52B11.1	F52B11.1a [Source:RefSeq_peptide;Acc:NP_001023214]	type I hypersensitivity, 		
F52B11.2	F52B11.2	F52B11.2 is orthologous to the human gene PHOSPHOMANNOMUTASE 2 (PMS2. OMIM:601785), which when mutated leads to congenital disorder of glycosylation, type Ia. [Source: WormBase]	metabolic process, mannose biosynthetic process, positive regulation of growth rate, 	cytoplasm, 	catalytic activity, phosphomannomutase activity, 
21ur-3165	F52B11.32				
21ur-860	F52B11.26				
21ur-4886	F52B11.9				
21ur-3346	F52B11.13				
21ur-4255	F52B11.20				
21ur-536	F52B11.41				
21ur-2027	F52B11.38				
21ur-4224	F52B11.39				
21ur-5007	F52B11.25				
21ur-4846	F52B11.10				
noah-2	F52B11.3	NOmpA Homolog (Drosophila nompA: no mechanoreceptor potential A) family member (noah-2) [Source:RefSeq_peptide;Acc:NP_502699]	biological_process, 		
21ur-4611	F52B11.33				
21ur-5419	F52B11.19				
21ur-1346	F52B11.15				
21ur-2167	F52B11.17				
21ur-1017	F52B11.22				
21ur-3589	F52B11.34				
21ur-3502	F52B11.28				
21ur-300	F52B11.30				
21ur-4885	F52B11.11				
21ur-332	F52B11.29				
21ur-108	F52B11.16				
21ur-4535	F52B11.23				
21ur-1656	F52B11.24				
F52B11.8	F52B11.8		positive regulation of growth rate, 		
21ur-5376	F52B11.37				
21ur-4312	F52B11.40				
col-133	F52B11.4	COLlagen family member (col-133) [Source:RefSeq_peptide;Acc:NP_502700]	phosphate transport, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, cholecystokinin receptor activity, 
21ur-5140	F52B11.35				
21ur-1051	F52B11.36				
21ur-2521	F52B11.27				
F52B11.5	F52B11.5	F52B11.5 [Source:RefSeq_peptide;Acc:NP_502701]			
21ur-3402	F52B11.42				
21ur-3528	F52B11.12				
21ur-5293	F52B11.18				
21ur-957	F52B11.31				
21ur-1658	F52B11.21				
21ur-4974	F52B11.14				
ins-34	F52B11.6	ins-34 encodes an insulin-like peptide. [Source: WormBase]			
nkcc-1	Y37A1C.1	The Y37A1C.1 gene encodes a homolog of the human gene NKCC2, which when mutated leads to hypokalemicalkalosis (OMIM:241200). the Y37A1C.1A protein is predicted to be mitochondrial with 52% accuracy. [Source: WormBase]	transport, ion transport, 	membrane, 	transporter activity, 
21ur-1337	H12I19.36				
21ur-4044	H12I19.34				
21ur-3716	H12I19.33				
21ur-1085	H12I19.23				
21ur-2995	H12I19.18				
21ur-3115	H12I19.11				
21ur-1999	H12I19.42				
21ur-1799	H12I19.13				
21ur-4314	H12I19.26				
21ur-4619	H12I19.49				
21ur-4431	H12I19.44				
21ur-2960	H12I19.16				
21ur-4375	H12I19.15				
21ur-5394	H12I19.29				
21ur-1210	H12I19.22				
21ur-1492	H12I19.51				
21ur-4861	H12I19.43				
21ur-777	H12I19.40				
21ur-2546	H12I19.28				
21ur-5372	H12I19.41				
21ur-5281	H12I19.27				
21ur-5406	H12I19.47				
21ur-2486	H12I19.48				
21ur-1408	H12I19.37				
srz-42	H12I19.1	Serpentine Receptor, class Z family member (srz-42) [Source:RefSeq_peptide;Acc:NP_502707]			
21ur-1969	H12I19.46				
21ur-893	H12I19.38				
21ur-1324	H12I19.12				
21ur-3571	H12I19.20				
srz-59	H12I19.7				
21ur-2064	H12I19.24				
21ur-4794	H12I19.21				
21ur-2564	H12I19.35				
srz-31	H12I19.2	Serpentine Receptor, class Z family member (srz-31) [Source:RefSeq_peptide;Acc:NP_502708]			
21ur-728	H12I19.19				
21ur-4496	H12I19.32				
21ur-5185	H12I19.39				
21ur-771	H12I19.50				
21ur-577	H12I19.30				
srz-30	H12I19.3				
21ur-1960	H12I19.45				
21ur-3965	H12I19.31				
21ur-2974	H12I19.17				
21ur-544	H12I19.14				
H12I19.4	H12I19.4	H12I19.4 [Source:RefSeq_peptide;Acc:NP_502710]			transferase activity, transferring groups other than amino-acyl groups, 
21ur-3356	H12I19.25				
H12I19.5	H12I19.5	H12I19.5a [Source:RefSeq_peptide;Acc:NP_502713]			transferase activity, transferring groups other than amino-acyl groups, 
21ur-4396	H12I19.10				
H12I19.9	H12I19.9				
H12I19.8	H12I19.8	H12I19.8 [Source:RefSeq_peptide;Acc:NP_001023258]			
R05A10.8	R05A10.8	R05A10.8 [Source:RefSeq_peptide;Acc:NP_502714]			
21ur-1426	R05A10.15				
21ur-1886	R05A10.17				
21ur-4184	R05A10.11				
R05A10.7	R05A10.7	R05A10.7 [Source:RefSeq_peptide;Acc:NP_502715]			
21ur-4408	R05A10.28				
21ur-3173	R05A10.26				
21ur-2940	R05A10.20				
21ur-4197	R05A10.36				
21ur-1249	R05A10.12				
21ur-2849	R05A10.14				
21ur-5362	R05A10.42				
R05A10.6	R05A10.6	R05A10.6 [Source:RefSeq_peptide;Acc:NP_502716]			
21ur-2833	R05A10.38				
21ur-5323	R05A10.13				
21ur-3909	R05A10.40				
R05A10.5	R05A10.5	R05A10.5 [Source:RefSeq_peptide;Acc:NP_502717]			
21ur-3014	R05A10.33				
21ur-2022	R05A10.31				
21ur-5373	R05A10.56				
21ur-487	R05A10.16				
21ur-479	R05A10.21				
21ur-1082	R05A10.53				
R05A10.4	R05A10.4	UPF0375 protein R05A10.4 precursor. [Source:Uniprot/SWISSPROT;Acc:O45700]			
21ur-1229	R05A10.46				
21ur-3186	R05A10.60				
R05A10.3	R05A10.3	R05A10.3 [Source:RefSeq_peptide;Acc:NP_502719]			
21ur-3988	R05A10.37				
21ur-4095	R05A10.39				
21ur-59	R05A10.47				
21ur-60	R05A10.29				
21ur-4988	R05A10.34				
21ur-3027	R05A10.22				
21ur-3228	R05A10.48				
21ur-3049	R05A10.19				
R05A10.2	R05A10.2	R05A10.2 [Source:RefSeq_peptide;Acc:NP_502720]			
21ur-3269	R05A10.51				
21ur-169	R05A10.23				
21ur-2609	R05A10.45				
21ur-5169	R05A10.32				
21ur-2689	R05A10.61				
21ur-4108	R05A10.27				
21ur-947	R05A10.50				
21ur-1008	R05A10.44				
21ur-1485	R05A10.54				
21ur-681	R05A10.24				
21ur-3623	R05A10.55				
21ur-3002	R05A10.41				
21ur-3775	R05A10.52				
21ur-1731	R05A10.30				
21ur-172	R05A10.49				
21ur-1063	R05A10.35				
21ur-2413	R05A10.43				
R05A10.1	R05A10.1	R05A10.1 [Source:RefSeq_peptide;Acc:NP_502721]			
21ur-4046	R05A10.57				
21ur-3157	R05A10.18				
21ur-3876	R05A10.58				
21ur-1362	R05A10.25				
21ur-4485	R05A10.59				
R05A10.10	R05A10.10				
K01G12.4	K01G12.4				
21ur-1149	K01G12.7				
21ur-1745	K01G12.8				
21ur-2358	K01G12.5				
K01G12.3	K01G12.3	K01G12.3 [Source:RefSeq_peptide;Acc:NP_502723]			
21ur-4929	K01G12.9				
21ur-4868	K01G12.6				
F02H6.2	F02H6.2	F02H6.2 [Source:RefSeq_peptide;Acc:NP_502724]			
21ur-5228	F02H6.11				
21ur-3561	F02H6.22				
F02H6.1	F02H6.1	F02H6.1 [Source:RefSeq_peptide;Acc:NP_502725]			
21ur-279	F02H6.9				
21ur-4662	F02H6.10				
F02H6.3	F02H6.3	F02H6.3b [Source:RefSeq_peptide;Acc:NP_502727]			
F02H6.4	F02H6.4	F02H6.4 [Source:RefSeq_peptide;Acc:NP_502728]			
F02H6.5	F02H6.5	F02H6.5 [Source:RefSeq_peptide;Acc:NP_502729]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, glycerol-3-phosphate dehydrogenase activity, 
21ur-936	F02H6.17				
21ur-4784	F02H6.8				
21ur-2670	F02H6.21				
21ur-278	F02H6.27				
21ur-2507	F02H6.30				
21ur-1334	F02H6.29				
21ur-5260	F02H6.32				
21ur-1098	F02H6.20				
21ur-5163	F02H6.19				
21ur-1019	F02H6.14				
21ur-2298	F02H6.12				
21ur-3160	F02H6.28				
F02H6.t1	F02H6.t1				
21ur-3968	F02H6.25				
F02H6.7	F02H6.7	F02H6.7 [Source:RefSeq_peptide;Acc:NP_502730]			
21ur-2181	F02H6.18				
21ur-4326	F02H6.13				
21ur-1466	F02H6.16				
21ur-2754	F02H6.33				
21ur-2715	F02H6.24				
21ur-4625	F02H6.31				
21ur-2588	F02H6.26				
F02H6.6	F02H6.6	F02H6.6 [Source:RefSeq_peptide;Acc:NP_502731]			
21ur-2743	F02H6.15				
21ur-3982	F02H6.23				
21ur-2248	Y64G10A.86				
21ur-601	Y64G10A.103				
Y64G10A.9	Y64G10A.9				
21ur-1325	Y64G10A.20				
21ur-1703	Y64G10A.41				
Y64G10A.1	Y64G10A.1	Y64G10A.1 [Source:RefSeq_peptide;Acc:NP_502732]			
21ur-2314	Y64G10A.147				
Y64G10A.12	Y64G10A.12				
21ur-1179	Y64G10A.143				
21ur-5011	Y64G10A.109				
21ur-1629	Y64G10A.157				
21ur-1117	Y64G10A.76				
21ur-2976	Y64G10A.64				
21ur-1234	Y64G10A.37				
Y64G10A.10	Y64G10A.10	Y64G10A.10 [Source:RefSeq_peptide;Acc:NP_001076739]			
21ur-1577	Y64G10A.142				
21ur-1716	Y64G10A.61				
21ur-3957	Y64G10A.113				
Y64G10A.2	Y64G10A.2	Y64G10A.2 [Source:RefSeq_peptide;Acc:NP_502733]	embryonic development ending in birth or egg hatching, 		
21ur-229	Y64G10A.106				
21ur-927	Y64G10A.23				
21ur-2614	Y64G10A.51				
21ur-4694	Y64G10A.36				
21ur-3714	Y64G10A.74				
srab-24	Y64G10A.8	Serpentine Receptor, class AB (class A-like) family member (srab-24) [Source:RefSeq_peptide;Acc:NP_001023547]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
Y64G10A.3	Y64G10A.3	Y64G10A.3 [Source:RefSeq_peptide;Acc:NP_502734]			
21ur-5310	Y64G10A.146				
21ur-5179	Y64G10A.123				
21ur-3506	Y64G10A.129				
21ur-3461	Y64G10A.163				
21ur-3484	Y64G10A.114				
21ur-1602	Y64G10A.40				
21ur-3174	Y64G10A.39				
21ur-3867	Y64G10A.128				
21ur-1131	Y64G10A.56				
21ur-2778	Y64G10A.132				
21ur-3028	Y64G10A.93				
21ur-185	Y64G10A.134				
21ur-3757	Y64G10A.161				
21ur-3576	Y64G10A.118				
21ur-1958	Y64G10A.90				
21ur-3020	Y64G10A.79				
21ur-4580	Y64G10A.18				
21ur-2533	Y64G10A.16				
21ur-2907	Y64G10A.96				
21ur-3817	Y64G10A.72				
21ur-1358	Y64G10A.95				
21ur-5312	Y64G10A.21				
21ur-863	Y64G10A.127				
21ur-2644	Y64G10A.111				
21ur-106	Y64G10A.94				
21ur-840	Y64G10A.153				
21ur-3513	Y64G10A.19				
21ur-3490	Y64G10A.150				
21ur-518	Y64G10A.66				
21ur-102	Y64G10A.35				
21ur-3827	Y64G10A.73				
21ur-4379	Y64G10A.115				
21ur-1902	Y64G10A.63				
21ur-920	Y64G10A.38				
21ur-1020	Y64G10A.97				
21ur-2244	Y64G10A.154				
21ur-5231	Y64G10A.29				
21ur-1974	Y64G10A.84				
21ur-333	Y64G10A.34				
21ur-1317	Y64G10A.42				
21ur-2691	Y64G10A.60				
21ur-3961	Y64G10A.165				
21ur-2796	Y64G10A.82				
21ur-2590	Y64G10A.110				
21ur-4689	Y64G10A.159				
21ur-3485	Y64G10A.88				
21ur-657	Y64G10A.135				
21ur-121	Y64G10A.104				
21ur-5114	Y64G10A.152				
21ur-3074	Y64G10A.22				
21ur-3410	Y64G10A.48				
21ur-2163	Y64G10A.31				
21ur-284	Y64G10A.52				
21ur-699	Y64G10A.44				
Y64G10A.6	Y64G10A.6	Y64G10A.6 [Source:RefSeq_peptide;Acc:NP_502736]	reproduction, 		
21ur-4008	Y64G10A.102				
21ur-4957	Y64G10A.160				
21ur-5380	Y64G10A.100				
21ur-5409	Y64G10A.141				
21ur-2345	Y64G10A.25				
21ur-2496	Y64G10A.124				
21ur-5321	Y64G10A.144				
Y64G10A.13	Y64G10A.13		reproduction, 		
21ur-1251	Y64G10A.75				
21ur-841	Y64G10A.131				
21ur-391	Y64G10A.32				
21ur-1293	Y64G10A.15				
21ur-1647	Y64G10A.26				
21ur-1772	Y64G10A.120				
21ur-2929	Y64G10A.68				
21ur-5004	Y64G10A.162				
21ur-1562	Y64G10A.101				
21ur-2363	Y64G10A.17				
21ur-3595	Y64G10A.107				
21ur-2998	Y64G10A.62				
21ur-3926	Y64G10A.158				
21ur-2043	Y64G10A.49				
21ur-4477	Y64G10A.28				
21ur-425	Y64G10A.148				
21ur-2084	Y64G10A.47				
21ur-1989	Y64G10A.133				
21ur-3866	Y64G10A.43				
21ur-5122	Y64G10A.119				
21ur-2026	Y64G10A.130				
21ur-3964	Y64G10A.112				
21ur-5190	Y64G10A.105				
21ur-3342	Y64G10A.122				
21ur-4828	Y64G10A.69				
21ur-1270	Y64G10A.108				
21ur-4700	Y64G10A.59				
21ur-2586	Y64G10A.67				
21ur-5076	Y64G10A.70				
21ur-2819	Y64G10A.27				
21ur-2744	Y64G10A.57				
Y64G10A.11	Y64G10A.11	Y64G10A.11 [Source:RefSeq_peptide;Acc:NP_001076740]			
21ur-4853	Y64G10A.91				
21ur-4337	Y64G10A.54				
21ur-1578	Y64G10A.116				
21ur-2149	Y64G10A.45				
21ur-5101	Y64G10A.121				
21ur-4168	Y64G10A.99				
21ur-4157	Y64G10A.117				
21ur-4946	Y64G10A.138				
21ur-1552	Y64G10A.137				
21ur-904	Y64G10A.139				
21ur-562	Y64G10A.77				
21ur-1659	Y64G10A.30				
21ur-3730	Y64G10A.98				
Y64G10A.7	Y64G10A.7	The Y64G10A.7 gene encodes a homolog of the human gene FIBRILLIN-1, which when mutated leads to Marfan syndrome (OMIM:154700). [Source: WormBase]	cell communication, 	membrane, 	protein binding, calcium ion binding, 
21ur-1900	Y64G10A.156				
21ur-3742	Y64G10A.89				
21ur-626	Y64G10A.140				
21ur-3552	Y64G10A.80				
21ur-2224	Y64G10A.92				
21ur-5188	Y64G10A.85				
21ur-2884	Y64G10A.71				
21ur-5013	Y64G10A.24				
21ur-320	Y64G10A.58				
21ur-1391	Y64G10A.87				
21ur-1420	Y64G10A.33				
21ur-24	Y64G10A.53				
21ur-5364	Y64G10A.55				
21ur-251	Y64G10A.136				
21ur-4854	Y64G10A.81				
21ur-468	Y64G10A.65				
21ur-4382	Y64G10A.83				
21ur-3543	Y64G10A.46				
21ur-3030	Y64G10A.151				
21ur-1023	Y64G10A.149				
21ur-4376	Y64G10A.125				
21ur-2823	Y64G10A.145				
21ur-4642	Y64G10A.155				
21ur-4643	Y64G10A.50				
21ur-317	Y64G10A.164				
21ur-1166	Y64G10A.126				
21ur-1006	Y67A10A.133				
21ur-1631	Y67A10A.79				
fbxa-126	Y67A10A.5	F-box A protein family member (fbxa-126) [Source:RefSeq_peptide;Acc:NP_502738]			
21ur-672	Y67A10A.81				
21ur-1611	Y67A10A.73				
21ur-2662	Y67A10A.49				
21ur-579	Y67A10A.34				
fbxa-83	Y67A10A.4	F-box A protein family member (fbxa-83) [Source:RefSeq_peptide;Acc:NP_502739]			
21ur-3874	Y67A10A.102				
21ur-3239	Y67A10A.17				
21ur-4505	Y67A10A.122				
21ur-3731	Y67A10A.26				
21ur-138	Y67A10A.77				
Y67A10A.14	Y67A10A.14				
21ur-2151	Y67A10A.82				
21ur-4899	Y67A10A.127				
21ur-88	Y67A10A.56				
Y67A10A.3	Y67A10A.3	Y67A10A.3 [Source:RefSeq_peptide;Acc:NP_502740]			
21ur-4821	Y67A10A.22				
21ur-4334	Y67A10A.108				
Y67A10A.13	Y67A10A.13				
Y67A10A.2	Y67A10A.2	Y67A10A.2 [Source:RefSeq_peptide;Acc:NP_502741]			
21ur-2439	Y67A10A.131				
21ur-4467	Y67A10A.61				
21ur-4233	Y67A10A.52				
21ur-3894	Y67A10A.115				
Y67A10A.11	Y67A10A.11	Y67A10A.11 [Source:RefSeq_peptide;Acc:NP_001076741]			
21ur-761	Y67A10A.112				
21ur-2153	Y67A10A.44				
21ur-879	Y67A10A.121				
21ur-1557	Y67A10A.16				
Y67A10A.10	Y67A10A.10	Y67A10A.10 [Source:RefSeq_peptide;Acc:NP_001023554]			
21ur-1326	Y67A10A.41				
21ur-3084	Y67A10A.106				
21ur-1377	Y67A10A.21				
Y67A10A.1	Y67A10A.1	Y67A10A.1 [Source:RefSeq_peptide;Acc:NP_502742]			transferase activity, transferring groups other than amino-acyl groups, 
21ur-729	Y67A10A.31				
21ur-283	Y67A10A.65				
21ur-5313	Y67A10A.33				
21ur-5160	Y67A10A.144				
21ur-5042	Y67A10A.140				
21ur-1938	Y67A10A.128				
21ur-2926	Y67A10A.90				
21ur-521	Y67A10A.99				
21ur-5031	Y67A10A.125				
21ur-5233	Y67A10A.36				
21ur-2830	Y67A10A.58				
21ur-539	Y67A10A.57				
21ur-844	Y67A10A.27				
21ur-3019	Y67A10A.132				
21ur-1982	Y67A10A.103				
21ur-1072	Y67A10A.25				
21ur-2861	Y67A10A.64				
21ur-3789	Y67A10A.71				
21ur-660	Y67A10A.78				
21ur-3322	Y67A10A.53				
21ur-4840	Y67A10A.72				
ssu-2	Y67A10A.6	Suppressor of Stomatin mutant Uncoordination family member (ssu-2) [Source:RefSeq_peptide;Acc:NP_502743]			
21ur-4423	Y67A10A.92				
21ur-3360	Y67A10A.29				
21ur-3721	Y67A10A.75				
21ur-4435	Y67A10A.62				
21ur-2023	Y67A10A.28				
21ur-4086	Y67A10A.45				
21ur-1049	Y67A10A.20				
21ur-4167	Y67A10A.142				
21ur-2085	Y67A10A.23				
21ur-3517	Y67A10A.100				
21ur-4790	Y67A10A.129				
21ur-35	Y67A10A.139				
21ur-3343	Y67A10A.89				
21ur-1062	Y67A10A.94				
21ur-2518	Y67A10A.135				
21ur-2166	Y67A10A.87				
21ur-3469	Y67A10A.84				
21ur-2556	Y67A10A.30				
21ur-4795	Y67A10A.42				
21ur-710	Y67A10A.24				
21ur-4831	Y67A10A.38				
21ur-5338	Y67A10A.40				
Y67A10A.12	Y67A10A.12				
21ur-1031	Y67A10A.117				
21ur-3770	Y67A10A.130				
21ur-4469	Y67A10A.83				
21ur-2013	Y67A10A.96				
21ur-424	Y67A10A.116				
21ur-1197	Y67A10A.120				
Y67A10A.15	Y67A10A.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4GZU9]			
21ur-4553	Y67A10A.19				
21ur-4138	Y67A10A.97				
21ur-592	Y67A10A.101				
21ur-1581	Y67A10A.43				
21ur-2971	Y67A10A.86				
21ur-1382	Y67A10A.95				
Y67A10A.7	Y67A10A.7	Y67A10A.7 [Source:RefSeq_peptide;Acc:NP_502744]			binding, 
21ur-4905	Y67A10A.143				
21ur-952	Y67A10A.145				
21ur-3400	Y67A10A.104				
21ur-3042	Y67A10A.110				
21ur-4281	Y67A10A.134				
21ur-3406	Y67A10A.85				
21ur-3878	Y67A10A.93				
21ur-2891	Y67A10A.69				
21ur-859	Y67A10A.124				
21ur-1644	Y67A10A.63				
21ur-208	Y67A10A.76				
Y67A10A.8	Y67A10A.8	Y67A10A.8 [Source:RefSeq_peptide;Acc:NP_502745]		integral to membrane, 	
21ur-491	Y67A10A.32				
21ur-466	Y67A10A.119				
21ur-175	Y67A10A.50				
21ur-2240	Y67A10A.109				
21ur-581	Y67A10A.68				
21ur-3454	Y67A10A.37				
21ur-2446	Y67A10A.107				
21ur-47	Y67A10A.48				
21ur-858	Y67A10A.105				
21ur-3156	Y67A10A.114				
21ur-4732	Y67A10A.113				
21ur-5444	Y67A10A.70				
21ur-2243	Y67A10A.136				
21ur-1593	Y67A10A.118				
21ur-286	Y67A10A.55				
21ur-1521	Y67A10A.88				
21ur-5199	Y67A10A.126				
21ur-3959	Y67A10A.67				
21ur-1055	Y67A10A.91				
21ur-2063	Y67A10A.137				
21ur-140	Y67A10A.47				
21ur-5356	Y67A10A.66				
21ur-1258	Y67A10A.35				
21ur-2173	Y67A10A.54				
21ur-4783	Y67A10A.141				
Y67A10A.9	Y67A10A.9	Y67A10A.9 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. Y67A10A.9 is worm-specific, with obvious homologs only in C. elegans. Y67A10A.9 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]		integral to membrane, 	
21ur-1797	Y67A10A.59				
21ur-1981	Y67A10A.80				
21ur-5345	Y67A10A.18				
21ur-147	Y67A10A.39				
21ur-1783	Y67A10A.74				
21ur-567	Y67A10A.138				
21ur-5351	Y67A10A.111				
21ur-1443	Y67A10A.98				
21ur-3723	Y67A10A.46				
21ur-961	Y67A10A.60				
21ur-688	Y67A10A.123				
21ur-3183	Y67A10A.51				
21ur-1933	F55B11.51				
21ur-2479	F55B11.13				
F55B11.1	F55B11.1	The F55B11.1 gene encodes an ortholog of the human gene XANTHINE DEHYDROGENASE (XDH), which when mutated leads to xanthinuria (OMIM:278300). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		metal ion binding, oxidoreductase activity, FAD binding, electron carrier activity, iron-sulfur cluster binding, xanthine dehydrogenase activity, xanthine oxidase activity, 
21ur-5219	F55B11.59				
21ur-4802	F55B11.29				
21ur-3692	F55B11.50				
21ur-3420	F55B11.56				
21ur-3598	F55B11.33				
21ur-9	F55B11.16				
21ur-2270	F55B11.27				
21ur-785	F55B11.26				
21ur-5275	F55B11.25				
21ur-3887	F55B11.21				
21ur-3325	F55B11.41				
21ur-5367	F55B11.9				
21ur-2456	F55B11.49				
21ur-1190	F55B11.12				
21ur-4568	F55B11.31				
21ur-5235	F55B11.32				
21ur-4147	F55B11.30				
21ur-418	F55B11.35				
21ur-3881	F55B11.54				
21ur-3056	F55B11.28				
21ur-4793	F55B11.11				
21ur-3120	F55B11.15				
21ur-4676	F55B11.48				
21ur-1811	F55B11.34				
21ur-4878	F55B11.36				
21ur-3236	F55B11.47				
21ur-2534	F55B11.44				
21ur-2611	F55B11.23				
21ur-1681	F55B11.22				
21ur-1784	F55B11.38				
21ur-1984	F55B11.24				
21ur-5319	F55B11.53				
21ur-5085	F55B11.10				
F55B11.6	F55B11.6	F55B11.6 [Source:RefSeq_peptide;Acc:NP_001023226]			
21ur-4654	F55B11.17				
21ur-3841	F55B11.58				
F55B11.7	F55B11.7	F55B11.7 [Source:RefSeq_peptide;Acc:NP_001076690]			protein binding, 
21ur-4947	F55B11.43				
21ur-4769	F55B11.57				
21ur-5423	F55B11.40				
21ur-3333	F55B11.52				
F55B11.2	F55B11.2	F55B11.2 [Source:RefSeq_peptide;Acc:NP_502748]	embryonic development ending in birth or egg hatching, 		
21ur-1283	F55B11.14				
21ur-1898	F55B11.42				
F55B11.3	F55B11.3	F55B11.3 [Source:RefSeq_peptide;Acc:NP_502749]			
F55B11.5	F55B11.5	F55B11.5 [Source:RefSeq_peptide;Acc:NP_001023225]			
21ur-411	F55B11.19				
F55B11.4	F55B11.4	F55B11.4 [Source:RefSeq_peptide;Acc:NP_502750]		intracellular, 	zinc ion binding, nucleic acid binding, 
21ur-4387	F55B11.45				
21ur-3224	F55B11.18				
21ur-5180	F55B11.46				
21ur-1661	F55B11.37				
21ur-709	F55B11.39				
21ur-4026	F55B11.8				
21ur-4361	F55B11.55				
21ur-3729	F55B11.20				
21ur-2257	LLC1.25				
21ur-4873	LLC1.23				
21ur-4182	LLC1.14				
21ur-2734	LLC1.8				
21ur-3520	LLC1.21				
tra-3	LLC1.1	tra-3 encodes an atypical calpain regulatory protease that lacks calcium-binding EF hand domains. during development, TRA-3 likely promotes female development in XX hermaphrodites by cleaving the membrane-associated TRA-2A protein to generate a TRA-2 peptide likely to have feminizing activity. in addition, TRA-3 is one of several proteases that mediate necrotic cell death during neurodegeneration. [Source: WormBase]	proteolysis, cell death, female germ-line sex determination, feminization of hermaphrodite soma, 	membrane, intracellular, 	cysteine-type endopeptidase activity, calcium-dependent cysteine-type endopeptidase activity, 
21ur-2134	LLC1.39				
21ur-1077	LLC1.19				
21ur-598	LLC1.32				
21ur-2853	LLC1.38				
21ur-1679	LLC1.43				
21ur-442	LLC1.33				
21ur-1487	LLC1.45				
21ur-4245	LLC1.41				
21ur-852	LLC1.28				
21ur-1871	LLC1.16				
21ur-1438	LLC1.6				
21ur-3472	LLC1.13				
21ur-1081	LLC1.29				
21ur-1842	LLC1.44				
21ur-5049	LLC1.30				
21ur-2764	LLC1.26				
21ur-3044	LLC1.27				
21ur-916	LLC1.31				
21ur-2065	LLC1.36				
21ur-5173	LLC1.18				
21ur-4786	LLC1.15				
21ur-1524	LLC1.7				
21ur-1885	LLC1.22				
21ur-4100	LLC1.24				
LLC1.2	LLC1.2	LLC1.2 [Source:RefSeq_peptide;Acc:NP_502752]			
21ur-5258	LLC1.10				
21ur-3688	LLC1.17				
21ur-726	LLC1.11				
21ur-5077	LLC1.42				
21ur-3382	LLC1.12				
21ur-400	LLC1.9				
21ur-5017	LLC1.37				
21ur-898	LLC1.34				
21ur-3363	LLC1.35				
21ur-719	LLC1.5				
21ur-3824	LLC1.40				
21ur-3995	LLC1.20				
LLC1.3	LLC1.3	LLC1.3 is orthologous to the human gene DIHYDROLIPOAMIDE DEHYDROGENASE (DLD. OMIM:246900), which when mutated leads to dihydrolipoamide dehydrogenase deficiency. LLC1.3 protein is predicted to be mitochondrial. [Source: WormBase]	electron transport, response to oxidative stress, cell redox homeostasis, embryonic development ending in birth or egg hatching, 	cytoplasm, 	oxidoreductase activity, peroxidase activity, FAD binding, heme binding, dihydrolipoyl dehydrogenase activity, 
21ur-5238	Y67A10B.2				
21ur-3971	Y67A10B.1				
21ur-399	Y57G11A.77				
21ur-1670	Y57G11A.67				
21ur-713	Y57G11A.60				
21ur-1345	Y57G11A.10				
21ur-2697	Y57G11A.37				
21ur-5329	Y57G11A.68				
21ur-4061	Y57G11A.11				
21ur-3596	Y57G11A.71				
21ur-359	Y57G11A.82				
21ur-2343	Y57G11A.23				
21ur-2742	Y57G11A.52				
21ur-4134	Y57G11A.15				
21ur-1727	Y57G11A.81				
21ur-1831	Y57G11A.65				
21ur-4096	Y57G11A.62				
21ur-5019	Y57G11A.29				
21ur-1053	Y57G11A.12				
21ur-2353	Y57G11A.21				
21ur-1096	Y57G11A.70				
Y57G11A.4	Y57G11A.4	Y57G11A.4 [Source:RefSeq_peptide;Acc:NP_502754]			
21ur-4573	Y57G11A.75				
21ur-1301	Y57G11A.30				
21ur-4875	Y57G11A.44				
21ur-3159	Y57G11A.45				
21ur-3193	Y57G11A.76				
21ur-4450	Y57G11A.55				
21ur-3354	Y57G11A.25				
21ur-1667	Y57G11A.46				
21ur-4500	Y57G11A.35				
21ur-750	Y57G11A.27				
21ur-3473	Y57G11A.28				
tag-273	Y57G11A.1	Temporarily Assigned Gene name family member (tag-273) [Source:RefSeq_peptide;Acc:NP_001023516]	gamete generation, 		zinc ion binding, 
21ur-5327	Y57G11A.47				
21ur-2437	Y57G11A.58				
21ur-2671	Y57G11A.41				
21ur-3114	Y57G11A.17				
21ur-5000	Y57G11A.38				
21ur-346	Y57G11A.31				
21ur-2494	Y57G11A.36				
21ur-2719	Y57G11A.9				
21ur-5142	Y57G11A.57				
21ur-1968	Y57G11A.13				
21ur-4748	Y57G11A.22				
21ur-4272	Y57G11A.78				
21ur-1793	Y57G11A.80				
21ur-4819	Y57G11A.53				
21ur-5450	Y57G11A.16				
21ur-5227	Y57G11A.24				
21ur-1675	Y57G11A.42				
21ur-1115	Y57G11A.72				
21ur-3708	Y57G11A.56				
21ur-1668	Y57G11A.79				
21ur-3746	Y57G11A.59				
21ur-3125	Y57G11A.73				
Y57G11A.3	Y57G11A.3	Y57G11A.3 [Source:RefSeq_peptide;Acc:NP_502756]			zinc ion binding, 
21ur-1196	Y57G11A.74				
21ur-2238	Y57G11A.40				
21ur-600	Y57G11A.51				
21ur-2062	Y57G11A.64				
21ur-1515	Y57G11A.39				
21ur-3358	Y57G11A.48				
21ur-4554	Y57G11A.18				
21ur-4464	Y57G11A.19				
21ur-907	Y57G11A.54				
21ur-3942	Y57G11A.8				
21ur-2498	Y57G11A.49				
21ur-4220	Y57G11A.43				
21ur-901	Y57G11A.69				
21ur-1964	Y57G11A.66				
21ur-3628	Y57G11A.33				
21ur-205	Y57G11A.20				
21ur-3021	Y57G11A.32				
21ur-4638	Y57G11A.14				
21ur-4991	Y57G11A.63				
21ur-309	Y57G11A.50				
21ur-3396	Y57G11A.7				
21ur-5084	Y57G11A.83				
21ur-1504	Y57G11A.61				
Y57G11A.5	Y57G11A.5	Y57G11A.5 [Source:RefSeq_peptide;Acc:NP_502757]			nucleotide binding, nucleic acid binding, 
21ur-4592	Y57G11A.26				
srh-64	Y57G11A.6				
21ur-4191	Y57G11A.34				
Y57G11A.2	Y57G11A.2	Y57G11A.2 [Source:RefSeq_peptide;Acc:NP_502758]			
T27E7.1	T27E7.1	T27E7.1 [Source:RefSeq_peptide;Acc:NP_502759]			
21ur-4297	T27E7.23				
srh-65	T27E7.2				
srh-63	T27E7.8	Serpentine Receptor, class H family member (srh-63) [Source:RefSeq_peptide;Acc:NP_001023404]			
21ur-1872	T27E7.15				
21ur-1091	T27E7.25				
21ur-45	T27E7.28				
21ur-5242	T27E7.16				
T27E7.12	T27E7.12				
21ur-3029	T27E7.24				
21ur-616	T27E7.22				
T27E7.3	T27E7.3	T27E7.3 [Source:RefSeq_peptide;Acc:NP_502761]			
21ur-2864	T27E7.32				
21ur-3451	T27E7.34				
T27E7.10	T27E7.10				
21ur-1030	T27E7.18				
T27E7.4	T27E7.4	T27E7.4 [Source:RefSeq_peptide;Acc:NP_502762]			
21ur-3950	T27E7.36				
21ur-4566	T27E7.17				
21ur-793	T27E7.14				
21ur-4864	T27E7.30				
T27E7.5	T27E7.5	T27E7.5 [Source:RefSeq_peptide;Acc:NP_502763]			
21ur-3371	T27E7.19				
21ur-1213	T27E7.31				
21ur-4016	T27E7.20				
21ur-4811	T27E7.35				
T27E7.6	T27E7.6	T27E7.6 [Source:RefSeq_peptide;Acc:NP_502764]	protein amino acid phosphorylation, glycogen biosynthetic process, 	phosphorylase kinase complex, 	ATP binding, calmodulin binding, 
21ur-485	T27E7.37				
21ur-1794	T27E7.33				
21ur-3316	T27E7.13				
21ur-2782	T27E7.29				
T27E7.11	T27E7.11				
21ur-2655	T27E7.21				
T27E7.9	T27E7.9	T27E7.9 [Source:RefSeq_peptide;Acc:NP_001023405]			transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer, 
21ur-1606	T27E7.27				
21ur-738	T27E7.26				
Y57G11B.1	Y57G11B.1	Y57G11B.1 [Source:RefSeq_peptide;Acc:NP_502766]			
21ur-4648	Y57G11B.63				
21ur-3694	Y57G11B.60				
Y57G11B.6	Y57G11B.6	Y57G11B.6 [Source:RefSeq_peptide;Acc:NP_001023518]			
21ur-4461	Y57G11B.94				
21ur-3481	Y57G11B.33				
21ur-1918	Y57G11B.21				
21ur-2646	Y57G11B.50				
21ur-1934	Y57G11B.20				
21ur-2889	Y57G11B.44				
21ur-3813	Y57G11B.93				
21ur-3862	Y57G11B.90				
21ur-1200	Y57G11B.85				
21ur-481	Y57G11B.11				
21ur-1944	Y57G11B.70				
21ur-583	Y57G11B.30				
21ur-5292	Y57G11B.42				
21ur-2859	Y57G11B.18				
21ur-2148	Y57G11B.9				
21ur-2040	Y57G11B.31				
21ur-4285	Y57G11B.68				
21ur-5333	Y57G11B.55				
21ur-1233	Y57G11B.76				
21ur-4236	Y57G11B.23				
21ur-151	Y57G11B.62				
21ur-4712	Y57G11B.26				
21ur-3373	Y57G11B.19				
Y57G11B.2	Y57G11B.2	Y57G11B.2 [Source:RefSeq_peptide;Acc:NP_502767]			
21ur-2146	Y57G11B.43				
21ur-682	Y57G11B.47				
21ur-4524	Y57G11B.35				
21ur-2962	Y57G11B.92				
21ur-1603	Y57G11B.39				
21ur-4967	Y57G11B.45				
21ur-414	Y57G11B.59				
21ur-571	Y57G11B.37				
21ur-4986	Y57G11B.28				
21ur-1795	Y57G11B.69				
21ur-4185	Y57G11B.25				
21ur-1777	Y57G11B.49				
21ur-4837	Y57G11B.86				
Y57G11B.3	Y57G11B.3	Y57G11B.3 [Source:RefSeq_peptide;Acc:NP_502768]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
21ur-1155	Y57G11B.87				
21ur-1805	Y57G11B.75				
21ur-469	Y57G11B.36				
21ur-1943	Y57G11B.40				
21ur-2887	Y57G11B.79				
Y57G11B.5	Y57G11B.5	Y57G11B.5 [Source:RefSeq_peptide;Acc:NP_502769]			
Y57G11B.4	Y57G11B.4				
21ur-3653	Y57G11B.34				
Y57G11B.t1	Y57G11B.t1				
21ur-5344	Y57G11B.91				
Y57G11B.8	Y57G11B.8				
21ur-5113	Y57G11B.15				
21ur-4455	Y57G11B.96				
21ur-2827	Y57G11B.46				
Y57G11B.7	Y57G11B.7	Y57G11B.7 [Source:RefSeq_peptide;Acc:NP_001023519]			
21ur-1822	Y57G11B.71				
21ur-635	Y57G11B.57				
21ur-3064	Y57G11B.61				
21ur-2961	Y57G11B.13				
21ur-4487	Y57G11B.72				
21ur-489	Y57G11B.52				
21ur-368	Y57G11B.12				
21ur-2465	Y57G11B.41				
21ur-2476	Y57G11B.73				
21ur-800	Y57G11B.54				
21ur-1907	Y57G11B.10				
21ur-3713	Y57G11B.64				
21ur-1473	Y57G11B.53				
21ur-3415	Y57G11B.82				
21ur-146	Y57G11B.22				
21ur-1044	Y57G11B.74				
21ur-958	Y57G11B.67				
21ur-1509	Y57G11B.88				
21ur-2717	Y57G11B.77				
21ur-2005	Y57G11B.38				
21ur-4341	Y57G11B.27				
21ur-3475	Y57G11B.14				
21ur-3364	Y57G11B.56				
21ur-4349	Y57G11B.29				
21ur-3456	Y57G11B.48				
21ur-2131	Y57G11B.24				
21ur-3243	Y57G11B.51				
21ur-3896	Y57G11B.16				
21ur-5068	Y57G11B.95				
21ur-4443	Y57G11B.32				
21ur-747	Y57G11B.81				
21ur-3750	Y57G11B.89				
21ur-865	Y57G11B.58				
21ur-3863	Y57G11B.65				
21ur-3221	Y57G11B.80				
21ur-3395	Y57G11B.66				
21ur-3018	Y57G11B.84				
21ur-84	Y57G11B.78				
21ur-4012	Y57G11B.83				
21ur-5198	Y57G11B.17				
21ur-1138	F13G11.34				
21ur-5036	F13G11.27				
21ur-4815	F13G11.21				
21ur-2475	F13G11.46				
21ur-4356	F13G11.15				
21ur-1690	F13G11.11				
21ur-4172	F13G11.23				
21ur-381	F13G11.41				
21ur-3495	F13G11.30				
21ur-4574	F13G11.14				
21ur-2459	F13G11.25				
21ur-2216	F13G11.17				
21ur-3359	F13G11.44				
21ur-3741	F13G11.40				
21ur-2786	F13G11.5				
21ur-1087	F13G11.33				
21ur-4688	F13G11.43				
21ur-1244	F13G11.22				
21ur-4954	F13G11.8				
21ur-1705	F13G11.37				
21ur-1026	F13G11.52				
21ur-3665	F13G11.20				
21ur-272	F13G11.47				
21ur-3479	F13G11.16				
21ur-1880	F13G11.54				
F13G11.t1	F13G11.t1				
21ur-1027	F13G11.55				
21ur-2513	F13G11.19				
dmd-6	F13G11.1	DM (Doublesex/MAB-3) Domain family member (dmd-6) [Source:RefSeq_peptide;Acc:NP_502770]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	protein binding, DNA binding, transcription factor activity, structural constituent of cell wall, 
21ur-4363	F13G11.38				
21ur-5138	F13G11.18				
21ur-3690	F13G11.9				
21ur-5342	F13G11.10				
21ur-3888	F13G11.36				
21ur-241	F13G11.12				
21ur-4058	F13G11.48				
21ur-2334	F13G11.35				
21ur-1707	F13G11.42				
21ur-4080	F13G11.29				
21ur-4040	F13G11.53				
21ur-4923	F13G11.50				
21ur-3418	F13G11.24				
21ur-5391	F13G11.51				
21ur-3040	F13G11.28				
21ur-183	F13G11.31				
21ur-2913	F13G11.7				
21ur-2412	F13G11.49				
21ur-3270	F13G11.32				
21ur-1434	F13G11.39				
21ur-3540	F13G11.26				
21ur-3967	F13G11.45				
F13G11.2	F13G11.2	F13G11.2 [Source:RefSeq_peptide;Acc:NP_502772]			
21ur-3736	F13G11.4				
21ur-5040	F13G11.13				
F13G11.3	F13G11.3	F13G11.3 [Source:RefSeq_peptide;Acc:NP_001076679]			
21ur-1878	F13G11.6				
Y57G11C.39	Y57G11C.39	Y57G11C.39 [Source:RefSeq_peptide;Acc:NP_001023523]			
21ur-3237	Y57G11C.140				
21ur-2424	Y57G11C.86				
21ur-2918	Y57G11C.61				
21ur-2301	Y57G11C.260				
21ur-864	Y57G11C.340				
21ur-3886	Y57G11C.440				
21ur-2543	Y57G11C.301				
21ur-2858	Y57G11C.388				
21ur-4541	Y57G11C.83				
21ur-1122	Y57G11C.302				
21ur-835	Y57G11C.196				
21ur-2263	Y57G11C.344				
21ur-2747	Y57G11C.363				
Y57G11C.32	Y57G11C.32	Y57G11C.32 [Source:RefSeq_peptide;Acc:NP_502773]			
21ur-2044	Y57G11C.320				
21ur-2882	Y57G11C.138				
21ur-3085	Y57G11C.293				
21ur-845	Y57G11C.253				
21ur-2594	Y57G11C.85				
21ur-5346	Y57G11C.318				
21ur-2862	Y57G11C.261				
21ur-351	Y57G11C.120				
21ur-4411	Y57G11C.428				
21ur-2107	Y57G11C.454				
21ur-1459	Y57G11C.486				
21ur-4169	Y57G11C.368				
21ur-2317	Y57G11C.387				
21ur-3227	Y57G11C.274				
21ur-928	Y57G11C.200				
21ur-1435	Y57G11C.370				
21ur-1604	Y57G11C.472				
21ur-553	Y57G11C.67				
21ur-2364	Y57G11C.452				
21ur-1086	Y57G11C.218				
21ur-1838	Y57G11C.256				
21ur-1425	Y57G11C.365				
21ur-2765	Y57G11C.349				
21ur-2068	Y57G11C.409				
21ur-2577	Y57G11C.307				
21ur-3691	Y57G11C.492				
Y57G11C.56	Y57G11C.56	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3RMU5]			
Y57G11C.33	Y57G11C.33	Y57G11C.33 [Source:RefSeq_peptide;Acc:NP_502774]			
21ur-5343	Y57G11C.132				
21ur-722	Y57G11C.322				
21ur-4321	Y57G11C.279				
21ur-723	Y57G11C.275				
21ur-1253	Y57G11C.215				
21ur-868	Y57G11C.164				
21ur-5436	Y57G11C.364				
21ur-979	Y57G11C.497				
Y57G11C.37	Y57G11C.37	Y57G11C.37 [Source:RefSeq_peptide;Acc:NP_872101]			
21ur-4866	Y57G11C.487				
21ur-435	Y57G11C.308				
21ur-2105	Y57G11C.326				
21ur-4468	Y57G11C.321				
21ur-2001	Y57G11C.235				
21ur-2654	Y57G11C.396				
21ur-3659	Y57G11C.427				
21ur-5358	Y57G11C.115				
21ur-819	Y57G11C.352				
21ur-4216	Y57G11C.354				
21ur-554	Y57G11C.109				
21ur-4219	Y57G11C.421				
21ur-2049	Y57G11C.457				
21ur-4523	Y57G11C.187				
21ur-5264	Y57G11C.234				
21ur-3674	Y57G11C.80				
21ur-5308	Y57G11C.258				
21ur-4764	Y57G11C.224				
21ur-2436	Y57G11C.217				
21ur-4605	Y57G11C.105				
21ur-3722	Y57G11C.300				
21ur-2773	Y57G11C.327				
21ur-1694	Y57G11C.189				
21ur-3351	Y57G11C.466				
21ur-3865	Y57G11C.286				
21ur-1100	Y57G11C.277				
21ur-3214	Y57G11C.461				
21ur-2061	Y57G11C.245				
21ur-5226	Y57G11C.406				
21ur-2510	Y57G11C.395				
21ur-2762	Y57G11C.306				
21ur-5080	Y57G11C.68				
21ur-2111	Y57G11C.201				
21ur-234	Y57G11C.118				
21ur-2885	Y57G11C.303				
21ur-945	Y57G11C.259				
21ur-538	Y57G11C.291				
21ur-4332	Y57G11C.294				
21ur-186	Y57G11C.338				
21ur-1554	Y57G11C.315				
21ur-377	Y57G11C.103				
Y57G11C.31	Y57G11C.31	Y57G11C.31 [Source:RefSeq_peptide;Acc:NP_502775]	biological_process, 		
21ur-994	Y57G11C.173				
21ur-3001	Y57G11C.125				
21ur-4844	Y57G11C.379				
21ur-5304	Y57G11C.70				
21ur-5269	Y57G11C.485				
21ur-2678	Y57G11C.151				
21ur-3111	Y57G11C.305				
21ur-1553	Y57G11C.269				
21ur-1431	Y57G11C.185				
21ur-930	Y57G11C.265				
21ur-4659	Y57G11C.266				
21ur-1970	Y57G11C.480				
21ur-3890	Y57G11C.381				
21ur-856	Y57G11C.312				
21ur-643	Y57G11C.221				
21ur-2312	Y57G11C.333				
21ur-628	Y57G11C.147				
21ur-2373	Y57G11C.65				
21ur-4936	Y57G11C.133				
21ur-160	Y57G11C.204				
21ur-2603	Y57G11C.99				
haf-8	Y57G11C.1	The haf-8 gene encodes a homolog of human CHM, which when mutated leads to choroideraemia (OMIM:303100). [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
21ur-3924	Y57G11C.170				
21ur-1605	Y57G11C.493				
21ur-2154	Y57G11C.158				
21ur-3974	Y57G11C.443				
21ur-504	Y57G11C.347				
21ur-493	Y57G11C.402				
21ur-3022	Y57G11C.337				
21ur-63	Y57G11C.336				
21ur-1299	Y57G11C.205				
21ur-2204	Y57G11C.390				
21ur-1513	Y57G11C.139				
21ur-4750	Y57G11C.222				
Y57G11C.40	Y57G11C.40	Y57G11C.40 [Source:RefSeq_peptide;Acc:NP_001023524]			
21ur-1483	Y57G11C.160				
21ur-3927	Y57G11C.116				
21ur-1442	Y57G11C.267				
21ur-1193	Y57G11C.448				
Y57G11C.41	Y57G11C.41	Y57G11C.41 [Source:RefSeq_peptide;Acc:NP_001023525]			
21ur-2215	Y57G11C.171				
21ur-1537	Y57G11C.247				
21ur-1135	Y57G11C.150				
21ur-651	Y57G11C.415				
21ur-3979	Y57G11C.331				
21ur-510	Y57G11C.252				
lgc-7	Y57G11C.2	Y57G11C.2 [Source:RefSeq_peptide;Acc:NP_502777]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
21ur-4325	Y57G11C.169				
21ur-4634	Y57G11C.399				
21ur-2916	Y57G11C.498				
21ur-2620	Y57G11C.314				
21ur-2128	Y57G11C.280				
21ur-1304	Y57G11C.102				
21ur-2123	Y57G11C.134				
21ur-4896	Y57G11C.378				
21ur-2677	Y57G11C.323				
21ur-3981	Y57G11C.174				
21ur-739	Y57G11C.220				
21ur-4772	Y57G11C.75				
lgc-8	Y57G11C.49	Putative uncharacterized protein lgc-8. [Source:Uniprot/SPTREMBL;Acc:Q6BEQ0]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
21ur-1624	Y57G11C.335				
21ur-2680	Y57G11C.146				
21ur-4595	Y57G11C.289				
21ur-1873	Y57G11C.142				
21ur-1105	Y57G11C.429				
21ur-3790	Y57G11C.62				
21ur-2406	Y57G11C.348				
21ur-2409	Y57G11C.94				
21ur-2951	Y57G11C.358				
21ur-5069	Y57G11C.296				
21ur-1369	Y57G11C.182				
21ur-1000	Y57G11C.144				
21ur-891	Y57G11C.494				
21ur-1353	Y57G11C.447				
21ur-4459	Y57G11C.386				
21ur-4956	Y57G11C.456				
21ur-3339	Y57G11C.382				
21ur-2785	Y57G11C.228				
21ur-3470	Y57G11C.262				
21ur-4400	Y57G11C.58				
21ur-5183	Y57G11C.250				
21ur-2097	Y57G11C.117				
21ur-3047	Y57G11C.436				
21ur-2493	Y57G11C.213				
21ur-3088	Y57G11C.159				
21ur-1371	Y57G11C.288				
21ur-1775	Y57G11C.123				
21ur-4079	Y57G11C.360				
21ur-1349	Y57G11C.285				
21ur-438	Y57G11C.168				
Y57G11C.42	Y57G11C.42	Y57G11C.42 [Source:RefSeq_peptide;Acc:NP_001023526]			
21ur-3503	Y57G11C.425				
21ur-32	Y57G11C.248				
21ur-4301	Y57G11C.249				
21ur-5441	Y57G11C.113				
21ur-1185	Y57G11C.463				
21ur-3259	Y57G11C.408				
21ur-4246	Y57G11C.391				
21ur-4075	Y57G11C.384				
21ur-1102	Y57G11C.161				
21ur-1863	Y57G11C.462				
21ur-5318	Y57G11C.380				
21ur-2227	Y57G11C.393				
21ur-1697	Y57G11C.372				
21ur-3175	Y57G11C.112				
21ur-1953	Y57G11C.464				
21ur-1184	Y57G11C.236				
21ur-1723	Y57G11C.66				
21ur-990	Y57G11C.212				
21ur-5454	Y57G11C.180				
21ur-3407	Y57G11C.473				
21ur-826	Y57G11C.374				
21ur-4214	Y57G11C.81				
21ur-2809	Y57G11C.129				
21ur-4045	Y57G11C.475				
21ur-2840	Y57G11C.110				
21ur-5197	Y57G11C.135				
21ur-3702	Y57G11C.278				
21ur-4531	Y57G11C.193				
21ur-4320	Y57G11C.287				
21ur-1747	Y57G11C.89				
21ur-1956	Y57G11C.211				
21ur-1005	Y57G11C.76				
21ur-3604	Y57G11C.137				
21ur-524	Y57G11C.246				
21ur-4230	Y57G11C.375				
21ur-5208	Y57G11C.91				
21ur-2923	Y57G11C.90				
21ur-2799	Y57G11C.297				
21ur-2400	Y57G11C.420				
Y57G11C.7	Y57G11C.7	Y57G11C.7 [Source:RefSeq_peptide;Acc:NP_502778]			
21ur-136	Y57G11C.362				
21ur-2451	Y57G11C.202				
21ur-4839	Y57G11C.69				
21ur-2186	Y57G11C.470				
21ur-2921	Y57G11C.183				
Y57G11C.6	Y57G11C.6	Y57G11C.6 [Source:RefSeq_peptide;Acc:NP_502779]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y57G11C.5	Y57G11C.5	Y57G11C.5 [Source:RefSeq_peptide;Acc:NP_502780]			serine-type endopeptidase inhibitor activity, 
21ur-2553	Y57G11C.290				
21ur-941	Y57G11C.271				
21ur-4094	Y57G11C.239				
21ur-3468	Y57G11C.282				
21ur-1572	Y57G11C.64				
NR_000397.1	Y57G11C.35	Y57G11C.35, snRNA [Source:RefSeq_dna;Acc:NR_000397]			
Y57G11C.4	Y57G11C.4	Y57G11C.4 [Source:RefSeq_peptide;Acc:NP_502781]	intracellular protein transport, vesicle-mediated transport, 	membrane, 	protein binding, 
Y57G11C.34	Y57G11C.34	28S ribosomal protein S7, mitochondrial precursor (S7mt) (MRP-S7). [Source:Uniprot/SWISSPROT;Acc:Q95Q11]	translation, 	intracellular, ribosome, cytosolic small ribosomal subunit (sensu Eukaryota), 	RNA binding, structural constituent of ribosome, 
Y57G11C.3	Y57G11C.3	Putative 6-phosphogluconolactonase (EC 3.1.1.31) (6PGL). [Source:Uniprot/SWISSPROT;Acc:O18229]	carbohydrate metabolic process, pentose-phosphate shunt, 		6-phosphogluconolactonase activity, 
Y57G11C.43	Y57G11C.43	Y57G11C.43 [Source:RefSeq_peptide;Acc:NP_001023527]			nucleotide binding, nucleoside-triphosphatase activity, 
Y57G11C.44	Y57G11C.44	Y57G11C.44 [Source:RefSeq_peptide;Acc:NP_001023528]	sodium ion transport, 	membrane, 	sodium channel activity, 
Y57G11C.36	Y57G11C.36	Y57G11C.36 [Source:RefSeq_peptide;Acc:NP_872088]			RNA binding, 
Y57G11C.51	Y57G11C.51	Y57G11C.51 [Source:RefSeq_peptide;Acc:NP_001023535]			
Y57G11C.57	Y57G11C.57				
Y57G11C.8	Y57G11C.8	Y57G11C.8 [Source:RefSeq_peptide;Acc:NP_502784]			
Y57G11C.45	Y57G11C.45	Y57G11C.45 [Source:RefSeq_peptide;Acc:NP_001023529]			
Y57G11C.9	Y57G11C.9	Y57G11C.9b [Source:RefSeq_peptide;Acc:NP_502785]			nucleotide binding, protein binding, nucleic acid binding, 
gdi-1	Y57G11C.10	gdi-1 encodes a member of the Rab GDP dissociation inhibitor (GDI) family with high similarity to Drosophila Gdi. expressed around the pharyngeal, vulval, and tail regions. [Source: WormBase]	protein transport, regulation of GTPase activity, embryonic development ending in birth or egg hatching, 		Rab GDP-dissociation inhibitor activity, 
coq-3	Y57G11C.11	coq-3 encodes a putative 3,4-dihydroxy-5-hexaprenylbenzoate methyltransferase, orthologous to S. cerevisiae COQ3. by orthology, COQ-3 is predicted to be in a complex with COQ-4 (and perhaps COQ-6), and to be required for two different steps of ubiquinone synthesis. COQ-3 is required for viability, ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-3 null mutations are lethal. coq-3(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. [Source: WormBase]	metabolic process, ubiquinone biosynthetic process, nematode larval development, determination of adult life span, 	cellular_component, 	methyltransferase activity, 2-polyprenyl-6-methoxy-1,4-benzoquinone methyltransferase activity, 
nuo-3	Y57G11C.12	NADH Ubiquinone Oxidoreductase family member (nuo-3) [Source:RefSeq_peptide;Acc:NP_502790]	embryonic development ending in birth or egg hatching, 		
arl-8	Y57G11C.13	ARF-Like family member (arl-8) [Source:RefSeq_peptide;Acc:NP_502791]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
Y57G11C.14	Y57G11C.14	Y57G11C.14 [Source:RefSeq_peptide;Acc:NP_502792]			
Y57G11C.54	Y57G11C.54				
21ur-4457	Y57G11C.96				
21ur-2423	Y57G11C.141				
21ur-3966	Y57G11C.438				
21ur-2757	Y57G11C.194				
Y57G11C.50	Y57G11C.50	Y57G11C.50 [Source:RefSeq_peptide;Acc:NP_001023534]			
21ur-4671	Y57G11C.209				
21ur-4540	Y57G11C.101				
21ur-3818	Y57G11C.71				
21ur-4824	Y57G11C.121				
21ur-4597	Y57G11C.459				
21ur-4791	Y57G11C.413				
21ur-5070	Y57G11C.434				
21ur-3294	Y57G11C.100				
21ur-1128	Y57G11C.376				
Y57G11C.46	Y57G11C.46	Y57G11C.46 [Source:RefSeq_peptide;Acc:NP_001023530]		membrane, 	transmembrane receptor activity, 
21ur-7	Y57G11C.445				
21ur-75	Y57G11C.165				
21ur-1246	Y57G11C.474				
21ur-2739	Y57G11C.465				
21ur-1032	Y57G11C.241				
21ur-87	Y57G11C.353				
21ur-4013	Y57G11C.446				
21ur-1239	Y57G11C.283				
21ur-2420	Y57G11C.155				
21ur-4892	Y57G11C.351				
21ur-4823	Y57G11C.131				
21ur-2595	Y57G11C.130				
Y57G11C.15	Y57G11C.15	Y57G11C.15 [Source:RefSeq_peptide;Acc:NP_502793]	dicarboxylic acid transport, protein secretion, biological_process, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, sodium:dicarboxylate symporter activity, 
rps-18	Y57G11C.16	rps-18 encodes a small ribosomal subunit S18 protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	RNA binding, structural constituent of ribosome, 
hhat-2	Y57G11C.17	Homolog of Hedgehog AcylTransferase family member (hhat-2) [Source:RefSeq_peptide;Acc:NP_502795]	growth, 		
21ur-884	Y57G11C.317				
21ur-1990	Y57G11C.488				
21ur-3860	Y57G11C.178				
21ur-1001	Y57G11C.92				
21ur-4146	Y57G11C.292				
21ur-4463	Y57G11C.126				
21ur-3772	Y57G11C.127				
21ur-4338	Y57G11C.74				
21ur-832	Y57G11C.430				
21ur-1094	Y57G11C.481				
21ur-3519	Y57G11C.483				
21ur-4518	Y57G11C.119				
21ur-4489	Y57G11C.433				
21ur-981	Y57G11C.389				
21ur-3290	Y57G11C.341				
21ur-3747	Y57G11C.450				
21ur-2302	Y57G11C.273				
21ur-364	Y57G11C.304				
21ur-4626	Y57G11C.411				
21ur-3231	Y57G11C.251				
21ur-3135	Y57G11C.418				
Y57G11C.22	Y57G11C.22	Y57G11C.22a [Source:RefSeq_peptide;Acc:NP_001041046]			protein binding, 
21ur-847	Y57G11C.319				
Y57G11C.18	Y57G11C.18	Y57G11C.18 [Source:RefSeq_peptide;Acc:NP_502798]	defense response, 		nucleotide binding, nucleoside-triphosphatase activity, 
Y57G11C.20	Y57G11C.20	Y57G11C.20 [Source:RefSeq_peptide;Acc:NP_502799]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
Y57G11C.21	Y57G11C.21	Y57G11C.21 [Source:RefSeq_peptide;Acc:NP_502800]			ribonucleoside-diphosphate reductase activity, 
21ur-5055	Y57G11C.328				
21ur-408	Y57G11C.148				
21ur-4835	Y57G11C.316				
21ur-4403	Y57G11C.416				
21ur-2019	Y57G11C.195				
21ur-4065	Y57G11C.342				
21ur-287	Y57G11C.329				
21ur-5250	Y57G11C.152				
21ur-3254	Y57G11C.136				
21ur-1739	Y57G11C.198				
Y57G11C.52	Y57G11C.52	Y57G11C.52 [Source:RefSeq_peptide;Acc:NP_001041051]			
21ur-1734	Y57G11C.419				
Y57G11C.23	Y57G11C.23	Y57G11C.23 [Source:RefSeq_peptide;Acc:NP_502801]	transport, 	integral to membrane, 	transporter activity, 
21ur-260	Y57G11C.163				
21ur-204	Y57G11C.124				
21ur-802	Y57G11C.208				
21ur-3847	Y57G11C.373				
21ur-4027	Y57G11C.128				
Y57G11C.38	Y57G11C.38	Y57G11C.38 [Source:RefSeq_peptide;Acc:NP_872094]			
21ur-376	Y57G11C.181				
NR_003462.1	Y57G11C.55	Y57G11C.55, snRNA [Source:RefSeq_dna;Acc:NR_003462]			
21ur-1615	Y57G11C.343				
21ur-2209	Y57G11C.423				
Y57G11C.53	Y57G11C.53				
21ur-458	Y57G11C.231				
21ur-5255	Y57G11C.417				
21ur-2776	Y57G11C.272				
21ur-3311	Y57G11C.175				
21ur-3612	Y57G11C.153				
21ur-4578	Y57G11C.366				
21ur-2395	Y57G11C.156				
21ur-4514	Y57G11C.295				
21ur-2635	Y57G11C.199				
21ur-573	Y57G11C.453				
21ur-2834	Y57G11C.449				
21ur-5152	Y57G11C.324				
21ur-1113	Y57G11C.84				
21ur-4074	Y57G11C.237				
21ur-5237	Y57G11C.350				
21ur-5026	Y57G11C.460				
21ur-416	Y57G11C.107				
21ur-2599	Y57G11C.232				
21ur-1815	Y57G11C.455				
21ur-3427	Y57G11C.264				
21ur-2296	Y57G11C.145				
21ur-4371	Y57G11C.281				
21ur-3931	Y57G11C.414				
21ur-707	Y57G11C.478				
21ur-50	Y57G11C.87				
21ur-2007	Y57G11C.88				
21ur-4174	Y57G11C.59				
21ur-4916	Y57G11C.238				
eps-8	Y57G11C.24	eps-8 is predicted to encode five protein isoforms with similarity to mouse epidermal growth factor receptor kinase substrate that affects embryonic viability, growth, locomotion, osmoregulation, and larval viability. interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]	growth, 	nucleus, 	sequence-specific DNA binding, 
21ur-2557	Y57G11C.489				
21ur-4204	Y57G11C.442				
21ur-3791	Y57G11C.479				
21ur-4135	Y57G11C.441				
21ur-2468	Y57G11C.108				
21ur-4600	Y57G11C.426				
21ur-230	Y57G11C.186				
21ur-1506	Y57G11C.313				
21ur-220	Y57G11C.223				
21ur-2172	Y57G11C.149				
21ur-2321	Y57G11C.325				
21ur-550	Y57G11C.359				
21ur-1484	Y57G11C.162				
21ur-294	Y57G11C.184				
21ur-4353	Y57G11C.167				
21ur-4073	Y57G11C.192				
21ur-2705	Y57G11C.435				
Y57G11C.t1	Y57G11C.t1				
21ur-2256	Y57G11C.226				
21ur-1891	Y57G11C.432				
21ur-4511	Y57G11C.106				
21ur-4397	Y57G11C.467				
21ur-25	Y57G11C.122				
21ur-1571	Y57G11C.60				
21ur-1623	Y57G11C.424				
21ur-4268	Y57G11C.111				
21ur-1296	Y57G11C.412				
21ur-253	Y57G11C.268				
21ur-817	Y57G11C.257				
21ur-4609	Y57G11C.254				
21ur-2767	Y57G11C.227				
21ur-3263	Y57G11C.496				
21ur-334	Y57G11C.490				
21ur-3999	Y57G11C.97				
21ur-3104	Y57G11C.346				
21ur-1559	Y57G11C.330				
21ur-4043	Y57G11C.177				
21ur-3092	Y57G11C.398				
21ur-2069	Y57G11C.397				
21ur-1482	Y57G11C.225				
21ur-454	Y57G11C.284				
21ur-3745	Y57G11C.404				
21ur-2559	Y57G11C.190				
21ur-5015	Y57G11C.422				
21ur-4098	Y57G11C.444				
21ur-5100	Y57G11C.410				
21ur-5216	Y57G11C.191				
21ur-3146	Y57G11C.172				
Y57G11C.47	Y57G11C.47	Y57G11C.47 [Source:RefSeq_peptide;Acc:NP_001023531]	metabolic process, 		catalytic activity, 
21ur-4284	Y57G11C.188				
21ur-455	Y57G11C.216				
21ur-355	Y57G11C.311				
21ur-2826	Y57G11C.72				
21ur-2032	Y57G11C.355				
21ur-2265	Y57G11C.361				
21ur-4984	Y57G11C.458				
21ur-440	Y57G11C.491				
21ur-2506	Y57G11C.468				
21ur-358	Y57G11C.157				
21ur-2453	Y57G11C.114				
21ur-2642	Y57G11C.394				
21ur-3207	Y57G11C.407				
21ur-1633	Y57G11C.334				
21ur-5453	Y57G11C.104				
21ur-28	Y57G11C.476				
21ur-5095	Y57G11C.357				
21ur-3762	Y57G11C.214				
21ur-1522	Y57G11C.166				
21ur-4587	Y57G11C.299				
21ur-5301	Y57G11C.244				
21ur-1904	Y57G11C.77				
21ur-1275	Y57G11C.230				
21ur-3859	Y57G11C.484				
21ur-1915	Y57G11C.451				
21ur-1638	Y57G11C.276				
21ur-2770	Y57G11C.495				
21ur-1104	Y57G11C.63				
21ur-3012	Y57G11C.345				
21ur-3535	Y57G11C.367				
21ur-4322	Y57G11C.439				
21ur-1846	Y57G11C.482				
Y57G11C.25	Y57G11C.25	Y57G11C.25 [Source:RefSeq_peptide;Acc:NP_502805]			zinc ion binding, nucleic acid binding, 
21ur-2993	Y57G11C.197				
21ur-4596	Y57G11C.400				
srt-51	Y57G11C.27				
21ur-5277	Y57G11C.471				
21ur-2702	Y57G11C.143				
21ur-943	Y57G11C.392				
21ur-305	Y57G11C.95				
Y57G11C.26	Y57G11C.26				
21ur-4479	Y57G11C.203				
21ur-1828	Y57G11C.403				
21ur-3323	Y57G11C.242				
21ur-313	Y57G11C.233				
21ur-2231	Y57G11C.243				
21ur-2008	Y57G11C.377				
Y57G11C.29	Y57G11C.29				
21ur-3305	Y57G11C.179				
21ur-3247	Y57G11C.263				
21ur-4274	Y57G11C.154				
21ur-5330	Y57G11C.385				
Y57G11C.28	Y57G11C.28				
21ur-4404	Y57G11C.469				
21ur-2079	Y57G11C.255				
21ur-4536	Y57G11C.176				
21ur-4614	Y57G11C.210				
21ur-1686	Y57G11C.93				
21ur-3870	Y57G11C.383				
21ur-5382	Y57G11C.229				
Y57G11C.30	Y57G11C.30				
21ur-3738	Y57G11C.207				
21ur-3244	Y57G11C.206				
21ur-5079	Y57G11C.73				
21ur-1787	Y57G11C.401				
Y57G11C.48	Y57G11C.48	Y57G11C.48 [Source:RefSeq_peptide;Acc:NP_001023532]			protein binding, zinc ion binding, 
21ur-3253	Y57G11C.78				
21ur-5148	Y57G11C.270				
21ur-2223	Y57G11C.339				
21ur-4754	Y57G11C.477				
21ur-2898	Y57G11C.356				
21ur-5200	Y57G11C.405				
21ur-717	Y57G11C.219				
21ur-4749	Y57G11C.98				
21ur-2015	Y57G11C.431				
21ur-3471	Y57G11C.298				
21ur-2948	Y57G11C.310				
21ur-488	Y57G11C.82				
21ur-1224	Y57G11C.369				
21ur-1089	Y57G11C.371				
21ur-421	Y57G11C.240				
21ur-1743	Y57G11C.437				
21ur-3291	Y57G11C.79				
21ur-2092	Y57G11C.309				
21ur-6	Y57G11C.332				
Y41E3.22	Y41E3.22	Y41E3.22 [Source:RefSeq_peptide;Acc:NP_001076730]			
21ur-2981	Y41E3.186				
21ur-4845	Y41E3.45				
21ur-2226	Y41E3.112				
21ur-2398	Y41E3.180				
21ur-2206	Y41E3.32				
Y41E3.1	Y41E3.1	Y41E3.1a [Source:RefSeq_peptide;Acc:NP_001041024]	embryonic development ending in birth or egg hatching, 		
21ur-3052	Y41E3.56				
21ur-395	Y41E3.168				
21ur-988	Y41E3.71				
21ur-741	Y41E3.155				
21ur-2816	Y41E3.107				
21ur-4778	Y41E3.196				
21ur-1973	Y41E3.144				
21ur-5047	Y41E3.200				
21ur-3302	Y41E3.135				
21ur-1162	Y41E3.109				
21ur-1330	Y41E3.119				
21ur-3501	Y41E3.132				
21ur-724	Y41E3.117				
21ur-1150	Y41E3.126				
21ur-4826	Y41E3.64				
21ur-2545	Y41E3.211				
21ur-2661	Y41E3.38				
21ur-1143	Y41E3.178				
21ur-2129	Y41E3.33				
21ur-2636	Y41E3.83				
21ur-1782	Y41E3.101				
21ur-407	Y41E3.163				
21ur-4210	Y41E3.124				
21ur-2083	Y41E3.175				
21ur-4717	Y41E3.52				
21ur-649	Y41E3.34				
21ur-5192	Y41E3.91				
21ur-76	Y41E3.36				
21ur-4714	Y41E3.78				
21ur-1834	Y41E3.118				
21ur-1065	Y41E3.88				
21ur-4825	Y41E3.73				
21ur-3907	Y41E3.149				
21ur-5377	Y41E3.43				
21ur-925	Y41E3.77				
21ur-2482	Y41E3.157				
21ur-2784	Y41E3.204				
21ur-2025	Y41E3.183				
21ur-4143	Y41E3.42				
21ur-2792	Y41E3.174				
Y41E3.20	Y41E3.20				
21ur-329	Y41E3.153				
21ur-953	Y41E3.85				
21ur-3663	Y41E3.116				
21ur-1592	Y41E3.189				
21ur-2416	Y41E3.94				
21ur-2116	Y41E3.208				
21ur-4869	Y41E3.49				
21ur-4539	Y41E3.53				
21ur-4235	Y41E3.27				
21ur-2415	Y41E3.72				
21ur-4447	Y41E3.29				
21ur-3960	Y41E3.25				
21ur-1445	Y41E3.114				
21ur-4183	Y41E3.104				
21ur-3891	Y41E3.194				
21ur-2060	Y41E3.80				
21ur-4656	Y41E3.199				
21ur-2381	Y41E3.139				
21ur-66	Y41E3.24				
21ur-3260	Y41E3.67				
21ur-2970	Y41E3.162				
21ur-1961	Y41E3.198				
21ur-3296	Y41E3.201				
21ur-3594	Y41E3.122				
21ur-225	Y41E3.41				
Y41E3.3	Y41E3.3	Y41E3.3 [Source:RefSeq_peptide;Acc:NP_502809]			GTP binding, GTPase activity, 
21ur-93	Y41E3.100				
21ur-327	Y41E3.81				
21ur-1910	Y41E3.68				
21ur-3618	Y41E3.182				
21ur-619	Y41E3.57				
21ur-4996	Y41E3.115				
21ur-2371	Y41E3.79				
21ur-1683	Y41E3.113				
21ur-3182	Y41E3.142				
21ur-1354	Y41E3.31				
21ur-3903	Y41E3.35				
21ur-5374	Y41E3.82				
21ur-4425	Y41E3.173				
21ur-1480	Y41E3.179				
21ur-1763	Y41E3.184				
dpy-4	Y41E3.2	dpy-4 encodes a cuticle collagen. dpy-4 activity is required for normal body morphology, locomotion, and larval development. [Source: WormBase]	phosphate transport, electron transport, response to oxidative stress, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, peroxidase activity, heme binding, 
21ur-15	Y41E3.185				
21ur-1003	Y41E3.164				
21ur-4842	Y41E3.130				
21ur-4792	Y41E3.46				
21ur-1568	Y41E3.212				
21ur-4674	Y41E3.120				
21ur-1168	Y41E3.131				
21ur-4271	Y41E3.169				
21ur-5267	Y41E3.159				
21ur-4544	Y41E3.170				
21ur-758	Y41E3.148				
21ur-5032	Y41E3.209				
21ur-326	Y41E3.213				
21ur-3673	Y41E3.60				
21ur-2802	Y41E3.59				
21ur-1390	Y41E3.110				
21ur-5081	Y41E3.137				
21ur-795	Y41E3.166				
21ur-3058	Y41E3.158				
21ur-3238	Y41E3.44				
21ur-1912	Y41E3.30				
21ur-2709	Y41E3.172				
21ur-1673	Y41E3.65				
21ur-1038	Y41E3.48				
21ur-2433	Y41E3.206				
21ur-453	Y41E3.63				
21ur-4077	Y41E3.133				
21ur-1618	Y41E3.95				
21ur-4085	Y41E3.37				
21ur-4572	Y41E3.207				
21ur-5215	Y41E3.106				
21ur-3872	Y41E3.191				
21ur-2810	Y41E3.181				
21ur-3892	Y41E3.129				
21ur-3551	Y41E3.140				
21ur-4964	Y41E3.210				
21ur-394	Y41E3.190				
Y41E3.21	Y41E3.21				
Y41E3.6	Y41E3.6	Y41E3.6 [Source:RefSeq_peptide;Acc:NP_502810]			
Y41E3.5	Y41E3.5				
ers-1	Y41E3.4	ers-1 encodes a glutaminyl (Q) tRNA synthetase that affects growth and embryonic and larval viability in large-scale RNAi screens. it is predicted to be mitochondrial. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, glutaminyl-tRNA aminoacylation, glutamyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, glutamine-tRNA ligase activity, 
Y41E3.7	Y41E3.7	Y41E3.7b [Source:RefSeq_peptide;Acc:NP_001041026]	transport, 	integral to membrane, 	protein binding, acyl-CoA binding, 
fcd-2	Y41E3.9	fcd-2 encodes an ortholog of the human gene FANCD2 (mutated in Fanconi anemia, OMIM:227646) that is strongly required for resistance to DNA interstrand crosslinking (ICL) agents, but not to ionizing radiation (IR). fcd-2 mutants are viable and dispensable for resistance to IR, meiotic recombination, and S-phase checkpoint activation, but are hypersensitive to ICL agents. like its human ortholog, FCD-2 is monoubiquitylated and recruited to chromosomal foci after ICL but not IR. transgenic expresssion of the FANCD2 gene in mutant FA-D2 cells rescues their abnormal sensitivity to mitomycin C, an agent that cross-links strands of DNA. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y41E3.8	Y41E3.8	Y41E3.8 [Source:RefSeq_peptide;Acc:NP_502815]			
Y41E3.10	Y41E3.10	Probable elongation factor 1-beta/1-delta 2 (EF-1-beta/delta 2). [Source:Uniprot/SWISSPROT;Acc:Q9U2H9]	electron transport, translational elongation, 	eukaryotic translation elongation factor 1 complex, 	oxidoreductase activity, translation elongation factor activity, 
Y41E3.16	Y41E3.16	Y41E3.16 encodes an unfamiliar protein with an N-terminal DNA-binding SAP domain and extensive regions of low-complexity sequence, which has no clear homologs outside of nematodes. the Y41E3.16 transcription unit has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that Y41E3.16 is a natural substrate for SMG-mediated nonsense suppresssion. since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, Y41E3.16 protein may function in translation as well. [Source: WormBase]			nucleic acid binding, 
Y41E3.11	Y41E3.11	Y41E3.11 [Source:RefSeq_peptide;Acc:NP_502818]	positive regulation of growth rate, 		
srt-47	Y41E3.12	Serpentine Receptor, class T family member (srt-47) [Source:RefSeq_peptide;Acc:NP_502819]	metal ion transport, 		metal ion binding, 
21ur-154	Y41E3.96				
21ur-3046	Y41E3.171				
21ur-214	Y41E3.97				
21ur-1665	Y41E3.93				
21ur-2120	Y41E3.111				
21ur-5046	Y41E3.92				
Y41E3.19	Y41E3.19	Y41E3.19 [Source:RefSeq_peptide;Acc:NP_001076729]			protein binding, zinc ion binding, 
21ur-340	Y41E3.141				
Y41E3.13	Y41E3.13	Y41E3.13 [Source:RefSeq_peptide;Acc:NP_502820]	embryonic development ending in birth or egg hatching, 		
21ur-420	Y41E3.86				
Y41E3.18	Y41E3.18	Y41E3.18 [Source:RefSeq_peptide;Acc:NP_001023462]			catalytic activity, 
21ur-1202	Y41E3.136				
21ur-912	Y41E3.39				
21ur-1436	Y41E3.99				
21ur-4242	Y41E3.89				
srt-48	Y41E3.15	Serpentine Receptor, class T family member (srt-48) [Source:RefSeq_peptide;Acc:NP_502821]			
21ur-1341	Y41E3.150				
21ur-2597	Y41E3.197				
21ur-2278	Y41E3.50				
21ur-3096	Y41E3.108				
21ur-1833	Y41E3.103				
21ur-3920	Y41E3.188				
21ur-4919	Y41E3.128				
21ur-503	Y41E3.74				
21ur-3414	Y41E3.151				
21ur-3039	Y41E3.134				
21ur-2103	Y41E3.205				
21ur-2581	Y41E3.161				
21ur-1791	Y41E3.202				
21ur-3661	Y41E3.147				
21ur-3563	Y41E3.177				
21ur-1555	Y41E3.75				
21ur-4064	Y41E3.121				
21ur-215	Y41E3.66				
21ur-3390	Y41E3.84				
21ur-740	Y41E3.167				
21ur-3884	Y41E3.40				
21ur-1002	Y41E3.193				
Y41E3.23	Y41E3.23				
21ur-4115	Y41E3.176				
srt-50	Y41E3.17				
21ur-460	Y41E3.195				
21ur-5072	Y41E3.156				
21ur-3749	Y41E3.58				
21ur-1451	Y41E3.145				
21ur-3856	Y41E3.138				
21ur-4148	Y41E3.165				
21ur-3557	Y41E3.154				
21ur-2229	Y41E3.123				
21ur-4434	Y41E3.143				
21ur-3640	Y41E3.192				
21ur-608	Y41E3.98				
21ur-3834	Y41E3.54				
21ur-1260	Y41E3.105				
21ur-1450	Y41E3.70				
21ur-4378	Y41E3.127				
21ur-5008	Y41E3.76				
21ur-2955	Y41E3.51				
21ur-2096	Y41E3.61				
21ur-375	Y41E3.102				
21ur-5062	Y41E3.152				
21ur-5124	Y41E3.203				
srt-49	Y41E3.14	Serpentine Receptor, class T family member (srt-49) [Source:RefSeq_peptide;Acc:NP_502822]			
21ur-1332	Y41E3.125				
21ur-4593	Y41E3.90				
21ur-683	Y41E3.146				
21ur-3460	Y41E3.187				
21ur-2531	Y41E3.62				
21ur-2004	Y41E3.160				
21ur-124	Y41E3.87				
21ur-4814	Y41E3.55				
21ur-607	Y41E3.69				
21ur-3306	Y41E3.28				
21ur-3525	Y41E3.26				
21ur-5384	Y41E3.47				
21ur-4900	M199.10				
21ur-3336	M199.14				
21ur-935	M199.33				
21ur-1037	M199.12				
21ur-4503	M199.37				
21ur-5286	M199.35				
srt-44	M199.1	Serpentine Receptor, class T family member (srt-44) [Source:RefSeq_peptide;Acc:NP_502823]			
21ur-2942	M199.61				
21ur-2807	M199.26				
21ur-4105	M199.39				
21ur-5357	M199.11				
21ur-1071	M199.29				
21ur-2674	M199.58				
21ur-5224	M199.22				
21ur-4914	M199.21				
21ur-3148	M199.46				
21ur-3025	M199.65				
M199.2	M199.2	M199.2 [Source:RefSeq_peptide;Acc:NP_502824]			structural molecule activity, 
21ur-4159	M199.60				
21ur-130	M199.40				
21ur-3893	M199.45				
21ur-3991	M199.68				
21ur-30	M199.54				
21ur-2520	M199.56				
21ur-4598	M199.63				
21ur-5204	M199.30				
21ur-3709	M199.57				
21ur-96	M199.34				
21ur-3261	M199.16				
M199.3	M199.3	M199.3 [Source:RefSeq_peptide;Acc:NP_502825]			sugar binding, 
21ur-5195	M199.31				
21ur-4744	M199.38				
21ur-3248	M199.25				
21ur-2818	M199.49				
21ur-2660	M199.59				
21ur-456	M199.15				
M199.6	M199.6	M199.6 [Source:RefSeq_peptide;Acc:NP_001023323]			sugar binding, 
21ur-3932	M199.48				
21ur-1412	M199.19				
21ur-1510	M199.66				
M199.7	M199.7	M199.7 [Source:RefSeq_peptide;Acc:NP_001023324]			
21ur-2286	M199.13				
M199.4	M199.4	M199.4 [Source:RefSeq_peptide;Acc:NP_502826]			sugar binding, 
21ur-3208	M199.20				
21ur-5174	M199.23				
21ur-1159	M199.32				
21ur-4799	M199.44				
21ur-5111	M199.24				
21ur-3916	M199.62				
M199.9	M199.9	M199.9 [Source:RefSeq_peptide;Acc:NP_001076698]			
col-135	M199.5	M199.5 [Source:RefSeq_peptide;Acc:NP_001023322]	phosphate transport, 	cytoplasm, 	
21ur-4935	M199.50				
21ur-3362	M199.28				
21ur-3458	M199.36				
M199.8	M199.8	M199.8 [Source:RefSeq_peptide;Acc:NP_001023325]			
21ur-137	M199.42				
21ur-3650	M199.47				
21ur-4743	M199.27				
21ur-2499	M199.41				
21ur-4429	M199.51				
21ur-2214	M199.67				
21ur-5386	M199.52				
21ur-4328	M199.55				
21ur-4014	M199.18				
21ur-3830	M199.43				
21ur-396	M199.17				
21ur-625	M199.64				
21ur-2276	M199.53				
srg-51	Y40H7A.8	Serpentine Receptor, class G (gamma) family member (srg-51) [Source:RefSeq_peptide;Acc:NP_502827]			
21ur-2874	Y40H7A.61				
21ur-1284	Y40H7A.27				
21ur-5317	Y40H7A.105				
21ur-5316	Y40H7A.87				
21ur-1475	Y40H7A.24				
21ur-2198	Y40H7A.111				
21ur-678	Y40H7A.29				
21ur-4677	Y40H7A.93				
str-78	Y40H7A.1	Seven TM Receptor family member (str-78) [Source:RefSeq_peptide;Acc:NP_502828]			
21ur-5270	Y40H7A.144				
21ur-5021	Y40H7A.34				
21ur-5452	Y40H7A.19				
21ur-4519	Y40H7A.22				
21ur-4165	Y40H7A.122				
21ur-519	Y40H7A.82				
21ur-654	Y40H7A.42				
21ur-997	Y40H7A.132				
21ur-812	Y40H7A.134				
21ur-5001	Y40H7A.39				
21ur-2125	Y40H7A.102				
21ur-5060	Y40H7A.133				
21ur-609	Y40H7A.80				
21ur-4669	Y40H7A.31				
21ur-3308	Y40H7A.129				
21ur-1126	Y40H7A.23				
21ur-638	Y40H7A.73				
21ur-1267	Y40H7A.76				
21ur-1848	Y40H7A.125				
21ur-749	Y40H7A.84				
Y40H7A.2	Y40H7A.2	Y40H7A.2 [Source:RefSeq_peptide;Acc:NP_502829]			
21ur-3787	Y40H7A.123				
21ur-4342	Y40H7A.58				
21ur-1265	Y40H7A.53				
21ur-342	Y40H7A.47				
Y40H7A.3	Y40H7A.3	Y40H7A.3 [Source:RefSeq_peptide;Acc:NP_502830]			
21ur-4699	Y40H7A.41				
21ur-3627	Y40H7A.75				
21ur-570	Y40H7A.98				
21ur-3800	Y40H7A.101				
21ur-2178	Y40H7A.145				
21ur-5272	Y40H7A.118				
21ur-1538	Y40H7A.68				
21ur-1449	Y40H7A.78				
21ur-2936	Y40H7A.136				
21ur-693	Y40H7A.107				
21ur-2374	Y40H7A.44				
21ur-1935	Y40H7A.21				
21ur-3249	Y40H7A.50				
21ur-910	Y40H7A.131				
Y40H7A.4	Y40H7A.4	Y40H7A.4b [Source:RefSeq_peptide;Acc:NP_001076728]			
21ur-58	Y40H7A.30				
21ur-4782	Y40H7A.130				
21ur-2617	Y40H7A.100				
21ur-3361	Y40H7A.81				
21ur-1762	Y40H7A.43				
21ur-4702	Y40H7A.99				
21ur-2914	Y40H7A.20				
Y40H7A.13	Y40H7A.13				
21ur-3105	Y40H7A.86				
21ur-5390	Y40H7A.143				
21ur-4649	Y40H7A.106				
21ur-4635	Y40H7A.115				
21ur-174	Y40H7A.109				
21ur-2639	Y40H7A.52				
21ur-5335	Y40H7A.63				
21ur-1687	Y40H7A.26				
21ur-4444	Y40H7A.113				
21ur-4187	Y40H7A.127				
Y40H7A.14	Y40H7A.14				
21ur-3447	Y40H7A.60				
21ur-2880	Y40H7A.90				
21ur-552	Y40H7A.28				
21ur-1732	Y40H7A.59				
21ur-2761	Y40H7A.121				
21ur-2775	Y40H7A.70				
21ur-2143	Y40H7A.49				
21ur-3930	Y40H7A.137				
21ur-472	Y40H7A.140				
21ur-1857	Y40H7A.35				
srd-23	Y40H7A.5	Serpentine Receptor, class D (delta) family member (srd-23) [Source:RefSeq_peptide;Acc:NP_502832]			
21ur-1396	Y40H7A.51				
21ur-412	Y40H7A.110				
21ur-5106	Y40H7A.48				
21ur-1397	Y40H7A.57				
21ur-422	Y40H7A.17				
21ur-68	Y40H7A.55				
Y40H7A.t1	Y40H7A.t1				
Y40H7A.t2	Y40H7A.t2				
sra-30	Y40H7A.6	Serpentine Receptor, class A (alpha) family member (sra-30) [Source:RefSeq_peptide;Acc:NP_502833]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
21ur-4607	Y40H7A.72				
21ur-3532	Y40H7A.74				
21ur-1622	Y40H7A.139				
Y40H7A.15	Y40H7A.15				
Y40H7A.7	Y40H7A.7		oviposition, 		
21ur-402	Y40H7A.126				
21ur-3624	Y40H7A.103				
21ur-4822	Y40H7A.135				
21ur-2477	Y40H7A.128				
21ur-1882	Y40H7A.108				
21ur-3956	Y40H7A.88				
Y40H7A.9	Y40H7A.9	Y40H7A.9 [Source:RefSeq_peptide;Acc:NP_502835]	proteolysis, 		cysteine-type peptidase activity, 
21ur-2171	Y40H7A.37				
21ur-2497	Y40H7A.138				
21ur-4738	Y40H7A.38				
21ur-4113	Y40H7A.92				
21ur-1059	Y40H7A.117				
21ur-3715	Y40H7A.104				
21ur-4602	Y40H7A.114				
21ur-344	Y40H7A.18				
21ur-2565	Y40H7A.146				
21ur-1018	Y40H7A.25				
21ur-3925	Y40H7A.91				
21ur-4055	Y40H7A.33				
21ur-565	Y40H7A.112				
Y40H7A.10	Y40H7A.10	Y40H7A.10 [Source:RefSeq_peptide;Acc:NP_502836]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
21ur-5129	Y40H7A.77				
21ur-1923	Y40H7A.141				
21ur-5408	Y40H7A.119				
21ur-4164	Y40H7A.40				
21ur-1045	Y40H7A.94				
21ur-2197	Y40H7A.120				
21ur-1543	Y40H7A.83				
21ur-1217	Y40H7A.64				
21ur-3130	Y40H7A.62				
21ur-3334	Y40H7A.124				
21ur-5445	Y40H7A.96				
21ur-585	Y40H7A.46				
21ur-3992	Y40H7A.97				
21ur-4753	Y40H7A.85				
21ur-4970	Y40H7A.95				
21ur-3492	Y40H7A.56				
21ur-2213	Y40H7A.36				
21ur-867	Y40H7A.65				
21ur-1172	Y40H7A.32				
21ur-2038	Y40H7A.89				
21ur-5366	Y40H7A.71				
21ur-1843	Y40H7A.116				
21ur-4365	Y40H7A.142				
21ur-2192	Y40H7A.54				
Y40H7A.11	Y40H7A.11	Y40H7A.11 [Source:RefSeq_peptide;Acc:NP_502837]			
21ur-2168	Y40H7A.45				
21ur-617	Y40H7A.67				
21ur-19	Y40H7A.69				
21ur-4446	Y40H7A.79				
21ur-575	Y40H7A.66				
pkd-2	Y73F8A.1	pkd-2 encodes an ortholog of human PKD2 (OMIM:173910. mutated in autosomal dominant polycystic kidney disease) that is expressed in the cilia of three types of male-specific sensory neurons and that is required for two aspects of male mating behavior. PKD-2 acts with LOV-1. EGL-44 and EGL-46 regulate cell-specific expression of lov-1 and pkd-2 to specify the behavioral function of the HOB neuron [Source: WormBase]	ion transport, mating behavior, 	membrane, 	ion channel activity, calcium ion binding, 
21ur-1335	Y73F8A.251				
21ur-5030	Y73F8A.360				
21ur-2396	Y73F8A.123				
21ur-1380	Y73F8A.280				
21ur-3698	Y73F8A.316				
21ur-4775	Y73F8A.337				
21ur-3541	Y73F8A.458				
21ur-449	Y73F8A.389				
21ur-132	Y73F8A.472				
21ur-4212	Y73F8A.114				
21ur-2932	Y73F8A.47				
21ur-3079	Y73F8A.444				
21ur-2054	Y73F8A.352				
21ur-73	Y73F8A.71				
21ur-1009	Y73F8A.262				
21ur-1058	Y73F8A.449				
Y73F8A.t1	Y73F8A.t1				
21ur-861	Y73F8A.274				
Y73F8A.2	Y73F8A.2	Y73F8A.2 [Source:RefSeq_peptide;Acc:NP_502839]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, phosphopantetheine binding, 
21ur-4723	Y73F8A.189				
21ur-3728	Y73F8A.305				
21ur-2382	Y73F8A.374				
21ur-1060	Y73F8A.459				
21ur-705	Y73F8A.380				
21ur-2047	Y73F8A.334				
21ur-1680	Y73F8A.72				
21ur-3631	Y73F8A.407				
21ur-3034	Y73F8A.196				
21ur-2992	Y73F8A.150				
21ur-5225	Y73F8A.455				
21ur-2067	Y73F8A.243				
21ur-4417	Y73F8A.468				
21ur-3145	Y73F8A.231				
21ur-5181	Y73F8A.91				
21ur-1698	Y73F8A.446				
21ur-4547	Y73F8A.235				
21ur-2920	Y73F8A.118				
21ur-5403	Y73F8A.56				
21ur-2630	Y73F8A.392				
21ur-4639	Y73F8A.270				
21ur-362	Y73F8A.103				
Y73F8A.36	Y73F8A.36	Y73F8A.36 [Source:RefSeq_peptide;Acc:NP_001023579]			
21ur-5053	Y73F8A.85				
21ur-1223	Y73F8A.193				
21ur-1039	Y73F8A.173				
21ur-5440	Y73F8A.44				
21ur-587	Y73F8A.492				
21ur-2769	Y73F8A.414				
21ur-55	Y73F8A.464				
21ur-3873	Y73F8A.385				
srj-42	Y73F8A.3	Serpentine Receptor, class J family member (srj-42) [Source:RefSeq_peptide;Acc:NP_502840]			
21ur-5131	Y73F8A.373				
21ur-559	Y73F8A.244				
21ur-4880	Y73F8A.339				
21ur-2547	Y73F8A.54				
21ur-2195	Y73F8A.50				
21ur-1531	Y73F8A.419				
21ur-4470	Y73F8A.222				
21ur-5411	Y73F8A.357				
21ur-513	Y73F8A.461				
21ur-2606	Y73F8A.283				
21ur-1566	Y73F8A.86				
21ur-1657	Y73F8A.354				
Y73F8A.4	Y73F8A.4				
21ur-2730	Y73F8A.481				
21ur-4589	Y73F8A.172				
21ur-4303	Y73F8A.349				
21ur-2873	Y73F8A.228				
21ur-5107	Y73F8A.203				
21ur-5189	Y73F8A.264				
21ur-3969	Y73F8A.303				
21ur-5086	Y73F8A.99				
Y73F8A.5	Y73F8A.5	Y73F8A.5 [Source:RefSeq_peptide;Acc:NP_502841]			protein binding, 
21ur-1254	Y73F8A.254				
21ur-3668	Y73F8A.324				
21ur-4879	Y73F8A.397				
21ur-3010	Y73F8A.83				
21ur-4121	Y73F8A.46				
21ur-343	Y73F8A.234				
21ur-895	Y73F8A.61				
21ur-3550	Y73F8A.335				
21ur-4389	Y73F8A.447				
21ur-2991	Y73F8A.317				
21ur-3477	Y73F8A.471				
21ur-1173	Y73F8A.371				
21ur-2549	Y73F8A.293				
21ur-5054	Y73F8A.163				
21ur-4852	Y73F8A.122				
21ur-3067	Y73F8A.174				
21ur-367	Y73F8A.213				
21ur-1195	Y73F8A.128				
21ur-4258	Y73F8A.308				
21ur-3998	Y73F8A.441				
21ur-3440	Y73F8A.49				
21ur-74	Y73F8A.456				
ccg-1	Y73F8A.6	Conserved Cystein/Glycine domain protein family member (ccg-1) [Source:RefSeq_peptide;Acc:NP_502842]			
21ur-4679	Y73F8A.379				
21ur-1350	Y73F8A.369				
21ur-1263	Y73F8A.145				
21ur-3672	Y73F8A.195				
21ur-2124	Y73F8A.457				
21ur-2187	Y73F8A.124				
21ur-3008	Y73F8A.116				
21ur-4897	Y73F8A.109				
21ur-4011	Y73F8A.320				
21ur-1796	Y73F8A.260				
21ur-361	Y73F8A.92				
21ur-4841	Y73F8A.410				
21ur-2528	Y73F8A.442				
21ur-1699	Y73F8A.273				
21ur-2066	Y73F8A.148				
21ur-1206	Y73F8A.102				
21ur-831	Y73F8A.486				
21ur-1859	Y73F8A.466				
21ur-2490	Y73F8A.155				
21ur-1505	Y73F8A.165				
21ur-1011	Y73F8A.309				
21ur-5412	Y73F8A.77				
21ur-1107	Y73F8A.268				
21ur-4910	Y73F8A.285				
21ur-1988	Y73F8A.422				
21ur-4766	Y73F8A.125				
21ur-5071	Y73F8A.183				
21ur-5033	Y73F8A.435				
21ur-829	Y73F8A.224				
21ur-3798	Y73F8A.440				
21ur-1550	Y73F8A.68				
21ur-1456	Y73F8A.73				
21ur-2560	Y73F8A.292				
21ur-2133	Y73F8A.336				
21ur-4624	Y73F8A.84				
21ur-1339	Y73F8A.405				
21ur-232	Y73F8A.211				
21ur-811	Y73F8A.278				
21ur-2813	Y73F8A.257				
21ur-3245	Y73F8A.142				
str-11	Y73F8A.7				
21ur-5291	Y73F8A.58				
Y73F8A.t2	Y73F8A.t2				
pqn-90	Y73F8A.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
21ur-3017	Y73F8A.191				
21ur-2316	Y73F8A.366				
21ur-3989	Y73F8A.328				
pqn-91	Y73F8A.9	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
21ur-2164	Y73F8A.475				
Y73F8A.10	Y73F8A.10	Y73F8A.10 [Source:RefSeq_peptide;Acc:NP_502845]			
21ur-833	Y73F8A.138				
21ur-2679	Y73F8A.190				
21ur-4545	Y73F8A.443				
21ur-2050	Y73F8A.281				
21ur-2155	Y73F8A.433				
21ur-4543	Y73F8A.434				
21ur-4859	Y73F8A.42				
21ur-3575	Y73F8A.295				
21ur-4226	Y73F8A.314				
21ur-2755	Y73F8A.355				
21ur-627	Y73F8A.431				
21ur-2378	Y73F8A.362				
21ur-4498	Y73F8A.242				
21ur-4961	Y73F8A.436				
21ur-5058	Y73F8A.277				
Y73F8A.11	Y73F8A.11	Y73F8A.11 [Source:RefSeq_peptide;Acc:NP_502846]			
21ur-549	Y73F8A.263				
21ur-591	Y73F8A.153				
21ur-4942	Y73F8A.241				
21ur-3430	Y73F8A.383				
21ur-3522	Y73F8A.454				
21ur-2088	Y73F8A.376				
21ur-5082	Y73F8A.356				
21ur-2250	Y73F8A.70				
21ur-3059	Y73F8A.298				
21ur-2297	Y73F8A.87				
21ur-3448	Y73F8A.253				
21ur-4029	Y73F8A.249				
21ur-2160	Y73F8A.164				
21ur-3562	Y73F8A.429				
21ur-4805	Y73F8A.129				
21ur-1468	Y73F8A.220				
21ur-4763	Y73F8A.93				
Y73F8A.t4	Y73F8A.t4				
Y73F8A.12	Y73F8A.12	Y73F8A.12 [Source:RefSeq_peptide;Acc:NP_502847]			
Y73F8A.13	Y73F8A.13	Y73F8A.13 [Source:RefSeq_peptide;Acc:NP_502848]	microtubule-based movement, 	microtubule, 	GTP binding, structural molecule activity, 
21ur-932	Y73F8A.395				
21ur-3234	Y73F8A.497				
21ur-1980	Y73F8A.494				
21ur-2098	Y73F8A.179				
21ur-4329	Y73F8A.135				
21ur-2919	Y73F8A.221				
21ur-5214	Y73F8A.57				
21ur-871	Y73F8A.121				
21ur-3810	Y73F8A.52				
21ur-2458	Y73F8A.286				
21ur-4231	Y73F8A.448				
21ur-2233	Y73F8A.282				
21ur-2675	Y73F8A.445				
21ur-1609	Y73F8A.233				
21ur-3980	Y73F8A.350				
21ur-4515	Y73F8A.255				
21ur-773	Y73F8A.149				
Y73F8A.t3	Y73F8A.t3				
Y73F8A.14	Y73F8A.14	Y73F8A.14 [Source:RefSeq_peptide;Acc:NP_502849]			
21ur-4698	Y73F8A.299				
21ur-2360	Y73F8A.182				
Y73F8A.15	Y73F8A.15	Y73F8A.15 [Source:RefSeq_peptide;Acc:NP_502850]			
21ur-3439	Y73F8A.368				
21ur-3319	Y73F8A.378				
tbx-39	Y73F8A.16	Putative T-box protein 39. [Source:Uniprot/SWISSPROT;Acc:Q9NA56]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
tbx-40	Y73F8A.17	Putative T-box protein 40. [Source:Uniprot/SWISSPROT;Acc:Q9NA55]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
21ur-4344	Y73F8A.315				
21ur-1493	Y73F8A.425				
21ur-4637	Y73F8A.55				
21ur-476	Y73F8A.306				
21ur-4060	Y73F8A.465				
21ur-663	Y73F8A.94				
21ur-2071	Y73F8A.451				
21ur-1428	Y73F8A.418				
21ur-711	Y73F8A.453				
Y73F8A.38	Y73F8A.38				
21ur-4893	Y73F8A.302				
21ur-2634	Y73F8A.344				
21ur-5387	Y73F8A.438				
21ur-3935	Y73F8A.215				
21ur-531	Y73F8A.146				
21ur-2710	Y73F8A.181				
21ur-1286	Y73F8A.301				
21ur-2333	Y73F8A.359				
21ur-2629	Y73F8A.266				
Y73F8A.18	Y73F8A.18	Y73F8A.18 [Source:RefSeq_peptide;Acc:NP_502853]		membrane, 	
21ur-2790	Y73F8A.194				
21ur-3066	Y73F8A.365				
21ur-3951	Y73F8A.48				
21ur-2295	Y73F8A.184				
21ur-629	Y73F8A.51				
21ur-3593	Y73F8A.171				
21ur-2525	Y73F8A.132				
21ur-2690	Y73F8A.247				
21ur-4331	Y73F8A.140				
21ur-1458	Y73F8A.413				
21ur-2159	Y73F8A.117				
21ur-1090	Y73F8A.198				
21ur-5155	Y73F8A.225				
21ur-4082	Y73F8A.341				
21ur-3902	Y73F8A.133				
21ur-675	Y73F8A.230				
21ur-3284	Y73F8A.159				
21ur-1404	Y73F8A.488				
21ur-897	Y73F8A.141				
21ur-5127	Y73F8A.151				
21ur-2359	Y73F8A.272				
21ur-5211	Y73F8A.209				
21ur-2157	Y73F8A.291				
21ur-3178	Y73F8A.424				
21ur-494	Y73F8A.409				
21ur-1476	Y73F8A.345				
21ur-2517	Y73F8A.178				
21ur-1639	Y73F8A.351				
21ur-4017	Y73F8A.219				
21ur-4806	Y73F8A.470				
21ur-2326	Y73F8A.287				
21ur-3441	Y73F8A.98				
21ur-3885	Y73F8A.245				
21ur-4938	Y73F8A.462				
21ur-3850	Y73F8A.127				
21ur-2772	Y73F8A.53				
tag-64	Y73F8A.19	Temporarily Assigned Gene name family member (tag-64) [Source:RefSeq_peptide;Acc:NP_502854]			
21ur-2188	Y73F8A.60				
21ur-2875	Y73F8A.161				
21ur-1348	Y73F8A.240				
21ur-4357	Y73F8A.400				
21ur-3167	Y73F8A.239				
21ur-1590	Y73F8A.156				
21ur-1916	Y73F8A.313				
21ur-2346	Y73F8A.227				
21ur-4765	Y73F8A.65				
21ur-4196	Y73F8A.439				
21ur-3300	Y73F8A.326				
21ur-2180	Y73F8A.205				
21ur-2820	Y73F8A.107				
21ur-3527	Y73F8A.390				
21ur-3949	Y73F8A.406				
21ur-3712	Y73F8A.136				
21ur-960	Y73F8A.377				
21ur-922	Y73F8A.489				
21ur-1130	Y73F8A.327				
21ur-5336	Y73F8A.310				
21ur-4244	Y73F8A.130				
21ur-2613	Y73F8A.63				
21ur-1490	Y73F8A.382				
21ur-3057	Y73F8A.343				
Y73F8A.20	Y73F8A.20	Y73F8A.20 [Source:RefSeq_peptide;Acc:NP_502855]			serine-type endopeptidase inhibitor activity, 
21ur-2288	Y73F8A.330				
21ur-3573	Y73F8A.217				
21ur-3412	Y73F8A.499				
21ur-4052	Y73F8A.212				
21ur-2596	Y73F8A.403				
21ur-3582	Y73F8A.487				
21ur-434	Y73F8A.478				
21ur-3147	Y73F8A.297				
21ur-982	Y73F8A.375				
21ur-4817	Y73F8A.289				
21ur-3758	Y73F8A.384				
21ur-1413	Y73F8A.69				
21ur-2688	Y73F8A.97				
21ur-1892	Y73F8A.367				
21ur-275	Y73F8A.325				
21ur-3955	Y73F8A.296				
21ur-913	Y73F8A.197				
21ur-323	Y73F8A.398				
21ur-4690	Y73F8A.363				
21ur-992	Y73F8A.78				
21ur-492	Y73F8A.111				
21ur-5334	Y73F8A.186				
21ur-3201	Y73F8A.275				
21ur-4781	Y73F8A.370				
21ur-2132	Y73F8A.158				
21ur-2135	Y73F8A.204				
21ur-4971	Y73F8A.104				
21ur-1655	Y73F8A.271				
21ur-4020	Y73F8A.202				
21ur-4564	Y73F8A.480				
21ur-5252	Y73F8A.474				
21ur-5251	Y73F8A.416				
21ur-4752	Y73F8A.381				
21ur-2842	Y73F8A.236				
21ur-1853	Y73F8A.307				
21ur-1387	Y73F8A.402				
21ur-404	Y73F8A.340				
21ur-1844	Y73F8A.162				
21ur-4760	Y73F8A.276				
21ur-2502	Y73F8A.41				
21ur-2625	Y73F8A.81				
21ur-483	Y73F8A.188				
21ur-1899	Y73F8A.167				
21ur-956	Y73F8A.208				
21ur-271	Y73F8A.479				
21ur-4901	Y73F8A.229				
21ur-4203	Y73F8A.139				
21ur-3150	Y73F8A.106				
21ur-192	Y73F8A.452				
21ur-3625	Y73F8A.399				
nhr-5	Y73F8A.21	Nuclear hormone receptor family member nhr-5. [Source:Uniprot/SWISSPROT;Acc:Q9NA51]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
21ur-4932	Y73F8A.426				
21ur-4128	Y73F8A.404				
21ur-4022	Y73F8A.267				
21ur-4719	Y73F8A.498				
21ur-4926	Y73F8A.185				
21ur-2194	Y73F8A.237				
21ur-3112	Y73F8A.66				
21ur-2994	Y73F8A.79				
21ur-5451	Y73F8A.386				
21ur-2310	Y73F8A.192				
21ur-2217	Y73F8A.329				
21ur-467	Y73F8A.321				
21ur-757	Y73F8A.476				
21ur-3819	Y73F8A.126				
21ur-2593	Y73F8A.258				
21ur-697	Y73F8A.210				
21ur-1222	Y73F8A.473				
21ur-3900	Y73F8A.408				
21ur-5182	Y73F8A.483				
21ur-850	Y73F8A.199				
21ur-1542	Y73F8A.223				
21ur-1310	Y73F8A.115				
21ur-4039	Y73F8A.248				
21ur-1511	Y73F8A.450				
21ur-292	Y73F8A.80				
21ur-1503	Y73F8A.112				
21ur-4436	Y73F8A.108				
21ur-1400	Y73F8A.168				
Y73F8A.39	Y73F8A.39				
21ur-3283	Y73F8A.43				
21ur-306	Y73F8A.152				
21ur-1385	Y73F8A.252				
21ur-1176	Y73F8A.169				
21ur-2793	Y73F8A.482				
21ur-4116	Y73F8A.88				
21ur-4608	Y73F8A.175				
21ur-1464	Y73F8A.477				
21ur-4881	Y73F8A.353				
21ur-1069	Y73F8A.401				
21ur-613	Y73F8A.290				
21ur-546	Y73F8A.95				
21ur-4110	Y73F8A.361				
21ur-3266	Y73F8A.288				
21ur-3281	Y73F8A.332				
21ur-5349	Y73F8A.300				
21ur-1525	Y73F8A.113				
21ur-602	Y73F8A.364				
21ur-2607	Y73F8A.347				
21ur-5416	Y73F8A.393				
21ur-3212	Y73F8A.338				
21ur-4633	Y73F8A.333				
21ur-4599	Y73F8A.90				
21ur-808	Y73F8A.176				
21ur-5177	Y73F8A.214				
Y73F8A.22	Y73F8A.22	Y73F8A.22 [Source:RefSeq_peptide;Acc:NP_502857]			
21ur-5393	Y73F8A.45				
21ur-1901	Y73F8A.312				
Y73F8A.23	Y73F8A.23	Y73F8A.23 [Source:RefSeq_peptide;Acc:NP_502858]			
Y73F8A.24	Y73F8A.24	Y73F8A.24 [Source:RefSeq_peptide;Acc:NP_502859]	DNA repair, regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	RNA polymerase II transcription factor activity, 
Y73F8A.25	Y73F8A.25	Y73F8A.25a [Source:RefSeq_peptide;Acc:NP_502860]			
Y73F8A.27	Y73F8A.27	Y73F8A.27 [Source:RefSeq_peptide;Acc:NP_502861]	electron transport, 		electron carrier activity, 2 iron, 2 sulfur cluster binding, iron-sulfur cluster binding, 
Y73F8A.26	Y73F8A.26	Y73F8A.26 [Source:RefSeq_peptide;Acc:NP_502862]			
21ur-252	Y73F8A.322				
21ur-4291	Y73F8A.100				
21ur-3504	Y73F8A.495				
21ur-2667	Y73F8A.144				
21ur-2806	Y73F8A.342				
21ur-2219	Y73F8A.432				
21ur-4898	Y73F8A.64				
21ur-3944	Y73F8A.469				
21ur-2975	Y73F8A.74				
21ur-2973	Y73F8A.411				
21ur-1748	Y73F8A.226				
21ur-1920	Y73F8A.82				
21ur-1119	Y73F8A.110				
21ur-3192	Y73F8A.463				
21ur-3855	Y73F8A.180				
21ur-4652	Y73F8A.259				
21ur-911	Y73F8A.256				
21ur-4410	Y73F8A.119				
21ur-515	Y73F8A.137				
21ur-4667	Y73F8A.143				
21ur-2407	Y73F8A.387				
21ur-1271	Y73F8A.493				
21ur-40	Y73F8A.160				
21ur-1752	Y73F8A.232				
21ur-1573	Y73F8A.484				
21ur-502	Y73F8A.485				
21ur-392	Y73F8A.246				
21ur-3739	Y73F8A.319				
21ur-1523	Y73F8A.201				
Y73F8A.40	Y73F8A.40				
21ur-4627	Y73F8A.323				
21ur-149	Y73F8A.358				
21ur-511	Y73F8A.331				
21ur-768	Y73F8A.75				
21ur-1177	Y73F8A.96				
21ur-1486	Y73F8A.304				
21ur-1226	Y73F8A.207				
21ur-5029	Y73F8A.105				
21ur-3970	Y73F8A.238				
21ur-3511	Y73F8A.294				
21ur-5010	Y73F8A.388				
21ur-4112	Y73F8A.460				
21ur-1160	Y73F8A.348				
acr-24	Y73F8A.30	Y73F8A.30 [Source:RefSeq_peptide;Acc:NP_502865]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
21ur-5263	Y73F8A.177				
21ur-3154	Y73F8A.279				
21ur-263	Y73F8A.391				
21ur-2474	Y73F8A.423				
21ur-2529	Y73F8A.394				
21ur-2011	Y73F8A.421				
21ur-2536	Y73F8A.261				
21ur-5154	Y73F8A.496				
Y73F8A.31	Y73F8A.31	Y73F8A.31 [Source:RefSeq_peptide;Acc:NP_502866]	carbohydrate biosynthetic process, 		transferase activity, transferring hexosyl groups, 
Y73F8A.32	Y73F8A.32	Y73F8A.32 [Source:RefSeq_peptide;Acc:NP_502867]			
Y73F8A.33	Y73F8A.33	Y73F8A.33 [Source:RefSeq_peptide;Acc:NP_502868]		intracellular, 	zinc ion binding, nucleic acid binding, 
Y73F8A.37	Y73F8A.37				
tag-349	Y73F8A.34	Temporarily Assigned Gene name family member (tag-349) [Source:RefSeq_peptide;Acc:NP_001041060]	ubiquitin cycle, 		zinc ion binding, ubiquitin-protein ligase activity, 
Y73F8A.35	Y73F8A.35	Y73F8A.35 [Source:RefSeq_peptide;Acc:NP_502870]			
21ur-5355	Y73F8A.120				
21ur-1713	Y73F8A.216				
21ur-1883	Y73F8A.420				
21ur-2852	Y73F8A.417				
21ur-2365	Y73F8A.491				
21ur-798	Y73F8A.428				
21ur-1508	Y73F8A.134				
21ur-3732	Y73F8A.157				
21ur-2538	Y73F8A.166				
21ur-3215	Y73F8A.131				
21ur-3366	Y73F8A.396				
21ur-516	Y73F8A.200				
21ur-2139	Y73F8A.311				
21ur-1507	Y73F8A.372				
21ur-788	Y73F8A.427				
21ur-4300	Y73F8A.67				
21ur-2685	Y73F8A.170				
21ur-1642	Y73F8A.265				
21ur-163	Y73F8A.59				
21ur-2331	Y73F8A.250				
21ur-3337	Y73F8A.147				
21ur-2282	Y73F8A.154				
21ur-437	Y73F8A.412				
21ur-1318	Y73F8A.62				
21ur-4733	Y73F8A.430				
21ur-335	Y73F8A.206				
21ur-269	Y73F8A.318				
21ur-4028	Y73F8A.187				
21ur-2583	Y73F8A.467				
21ur-3196	Y73F8A.101				
21ur-3558	Y73F8A.284				
21ur-4286	Y73F8A.269				
21ur-3442	Y73F8A.490				
21ur-752	Y73F8A.76				
21ur-451	Y73F8A.437				
21ur-3124	Y73F8A.346				
21ur-4949	Y73F8A.218				
21ur-2939	Y73F8A.89				
21ur-1574	Y73F8A.415				
21ur-134	Y105C5A.248				
21ur-1252	Y105C5A.141				
21ur-5130	Y105C5A.503				
21ur-1903	Y105C5A.383				
21ur-2704	Y105C5A.54				
21ur-1125	Y105C5A.79				
21ur-1123	Y105C5A.402				
21ur-3324	Y105C5A.283				
21ur-791	Y105C5A.432				
Y105C5A.1	Y105C5A.1	Y105C5A.1 [Source:RefSeq_peptide;Acc:NP_502871]	embryonic development ending in birth or egg hatching, 		protein binding, 
21ur-3118	Y105C5A.333				
21ur-5353	Y105C5A.220				
21ur-2251	Y105C5A.118				
Y105C5A.2	Y105C5A.2				
21ur-2237	Y105C5A.416				
21ur-794	Y105C5A.153				
21ur-3185	Y105C5A.84				
21ur-4018	Y105C5A.269				
21ur-3380	Y105C5A.294				
21ur-3854	Y105C5A.133				
21ur-2212	Y105C5A.336				
21ur-5283	Y105C5A.201				
21ur-4874	Y105C5A.187				
21ur-1145	Y105C5A.329				
21ur-2472	Y105C5A.303				
21ur-517	Y105C5A.134				
21ur-1161	Y105C5A.284				
21ur-3553	Y105C5A.51				
21ur-1070	Y105C5A.160				
21ur-3657	Y105C5A.146				
21ur-2728	Y105C5A.70				
21ur-1124	Y105C5A.206				
21ur-471	Y105C5A.208				
21ur-4225	Y105C5A.270				
21ur-1261	Y105C5A.406				
21ur-944	Y105C5A.476				
21ur-2361	Y105C5A.149				
21ur-1645	Y105C5A.262				
21ur-4306	Y105C5A.378				
21ur-3785	Y105C5A.280				
21ur-4785	Y105C5A.143				
21ur-3601	Y105C5A.61				
21ur-2803	Y105C5A.358				
21ur-2208	Y105C5A.207				
21ur-3279	Y105C5A.33				
21ur-5091	Y105C5A.412				
21ur-880	Y105C5A.69				
21ur-4163	Y105C5A.50				
pqn-76	Y105C5A.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
21ur-4571	Y105C5A.372				
21ur-2925	Y105C5A.485				
21ur-92	Y105C5A.472				
21ur-1535	Y105C5A.388				
21ur-3773	Y105C5A.210				
21ur-127	Y105C5A.36				
21ur-2418	Y105C5A.132				
21ur-131	Y105C5A.298				
21ur-2817	Y105C5A.430				
21ur-2093	Y105C5A.393				
21ur-1549	Y105C5A.351				
21ur-508	Y105C5A.137				
21ur-3842	Y105C5A.73				
21ur-4533	Y105C5A.505				
21ur-1996	Y105C5A.128				
abu-5	Y105C5A.4	abu-5 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-5 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum (ER), and ABU-5 may function within the ER to protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			
Y105C5A.30	Y105C5A.30				
21ur-156	Y105C5A.124				
21ur-4222	Y105C5A.136				
pqn-78	Y105C5A.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
pqn-79	Y105C5A.6	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
21ur-1721	Y105C5A.211				
Y105C5A.7	Y105C5A.7				
21ur-2370	Y105C5A.491				
21ur-4205	Y105C5A.414				
21ur-1924	Y105C5A.213				
21ur-2774	Y105C5A.175				
21ur-2308	Y105C5A.407				
21ur-1967	Y105C5A.324				
21ur-3560	Y105C5A.267				
21ur-5265	Y105C5A.62				
21ur-1514	Y105C5A.198				
Y105C5A.t2	Y105C5A.t2				
21ur-2252	Y105C5A.164				
21ur-1158	Y105C5A.194				
21ur-4560	Y105C5A.314				
21ur-3929	Y105C5A.37				
21ur-1043	Y105C5A.172				
21ur-1951	Y105C5A.394				
21ur-94	Y105C5A.287				
21ur-2579	Y105C5A.395				
21ur-1695	Y105C5A.499				
21ur-1174	Y105C5A.306				
21ur-4472	Y105C5A.202				
21ur-4458	Y105C5A.122				
21ur-4906	Y105C5A.135				
21ur-3823	Y105C5A.387				
21ur-1820	Y105C5A.465				
21ur-2367	Y105C5A.357				
21ur-4903	Y105C5A.381				
21ur-4730	Y105C5A.468				
21ur-801	Y105C5A.385				
Y105C5A.8	Y105C5A.8	Y105C5A.8a [Source:RefSeq_peptide;Acc:NP_001041003]			
21ur-1046	Y105C5A.173				
21ur-1682	Y105C5A.167				
21ur-3309	Y105C5A.398				
21ur-1736	Y105C5A.322				
21ur-5234	Y105C5A.158				
21ur-976	Y105C5A.299				
21ur-2587	Y105C5A.64				
21ur-4125	Y105C5A.78				
21ur-4960	Y105C5A.313				
21ur-3897	Y105C5A.155				
21ur-2323	Y105C5A.460				
21ur-703	Y105C5A.229				
21ur-4939	Y105C5A.316				
21ur-3639	Y105C5A.400				
21ur-4797	Y105C5A.239				
21ur-403	Y105C5A.121				
21ur-4997	Y105C5A.57				
21ur-3898	Y105C5A.369				
21ur-3176	Y105C5A.42				
21ur-4054	Y105C5A.147				
21ur-1896	Y105C5A.417				
21ur-3544	Y105C5A.87				
21ur-3489	Y105C5A.376				
21ur-1013	Y105C5A.225				
21ur-2086	Y105C5A.165				
21ur-3171	Y105C5A.373				
21ur-4402	Y105C5A.428				
21ur-2313	Y105C5A.421				
21ur-2303	Y105C5A.102				
21ur-2548	Y105C5A.502				
21ur-2990	Y105C5A.272				
21ur-4813	Y105C5A.108				
21ur-1941	Y105C5A.431				
21ur-427	Y105C5A.368				
21ur-1528	Y105C5A.339				
21ur-3376	Y105C5A.92				
21ur-2848	Y105C5A.422				
21ur-972	Y105C5A.38				
21ur-4439	Y105C5A.361				
21ur-3822	Y105C5A.349				
Y105C5A.9	Y105C5A.9	Y105C5A.9a [Source:RefSeq_peptide;Acc:NP_001041005]			
Y105C5A.10	Y105C5A.10	Y105C5A.10 [Source:RefSeq_peptide;Acc:NP_502878]			
srg-19	Y105C5A.11	Serpentine Receptor, class G (gamma) family member (srg-19) [Source:RefSeq_peptide;Acc:NP_502879]	signal transduction, 	membrane, 	transmembrane receptor activity, 
Y105C5A.13	Y105C5A.13	Y105C5A.13a [Source:RefSeq_peptide;Acc:NP_001041001]			
Y105C5A.12	Y105C5A.12	Y105C5A.12 [Source:RefSeq_peptide;Acc:NP_502880]			
Y105C5A.14	Y105C5A.14	Y105C5A.14 [Source:RefSeq_peptide;Acc:NP_502882]	regulation of transcription, DNA-dependent, DNA replication, positive regulation of growth rate, 	intracellular, nucleus, 	nucleotide binding, DNA binding, nucleic acid binding, 3'-5' exonuclease activity, ligand-dependent nuclear receptor activity, DNA-directed DNA polymerase activity, 
21ur-4176	Y105C5A.452				
21ur-1491	Y105C5A.459				
21ur-2461	Y105C5A.466				
21ur-2695	Y105C5A.103				
21ur-143	Y105C5A.197				
21ur-4502	Y105C5A.277				
21ur-4509	Y105C5A.39				
21ur-2927	Y105C5A.386				
21ur-5038	Y105C5A.106				
21ur-3292	Y105C5A.251				
21ur-2077	Y105C5A.410				
21ur-1540	Y105C5A.354				
21ur-1714	Y105C5A.290				
21ur-561	Y105C5A.127				
21ur-3509	Y105C5A.110				
21ur-1033	Y105C5A.93				
21ur-966	Y105C5A.408				
21ur-444	Y105C5A.148				
21ur-3164	Y105C5A.471				
21ur-1255	Y105C5A.278				
21ur-2535	Y105C5A.424				
21ur-4462	Y105C5A.442				
21ur-2431	Y105C5A.331				
21ur-4309	Y105C5A.113				
21ur-5448	Y105C5A.150				
21ur-5306	Y105C5A.377				
21ur-3662	Y105C5A.279				
21ur-3515	Y105C5A.181				
21ur-744	Y105C5A.144				
21ur-1768	Y105C5A.126				
21ur-4107	Y105C5A.425				
21ur-211	Y105C5A.429				
21ur-977	Y105C5A.274				
21ur-5134	Y105C5A.245				
21ur-2325	Y105C5A.360				
21ur-257	Y105C5A.76				
21ur-4038	Y105C5A.227				
21ur-933	Y105C5A.350				
21ur-2405	Y105C5A.296				
21ur-2110	Y105C5A.348				
21ur-2293	Y105C5A.46				
21ur-4862	Y105C5A.507				
21ur-3391	Y105C5A.250				
21ur-3922	Y105C5A.41				
21ur-834	Y105C5A.246				
21ur-2408	Y105C5A.463				
21ur-1328	Y105C5A.237				
21ur-3993	Y105C5A.379				
21ur-2177	Y105C5A.454				
21ur-754	Y105C5A.71				
21ur-604	Y105C5A.264				
21ur-2551	Y105C5A.418				
21ur-2724	Y105C5A.404				
21ur-2268	Y105C5A.462				
21ur-2440	Y105C5A.240				
21ur-1897	Y105C5A.119				
21ur-1664	Y105C5A.80				
21ur-1289	Y105C5A.91				
21ur-3858	Y105C5A.341				
21ur-4192	Y105C5A.63				
21ur-1099	Y105C5A.161				
21ur-2150	Y105C5A.484				
21ur-3487	Y105C5A.504				
21ur-985	Y105C5A.196				
21ur-1025	Y105C5A.374				
Y105C5A.26	Y105C5A.26	Y105C5A.26 [Source:RefSeq_peptide;Acc:NP_001023428]			
21ur-3811	Y105C5A.446				
21ur-2539	Y105C5A.234				
21ur-2002	Y105C5A.478				
21ur-1375	Y105C5A.171				
21ur-2306	Y105C5A.496				
21ur-1405	Y105C5A.447				
21ur-5414	Y105C5A.117				
21ur-5022	Y105C5A.258				
21ur-5437	Y105C5A.451				
21ur-4076	Y105C5A.456				
21ur-4848	Y105C5A.195				
21ur-4324	Y105C5A.205				
21ur-112	Y105C5A.323				
21ur-2516	Y105C5A.352				
21ur-5218	Y105C5A.60				
21ur-3370	Y105C5A.297				
21ur-378	Y105C5A.49				
21ur-1867	Y105C5A.107				
21ur-409	Y105C5A.89				
21ur-2953	Y105C5A.461				
21ur-2753	Y105C5A.420				
21ur-413	Y105C5A.209				
21ur-827	Y105C5A.396				
21ur-191	Y105C5A.90				
21ur-1402	Y105C5A.96				
21ur-569	Y105C5A.247				
21ur-4481	Y105C5A.254				
21ur-113	Y105C5A.232				
21ur-2733	Y105C5A.233				
21ur-2012	Y105C5A.176				
21ur-4510	Y105C5A.216				
21ur-4223	Y105C5A.423				
21ur-2292	Y105C5A.159				
Y105C5A.27	Y105C5A.27				
21ur-3443	Y105C5A.273				
21ur-1321	Y105C5A.301				
21ur-1364	Y105C5A.332				
21ur-1075	Y105C5A.192				
21ur-5096	Y105C5A.304				
21ur-1906	Y105C5A.120				
21ur-4119	Y105C5A.265				
21ur-720	Y105C5A.481				
21ur-2080	Y105C5A.56				
21ur-4179	Y105C5A.281				
Y105C5A.15	Y105C5A.15	Y105C5A.15 [Source:RefSeq_peptide;Acc:NP_502883]	carbohydrate metabolic process, 		DNA binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 
21ur-3163	Y105C5A.48				
21ur-1360	Y105C5A.177				
21ur-2024	Y105C5A.154				
21ur-1947	Y105C5A.347				
21ur-4683	Y105C5A.226				
21ur-903	Y105C5A.488				
21ur-3646	Y105C5A.328				
21ur-1421	Y105C5A.266				
21ur-3432	Y105C5A.178				
21ur-696	Y105C5A.384				
21ur-3169	Y105C5A.152				
21ur-4945	Y105C5A.174				
Y105C5A.28	Y105C5A.28		embryonic development ending in birth or egg hatching, 		
21ur-1560	Y105C5A.449				
21ur-4145	Y105C5A.203				
21ur-2277	Y105C5A.450				
21ur-1866	Y105C5A.415				
21ur-350	Y105C5A.116				
21ur-4746	Y105C5A.492				
21ur-3095	Y105C5A.221				
21ur-3526	Y105C5A.99				
21ur-4139	Y105C5A.315				
21ur-4385	Y105C5A.317				
Y105C5A.17	Y105C5A.17	Y105C5A.17 [Source:RefSeq_peptide;Acc:NP_502885]			
21ur-4809	Y105C5A.344				
21ur-5135	Y105C5A.47				
21ur-1790	Y105C5A.82				
21ur-2435	Y105C5A.98				
21ur-4208	Y105C5A.255				
21ur-825	Y105C5A.86				
21ur-3264	Y105C5A.448				
21ur-3388	Y105C5A.340				
21ur-3590	Y105C5A.77				
21ur-2740	Y105C5A.401				
21ur-4558	Y105C5A.325				
21ur-1401	Y105C5A.356				
21ur-4950	Y105C5A.65				
21ur-1845	Y105C5A.88				
21ur-1761	Y105C5A.183				
21ur-4630	Y105C5A.343				
21ur-2902	Y105C5A.170				
21ur-2484	Y105C5A.311				
Y105C5A.18	Y105C5A.18				
21ur-4943	Y105C5A.318				
21ur-2550	Y105C5A.458				
21ur-4655	Y105C5A.437				
21ur-2449	Y105C5A.111				
Y105C5A.19	Y105C5A.19				
21ur-1407	Y105C5A.327				
21ur-1147	Y105C5A.68				
Y105C5A.20	Y105C5A.20				
21ur-4471	Y105C5A.397				
21ur-2821	Y105C5A.275				
21ur-5018	Y105C5A.326				
21ur-4834	Y105C5A.163				
21ur-2347	Y105C5A.238				
21ur-2872	Y105C5A.34				
21ur-1169	Y105C5A.219				
21ur-1219	Y105C5A.58				
21ur-2388	Y105C5A.289				
21ur-3675	Y105C5A.483				
21ur-522	Y105C5A.380				
21ur-3459	Y105C5A.501				
21ur-499	Y105C5A.105				
21ur-2648	Y105C5A.83				
21ur-2385	Y105C5A.457				
21ur-4090	Y105C5A.189				
21ur-99	Y105C5A.292				
21ur-3676	Y105C5A.489				
21ur-5249	Y105C5A.455				
21ur-877	Y105C5A.55				
21ur-1718	Y105C5A.95				
21ur-1725	Y105C5A.427				
21ur-5383	Y105C5A.184				
21ur-2340	Y105C5A.345				
21ur-1582	Y105C5A.475				
21ur-3061	Y105C5A.100				
21ur-4421	Y105C5A.185				
21ur-2078	Y105C5A.193				
21ur-1183	Y105C5A.199				
21ur-3613	Y105C5A.244				
21ur-302	Y105C5A.288				
21ur-4530	Y105C5A.370				
21ur-837	Y105C5A.367				
21ur-1884	Y105C5A.217				
21ur-303	Y105C5A.362				
21ur-246	Y105C5A.204				
21ur-239	Y105C5A.436				
21ur-109	Y105C5A.188				
21ur-4894	Y105C5A.500				
21ur-3670	Y105C5A.75				
21ur-31	Y105C5A.67				
21ur-809	Y105C5A.231				
21ur-4347	Y105C5A.493				
21ur-1579	Y105C5A.243				
21ur-1914	Y105C5A.441				
21ur-2922	Y105C5A.490				
21ur-1061	Y105C5A.497				
21ur-5217	Y105C5A.101				
21ur-4918	Y105C5A.359				
21ur-5184	Y105C5A.186				
21ur-1870	Y105C5A.200				
21ur-118	Y105C5A.355				
21ur-5431	Y105C5A.242				
21ur-4830	Y105C5A.434				
21ur-2963	Y105C5A.439				
21ur-4849	Y105C5A.104				
21ur-4628	Y105C5A.271				
21ur-5424	Y105C5A.139				
21ur-3910	Y105C5A.498				
21ur-5278	Y105C5A.319				
21ur-4546	Y105C5A.180				
21ur-3262	Y105C5A.35				
21ur-1972	Y105C5A.268				
21ur-5097	Y105C5A.320				
21ur-3345	Y105C5A.435				
21ur-167	Y105C5A.389				
21ur-135	Y105C5A.212				
21ur-3976	Y105C5A.97				
21ur-4190	Y105C5A.168				
21ur-4269	Y105C5A.40				
21ur-3423	Y105C5A.474				
21ur-2582	Y105C5A.444				
21ur-5314	Y105C5A.182				
21ur-5133	Y105C5A.43				
21ur-4494	Y105C5A.140				
21ur-3041	Y105C5A.59				
21ur-4812	Y105C5A.52				
21ur-259	Y105C5A.330				
21ur-4724	Y105C5A.72				
21ur-426	Y105C5A.252				
21ur-1189	Y105C5A.260				
21ur-4807	Y105C5A.480				
Y105C5A.21	Y105C5A.21				
21ur-452	Y105C5A.166				
21ur-218	Y105C5A.295				
21ur-3195	Y105C5A.162				
21ur-1780	Y105C5A.353				
21ur-2294	Y105C5A.257				
21ur-4788	Y105C5A.321				
21ur-3013	Y105C5A.409				
21ur-1489	Y105C5A.130				
21ur-753	Y105C5A.125				
Y105C5A.t1	Y105C5A.t1				
21ur-2152	Y105C5A.282				
21ur-5223	Y105C5A.53				
21ur-797	Y105C5A.142				
21ur-5415	Y105C5A.419				
21ur-3321	Y105C5A.253				
21ur-2183	Y105C5A.392				
21ur-3257	Y105C5A.74				
21ur-2118	Y105C5A.365				
21ur-2931	Y105C5A.310				
21ur-694	Y105C5A.285				
Y105C5A.22	Y105C5A.22	Y105C5A.22 [Source:RefSeq_peptide;Acc:NP_502886]			
Y105C5A.29	Y105C5A.29				
Y105C5A.31	Y105C5A.31				
21ur-3852	Y105C5A.470				
21ur-2843	Y105C5A.382				
21ur-3466	Y105C5A.411				
21ur-4555	Y105C5A.433				
21ur-853	Y105C5A.346				
21ur-3170	Y105C5A.371				
21ur-3038	Y105C5A.300				
21ur-216	Y105C5A.191				
21ur-1231	Y105C5A.363				
21ur-4211	Y105C5A.506				
21ur-4160	Y105C5A.66				
21ur-5059	Y105C5A.145				
21ur-3181	Y105C5A.276				
21ur-760	Y105C5A.312				
21ur-786	Y105C5A.302				
21ur-4031	Y105C5A.112				
21ur-5005	Y105C5A.479				
21ur-3136	Y105C5A.129				
21ur-4548	Y105C5A.44				
21ur-2275	Y105C5A.308				
21ur-1199	Y105C5A.81				
21ur-2519	Y105C5A.307				
21ur-967	Y105C5A.235				
21ur-3647	Y105C5A.114				
21ur-227	Y105C5A.241				
21ur-1164	Y105C5A.156				
21ur-3664	Y105C5A.215				
21ur-2752	Y105C5A.151				
21ur-2684	Y105C5A.375				
21ur-33	Y105C5A.190				
21ur-5363	Y105C5A.405				
21ur-2387	Y105C5A.230				
Y105C5A.23	Y105C5A.23	Y105C5A.23 [Source:RefSeq_peptide;Acc:NP_502887]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-5067	Y105C5A.453				
21ur-1297	Y105C5A.309				
21ur-4759	Y105C5A.109				
21ur-4127	Y105C5A.469				
21ur-2014	Y105C5A.334				
21ur-4931	Y105C5A.115				
21ur-1142	Y105C5A.494				
21ur-1637	Y105C5A.467				
21ur-3015	Y105C5A.286				
21ur-4953	Y105C5A.222				
21ur-89	Y105C5A.293				
21ur-2127	Y105C5A.482				
21ur-3523	Y105C5A.218				
21ur-2467	Y105C5A.224				
21ur-4456	Y105C5A.223				
21ur-65	Y105C5A.473				
21ur-4311	Y105C5A.426				
21ur-1454	Y105C5A.443				
21ur-1373	Y105C5A.438				
21ur-3565	Y105C5A.85				
21ur-4288	Y105C5A.342				
21ur-4416	Y105C5A.338				
21ur-473	Y105C5A.486				
21ur-1987	Y105C5A.138				
21ur-5239	Y105C5A.261				
21ur-2259	Y105C5A.390				
21ur-2857	Y105C5A.364				
21ur-3016	Y105C5A.123				
21ur-4348	Y105C5A.32				
21ur-145	Y105C5A.259				
21ur-1211	Y105C5A.236				
21ur-2979	Y105C5A.263				
21ur-247	Y105C5A.477				
21ur-4780	Y105C5A.305				
21ur-4998	Y105C5A.366				
21ur-2568	Y105C5A.45				
21ur-374	Y105C5A.487				
21ur-3756	Y105C5A.94				
21ur-4937	Y105C5A.445				
21ur-4394	Y105C5A.440				
21ur-3592	Y105C5A.228				
21ur-4513	Y105C5A.179				
21ur-3521	Y105C5A.291				
21ur-839	Y105C5A.337				
21ur-5052	Y105C5A.157				
21ur-266	Y105C5A.131				
21ur-2856	Y105C5A.335				
21ur-2787	Y105C5A.169				
Y105C5A.24	Y105C5A.24	Y105C5A.24 [Source:RefSeq_peptide;Acc:NP_502888]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
21ur-2576	Y105C5A.399				
21ur-2070	Y105C5A.413				
21ur-4979	Y105C5A.495				
21ur-3994	Y105C5A.249				
21ur-4414	Y105C5A.403				
21ur-5449	Y105C5A.214				
21ur-3934	Y105C5A.256				
21ur-1529	Y105C5A.391				
Y105C5A.25	Y105C5A.25				
21ur-4850	Y105C5A.464				
21ur-648	Y105C5B.105				
21ur-533	Y105C5B.69				
21ur-2205	Y105C5B.205				
21ur-5125	Y105C5B.121				
21ur-737	Y105C5B.412				
21ur-5443	Y105C5B.603				
21ur-1977	Y105C5B.52				
21ur-4484	Y105C5B.342				
21ur-807	Y105C5B.130				
21ur-2355	Y105C5B.125				
21ur-2075	Y105C5B.530				
21ur-498	Y105C5B.90				
21ur-1756	Y105C5B.213				
21ur-5332	Y105C5B.544				
21ur-3233	Y105C5B.89				
21ur-1273	Y105C5B.97				
21ur-180	Y105C5B.478				
Y105C5B.1	Y105C5B.1	Y105C5B.1 [Source:RefSeq_peptide;Acc:NP_502890]		membrane, 	mating-type factor pheromone receptor activity, 
21ur-3643	Y105C5B.440				
21ur-2708	Y105C5B.127				
gcy-25	Y105C5B.2	gcy-25 encodes a predicted guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
21ur-34	Y105C5B.450				
21ur-4188	Y105C5B.489				
21ur-5207	Y105C5B.159				
21ur-685	Y105C5B.509				
21ur-5087	Y105C5B.41				
21ur-3990	Y105C5B.467				
21ur-3116	Y105C5B.608				
21ur-2906	Y105C5B.421				
21ur-2801	Y105C5B.71				
21ur-165	Y105C5B.438				
21ur-974	Y105C5B.216				
21ur-4059	Y105C5B.259				
21ur-980	Y105C5B.245				
21ur-4927	Y105C5B.197				
21ur-4069	Y105C5B.157				
21ur-929	Y105C5B.510				
21ur-2881	Y105C5B.522				
21ur-782	Y105C5B.263				
21ur-1532	Y105C5B.492				
21ur-1178	Y105C5B.308				
21ur-2147	Y105C5B.293				
21ur-5341	Y105C5B.430				
21ur-2890	Y105C5B.91				
Y105C5B.3	Y105C5B.3	Y105C5B.3 [Source:RefSeq_peptide;Acc:NP_502892]			metal ion binding, hydrolase activity, acid phosphatase activity, 
21ur-3806	Y105C5B.239				
21ur-5325	Y105C5B.190				
21ur-3493	Y105C5B.210				
21ur-4003	Y105C5B.199				
21ur-2372	Y105C5B.262				
21ur-2759	Y105C5B.242				
21ur-4777	Y105C5B.602				
21ur-95	Y105C5B.248				
21ur-2082	Y105C5B.548				
21ur-3225	Y105C5B.209				
21ur-3829	Y105C5B.226				
21ur-4243	Y105C5B.70				
21ur-4362	Y105C5B.325				
21ur-177	Y105C5B.559				
srv-14	Y105C5B.4	Serpentine Receptor, class V family member (srv-14) [Source:RefSeq_peptide;Acc:NP_502893]			
21ur-5166	Y105C5B.181				
21ur-3374	Y105C5B.299				
21ur-1729	Y105C5B.459				
21ur-5284	Y105C5B.279				
21ur-4720	Y105C5B.320				
21ur-963	Y105C5B.74				
21ur-16	Y105C5B.587				
21ur-3077	Y105C5B.504				
21ur-2794	Y105C5B.77				
21ur-4557	Y105C5B.590				
21ur-2041	Y105C5B.222				
21ur-4289	Y105C5B.134				
21ur-4739	Y105C5B.162				
Y105C5B.5	Y105C5B.5	Y105C5B.5 [Source:RefSeq_peptide;Acc:NP_502894]			
21ur-4820	Y105C5B.382				
21ur-2376	Y105C5B.535				
21ur-69	Y105C5B.228				
21ur-1547	Y105C5B.566				
21ur-1569	Y105C5B.368				
21ur-1740	Y105C5B.46				
21ur-1187	Y105C5B.108				
21ur-2052	Y105C5B.506				
21ur-54	Y105C5B.458				
21ur-2311	Y105C5B.357				
21ur-4162	Y105C5B.306				
21ur-2610	Y105C5B.402				
21ur-4512	Y105C5B.271				
21ur-3895	Y105C5B.524				
srv-15	Y105C5B.6	Serpentine Receptor, class V family member (srv-15) [Source:RefSeq_peptide;Acc:NP_001041011]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-210	Y105C5B.569				
21ur-2716	Y105C5B.291				
21ur-231	Y105C5B.34				
21ur-3792	Y105C5B.411				
21ur-3815	Y105C5B.461				
21ur-161	Y105C5B.314				
21ur-1240	Y105C5B.520				
21ur-4355	Y105C5B.385				
21ur-1835	Y105C5B.94				
21ur-4238	Y105C5B.589				
21ur-2789	Y105C5B.431				
21ur-3577	Y105C5B.62				
21ur-3152	Y105C5B.277				
21ur-2059	Y105C5B.235				
21ur-1460	Y105C5B.113				
Y105C5B.7	Y105C5B.7	Y105C5B.7 [Source:RefSeq_peptide;Acc:NP_502896]			metal ion binding, hydrolase activity, acid phosphatase activity, 
21ur-4062	Y105C5B.137				
21ur-3851	Y105C5B.495				
21ur-4004	Y105C5B.118				
21ur-4985	Y105C5B.57				
21ur-3546	Y105C5B.141				
21ur-4323	Y105C5B.457				
21ur-1998	Y105C5B.346				
21ur-2945	Y105C5B.75				
21ur-1361	Y105C5B.268				
21ur-2442	Y105C5B.100				
21ur-2731	Y105C5B.120				
21ur-3050	Y105C5B.359				
Y105C5B.8	Y105C5B.8	Y105C5B.8 [Source:RefSeq_peptide;Acc:NP_502897]			
21ur-1298	Y105C5B.312				
21ur-1461	Y105C5B.128				
21ur-3748	Y105C5B.491				
21ur-3199	Y105C5B.419				
21ur-383	Y105C5B.564				
21ur-5117	Y105C5B.444				
21ur-1319	Y105C5B.184				
21ur-4863	Y105C5B.358				
21ur-2341	Y105C5B.326				
21ur-182	Y105C5B.142				
21ur-4050	Y105C5B.538				
21ur-3901	Y105C5B.553				
Y105C5B.9	Y105C5B.9	Y105C5B.9 [Source:RefSeq_peptide;Acc:NP_502898]			
Y105C5B.t4	Y105C5B.t4				
srv-16	Y105C5B.10	Serpentine Receptor, class V family member (srv-16) [Source:RefSeq_peptide;Acc:NP_502899]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y105C5B.t1	Y105C5B.t1				
Y105C5B.t3	Y105C5B.t3				
Y105C5B.t2	Y105C5B.t2				
21ur-2876	Y105C5B.39				
21ur-1836	Y105C5B.140				
21ur-1144	Y105C5B.454				
21ur-1218	Y105C5B.290				
21ur-4023	Y105C5B.503				
21ur-4872	Y105C5B.339				
Y105C5B.11	Y105C5B.11	Y105C5B.11 [Source:RefSeq_peptide;Acc:NP_502900]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
21ur-3797	Y105C5B.85				
21ur-1287	Y105C5B.594				
Y105C5B.12	Y105C5B.12	Y105C5B.12b [Source:RefSeq_peptide;Acc:NP_872083]	one-carbon compound metabolic process, positive regulation of growth rate, 		ATP binding, methionine adenosyltransferase activity, 
21ur-4911	Y105C5B.557				
21ur-3743	Y105C5B.333				
21ur-3635	Y105C5B.98				
21ur-353	Y105C5B.580				
21ur-3372	Y105C5B.423				
21ur-4229	Y105C5B.267				
skr-10	Y105C5B.13	skr-10 encodes a homolog of Skp1 in S. cerevisiae, a core component of the SCF (Skp1p, Cullin, F-box) ubiquitin-ligase complex that facilitates ubiquitin-mediated protein degradation. SKR-10 is required for posterior body morphogenesis, embryonic and larval development, and cell proliferation. SKR-10 is expressed in the tip and end regions of the intestine and can interact in vivo with CUL-1 and CUL-2, C. elegans cullin homologs. [Source: WormBase]	embryonic development, 		protein binding, molecular_function, 
21ur-490	Y105C5B.237				
21ur-2319	Y105C5B.88				
21ur-3141	Y105C5B.476				
21ur-4838	Y105C5B.600				
21ur-792	Y105C5B.556				
Y105C5B.14	Y105C5B.14	Y105C5B.14 [Source:RefSeq_peptide;Acc:NP_502903]			
Y105C5B.15	Y105C5B.15	Y105C5B.15 [Source:RefSeq_peptide;Acc:NP_502904]			metal ion binding, hydrolase activity, acid phosphatase activity, 
21ur-3937	Y105C5B.540				
21ur-4707	Y105C5B.251				
21ur-2267	Y105C5B.577				
21ur-4803	Y105C5B.295				
21ur-3449	Y105C5B.32				
21ur-721	Y105C5B.573				
21ur-217	Y105C5B.446				
21ur-1209	Y105C5B.148				
21ur-1839	Y105C5B.234				
21ur-1927	Y105C5B.221				
21ur-5447	Y105C5B.269				
lgc-19	Y105C5B.16	Putative uncharacterized protein lgc-19. [Source:Uniprot/SPTREMBL;Acc:Q9NAM5]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, GABA-A receptor activity, 
21ur-4310	Y105C5B.124				
21ur-3383	Y105C5B.275				
21ur-3580	Y105C5B.429				
21ur-822	Y105C5B.278				
21ur-3375	Y105C5B.151				
21ur-243	Y105C5B.568				
21ur-4063	Y105C5B.174				
21ur-1570	Y105C5B.110				
21ur-1453	Y105C5B.505				
21ur-2985	Y105C5B.270				
21ur-4969	Y105C5B.441				
21ur-4377	Y105C5B.537				
Y105C5B.17	Y105C5B.17	Y105C5B.17 [Source:RefSeq_peptide;Acc:NP_502906]		extracellular region, 	
21ur-3802	Y105C5B.508				
Y105C5B.18	Y105C5B.18	Y105C5B.18 [Source:RefSeq_peptide;Acc:NP_502907]			
21ur-876	Y105C5B.123				
21ur-117	Y105C5B.354				
21ur-3975	Y105C5B.317				
21ur-1643	Y105C5B.400				
21ur-2030	Y105C5B.117				
21ur-2626	Y105C5B.477				
21ur-1469	Y105C5B.376				
21ur-4959	Y105C5B.442				
21ur-2100	Y105C5B.302				
21ur-3435	Y105C5B.562				
21ur-692	Y105C5B.93				
21ur-1444	Y105C5B.211				
21ur-1636	Y105C5B.474				
21ur-4398	Y105C5B.155				
21ur-1905	Y105C5B.194				
21ur-614	Y105C5B.415				
21ur-3840	Y105C5B.500				
21ur-2563	Y105C5B.37				
21ur-3609	Y105C5B.280				
21ur-1567	Y105C5B.514				
21ur-5236	Y105C5B.177				
21ur-2222	Y105C5B.482				
21ur-5139	Y105C5B.372				
21ur-3275	Y105C5B.347				
21ur-4980	Y105C5B.309				
21ur-2491	Y105C5B.523				
21ur-3063	Y105C5B.609				
21ur-2703	Y105C5B.158				
21ur-2605	Y105C5B.539				
21ur-3570	Y105C5B.81				
21ur-5232	Y105C5B.596				
21ur-2725	Y105C5B.56				
21ur-3093	Y105C5B.528				
21ur-4708	Y105C5B.373				
21ur-4330	Y105C5B.114				
Y105C5B.19	Y105C5B.19	Y105C5B.19 [Source:RefSeq_peptide;Acc:NP_502908]			protein binding, structural molecule activity, 
21ur-2832	Y105C5B.453				
21ur-2072	Y105C5B.362				
21ur-2443	Y105C5B.531				
21ur-4249	Y105C5B.164				
21ur-1837	Y105C5B.80				
21ur-4120	Y105C5B.150				
21ur-445	Y105C5B.252				
21ur-5305	Y105C5B.529				
21ur-902	Y105C5B.377				
21ur-4836	Y105C5B.324				
21ur-288	Y105C5B.323				
21ur-4992	Y105C5B.475				
21ur-4668	Y105C5B.502				
21ur-1696	Y105C5B.79				
21ur-261	Y105C5B.353				
21ur-1309	Y105C5B.206				
21ur-4083	Y105C5B.297				
21ur-528	Y105C5B.555				
21ur-1290	Y105C5B.378				
21ur-866	Y105C5B.307				
21ur-560	Y105C5B.247				
21ur-1720	Y105C5B.584				
Y105C5B.20	Y105C5B.20	Y105C5B.20 [Source:RefSeq_peptide;Acc:NP_502909]			
21ur-3645	Y105C5B.311				
21ur-5274	Y105C5B.58				
Y105C5B.31	Y105C5B.31				
21ur-1868	Y105C5B.395				
21ur-4247	Y105C5B.389				
21ur-5109	Y105C5B.116				
21ur-3158	Y105C5B.87				
jac-1	Y105C5B.21	jac-1 encodes the C. elegans p120 catenin orthologue. by homology, JAC-1 is predicted to be a component of the cadherin-catenin complex (CCC). although loss of jac-1 activity via RNAi does not result in obvious defects, jac-1(RNAi) does enhance embryonic morphogenesis defects produced by weak loss-of-function mutations in hmp-1/alpha-catenin, suggesting that JAC-1 positively regulates cadherin-catenin function in the embryo. JAC-1 likely regulates this function by promoting association between the actin cytoskeleton and the cadherin-catenin complex. a JAC-1 reporter fusion localizes to embryonic adherens junctions in a manner that is dependent upon the presence of HMR-1/cadherin, with which it specifically interacts in the yeast two-hybrid system. [Source: WormBase]			binding, 
21ur-3954	Y105C5B.292				
21ur-4490	Y105C5B.403				
21ur-3608	Y105C5B.409				
21ur-101	Y105C5B.40				
21ur-1585	Y105C5B.129				
21ur-4693	Y105C5B.43				
21ur-322	Y105C5B.443				
21ur-588	Y105C5B.468				
21ur-5061	Y105C5B.322				
21ur-2954	Y105C5B.38				
21ur-534	Y105C5B.160				
21ur-4452	Y105C5B.171				
21ur-5144	Y105C5B.178				
21ur-104	Y105C5B.549				
21ur-2850	Y105C5B.272				
21ur-4283	Y105C5B.313				
21ur-530	Y105C5B.256				
21ur-5119	Y105C5B.386				
21ur-1285	Y105C5B.426				
21ur-336	Y105C5B.200				
21ur-222	Y105C5B.380				
21ur-4287	Y105C5B.497				
21ur-2384	Y105C5B.481				
21ur-4987	Y105C5B.165				
21ur-955	Y105C5B.356				
21ur-892	Y105C5B.191				
21ur-384	Y105C5B.427				
21ur-3480	Y105C5B.494				
21ur-4372	Y105C5B.136				
21ur-4716	Y105C5B.298				
21ur-3707	Y105C5B.329				
21ur-2356	Y105C5B.51				
21ur-3070	Y105C5B.604				
21ur-196	Y105C5B.183				
21ur-2228	Y105C5B.145				
21ur-2632	Y105C5B.527				
21ur-3564	Y105C5B.525				
21ur-3508	Y105C5B.611				
21ur-4827	Y105C5B.351				
21ur-606	Y105C5B.101				
21ur-2414	Y105C5B.447				
21ur-2207	Y105C5B.439				
21ur-781	Y105C5B.516				
21ur-915	Y105C5B.349				
21ur-1036	Y105C5B.547				
21ur-2383	Y105C5B.512				
21ur-150	Y105C5B.570				
21ur-3285	Y105C5B.217				
21ur-1368	Y105C5B.131				
21ur-201	Y105C5B.175				
21ur-4701	Y105C5B.435				
21ur-670	Y105C5B.258				
21ur-1481	Y105C5B.55				
21ur-14	Y105C5B.132				
21ur-5438	Y105C5B.294				
21ur-4800	Y105C5B.407				
21ur-3940	Y105C5B.172				
21ur-5020	Y105C5B.352				
21ur-1237	Y105C5B.215				
21ur-545	Y105C5B.274				
21ur-363	Y105C5B.579				
21ur-4779	Y105C5B.470				
21ur-2569	Y105C5B.255				
21ur-2573	Y105C5B.384				
21ur-4305	Y105C5B.318				
21ur-5303	Y105C5B.78				
21ur-3180	Y105C5B.507				
21ur-2676	Y105C5B.337				
21ur-2694	Y105C5B.469				
21ur-61	Y105C5B.281				
21ur-4843	Y105C5B.541				
21ur-3293	Y105C5B.154				
21ur-1888	Y105C5B.496				
21ur-2438	Y105C5B.332				
21ur-1767	Y105C5B.182				
21ur-3632	Y105C5B.581				
21ur-3478	Y105C5B.72				
21ur-1291	Y105C5B.253				
21ur-484	Y105C5B.316				
21ur-582	Y105C5B.167				
21ur-3634	Y105C5B.460				
21ur-2505	Y105C5B.387				
21ur-2016	Y105C5B.149				
21ur-3119	Y105C5B.571				
21ur-5048	Y105C5B.65				
21ur-4495	Y105C5B.360				
21ur-505	Y105C5B.76				
21ur-3699	Y105C5B.203				
21ur-543	Y105C5B.303				
21ur-111	Y105C5B.451				
21ur-1437	Y105C5B.340				
21ur-2305	Y105C5B.551				
21ur-1976	Y105C5B.122				
21ur-3054	Y105C5B.53				
21ur-3219	Y105C5B.240				
21ur-157	Y105C5B.50				
21ur-4239	Y105C5B.367				
21ur-848	Y105C5B.330				
21ur-1010	Y105C5B.288				
21ur-2592	Y105C5B.225				
21ur-3857	Y105C5B.432				
21ur-3566	Y105C5B.144				
21ur-1447	Y105C5B.152				
21ur-2273	Y105C5B.597				
21ur-2952	Y105C5B.513				
21ur-698	Y105C5B.176				
21ur-968	Y105C5B.379				
21ur-1399	Y105C5B.561				
21ur-3539	Y105C5B.284				
21ur-3055	Y105C5B.246				
21ur-1238	Y105C5B.456				
Y105C5B.23	Y105C5B.23	Y105C5B.23 [Source:RefSeq_peptide;Acc:NP_502912]			
21ur-3766	Y105C5B.545				
21ur-91	Y105C5B.417				
21ur-3409	Y105C5B.45				
21ur-2391	Y105C5B.82				
21ur-2737	Y105C5B.335				
21ur-238	Y105C5B.283				
21ur-194	Y105C5B.33				
21ur-3619	Y105C5B.49				
srg-63	Y105C5B.24				
21ur-5422	Y105C5B.606				
21ur-2845	Y105C5B.526				
21ur-4259	Y105C5B.575				
21ur-4449	Y105C5B.563				
21ur-2342	Y105C5B.599				
21ur-2727	Y105C5B.106				
21ur-2285	Y105C5B.115				
21ur-2616	Y105C5B.465				
21ur-1378	Y105C5B.244				
21ur-2622	Y105C5B.208				
21ur-5201	Y105C5B.463				
21ur-1311	Y105C5B.260				
21ur-4581	Y105C5B.96				
21ur-1561	Y105C5B.480				
21ur-1595	Y105C5B.341				
21ur-450	Y105C5B.595				
21ur-5410	Y105C5B.375				
21ur-621	Y105C5B.257				
21ur-1669	Y105C5B.550				
21ur-658	Y105C5B.552				
21ur-195	Y105C5B.266				
21ur-815	Y105C5B.473				
21ur-2122	Y105C5B.394				
21ur-3941	Y105C5B.163				
21ur-2600	Y105C5B.406				
21ur-3403	Y105C5B.533				
21ur-4801	Y105C5B.196				
21ur-2281	Y105C5B.44				
21ur-221	Y105C5B.425				
21ur-2488	Y105C5B.315				
21ur-1862	Y105C5B.483				
21ur-5212	Y105C5B.204				
21ur-1738	Y105C5B.243				
21ur-1821	Y105C5B.464				
21ur-1300	Y105C5B.445				
21ur-290	Y105C5B.355				
21ur-1889	Y105C5B.534				
21ur-2969	Y105C5B.238				
21ur-3652	Y105C5B.214				
21ur-345	Y105C5B.436				
21ur-1118	Y105C5B.189				
21ur-2602	Y105C5B.273				
21ur-3200	Y105C5B.536				
21ur-3516	Y105C5B.95				
21ur-5299	Y105C5B.138				
21ur-3669	Y105C5B.546				
21ur-5093	Y105C5B.265				
21ur-584	Y105C5B.68				
21ur-1587	Y105C5B.583				
21ur-3327	Y105C5B.84				
21ur-5137	Y105C5B.493				
21ur-4053	Y105C5B.231				
21ur-3453	Y105C5B.42				
21ur-2863	Y105C5B.405				
21ur-4499	Y105C5B.499				
Y105C5B.30	Y105C5B.30				
21ur-3997	Y105C5B.104				
21ur-1895	Y105C5B.54				
21ur-1689	Y105C5B.166				
21ur-4747	Y105C5B.487				
21ur-2029	Y105C5B.408				
21ur-1709	Y105C5B.585				
21ur-1726	Y105C5B.126				
21ur-1742	Y105C5B.202				
21ur-3776	Y105C5B.364				
21ur-295	Y105C5B.558				
21ur-423	Y105C5B.161				
21ur-5271	Y105C5B.153				
21ur-589	Y105C5B.369				
21ur-226	Y105C5B.276				
21ur-304	Y105C5B.287				
21ur-4610	Y105C5B.133				
21ur-4726	Y105C5B.220				
21ur-1911	Y105C5B.223				
21ur-4207	Y105C5B.348				
21ur-1470	Y105C5B.236				
21ur-3053	Y105C5B.47				
21ur-4734	Y105C5B.285				
21ur-2362	Y105C5B.73				
21ur-4857	Y105C5B.111				
21ur-431	Y105C5B.488				
21ur-4653	Y105C5B.83				
21ur-2000	Y105C5B.36				
21ur-2558	Y105C5B.289				
21ur-772	Y105C5B.230				
21ur-3397	Y105C5B.112				
21ur-610	Y105C5B.99				
21ur-5397	Y105C5B.139				
21ur-4737	Y105C5B.264				
21ur-1498	Y105C5B.388				
21ur-3036	Y105C5B.328				
21ur-3945	Y105C5B.416				
21ur-1462	Y105C5B.169				
21ur-2246	Y105C5B.219				
21ur-2057	Y105C5B.345				
21ur-1463	Y105C5B.254				
21ur-4585	Y105C5B.433				
21ur-1809	Y105C5B.420				
21ur-948	Y105C5B.233				
21ur-2867	Y105C5B.393				
21ur-3385	Y105C5B.391				
21ur-3271	Y105C5B.92				
21ur-1950	Y105C5B.336				
21ur-4532	Y105C5B.515				
21ur-1215	Y105C5B.607				
21ur-821	Y105C5B.168				
21ur-2714	Y105C5B.185				
21ur-379	Y105C5B.586				
21ur-2201	Y105C5B.601				
21ur-2170	Y105C5B.543				
21ur-312	Y105C5B.201				
21ur-4663	Y105C5B.399				
21ur-3803	Y105C5B.578				
21ur-4990	Y105C5B.344				
21ur-701	Y105C5B.119				
21ur-3614	Y105C5B.363				
21ur-446	Y105C5B.582				
21ur-4670	Y105C5B.186				
21ur-1501	Y105C5B.572				
21ur-4962	Y105C5B.428				
21ur-2904	Y105C5B.542				
21ur-2523	Y105C5B.598				
21ur-1942	Y105C5B.286				
21ur-4140	Y105C5B.593				
21ur-1074	Y105C5B.455				
21ur-3695	Y105C5B.574				
21ur-5369	Y105C5B.498				
21ur-2574	Y105C5B.592				
21ur-5178	Y105C5B.170				
21ur-964	Y105C5B.147				
21ur-1116	Y105C5B.437				
21ur-1979	Y105C5B.471				
21ur-1083	Y105C5B.511				
Y105C5B.29	Y105C5B.29	Y105C5B.29 [Source:RefSeq_peptide;Acc:NP_001023430]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
21ur-4133	Y105C5B.195				
21ur-3918	Y105C5B.48				
21ur-2825	Y105C5B.63				
21ur-2280	Y105C5B.261				
21ur-2283	Y105C5B.519				
21ur-1952	Y105C5B.486				
21ur-4261	Y105C5B.143				
21ur-3083	Y105C5B.501				
21ur-2503	Y105C5B.250				
21ur-2218	Y105C5B.338				
21ur-2452	Y105C5B.310				
21ur-5401	Y105C5B.192				
21ur-908	Y105C5B.180				
21ur-2284	Y105C5B.207				
21ur-3246	Y105C5B.61				
21ur-3518	Y105C5B.370				
21ur-2812	Y105C5B.64				
21ur-4745	Y105C5B.327				
21ur-5288	Y105C5B.610				
21ur-923	Y105C5B.361				
21ur-1708	Y105C5B.518				
21ur-1269	Y105C5B.404				
21ur-4097	Y105C5B.472				
21ur-3948	Y105C5B.554				
21ur-3213	Y105C5B.485				
Y105C5B.25	Y105C5B.25	Y105C5B.25 [Source:RefSeq_peptide;Acc:NP_502914]			
21ur-2846	Y105C5B.383				
21ur-836	Y105C5B.187				
21ur-1409	Y105C5B.390				
21ur-1329	Y105C5B.422				
21ur-1121	Y105C5B.591				
21ur-779	Y105C5B.517				
21ur-339	Y105C5B.605				
21ur-1813	Y105C5B.466				
21ur-5202	Y105C5B.413				
21ur-3554	Y105C5B.86				
21ur-3082	Y105C5B.576				
21ur-644	Y105C5B.305				
21ur-5396	Y105C5B.229				
21ur-5172	Y105C5B.59				
21ur-5194	Y105C5B.60				
21ur-4390	Y105C5B.224				
21ur-1685	Y105C5B.588				
21ur-3816	Y105C5B.173				
21ur-4275	Y105C5B.249				
21ur-1724	Y105C5B.301				
21ur-1322	Y105C5B.448				
21ur-4810	Y105C5B.462				
21ur-3276	Y105C5B.418				
21ur-5241	Y105C5B.521				
21ur-4909	Y105C5B.397				
21ur-3680	Y105C5B.479				
21ur-810	Y105C5B.396				
21ur-5121	Y105C5B.374				
21ur-4273	Y105C5B.414				
21ur-3399	Y105C5B.35				
21ur-2537	Y105C5B.381				
21ur-4336	Y105C5B.241				
21ur-2643	Y105C5B.567				
21ur-153	Y105C5B.179				
21ur-1849	Y105C5B.365				
21ur-4126	Y105C5B.66				
21ur-680	Y105C5B.135				
21ur-3705	Y105C5B.452				
21ur-497	Y105C5B.282				
21ur-624	Y105C5B.366				
21ur-2886	Y105C5B.565				
21ur-1589	Y105C5B.232				
21ur-1398	Y105C5B.304				
21ur-2814	Y105C5B.107				
21ur-3677	Y105C5B.401				
gln-3	Y105C5B.28	GLutamiNe synthetase (glutamate-ammonia ligase) family member (gln-3) [Source:RefSeq_peptide;Acc:NP_001041009]	glutamine biosynthetic process, nitrogen compound metabolic process, 		glutamate-ammonia ligase activity, 
21ur-5	Y105C5B.321				
21ur-2369	Y105C5B.193				
21ur-1041	Y105C5B.449				
21ur-501	Y105C5B.319				
21ur-5044	Y105C5B.392				
21ur-4071	Y105C5B.343				
21ur-2247	Y105C5B.300				
21ur-1937	Y105C5B.188				
21ur-1079	Y105C5B.102				
21ur-5309	Y105C5B.218				
21ur-3499	Y105C5B.560				
21ur-5156	Y105C5B.198				
21ur-1625	Y105C5B.350				
21ur-1758	Y105C5B.424				
21ur-2221	Y105C5B.532				
21ur-704	Y105C5B.398				
21ur-673	Y105C5B.109				
21ur-4102	Y105C5B.334				
21ur-2485	Y105C5B.484				
21ur-3369	Y105C5B.146				
21ur-4440	Y105C5B.227				
21ur-189	Y105C5B.156				
21ur-2540	Y105C5B.434				
21ur-3132	Y105C5B.331				
21ur-2462	Y105C5B.371				
21ur-2771	Y105C5B.296				
21ur-4612	Y105C5B.410				
21ur-1441	Y105C5B.67				
21ur-2967	Y105C5B.212				
21ur-2530	Y105C5B.103				
21ur-1641	Y105C5B.490				
21ur-4383	Y7A9A.11				
21ur-1137	Y7A9A.2				
21ur-1773	Y7A9A.24				
21ur-3222	Y7A9A.23				
21ur-3711	Y7A9A.12				
21ur-1343	Y7A9A.17				
21ur-595	Y7A9A.18				
21ur-1394	Y7A9A.21				
21ur-3348	Y7A9A.10				
21ur-881	Y7A9A.4				
21ur-3288	Y7A9A.6				
21ur-4380	Y7A9A.5				
21ur-2566	Y7A9A.13				
21ur-1919	Y7A9A.7				
21ur-5371	Y7A9A.22				
21ur-2210	Y7A9A.14				
21ur-3033	Y7A9A.25				
21ur-1751	Y7A9A.8				
21ur-4209	Y7A9A.9				
21ur-1945	Y7A9A.15				
Y7A9A.1	Y7A9A.1	Y7A9A.1 [Source:RefSeq_peptide;Acc:NP_502918]			gamma-glutamyltransferase activity, 
21ur-107	Y7A9A.20				
21ur-2758	Y7A9A.3				
21ur-1056	Y7A9A.16				
H25K10.1	H25K10.1	H25K10.1 [Source:RefSeq_peptide;Acc:NP_502920]			metal ion binding, hydrolase activity, acid phosphatase activity, 
21ur-2492	Y7A9A.19				
21ur-4922	H25K10.58				
21ur-4158	H25K10.8				
21ur-2928	H25K10.20				
21ur-1108	H25K10.33				
21ur-5370	H25K10.48				
21ur-23	H25K10.12				
21ur-1418	H25K10.9				
21ur-4591	H25K10.18				
21ur-597	H25K10.14				
21ur-5379	H25K10.47				
21ur-996	H25K10.35				
21ur-1120	H25K10.13				
21ur-3759	H25K10.38				
21ur-3537	H25K10.21				
21ur-5143	H25K10.30				
H25K10.2	H25K10.2	H25K10.2 [Source:RefSeq_peptide;Acc:NP_502921]			
21ur-4193	H25K10.16				
21ur-1771	H25K10.39				
21ur-2699	H25K10.27				
21ur-3505	H25K10.53				
21ur-650	H25K10.44				
21ur-1628	H25K10.10				
21ur-999	H25K10.19				
21ur-4218	H25K10.57				
21ur-748	H25K10.56				
21ur-2868	H25K10.45				
21ur-5348	H25K10.34				
21ur-5102	H25K10.37				
21ur-1306	H25K10.54				
21ur-3282	H25K10.24				
21ur-282	H25K10.55				
21ur-3889	H25K10.51				
21ur-3724	H25K10.28				
21ur-382	H25K10.22				
21ur-2791	H25K10.42				
21ur-3555	H25K10.50				
21ur-1429	H25K10.49				
21ur-942	H25K10.41				
21ur-1416	H25K10.40				
srv-11	H25K10.3	Serpentine Receptor, class V family member (srv-11) [Source:RefSeq_peptide;Acc:NP_502922]			
21ur-1054	H25K10.25				
21ur-4482	H25K10.26				
21ur-4015	H25K10.17				
21ur-938	H25K10.11				
21ur-3000	H25K10.23				
21ur-3794	H25K10.36				
21ur-373	H25K10.52				
H25K10.4	H25K10.4	H25K10.4 [Source:RefSeq_peptide;Acc:NP_502923]			
21ur-1021	H25K10.43				
21ur-4350	H25K10.29				
21ur-537	H25K10.31				
H25K10.5	H25K10.5	H25K10.5 [Source:RefSeq_peptide;Acc:NP_502924]	proteolysis, 	membrane, 	serine-type endopeptidase activity, 
21ur-2290	H25K10.32				
21ur-3821	H25K10.46				
H25K10.6	H25K10.6	H25K10.6 [Source:RefSeq_peptide;Acc:NP_502925]		membrane, 	
srw-61	H25K10.7	Serpentine Receptor, class W family member (srw-61) [Source:RefSeq_peptide;Acc:NP_502926]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
21ur-3919	H25K10.15				
21ur-2750	Y7A9B.1				
21ur-4678	Y7A9B.4				
21ur-4952	Y7A9B.3				
21ur-80	Y7A9B.5				
21ur-1619	Y7A9B.2				
21ur-2883	F38C2.11				
F38C2.1	F38C2.1	F38C2.1 [Source:RefSeq_peptide;Acc:NP_502927]			
21ur-1384	F38C2.45				
21ur-2392	F38C2.9				
21ur-2687	F38C2.17				
21ur-2805	F38C2.32				
21ur-1774	F38C2.35				
21ur-3287	F38C2.12				
21ur-2870	F38C2.13				
21ur-1864	F38C2.19				
21ur-4924	F38C2.15				
hlh-17	F38C2.2	Helix Loop Helix family member (hlh-17) [Source:RefSeq_peptide;Acc:NP_502928]	regulation of transcription, oviposition, 	nucleus, 	transcription regulator activity, 
21ur-5435	F38C2.14				
21ur-5298	F38C2.40				
21ur-3494	F38C2.25				
21ur-2706	F38C2.42				
21ur-2989	F38C2.46				
21ur-2487	F38C2.16				
21ur-3735	F38C2.28				
F38C2.8	F38C2.8	F38C2.8 [Source:RefSeq_peptide;Acc:NP_001023193]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
21ur-2956	F38C2.21				
21ur-4405	F38C2.36				
21ur-2896	F38C2.29				
21ur-5157	F38C2.43				
21ur-5147	F38C2.37				
21ur-2815	F38C2.31				
21ur-2386	F38C2.10				
21ur-1225	F38C2.20				
F38C2.4	F38C2.4	F38C2.4 [Source:RefSeq_peptide;Acc:NP_502929]			
21ur-714	F38C2.41				
21ur-2608	F38C2.33				
21ur-1533	F38C2.44				
21ur-3754	F38C2.23				
21ur-3278	F38C2.47				
21ur-478	F38C2.24				
21ur-3765	F38C2.38				
21ur-4994	F38C2.18				
21ur-4989	F38C2.34				
21ur-2165	F38C2.30				
21ur-2033	F38C2.27				
21ur-4036	F38C2.39				
F38C2.7	F38C2.7	F38C2.7 [Source:RefSeq_peptide;Acc:NP_502930]			zinc ion binding, nucleic acid binding, 
F38C2.5	F38C2.5	F38C2.5 [Source:RefSeq_peptide;Acc:NP_502931]			zinc ion binding, nucleic acid binding, 
21ur-4307	F38C2.22				
F38C2.6	F38C2.6	F38C2.6 [Source:RefSeq_peptide;Acc:NP_502932]			sugar binding, 
21ur-2056	F38C2.26				
Y7A9C.10	Y7A9C.10				
21ur-3107	Y7A9C.14				
21ur-5442	Y7A9C.16				
21ur-4728	Y7A9C.15				
srz-75	Y7A9C.9	Serpentine Receptor, class Z family member (srz-75) [Source:RefSeq_peptide;Acc:NP_001023588]			
srz-76	Y7A9C.8	Serpentine Receptor, class Z family member (srz-76) [Source:RefSeq_peptide;Acc:NP_001023587]			
srz-73	Y7A9C.3				
srz-40	Y7A9C.5				
Y7A9C.11	Y7A9C.11				
Y7A9C.12	Y7A9C.12				
Y7A9C.1	Y7A9C.1				
Y7A9C.13	Y7A9C.13				
srz-72	Y7A9C.7	Serpentine Receptor, class Z family member (srz-72) [Source:RefSeq_peptide;Acc:NP_001023586]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
srz-41	Y7A9C.6				
Y7A9C.2	Y7A9C.2				
srz-39	Y7A9C.4				
rac-2	K03D3.10	rac-2 encodes a small Rho family GTPase that, along with CED-10 and MIG-2, is one of three C. elegans Rac-related proteins. genetic studies indicate that rac-2 functions redundantly with mig-2 and ced-10 to regulate CAN and PDE axon pathfinding and CAN cell migration. in addition, rac-2 functions slightly redundant with mig-2 during distal tip cell movement and slightly redundant with ced-10 during cell-corpse phagocytosis. as unc-73 mutations enhance rac-2 defects in axon pathfinding and CAN cell migration, UNC-73/Trio is a likely candidate to act upstream of RAC-2 and positively regulate its GTPase activity in vivo. further, as UNC-115 activity is required to mediate the morphogenetic effects of constitutively active RAC-2(G12V), UNC-115, an actin-binding protein, is likely to be a downstream effector of RAC-2. GFP::RAC-2 reporters expressed in neurons and neuroblasts reveal localization at cell margins and the nerve ring, the latter suggesting that GFP::RAC-2 associates with the axonal plasma membrane. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, cell migration, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
rac-3	K03D3.13				
K03D3.5	K03D3.5	K03D3.5 [Source:RefSeq_peptide;Acc:NP_502941]			
srz-61	K03D3.4	Serpentine Receptor, class Z family member (srz-61) [Source:RefSeq_peptide;Acc:NP_502942]			
srz-104	K03D3.11	Serpentine Receptor, class Z family member (srz-104) [Source:RefSeq_peptide;Acc:NP_001023268]			
srz-105	K03D3.12	Serpentine Receptor, class Z family member (srz-105) [Source:RefSeq_peptide;Acc:NP_001033420]			
srz-21	K03D3.3				
K03D3.2	K03D3.2	K03D3.2 [Source:RefSeq_peptide;Acc:NP_502944]			
srz-74	K03D3.1	Serpentine Receptor, class Z family member (srz-74) [Source:RefSeq_peptide;Acc:NP_502945]			
K03D3.14	K03D3.14	K03D3.14 [Source:RefSeq_peptide;Acc:NP_001076693]			
srz-71	C35D6.10	Serpentine Receptor, class Z family member (srz-71) [Source:RefSeq_peptide;Acc:NP_001023048]		integral to membrane, 	
srz-38	C35D6.9	Serpentine Receptor, class Z family member (srz-38) [Source:RefSeq_peptide;Acc:NP_001040921]			
21ur-1803	C35D6.58				
NR_000422.1	C35D6.6	C35D6.6, snRNA [Source:RefSeq_dna;Acc:NR_000422]			
C35D6.13	C35D6.13				
NR_000423.1	C35D6.7	C35D6.7, snRNA [Source:RefSeq_dna;Acc:NR_000423]			
C35D6.12	C35D6.12				
srh-228	C35D6.1	Serpentine Receptor, class H family member (srh-227) [Source:RefSeq_peptide;Acc:NP_502947]			
srh-224	C35D6.8				
21ur-1243	C35D6.30				
21ur-3031	C35D6.51				
srh-227	C35D6.2	Serpentine Receptor, class H family member (srh-227) [Source:RefSeq_peptide;Acc:NP_502947]			
21ur-2108	C35D6.50				
21ur-2515	C35D6.15				
C35D6.3	C35D6.3	C35D6.3 [Source:RefSeq_peptide;Acc:NP_502948]			
C35D6.11	C35D6.11				
21ur-3703	C35D6.36				
C35D6.4	C35D6.4	C35D6.4 [Source:RefSeq_peptide;Acc:NP_502949]			zinc ion binding, nucleic acid binding, 
21ur-3223	C35D6.20				
21ur-1955	C35D6.49				
21ur-1957	C35D6.35				
21ur-3330	C35D6.29				
21ur-1614	C35D6.59				
21ur-3474	C35D6.54				
21ur-1327	C35D6.27				
21ur-1201	C35D6.25				
C35D6.14	C35D6.14				
21ur-301	C35D6.55				
21ur-3599	C35D6.19				
21ur-668	C35D6.42				
21ur-1153	C35D6.21				
21ur-3137	C35D6.17				
21ur-1068	C35D6.57				
21ur-914	C35D6.34				
21ur-5337	C35D6.46				
21ur-4735	C35D6.38				
21ur-2428	C35D6.40				
21ur-1228	C35D6.23				
21ur-4388	C35D6.26				
21ur-1152	C35D6.33				
21ur-4339	C35D6.32				
C35D6.5	C35D6.5				
21ur-3103	C35D6.47				
21ur-3381	C35D6.24				
21ur-2225	C35D6.22				
21ur-4968	C35D6.28				
21ur-1575	C35D6.43				
21ur-3139	C35D6.37				
21ur-2336	C35D6.41				
21ur-64	C35D6.52				
21ur-4149	C35D6.45				
21ur-3299	C35D6.56				
21ur-5168	C35D6.53				
21ur-1632	C35D6.39				
21ur-4941	C35D6.60				
21ur-1744	C35D6.48				
21ur-620	C35D6.16				
21ur-2018	C35D6.18				
21ur-4367	C35D6.44				
21ur-3320	C35D6.31				
21ur-3230	Y7A9D.15				
21ur-1403	Y7A9D.14				
21ur-5434	Y7A9D.3				
21ur-5034	Y7A9D.20				
21ur-3434	Y7A9D.6				
21ur-2410	Y7A9D.9				
21ur-3706	Y7A9D.13				
21ur-3425	Y7A9D.7				
Y7A9D.1	Y7A9D.1	Y7A9D.1 [Source:RefSeq_peptide;Acc:NP_502951]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
21ur-3424	Y7A9D.11				
Y7A9D.t3	Y7A9D.t3				
21ur-3939	Y7A9D.19				
21ur-5331	Y7A9D.25				
21ur-1139	Y7A9D.18				
21ur-3457	Y7A9D.12				
21ur-2903	Y7A9D.8				
21ur-3849	Y7A9D.22				
21ur-1530	Y7A9D.4				
21ur-5439	Y7A9D.17				
21ur-4035	Y7A9D.23				
21ur-2142	Y7A9D.10				
Y7A9D.t1	Y7A9D.t1				
Y7A9D.t2	Y7A9D.t2				
21ur-3718	Y7A9D.21				
21ur-5257	Y7A9D.5				
21ur-2978	Y7A9D.16				
21ur-770	Y7A9D.2				
21ur-3117	Y7A9D.24				
21ur-1497	Y65A5A.7				
21ur-512	Y65A5A.13				
21ur-1995	Y65A5A.4				
21ur-2686	Y65A5A.8				
21ur-4316	Y65A5A.5				
21ur-4366	Y65A5A.11				
21ur-970	Y65A5A.12				
21ur-2527	Y65A5A.10				
21ur-3392	Y65A5A.9				
21ur-983	Y65A5A.6				
Y65A5A.t1	Y65A5A.t1				
Y65A5A.1	Y65A5A.1	Y65A5A.1 [Source:RefSeq_peptide;Acc:NP_502952]			
Y65A5A.t2	Y65A5A.t2				
Y65A5A.t3	Y65A5A.t3				
Y65A5A.t4	Y65A5A.t4				
Y65A5A.2	Y65A5A.2	Y65A5A.2 [Source:RefSeq_peptide;Acc:NP_502953]			
Y65A5A.3	Y65A5A.3	Y65A5A.3 [Source:RefSeq_peptide;Acc:NP_502954]			
Y10G11A.1	Y10G11A.1	Y10G11A.1 [Source:RefSeq_peptide;Acc:NP_741496]			
dlc-3	Y10G11A.2	Dynein Light Chain family member (dlc-3) [Source:RefSeq_peptide;Acc:NP_001076717]	microtubule-based process, 	microtubule associated complex, 	microtubule motor activity, 
21ur-4958	Y10G11A.18				
21ur-1706	Y10G11A.23				
21ur-2	Y10G11A.9				
21ur-4703	Y10G11A.29				
21ur-2211	Y10G11A.24				
21ur-2621	Y10G11A.13				
21ur-1280	Y10G11A.25				
21ur-4601	Y10G11A.12				
21ur-3123	Y10G11A.17				
21ur-289	Y10G11A.6				
21ur-4294	Y10G11A.30				
21ur-202	Y10G11A.15				
21ur-4415	Y10G11A.22				
21ur-4478	Y10G11A.5				
21ur-2377	Y10G11A.28				
Y10G11A.3	Y10G11A.3	Y10G11A.3 [Source:RefSeq_peptide;Acc:NP_001023431]			microtubule motor activity, 
21ur-4171	Y10G11A.27				
21ur-4483	Y10G11A.21				
21ur-1355	Y10G11A.20				
21ur-854	Y10G11A.10				
21ur-2578	Y10G11A.11				
21ur-1954	Y10G11A.7				
21ur-4465	Y10G11A.14				
21ur-4867	Y10G11A.19				
21ur-2169	Y10G11A.8				
21ur-110	Y10G11A.26				
21ur-3763	Y10G11A.16				
21ur-909	Y10G11A.4				
21ur-1109	VY10G11R.13				
21ur-1546	VY10G11R.8				
21ur-430	VY10G11R.24				
21ur-2266	VY10G11R.22				
21ur-188	VY10G11R.6				
VY10G11R.4	VY10G11R.4				
21ur-1789	VY10G11R.16				
21ur-4304	VY10G11R.27				
21ur-1281	VY10G11R.30				
21ur-842	VY10G11R.23				
21ur-2264	VY10G11R.14				
21ur-765	VY10G11R.9				
21ur-3161	VY10G11R.28				
21ur-2640	VY10G11R.12				
21ur-4527	VY10G11R.20				
21ur-219	VY10G11R.29				
21ur-474	VY10G11R.19				
21ur-1465	VY10G11R.10				
VY10G11R.3	VY10G11R.3				
21ur-148	VY10G11R.26				
21ur-1959	VY10G11R.18				
21ur-2905	VY10G11R.25				
21ur-3109	VY10G11R.15				
21ur-4657	VY10G11R.17				
21ur-2712	VY10G11R.5				
21ur-1693	VY10G11R.11				
21ur-1983	VY10G11R.21				
VY10G11R.2	VY10G11R.2	VY10G11R.2 [Source:RefSeq_peptide;Acc:NP_001076716]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
VY10G11R.1	VY10G11R.1	VY10G11R.1 [Source:RefSeq_peptide;Acc:NP_741498]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
21ur-3464	VY10G11R.7				
21ur-209	Y51H4A.267				
21ur-3304	Y51H4A.184				
21ur-123	Y51H4A.131				
Y51H4A.1	Y51H4A.1	Y51H4A.1 [Source:RefSeq_peptide;Acc:NP_502958]			
21ur-4983	Y51H4A.329				
21ur-2900	Y51H4A.228				
21ur-4000	Y51H4A.169				
21ur-2542	Y51H4A.394				
21ur-3686	Y51H4A.271				
21ur-3220	Y51H4A.275				
21ur-3240	Y51H4A.272				
21ur-686	Y51H4A.390				
21ur-2366	Y51H4A.257				
21ur-5285	Y51H4A.379				
21ur-2835	Y51H4A.332				
21ur-1881	Y51H4A.64				
21ur-4666	Y51H4A.365				
rho-1	Y51H4A.3	rho-1 encodes a small GTP-binding protein that is a member of the Rho family of GTPases. rho-1 activity is required for regulation of a number of processes including embryonic polarity, cell migration, cell shape changes, muscle contraction, and neurite outgrowth. in addition, RHO-1 is required for both DGK-1- and UNC-13-dependent and independent regulation of synaptic signaling at neuromuscular junctions. as RHO-1 binds DGK-1 in vitro, its regulation of DGK-1-mediated signaling may be direct. rho-1 is ubiquitously expressed throughout development with notably high expression seen in head neurons and asymmetric expression seen in the anterior cortex of one-cell embryos. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, locomotory behavior, positive regulation of locomotion, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y51H4A.2	Y51H4A.2	Y51H4A.2 [Source:RefSeq_peptide;Acc:NP_502960]			
Y51H4A.4	Y51H4A.4	Y51H4A.4 [Source:RefSeq_peptide;Acc:NP_502961]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
21ur-1276	Y51H4A.143				
21ur-4696	Y51H4A.187				
21ur-1648	Y51H4A.326				
21ur-4722	Y51H4A.112				
21ur-310	Y51H4A.39				
21ur-2653	Y51H4A.375				
Y51H4A.5	Y51H4A.5	Y51H4A.5 [Source:RefSeq_peptide;Acc:NP_502962]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
21ur-5426	Y51H4A.178				
21ur-4154	Y51H4A.268				
21ur-4232	Y51H4A.244				
21ur-2937	Y51H4A.313				
21ur-2808	Y51H4A.211				
21ur-3899	Y51H4A.200				
21ur-1024	Y51H4A.247				
21ur-2526	Y51H4A.274				
21ur-921	Y51H4A.270				
21ur-3946	Y51H4A.310				
21ur-2901	Y51H4A.249				
21ur-2126	Y51H4A.121				
21ur-4333	Y51H4A.395				
21ur-4282	Y51H4A.323				
21ur-5280	Y51H4A.91				
21ur-3784	Y51H4A.265				
21ur-2601	Y51H4A.154				
21ur-37	Y51H4A.327				
21ur-889	Y51H4A.114				
21ur-4884	Y51H4A.353				
21ur-3486	Y51H4A.349				
21ur-4871	Y51H4A.291				
21ur-2959	Y51H4A.159				
21ur-1551	Y51H4A.398				
Y51H4A.6	Y51H4A.6	Y51H4A.6 [Source:RefSeq_peptide;Acc:NP_502963]			
21ur-1565	Y51H4A.182				
21ur-5193	Y51H4A.104				
Y51H4A.33	Y51H4A.33				
21ur-633	Y51H4A.357				
Y51H4A.7	Y51H4A.7	Probable urocanate hydratase (EC 4.2.1.49) (Urocanase) (Imidazolonepropionate hydrolase). [Source:Uniprot/SWISSPROT;Acc:Q9NAE2]	histidine catabolic process, 		urocanate hydratase activity, 
21ur-2623	Y51H4A.111				
21ur-4343	Y51H4A.191				
21ur-2837	Y51H4A.73				
21ur-1909	Y51H4A.347				
21ur-4934	Y51H4A.246				
21ur-348	Y51H4A.388				
21ur-849	Y51H4A.359				
21ur-1978	Y51H4A.367				
21ur-5045	Y51H4A.108				
21ur-603	Y51H4A.119				
21ur-806	Y51H4A.381				
21ur-1518	Y51H4A.386				
21ur-1236	Y51H4A.72				
21ur-4466	Y51H4A.128				
21ur-991	Y51H4A.139				
21ur-5050	Y51H4A.198				
21ur-4480	Y51H4A.67				
21ur-4420	Y51H4A.54				
21ur-2455	Y51H4A.76				
21ur-4491	Y51H4A.35				
21ur-1331	Y51H4A.264				
21ur-1050	Y51H4A.221				
21ur-1264	Y51H4A.74				
21ur-5206	Y51H4A.148				
21ur-2668	Y51H4A.317				
21ur-5289	Y51H4A.232				
21ur-1422	Y51H4A.311				
21ur-1303	Y51H4A.41				
21ur-46	Y51H4A.328				
21ur-56	Y51H4A.320				
21ur-1312	Y51H4A.126				
21ur-2672	Y51H4A.71				
21ur-3422	Y51H4A.52				
col-136	Y51H4A.28				
Y51H4A.t1	Y51H4A.t1				
Y51H4A.t7	Y51H4A.t7				
21ur-3218	Y51H4A.151				
21ur-4501	Y51H4A.123				
21ur-3586	Y51H4A.127				
21ur-2721	Y51H4A.309				
21ur-4508	Y51H4A.87				
21ur-1016	Y51H4A.181				
21ur-695	Y51H4A.163				
21ur-3241	Y51H4A.227				
21ur-228	Y51H4A.144				
21ur-4369	Y51H4A.220				
21ur-3904	Y51H4A.203				
21ur-2822	Y51H4A.171				
21ur-946	Y51H4A.42				
21ur-2184	Y51H4A.245				
21ur-4155	Y51H4A.202				
21ur-2144	Y51H4A.352				
21ur-171	Y51H4A.233				
21ur-1154	Y51H4A.84				
21ur-4359	Y51H4A.94				
21ur-1208	Y51H4A.348				
21ur-862	Y51H4A.366				
21ur-612	Y51H4A.338				
21ur-611	Y51H4A.113				
21ur-4475	Y51H4A.92				
21ur-2109	Y51H4A.102				
21ur-1415	Y51H4A.318				
21ur-4567	Y51H4A.47				
21ur-3355	Y51H4A.213				
21ur-5350	Y51H4A.219				
21ur-2746	Y51H4A.70				
21ur-244	Y51H4A.236				
21ur-3149	Y51H4A.350				
21ur-576	Y51H4A.204				
21ur-3051	Y51H4A.393				
21ur-4290	Y51H4A.304				
21ur-2723	Y51H4A.333				
21ur-2628	Y51H4A.262				
21ur-702	Y51H4A.141				
21ur-2399	Y51H4A.288				
21ur-993	Y51H4A.152				
21ur-4741	Y51H4A.65				
21ur-105	Y51H4A.364				
Y51H4A.8	Y51H4A.8	Y51H4A.8 [Source:RefSeq_peptide;Acc:NP_502965]			protein binding, 
21ur-669	Y51H4A.343				
Y51H4A.t2	Y51H4A.t2				
21ur-1684	Y51H4A.253				
21ur-2324	Y51H4A.344				
21ur-2394	Y51H4A.308				
21ur-2145	Y51H4A.287				
21ur-274	Y51H4A.56				
21ur-3483	Y51H4A.400				
21ur-1352	Y51H4A.133				
21ur-652	Y51H4A.389				
Y51H4A.t6	Y51H4A.t6				
21ur-4049	Y51H4A.176				
21ur-1975	Y51H4A.147				
21ur-3384	Y51H4A.57				
21ur-3138	Y51H4A.183				
21ur-5103	Y51H4A.252				
21ur-4594	Y51H4A.172				
21ur-1563	Y51H4A.281				
21ur-433	Y51H4A.166				
21ur-1545	Y51H4A.96				
21ur-2871	Y51H4A.85				
21ur-2561	Y51H4A.293				
21ur-3122	Y51H4A.170				
21ur-354	Y51H4A.334				
21ur-3536	Y51H4A.256				
21ur-3704	Y51H4A.45				
21ur-4978	Y51H4A.279				
21ur-636	Y51H4A.207				
21ur-2332	Y51H4A.156				
21ur-5164	Y51H4A.237				
21ur-1710	Y51H4A.371				
21ur-4215	Y51H4A.137				
21ur-2255	Y51H4A.142				
21ur-1372	Y51H4A.173				
col-137	Y51H4A.9	COLlagen family member (col-137) (col-137) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_070565]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
21ur-42	Y51H4A.179				
21ur-5191	Y51H4A.210				
21ur-4448	Y51H4A.321				
21ur-1856	Y51H4A.324				
21ur-1093	Y51H4A.100				
21ur-26	Y51H4A.43				
21ur-2104	Y51H4A.376				
21ur-4576	Y51H4A.120				
21ur-2930	Y51H4A.138				
21ur-1478	Y51H4A.373				
21ur-5287	Y51H4A.89				
21ur-2074	Y51H4A.319				
21ur-4202	Y51H4A.157				
21ur-5395	Y51H4A.101				
21ur-1584	Y51H4A.38				
21ur-4711	Y51H4A.53				
21ur-4433	Y51H4A.218				
21ur-1315	Y51H4A.346				
21ur-2141	Y51H4A.51				
21ur-4651	Y51H4A.261				
21ur-190	Y51H4A.307				
21ur-634	Y51H4A.301				
21ur-4473	Y51H4A.370				
21ur-1962	Y51H4A.197				
Y51H4A.30	Y51H4A.30				
21ur-365	Y51H4A.136				
21ur-4227	Y51H4A.299				
21ur-937	Y51H4A.95				
21ur-3060	Y51H4A.49				
21ur-5039	Y51H4A.399				
21ur-328	Y51H4A.106				
21ur-366	Y51H4A.188				
21ur-4706	Y51H4A.44				
21ur-78	Y51H4A.167				
21ur-173	Y51H4A.255				
21ur-1471	Y51H4A.290				
21ur-2039	Y51H4A.292				
21ur-887	Y51H4A.192				
21ur-2555	Y51H4A.97				
21ur-4493	Y51H4A.158				
21ur-463	Y51H4A.59				
21ur-1292	Y51H4A.117				
21ur-3782	Y51H4A.209				
21ur-1759	Y51H4A.337				
21ur-410	Y51H4A.75				
21ur-3198	Y51H4A.385				
21ur-4111	Y51H4A.160				
21ur-730	Y51H4A.263				
21ur-5381	Y51H4A.401				
21ur-1313	Y51H4A.260				
21ur-1586	Y51H4A.330				
21ur-5404	Y51H4A.68				
21ur-4559	Y51H4A.305				
21ur-1452	Y51H4A.300				
21ur-2271	Y51H4A.282				
21ur-4221	Y51H4A.63				
21ur-1728	Y51H4A.340				
21ur-4727	Y51H4A.116				
fip-7	Y51H4A.10	Y51H4A.10 [Source:RefSeq_peptide;Acc:NP_502967]			
21ur-2463	Y51H4A.273				
21ur-2997	Y51H4A.61				
fipr-28	Y51H4A.26	Y51H4A.26 [Source:RefSeq_peptide;Acc:NP_502968]			
21ur-2235	Y51H4A.238				
21ur-4631	Y51H4A.189				
21ur-1344	Y51H4A.303				
21ur-4774	Y51H4A.153				
fipr-27	Y51H4A.32	Y51H4A.32 [Source:RefSeq_peptide;Acc:NP_001076736]			
21ur-857	Y51H4A.302				
21ur-20	Y51H4A.135				
21ur-4613	Y51H4A.201				
21ur-3751	Y51H4A.322				
21ur-5420	Y51H4A.130				
21ur-2980	Y51H4A.285				
21ur-1798	Y51H4A.107				
21ur-3977	Y51H4A.110				
21ur-4692	Y51H4A.387				
21ur-3068	Y51H4A.186				
21ur-315	Y51H4A.295				
21ur-3413	Y51H4A.362				
21ur-4768	Y51H4A.278				
21ur-4528	Y51H4A.286				
21ur-482	Y51H4A.195				
Y51H4A.13	Y51H4A.13	Y51H4A.13 [Source:RefSeq_peptide;Acc:NP_502970]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
21ur-700	Y51H4A.60				
21ur-2338	Y51H4A.77				
set-26	Y51H4A.12	Y51H4A.12 [Source:RefSeq_peptide;Acc:NP_502971]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	protein binding, zinc ion binding, histamine receptor activity, 
Y51H4A.15	Y51H4A.15	Y51H4A.15a [Source:RefSeq_peptide;Acc:NP_001041038]	positive regulation of growth rate, 		
21ur-1133	Y51H4A.240				
21ur-4709	Y51H4A.397				
21ur-1488	Y51H4A.380				
21ur-4556	Y51H4A.336				
21ur-4579	Y51H4A.180				
21ur-596	Y51H4A.132				
21ur-129	Y51H4A.277				
21ur-307	Y51H4A.314				
21ur-2327	Y51H4A.215				
21ur-783	Y51H4A.36				
21ur-3605	Y51H4A.297				
21ur-4569	Y51H4A.118				
Y51H4A.16	Y51H4A.16	Y51H4A.16 [Source:RefSeq_peptide;Acc:NP_502973]			
21ur-1527	Y51H4A.378				
21ur-5389	Y51H4A.276				
21ur-3838	Y51H4A.284				
sta-1	Y51H4A.17	sta-1 encodes the C. elegans STAT orthologue. from N- to C-terminus, STA-1 contains conserved coiled-coil, DNA-binding, and SH2 domains, but apparently lacks a conserved amino-terminal oligomerization domain found in other STAT family members. sta-1 activity is required for repressing dauer formation at high temperatures and genetic analyses indicate that STA-1 acts redundantly with some members of the DAF-7/TGF-beta signaling pathway to repress dauer formation, particularly at low temperatures. tyrosine-phosphorylated STA-1 is able to bind a high affinity mammalian STAT binding sequence, and the STA-1 C-terminus can function as a transcriptional activation domain. sta-1 is widely expressed during most life stages, including the dauer stage, and is found in the pharynx, intestine, body wall muscles, and in neurons. STA-1 localizes to both the cytoplasm and the nucleus, with expression in the latter found particularly in some amphid neurons. in some neurons, STA-1 expression appears to be negatively regulated by DAF-7/TGF-beta signaling. [Source: WormBase]	intracellular signaling cascade, signal transduction, regulation of transcription, DNA-dependent, dauer larval development, 	nucleus, 	protein binding, signal transducer activity, transcription factor activity, identical protein binding, 
21ur-4621	Y51H4A.206				
21ur-2570	Y51H4A.382				
21ur-716	Y51H4A.234				
21ur-4516	Y51H4A.396				
21ur-1760	Y51H4A.243				
21ur-1877	Y51H4A.231				
21ur-3378	Y51H4A.368				
21ur-4173	Y51H4A.190				
21ur-3317	Y51H4A.175				
21ur-1066	Y51H4A.103				
21ur-3024	Y51H4A.374				
21ur-3073	Y51H4A.134				
Y51H4A.t5	Y51H4A.t5				
21ur-4999	Y51H4A.298				
21ur-4129	Y51H4A.266				
Y51H4A.18	Y51H4A.18				
21ur-5339	Y51H4A.124				
21ur-2299	Y51H4A.372				
21ur-5003	Y51H4A.339				
21ur-4691	Y51H4A.355				
21ur-3350	Y51H4A.280				
21ur-4551	Y51H4A.58				
Y51H4A.19	Y51H4A.19				
21ur-736	Y51H4A.331				
21ur-2003	Y51H4A.229				
21ur-2037	Y51H4A.391				
21ur-734	Y51H4A.69				
Y51H4A.31	Y51H4A.31				
Y51H4A.t3	Y51H4A.t3				
Y51H4A.20	Y51H4A.20				
21ur-3191	Y51H4A.40				
21ur-4742	Y51H4A.226				
21ur-655	Y51H4A.146				
21ur-3679	Y51H4A.217				
Y51H4A.t4	Y51H4A.t4				
21ur-2860	Y51H4A.98				
21ur-2140	Y51H4A.174				
Y51H4A.21	Y51H4A.21	Y51H4A.21 [Source:RefSeq_peptide;Acc:NP_502978]			
21ur-3286	Y51H4A.196				
21ur-1	Y51H4A.48				
21ur-3761	Y51H4A.66				
21ur-17	Y51H4A.258				
21ur-4093	Y51H4A.150				
21ur-4296	Y51H4A.294				
21ur-3512	Y51H4A.145				
21ur-5025	Y51H4A.283				
21ur-3783	Y51H4A.129				
21ur-4437	Y51H4A.46				
21ur-4092	Y51H4A.109				
21ur-3936	Y51H4A.122				
21ur-475	Y51H4A.223				
21ur-2483	Y51H4A.216				
21ur-3938	Y51H4A.316				
21ur-5210	Y51H4A.194				
21ur-3205	Y51H4A.212				
21ur-1704	Y51H4A.140				
21ur-4401	Y51H4A.93				
21ur-1496	Y51H4A.177				
21ur-3559	Y51H4A.193				
21ur-1536	Y51H4A.155				
21ur-1917	Y51H4A.306				
21ur-2514	Y51H4A.164				
21ur-245	Y51H4A.82				
21ur-142	Y51H4A.235				
21ur-1650	Y51H4A.78				
21ur-2094	Y51H4A.335				
21ur-1495	Y51H4A.55				
21ur-2618	Y51H4A.239				
21ur-2532	Y51H4A.369				
21ur-4264	Y51H4A.315				
21ur-1997	Y51H4A.384				
21ur-4740	Y51H4A.115				
21ur-2544	Y51H4A.351				
21ur-4715	Y51H4A.185				
21ur-3579	Y51H4A.161				
21ur-3809	Y51H4A.79				
21ur-4248	Y51H4A.289				
21ur-72	Y51H4A.296				
21ur-4048	Y51H4A.312				
21ur-3671	Y51H4A.208				
21ur-120	Y51H4A.259				
21ur-732	Y51H4A.251				
21ur-2983	Y51H4A.241				
21ur-1617	Y51H4A.254				
21ur-4066	Y51H4A.325				
21ur-5300	Y51H4A.248				
21ur-646	Y51H4A.50				
21ur-2368	Y51H4A.205				
21ur-1630	Y51H4A.363				
21ur-1634	Y51H4A.214				
21ur-3710	Y51H4A.162				
21ur-1214	Y51H4A.361				
21ur-256	Y51H4A.105				
21ur-3642	Y51H4A.90				
21ur-3445	Y51H4A.165				
21ur-2768	Y51H4A.37				
21ur-1073	Y51H4A.342				
21ur-3062	Y51H4A.86				
21ur-1913	Y51H4A.81				
21ur-3007	Y51H4A.345				
21ur-1711	Y51H4A.222				
21ur-1621	Y51H4A.62				
21ur-3498	Y51H4A.341				
21ur-1653	Y51H4A.356				
21ur-1114	Y51H4A.392				
Y51H4A.22	Y51H4A.22	Y51H4A.22 [Source:RefSeq_peptide;Acc:NP_502979]			
Y51H4A.23	Y51H4A.23	Y51H4A.23 [Source:RefSeq_peptide;Acc:NP_502980]			
21ur-2234	Y51H4A.360				
21ur-1558	Y51H4A.377				
21ur-5161	Y51H4A.242				
21ur-3906	Y51H4A.168				
21ur-3963	Y51H4A.99				
21ur-3121	Y51H4A.125				
21ur-1262	Y51H4A.269				
21ur-2720	Y51H4A.88				
21ur-5078	Y51H4A.383				
21ur-1965	Y51H4A.149				
21ur-507	Y51H4A.354				
21ur-90	Y51H4A.250				
21ur-1424	Y51H4A.230				
21ur-4319	Y51H4A.83				
21ur-2915	Y51H4A.80				
21ur-3142	Y51H4A.358				
21ur-3090	Y51H4A.224				
21ur-4122	Y51H4A.199				
21ur-4424	Y51H4A.225				
Y51H4A.25	Y51H4A.25	Y51H4A.25a [Source:RefSeq_peptide;Acc:NP_001023481]		membrane, 	acetylglucosaminyltransferase activity, 
Y51H4A.24	Y51H4A.24				
Y43D4A.1	Y43D4A.1	Y43D4A.1 [Source:RefSeq_peptide;Acc:NP_502983]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
Y43D4A.2	Y43D4A.2	Y43D4A.2 [Source:RefSeq_peptide;Acc:NP_502984]	metabolic process, 		transferase activity, transferring hexosyl groups, 
21ur-2101	Y43D4A.54				
21ur-4151	Y43D4A.12				
21ur-2656	Y43D4A.33				
21ur-1627	Y43D4A.13				
21ur-2339	Y43D4A.29				
21ur-1171	Y43D4A.20				
21ur-1893	Y43D4A.42				
21ur-784	Y43D4A.51				
Y43D4A.9	Y43D4A.9				
Y43D4A.10	Y43D4A.10				
Y43D4A.7	Y43D4A.7				
Y43D4A.3	Y43D4A.3	Y43D4A.3a [Source:RefSeq_peptide;Acc:NP_001041028]			
Y43D4A.4	Y43D4A.4	Y43D4A.4a [Source:RefSeq_peptide;Acc:NP_001041030]	transport, 	integral to membrane, 	transporter activity, 
Y43D4A.8	Y43D4A.8				
21ur-4865	Y43D4A.60				
21ur-2379	Y43D4A.45				
21ur-4474	Y43D4A.43				
21ur-3168	Y43D4A.31				
Y43D4A.5	Y43D4A.5	Y43D4A.5 [Source:RefSeq_peptide;Acc:NP_502988]			
21ur-1939	Y43D4A.39				
21ur-53	Y43D4A.30				
Y43D4A.t1	Y43D4A.t1				
Y43D4A.t2	Y43D4A.t2				
21ur-1034	Y43D4A.52				
21ur-1971	Y43D4A.46				
21ur-764	Y43D4A.11				
21ur-1250	Y43D4A.59				
21ur-532	Y43D4A.16				
21ur-2304	Y43D4A.26				
21ur-2261	Y43D4A.28				
21ur-3072	Y43D4A.48				
21ur-2175	Y43D4A.41				
21ur-119	Y43D4A.68				
21ur-5276	Y43D4A.36				
21ur-578	Y43D4A.23				
Y43D4A.6	Y43D4A.6	Y43D4A.6 [Source:RefSeq_peptide;Acc:NP_502989]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
21ur-667	Y43D4A.40				
21ur-3845	Y43D4A.37				
21ur-3820	Y43D4A.66				
21ur-38	Y43D4A.14				
21ur-2645	Y43D4A.25				
21ur-725	Y43D4A.24				
21ur-4796	Y43D4A.50				
21ur-2445	Y43D4A.44				
21ur-179	Y43D4A.49				
21ur-324	Y43D4A.47				
21ur-3701	Y43D4A.67				
21ur-2232	Y43D4A.62				
21ur-2897	Y43D4A.65				
21ur-799	Y43D4A.32				
21ur-3921	Y43D4A.17				
21ur-1499	Y43D4A.56				
21ur-2562	Y43D4A.35				
21ur-548	Y43D4A.61				
21ur-3272	Y43D4A.21				
21ur-1827	Y43D4A.58				
21ur-3452	Y43D4A.22				
21ur-212	Y43D4A.19				
21ur-207	Y43D4A.38				
21ur-4890	Y43D4A.34				
21ur-4476	Y43D4A.55				
21ur-4675	Y43D4A.63				
21ur-3656	Y43D4A.27				
21ur-4262	Y43D4A.64				
21ur-5254	Y43D4A.18				
21ur-4629	Y43D4A.15				
21ur-18	Y43D4A.53				
21ur-691	Y43D4A.57				
21ur-3973	Y116A8A.32				
21ur-2909	Y116A8A.33				
Y116A8A.1	Y116A8A.1	Y116A8A.1 [Source:RefSeq_peptide;Acc:NP_502990]			sugar binding, 
21ur-387	Y116A8A.35				
21ur-3099	Y116A8A.56				
21ur-176	Y116A8A.37				
21ur-3462	Y116A8A.34				
21ur-2495	Y116A8A.19				
Y116A8A.3	Y116A8A.3	Y116A8A.3 [Source:RefSeq_peptide;Acc:NP_502991]			sugar binding, 
21ur-480	Y116A8A.20				
21ur-1295	Y116A8A.54				
21ur-3313	Y116A8A.12				
21ur-3793	Y116A8A.52				
21ur-2738	Y116A8A.48				
21ur-3277	Y116A8A.57				
21ur-3106	Y116A8A.16				
21ur-477	Y116A8A.38				
Y116A8A.2	Y116A8A.2	Y116A8A.2 [Source:RefSeq_peptide;Acc:NP_502992]			structural molecule activity, 
21ur-3683	Y116A8A.13				
21ur-2912	Y116A8A.40				
21ur-706	Y116A8A.55				
21ur-4298	Y116A8A.39				
21ur-888	Y116A8A.21				
21ur-1616	Y116A8A.50				
21ur-4526	Y116A8A.65				
21ur-4150	Y116A8A.27				
21ur-1887	Y116A8A.29				
21ur-4883	Y116A8A.64				
21ur-1088	Y116A8A.47				
21ur-775	Y116A8A.31				
21ur-2457	Y116A8A.53				
Y116A8A.11	Y116A8A.11				
21ur-917	Y116A8A.61				
Y116A8A.4	Y116A8A.4	Y116A8A.4 [Source:RefSeq_peptide;Acc:NP_502993]			
21ur-4426	Y116A8A.23				
Y116A8A.6	Y116A8A.6	Y116A8A.6 [Source:RefSeq_peptide;Acc:NP_502994]			
21ur-1389	Y116A8A.59				
21ur-4586	Y116A8A.42				
21ur-428	Y116A8A.30				
Y116A8A.7	Y116A8A.7	Y116A8A.7 [Source:RefSeq_peptide;Acc:NP_502995]			structural molecule activity, 
21ur-318	Y116A8A.46				
21ur-2627	Y116A8A.49				
21ur-397	Y116A8A.26				
21ur-4067	Y116A8A.18				
Y116A8A.8	Y116A8A.8	Y116A8A.8 [Source:RefSeq_peptide;Acc:NP_502996]			sugar binding, 
21ur-4761	Y116A8A.58				
21ur-44	Y116A8A.45				
21ur-551	Y116A8A.36				
21ur-3727	Y116A8A.63				
21ur-641	Y116A8A.51				
21ur-4933	Y116A8A.43				
21ur-4808	Y116A8A.44				
21ur-51	Y116A8A.22				
21ur-4033	Y116A8A.17				
21ur-4632	Y116A8A.41				
21ur-128	Y116A8A.60				
21ur-2508	Y116A8A.62				
21ur-2649	Y116A8A.15				
21ur-4930	Y116A8A.14				
21ur-311	Y116A8A.24				
21ur-1702	Y116A8A.25				
21ur-4277	Y116A8A.28				
Y116A8A.10	Y116A8A.10				
map-2	Y116A8A.9	Methionine AminoPeptidase family member (map-2) [Source:RefSeq_peptide;Acc:NP_502997]	proteolysis, positive regulation of growth rate, 		metalloexopeptidase activity, methionyl aminopeptidase activity, 
mel-46	T06A10.1	Maternal Effect Lethal family member (mel-46) [Source:RefSeq_peptide;Acc:NP_502998]	positive regulation of growth rate, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
T06A10.4	T06A10.4	T06A10.4 [Source:RefSeq_peptide;Acc:NP_502999]			protein binding, zinc ion binding, 
T06A10.3	T06A10.3	T06A10.3 [Source:RefSeq_peptide;Acc:NP_503000]			
21ur-2473	T06A10.36				
21ur-1992	T06A10.34				
21ur-2659	T06A10.37				
21ur-170	T06A10.40				
21ur-3584	T06A10.9				
21ur-5009	T06A10.27				
21ur-1432	T06A10.42				
21ur-564	T06A10.23				
21ur-4442	T06A10.13				
21ur-3226	T06A10.26				
21ur-3437	T06A10.35				
21ur-1769	T06A10.8				
21ur-4940	T06A10.39				
21ur-4130	T06A10.32				
21ur-2700	T06A10.24				
21ur-2828	T06A10.22				
21ur-2986	T06A10.43				
21ur-285	T06A10.28				
21ur-2658	T06A10.20				
21ur-3779	T06A10.11				
21ur-2657	T06A10.14				
21ur-2572	T06A10.33				
21ur-5088	T06A10.17				
21ur-3879	T06A10.30				
21ur-338	T06A10.5				
21ur-1333	T06A10.41				
21ur-3621	T06A10.7				
21ur-1494	T06A10.16				
21ur-1279	T06A10.15				
21ur-10	T06A10.18				
21ur-1701	T06A10.10				
21ur-486	T06A10.19				
21ur-2200	T06A10.25				
21ur-1500	T06A10.38				
21ur-5340	T06A10.31				
21ur-380	T06A10.6				
21ur-1186	T06A10.29				
21ur-1367	T06A10.21				
21ur-1395	T06A10.12				
T06A10.2	T06A10.2		positive regulation of growth rate, 		
21ur-2329	C26C9.4				
21ur-4453	C26C9.6				
21ur-5294	C26C9.7				
21ur-4606	C26C9.3				
21ur-572	C26C9.5				
Y116A8C.1	Y116A8C.1	Y116A8C.1 [Source:RefSeq_peptide;Acc:NP_503002]			
21ur-1216	Y116A8C.146				
21ur-52	Y116A8C.86				
21ur-3534	Y116A8C.165				
21ur-1338	Y116A8C.122				
21ur-2006	Y116A8C.114				
21ur-2089	Y116A8C.105				
21ur-3545	Y116A8C.60				
21ur-1278	Y116A8C.150				
21ur-5089	Y116A8C.84				
21ur-461	Y116A8C.158				
21ur-115	Y116A8C.75				
21ur-3417	Y116A8C.132				
21ur-2780	Y116A8C.99				
21ur-5311	Y116A8C.192				
21ur-659	Y116A8C.191				
21ur-3693	Y116A8C.144				
21ur-4640	Y116A8C.177				
21ur-959	Y116A8C.183				
21ur-5307	Y116A8C.128				
21ur-2950	Y116A8C.134				
Y116A8C.3	Y116A8C.3	Y116A8C.3 [Source:RefSeq_peptide;Acc:NP_503003]	proteolysis, 	intracellular, 	calcium-dependent cysteine-type endopeptidase activity, 
Y116A8C.4	Y116A8C.4	Y116A8C.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. Y116A8C.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
Y116A8C.5	Y116A8C.5	Y116A8C.5 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. Y116A8C.5 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
Y116A8C.7	Y116A8C.7				
Y116A8C.49	Y116A8C.49	Y116A8C.49 [Source:RefSeq_peptide;Acc:NP_001076720]			
Y116A8C.8	Y116A8C.8	Y116A8C.8 [Source:RefSeq_peptide;Acc:NP_503007]			
Y116A8C.10	Y116A8C.10	Y116A8C.10, miscRNA [Source:RefSeq_dna;Acc:NR_003159]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
Y116A8C.9	Y116A8C.9	Y116A8C.9 [Source:RefSeq_peptide;Acc:NP_503010]			
arf-6	Y116A8C.12	arf-6 encodes a small GTP-binding protein of the ADP-ribosylation factor (ARF) family that is orthologous to vertebrate ARF6. by homology, ARF-6 is predicted to function as a GTPase that regulates receptor-mediated endocytosis, and in C. elegans, ARF-6 is strongly expressed in the coelomocytes (highly endocytic cells located in the pseudocoelom) where it colocalizes in the cytoplasm and to a lesser degree at the plasma membrane with RME-1, a novel EH domain protein, and the myotubularins MTM-6 and MTM-9. loss of arf-6 activity via RNAi does not result in any obvious abnormalities. [Source: WormBase]	protein transport, small GTPase mediated signal transduction, intracellular protein transport, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, 
Y116A8C.13	Y116A8C.13	Y116A8C.13 [Source:RefSeq_peptide;Acc:NP_503012]	embryonic development ending in birth or egg hatching, 		ATP binding, oxidoreductase activity, DNA binding, nucleic acid binding, helicase activity, 
Y116A8C.46	Y116A8C.46		embryonic development ending in birth or egg hatching, 		
rom-3	Y116A8C.14	RhOMboid (Drosophila) related family member (rom-3) [Source:RefSeq_peptide;Acc:NP_503013]		integral to membrane, 	
21ur-5159	Y116A8C.194				
21ur-3529	Y116A8C.181				
21ur-4373	Y116A8C.94				
21ur-1660	Y116A8C.121				
21ur-3232	Y116A8C.91				
21ur-1132	Y116A8C.186				
21ur-3807	Y116A8C.130				
21ur-4583	Y116A8C.195				
21ur-3408	Y116A8C.69				
21ur-3347	Y116A8C.57				
21ur-2718	Y116A8C.148				
21ur-235	Y116A8C.85				
21ur-1526	Y116A8C.170				
21ur-1733	Y116A8C.196				
21ur-4725	Y116A8C.185				
21ur-4570	Y116A8C.169				
21ur-4360	Y116A8C.160				
21ur-3436	Y116A8C.166				
21ur-2681	Y116A8C.167				
21ur-4925	Y116A8C.55				
21ur-291	Y116A8C.111				
21ur-3812	Y116A8C.77				
21ur-3035	Y116A8C.67				
21ur-1370	Y116A8C.101				
21ur-1356	Y116A8C.156				
21ur-4982	Y116A8C.138				
21ur-2349	Y116A8C.133				
Y116A8C.11	Y116A8C.11	Uncharacterized protein Y116A8C.11. [Source:Uniprot/SWISSPROT;Acc:Q9U2T3]		cytoplasm, extrinsic to membrane, 	cytoskeletal protein binding, 
21ur-43	Y116A8C.140				
21ur-3075	Y116A8C.76				
21ur-1861	Y116A8C.164				
21ur-2866	Y116A8C.120				
21ur-3777	Y116A8C.184				
21ur-4123	Y116A8C.100				
Y116A8C.15	Y116A8C.15	Y116A8C.15 [Source:RefSeq_peptide;Acc:NP_503015]			
rom-4	Y116A8C.16	RhOMboid (Drosophila) related family member (rom-4) [Source:RefSeq_peptide;Acc:NP_001076719]		integral to membrane, 	
21ur-2854	Y116A8C.173				
21ur-3404	Y116A8C.81				
21ur-3143	Y116A8C.72				
21ur-3651	Y116A8C.109				
21ur-1986	Y116A8C.56				
21ur-5186	Y116A8C.124				
21ur-1170	Y116A8C.98				
21ur-5023	Y116A8C.198				
21ur-5170	Y116A8C.163				
21ur-5203	Y116A8C.123				
21ur-3649	Y116A8C.174				
21ur-2053	Y116A8C.190				
21ur-349	Y116A8C.103				
21ur-4972	Y116A8C.161				
Y116A8C.52	Y116A8C.52				
Y116A8C.17	Y116A8C.17	Y116A8C.17 [Source:RefSeq_peptide;Acc:NP_503017]			zinc ion binding, nucleic acid binding, 
21ur-5014	Y116A8C.107				
21ur-986	Y116A8C.59				
21ur-3352	Y116A8C.157				
21ur-5297	Y116A8C.178				
21ur-2091	Y116A8C.180				
21ur-3184	Y116A8C.68				
nhr-229	Y116A8C.18	Nuclear Hormone Receptor family member (nhr-229) [Source:RefSeq_peptide;Acc:NP_503018]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
21ur-566	Y116A8C.118				
21ur-1788	Y116A8C.175				
21ur-3023	Y116A8C.126				
21ur-3620	Y116A8C.90				
21ur-5165	Y116A8C.66				
21ur-2464	Y116A8C.142				
21ur-1814	Y116A8C.154				
21ur-4037	Y116A8C.131				
21ur-3952	Y116A8C.83				
21ur-1851	Y116A8C.159				
21ur-813	Y116A8C.153				
21ur-4131	Y116A8C.116				
21ur-1448	Y116A8C.92				
21ur-11	Y116A8C.88				
21ur-5064	Y116A8C.78				
21ur-41	Y116A8C.63				
Y116A8C.19	Y116A8C.19	Y116A8C.19 [Source:RefSeq_peptide;Acc:NP_503019]			zinc ion binding, nucleic acid binding, 
21ur-3110	Y116A8C.143				
21ur-1806	Y116A8C.135				
Y116A8C.20	Y116A8C.20	Y116A8C.20 [Source:RefSeq_peptide;Acc:NP_503020]			zinc ion binding, nucleic acid binding, 
21ur-4603	Y116A8C.137				
21ur-2010	Y116A8C.187				
21ur-2683	Y116A8C.127				
21ur-5056	Y116A8C.155				
Y116A8C.21	Y116A8C.21	Y116A8C.21 [Source:RefSeq_peptide;Acc:NP_503021]			sugar binding, 
21ur-1188	Y116A8C.152				
21ur-2711	Y116A8C.74				
Y116A8C.22	Y116A8C.22	Y116A8C.22 [Source:RefSeq_peptide;Acc:NP_503022]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	protein binding, zinc ion binding, DNA binding, 
21ur-2300	Y116A8C.171				
21ur-1517	Y116A8C.119				
21ur-5322	Y116A8C.188				
21ur-3654	Y116A8C.65				
21ur-1316	Y116A8C.82				
21ur-2726	Y116A8C.179				
21ur-4697	Y116A8C.189				
21ur-1640	Y116A8C.71				
21ur-197	Y116A8C.70				
21ur-1455	Y116A8C.182				
21ur-4582	Y116A8C.172				
21ur-3251	Y116A8C.97				
21ur-1825	Y116A8C.80				
Y116A8C.23	Y116A8C.23	Y116A8C.23 [Source:RefSeq_peptide;Acc:NP_503023]			
21ur-1620	Y116A8C.58				
21ur-3289	Y116A8C.95				
21ur-389	Y116A8C.117				
21ur-5037	Y116A8C.87				
21ur-674	Y116A8C.168				
Y116A8C.51	Y116A8C.51				
Y116A8C.44	Y116A8C.44	Y116A8C.44 [Source:RefSeq_peptide;Acc:NP_001023433]			
21ur-4497	Y116A8C.106				
21ur-1419	Y116A8C.115				
21ur-1294	Y116A8C.176				
21ur-2055	Y116A8C.145				
21ur-3905	Y116A8C.112				
Y116A8C.24	Y116A8C.24	Y116A8C.24 [Source:RefSeq_peptide;Acc:NP_503024]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
21ur-470	Y116A8C.113				
21ur-2434	Y116A8C.162				
21ur-3091	Y116A8C.147				
21ur-804	Y116A8C.62				
Y116A8C.25	Y116A8C.25	Y116A8C.25 [Source:RefSeq_peptide;Acc:NP_503025]			kinase activity, 
21ur-439	Y116A8C.104				
21ur-2344	Y116A8C.64				
21ur-5151	Y116A8C.151				
Y116A8C.26	Y116A8C.26	Y116A8C.26 [Source:RefSeq_peptide;Acc:NP_503026]	intracellular signaling cascade, transport, cell communication, 		transporter activity, protein binding, binding, signal transducer activity, phosphoinositide binding, 
snr-1	Y116A8C.42	snr-1 encodes an ortholog of human small nuclear ribonucleoprotein Sm D3, a protein that forms part of a heptameric complex required for the biogenesis and function of the snRNPs that catalyze mRNA splicing. in combination with the gene that encodes the human Sm B ortholog (snr-2) snr-1 affects embryonic viability and the nuclear association and localization of P granules in embryos based on an RNAi assay, snr-1 also affects embryonic viability, growth, and fertility based on large-scale RNAi assays. snr-1 is expressed in embryos and is expressed in larvae and adults in muscles of the alimentary system, in body-wall muscle, in seam cells and other unidentified cells. [Source: WormBase]	mRNA metabolic process, positive regulation of growth rate, 	ribonucleoprotein complex, 	
Y116A8C.43	Y116A8C.43	Y116A8C.43 [Source:RefSeq_peptide;Acc:NP_503028]			
Y116A8C.27	Y116A8C.27	Y116A8C.27 [Source:RefSeq_peptide;Acc:NP_503029]			
Y116A8C.29	Y116A8C.29	Y116A8C.29 [Source:RefSeq_peptide;Acc:NP_503030]			
Y116A8C.28	Y116A8C.28	Y116A8C.28b [Source:RefSeq_peptide;Acc:NP_872092]	carbon utilization, 		zinc ion binding, carbonate dehydratase activity, 
Y116A8C.30	Y116A8C.30	Y116A8C.30a [Source:RefSeq_peptide;Acc:NP_001041016]	electron transport, 	membrane, 	electron carrier activity, NADH dehydrogenase (ubiquinone) activity, 
sfa-1	Y116A8C.32	Y116A8C.32 encodes an ortholog of splicing factor SF1, which enables 3' splice site recognition by binding U2AF65 and the intron branch site during splicing complex formation. Y116A8C.32 shares several domains with mammalian SF1 proteins (a U2AF65 binding domain, a hnRNP K homology domain, two RNA-binding zinc knuckles, and a proline-rich C-terminal domain), while also sharing a hydrophilic N-terminal domain (enriched for serine, arginine, lysine, and aspartate) with Drosophila but not mammalian SF1. Y116A8C.32's N-terminal domain resembles RS domains in other splicing proteins. Y116A8C.32 is required for embryonic viability, normally rapid growth, and proper body morphology. [Source: WormBase]	positive regulation of growth rate, 	tight junction, 	RNA binding, zinc ion binding, nucleic acid binding, 
cyn-13	Y116A8C.34	cyn-13 encodes a predicted cyclophilin that can function as a nuclease in vitro. functions to regulate DNA degradation and cell death in a genetic pathway with wah-1, cps-6, crn-1, crn-4, crn-5 and these proteins are believed to form a complex in vivo. [Source: WormBase]	protein folding, DNA fragmentation during apoptosis, 		nucleotide binding, nucleic acid binding, peptidyl-prolyl cis-trans isomerase activity, 
Y116A8C.33	Y116A8C.33	Y116A8C.33 [Source:RefSeq_peptide;Acc:NP_503035]			
uaf-2	Y116A8C.35	uaf-2 encodes an essential U2AF35 homolog clustered in an operon with cyp-13 (RRM/cyclophilin). UAF-2's sequence is somewhat atypical for U2AF proteins (it lacks an identifiable N-terminal RNA-binding RS domain, while having an glycine-rich C-terminal region). [Source: WormBase]	biological_process, protein homooligomerization, 	membrane, nucleus, 	nucleotide binding, RNA binding, protein binding, zinc ion binding, nucleic acid binding, 
NR_003456.1	Y116A8C.50	Y116A8C.50, snoRNA [Source:RefSeq_dna;Acc:NR_003456]			
itsn-1	Y116A8C.36	tag-11/Y116A8C.36 encodes a homolog of human NCF1, which when mutated leads to chronic granulomatous disease (OMIM:306400). [Source: WormBase]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, calcium ion binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
21ur-3583	Y116A8C.136				
21ur-514	Y116A8C.61				
Y116A8C.37	Y116A8C.37	Y116A8C.37 [Source:RefSeq_peptide;Acc:NP_503038]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
Y116A8C.38	Y116A8C.38	Y116A8C.38 [Source:RefSeq_peptide;Acc:NP_503039]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
21ur-8	Y116A8C.125				
Y116A8C.53	Y116A8C.53				
Y116A8C.48	Y116A8C.48				
Y116A8C.40	Y116A8C.40	Y116A8C.40 [Source:RefSeq_peptide;Acc:NP_503040]			
21ur-4976	Y116A8C.110				
21ur-4032	Y116A8C.54				
21ur-1932	Y116A8C.139				
21ur-2965	Y116A8C.129				
21ur-3755	Y116A8C.79				
21ur-3972	Y116A8C.141				
21ur-671	Y116A8C.197				
21ur-769	Y116A8C.73				
21ur-2911	Y116A8C.93				
21ur-1365	Y116A8C.193				
21ur-1666	Y116A8C.149				
Y116A8C.45	Y116A8C.45				
21ur-3081	Y116A8C.89				
21ur-2291	Y116A8C.96				
21ur-125	Y116A8C.102				
21ur-360	Y116A8C.108				
21ur-2829	C52D10.49				
21ur-3332	C52D10.23				
skr-13	C52D10.8	The skr-13 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-13(RNAi) animals are at least superficially normal. [Source: WormBase]	reproduction, 		
21ur-3548	C52D10.55				
skr-9	C52D10.7	skr-9 encodes a homolog of Skp1 in S. cerevisiae, a component of the SCF (Skp1, Cullin, F-box) ubiquitin-ligase complex that regulates ubiquitin-mediated protein degradation. SKR-9 is required for posterior body morphogenesis, embryonic and larval development, and postembryonic cell proliferation. [Source: WormBase]	positive regulation of growth rate, 		
skr-8	C52D10.9	skr-8 encodes a homolog of Skp1 in S. cerevisiae, a component of the SCF (Skp1, Cullin, F-box) ubiquitin-ligase complex that regulates ubiquitin-mediated protein degradation. SKR-8 is required for is required for posterior body morphogenesis, embryonic and larval development, and cell proliferation. SKR-8 can interact with CUL-1, a C. elegans cullin homolog. [Source: WormBase]	positive regulation of growth rate, 		
21ur-3805	C52D10.30				
skr-12	C52D10.6	skr-12 encodes a homolog of Skp1 in S. cerevisiae, a core component of the SCF (Skp1p, Cullin, F-box) ubiquitin-ligase complex that facilitates ubiquitin-mediated protein degradation. SKR-12 has no known function in vivo, since skr-12(RNAi) animals are at least superficially normal. [Source: WormBase]	reproduction, 		
C52D10.10	C52D10.10		reproduction, 		
21ur-3102	C52D10.54				
21ur-3774	C52D10.33				
21ur-248	C52D10.14				
21ur-2272	C52D10.46				
21ur-2722	C52D10.48				
21ur-81	C52D10.22				
21ur-3210	C52D10.34				
21ur-3658	C52D10.19				
21ur-3097	C52D10.47				
21ur-2031	C52D10.51				
21ur-2241	C52D10.44				
C52D10.3	C52D10.3	C52D10.3 [Source:RefSeq_peptide;Acc:NP_503047]			
21ur-4534	C52D10.42				
21ur-4240	C52D10.36				
C52D10.4	C52D10.4				
21ur-3826	C52D10.40				
21ur-1812	C52D10.20				
21ur-2637	C52D10.32				
col-138	C52D10.13	COLlagen family member (col-138) [Source:RefSeq_peptide;Acc:NP_503048]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
21ur-2624	C52D10.16				
21ur-684	C52D10.37				
21ur-843	C52D10.25				
21ur-1376	C52D10.50				
21ur-2736	C52D10.28				
21ur-1340	C52D10.18				
21ur-2631	C52D10.53				
21ur-258	C52D10.57				
21ur-4381	C52D10.17				
C52D10.1	C52D10.1	C52D10.1 [Source:RefSeq_peptide;Acc:NP_503050]			
flp-17	C52D10.11	FMRF-Like Peptide family member (flp-17) [Source:RefSeq_peptide;Acc:NP_503051]	neuropeptide signaling pathway, 		
21ur-3217	C52D10.26				
21ur-2713	C52D10.31				
21ur-3778	C52D10.24				
21ur-2633	C52D10.41				
21ur-846	C52D10.35				
C52D10.12	C52D10.12	C52D10.12 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C01H6.6, C33D12.2, M02F4.3, R04E5.2, and R13G10.4. by orthology with MAM3, C52D10.12 may participate in metal homoeostasis. C52D10.12, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. C52D10.12 has no obvious function in RNAi assays. [Source: WormBase]			
21ur-4718	C52D10.52				
21ur-3133	C52D10.45				
21ur-1040	C52D10.27				
21ur-5065	C52D10.56				
21ur-4876	C52D10.29				
21ur-1194	C52D10.38				
21ur-3667	C52D10.43				
21ur-4966	C52D10.15				
21ur-1801	C52D10.39				
21ur-3189	C52D10.21				
21ur-5118	Y116A8B.28				
21ur-114	Y116A8B.10				
21ur-144	Y116A8B.16				
21ur-4684	Y116A8B.11				
21ur-5110	Y116A8B.12				
21ur-2941	Y116A8B.6				
21ur-3685	Y116A8B.22				
21ur-4920	Y116A8B.31				
21ur-4198	Y116A8B.18				
21ur-3450	Y116A8B.33				
21ur-4241	Y116A8B.24				
21ur-1746	Y116A8B.8				
21ur-3004	Y116A8B.27				
21ur-2112	Y116A8B.25				
21ur-2910	Y116A8B.23				
21ur-632	Y116A8B.32				
Y116A8B.1	Y116A8B.1	Y116A8B.1 [Source:RefSeq_peptide;Acc:NP_503053]			
21ur-57	Y116A8B.9				
21ur-593	Y116A8B.20				
21ur-2335	Y116A8B.26				
21ur-2763	Y116A8B.30				
21ur-276	Y116A8B.17				
Y116A8B.4	Y116A8B.4	Y116A8B.4 [Source:RefSeq_peptide;Acc:NP_503055]			
21ur-5136	Y116A8B.15				
21ur-2665	Y116A8B.29				
21ur-2795	Y116A8B.14				
Y116A8B.5	Y116A8B.5	Y116A8B.5 [Source:RefSeq_peptide;Acc:NP_503056]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
21ur-2647	Y116A8B.7				
21ur-5398	Y116A8B.19				
21ur-4888	Y116A8B.13				
21ur-3587	Y116A8B.21				
21ur-3037	ZK550.12				
21ur-4345	ZK550.17				
21ur-2800	ZK550.11				
21ur-540	ZK550.15				
21ur-330	ZK550.13				
21ur-4617	ZK550.8				
21ur-4773	ZK550.9				
21ur-5066	ZK550.10				
ZK550.1	ZK550.1	ZK550.1 [Source:RefSeq_peptide;Acc:NP_503057]			
ZK550.7	ZK550.7				
ZK550.2	ZK550.2	ZK550.2 [Source:RefSeq_peptide;Acc:NP_503058]	transport, 	integral to membrane, 	transporter activity, 
21ur-3303	ZK550.14				
21ur-2615	ZK550.20				
21ur-4007	ZK550.18				
21ur-828	ZK550.16				
21ur-3985	ZK550.21				
ZK550.3	ZK550.3	ZK550.3 [Source:RefSeq_peptide;Acc:NP_503059]	proteolysis, biological_process, 		metalloendopeptidase activity, 
ZK550.4	ZK550.4	ZK550.4 [Source:RefSeq_peptide;Acc:NP_503060]	transcription initiation from RNA polymerase II promoter, morphogenesis of an epithelium, 	transcription factor TFIIE complex, 	RNA polymerase II transcription factor activity, 
ZK550.5	ZK550.5	ZK550.5 [Source:RefSeq_peptide;Acc:NP_503061]			oxidoreductase activity, acting on CH or CH2 groups, 
ZK550.6	ZK550.6	The ZK550.6 gene encodes an ortholog of the human gene PHYTANOYL-COA HYDROXYLASE (PHYH. PAHX. OMIM:602026), which when mutated leads to Refsum disease (OMIM:266500). [Source: WormBase]			
21ur-2836	ZK550.19				
21ur-1383	F26D10.14				
21ur-3861	F26D10.15				
F26D10.13	F26D10.13	F26D10.13 [Source:RefSeq_peptide;Acc:NP_001023146]			
str-187	F26D10.8	Seven TM Receptor family member (str-187) [Source:RefSeq_peptide;Acc:NP_503063]	cell surface receptor linked signal transduction, 	membrane, 	non-G-protein coupled 7TM receptor activity, 
atg-1	F26D10.9	atg-1 encodes a predicted amino acid transporter glycoprotein subunit. when co-expressed in Xenopus oocytes with the AAT-1 or AAT-3 catalytic subunit ATG-1 is not able to facilitate amino acid uptake, even though ATG-1 is able to covalently associate with AAT-1 or AAT-3 in the Xenopus expression system. however, when co-expressed with AAT-9, ATG-1 is able to enhance the activity of this catalytic subunit. when expressed alone or with AAT-3, ATG-1 localizes to the cell surface. when co-expressed with AAT-1, ATG-1 localizes intracellularly. [Source: WormBase]	carbohydrate metabolic process, 		catalytic activity, cation binding, 
gln-5	F26D10.10	GLutamiNe synthetase (glutamate-ammonia ligase) family member (gln-5) [Source:RefSeq_peptide;Acc:NP_503065]	glutamine biosynthetic process, nitrogen compound metabolic process, 		glutamate-ammonia ligase activity, 
F26D10.11	F26D10.11	F26D10.11 encodes an ortholog of murine TMHS (mutated in hurry-scurry/hscy mice), a predicted tetraspan membrane protein required for stereociliary function and a possible ortholog of human DFNB53. the cysteine mutated in hscy mice is conserved in F26D10.11. [Source: WormBase]			
F26D10.12	F26D10.12	F26D10.12 [Source:RefSeq_peptide;Acc:NP_503067]			sugar binding, 
hsp-1	F26D10.3	hsp-1 encodes hsp70A, a member of the heat shock family of proteins. hsp70A is closely related to the Drosophila heat inducible hsp70s and the S. cerevisiae SSA hsp70 subfamily. the hsp-1 gene is normally expressed throughout development and upon heat-shock the hsp-1 mRNA is enhanced 2-6 fold. down-regulation of hsp-1 via RNA interference results in a small reduction in the life-span of an age-1 mutant indicating that hsp-1 may play some role in regulating longevity. [Source: WormBase]	reproduction, determination of adult life span, 		ATP binding, 
T28F3.1	T28F3.1	T28F3.1 encodes a putative calcium-dependent phospholipid binding protein of the copine family. T28F3.1 is required for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. T28F3.1(RNAi) hermaphrodites are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. [Source: WormBase]			
tag-230	T28F3.3	Putative protein tag-230. [Source:Uniprot/SWISSPROT;Acc:Q9XUC4]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
T28F3.4	T28F3.4	T28F3.4a [Source:RefSeq_peptide;Acc:NP_503071]	transport, 	integral to membrane, 	transporter activity, 
T28F3.5	T28F3.5	T28F3.5 [Source:RefSeq_peptide;Acc:NP_503072]	metabolic process, 		ATP binding, catalytic activity, ligase activity, biotin binding, 
ifta-2	T28F3.6	ifta-2 encodes a ciliary protein, orthologous to human RABL5, that is required for normally short life span and dauer formation. IFTA-2 is expressed in amphid, labial, and phasmid ciliated sensory neurons. intracellularly, IFTA-2 resides in the bases and axonemes of cilia, colocalizing with DAF-2 and AGE-1. IFTA-2 may be either a cargo or a cargo-docking component of intraflagellar transport (IFT) by the IFT-B complex. ciliary basal localization of IFTA-2 is abolished by a T42N mutation predicted to lock ITFA-2 into an inactive, GDP-bound conformation. ifta-2(tm1724) mutants have abnormally long lifespans and constitutive dauer formation, perhaps because IFTA-2 regulates DAF-2 signalling from ciliated sensory neurons. IFTA-2 is not required for cilium assembly or IFT, nor is it required for chemosensation or osmosensation. the ciliary localization of IFTA-2 is conserved in RABL5. via an X-box in its promoter, ifta-2 is a candidate for direct regulation by DAF-19. [Source: WormBase]	small GTPase mediated signal transduction, 		GTP binding, 
T28F3.7	T28F3.7				
T28F3.8	T28F3.8	T28F3.8 [Source:RefSeq_peptide;Acc:NP_503075]			
T28F3.9	T28F3.9	T28F3.9 [Source:RefSeq_peptide;Acc:NP_503076]		membrane, 	acetylglucosaminyltransferase activity, 
snf-9	C49C3.1	Sodium:Neurotransmitter symporter Family family member (snf-9) [Source:RefSeq_peptide;Acc:NP_503077]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
NM_070677.2	C49C3.2	C49C3.2 (C49C3.2) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_070677]			
C49C3.3	C49C3.3				
C49C3.4	C49C3.4	C49C3.4 [Source:RefSeq_peptide;Acc:NP_503080]			
C49C3.5	C49C3.5	C49C3.5 [Source:RefSeq_peptide;Acc:NP_503081]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C49C3.6	C49C3.6	C49C3.6 [Source:RefSeq_peptide;Acc:NP_503082]	embryonic development ending in birth or egg hatching, 		
C49C3.7	C49C3.7	C49C3.7 [Source:RefSeq_peptide;Acc:NP_503083]			protein binding, 
C49C3.15	C49C3.15	C49C3.15 [Source:RefSeq_peptide;Acc:NP_503084]			calmodulin binding, 
C49C3.8	C49C3.8	C49C3.8 [Source:RefSeq_peptide;Acc:NP_503085]			
C49C3.10	C49C3.10	C49C3.10 [Source:RefSeq_peptide;Acc:NP_001023086]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, serine-type endopeptidase inhibitor activity, 
C49C3.9	C49C3.9	C49C3.9 [Source:RefSeq_peptide;Acc:NP_503088]	defense response, 		
C49C3.11	C49C3.11	C49C3.11 [Source:RefSeq_peptide;Acc:NP_503089]	transport, reproduction, 	extracellular region, extracellular space, 	hormone activity, sugar binding, 
C49C3.12	C49C3.12	C49C3.12 [Source:RefSeq_peptide;Acc:NP_503090]			sugar binding, 
C49C3.13	C49C3.13	C49C3.13 [Source:RefSeq_peptide;Acc:NP_503091]			sugar binding, 
C30H6.1	C30H6.1	C30H6.1 [Source:RefSeq_peptide;Acc:NP_503093]			sugar binding, 
C30H6.11	C30H6.11	C30H6.11 [Source:RefSeq_peptide;Acc:NP_001023035]			sugar binding, 
C30H6.3	C30H6.3	C30H6.3 [Source:RefSeq_peptide;Acc:NP_503094]			sugar binding, 
C30H6.4	C30H6.4	C30H6.4 [Source:RefSeq_peptide;Acc:NP_503095]			sugar binding, 
tag-141	C30H6.2	tag-141/C30H6.2 encodes a putative zinc transporter orthologous to human SLC39A4 (OMIM:607059, mutated in acrodermatitis enteropathica). [Source: WormBase]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
C30H6.10	C30H6.10	C30H6.10 [Source:RefSeq_peptide;Acc:NP_741499]			
C30H6.5	C30H6.5	C30H6.5 [Source:RefSeq_peptide;Acc:NP_503097]			
haf-1	C30H6.6	haf-1 encodes a predicted transmembrane protein of the ATP-binding cassette (ABC) transporter superfamily. by homology, HAF-1 is proposed to function in ATP-dependent transport of molecules across plasma and intracellular membranes. however, as loss of HAF-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of HAF-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
C30H6.9	C30H6.9	C30H6.9 [Source:RefSeq_peptide;Acc:NP_503099]			
C30H6.7	C30H6.7	C30H6.7 [Source:RefSeq_peptide;Acc:NP_503100]	metabolic process, 		protein binding, acyltransferase activity, 
C30H6.8	C30H6.8	C30H6.8 [Source:RefSeq_peptide;Acc:NP_503101]	cell redox homeostasis, 		
C30H6.12	C30H6.12				
T02D1.8	T02D1.8	T02D1.8 [Source:RefSeq_peptide;Acc:NP_001023352]			
sru-14	T02D1.2				
sru-15	T02D1.3	Serpentine Receptor, class U family member (sru-15) [Source:RefSeq_peptide;Acc:NP_503103]	embryonic development ending in birth or egg hatching, 		
T02D1.4	T02D1.4	T02D1.4 [Source:RefSeq_peptide;Acc:NP_503104]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
pmp-4	T02D1.5	The pmp-4 gene encodes a homolog of human ALD, which when mutated leads to X-linked adrenoleukodystrophy (OMIM:300100). [Source: WormBase]	transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
T02D1.7	T02D1.7	T02D1.7 [Source:RefSeq_peptide;Acc:NP_503106]			
T02D1.6	T02D1.6	T02D1.6 [Source:RefSeq_peptide;Acc:NP_503107]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C06A12.3	C06A12.3	C06A12.3 [Source:RefSeq_peptide;Acc:NP_503108]			
lact-6	C06A12.5	C06A12.5 [Source:RefSeq_peptide;Acc:NP_503109]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
gcy-27	C06A12.4		intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
C06A12.8	C06A12.8	C06A12.8 [Source:RefSeq_peptide;Acc:NP_001021299]			
F08A7.1	F08A7.1				
F11E6.11	F11E6.11	F11E6.11 [Source:RefSeq_peptide;Acc:NP_001023128]			
F11E6.8	F11E6.8	F11E6.8 [Source:RefSeq_peptide;Acc:NP_503111]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F11E6.7	F11E6.7	F11E6.7 [Source:RefSeq_peptide;Acc:NP_503112]			
F11E6.10	F11E6.10	F11E6.10 [Source:RefSeq_peptide;Acc:NP_001023127]			
F11E6.6	F11E6.6	F11E6.6 [Source:RefSeq_peptide;Acc:NP_503113]	embryonic development ending in birth or egg hatching, 		
elo-2	F11E6.5	The elo-2 gene encodes a palmitic acid elongase, homologous to polyunsaturated fatty acid (PUFA) elongases such as ELO-1, that is required for normally rapid growth, normally large body size, fertility, and for the quantitative regulation of the ultradian defecation rhythm. the joint action of ELO-2 with ELO-1 is strongly required for 20-carbon PUFA production and for general viability. elo-2 is most strongly expressed in intestinal cells, as well as other tissues such as the ventral nerve cord, pharyngeal muscles, uterus, and tail. [Source: WormBase]	positive regulation of growth rate, 	integral to membrane, 	
F11E6.4	F11E6.4	F11E6.4 [Source:RefSeq_peptide;Acc:NP_503115]			
F11E6.3	F11E6.3	F11E6.3 [Source:RefSeq_peptide;Acc:NP_503116]	positive regulation of growth rate, 		
F11E6.9	F11E6.9	F11E6.9 [Source:RefSeq_peptide;Acc:NP_741500]			
grl-24	F11E6.2	grl-24 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. GRL-24 is expressed in body wall muscle and intestine. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
F11E6.1	F11E6.1	F11E6.1 is homologous to to the human gene GLUCOCEREBROSIDASE (GBA. OMIM:606463), which when mutated leads to Gaucher disease. [Source: WormBase]	sphingolipid metabolic process, lysosome organization and biogenesis, 	lysosome, 	glucosylceramidase activity, 
4R79.2	4R79.2	4R79.2 [Source:RefSeq_peptide;Acc:NP_503120]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
nas-6	4R79.1	Zinc metalloproteinase nas-6 precursor (EC 3.4.24.21) (Nematode astacin 6). [Source:Uniprot/SWISSPROT;Acc:Q9U3S9]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
MTCE.1	MTCE.1				
MTCE.2	MTCE.2				
MTCE.3	MTCE.3				
MTCE.4	MTCE.4				
MTCE.5	MTCE.5				
MTCE.6	MTCE.6				
MTCE.7	MTCE.7				
MTCE.8	MTCE.8				
MTCE.9	MTCE.9				
MTCE.10	MTCE.10				
MTCE.11	MTCE.11				
MTCE.12	MTCE.12				
MTCE.13	MTCE.13				
MTCE.14	MTCE.14				
MTCE.15	MTCE.15				
MTCE.16	MTCE.16				
MTCE.17	MTCE.17				
MTCE.18	MTCE.18				
MTCE.19	MTCE.19				
MTCE.20	MTCE.20				
ctb-1	MTCE.21	The ctb-1 gene resides on the mitochondrial chromosome, and encodes the cytochrome b protein of mitochondrial complex III. mutation of ctb-1 suppresses the slow embryonic development of isp-1 mutants, while enhancing their paraquat resistance. [Source: WormBase]	electron transport, 		
MTCE.22	MTCE.22				
MTCE.23	MTCE.23				
MTCE.24	MTCE.24				
MTCE.25	MTCE.25				
MTCE.26	MTCE.26				
MTCE.27	MTCE.27				
MTCE.28	MTCE.28				
MTCE.29	MTCE.29				
MTCE.30	MTCE.30				
MTCE.31	MTCE.31				
MTCE.32	MTCE.32				
MTCE.33	MTCE.33				
MTCE.34	MTCE.34				
MTCE.35	MTCE.35				
MTCE.36	MTCE.36				
B0348.5	B0348.5	B0348.5 [Source:RefSeq_peptide;Acc:NP_503122]	positive regulation of growth rate, 		
ife-3	B0348.6	ife-3 encodes one of five C. elegans homologs of the mRNA cap-binding protein eIF4E. by homology, IFE-3 is predicted to bind capped mRNA and mediate its recruitment to ribosomes during translation initiation. in vitro, IFE-3 binds a monomethylated guanosine cap structure but does not bind a trimethylated guanosine cap, which suggests that IFE-3 likely mediates translation of those mRNAs that do not contain a spliced-leader sequence. of the C. elegans eIF4E isoforms, IFE-3 is the most similar to human eIF4E and is the only isoform required for viability (homozygous ife-3 mutant embryos arrest in the early division stages of embryogenesis). IFE-3 is enriched in the adult gonad. [Source: WormBase]	translational initiation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	RNA binding, protein binding, translation initiation factor activity, 
egl-8	B0348.4	egl-8 encodes a phospholipase C beta homolog that affects pharyngeal pumping, defecation, and activity levels. it is genetically downstream of egl-30 with respect to aldicarb-induced paralysis, and is expressed in most or all neurons, with the strongest staining in the head and tail ganglia, and in the intestine. [Source: WormBase]	intracellular signaling cascade, signal transduction, lipid metabolic process, positive regulation of growth rate, regulation of pharyngeal pumping, dopamine receptor signaling pathway, 		calcium ion binding, phosphoinositide phospholipase C activity, phospholipase C activity, 
B0348.2	B0348.2	B0348.2 [Source:RefSeq_peptide;Acc:NP_503127]			
B0348.1	B0348.1	B0348.1 [Source:RefSeq_peptide;Acc:NP_503128]			
srt-52	Y38C9B.2	Serpentine Receptor, class T family member (srt-52) [Source:RefSeq_peptide;Acc:NP_503129]			
cyp-29A3	Y38C9B.1	CYtochrome P450 family member (cyp-29A3) [Source:RefSeq_peptide;Acc:NP_503130]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
Y38C9B.3	Y38C9B.3	Y38C9B.3 [Source:RefSeq_peptide;Acc:NP_503131]			
fhod-2	F56E10.2	fhod-2 encodes an ortholog of Drosophila DAAM and human DAAM1 (OMIM:606626). FHOD-2 enables Wnt-directed planar cell polarity. FHOD-2 is required for the fully asymmetrical division of B.a versus B.p cells, though this requirement is quantitatively weak. [Source: WormBase]	actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, 		actin binding, 
F56E10.3	F56E10.3	F56E10.3 [Source:RefSeq_peptide;Acc:NP_503133]	actin cytoskeleton organization and biogenesis, 		actin binding, Rho GTPase binding, 
rps-27	F56E10.4	rps-27 encodes a small ribosomal subunit S27 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
F56E10.1	F56E10.1	F56E10.1 [Source:RefSeq_peptide;Acc:NP_503135]			
Y38C9A.1	Y38C9A.1	Y38C9A.1 [Source:RefSeq_peptide;Acc:NP_503136]			
cgp-1	Y38C9A.2	GTP-binding protein cgp-1. [Source:Uniprot/SWISSPROT;Acc:Q18905]	small GTPase mediated signal transduction, biological_process, 	cellular_component, 	GTP binding, GTPase activity, 
W03F9.1	W03F9.1	Zinc finger protein ZPR1 homolog. [Source:Uniprot/SWISSPROT;Acc:O16999]			protein binding, zinc ion binding, 
W03F9.2	W03F9.2	W03F9.2a [Source:RefSeq_peptide;Acc:NP_503139]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
W03F9.10	W03F9.10	W03F9.10 [Source:RefSeq_peptide;Acc:NP_503141]	mRNA processing, growth, 	nucleus, 	protein binding, 
W03F9.3	W03F9.3	W03F9.3 [Source:RefSeq_peptide;Acc:NP_503142]			
W03F9.11	W03F9.11	W03F9.11 [Source:RefSeq_peptide;Acc:NP_001033507]			
W03F9.9	W03F9.9	W03F9.9 [Source:RefSeq_peptide;Acc:NP_503143]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
W03F9.8	W03F9.8				
srh-81	W03F9.7				
srh-82	W03F9.6	Serpentine Receptor, class H family member (srh-82) [Source:RefSeq_peptide;Acc:NP_503144]			
W03F9.4	W03F9.4	W03F9.4 [Source:RefSeq_peptide;Acc:NP_503145]	chemotaxis, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	acyltransferase activity, C3a anaphylatoxin receptor activity, 
ttb-1	W03F9.5	Transcription initiation factor IIB (General transcription factor TFIIB). [Source:Uniprot/SWISSPROT;Acc:O16991]	regulation of transcription, regulation of transcription, DNA-dependent, transcription initiation, embryonic development ending in birth or egg hatching, 	transcription factor complex, 	zinc ion binding, transcription regulator activity, 
Y108G3AL.3	Y108G3AL.3	Y108G3AL.3 [Source:RefSeq_peptide;Acc:NP_503147]			
Y108G3AL.2	Y108G3AL.2	Y108G3AL.2 [Source:RefSeq_peptide;Acc:NP_503148]			
cul-3	Y108G3AL.1	cul-3 encodes one of six C. elegans cullins. by homology, CUL-3 is predicted to interact with a RING-finger protein to form the catalytic core of an SCF-type E3-ubiquitin ligase complex required for the ubiquitination and degradation of target proteins. in the early embryo, maternal CUL-3 is essential for degradation of MEI-1, a meiosis-specific subunit of the microtubule-severing katanin complex that is active during meiosis but whose degradation is essential for successful mitotic spindle formation and subsequent zygotic cytokinesis. to effect MEI-1 degradation, CUL-3 interacts with MEL-26, a substrate-specific adaptor protein that also binds MEI-1, thus linking MEI-1 with the CUL-3-containing E3 ligase. CUL-3 activity is regulated by cycles of neddylation and deneddylation that are dependent upon activity of the DCN-1, RBX-1, and RFL-1 gene products. cul-3 mRNA is present at all life stages, with highest levels seen in embryos. expression of a cul-3::GFP transcriptional reporter fusion is detected in many somatic tissues, including the pharynx, intestine, hypodermis, and several different muscle types. [Source: WormBase]	cell cycle, embryonic development ending in birth or egg hatching, 		protein binding, 
Y108G3AL.7	Y108G3AL.7	Y108G3AL.7 [Source:RefSeq_peptide;Acc:NP_001041181]		intracellular, 	DNA binding, nucleic acid binding, 
DC2.3	DC2.3	DC2.3b [Source:RefSeq_peptide;Acc:NP_001023759]	transport, ER to Golgi vesicle-mediated transport, 	cis-Golgi network, 	sugar binding, 
DC2.5	DC2.5	DC2.5 [Source:RefSeq_peptide;Acc:NP_503155]	metabolic process, 		oxidoreductase activity, 
srh-78	DC2.2	Serpentine Receptor, class H family member (srh-78) [Source:RefSeq_peptide;Acc:NP_503156]			
srh-80	DC2.1	Serpentine Receptor, class H family member (srh-80) [Source:RefSeq_peptide;Acc:NP_503157]			
srh-77	DC2.6	Serpentine Receptor, class H family member (srh-77) [Source:RefSeq_peptide;Acc:NP_503158]			
kin-33	DC2.7	protein KINase family member (kin-33) [Source:RefSeq_peptide;Acc:NP_001023760]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R02C2.1	R02C2.1	R02C2.1 [Source:RefSeq_peptide;Acc:NP_503161]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R02C2.6	R02C2.6	R02C2.6 [Source:RefSeq_peptide;Acc:NP_872128]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R02C2.7	R02C2.7	R02C2.7 [Source:RefSeq_peptide;Acc:NP_001024064]			
kin-34	R02C2.2	protein KINase family member (kin-34) [Source:RefSeq_peptide;Acc:NP_503162]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
tag-40	R02C2.3	Temporarily assigned gene name protein 40. [Source:Uniprot/SPTREMBL;Acc:O44545]			transferase activity, transferring groups other than amino-acyl groups, 
str-121	R02C2.5	Seven TM Receptor family member (str-121) [Source:RefSeq_peptide;Acc:NP_503164]			
nhr-204	R02C2.4	Nuclear hormone receptor family protein 204. [Source:Uniprot/SPTREMBL;Acc:O44543]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
lgc-26	Y58G8A.1	Y58G8A.1 [Source:RefSeq_peptide;Acc:NP_503167]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
Y58G8A.5	Y58G8A.5	Y58G8A.5 [Source:RefSeq_peptide;Acc:NP_001033517]			
Y58G8A.4	Y58G8A.4	Y58G8A.4a [Source:RefSeq_peptide;Acc:NP_001024264]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
F33E11.2	F33E11.2	F33E11.2 [Source:RefSeq_peptide;Acc:NP_503170]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	histamine receptor activity, 
F33E11.3	F33E11.3	F33E11.3 [Source:RefSeq_peptide;Acc:NP_503171]			
F33E11.6	F33E11.6	F33E11.6b [Source:RefSeq_peptide;Acc:NP_001041113]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
nhr-15	F33E11.1	nhr-15 is predicted to encode a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
abt-4	Y39D8C.1	abt-4 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCA subfamily of transport proteins. ABT-4 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of abt-4 activity via RNAi results in no obvious defects, the precise role of abt-4 in C. elegans development and/or behavior is not yet known. abt-4 promoter-gfp fusion proteins are widely expressed in larvae and adults, with expression seen in the pharynx, the pharyngeal-intestinal valve, the intestine, renal gland cells, hypodermis, various neurons, and unidentified cells in the head and tail. [Source: WormBase]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
T22H9.4	T22H9.4	T22H9.4 [Source:RefSeq_peptide;Acc:NP_503176]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
T22H9.3	T22H9.3	T22H9.3 [Source:RefSeq_peptide;Acc:NP_503177]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
atgr-9	T22H9.2	ATG (AuTophaGy) Related family member (atgr-9) [Source:RefSeq_peptide;Acc:NP_503178]			
T22H9.1	T22H9.1	T22H9.1 [Source:RefSeq_peptide;Acc:NP_503179]	positive regulation of growth rate, 		
Y39D8B.1	Y39D8B.1	Y39D8B.1 [Source:RefSeq_peptide;Acc:NP_503181]			
Y39D8B.3	Y39D8B.3	Y39D8B.3 [Source:RefSeq_peptide;Acc:NP_503182]			
ZK6.8	ZK6.8	ZK6.8 [Source:RefSeq_peptide;Acc:NP_503183]			
ZK6.7	ZK6.7	ZK6.7a [Source:RefSeq_peptide;Acc:NP_503184]	lipid metabolic process, chromosome segregation, 		catalytic activity, 
ZK6.6	ZK6.6	ZK6.6 [Source:RefSeq_peptide;Acc:NP_503186]			
nhr-254	ZK6.5	Nuclear Hormone Receptor family member (nhr-254) [Source:RefSeq_peptide;Acc:NP_503187]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-253	ZK6.4	Nuclear Hormone Receptor family member (nhr-253) [Source:RefSeq_peptide;Acc:NP_503188]	regulation of transcription, DNA-dependent, locomotory behavior, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK6.3	ZK6.3	ZK6.3 [Source:RefSeq_peptide;Acc:NP_503189]		extracellular region, 	
srh-62	ZK6.9	Serpentine Receptor, class H family member (srh-62) [Source:RefSeq_peptide;Acc:NP_503190]			
nhr-252	ZK6.2	Nuclear Hormone Receptor family member (nhr-252) [Source:RefSeq_peptide;Acc:NP_503191]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-278	ZK6.1	Nuclear Hormone Receptor family member (nhr-278) [Source:RefSeq_peptide;Acc:NP_503192]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
dod-19	ZK6.10	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-19) [Source:RefSeq_peptide;Acc:NP_503193]	determination of adult life span, 		
ZK6.11	ZK6.11	ZK6.11a [Source:RefSeq_peptide;Acc:NP_001024314]			
Y39D8A.1	Y39D8A.1	Y39D8A.1a [Source:RefSeq_peptide;Acc:NP_741503]			
dod-20	B0554.6	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-20) [Source:RefSeq_peptide;Acc:NP_503196]	determination of adult life span, 		
B0554.5	B0554.5	B0554.5 [Source:RefSeq_peptide;Acc:NP_503197]			transporter activity, 
B0554.4	B0554.4	B0554.4 [Source:RefSeq_peptide;Acc:NP_503198]			
B0554.3	B0554.3	B0554.3 [Source:RefSeq_peptide;Acc:NP_503199]			
B0554.2	B0554.2	B0554.2 [Source:RefSeq_peptide;Acc:NP_503200]			
B0554.7	B0554.7	B0554.7 [Source:RefSeq_peptide;Acc:NP_503201]			
B0554.1	B0554.1	B0554.1 [Source:RefSeq_peptide;Acc:NP_503202]			
srh-33	M02H5.9	Serpentine Receptor, class H family member (srh-33) [Source:RefSeq_peptide;Acc:NP_503203]			
srh-34	M02H5.10	Serpentine Receptor, class H family member (srh-34) [Source:RefSeq_peptide;Acc:NP_503204]			
srh-35	M02H5.11	Serpentine Receptor, class H family member (srh-35) [Source:RefSeq_peptide;Acc:NP_503205]			
M02H5.8	M02H5.8	M02H5.8 [Source:RefSeq_peptide;Acc:NP_503206]			
nhr-123	M02H5.7	Nuclear Hormone Receptor family member (nhr-123) [Source:RefSeq_peptide;Acc:NP_503207]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-98	M02H5.6	nhr-98 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-203	M02H5.5	Nuclear Hormone Receptor family member (nhr-203) [Source:RefSeq_peptide;Acc:NP_503209]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-202	M02H5.4	Nuclear Hormone Receptor family member (nhr-202) [Source:RefSeq_peptide;Acc:NP_503210]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-201	M02H5.3	Nuclear Hormone Receptor family member (nhr-201) [Source:RefSeq_peptide;Acc:NP_503211]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srbc-57	M02H5.12	Serpentine Receptor, class BC (class B-like) family member (srbc-57) [Source:RefSeq_peptide;Acc:NP_503212]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srt-31	M02H5.2	Serpentine Receptor, class T family member (srt-31) [Source:RefSeq_peptide;Acc:NP_503213]			
nhr-99	M02H5.1	nhr-99 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-55	T01G6.7	nhr-55 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-130	T01G6.8	Nuclear hormone receptor family member nhr-130. [Source:Uniprot/SWISSPROT;Acc:O16963]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-212	T01G6.6	Nuclear Hormone Receptor family member (nhr-212) [Source:RefSeq_peptide;Acc:NP_503217]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-211	T01G6.5	Nuclear Hormone Receptor family member (nhr-211) [Source:RefSeq_peptide;Acc:NP_503218]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-106	T01G6.4	nhr-106 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
str-196	T01G6.3	Seven TM Receptor family member (str-196) [Source:RefSeq_peptide;Acc:NP_503220]		membrane, 	
nhr-131	T01G6.2	Nuclear Hormone Receptor family member (nhr-131) [Source:RefSeq_peptide;Acc:NP_503221]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T01G6.1	T01G6.1	T01G6.1 [Source:RefSeq_peptide;Acc:NP_503222]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
str-256	T01G6.9	Seven TM Receptor family member (str-256) [Source:RefSeq_peptide;Acc:NP_503223]			
T01G6.10	T01G6.10	T01G6.10 [Source:RefSeq_peptide;Acc:NP_503224]	metabolic process, electron transport, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
R11G11.6	R11G11.6	R11G11.6 [Source:RefSeq_peptide;Acc:NP_503226]			protein binding, 
pqn-60	R11G11.7	pqn-60 encodes a 154-residue, glutamine/asparagine (Q/N)-rich ('prion'-like) protein, predicted to have coiled-coil structure, with many paralogs in nematodes but no obvious non-nematode orthologs. PQN-60 inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]			protein binding, 
srw-104	R11G11.8				
srh-37	R11G11.9	Serpentine Receptor, class H family member (srh-37) [Source:RefSeq_peptide;Acc:NP_503228]			
srw-105	R11G11.10				
srw-106	R11G11.11				
nhr-210	R11G11.12	Nuclear Hormone Receptor family member (nhr-210) [Source:RefSeq_peptide;Acc:NP_503231]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
srw-107	R11G11.13	Serpentine Receptor, class W family member (srw-107) [Source:RefSeq_peptide;Acc:NP_503232]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
R11G11.14	R11G11.14	R11G11.14 [Source:RefSeq_peptide;Acc:NP_503233]	lipid metabolic process, 		catalytic activity, 
str-54	R11G11.15				
srw-108	R11G11.5	Serpentine Receptor, class W family member (srw-108) [Source:RefSeq_peptide;Acc:NP_503234]			
srj-12	R11G11.4				
R11G11.3	R11G11.3	R11G11.3 [Source:RefSeq_peptide;Acc:NP_503235]			serine-type endopeptidase inhibitor activity, 
nhr-58	R11G11.2	Nuclear Hormone Receptor family member (nhr-58) [Source:RefSeq_peptide;Acc:NP_001024080]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-132	R11G11.1	Nuclear Hormone Receptor family member (nhr-132) [Source:RefSeq_peptide;Acc:NP_503237]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C14C6.5	C14C6.5	C14C6.5 [Source:RefSeq_peptide;Acc:NP_503238]			
nhr-155	C14C6.4	Nuclear Hormone Receptor family member (nhr-155) [Source:RefSeq_peptide;Acc:NP_503239]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
C14C6.3	C14C6.3	C14C6.3 [Source:RefSeq_peptide;Acc:NP_503240]			
C14C6.6	C14C6.6	C14C6.6 [Source:RefSeq_peptide;Acc:NP_503241]			
C14C6.7	C14C6.7	C14C6.7 [Source:RefSeq_peptide;Acc:NP_503242]			
C14C6.8	C14C6.8	C14C6.8 [Source:RefSeq_peptide;Acc:NP_503243]			
srx-8	C14C6.9	Serpentine Receptor, class X family member (srx-8) [Source:RefSeq_peptide;Acc:NP_503244]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-7	C14C6.1	Serpentine Receptor, class X family member (srx-7) [Source:RefSeq_peptide;Acc:NP_503245]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C14C6.2	C14C6.2	C14C6.2 [Source:RefSeq_peptide;Acc:NP_503246]			
sri-73	C14C6.10	Serpentine Receptor, class I family member (sri-73) [Source:RefSeq_peptide;Acc:NP_503247]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
sri-72	C14C6.11				
C14C6.12	C14C6.12	C14C6.12 [Source:RefSeq_peptide;Acc:NP_503248]			
C14C6.13	C14C6.13	C14C6.13 [Source:RefSeq_peptide;Acc:NP_503249]			
K06H6.5	K06H6.5	K06H6.5 [Source:RefSeq_peptide;Acc:NP_503250]			
K06H6.4	K06H6.4	K06H6.4 [Source:RefSeq_peptide;Acc:NP_503251]			
K06H6.3	K06H6.3	K06H6.3 [Source:RefSeq_peptide;Acc:NP_503252]	carbohydrate transport, nucleotide-sugar transport, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
K06H6.6	K06H6.6	K06H6.6 [Source:RefSeq_peptide;Acc:NP_503253]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
K06H6.2	K06H6.2	K06H6.2 [Source:RefSeq_peptide;Acc:NP_503254]			
K06H6.1	K06H6.1	K06H6.1 [Source:RefSeq_peptide;Acc:NP_503255]			protein binding, 
ZK488.6	ZK488.6	ZK488.6 [Source:RefSeq_peptide;Acc:NP_503256]			
ZK488.5	ZK488.5	ZK488.5 [Source:RefSeq_peptide;Acc:NP_503257]			
nhr-251	ZK488.4	Nuclear Hormone Receptor family member (nhr-251) [Source:RefSeq_peptide;Acc:NP_503258]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
pqn-98	ZK488.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			nucleotide binding, 
srw-110	ZK488.8				
srw-109	ZK488.9	Serpentine Receptor, class W family member (srw-109) [Source:RefSeq_peptide;Acc:NP_503261]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZK488.3	ZK488.3				
pqn-97	ZK488.10	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
nhr-90	ZK488.2	Nuclear hormone receptor family member nhr-90. [Source:Uniprot/SWISSPROT;Acc:O17025]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-250	ZK488.1	Nuclear Hormone Receptor family member (nhr-250) [Source:RefSeq_peptide;Acc:NP_503264]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
F48G7.13	F48G7.13	F48G7.13 [Source:RefSeq_peptide;Acc:NP_503265]			
F48G7.4	F48G7.4	F48G7.4 [Source:RefSeq_peptide;Acc:NP_503266]			
F48G7.5	F48G7.5	F48G7.5 [Source:RefSeq_peptide;Acc:NP_503267]	biological_process, 		
srt-17	F48G7.6	Serpentine Receptor, class T family member (srt-17) [Source:RefSeq_peptide;Acc:NP_503268]			
F48G7.7	F48G7.7	F48G7.7 [Source:RefSeq_peptide;Acc:NP_503269]			
F48G7.8	F48G7.8	F48G7.8 [Source:RefSeq_peptide;Acc:NP_503270]			
F48G7.9	F48G7.9	F48G7.9 [Source:RefSeq_peptide;Acc:NP_503271]	intracellular signaling cascade, 		
nhr-83	F48G7.3	Nuclear Hormone Receptor family member (nhr-83) [Source:RefSeq_peptide;Acc:NP_503272]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F48G7.10	F48G7.10	F48G7.10 [Source:RefSeq_peptide;Acc:NP_503273]	intracellular signaling cascade, 		
F48G7.2	F48G7.2	F48G7.2 [Source:RefSeq_peptide;Acc:NP_503274]			
srj-37	F48G7.1	Serpentine Receptor, class J family member (srj-37) [Source:RefSeq_peptide;Acc:NP_503275]			
nhr-190	F48G7.11	Nuclear Hormone Receptor family member (nhr-190) [Source:RefSeq_peptide;Acc:NP_503276]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F48G7.12	F48G7.12	F48G7.12 [Source:RefSeq_peptide;Acc:NP_503277]			
ugt-42	F31F4.7	UDP-GlucuronosylTransferase family member (ugt-42) [Source:RefSeq_peptide;Acc:NP_503278]	metabolic process, 		transferase activity, transferring hexosyl groups, 
srj-5	F31F4.16	Serpentine Receptor, class J family member (srj-5) [Source:RefSeq_peptide;Acc:NP_503279]			
srj-6	F31F4.8	Serpentine Receptor, class J family member (srj-6) [Source:RefSeq_peptide;Acc:NP_503280]			
srh-245	F31F4.9	Serpentine Receptor, class H family member (srh-245) [Source:RefSeq_peptide;Acc:NP_503281]			
srh-246	F31F4.18	Serpentine Receptor, class H family member (srh-246) [Source:RefSeq_peptide;Acc:NP_503282]			
F31F4.17	F31F4.17	F31F4.17 [Source:RefSeq_peptide;Acc:NP_503283]			
srh-101	F31F4.10				
F31F4.11	F31F4.11	F31F4.11 [Source:RefSeq_peptide;Acc:NP_503284]			
srh-266	F31F4.6	Serpentine Receptor, class H family member (srh-266) [Source:RefSeq_peptide;Acc:NP_503285]			
nhr-180	F31F4.12	Nuclear Hormone Receptor family member (nhr-180) [Source:RefSeq_peptide;Acc:NP_503286]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
sru-24	F31F4.13	Serpentine Receptor, class U family member (sru-24) [Source:RefSeq_peptide;Acc:NP_503287]	signal transduction, 	membrane, 	transmembrane receptor activity, 
sru-25	F31F4.14	Serpentine Receptor, class U family member (sru-25) [Source:RefSeq_peptide;Acc:NP_503289]			
fbxa-72	F31F4.15	F-box A protein family member (fbxa-72) [Source:RefSeq_peptide;Acc:NP_503290]			
srx-21	F31F4.4	Serpentine Receptor, class X family member (srx-21) [Source:RefSeq_peptide;Acc:NP_503291]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-22	F31F4.3	Serpentine Receptor, class X family member (srx-22) [Source:RefSeq_peptide;Acc:NP_503292]			
srx-23	F31F4.2	Serpentine Receptor, class X family member (srx-23) [Source:RefSeq_peptide;Acc:NP_503293]			
F31F4.1	F31F4.1	F31F4.1 [Source:RefSeq_peptide;Acc:NP_503294]			
H25P19.1	H25P19.1	H25P19.1 [Source:RefSeq_peptide;Acc:NP_503295]			
srx-4	Y49C4A.5	Serpentine Receptor, class X family member (srx-4) [Source:RefSeq_peptide;Acc:NP_503296]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srj-53	Y49C4A.6	Serpentine Receptor, class J family member (srj-53) [Source:RefSeq_peptide;Acc:NP_503297]			
srj-52	Y49C4A.7				
ugt-29	Y49C4A.8	UDP-GlucuronosylTransferase family member (ugt-29) [Source:RefSeq_peptide;Acc:NP_872148]	metabolic process, 		transferase activity, transferring hexosyl groups, 
srx-5	Y49C4A.4	Serpentine Receptor, class X family member (srx-5) [Source:RefSeq_peptide;Acc:NP_503299]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srbc-37	Y49C4A.3	Serpentine Receptor, class BC (class B-like) family member (srbc-37) [Source:RefSeq_peptide;Acc:NP_503300]			
srbc-38	Y49C4A.2	Serpentine Receptor, class BC (class B-like) family member (srbc-38) [Source:RefSeq_peptide;Acc:NP_503301]		membrane, 	
srbc-39	Y49C4A.1	Serpentine Receptor, class BC (class B-like) family member (srbc-39) [Source:RefSeq_peptide;Acc:NP_503302]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
cyp-33C11	Y49C4A.9	CYtochrome P450 family member (cyp-33C11) [Source:RefSeq_peptide;Acc:NP_503303]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
srbc-40	H24O09.1	Serpentine Receptor, class BC (class B-like) family member (srbc-40) [Source:RefSeq_peptide;Acc:NP_503304]			
fbxb-72	H24O09.2	F-box B protein family member (fbxb-72) [Source:RefSeq_peptide;Acc:NP_503305]	reproduction, 		
gei-7	C05E4.9	gei-7 encodes a predicted isocitrate lyase/malate synthase, an enzyme known to function in the glyoxylate cycle. GEI-7 was identified in a screen for proteins that interact with GEX-3, a homolog of human HEM-2 which is required for embryonic development. GEI-7 is required for embryonic morphogenesis and appears to act downstream of DAF-16 to influence lifespan. [Source: WormBase]	metabolic process, carboxylic acid metabolic process, glyoxylate cycle, determination of adult life span, 		catalytic activity, isocitrate lyase activity, malate synthase activity, 
srh-2	C05E4.14	Serpentine Receptor, class H family member (srh-2) [Source:RefSeq_peptide;Acc:NP_001021364]			
srj-25	C05E4.10	Serpentine Receptor, class J family member (srj-25) [Source:RefSeq_peptide;Acc:NP_503308]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
srj-24	C05E4.11	Serpentine Receptor, class J family member (srj-24) [Source:RefSeq_peptide;Acc:NP_503309]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
C05E4.7	C05E4.7	C05E4.7 [Source:RefSeq_peptide;Acc:NP_503311]			
str-134	C05E4.6	Seven TM Receptor family member (str-134) [Source:RefSeq_peptide;Acc:NP_503312]			
str-133	C05E4.5				
sri-4	C05E4.4	Serpentine Receptor, class I family member (sri-4) [Source:RefSeq_peptide;Acc:NP_503313]			
str-262	C05E4.13	Seven TM Receptor family member (str-262) [Source:RefSeq_peptide;Acc:NP_503314]			
srp-1	C05E4.3	srp-1 encodes an ovalbumin-like serpin (ov-serpin) member of the serine protease inhibitor superfamily. by homology, SRP-1 is predicted to function as a suicide substrate that inhibits the proteolytic activity of serine proteases. however, as loss of srp-1 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of SRP-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
str-20	C05E4.2	Seven TM Receptor family member (str-20) [Source:RefSeq_peptide;Acc:NP_503316]			
C05E4.12	C05E4.12	C05E4.12 [Source:RefSeq_peptide;Acc:NP_503317]			
srp-2	C05E4.1	srp-2 encodes an ovalbumin-like serpin (ov-serpin) member of the serine protease inhibitor superfamily that is orthologous to human NEUROSERPIN (OMIM:602445, mutated in familial encephalopathy with neuroserpin inclusion bodies). SRP-2 is predicted to function as a suicide substrate that inhibits the proteolytic activity of serine proteases, and in vitro, recombinant SRP-2 is able to inhibit granzyme B activity. however, as loss of srp-2 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of SRP-2 in C. elegans development and/or behavior is not yet known. srp-2 expression is detected in hypodermal cells, particularly in the lateral seam cells. [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
str-238	R09E12.4	Seven TM Receptor family member (str-238) [Source:RefSeq_peptide;Acc:NP_503319]			
R09E12.6	R09E12.6	R09E12.6 [Source:RefSeq_peptide;Acc:NP_503320]	embryonic development ending in birth or egg hatching, 		
R09E12.5	R09E12.5	R09E12.5 [Source:RefSeq_peptide;Acc:NP_503321]			
R09E12.3	R09E12.3	R09E12.3 [Source:RefSeq_peptide;Acc:NP_503322]			binding, 
srbc-58	R09E12.2	Serpentine Receptor, class BC (class B-like) family member (srbc-58) [Source:RefSeq_peptide;Acc:NP_503323]			
R09E12.9	R09E12.9	R09E12.9 [Source:RefSeq_peptide;Acc:NP_001033499]			
srbc-59	R09E12.1	Serpentine Receptor, class BC (class B-like) family member (srbc-59) [Source:RefSeq_peptide;Acc:NP_503324]			
srbc-60	R09E12.8	Serpentine Receptor, class BC (class B-like) family member (srbc-60) [Source:RefSeq_peptide;Acc:NP_001024074]			
srab-16	R13D11.6	Serpentine Receptor, class AB (class A-like) family member (srab-16) [Source:RefSeq_peptide;Acc:NP_503325]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srab-15	R13D11.5				
nhr-270	R13D11.8	Nuclear Hormone Receptor family member (nhr-270) [Source:RefSeq_peptide;Acc:NP_503328]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
R13D11.4	R13D11.4	R13D11.4 [Source:RefSeq_peptide;Acc:NP_503329]			catalytic activity, 
R13D11.10	R13D11.10	R13D11.10 [Source:RefSeq_peptide;Acc:NP_503330]			
R13D11.3	R13D11.3	R13D11.3 [Source:RefSeq_peptide;Acc:NP_503331]			
R13D11.1	R13D11.1	R13D11.1 [Source:RefSeq_peptide;Acc:NP_503332]			
srx-32	R13D11.9	Serpentine Receptor, class X family member (srx-32) [Source:RefSeq_peptide;Acc:NP_503333]			
srx-31	F41H8.4	Serpentine Receptor, class X family member (srx-31) [Source:RefSeq_peptide;Acc:NP_001023913]			
srx-30	F41H8.3				
F41H8.2	F41H8.2	F41H8.2 [Source:RefSeq_peptide;Acc:NP_503335]			
F41H8.1	F41H8.1	F41H8.1 [Source:RefSeq_peptide;Acc:NP_503336]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K09C6.7	K09C6.7	K09C6.7 [Source:RefSeq_peptide;Acc:NP_503337]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
K09C6.10	K09C6.10	K09C6.10 [Source:RefSeq_peptide;Acc:NP_001041148]			
K09C6.8	K09C6.8	K09C6.8 [Source:RefSeq_peptide;Acc:NP_503338]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
K09C6.6	K09C6.6	K09C6.6 [Source:RefSeq_peptide;Acc:NP_503339]			
srbc-13	K09C6.5	Serpentine Receptor, class BC (class B-like) family member (srbc-13) [Source:RefSeq_peptide;Acc:NP_503340]			
srbc-12	K09C6.4	Serpentine Receptor, class BC (class B-like) family member (srbc-12) [Source:RefSeq_peptide;Acc:NP_503341]		membrane, 	
K09C6.3	K09C6.3	K09C6.3 [Source:RefSeq_peptide;Acc:NP_503342]			
K09C6.9	K09C6.9	K09C6.9 [Source:RefSeq_peptide;Acc:NP_503343]			
K09C6.2	K09C6.2	K09C6.2 [Source:RefSeq_peptide;Acc:NP_503344]			
K09C6.t1	K09C6.t1				
K09C6.1	K09C6.1	K09C6.1 [Source:RefSeq_peptide;Acc:NP_503345]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
T02B11.3	T02B11.3	T02B11.3a [Source:RefSeq_peptide;Acc:NP_503346]			
T02B11.4	T02B11.4	T02B11.4 [Source:RefSeq_peptide;Acc:NP_503347]			
str-53	T02B11.2				
T02B11.9	T02B11.9	T02B11.9 [Source:RefSeq_peptide;Acc:NP_001041158]			
T02B11.8	T02B11.8	T02B11.8 [Source:RefSeq_peptide;Acc:NP_001041157]			
srg-53	T02B11.1	Serpentine receptor class gamma-53 (Protein srg-53). [Source:Uniprot/SWISSPROT;Acc:O16974]			
srj-38	T02B11.5	Serpentine receptor class J-38 (Protein srj-38). [Source:Uniprot/SWISSPROT;Acc:O16975]			
T02B11.6	T02B11.6	T02B11.6 [Source:RefSeq_peptide;Acc:NP_503350]	transport, 	integral to membrane, 	transporter activity, 
nas-32	T02B11.7	Zinc metalloproteinase nas-32 precursor (EC 3.4.24.21) (Nematode astacin 32). [Source:Uniprot/SWISSPROT;Acc:O16977]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
fmo-5	H24K24.5	fmo-5 encodes a flavin-containing monoxygenase homologous to human FMO1, FMO2, and FMO3 (OMIM:602079, mutated in trimethylaminuria). [Source: WormBase]	electron transport, 	microsome, 	oxidoreductase activity, monooxygenase activity, flavin-containing monooxygenase activity, 
H24K24.4	H24K24.4	H24K24.4 [Source:RefSeq_peptide;Acc:NP_503353]			nucleotide binding, nucleic acid binding, 
H24K24.3	H24K24.3	Alcohol dehydrogenase class 3 (EC 1.1.1.1) (Alcohol dehydrogenase class III) (S-(hydroxymethyl)glutathione dehydrogenase) (EC 1.1.1.284) (Glutathione-dependent formaldehyde dehydrogenase) (FDH) (FALDH). [Source:Uniprot/SWISSPROT;Acc:Q17335]	alcohol metabolic process, 	cytoplasm, 	zinc ion binding, oxidoreductase activity, alcohol dehydrogenase activity, zinc-dependent, formaldehyde dehydrogenase (glutathione) activity, 
H24K24.2	H24K24.2	H24K24.2 [Source:RefSeq_peptide;Acc:NP_503355]			protein binding, 
Y50D4C.2	Y50D4C.2	Y50D4C.2 [Source:RefSeq_peptide;Acc:NP_503357]			protein binding, zinc ion binding, oxidoreductase activity, catalytic activity, 
Y50D4C.3	Y50D4C.3	Y50D4C.3 [Source:RefSeq_peptide;Acc:NP_503358]	mRNA processing, spliceosome assembly, 	cytoplasm, nucleus, 	RNA binding, nucleic acid binding, 
Y50D4C.6	Y50D4C.6	Y50D4C.6 [Source:RefSeq_peptide;Acc:NP_741508]			
sqv-6	Y50D4C.4	sqv-6 encodes a xylosyltransferase, active in cell culture, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. SQV-6 is predicted to begin the synthesis of glycosaminoglycans by adding xylose to their protein cores. the common requirement for SQV-6 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	embryonic cleavage, 	membrane, 	acetylglucosaminyltransferase activity, 
unc-34	Y50D4C.1	unc-34 encodes an EVH1 domain-containing protein that is the sole C. elegans Enabled/VASP homolog. during development, unc-34 activity is required for proper cell migration and axon guidance and for normal locomotion and posterior body morphology. in regulating axon guidance, genetic analyses suggest that unc-34 likely functions downstream of slt-1/Slit and sax-3/Robo as well as unc-6/Netrin and unc-40/DCC, but in parallel to Rac GTPases and mig-15/NIK. in addition, UNC-34 binds MIG-10/RIAM/Lamellipodin in vitro, suggesting that UNC-34 functions as a link between external guidance cues and axon outgrowth. a functional UNC-34::GFP fusion protein localizes to the tips of filopodia in both dorsal and ventral domains of the HSN neuron. [Source: WormBase]	cell adhesion, cell migration, 	extracellular region, actin cytoskeleton, 	structural molecule activity, hormone activity, structural constituent of cell wall, 
Y50D4C.5	Y50D4C.5	Y50D4C.5 [Source:RefSeq_peptide;Acc:NP_503361]			
ergo-1	R09A1.1	Endogenous-RNAi deficient arGOnaute family member (ergo-1) [Source:RefSeq_peptide;Acc:NP_503362]			
R09A1.2	R09A1.2	R09A1.2 [Source:RefSeq_peptide;Acc:NP_503363]			protein binding, 
R09A1.3	R09A1.3	R09A1.3 [Source:RefSeq_peptide;Acc:NP_503364]			
R09A1.5	R09A1.5	R09A1.5 [Source:RefSeq_peptide;Acc:NP_503365]			
C02E11.1	C02E11.1	C02E11.1a [Source:RefSeq_peptide;Acc:NP_503367]			
K10C9.4	K10C9.4	K10C9.4 [Source:RefSeq_peptide;Acc:NP_503368]	ATP synthesis coupled electron transport, 		NADH dehydrogenase (ubiquinone) activity, 
K10C9.9	K10C9.9	K10C9.9 [Source:RefSeq_peptide;Acc:NP_001033497]			
str-224	K10C9.8	Seven TM Receptor family member (str-224) [Source:RefSeq_peptide;Acc:NP_503369]			
K10C9.3	K10C9.3	K10C9.3 [Source:RefSeq_peptide;Acc:NP_503370]			RNA binding, endoribonuclease activity, 
str-67	K10C9.6	Seven TM Receptor family member (str-67) [Source:RefSeq_peptide;Acc:NP_503371]			
K10C9.7	K10C9.7	K10C9.7 [Source:RefSeq_peptide;Acc:NP_503372]			
K10C9.1	K10C9.1	K10C9.1 [Source:RefSeq_peptide;Acc:NP_503373]			
Y50D4B.7	Y50D4B.7	Y50D4B.7 [Source:RefSeq_peptide;Acc:NP_503374]			
Y50D4B.6	Y50D4B.6	Y50D4B.6 [Source:RefSeq_peptide;Acc:NP_503375]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y50D4B.5	Y50D4B.5	Y50D4B.5 [Source:RefSeq_peptide;Acc:NP_503376]			sugar binding, 
Y50D4B.4	Y50D4B.4	Y50D4B.4 [Source:RefSeq_peptide;Acc:NP_503377]			
Y50D4B.3	Y50D4B.3	PAW domain-containing protein Y50D4B.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q966B0]			
Y50D4B.2	Y50D4B.2	Y50D4B.2 [Source:RefSeq_peptide;Acc:NP_503379]			
Y50D4B.1	Y50D4B.1	Y50D4B.1 [Source:RefSeq_peptide;Acc:NP_503380]			
W07B8.3	W07B8.3	W07B8.3 [Source:RefSeq_peptide;Acc:NP_503381]			protein binding, 
W07B8.4	W07B8.4	W07B8.4 [Source:RefSeq_peptide;Acc:NP_503382]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
cpr-5	W07B8.5	cpr-5 encodes a cysteine protease. [Source: WormBase]	proteolysis, 		cysteine-type peptidase activity, protein binding, cysteine-type endopeptidase activity, 
W07B8.1	W07B8.1	W07B8.1 [Source:RefSeq_peptide;Acc:NP_503384]	proteolysis, 		cysteine-type peptidase activity, 
T21H3.4	T21H3.4	T21H3.4 [Source:RefSeq_peptide;Acc:NP_503385]			
cmd-1	T21H3.3	cmd-1 encodes a putative homolog of calmodulin 1 that affects growth rate and fertility. [Source: WormBase]	ciliary or flagellar motility, embryonic development, positive regulation of growth rate, 	flagellin-based flagellum, 	protein binding, calcium ion binding, 
T21H3.5	T21H3.5	T21H3.5 [Source:RefSeq_peptide;Acc:NP_503387]	embryonic development ending in birth or egg hatching, 		
ptr-16	T21H3.2	ptr-16 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-16 is partially required for normal molting from L2 to L3 larval stages. however, PTR-16 and PTR-1 together are strongly required for both molting and viability, with double ptr-1/-16 RNAi animals showing pronounced molting defects and lethality. PTR-16 is also required for normal growth to full size and locomotion. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
T21H3.1	T21H3.1	T21H3.1a [Source:RefSeq_peptide;Acc:NP_001024152]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
F25A2.1	F25A2.1	F25A2.1 [Source:RefSeq_peptide;Acc:NP_503390]	lipid metabolic process, 		triacylglycerol lipase activity, 
Y50D4A.3	Y50D4A.3	Y50D4A.3 [Source:RefSeq_peptide;Acc:NP_503391]	chitin catabolic process, cell wall catabolic process, 		chitinase activity, 
Y50D4A.4	Y50D4A.4	Y50D4A.4 [Source:RefSeq_peptide;Acc:NP_503392]			
Y50D4A.2	Y50D4A.2	Y50D4A.2 [Source:RefSeq_peptide;Acc:NP_503393]			
Y50D4A.5	Y50D4A.5	Y50D4A.5 [Source:RefSeq_peptide;Acc:NP_001024252]			
Y50D4A.1	Y50D4A.1	Y50D4A.1a [Source:RefSeq_peptide;Acc:NP_001041196]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
C39F7.2	C39F7.2	C39F7.2 [Source:RefSeq_peptide;Acc:NP_503395]		intracellular, 	protein binding, zinc ion binding, 
C39F7.1	C39F7.1	C39F7.1 [Source:RefSeq_peptide;Acc:NP_503396]	positive regulation of growth rate, 		
rab-1	C39F7.4	rab-1 encodes an ortholog of the small Ras-like GTPase Rab1. by homology, RAB-1 is predicted to play a role in intracellular vesicle trafficking, and consistent with this broad role, large-scale RNAi screens indicate that rab-1 activity is required for fertility, movement, and survival. in yeast two-hybrid assays, RAB-1 interacts with TIR-1, a C. elegans SARM ortholog that is required for innate immunity. RNAi studies suggest that RAB-1 and TIR-1 likely function in a pathway that controls expression of antimicrobial peptides such as NLP-29 and NLP-31. rab-1 also appears to play a role in regulating polyglutamine protein aggregation, as rab-1(RNAi) animals show premature accumulation of protein aggregates. in situ hybridization studies indicate that rab-1 is broadly expressed, with elevated levels apparent in the germline. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, regulation of transcription, DNA-dependent, biological_process, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, transcription factor binding, 
C39F7.5	C39F7.5	C39F7.5 [Source:RefSeq_peptide;Acc:NP_503398]			protein binding, 
Y75B7B.1	Y75B7B.1	Y75B7B.1 [Source:RefSeq_peptide;Acc:NP_503399]			
Y75B7B.2	Y75B7B.2	Y75B7B.2 [Source:RefSeq_peptide;Acc:NP_503400]			
pme-5	ZK1005.1	pme-5 encodes an ortholog of human tankyrase 1 (TNKS. OMIM:603303) and tankyrase 2 (TNKS2. OMIM: 607128), but structurally is more similar to the ADPRT-3 tankyrase of Dictyostelium discoideum. as in other tankyrases, PME-5's N-terminal region has extensive ankyrin domains, probably binding other proteins, and its C-terminal region has poly (ADP-ribose) polymerase (PARP) regulatory and catalytic domains. PME-5 is predicted to be nuclear. X-ray-induced apoptosis of germ cells is slightly increased in pme-5(RNAi) animals. DNA damage induces pme-5 expression, and this induction absolutely requires HUS-1. [Source: WormBase]	protein amino acid ADP-ribosylation, 	nucleus, 	NAD+ ADP-ribosyltransferase activity, 
egl-2	F16B3.1	egl-2 encodes a voltage-gated potassium channel that affects egg laying, muscle activation, defecation, mechanosensation, and chemosensation. expressed in the intestinal muscle, AFD, ALN, AQR, ASE, AWC, BAG, IL2, PLN, PQR, and URX neurons as well as a subset of sensory neurons in the male tail. [Source: WormBase]	signal transduction, ion transport, regulation of transcription, DNA-dependent, potassium ion transport, two-component signal transduction system (phosphorelay), oviposition, 	membrane, 	ion channel activity, signal transducer activity, voltage-gated potassium channel activity, two-component sensor activity, 
F16B3.2	F16B3.2	F16B3.2 [Source:RefSeq_peptide;Acc:NP_503403]			
F16B3.3	F16B3.3	F16B3.3 [Source:RefSeq_peptide;Acc:NP_001041099]			
Y75B7AL.2	Y75B7AL.2	Y75B7AL.2 [Source:RefSeq_peptide;Acc:NP_503404]			
Y75B7AL.1	Y75B7AL.1	Y75B7AL.1 [Source:RefSeq_peptide;Acc:NP_503405]	G-protein coupled receptor protein signaling pathway, oxygen transport, 	integral to membrane, 	iron ion binding, heme binding, rhodopsin-like receptor activity, oxygen binding, 
snt-3	Y75B7AL.3	SyNapTotagmin family member (snt-3) [Source:RefSeq_peptide;Acc:NP_503406]	transport, 	membrane, synaptic vesicle, 	transporter activity, 
rga-4	Y75B7AL.4	Rho GTPase Activating protein family member (rga-4) [Source:RefSeq_peptide;Acc:NP_001041202]	signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	
cnc-4	R09B5.9	cnc-4 encodes one of six C. elegans caenacin peptides. cnc-4 expression is strongly induced after infection by the fungus Drechmeria coniospora, suggesting that it functions as a secreted antimicrobial peptide in the innate immune response. [Source: WormBase]			
Y75B7AR.1	Y75B7AR.1	Y75B7AR.1 [Source:RefSeq_peptide;Acc:NP_503408]			
snt-5	R12A1.2	SyNapTotagmin family member (snt-5) [Source:RefSeq_peptide;Acc:NP_503409]	transport, 	membrane, synaptic vesicle, 	transporter activity, 
R12A1.3	R12A1.3	R12A1.3 [Source:RefSeq_peptide;Acc:NP_503410]			serine-type endopeptidase inhibitor activity, protease inhibitor activity, 
ges-1	R12A1.4	ges-1 encodes a gut-specific type B carboxylesterase. by homology, GES-1 hydrolyzes carboxylic ester substrates to yield an alcohol and a carboxylic anion, however, loss of GES-1 activity via mutation or RNAi does not result in any obvious abnormalities. GES-1 is expressed solely in the intestinal, or E, lineage from the 4 E-cell stage of gut development through adulthood. GES-1 contains a C-terminal endoplasmic reticulum (ER) retention sequence, KDEL, which suggests that it localizes to the ER lumen. GES-1 expression in the gut appears to be positively regulated by ELT-2, a gut-specific GATA-type transcription factor expressed throughout the C. elegans life cycle and essential for normal gut development. [Source: WormBase]	determination of adult life span, 	endoplasmic reticulum, 	cholinesterase activity, 
fbxa-195	R09B5.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
R09B5.11	R09B5.11	R09B5.11 [Source:RefSeq_peptide;Acc:NP_503413]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, glucose transmembrane transporter activity, 
cnc-11	R09B5.13	CaeNaCin (Caenorhabditis bacteriocin) family member (cnc-11) [Source:RefSeq_peptide;Acc:NP_001076747]			
cnc-1	R09B5.2	cnc-1 encodes one of six C. elegans caenacin peptides. CNC-1 is predicted to be a secreted protein that, based upon similarity to CNC-2, -4, and -6, may function as an antimicrobial peptide in the innate immune response. [Source: WormBase]			
cnc-5	R09B5.10	cnc-5 encodes one of six C. elegans caenacin peptides. CNC-5 is predicted to be a secreted protein that, based upon similarity to CNC-2, -4, and -6, may function as an antimicrobial peptide in the innate immune response. [Source: WormBase]			
cnc-3	R09B5.8	cnc-3 encodes one of six C. elegans caenacin peptides. CNC-3 is predicted to be a secreted protein that, based upon similarity to CNC-2, -4, and -6, may function as an antimicrobial peptide in the innate immune response. [Source: WormBase]			
cnc-2	R09B5.3	cnc-2 encodes one of six C. elegans caenacin peptides. cnc-2 expression is strongly induced after infection by the fungus Drechmeria coniospora and the gram-negative bacteria Serratia marcescens, suggesting that it functions as a secreted antimicrobial peptide in the innate immune response. [Source: WormBase]			
srj-23	R09B5.7	Serpentine Receptor, class J family member (srj-23) [Source:RefSeq_peptide;Acc:NP_001024073]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
R09B5.12	R09B5.12	R09B5.12 [Source:RefSeq_peptide;Acc:NP_503420]	chitin catabolic process, 		chitinase activity, 
hacd-1	R09B5.6	Hydroxy-Acyl-CoA Dehydrogenase family member (hacd-1) [Source:RefSeq_peptide;Acc:NP_503421]	fatty acid metabolic process, 		protein binding, oxidoreductase activity, 
R09B5.4	R09B5.4	R09B5.4 is orthologous to the human gene HYPOTHETICAL PROTEIN (SLC11A3. OMIM:604653), which when mutated leads to disease. [Source: WormBase]			
pqn-54	R09B5.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, identical protein binding, 
tag-304	F53E2.1	Temporarily Assigned Gene name family member (tag-304) [Source:RefSeq_peptide;Acc:NP_503424]			
unc-60	C38C3.5	unc-60 encodes orthologs of actin depolymerizing factor/cofilin, actin-binding proteins that regulate actin filament dynamics. one UNC-60 isoform, UNC-60A, primarily binds G-actin, depolymerizes actin filaments, and inhibits actin polymerization. UNC-60A is essential during early embryonic development for polar body extrusion, cytokinesis, and embryonic patterning. UNC-60B, which does not inhibit actin polymerization, binds F- and G-actin and influences the rate of actin polymerization by the UNC-60B:actin ratio. UNC-60B is required for actin filament organization in body wall muscle, locomotion, and for efficient actin filament disassembly by UNC-78, an actin interactin protein 1 (AIP1) ortholog. UNC-60A and UNC-60B are differentially expressed: UNC-60A is found in oocytes, embryos, and the adult gonad and intestine, while UNC-60B is found in body wall muscle, the vulva, and spermatheca. [Source: WormBase]	embryonic development, biological_process, 	intracellular, 	actin binding, 
C38C3.4	C38C3.4	C38C3.4b [Source:RefSeq_peptide;Acc:NP_001023703]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C38C3.6	C38C3.6	C38C3.6 [Source:RefSeq_peptide;Acc:NP_503429]			
C38C3.10	C38C3.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8Q8]			
C38C3.3	C38C3.3	C38C3.3 (C38C3.3) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_071029]			
sru-27	C38C3.2	Serpentine Receptor, class U family member (sru-27) [Source:RefSeq_peptide;Acc:NP_503431]			
C38C3.7	C38C3.7	C38C3.7 [Source:RefSeq_peptide;Acc:NP_503432]			
C38C3.8	C38C3.8	C38C3.8 [Source:RefSeq_peptide;Acc:NP_503433]			
sru-28	C38C3.1	Serpentine Receptor, class U family member (sru-28) [Source:RefSeq_peptide;Acc:NP_503434]			
nhr-260	C38C3.9	Nuclear Hormone Receptor family member (nhr-260) [Source:RefSeq_peptide;Acc:NP_503435]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
K02H11.8	K02H11.8				
str-240	K02H11.2	Seven TM Receptor family member (str-240) [Source:RefSeq_peptide;Acc:NP_503436]	locomotory behavior, 		
str-243	K02H11.7	Seven TM Receptor family member (str-243) [Source:RefSeq_peptide;Acc:NP_503437]			
str-239	K02H11.1				
str-236	K02H11.3	Seven TM Receptor family member (str-236) [Source:RefSeq_peptide;Acc:NP_503438]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
K02H11.4	K02H11.4	K02H11.4 [Source:RefSeq_peptide;Acc:NP_503439]			
str-216	K02H11.5				
K02H11.6	K02H11.6	K02H11.6 [Source:RefSeq_peptide;Acc:NP_503440]	cell redox homeostasis, 		oxidoreductase activity, antioxidant activity, 
K02H11.9	K02H11.9	K02H11.9 [Source:RefSeq_peptide;Acc:NP_741509]			
F52F10.3	F52F10.3	F52F10.3 [Source:RefSeq_peptide;Acc:NP_503441]			transferase activity, transferring groups other than amino-acyl groups, 
F52F10.4	F52F10.4	F52F10.4 [Source:RefSeq_peptide;Acc:NP_503442]			transferase activity, transferring groups other than amino-acyl groups, 
F52F10.2	F52F10.2	F52F10.2 [Source:RefSeq_peptide;Acc:NP_503443]	macromolecule biosynthetic process, 		magnesium ion binding, phosphopantetheinyltransferase activity, 
srsx-8	F52F10.5	Serpentine Receptor, class SX family member (srsx-8) [Source:RefSeq_peptide;Acc:NP_503444]			
F52F10.1	F52F10.1	F52F10.1 [Source:RefSeq_peptide;Acc:NP_503445]			
cdc-25.2	F16B4.8	cdc-25.2 encodes a putative homolog of Cdc25 phosphatase protein family that affects germline proliferation. [Source: WormBase]	protein amino acid dephosphorylation, M phase of mitotic cell cycle, positive regulation of growth rate, 	intracellular, 	protein tyrosine phosphatase activity, 
F16B4.7	F16B4.7	F16B4.7 [Source:RefSeq_peptide;Acc:NP_503447]			
F16B4.6	F16B4.6	F16B4.6 [Source:RefSeq_peptide;Acc:NP_503448]	positive regulation of growth rate, 		cofactor binding, acyl carrier activity, 
F16B4.5	F16B4.5	F16B4.5b [Source:RefSeq_peptide;Acc:NP_503449]	protein homooligomerization, 	membrane, 	
F16B4.4	F16B4.4	F16B4.4 [Source:RefSeq_peptide;Acc:NP_503451]	protein homooligomerization, 	membrane, 	
F16B4.3	F16B4.3	F16B4.3 [Source:RefSeq_peptide;Acc:NP_503452]			
F16B4.2	F16B4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
nhr-178	F16B4.9	Nuclear Hormone Receptor family member (nhr-178) [Source:RefSeq_peptide;Acc:NP_503454]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-177	F16B4.1	Nuclear Hormone Receptor family member (nhr-177) [Source:RefSeq_peptide;Acc:NP_503455]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srbc-41	F16B4.10	Serpentine Receptor, class BC (class B-like) family member (srbc-41) [Source:RefSeq_peptide;Acc:NP_503456]		membrane, 	G-protein coupled receptor activity, 
nhr-179	F16B4.11	Nuclear Hormone Receptor family member (nhr-179) [Source:RefSeq_peptide;Acc:NP_503457]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-117	F16B4.12	Nuclear Hormone Receptor family member (nhr-117) [Source:RefSeq_peptide;Acc:NP_741511]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-110	Y46H3D.5	nhr-110 encodes a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-237	Y46H3D.6	Nuclear Hormone Receptor family member (nhr-237) [Source:RefSeq_peptide;Acc:NP_503460]	regulation of transcription, DNA-dependent, beta-lactam antibiotic catabolic process, response to antibiotic, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, beta-lactamase activity, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-238	Y46H3D.7	Nuclear Hormone Receptor family member (nhr-238) [Source:RefSeq_peptide;Acc:NP_503461]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y46H3D.8	Y46H3D.8	Y46H3D.8 [Source:RefSeq_peptide;Acc:NP_503462]			
Y46H3D.4	Y46H3D.4	Y46H3D.4 [Source:RefSeq_peptide;Acc:NP_503463]		membrane, 	
str-222	Y46H3D.3	Seven TM Receptor family member (str-222) [Source:RefSeq_peptide;Acc:NP_503464]			
str-221	Y46H3D.2	Seven TM Receptor family member (str-221) [Source:RefSeq_peptide;Acc:NP_503465]			
Y46H3D.1	Y46H3D.1	Y46H3D.1 [Source:RefSeq_peptide;Acc:NP_503466]			
alh-2	K04F1.15	ALdehyde deHydrogenase family member (alh-2) [Source:RefSeq_peptide;Acc:NP_503467]	metabolic process, 		oxidoreductase activity, 
K04F1.14	K04F1.14	K04F1.14a [Source:RefSeq_peptide;Acc:NP_001024028]		membrane, 	
K04F1.13	K04F1.13	K04F1.13 [Source:RefSeq_peptide;Acc:NP_503469]		membrane, 	
K04F1.12	K04F1.12	K04F1.12 [Source:RefSeq_peptide;Acc:NP_503470]		membrane, 	
K04F1.1	K04F1.1	K04F1.1 [Source:RefSeq_peptide;Acc:NP_503471]			transferase activity, transferring phosphorus-containing groups, kinase activity, 
K04F1.11	K04F1.11	K04F1.11 [Source:RefSeq_peptide;Acc:NP_503472]		membrane, 	
K04F1.10	K04F1.10	K04F1.10 [Source:RefSeq_peptide;Acc:NP_503473]		membrane, 	calcium ion binding, 
K04F1.9	K04F1.9	K04F1.9 [Source:RefSeq_peptide;Acc:NP_503474]			
K04F1.8	K04F1.8	K04F1.8 [Source:RefSeq_peptide;Acc:NP_503475]			
K04F1.7	K04F1.7	K04F1.7 [Source:RefSeq_peptide;Acc:NP_503476]		membrane, 	
K04F1.6	K04F1.6	K04F1.6 [Source:RefSeq_peptide;Acc:NP_503477]		membrane, 	
srw-96	K04F1.2	Serpentine Receptor, class W family member (srw-96) [Source:RefSeq_peptide;Acc:NP_503478]	cation transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, rhodopsin-like receptor activity, 
srw-98	K04F1.3	Serpentine Receptor, class W family member (srw-98) [Source:RefSeq_peptide;Acc:NP_503479]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-91	K04F1.4	Serpentine Receptor, class W family member (srw-91) [Source:RefSeq_peptide;Acc:NP_503480]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-3	K04F1.5	Serpentine Receptor, class H family member (srh-3) [Source:RefSeq_peptide;Acc:NP_503481]			
srh-5	K04F1.16	Serpentine Receptor, class H family member (srh-5) [Source:RefSeq_peptide;Acc:NP_503482]			
Y46H3C.4	Y46H3C.4	Y46H3C.4 [Source:RefSeq_peptide;Acc:NP_503483]	DNA metabolic process, DNA topological change, embryonic development ending in birth or egg hatching, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
Y46H3C.5	Y46H3C.5	Y46H3C.5 [Source:RefSeq_peptide;Acc:NP_503484]			
Y46H3C.7	Y46H3C.7	Y46H3C.7 [Source:RefSeq_peptide;Acc:NP_001024248]			
Y46H3C.6	Y46H3C.6	Y46H3C.6 [Source:RefSeq_peptide;Acc:NP_503485]			
srw-90	Y46H3C.3	Serpentine Receptor, class W family member (srw-90) [Source:RefSeq_peptide;Acc:NP_503486]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-99	Y46H3C.2	Serpentine Receptor, class W family member (srw-99) [Source:RefSeq_peptide;Acc:NP_503487]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-100	Y46H3C.1	Serpentine Receptor, class W family member (srw-100) [Source:RefSeq_peptide;Acc:NP_503488]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-103	ZK697.5	Serpentine Receptor, class W family member (srw-103) [Source:RefSeq_peptide;Acc:NP_503489]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-102	ZK697.12	Serpentine Receptor, class W family member (srw-102) [Source:RefSeq_peptide;Acc:NP_001024316]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-101	ZK697.13	Serpentine Receptor, class W family member (srw-101) [Source:RefSeq_peptide;Acc:NP_001024317]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sri-27	ZK697.4	Serpentine Receptor, class I family member (sri-27) [Source:RefSeq_peptide;Acc:NP_503490]			
ZK697.3	ZK697.3	ZK697.3 [Source:RefSeq_peptide;Acc:NP_503491]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
gst-21	ZK697.6	Glutathione S-Transferase family member (gst-21) [Source:RefSeq_peptide;Acc:NP_503492]			
str-160	ZK697.10	Seven TM Receptor family member (str-160) [Source:RefSeq_peptide;Acc:NP_503493]			
srab-25	ZK697.7	Serpentine Receptor, class AB (class A-like) family member (srab-25) [Source:RefSeq_peptide;Acc:NP_503494]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
nhr-256	ZK697.2	Nuclear Hormone Receptor family member (nhr-256) [Source:RefSeq_peptide;Acc:NP_503495]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK697.8	ZK697.8	Putative transthyretin-like protein ZK697.8 precursor. [Source:Uniprot/SWISSPROT;Acc:O44578]	transport, 		steroid binding, 
srh-199	ZK697.11	Serpentine Receptor, class H family member (srh-199) [Source:RefSeq_peptide;Acc:NP_503497]			
ZK697.1	ZK697.1	ZK697.1 [Source:RefSeq_peptide;Acc:NP_503498]			
ZK697.14	ZK697.14	ZK697.14 [Source:RefSeq_peptide;Acc:NP_001024318]	metabolic process, 		oxidoreductase activity, 
Y46H3B.2	Y46H3B.2	Y46H3B.2 [Source:RefSeq_peptide;Acc:NP_503499]			sugar binding, 
Y46H3B.1	Y46H3B.1	Y46H3B.1 [Source:RefSeq_peptide;Acc:NP_503500]			sugar binding, 
dhs-13	F36H9.3	dhs-13 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F36H9.8	F36H9.8	F36H9.8 [Source:RefSeq_peptide;Acc:NP_872221]			
F36H9.7	F36H9.7	F36H9.7 [Source:RefSeq_peptide;Acc:NP_503502]			
F36H9.4	F36H9.4	F36H9.4 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. F36H9.4 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. F36H9.4 has no obvious function in mass RNAi assays. [Source: WormBase]			
F36H9.5	F36H9.5	F36H9.5 [Source:RefSeq_peptide;Acc:NP_503503]			
F36H9.2	F36H9.2	F36H9.2 [Source:RefSeq_peptide;Acc:NP_503504]		membrane, 	transmembrane receptor protein serine/threonine kinase activity, transforming growth factor beta receptor activity, 
F36H9.1	F36H9.1	F36H9.1 [Source:RefSeq_peptide;Acc:NP_503505]		membrane, 	transmembrane receptor protein serine/threonine kinase activity, transforming growth factor beta receptor activity, 
srt-41	F36H9.6	Serpentine Receptor, class T family member (srt-41) [Source:RefSeq_peptide;Acc:NP_503506]			
hsp-16.2	Y46H3A.3	hsp-16.2 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins. hsp-16.2 expression, strongest in intestine and pharynx, is induced in response to heat shock or other environmental stresses. HSP-16.2 has been shown to interact with intracellular human beta amyloid peptide, a primary component of the extracellular plaques found in Alzheimer's disease. HSP-16.2 is likely to function as a passive ligand temporarily preventing unfolded proteins from aggregating. [Source: WormBase]	determination of adult life span, unfolded protein response, 		structural constituent of eye lens, 
hsp-16.41	Y46H3A.2	hsp-16.41 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins. an hsp-16.41 reporter fusion, expressed broadly but strongest in intestine and pharynx, is induced in response to heat shock or other environmental stresses. expression is detectable in somatic tissues in post-gastrulation embryos, all larval stages, and in adults. HSP-16.41 is likely to function as a passive ligand temporarily preventing unfolded proteins from aggregating. [Source: WormBase]	unfolded protein response, 		structural constituent of eye lens, 
srt-42	Y46H3A.1	Serpentine Receptor, class T family member (srt-42) [Source:RefSeq_peptide;Acc:NP_001024245]			
Y46H3A.4	Y46H3A.4	Y46H3A.4 [Source:RefSeq_peptide;Acc:NP_503510]	lipid metabolic process, 		triacylglycerol lipase activity, 
Y46H3A.5	Y46H3A.5	Y46H3A.5 [Source:RefSeq_peptide;Acc:NP_503511]			
gly-7	Y46H3A.6	gly-7 encodes an N-acetylgalactosaminyltransferase that exhibits activity when expressed in COS7 cells. [Source: WormBase]			
Y46H3A.7	Y46H3A.7	Y46H3A.7 [Source:RefSeq_peptide;Acc:NP_001024247]			
Y32G9B.1	Y32G9B.1	Y32G9B.1 [Source:RefSeq_peptide;Acc:NP_503513]	reproduction, 		
T10B5.8	T10B5.8	T10B5.8 [Source:RefSeq_peptide;Acc:NP_503516]			oxidoreductase activity, catalytic activity, FMN binding, 
T10B5.7	T10B5.7	T10B5.7 [Source:RefSeq_peptide;Acc:NP_503517]	lipid metabolic process, 		triacylglycerol lipase activity, 
T10B5.2	T10B5.2	T10B5.2 [Source:RefSeq_peptide;Acc:NP_872237]			
T10B5.10	T10B5.10	T10B5.10 [Source:RefSeq_peptide;Acc:NP_503518]			
T10B5.3	T10B5.3	T10B5.3 [Source:RefSeq_peptide;Acc:NP_503519]	positive regulation of growth rate, 		
knl-3	T10B5.6	knl-3 encodes a novel protein. KNL-3 activity is essential for formation of a functional kinetochore and thus, for proper chromosome segregation and spindle pole separation. KNL-3 localizes to kinetochores throughout mitosis and this localization requires the activity of HCP-4 (CENP-C), a conserved kinetochore component that likely directs kinetochore assembly. KNL-3 copurifies with a group of 10 closely interacting kinetochore proteins that includes KNL-1, NDC-80, MIS-12, HIM-10, and KBP-1, -2, -3, -4, and-5. KNL-3 also copurifies with HCP-4(CENP-C). [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T10B5.4	T10B5.4	T10B5.4 [Source:RefSeq_peptide;Acc:NP_503521]	metabolic process, 		N-acetyltransferase activity, 
T10B5.5	T10B5.5	T10B5.5a [Source:RefSeq_peptide;Acc:NP_503522]	protein folding, cellular protein metabolic process, embryonic development ending in birth or egg hatching, 		ATP binding, protein binding, unfolded protein binding, 
Y32G9A.8	Y32G9A.8	Y32G9A.8 [Source:RefSeq_peptide;Acc:NP_503523]			
Y32G9A.6	Y32G9A.6	Y32G9A.6 [Source:RefSeq_peptide;Acc:NP_503525]			calcium ion binding, 
Y32G9A.5	Y32G9A.5	Y32G9A.5 [Source:RefSeq_peptide;Acc:NP_503527]			
srp-3	Y32G9A.4	srp-3 encodes a functional serpin (serine protease inhibitor) [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
Y32G9A.11	Y32G9A.11	Y32G9A.11 [Source:RefSeq_peptide;Acc:NP_741513]			
Y32G9A.3	Y32G9A.3	Y32G9A.3 [Source:RefSeq_peptide;Acc:NP_503529]			
Y32G9A.10	Y32G9A.10	Y32G9A.10 [Source:RefSeq_peptide;Acc:NP_503530]			
Y32G9A.13	Y32G9A.13	Y32G9A.13 [Source:RefSeq_peptide;Acc:NP_001033509]			
Y32G9A.12	Y32G9A.12	Y32G9A.12 [Source:RefSeq_peptide;Acc:NP_001033508]			
Y32G9A.2	Y32G9A.2	Y32G9A.2 [Source:RefSeq_peptide;Acc:NP_503531]			
gst-37	Y32G9A.1	Glutathione S-Transferase family member (gst-37) [Source:RefSeq_peptide;Acc:NP_503532]			catalytic activity, 
T06A1.1	T06A1.1	T06A1.1 [Source:RefSeq_peptide;Acc:NP_503533]			
T06A1.5	T06A1.5	T06A1.5 [Source:RefSeq_peptide;Acc:NP_503534]			
T06A1.4	T06A1.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFE5]	oxygen transport, positive regulation of growth rate, 		iron ion binding, heme binding, oxygen binding, 
srj-16	T06A1.2	Serpentine Receptor, class J family member (srj-16) [Source:RefSeq_peptide;Acc:NP_503537]			
T06A1.6	T06A1.6				
fipr-25	T06A1.7	T06A1.7 [Source:RefSeq_peptide;Acc:NP_001033502]			
Y40B10B.1	Y40B10B.1	Y40B10B.1 [Source:RefSeq_peptide;Acc:NP_503538]			
srj-15	Y40B10B.2	Serpentine Receptor, class J family member (srj-15) [Source:RefSeq_peptide;Acc:NP_503539]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	thyrotropin-releasing hormone receptor activity, 
T08B1.6	T08B1.6	T08B1.6 [Source:RefSeq_peptide;Acc:NP_503540]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, 
fbxa-201	T08B1.5	T08B1.5 [Source:RefSeq_peptide;Acc:NP_503541]			
T08B1.4	T08B1.4	T08B1.4 [Source:RefSeq_peptide;Acc:NP_503542]			triacylglycerol lipase activity, 
T08B1.1	T08B1.1	T08B1.1 [Source:RefSeq_peptide;Acc:NP_503543]	transport, positive regulation of growth rate, protein homooligomerization, 	membrane, integral to membrane, 	transporter activity, 
tnt-4	T08B1.2	TropoNin T family member (tnt-4) [Source:RefSeq_peptide;Acc:NP_503544]	muscle contraction, 		
alh-5	T08B1.3	ALdehyde deHydrogenase family member (alh-5) [Source:RefSeq_peptide;Acc:NP_503545]	metabolic process, 		oxidoreductase activity, 
F59A7.1	F59A7.1	F59A7.1 [Source:RefSeq_peptide;Acc:NP_503546]			sugar binding, 
F59A7.9	F59A7.9	F59A7.9 [Source:RefSeq_peptide;Acc:NP_503547]	metabolic process, cysteine biosynthetic process from serine, 		catalytic activity, pyridoxal phosphate binding, cysteine synthase activity, 
F59A7.10	F59A7.10				
F59A7.8	F59A7.8	F59A7.8 [Source:RefSeq_peptide;Acc:NP_503548]			ATP binding, DNA binding, nucleic acid binding, helicase activity, 
F59A7.7	F59A7.7	F59A7.7 [Source:RefSeq_peptide;Acc:NP_503549]	metabolic process, 		catalytic activity, pyridoxal phosphate binding, 
F59A7.11	F59A7.11	F59A7.11 [Source:RefSeq_peptide;Acc:NP_001033491]			
F59A7.2	F59A7.2	F59A7.2 [Source:RefSeq_peptide;Acc:NP_503550]			
F59A7.5	F59A7.5	F59A7.5a [Source:RefSeq_peptide;Acc:NP_001024001]			
srab-13	F59A7.3	Serpentine Receptor, class AB (class A-like) family member (srab-13) [Source:RefSeq_peptide;Acc:NP_503553]			
F59A7.12	F59A7.12	F59A7.12 [Source:RefSeq_peptide;Acc:NP_001033492]			
hil-6	F59A7.4	Putative histone H1.6 (Histone H1-like protein 6). [Source:Uniprot/SWISSPROT;Acc:O16277]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, structural constituent of cell wall, 
srab-23	Y40B10A.3	Serpentine Receptor, class AB (class A-like) family member (srab-23) [Source:RefSeq_peptide;Acc:NP_503555]		membrane, 	transmembrane receptor activity, 
Y40B10A.4	Y40B10A.4	Y40B10A.4 [Source:RefSeq_peptide;Acc:NP_503556]	positive regulation of multicellular organism growth, 		
Y40B10A.5	Y40B10A.5	Y40B10A.5 [Source:RefSeq_peptide;Acc:NP_503557]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y40B10A.6	Y40B10A.6	Y40B10A.6 [Source:RefSeq_peptide;Acc:NP_503558]			O-methyltransferase activity, 
Y40B10A.7	Y40B10A.7	Y40B10A.7 [Source:RefSeq_peptide;Acc:NP_503559]			O-methyltransferase activity, 
Y40B10A.2	Y40B10A.2	Y40B10A.2 [Source:RefSeq_peptide;Acc:NP_503560]			O-methyltransferase activity, 
nhr-86	Y40B10A.8	Nuclear hormone receptor family member nhr-86. [Source:Uniprot/SWISSPROT;Acc:Q965W2]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
lbp-9	Y40B10A.1	Fatty acid-binding protein homolog 9. [Source:Uniprot/SWISSPROT;Acc:Q965W1]	transport, 		transporter activity, binding, lipid binding, 
Y40B10A.9	Y40B10A.9	Y40B10A.9 [Source:RefSeq_peptide;Acc:NP_503563]			
F36F12.3	F36F12.3	F36F12.3 [Source:RefSeq_peptide;Acc:NP_503564]			
F36F12.4	F36F12.4	F36F12.4 [Source:RefSeq_peptide;Acc:NP_503565]			
F36F12.8	F36F12.8	F36F12.8 [Source:RefSeq_peptide;Acc:NP_503566]		intracellular, 	zinc ion binding, nucleic acid binding, 
F36F12.2	F36F12.2	F36F12.2 [Source:RefSeq_peptide;Acc:NP_503567]			
F36F12.5	F36F12.5	F36F12.5 [Source:RefSeq_peptide;Acc:NP_503568]			sugar binding, 
F36F12.6	F36F12.6	F36F12.6 [Source:RefSeq_peptide;Acc:NP_503569]	reproduction, 		sugar binding, 
F36F12.7	F36F12.7	F36F12.7 [Source:RefSeq_peptide;Acc:NP_503570]			
F36F12.1	F36F12.1	F36F12.1 [Source:RefSeq_peptide;Acc:NP_503571]			
F22F7.4	F22F7.4	F22F7.4 [Source:RefSeq_peptide;Acc:NP_503572]			
ckb-4	F22F7.5	ckb-4 encodes an isoform of choline kinase whose activity has been verified in vitro, and that has a strong preference for choline over ethanolamine. CKB-1 through CKB-4 comprise a related group ('B') of choline kinases. [Source: WormBase]			
F22F7.3	F22F7.3	F22F7.3 [Source:RefSeq_peptide;Acc:NP_503574]			
F22F7.6	F22F7.6	F22F7.6 [Source:RefSeq_peptide;Acc:NP_503575]			protein binding, 
F22F7.2	F22F7.2	F22F7.2 [Source:RefSeq_peptide;Acc:NP_503576]			
F22F7.1	F22F7.1	F22F7.1a [Source:RefSeq_peptide;Acc:NP_503577]			
F22F7.7	F22F7.7	F22F7.7 [Source:RefSeq_peptide;Acc:NP_503578]			
str-52	C45H4.12	Seven TM Receptor family member (str-52) [Source:RefSeq_peptide;Acc:NP_503579]			
srbc-20	C45H4.11	Serpentine Receptor, class BC (class B-like) family member (srbc-20) [Source:RefSeq_peptide;Acc:NP_503580]			
C45H4.13	C45H4.13	C45H4.13 [Source:RefSeq_peptide;Acc:NP_503581]			
C45H4.t1	C45H4.t1				
srbc-24	C45H4.10	Serpentine Receptor, class BC (class B-like) family member (srbc-24) [Source:RefSeq_peptide;Acc:NP_503582]		integral to membrane, 	
srbc-23	C45H4.9	Serpentine Receptor, class BC (class B-like) family member (srbc-23) [Source:RefSeq_peptide;Acc:NP_503583]			
srbc-21	C45H4.7	Serpentine Receptor, class BC (class B-like) family member (srbc-21) [Source:RefSeq_peptide;Acc:NP_503584]	sodium ion transport, regulation of pH, 	integral to membrane, 	sodium:hydrogen antiporter activity, 
srbc-22	C45H4.8	Serpentine Receptor, class BC (class B-like) family member (srbc-22) [Source:RefSeq_peptide;Acc:NP_503585]			
C45H4.14	C45H4.14	C45H4.14a [Source:RefSeq_peptide;Acc:NP_503586]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
str-255	C45H4.15	Seven TM Receptor family member (str-255) [Source:RefSeq_peptide;Acc:NP_503587]		integral to membrane, 	
srbc-19	C45H4.16	Serpentine Receptor, class BC (class B-like) family member (srbc-19) [Source:RefSeq_peptide;Acc:NP_503588]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
srbc-18	C45H4.6	Serpentine Receptor, class BC (class B-like) family member (srbc-18) [Source:RefSeq_peptide;Acc:NP_503589]			
sru-46	C45H4.5				
C45H4.18	C45H4.18	C45H4.18 [Source:RefSeq_peptide;Acc:NP_001023710]			
srbc-17	C45H4.3	Serpentine Receptor, class BC (class B-like) family member (srbc-17) [Source:RefSeq_peptide;Acc:NP_503591]			
cyp-33C1	C45H4.2	CYtochrome P450 family member (cyp-33C1) [Source:RefSeq_peptide;Acc:NP_503592]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
srbc-16	C45H4.1	Serpentine Receptor, class BC (class B-like) family member (srbc-16) [Source:RefSeq_peptide;Acc:NP_503593]			
cyp-33C2	C45H4.17	CYtochrome P450 family member (cyp-33C2) [Source:RefSeq_peptide;Acc:NP_503594]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
Y5H2B.3	Y5H2B.3	Y5H2B.3 [Source:RefSeq_peptide;Acc:NP_503595]			
srbc-42	Y5H2B.4	Serpentine Receptor, class BC (class B-like) family member (srbc-42) [Source:RefSeq_peptide;Acc:NP_503596]		membrane, 	GABA-B receptor activity, 
nhr-13	Y5H2B.2	nhr-13 encodes a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
cyp-32B1	Y5H2B.5	CYtochrome P450 family member (cyp-32B1) [Source:RefSeq_peptide;Acc:NP_503598]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-33C12	Y5H2B.6	CYtochrome P450 family member (cyp-33C12) [Source:RefSeq_peptide;Acc:NP_503599]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
srt-40	Y5H2B.7	Serpentine Receptor, class T family member (srt-40) [Source:RefSeq_peptide;Acc:NP_503600]			serine-type endopeptidase inhibitor activity, 
Y5H2B.1	Y5H2B.1	Y5H2B.1 [Source:RefSeq_peptide;Acc:NP_503601]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
nhr-133	F44C8.8	Nuclear hormone receptor family member nhr-133. [Source:Uniprot/SWISSPROT;Acc:O16354]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-184	F44C8.9	Nuclear Hormone Receptor family member (nhr-184) [Source:RefSeq_peptide;Acc:NP_001023926]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F44C8.7	F44C8.7	F44C8.7 [Source:RefSeq_peptide;Acc:NP_503604]	carbohydrate transport, nucleotide-sugar transport, 	integral to membrane, Golgi membrane, 	protein binding, sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
nhr-56	F44C8.6	nhr-56 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-128	F44C8.5	Nuclear Hormone Receptor family member (nhr-128) [Source:RefSeq_peptide;Acc:NP_001023923]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-103	F44C8.4	nhr-103 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-18	F44C8.3	The nhr-18 gene encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. the human homolog of nhr-18, CYP21, when mutated leads to congenital adrenal hyperplasia (OMIM:201910). [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-126	F44C8.10	nhr-126 encodes a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-134	F44C8.2	Nuclear hormone receptor family member nhr-134. [Source:Uniprot/SWISSPROT;Acc:O16361]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-96	F44C8.11	nhr-96 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
cyp-33C4	F44C8.1	CYtochrome P450 family member (cyp-33C4) [Source:RefSeq_peptide;Acc:NP_503612]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F41B5.6	F41B5.6	F41B5.6 [Source:RefSeq_peptide;Acc:NP_503614]			
cyp-33C3	F41B5.4	CYtochrome P450 family member (cyp-33C3) [Source:RefSeq_peptide;Acc:NP_503615]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-33C5	F41B5.3	CYtochrome P450 family member (cyp-33C5) [Source:RefSeq_peptide;Acc:NP_503616]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-33C6	F41B5.7	CYtochrome P450 family member (cyp-33C6) [Source:RefSeq_peptide;Acc:NP_503617]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-33C7	F41B5.2	CYtochrome P450 family member (cyp-33C7) [Source:RefSeq_peptide;Acc:NP_503618]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
str-253	F41B5.8	Seven TM Receptor family member (str-253) [Source:RefSeq_peptide;Acc:NP_503619]	amino acid transport, 	membrane, 	
F41B5.1	F41B5.1				
nhr-182	F41B5.9	Nuclear Hormone Receptor family member (nhr-182) [Source:RefSeq_peptide;Acc:NP_503620]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-183	F41B5.10	Nuclear Hormone Receptor family member (nhr-183) [Source:RefSeq_peptide;Acc:NP_503621]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-275	Y5H2A.2	Nuclear Hormone Receptor family member (nhr-275) [Source:RefSeq_peptide;Acc:NP_503622]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
Y5H2A.1	Y5H2A.1	Y5H2A.1 [Source:RefSeq_peptide;Acc:NP_503623]			
Y5H2A.4	Y5H2A.4	Y5H2A.4 [Source:RefSeq_peptide;Acc:NP_001033518]			
abu-4	Y5H2A.3	abu-4 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-4 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum (ER), and ABU-4 may function within the ER to protect the organism from damage by improperly folded nascent protein. abu-4 expression is enhanced in ER-stressed animals in which the unfolded protein response (UPR) is blocked by mutations in xbp-1, a bZIP transcription factor. [Source: WormBase]			nutrient reservoir activity, 
nhr-59	T27B7.1	Nuclear hormone receptor family member nhr-59. [Source:Uniprot/SWISSPROT;Acc:Q9TXJ1]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
fbxa-137	T27B7.7	F-box A protein family member (fbxa-137) [Source:RefSeq_peptide;Acc:NP_503625]			
nhr-228	T27B7.6	Nuclear Hormone Receptor family member (nhr-228) [Source:RefSeq_peptide;Acc:NP_001041172]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-227	T27B7.5	Nuclear Hormone Receptor family member (nhr-227) [Source:RefSeq_peptide;Acc:NP_503627]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-225	T27B7.2	Nuclear Hormone Receptor family member (nhr-225) [Source:RefSeq_peptide;Acc:NP_503628]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-115	T27B7.4	nhr-115 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-226	T27B7.3	Nuclear Hormone Receptor family member (nhr-226) [Source:RefSeq_peptide;Acc:NP_503630]	regulation of transcription, DNA-dependent, 	nucleus, extracellular region, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y19D10B.2	Y19D10B.2	Y19D10B.2 [Source:RefSeq_peptide;Acc:NP_503631]		membrane, 	
Y19D10B.3	Y19D10B.3	Y19D10B.3 [Source:RefSeq_peptide;Acc:NP_503632]			
Y19D10B.4	Y19D10B.4	Y19D10B.4 [Source:RefSeq_peptide;Acc:NP_503633]			
Y19D10B.1	Y19D10B.1	Y19D10B.1 [Source:RefSeq_peptide;Acc:NP_503634]			
Y19D10B.5	Y19D10B.5	Y19D10B.5 [Source:RefSeq_peptide;Acc:NP_503635]		membrane, 	
Y19D10B.6	Y19D10B.6	Y19D10B.6 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. Y19D10B.6 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
Y19D10B.7	Y19D10B.7	F15E11.13 [Source:RefSeq_peptide;Acc:NP_503641]			
F15E11.14	F15E11.14	F15E11.1 [Source:RefSeq_peptide;Acc:NP_503640]			
F15E11.15	F15E11.15	F15E11.15a [Source:RefSeq_peptide;Acc:NP_001023804]			
F15E11.12	F15E11.12	F15E11.12 [Source:RefSeq_peptide;Acc:NP_503639]			
F15E11.1	F15E11.1	F15E11.1, along with F15E11.14, encodes a 17.4 kDa protein (CE16999) with unknown function that is seven-fold more abundant in glp-1 mutant hermaphrodites (which lack a germline) than in normal hermaphrodites. F15E11.1(RNAi) animals have no obvious mutant phenotype (i.e., they have no obvious defect in fertility or germline maintenance). the F15E11.1/14 protein belongs to a nematode-specific family including the paralogs F15E11.12, F15E11.13, F15E11.15, and Y19D10B.7. [Source: WormBase]			
F15E11.13	F15E11.13	F15E11.13 [Source:RefSeq_peptide;Acc:NP_503641]			
F15E11.11	F15E11.11	F15E11.11 [Source:RefSeq_peptide;Acc:NP_503642]		membrane, 	
F15E11.2	F15E11.2	F15E11.2 [Source:RefSeq_peptide;Acc:NP_503643]		membrane, 	
F15E11.3	F15E11.3	F15E11.3 [Source:RefSeq_peptide;Acc:NP_503644]		membrane, 	
F15E11.4	F15E11.4	F15E11.4 [Source:RefSeq_peptide;Acc:NP_503645]		membrane, 	
F15E11.5	F15E11.5	F15E11.5 [Source:RefSeq_peptide;Acc:NP_503646]		membrane, 	
srbc-15	F15E11.10	Serpentine Receptor, class BC (class B-like) family member (srbc-15) [Source:RefSeq_peptide;Acc:NP_503647]			
Y19D10A.7	Y19D10A.7	Y19D10A.7 [Source:RefSeq_peptide;Acc:NP_503649]		membrane, 	
Y19D10A.9	Y19D10A.9	F56A4.2 [Source:RefSeq_peptide;Acc:NP_503676]			sugar binding, 
Y19D10A.8	Y19D10A.8	Y19D10A.8 [Source:RefSeq_peptide;Acc:NP_503651]	transport, 	integral to membrane, 	transporter activity, 
Y19D10A.6	Y19D10A.6	Y19D10A.6 [Source:RefSeq_peptide;Acc:NP_503652]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
Y19D10A.10	Y19D10A.10	Y19D10A.10 [Source:RefSeq_peptide;Acc:NP_503653]	transport, 	membrane, integral to membrane, 	transporter activity, 
Y19D10A.11	Y19D10A.11	Y19D10A.11 [Source:RefSeq_peptide;Acc:NP_503654]	transport, 	integral to membrane, 	transporter activity, 
Y19D10A.12	Y19D10A.12	Y19D10A.12 [Source:RefSeq_peptide;Acc:NP_503655]	transport, 	integral to membrane, 	transporter activity, 
Y19D10A.5	Y19D10A.5	C01B4.8 [Source:RefSeq_peptide;Acc:NP_503682]	transport, 	integral to membrane, 	transporter activity, 
Y19D10A.4	Y19D10A.4	C01B4.7 [Source:RefSeq_peptide;Acc:NP_503683]	transport, 	integral to membrane, 	transporter activity, 
Y19D10A.16	Y19D10A.16	C01B4.6 [Source:RefSeq_peptide;Acc:NP_503684]	carbohydrate metabolic process, growth, 		isomerase activity, 
srd-75	Y19D10A.15	Serpentine Receptor, class D (delta) family member (srd-61) [Source:RefSeq_peptide;Acc:NP_503685]			
srd-76	Y19D10A.3				
Y19D10A.2	Y19D10A.2	Seven TM Receptor family member (str-258) [Source:RefSeq_peptide;Acc:NP_503686]			
str-265	Y19D10A.13	Seven TM Receptor family member (str-76) [Source:RefSeq_peptide;Acc:NP_503687]			
Y19D10A.18	Y19D10A.18				
Y19D10A.1	Y19D10A.1	Y19D10A.1 [Source:RefSeq_peptide;Acc:NP_503662]			
Y19D10A.17	Y19D10A.17	Serpentine Receptor, class BC (class B-like) family member (srbc-81) [Source:RefSeq_peptide;Acc:NP_503690]		membrane, 	
srd-60	C13B7.3	Serpentine Receptor, class D (delta) family member (srd-73) [Source:RefSeq_peptide;Acc:NP_503691]			
C13B7.6	C13B7.6	C13B7.6 [Source:RefSeq_peptide;Acc:NP_503664]			
srd-71	C13B7.4	Serpentine Receptor, class D (delta) family member (srd-72) [Source:RefSeq_peptide;Acc:NP_503692]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
str-119	C13B7.5	Seven TM Receptor family member (str-119) [Source:RefSeq_peptide;Acc:NP_503666]			
str-120	C13B7.2	Seven TM Receptor family member (str-120) [Source:RefSeq_peptide;Acc:NP_503667]			
srt-1	C13B7.1	Serpentine Receptor, class T family member (srt-2) [Source:RefSeq_peptide;Acc:NP_503695]			
F56A4.5	F56A4.5	F56A4.5 [Source:RefSeq_peptide;Acc:NP_503669]			
F56A4.6	F56A4.6	F56A4.6 [Source:RefSeq_peptide;Acc:NP_503670]			
F56A4.4	F56A4.4	Y45G12C.3 [Source:RefSeq_peptide;Acc:NP_503698]			
str-267	F56A4.7	Seven TM Receptor family member (str-154) [Source:RefSeq_peptide;Acc:NP_503699]	transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	transporter activity, rhodopsin-like receptor activity, 
F56A4.3	F56A4.3	F56A4.3 [Source:RefSeq_peptide;Acc:NP_503673]			
F56A4.9	F56A4.9	F56A4.9 [Source:RefSeq_peptide;Acc:NP_503675]		membrane, 	
F56A4.2	F56A4.2	F56A4.2 [Source:RefSeq_peptide;Acc:NP_503676]			sugar binding, 
F56A4.10	F56A4.10	F56A4.10 [Source:RefSeq_peptide;Acc:NP_503677]	transport, 	integral to membrane, 	transporter activity, 
nas-2	F56A4.1	Zinc metalloproteinase nas-2 precursor (EC 3.4.24.21) (Nematode astacin 2). [Source:Uniprot/SWISSPROT;Acc:Q9N5R0]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F56A4.11	F56A4.11	F56A4.11 [Source:RefSeq_peptide;Acc:NP_503679]	transport, 	membrane, integral to membrane, 	transporter activity, 
F56A4.12	F56A4.12	F56A4.12 [Source:RefSeq_peptide;Acc:NP_503680]	transport, 	integral to membrane, 	transporter activity, 
C01B4.9	C01B4.9	C01B4.9 [Source:RefSeq_peptide;Acc:NP_503681]	transport, 	integral to membrane, 	transporter activity, 
C01B4.8	C01B4.8	C01B4.8 [Source:RefSeq_peptide;Acc:NP_503682]	transport, 	integral to membrane, 	transporter activity, 
C01B4.7	C01B4.7	C01B4.7 [Source:RefSeq_peptide;Acc:NP_503683]	transport, 	integral to membrane, 	transporter activity, 
C01B4.6	C01B4.6	C01B4.6 [Source:RefSeq_peptide;Acc:NP_503684]	carbohydrate metabolic process, growth, 		isomerase activity, 
srd-61	C01B4.5	Serpentine Receptor, class D (delta) family member (srd-61) [Source:RefSeq_peptide;Acc:NP_503685]			
srd-62	C01B4.4				
str-258	C01B4.3	Seven TM Receptor family member (str-258) [Source:RefSeq_peptide;Acc:NP_503686]			
str-76	C01B4.10	Seven TM Receptor family member (str-76) [Source:RefSeq_peptide;Acc:NP_503687]			
C01B4.2	C01B4.2				
str-257	C01B4.1	Seven TM Receptor family member (str-257) [Source:RefSeq_peptide;Acc:NP_503689]			
srbc-81	Y45G12C.8	Serpentine Receptor, class BC (class B-like) family member (srbc-81) [Source:RefSeq_peptide;Acc:NP_503690]		membrane, 	
srd-73	Y45G12C.7	Serpentine Receptor, class D (delta) family member (srd-73) [Source:RefSeq_peptide;Acc:NP_503691]			
Y45G12C.16	Y45G12C.16	Y45G12C.16 [Source:RefSeq_peptide;Acc:NP_001024241]			
srd-72	Y45G12C.9	Serpentine Receptor, class D (delta) family member (srd-72) [Source:RefSeq_peptide;Acc:NP_503692]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
Y45G12C.10	Y45G12C.10	Y45G12C.10 [Source:RefSeq_peptide;Acc:NP_503693]			
Y45G12C.6	Y45G12C.6	Y45G12C.6 [Source:RefSeq_peptide;Acc:NP_503694]			
srt-2	Y45G12C.5	Serpentine Receptor, class T family member (srt-2) [Source:RefSeq_peptide;Acc:NP_503695]			
Y45G12C.4	Y45G12C.4	Y45G12C.4 [Source:RefSeq_peptide;Acc:NP_503696]			
Y45G12C.11	Y45G12C.11	Y45G12C.11 [Source:RefSeq_peptide;Acc:NP_503697]			
Y45G12C.3	Y45G12C.3	Y45G12C.3 [Source:RefSeq_peptide;Acc:NP_503698]			
str-154	Y45G12C.12	Seven TM Receptor family member (str-154) [Source:RefSeq_peptide;Acc:NP_503699]	transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	transporter activity, rhodopsin-like receptor activity, 
gst-10	Y45G12C.2	gst-10 encodes a predicted glutathione S-transferase with similarity to human glutathione S-transferase P. [Source: WormBase]	response to stress, glutathione metabolic process, determination of adult life span, response to hydrogen peroxide, response to UV-C, 	cellular_component, 	glutathione transferase activity, 
Y45G12C.1	Y45G12C.1	Y45G12C.1 [Source:RefSeq_peptide;Acc:NP_503702]			
srj-19	Y45G12C.14	Serpentine Receptor, class J family member (srj-19) [Source:RefSeq_peptide;Acc:NP_503703]			
srj-20	Y45G12C.15	Serpentine Receptor, class J family member (srj-20) [Source:RefSeq_peptide;Acc:NP_503704]			
srt-58	C29G2.5	Serpentine Receptor, class T family member (srt-58) [Source:RefSeq_peptide;Acc:NP_503705]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
srt-4	C29G2.4	Serpentine Receptor, class T family member (srt-4) [Source:RefSeq_peptide;Acc:NP_503706]			
C29G2.3	C29G2.3	C29G2.3 [Source:RefSeq_peptide;Acc:NP_503707]			
C29G2.6	C29G2.6	Uncharacterized protein C29G2.6. [Source:Uniprot/SWISSPROT;Acc:O16887]			
C29G2.2	C29G2.2	C29G2.2 [Source:RefSeq_peptide;Acc:NP_503709]			
C29G2.1	C29G2.1	C29G2.1 [Source:RefSeq_peptide;Acc:NP_503710]			
F53E10.4	F53E10.4	F53E10.4 [Source:RefSeq_peptide;Acc:NP_503711]			
F53E10.5	F53E10.5	F53E10.5 [Source:RefSeq_peptide;Acc:NP_503712]			
F53E10.6	F53E10.6	RRP15-like protein. [Source:Uniprot/SWISSPROT;Acc:P91318]	positive regulation of growth rate, 		
F53E10.3	F53E10.3	F53E10.3 [Source:RefSeq_peptide;Acc:NP_503714]			
acr-17	F53E10.2	an ortholog of alpha subunit of nicotinic acetylcholine receptor (nAChR). [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F53E10.1	F53E10.1	F53E10.1 [Source:RefSeq_peptide;Acc:NP_503716]			catalytic activity, pyridoxal phosphate binding, molybdenum ion binding, 
W02H5.5	W02H5.5	W02H5.5 [Source:RefSeq_peptide;Acc:NP_503717]			
srh-271	W02H5.6	Serpentine Receptor, class H family member (srh-271) [Source:RefSeq_peptide;Acc:NP_503718]			
sknr-1	W02H5.7	SKN Related family member (sknr-1) [Source:RefSeq_peptide;Acc:NP_503719]	regulation of transcription, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
W02H5.4	W02H5.4	W02H5.3 [Source:RefSeq_peptide;Acc:NP_503721]		nucleus, 	nucleic acid binding, 
W02H5.10	W02H5.10	W02H5.10 [Source:RefSeq_peptide;Acc:NP_001033506]			
W02H5.3	W02H5.3	W02H5.3 [Source:RefSeq_peptide;Acc:NP_503721]		nucleus, 	nucleic acid binding, 
W02H5.2	W02H5.2	W02H5.2 [Source:RefSeq_peptide;Acc:NP_503722]			
W02H5.9	W02H5.9	W02H5.9 [Source:RefSeq_peptide;Acc:NP_001024185]			
W02H5.1	W02H5.1	W02H5.1 [Source:RefSeq_peptide;Acc:NP_503723]			
W02H5.8	W02H5.8	W02H5.8 [Source:RefSeq_peptide;Acc:NP_503724]	glycerol metabolic process, 		ATP binding, glycerone kinase activity, 
W02G9.5	W02G9.5	W02G9.5 [Source:RefSeq_peptide;Acc:NP_503725]			
ndx-2	W02G9.1	ndx-2 encodes a NUDIX hydrolase. by sequence comparison, NDX-2 is predicted to be orthologous to human NUDT5 which, in vitro, possesses ADP-sugar diphosphatase activity. in C. elegans, loss of ndx-2 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, consistent with the proposed nonessential roles for Nudix proteins in eliminating potentially toxic nucleotide metabolites from cells and modulating levels of metabolic intermediates by shuttling them into alternative biochemical pathways. [Source: WormBase]			hydrolase activity, 
W02G9.t1	W02G9.t1				
W02G9.4	W02G9.4	W02G9.4 [Source:RefSeq_peptide;Acc:NP_503727]			
kel-8	W02G9.2	KELch-repeat containing protein family member (kel-8) [Source:RefSeq_peptide;Acc:NP_503729]			protein binding, 
W02G9.3	W02G9.3	W02G9.3 [Source:RefSeq_peptide;Acc:NP_503728]			
W02G9.t2	W02G9.t2				
Y45G12B.3	Y45G12B.3	Y45G12B.3 [Source:RefSeq_peptide;Acc:NP_503730]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, glycerol-3-phosphate dehydrogenase activity, 
Y45G12B.2	Y45G12B.2	Y45G12B.2a [Source:RefSeq_peptide;Acc:NP_503731]			protein binding, zinc ion binding, 
nuo-5	Y45G12B.1	Y45G12B.1 is orthologous to human NADH-UBIQUINONE OXIDOREDUCTASE Fe-S PROTEIN 1 (NDUFS1. OMIM:157655), which when mutated leads to mitochondrial complex I deficiency. [Source: WormBase]	electron transport, ATP synthesis coupled electron transport, positive regulation of growth rate, 	membrane, 	oxidoreductase activity, electron carrier activity, oxidoreductase activity, acting on NADH or NADPH, iron-sulfur cluster binding, NADH dehydrogenase (ubiquinone) activity, 
C24B9.3	C24B9.3	C24B9.3a [Source:RefSeq_peptide;Acc:NP_001023671]			
srt-28	C24B9.4	Serpentine Receptor, class T family member (srt-28) [Source:RefSeq_peptide;Acc:NP_503735]			
srt-26	C24B9.2	Serpentine Receptor, class T family member (srt-26) [Source:RefSeq_peptide;Acc:NP_503736]			
srt-29	C24B9.5	Serpentine Receptor, class T family member (srt-29) [Source:RefSeq_peptide;Acc:NP_503737]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
srt-27	C24B9.6	Serpentine Receptor, class T family member (srt-27) [Source:RefSeq_peptide;Acc:NP_503738]			
srg-60	C24B9.15	Serpentine Receptor, class G (gamma) family member (srg-60) [Source:RefSeq_peptide;Acc:NP_503739]	signal transduction, neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, transmembrane receptor activity, 
srg-59	C24B9.7	Serpentine Receptor, class G (gamma) family member (srg-59) [Source:RefSeq_peptide;Acc:NP_872217]	signal transduction, 	membrane, 	transmembrane receptor activity, 
str-13	C24B9.8	Seven TM Receptor family member (str-13) [Source:RefSeq_peptide;Acc:NP_503740]			
str-33	C24B9.1	Seven TM Receptor family member (str-33) [Source:RefSeq_peptide;Acc:NP_503741]			
dod-3	C24B9.9	Downstream Of DAF-16 (regulated by DAF-16) family member (dod-3) [Source:RefSeq_peptide;Acc:NP_503742]	determination of adult life span, 		
srg-57	C24B9.14	Serpentine Receptor, class G (gamma) family member (srg-57) [Source:RefSeq_peptide;Acc:NP_503743]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-56	C24B9.10	Serpentine Receptor, class G (gamma) family member (srg-56) [Source:RefSeq_peptide;Acc:NP_872216]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-61	C24B9.11	Serpentine Receptor, class G (gamma) family member (srg-61) [Source:RefSeq_peptide;Acc:NP_503744]	signal transduction, neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, transmembrane receptor activity, 
srg-62	C24B9.12	Serpentine Receptor, class G (gamma) family member (srg-62) [Source:RefSeq_peptide;Acc:NP_503745]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srx-25	C24B9.13				
srx-24	C24B9.16	Serpentine Receptor, class X family member (srx-24) [Source:RefSeq_peptide;Acc:NP_001023670]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-26	R05D8.4	Serpentine Receptor, class X family member (srx-26) [Source:RefSeq_peptide;Acc:NP_503747]	electron transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	electron carrier activity, rhodopsin-like receptor activity, 
srx-27	R05D8.12				
srx-28	R05D8.5	Serpentine Receptor, class X family member (srx-28) [Source:RefSeq_peptide;Acc:NP_503749]			
srg-58	R05D8.6	Serpentine Receptor, class G (gamma) family member (srg-58) [Source:RefSeq_peptide;Acc:NP_503750]	signal transduction, neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, transmembrane receptor activity, 
R05D8.7	R05D8.7	R05D8.7 [Source:RefSeq_peptide;Acc:NP_503751]	metabolic process, embryonic development ending in birth or egg hatching, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
dhs-14	R05D8.8	dhs-14 encodes a short chain-type of alcohol/other dehydrogenase, more similar to 18 paralogs in C. elegans than to any non-worm protein. it is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]	metabolic process, electron transport, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
R05D8.9	R05D8.9	R05D8.9 [Source:RefSeq_peptide;Acc:NP_503753]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
dhs-15	R05D8.10	dhs-15 encodes a member of the short chain dehydrogenase/reductase family. [Source: WormBase]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
srh-56	R05D8.3	Serpentine Receptor, class H family member (srh-56) [Source:RefSeq_peptide;Acc:NP_503755]			
srj-18	R05D8.2	Serpentine Receptor, class J family member (srj-18) [Source:RefSeq_peptide;Acc:NP_503756]			
srj-17	R05D8.1				
R05D8.11	R05D8.11	R05D8.11 [Source:RefSeq_peptide;Acc:NP_503757]			
ketn-1	F54E2.3	ketn-1 encodes an ortholog of kettin (in D. melanogaster, SALLIMUS), an invertebrate isoform or paralog of titin. ketn-1 is expressed in the reproductive system and several muscle types (body wall, vulval, anal depressor, and probably pharyngeal). ketn-1 is transcriptionally upregulated two-fold by hypoxia, requires both HIF-1 and VHL-1 for this induction, and contains three predicted HIF-1 binding sites in its predicted 5' regulatory region. KETN-1 colocalizes with actin to I-bands in muscle cells, but more narrowly than actin, and falls into repeated blocks alternating with non-overlapping blocks of vinculin. ketn-1's induction by hypoxia correlates with upregulation of other genes required for collagen synthesis (phy-2 and bli-3), encoding lectin domains (C31G12.2, F35D11.10, and F47C12.2), or encoding a chitin-binding protein (K04H4.2). [Source: WormBase]	protein amino acid phosphorylation, regulation of cell growth, positive regulation of growth rate, 		ATP binding, vascular endothelial growth factor receptor activity, 
F54E2.2	F54E2.2	F54E2.2 [Source:RefSeq_peptide;Acc:NP_503760]			protease inhibitor activity, 
F54E2.4	F54E2.4		protein amino acid phosphorylation, 		ATP binding, vascular endothelial growth factor receptor activity, 
F54E2.1	F54E2.1	F54E2.1 [Source:RefSeq_peptide;Acc:NP_503761]			
F54E2.5	F54E2.5	F54E2.5 [Source:RefSeq_peptide;Acc:NP_503762]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
srt-34	F54E2.6	Serpentine Receptor, class T family member (srt-34) [Source:RefSeq_peptide;Acc:NP_503763]			
srh-36	T03D3.4	Serpentine Receptor, class H family member (srh-36) [Source:RefSeq_peptide;Acc:NP_503764]			
T03D3.5	T03D3.5	T03D3.5 [Source:RefSeq_peptide;Acc:NP_503765]			
srw-2	T03D3.3	Serpentine Receptor, class W family member (srw-2) [Source:RefSeq_peptide;Acc:NP_503766]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srj-50	T03D3.2	Serpentine Receptor, class J family member (srj-50) [Source:RefSeq_peptide;Acc:NP_503767]			
srj-45	T03D3.6	Serpentine Receptor, class J family member (srj-45) [Source:RefSeq_peptide;Acc:NP_503768]			phosphopantetheine binding, 
T03D3.7	T03D3.7				
T03D3.8	T03D3.8		embryonic development ending in birth or egg hatching, 		
T03D3.9	T03D3.9				
T03D3.10	T03D3.10				
srj-44	T03D3.11	Serpentine Receptor, class J family member (srj-44) [Source:RefSeq_peptide;Acc:NP_503769]			
srj-49	T03D3.12	Serpentine Receptor, class J family member (srj-49) [Source:RefSeq_peptide;Acc:NP_503770]			
ugt-53	T03D3.1	UDP-GlucuronosylTransferase family member (ugt-53) [Source:RefSeq_peptide;Acc:NP_503771]	metabolic process, protein secretion by the type II secretion system, 	type II protein secretion system complex, 	protein transporter activity, transferase activity, transferring hexosyl groups, 
T03D3.13	T03D3.13				
srj-57	T03D3.14	Serpentine Receptor, class J family member (srj-57) [Source:RefSeq_peptide;Acc:NP_503772]			
srj-55	Y45G12A.1	Serpentine Receptor, class J family member (srj-55) [Source:RefSeq_peptide;Acc:NP_503773]			
srj-54	F37B4.11	Serpentine Receptor, class J family member (srj-54) [Source:RefSeq_peptide;Acc:NP_503774]	cation transport, 	membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
srh-270	F37B4.5	Serpentine Receptor, class H family member (srh-270) [Source:RefSeq_peptide;Acc:NP_503775]			
srh-272	F37B4.4	Serpentine Receptor, class H family member (srh-272) [Source:RefSeq_peptide;Acc:NP_503776]			
srh-240	F37B4.13	Serpentine Receptor, class H family member (srh-240) [Source:RefSeq_peptide;Acc:NP_503777]			
srh-241	F37B4.6	Serpentine Receptor, class H family member (srh-241) [Source:RefSeq_peptide;Acc:NP_503778]			serine-type endopeptidase inhibitor activity, 
srh-243	F37B4.3	Serpentine Receptor, class H family member (srh-243) [Source:RefSeq_peptide;Acc:NP_503779]			
folt-2	F37B4.7	folt-2 encodes a putative folate transporter. FOLT-2 is orthologous to human SLC19A1 (OMIM:600424), SLC19A2 (OMIM:603941, mutated in thiamine-responsive megaloblastic anemia syndrome), and SLC19A3 (OMIM:606152, mutated in biotin-responsive basal ganglia disease). heterologously expressed FOLT-2 does not significantly transport folate. FOLT-2 has no obvious function in mass RNAi assays, perhaps because of genetic redundancy with its paralogs FOLT-1 and FOLT-3. [Source: WormBase]	transport, 	membrane, 	folic acid binding, reduced folate carrier activity, 
F37B4.10	F37B4.10	F37B4.10 [Source:RefSeq_peptide;Acc:NP_503781]		intracellular, 	zinc ion binding, nucleic acid binding, 
str-39	F37B4.12	Seven TM Receptor family member (str-39) [Source:RefSeq_peptide;Acc:NP_503782]			copper ion binding, 
ifc-1	F37B4.2	ifc-1 encodes a nonessential intermediate filament protein. IFC-1 is predicted to function as a structural component of the cytoskeleton. IFC-1 has no function in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
sre-24	F37B4.9	Serpentine Receptor, class E (epsilon) family member (sre-24) [Source:RefSeq_peptide;Acc:NP_503784]	transport, sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transporter activity, binding, calcium ion binding, transmembrane receptor activity, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
srw-4	F37B4.8	Serpentine Receptor, class W family member (srw-4) [Source:RefSeq_peptide;Acc:NP_503785]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F37B4.14	F37B4.14	F37B4.14 [Source:RefSeq_peptide;Acc:NP_001033484]			
srh-127	F37B4.1	Serpentine Receptor, class H family member (srh-127) [Source:RefSeq_peptide;Acc:NP_503786]			
C31B8.4	C31B8.4	C31B8.4 [Source:RefSeq_peptide;Acc:NP_503787]			
str-46	C31B8.6	Seven TM Receptor family member (str-46) [Source:RefSeq_peptide;Acc:NP_503788]			
C31B8.7	C31B8.7	C31B8.7 [Source:RefSeq_peptide;Acc:NP_503789]	positive regulation of multicellular organism growth, 		
C31B8.8	C31B8.8	C31B8.8 [Source:RefSeq_peptide;Acc:NP_503790]	proteolysis, metabolic process, 	proteinaceous extracellular matrix, 	metal ion binding, metallopeptidase activity, metalloendopeptidase activity, catalytic activity, 
C31B8.9	C31B8.9	C31B8.9 [Source:RefSeq_peptide;Acc:NP_503791]			
srh-146	C31B8.3				
C31B8.2	C31B8.2	C31B8.2 [Source:RefSeq_peptide;Acc:NP_503792]			
srj-51	C31B8.10				
srh-38	C31B8.11	Serpentine Receptor, class H family member (srh-38) [Source:RefSeq_peptide;Acc:NP_503793]			
C31B8.12	C31B8.12	C31B8.12 [Source:RefSeq_peptide;Acc:NP_503794]			
C31B8.16	C31B8.16	C31B8.16 [Source:RefSeq_peptide;Acc:NP_001033467]			
C31B8.1	C31B8.1	C31B8.1 [Source:RefSeq_peptide;Acc:NP_503795]			
srh-247	C31B8.13	Serpentine Receptor, class H family member (srh-247) [Source:RefSeq_peptide;Acc:NP_503796]			
srh-249	C31B8.14				
srw-141	H27D07.2	Serpentine Receptor, class W family member (srw-141) [Source:RefSeq_peptide;Acc:NP_503797]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-143	H27D07.3	Serpentine Receptor, class W family member (srw-143) [Source:RefSeq_peptide;Acc:NP_503798]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-137	H27D07.4	Serpentine Receptor, class W family member (srw-137) [Source:RefSeq_peptide;Acc:NP_503799]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-87	H27D07.6	Serpentine Receptor, class H family member (srh-87) [Source:RefSeq_peptide;Acc:NP_503800]			
srw-128	H27D07.1				
srw-122	H27D07.5	Serpentine Receptor, class W family member (srw-122) [Source:RefSeq_peptide;Acc:NP_503802]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-126	H05B21.1				
srh-248	H05B21.2	Serpentine Receptor, class H family member (srh-248) [Source:RefSeq_peptide;Acc:NP_503803]			serine-type endopeptidase inhibitor activity, 
srw-142	H05B21.3	Serpentine Receptor, class W family member (srw-142) [Source:RefSeq_peptide;Acc:NP_503804]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-144	H05B21.4	Serpentine Receptor, class W family member (srw-144) [Source:RefSeq_peptide;Acc:NP_503805]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-138	C44C3.3	Serpentine Receptor, class W family member (srw-138) [Source:RefSeq_peptide;Acc:NP_503806]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-88	C44C3.9	Serpentine Receptor, class H family member (srh-88) [Source:RefSeq_peptide;Acc:NP_503807]			
srw-116	C44C3.10				
srh-86	C44C3.4				
srw-129	C44C3.2	Serpentine Receptor, class W family member (srw-129) [Source:RefSeq_peptide;Acc:NP_503809]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-123	C44C3.11	Serpentine Receptor, class W family member (srw-123) [Source:RefSeq_peptide;Acc:NP_001023706]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-124	C44C3.1	Serpentine Receptor, class W family member (srw-124) [Source:RefSeq_peptide;Acc:NP_503810]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-118	C44C3.5	Serpentine Receptor, class W family member (srw-118) [Source:RefSeq_peptide;Acc:NP_503811]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-117	C44C3.6	Serpentine Receptor, class W family member (srw-117) [Source:RefSeq_peptide;Acc:NP_503812]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-139	C44C3.7	Serpentine Receptor, class W family member (srw-139) [Source:RefSeq_peptide;Acc:NP_503813]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-85	C44C3.8				
srh-84	K12D9.2				
srw-121	K12D9.3	Serpentine Receptor, class W family member (srw-121) [Source:RefSeq_peptide;Acc:NP_503814]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-115	K12D9.4	Serpentine Receptor, class W family member (srw-115) [Source:RefSeq_peptide;Acc:NP_503815]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-120	K12D9.5	Serpentine Receptor, class W family member (srw-120) [Source:RefSeq_peptide;Acc:NP_503816]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-125	K12D9.6				
srw-119	K12D9.7	Serpentine Receptor, class W family member (srw-119) [Source:RefSeq_peptide;Acc:NP_503818]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-114	K12D9.8				
srw-112	K12D9.9	Serpentine Receptor, class W family member (srw-112) [Source:RefSeq_peptide;Acc:NP_503820]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-131	K12D9.13				
srw-136	K12D9.10	Serpentine Receptor, class W family member (srw-136) [Source:RefSeq_peptide;Acc:NP_503821]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-135	K12D9.11				
K12D9.1	K12D9.1	K12D9.1 [Source:RefSeq_peptide;Acc:NP_503823]	metabolic process, 		methyltransferase activity, 
K12D9.12	K12D9.12	K12D9.12 [Source:RefSeq_peptide;Acc:NP_503824]		membrane, 	
F59D6.3	F59D6.3	F59D6.3 [Source:RefSeq_peptide;Acc:NP_503825]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
F59D6.2	F59D6.2	F59D6.2 [Source:RefSeq_peptide;Acc:NP_503826]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
F59D6.4	F59D6.4	F59D6.4 [Source:RefSeq_peptide;Acc:NP_503827]		membrane, 	
srw-8	F59D6.5	Serpentine Receptor, class W family member (srw-8) [Source:RefSeq_peptide;Acc:NP_503828]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F59D6.6	F59D6.6	F59D6.6 [Source:RefSeq_peptide;Acc:NP_503829]		membrane, 	
F59D6.7	F59D6.7	F59D6.7 [Source:RefSeq_peptide;Acc:NP_503830]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
F59D6.1	F59D6.1	F59D6.1 [Source:RefSeq_peptide;Acc:NP_503831]			
C50H11.8	C50H11.8	C50H11.8 [Source:RefSeq_peptide;Acc:NP_503832]			
str-244	C50H11.9	Seven TM Receptor family member (str-244) [Source:RefSeq_peptide;Acc:NP_503833]			
srt-15	C50H11.10	Serpentine Receptor, class T family member (srt-15) [Source:RefSeq_peptide;Acc:NP_503834]			
srt-16	C50H11.11	Serpentine Receptor, class T family member (srt-16) [Source:RefSeq_peptide;Acc:NP_503835]			
srh-185	C50H11.7	Serpentine Receptor, class H family member (srh-185) [Source:RefSeq_peptide;Acc:NP_503836]	signal transduction, chemotaxis, 	membrane, 	signal transducer activity, 
str-40	C50H11.12	Seven TM Receptor family member (str-40) [Source:RefSeq_peptide;Acc:NP_503837]			
C50H11.13	C50H11.13	C50H11.13 [Source:RefSeq_peptide;Acc:NP_503838]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srt-10	C50H11.6				
srt-9	C50H11.5	Serpentine Receptor, class T family member (srt-9) [Source:RefSeq_peptide;Acc:NP_503840]			
srt-5	C50H11.14	Serpentine Receptor, class T family member (srt-5) [Source:RefSeq_peptide;Acc:NP_503841]			
srt-7	C50H11.4	Serpentine Receptor, class T family member (srt-7) [Source:RefSeq_peptide;Acc:NP_503842]			
srt-71	C50H11.3	Serpentine Receptor, class T family member (srt-71) [Source:RefSeq_peptide;Acc:NP_503843]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
srt-8	C50H11.2	Serpentine Receptor, class T family member (srt-8) [Source:RefSeq_peptide;Acc:NP_503844]			
C50H11.1	C50H11.1	C50H11.1 [Source:RefSeq_peptide;Acc:NP_503845]	metabolic process, 		catalytic activity, 
cyp-33C9	C50H11.15	CYtochrome P450 family member (cyp-33C9) [Source:RefSeq_peptide;Acc:NP_503846]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
str-70	C50H11.16				
C50H11.17	C50H11.17	C50H11.17 [Source:RefSeq_peptide;Acc:NP_503847]			
Y73C8C.4	Y73C8C.4	Y73C8C.4 [Source:RefSeq_peptide;Acc:NP_503848]			
str-66	Y73C8C.5	Seven TM Receptor family member (str-66) [Source:RefSeq_peptide;Acc:NP_503849]			
str-69	Y73C8C.11	Seven TM Receptor family member (str-69) [Source:RefSeq_peptide;Acc:NP_503850]			
str-68	Y73C8C.6	Seven TM Receptor family member (str-68) [Source:RefSeq_peptide;Acc:NP_503851]			
sdz-34	Y73C8C.7	SKN-1 Dependent Zygotic transcript family member (sdz-34) [Source:RefSeq_peptide;Acc:NP_503852]			protein binding, zinc ion binding, 
Y73C8C.8	Y73C8C.8	Y73C8C.8 [Source:RefSeq_peptide;Acc:NP_503853]			protein binding, zinc ion binding, 
Y73C8C.3	Y73C8C.3	Y73C8C.3 [Source:RefSeq_peptide;Acc:NP_503854]			
Y73C8C.2	Y73C8C.2	Y73C8C.2 [Source:RefSeq_peptide;Acc:NP_503855]			sugar binding, 
srt-56	Y73C8C.9	Serpentine Receptor, class T family member (srt-56) [Source:RefSeq_peptide;Acc:NP_503856]			
str-242	Y73C8C.1				
Y73C8C.12	Y73C8C.12	Y73C8C.12 [Source:RefSeq_peptide;Acc:NP_001033521]			
Y73C8C.10	Y73C8C.10	Y73C8C.10 [Source:RefSeq_peptide;Acc:NP_503857]			RNA binding, oxidoreductase activity, catalytic activity, FMN binding, 
tat-6	F02C9.3	F02C9.3 [Source:RefSeq_peptide;Acc:NP_503858]	transport, metabolic process, cation transport, phospholipid transport, 	membrane, integral to membrane, 	ATP binding, catalytic activity, magnesium ion binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, phospholipid-translocating ATPase activity, 
F02C9.2	F02C9.2	F02C9.2 [Source:RefSeq_peptide;Acc:NP_503859]	transport, lipid metabolic process, 		transporter activity, binding, 
F02C9.4	F02C9.4	F02C9.4 [Source:RefSeq_peptide;Acc:NP_503860]		membrane, 	
F02C9.1	F02C9.1	F02C9.1 [Source:RefSeq_peptide;Acc:NP_503861]			
srab-9	C36C5.6	Serpentine Receptor, class AB (class A-like) family member (srab-9) [Source:RefSeq_peptide;Acc:NP_503862]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srab-10	C36C5.7	Serpentine Receptor, class AB (class A-like) family member (srab-10) [Source:RefSeq_peptide;Acc:NP_503863]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srab-11	C36C5.8	Serpentine Receptor, class AB (class A-like) family member (srab-11) [Source:RefSeq_peptide;Acc:NP_503864]		membrane, 	transmembrane receptor activity, 
srt-72	C36C5.9	Serpentine Receptor, class T family member (srt-72) [Source:RefSeq_peptide;Acc:NP_503865]			DNA binding, serine-type endopeptidase inhibitor activity, 
srab-6	C36C5.10	Serpentine Receptor, class AB (class A-like) family member (srab-6) [Source:RefSeq_peptide;Acc:NP_503866]			
srab-7	C36C5.11	Serpentine Receptor, class AB (class A-like) family member (srab-7) [Source:RefSeq_peptide;Acc:NP_503867]	cell redox homeostasis, 		
C36C5.5	C36C5.5	C36C5.5 [Source:RefSeq_peptide;Acc:NP_503868]			
C36C5.12	C36C5.12	UPF0376 protein C36C5.12. [Source:Uniprot/SWISSPROT;Acc:O16406]		viral capsid, 	structural molecule activity, 
C36C5.14	C36C5.14	C36C5.14 [Source:RefSeq_peptide;Acc:NP_503871]		viral capsid, 	structural molecule activity, 
C36C5.4	C36C5.4	C36C5.4 [Source:RefSeq_peptide;Acc:NP_503872]			
C36C5.15	C36C5.15	C36C5.15 [Source:RefSeq_peptide;Acc:NP_503873]		viral capsid, 	structural molecule activity, 
srbc-6	C36C5.3	Serpentine Receptor, class BC (class B-like) family member (srbc-6) [Source:RefSeq_peptide;Acc:NP_503874]			
srab-8	C36C5.2	Serpentine Receptor, class AB (class A-like) family member (srab-8) [Source:RefSeq_peptide;Acc:NP_503875]			
srab-5	C36C5.1				
lag-2	Y73C8B.4	lag-2 encodes a transmembrane protein of the Delta/Serrate/Lag-2 (DSL) family that functions as a signaling ligand for the GLP-1 and LIN-12 Notch-like receptors. LAG-2 is required for larval viability and for cell fate decisions involving the germline (meiosis vs mitosis), the somatic gonad, and the early embryo. in addition, LAG-2 functions redundantly with the transmembrane APX-1 and secreted DSL-1 ligands to regulate lateral signaling during vulval development. LAG-2 is expressed in the distal tip cell of the somatic gonad, the ventral nerve cord, the descendants of ABalap and MSap in the developing embryo, and in all six vulval precursor cells (VPCs) during the early L3 stage, with later expression in the VPCs generally restricted to P6.p. lag-2 expression in the vulval cells is regulated by the LET-23/EGF receptor signaling pathway and the SUR-2 component of the Mediator transcription complex. [Source: WormBase]	cell communication, cell fate specification, 	membrane, 	calcium ion binding, 
Y73C8B.3	Y73C8B.3	Y73C8B.3 [Source:RefSeq_peptide;Acc:NP_503878]			
Y73C8B.2	Y73C8B.2	Y73C8B.2 [Source:RefSeq_peptide;Acc:NP_503879]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
Y73C8B.1	Y73C8B.1	Y73C8B.1 [Source:RefSeq_peptide;Acc:NP_503880]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
Y73C8B.5	Y73C8B.5	Y73C8B.5 [Source:RefSeq_peptide;Acc:NP_001033520]			calcium ion binding, 
K08D9.4	K08D9.4	K08D9.4 [Source:RefSeq_peptide;Acc:NP_503881]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
apx-1	K08D9.3	apx-1 encodes one of ten C. elegans DSL (Delta, Serrate, LAG-2) proteins, integral transmembrane and secreted proteins that function as signaling ligands for the Notch family receptors GLP-1 and LIN-12. in the 4-cell embryo, maternally supplied APX-1 functions as a GLP-1 ligand for an inductive interaction that specifies the fate of the ABp blastomere. later in embryogenesis, APX-1 is required for formation of the LIN-12-dependent, invariant asymmetrical twist that occurs as part of normal gut morphogenesis. during larval development, APX-1 is required redundantly with DSL-1 and LAG-2 for the LIN-12-mediated lateral signal that spatially patterns the primary and secondary vulval cell lineages. in the early embryo, APX-1 is first detected at the anterior edge of the P1 blastomere, with later expression visible in P2 at sites of contact with ABp, and in the cytoplasm of the EMS and P3 blastomeres. expression in the vulval precursor cells (VPCs) is detected in the primary VPC, P6.p, and its descendants. embryonic APX-1 expression is dependent upon PIE-1 activity, while later vulval expression is mediated by the Ras signaling pathway and the SUR-2 transcriptional cofactor. [Source: WormBase]	cell communication, cell differentiation, embryonic development ending in birth or egg hatching, regulation of vulval development, determination of anterior/posterior axis, embryo, 	membrane, integral to membrane, 	calcium ion binding, molecular_function, 
K08D9.5	K08D9.5	K08D9.5 [Source:RefSeq_peptide;Acc:NP_503883]			
K08D9.2	K08D9.2	K08D9.2 [Source:RefSeq_peptide;Acc:NP_503884]			
K08D9.6	K08D9.6	K08D9.6 [Source:RefSeq_peptide;Acc:NP_503885]			
K08D9.1	K08D9.1	K08D9.1 [Source:RefSeq_peptide;Acc:NP_503886]			
str-16	Y73C8A.1	Seven TM Receptor family member (str-16) [Source:RefSeq_peptide;Acc:NP_503887]	amino acid transport, 	membrane, 	
srj-11	T28A11.12	Serpentine Receptor, class J family member (srj-11) [Source:RefSeq_peptide;Acc:NP_503888]			
gst-23	T28A11.11	Glutathione S-Transferase family member (gst-23) [Source:RefSeq_peptide;Acc:NP_503889]	metabolic process, 		protein binding, glutathione transferase activity, 
srj-7	T28A11.10	Serpentine Receptor, class J family member (srj-7) [Source:RefSeq_peptide;Acc:NP_503890]			
srj-8	T28A11.9	Serpentine Receptor, class J family member (srj-8) [Source:RefSeq_peptide;Acc:NP_503891]			
T28A11.13	T28A11.13	T28A11.13 [Source:RefSeq_peptide;Acc:NP_503892]	cell redox homeostasis, 		
str-58	T28A11.8				
srt-63	T28A11.15	Serpentine Receptor, class T family member (srt-63) [Source:RefSeq_peptide;Acc:NP_503894]			
T28A11.22	T28A11.22	T28A11.22 [Source:RefSeq_peptide;Acc:NP_001033505]	protein modification process, 		
T28A11.16	T28A11.16	T28A11.16 [Source:RefSeq_peptide;Acc:NP_503895]			
srbc-5	T28A11.7	Serpentine Receptor, class BC (class B-like) family member (srbc-5) [Source:RefSeq_peptide;Acc:NP_503896]	ATP synthesis coupled proton transport, 	integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
T28A11.6	T28A11.6	T28A11.6 [Source:RefSeq_peptide;Acc:NP_503897]			
T28A11.17	T28A11.17	T28A11.17 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T28A11.17 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T28A11.18	T28A11.18	T28A11.18 [Source:RefSeq_peptide;Acc:NP_503899]			
T28A11.19	T28A11.19	T28A11.19 [Source:RefSeq_peptide;Acc:NP_503900]			
T28A11.5	T28A11.5	T28A11.5 [Source:RefSeq_peptide;Acc:NP_503901]			
T28A11.20	T28A11.20	T28A11.20 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T28A11.20 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T28A11.4	T28A11.4	T28A11.4 [Source:RefSeq_peptide;Acc:NP_503903]			
T28A11.3	T28A11.3	T28A11.3 [Source:RefSeq_peptide;Acc:NP_503904]		viral capsid, 	structural molecule activity, 
fbxa-64	T28A11.21	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T28A11.2	T28A11.2	T28A11.2 [Source:RefSeq_peptide;Acc:NP_503906]		viral capsid, 	structural molecule activity, 
str-64	T28A11.1	Seven TM Receptor family member (str-64) [Source:RefSeq_peptide;Acc:NP_503907]			
F35F10.5	F35F10.5	F35F10.5 [Source:RefSeq_peptide;Acc:NP_503908]			
F35F10.7	F35F10.7	F35F10.7 [Source:RefSeq_peptide;Acc:NP_503909]			
F35F10.6	F35F10.6	F35F10.6 [Source:RefSeq_peptide;Acc:NP_503910]			
F35F10.4	F35F10.4	F35F10.4 [Source:RefSeq_peptide;Acc:NP_503911]			
srx-122	F35F10.8	Serpentine Receptor, class X family member (srx-122) [Source:RefSeq_peptide;Acc:NP_503912]			
srbc-1	F35F10.9	Serpentine Receptor, class BC (class B-like) family member (srbc-1) [Source:RefSeq_peptide;Acc:NP_503913]			
F35F10.10	F35F10.10	F35F10.10 [Source:RefSeq_peptide;Acc:NP_503914]			
srbc-3	F35F10.2	Serpentine Receptor, class BC (class B-like) family member (srbc-3) [Source:RefSeq_peptide;Acc:NP_503915]			
F35F10.11	F35F10.11	F35F10.11 [Source:RefSeq_peptide;Acc:NP_503916]			
F35F10.12	F35F10.12	F35F10.12 [Source:RefSeq_peptide;Acc:NP_503917]	signal transduction, 		protein binding, 
F35F10.1	F35F10.1	F35F10.1 [Source:RefSeq_peptide;Acc:NP_503918]			
F35F10.13	F35F10.13	F35F10.13 [Source:RefSeq_peptide;Acc:NP_503919]			
F35F10.14	F35F10.14	F35F10.14 [Source:RefSeq_peptide;Acc:NP_503920]			
C17B7.8	C17B7.8	C17B7.8 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. C17B7.8 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
C17B7.7	C17B7.7	C17B7.7 [Source:RefSeq_peptide;Acc:NP_503922]			
C17B7.13	C17B7.13	C17B7.13 [Source:RefSeq_peptide;Acc:NP_001041084]			
C17B7.9	C17B7.9	C17B7.9 [Source:RefSeq_peptide;Acc:NP_503923]			
C17B7.5	C17B7.5	C17B7.5 [Source:RefSeq_peptide;Acc:NP_503925]	transport, 		transporter activity, binding, 
C17B7.4	C17B7.4	C17B7.4 [Source:RefSeq_peptide;Acc:NP_503926]			
C17B7.10	C17B7.10	C17B7.10 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. C17B7.10 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
C17B7.3	C17B7.3	C17B7.3 [Source:RefSeq_peptide;Acc:NP_503928]		viral capsid, 	structural molecule activity, 
fbxa-65	C17B7.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C17B7.2	C17B7.2	UPF0376 protein C17B7.2. [Source:Uniprot/SWISSPROT;Acc:O45160]		viral capsid, 	structural molecule activity, 
str-63	C17B7.1	Seven TM Receptor family member (str-63) [Source:RefSeq_peptide;Acc:NP_503931]			
C17B7.12	C17B7.12	C17B7.12 [Source:RefSeq_peptide;Acc:NP_503932]			
C04E12.6	C04E12.6	C04E12.6 [Source:RefSeq_peptide;Acc:NP_503933]			protein binding, 
scrm-3	C04E12.7	scrm-3 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). SCRM-3 is expressed in neurons, anal depressor muscle, and occasionally in body wall muscle cells. however, in apoptotic germline cells, SCRM-3 is fully dispensable for normally rapid engulfment and largely dispensable for phosphatidylserine exposure. SCRM-3 does not bind WAH-1 in vitro, and scrm-3(tm631) mutants have no obvious phenotype. [Source: WormBase]			
C04E12.5	C04E12.5	C04E12.5 [Source:RefSeq_peptide;Acc:NP_503935]			
C04E12.4	C04E12.4	C04E12.4 [Source:RefSeq_peptide;Acc:NP_503936]			
C04E12.2	C04E12.2	C04E12.2 [Source:RefSeq_peptide;Acc:NP_503938]			
srx-121	C04E12.8	Serpentine Receptor, class X family member (srx-121) [Source:RefSeq_peptide;Acc:NP_503939]			
srbc-2	C04E12.9	Serpentine Receptor, class BC (class B-like) family member (srbc-2) [Source:RefSeq_peptide;Acc:NP_503940]			
C04E12.10	C04E12.10	C04E12.10 [Source:RefSeq_peptide;Acc:NP_503941]			
srbc-4	C04E12.1				
C04E12.11	C04E12.11	C04E12.11 [Source:RefSeq_peptide;Acc:NP_503943]			
C04E12.12	C04E12.12	C04E12.12 [Source:RefSeq_peptide;Acc:NP_503944]	signal transduction, 		
T20D4.13	T20D4.13	T20D4.13 [Source:RefSeq_peptide;Acc:NP_503945]			
T20D4.15	T20D4.15	T20D4.15 [Source:RefSeq_peptide;Acc:NP_503946]			
T20D4.16	T20D4.16	T20D4.16 [Source:RefSeq_peptide;Acc:NP_503947]			
T20D4.17	T20D4.17	T20D4.17 [Source:RefSeq_peptide;Acc:NP_503948]			
T20D4.12	T20D4.12	T20D4.12 [Source:RefSeq_peptide;Acc:NP_503949]			
T20D4.11	T20D4.11	T20D4.11 [Source:RefSeq_peptide;Acc:NP_503950]			
T20D4.10	T20D4.10	T20D4.10 [Source:RefSeq_peptide;Acc:NP_503951]			
T20D4.20	T20D4.20	T20D4.20 [Source:RefSeq_peptide;Acc:NP_001041169]			
T20D4.9	T20D4.9	T20D4.9 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T20D4.9 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T20D4.8	T20D4.8	T20D4.8 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T20D4.8 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
T20D4.7	T20D4.7	T20D4.7 [Source:RefSeq_peptide;Acc:NP_503954]	cell redox homeostasis, 		oxidoreductase activity, antioxidant activity, 
T20D4.6	T20D4.6	T20D4.6 [Source:RefSeq_peptide;Acc:NP_503955]			
T20D4.5	T20D4.5	T20D4.5 [Source:RefSeq_peptide;Acc:NP_503956]			
T20D4.4	T20D4.4	T20D4.4 [Source:RefSeq_peptide;Acc:NP_503957]			
T20D4.3	T20D4.3	T20D4.3 [Source:RefSeq_peptide;Acc:NP_503958]			
srab-21	T20D4.18	Serpentine Receptor, class AB (class A-like) family member (srab-21) [Source:RefSeq_peptide;Acc:NP_503959]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srab-22	T20D4.2	Serpentine Receptor, class AB (class A-like) family member (srab-22) [Source:RefSeq_peptide;Acc:NP_503960]			
srab-20	T20D4.1	Serpentine Receptor, class AB (class A-like) family member (srab-20) [Source:RefSeq_peptide;Acc:NP_503961]		membrane, 	transmembrane receptor activity, 
T20D4.19	T20D4.19	T20D4.19 [Source:RefSeq_peptide;Acc:NP_503962]			
srj-9	T20C4.1	Serpentine Receptor, class J family member (srj-9) [Source:RefSeq_peptide;Acc:NP_503963]			
cfz-2	F27E11.3	cfz-2 encodes a member of the Frizzled family of membrane receptors. [Source: WormBase]	cell surface receptor linked signal transduction, 	membrane, 	G-protein coupled receptor activity, non-G-protein coupled 7TM receptor activity, 
F27E11.t1	F27E11.t1				
F27E11.2	F27E11.2	F27E11.2a [Source:RefSeq_peptide;Acc:NP_503966]	transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, nucleoside:sodium symporter activity, nucleoside binding, 
F27E11.1	F27E11.1	F27E11.1 [Source:RefSeq_peptide;Acc:NP_503967]	transport, 	membrane, 	nucleoside:sodium symporter activity, nucleoside binding, 
gst-33	C02A12.1	Glutathione S-Transferase family member (gst-33) [Source:RefSeq_peptide;Acc:NP_503968]			protein binding, 
srbc-29	C02A12.2	Serpentine Receptor, class BC (class B-like) family member (srbc-29) [Source:RefSeq_peptide;Acc:NP_503969]			
C02A12.8	C02A12.8	C02A12.8 [Source:RefSeq_peptide;Acc:NP_001021360]		endoplasmic reticulum, 	transferase activity, transferring groups other than amino-acyl groups, 
srbc-31	C02A12.9	Serpentine Receptor, class BC (class B-like) family member (srbc-31) [Source:RefSeq_peptide;Acc:NP_001021361]			
srbc-30	C02A12.3	Serpentine Receptor, class BC (class B-like) family member (srbc-30) [Source:RefSeq_peptide;Acc:NP_503970]			
lys-7	C02A12.4	lys-7 encodes an enzyme homologous to an antimicrobial lysozyme encoded by the LYS4 gene of the protozoan parasite Entamoeba histolytica. by homology, LYS-7 is predicted to function as an antimicrobial enzyme that hydrolyzes the 1,4-beta-linkages between N-acetyl-D-glucosamine and N-acetylmuramic acid in peptidoglycan heteropolymers of prokaryotic cell walls. in C. elegans, lys-7 expression is significantly upregulated in response to infection with the Gram-negative bacterium Serratia marcescens, indicating that LYS-7 likely plays a role in the innate immune response. constitutive expression of lys-7 mRNA is detected in the intestine and the intestinal valve cells. [Source: WormBase]	determination of adult life span, 		catalytic activity, 
srbc-33	C02A12.10	Serpentine Receptor, class BC (class B-like) family member (srbc-33) [Source:RefSeq_peptide;Acc:NP_001021357]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
srbc-32	C02A12.5	Serpentine Receptor, class BC (class B-like) family member (srbc-32) [Source:RefSeq_peptide;Acc:NP_503973]			
srbc-36	C02A12.6	Serpentine Receptor, class BC (class B-like) family member (srbc-36) [Source:RefSeq_peptide;Acc:NP_503974]			
srbc-35	C07G3.7				
C07G3.8	C07G3.8	C07G3.8 [Source:RefSeq_peptide;Acc:NP_503976]			
C07G3.10	C07G3.10	C07G3.10 [Source:RefSeq_peptide;Acc:NP_503977]			
ugt-64	C07G3.9	UDP-GlucuronosylTransferase family member (ugt-64) [Source:RefSeq_peptide;Acc:NP_503978]	metabolic process, 		transferase activity, transferring hexosyl groups, 
str-225	C07G3.6	Seven TM Receptor family member (str-225) [Source:RefSeq_peptide;Acc:NP_503979]	sulfate transport, 		thiosulfate sulfurtransferase activity, 
str-228	C07G3.5	Seven TM Receptor family member (str-228) [Source:RefSeq_peptide;Acc:NP_503980]			
str-226	C07G3.4	Seven TM Receptor family member (str-226) [Source:RefSeq_peptide;Acc:NP_503981]			
str-227	C07G3.3	Seven TM Receptor family member (str-227) [Source:RefSeq_peptide;Acc:NP_503982]			
srh-191	C07G3.11				
C07G3.2	C07G3.2	C07G3.2 [Source:RefSeq_peptide;Acc:NP_503983]			
T24A6.7	T24A6.7	T24A6.7 [Source:RefSeq_peptide;Acc:NP_503984]			
str-260	T24A6.6	Seven TM Receptor family member (str-260) [Source:RefSeq_peptide;Acc:NP_503985]			
srbc-66	T24A6.5	Serpentine Receptor, class BC (class B-like) family member (srbc-66) [Source:RefSeq_peptide;Acc:NP_503986]			
nhr-221	T24A6.8	Nuclear Hormone Receptor family member (nhr-221) [Source:RefSeq_peptide;Acc:NP_503987]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-93	T24A6.9				
srbc-67	T24A6.10	Serpentine Receptor, class BC (class B-like) family member (srbc-67) [Source:RefSeq_peptide;Acc:NP_503989]			
nhr-222	T24A6.11	Nuclear Hormone Receptor family member (nhr-222) [Source:RefSeq_peptide;Acc:NP_503990]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srbc-69	T24A6.12				
srbc-68	T24A6.13	Serpentine Receptor, class BC (class B-like) family member (srbc-68) [Source:RefSeq_peptide;Acc:NP_503992]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-130	T24A6.14	Serpentine Receptor, class W family member (srw-130) [Source:RefSeq_peptide;Acc:NP_503993]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sri-21	T24A6.4	Serpentine Receptor, class I family member (sri-21) [Source:RefSeq_peptide;Acc:NP_503994]			
grl-28	T24A6.15	grl-28 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
T24A6.20	T24A6.20	T24A6.20 [Source:RefSeq_peptide;Acc:NP_503996]			
grl-29	T24A6.18	grl-29 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-29 is expressed in larval neurons. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
grl-30	T24A6.3				
grl-31	T24A6.19	GRound-Like (grd related) family member (grl-31) [Source:RefSeq_peptide;Acc:NP_503999]			
T24A6.2	T24A6.2	T24A6.2 [Source:RefSeq_peptide;Acc:NP_504000]			
T24A6.1	T24A6.1	T24A6.1 [Source:RefSeq_peptide;Acc:NP_504001]			
grl-32	T24A6.21				
T24A6.16	T24A6.16	T24A6.16 [Source:RefSeq_peptide;Acc:NP_504002]			
T24A6.17	T24A6.17	F40C5.2 [Source:RefSeq_peptide;Acc:NP_504004]			
F40C5.2	F40C5.2	F40C5.2 [Source:RefSeq_peptide;Acc:NP_504004]			
F40C5.1	F40C5.1	F40C5.1 [Source:RefSeq_peptide;Acc:NP_504005]			
grl-27	F40C5.3	grl-27 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-27 is expressed in arcade cells. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	type I hypersensitivity, 		
T22F3.3	T22F3.3	T22F3.3 is orthologous to the human gene MUSCLE GLYCOGEN PHOSPHORYLASE (PYGM. OMIM:232600), which when mutated leads to McArdle disease. [Source: WormBase]	carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		pyridoxal phosphate binding, phosphorylase activity, 
T22F3.t4	T22F3.t4				
T22F3.t1	T22F3.t1				
rpl-11.1	T22F3.4	rpl-11.1 encodes a large ribosomal subunit L11 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
T22F3.2	T22F3.2	T22F3.2a [Source:RefSeq_peptide;Acc:NP_741517]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
T22F3.t3	T22F3.t3				
T22F3.t2	T22F3.t2				
T22F3.12	T22F3.12	T22F3.12 [Source:RefSeq_peptide;Acc:NP_001041170]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
T22F3.1	T22F3.1				
srh-213	T22F3.5	Serpentine Receptor, class H family member (srh-213) [Source:RefSeq_peptide;Acc:NP_504010]			
srh-212	T22F3.6	Serpentine Receptor, class H family member (srh-212) [Source:RefSeq_peptide;Acc:NP_504011]	sodium ion transport, 	membrane, 	sodium:amino acid symporter activity, 
T22F3.7	T22F3.7	T22F3.7 [Source:RefSeq_peptide;Acc:NP_504012]	transport, 	integral to membrane, 	transporter activity, 
T22F3.8	T22F3.8	T22F3.8 [Source:RefSeq_peptide;Acc:NP_504013]	transport, 	integral to membrane, 	transporter activity, 
T22F3.10	T22F3.10	T22F3.10 [Source:RefSeq_peptide;Acc:NP_504014]	transport, 	integral to membrane, 	transporter activity, 
T22F3.11	T22F3.11	T22F3.11a [Source:RefSeq_peptide;Acc:NP_504015]	transport, 	integral to membrane, 	transporter activity, 
srx-93	F59B1.3	Serpentine Receptor, class X family member (srx-93) [Source:RefSeq_peptide;Acc:NP_504016]	response to antibiotic, G-protein coupled receptor protein signaling pathway, tetracycline transport, 	integral to membrane, 	rhodopsin-like receptor activity, tetracycline:hydrogen antiporter activity, 
srx-94	F59B1.5				
F59B1.4	F59B1.4	F59B1.4 [Source:RefSeq_peptide;Acc:NP_504018]	ATP synthesis coupled proton transport, 	proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
F59B1.6	F59B1.6	F59B1.6 [Source:RefSeq_peptide;Acc:NP_504019]	embryonic development ending in birth or egg hatching, 		
F59B1.2	F59B1.2	F59B1.2 [Source:RefSeq_peptide;Acc:NP_504020]			protein binding, 
srx-41	F59B1.7	Serpentine Receptor, class X family member (srx-41) [Source:RefSeq_peptide;Acc:NP_504021]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, rhodopsin-like receptor activity, 
F59B1.8	F59B1.8	F59B1.8 [Source:RefSeq_peptide;Acc:NP_504022]			
F59B1.10	F59B1.10	F59B1.10 [Source:RefSeq_peptide;Acc:NP_872223]			
str-114	F59B1.1	Seven TM Receptor family member (str-114) [Source:RefSeq_peptide;Acc:NP_504023]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
acr-23	F59B1.9	acr-23 encodes an alpha 7-like homomer-forming subunit of the nicotinic acetylcholine receptor (nAChR) superfamily which encode ligand-gated ion channels that regulate fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-23 is a member of the DEG-3-like group of nAChR subunits which appears to be unique to nematodes. [Source: WormBase]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, postsynaptic membrane, synapse, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
str-113	Y39H10B.1	Seven TM Receptor family member (str-113) [Source:RefSeq_peptide;Acc:NP_504025]			
Y39H10B.2	Y39H10B.2	Y39H10B.2 [Source:RefSeq_peptide;Acc:NP_001033510]			
W08A12.4	W08A12.4	W08A12.4 [Source:RefSeq_peptide;Acc:NP_504026]			
W08A12.3	W08A12.3	W08A12.3 [Source:RefSeq_peptide;Acc:NP_504027]			
W08A12.2	W08A12.2	W08A12.2 [Source:RefSeq_peptide;Acc:NP_504028]			
W08A12.1	W08A12.1	W08A12.1b [Source:RefSeq_peptide;Acc:NP_504029]			
lin-40	T27C4.4	EGl-27 Related family member (egr-1) [Source:RefSeq_peptide;Acc:NP_504032]	regulation of transcription, DNA-dependent, oviposition, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, 
T27C4.1	T27C4.1	T27C4.1 [Source:RefSeq_peptide;Acc:NP_504033]			
str-30	T27C4.3	Seven TM Receptor family member (str-30) [Source:RefSeq_peptide;Acc:NP_504034]			
T27C4.2	T27C4.2	T27C4.2 [Source:RefSeq_peptide;Acc:NP_504035]			
T27C4.5	T27C4.5				
Y39H10A.4	Y39H10A.4	Y39H10A.4 [Source:RefSeq_peptide;Acc:NP_504036]			
Y39H10A.5	Y39H10A.5	Y39H10A.5 [Source:RefSeq_peptide;Acc:NP_504037]			
mtm-9	Y39H10A.3	mtm-9 encodes a myotubularin-related protein that affects phosphoinositide 3-phosphate localization and mutation blocks endocytosis by the coelomocytes of C. elegans. MTM-9 is believed to function as part of a complex with MTM-6A and it is predominantly localized to the coelomocyte cytoplasm, with some localization to the membrane. [Source: WormBase]	endocytosis, phospholipid dephosphorylation, 		inositol or phosphatidylinositol phosphatase activity, 
Y39H10A.6	Y39H10A.6	Y39H10A.6 [Source:RefSeq_peptide;Acc:NP_504039]	embryonic development ending in birth or egg hatching, 		
chk-1	Y39H10A.7	chk-1 encodes a CHK1-like serine threonin protein kinase that affects fertility. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y39H10A.2	Y39H10A.2	Y39H10A.2 [Source:RefSeq_peptide;Acc:NP_504041]			transferase activity, transferring groups other than amino-acyl groups, 
Y39H10A.1	Y39H10A.1	Y39H10A.1 [Source:RefSeq_peptide;Acc:NP_504042]			
R08E5.4	R08E5.4	R08E5.4 [Source:RefSeq_peptide;Acc:NP_504043]			
R08E5.1	R08E5.1	R08E5.1 [Source:RefSeq_peptide;Acc:NP_504044]	metabolic process, 		methyltransferase activity, 
R08E5.3	R08E5.3	R08E5.3 [Source:RefSeq_peptide;Acc:NP_504045]	metabolic process, 		methyltransferase activity, 
R08E5.2	R08E5.2	R08E5.2a [Source:RefSeq_peptide;Acc:NP_504046]	metabolic process, cysteine biosynthetic process from serine, 		catalytic activity, pyridoxal phosphate binding, cysteine synthase activity, 
R08F11.1	R08F11.1	R08F11.1 [Source:RefSeq_peptide;Acc:NP_504047]			
R08F11.7	R08F11.7	R08F11.7 [Source:RefSeq_peptide;Acc:NP_504048]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
R08F11.6	R08F11.6	R08F11.6 [Source:RefSeq_peptide;Acc:NP_504049]	iron ion transport, 	integral to membrane, 	iron ion transmembrane transporter activity, 
srt-30	R08F11.2	Serpentine Receptor, class T family member (srt-30) [Source:RefSeq_peptide;Acc:NP_504050]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
cyp-33C8	R08F11.3	CYtochrome P450 family member (cyp-33C8) [Source:RefSeq_peptide;Acc:NP_504051]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
R08F11.4	R08F11.4	R08F11.4 [Source:RefSeq_peptide;Acc:NP_504052]	metabolic process, 		methyltransferase activity, 
srw-7	R08F11.5	Serpentine Receptor, class W family member (srw-7) [Source:RefSeq_peptide;Acc:NP_504053]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-6	H10D18.3	Serpentine Receptor, class W family member (srw-6) [Source:RefSeq_peptide;Acc:NP_504054]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
H10D18.4	H10D18.4	H10D18.4 [Source:RefSeq_peptide;Acc:NP_504055]		extracellular region, 	
H10D18.2	H10D18.2	H10D18.2 [Source:RefSeq_peptide;Acc:NP_504056]		extracellular region, 	
H10D18.5	H10D18.5	H10D18.5 [Source:RefSeq_peptide;Acc:NP_504057]			
H10D18.1	H10D18.1	H10D18.1 [Source:RefSeq_peptide;Acc:NP_504058]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
H10D18.6	H10D18.6	H10D18.6 [Source:RefSeq_peptide;Acc:NP_504059]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-32	F47C10.6	UDP-GlucuronosylTransferase family member (ugt-32) [Source:RefSeq_peptide;Acc:NP_504060]	metabolic process, 		transferase activity, transferring hexosyl groups, 
nhr-185	F47C10.1	Nuclear Hormone Receptor family member (nhr-185) [Source:RefSeq_peptide;Acc:NP_504061]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F47C10.2	F47C10.2	F47C10.2 [Source:RefSeq_peptide;Acc:NP_504062]			protein binding, 
nhr-186	F47C10.3	Nuclear Hormone Receptor family member (nhr-186) [Source:RefSeq_peptide;Acc:NP_504063]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-188	F47C10.7	Nuclear Hormone Receptor family member (nhr-188) [Source:RefSeq_peptide;Acc:NP_504064]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-189	F47C10.8	Nuclear Hormone Receptor family member (nhr-189) [Source:RefSeq_peptide;Acc:NP_504065]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-187	F47C10.4	Nuclear Hormone Receptor family member (nhr-187) [Source:RefSeq_peptide;Acc:NP_504066]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-157	C17E7.5	Nuclear Hormone Receptor family member (nhr-157) [Source:RefSeq_peptide;Acc:NP_504067]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-158	C17E7.6	Nuclear Hormone Receptor family member (nhr-158) [Source:RefSeq_peptide;Acc:NP_504068]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-159	C17E7.7	Nuclear Hormone Receptor family member (nhr-159) [Source:RefSeq_peptide;Acc:NP_504069]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-124	C17E7.8	Nuclear hormone receptor family member nhr-124. [Source:Uniprot/SWISSPROT;Acc:O16391]	intracellular signaling cascade, regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C17E7.13	C17E7.13	C17E7.13 [Source:RefSeq_peptide;Acc:NP_504071]			
C17E7.9	C17E7.9	C17E7.9a [Source:RefSeq_peptide;Acc:NP_504073]			
C17E7.12	C17E7.12	C17E7.12 [Source:RefSeq_peptide;Acc:NP_504074]			
C17E7.4	C17E7.4	C17E7.4 [Source:RefSeq_peptide;Acc:NP_504075]	embryonic development ending in birth or egg hatching, 		nucleotide binding, protein binding, 
sre-9	C17E7.3	Serpentine Receptor, class E (epsilon) family member (sre-9) [Source:RefSeq_peptide;Acc:NP_504076]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C17E7.10	C17E7.10	C17E7.10 [Source:RefSeq_peptide;Acc:NP_504077]		membrane, 	
str-229	C17E7.11	Seven TM Receptor family member (str-229) [Source:RefSeq_peptide;Acc:NP_504078]			
srh-190	C17E7.2	Serpentine Receptor, class H family member (srh-190) [Source:RefSeq_peptide;Acc:NP_504079]			
nhr-156	C17E7.1	Nuclear Hormone Receptor family member (nhr-156) [Source:RefSeq_peptide;Acc:NP_504080]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-284	T20C7.2	Nuclear Hormone Receptor family member (nhr-284) [Source:RefSeq_peptide;Acc:NP_001024151]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
srx-61	T20C7.1				
srx-68	K07C6.11	Serpentine Receptor, class X family member (srx-68) [Source:RefSeq_peptide;Acc:NP_504082]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-67	K07C6.10	Serpentine Receptor, class X family member (srx-67) [Source:RefSeq_peptide;Acc:NP_504084]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-66	K07C6.9	Serpentine Receptor, class X family member (srx-66) [Source:RefSeq_peptide;Acc:NP_504085]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-65	K07C6.8	Serpentine Receptor, class X family member (srx-65) [Source:RefSeq_peptide;Acc:NP_504086]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-69	K07C6.13				
srx-64	K07C6.7	Serpentine Receptor, class X family member (srx-64) [Source:RefSeq_peptide;Acc:NP_504089]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-63	K07C6.6	Serpentine Receptor, class X family member (srx-63) [Source:RefSeq_peptide;Acc:NP_504090]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-70	K07C6.15				
cyp-35A5	K07C6.5	CYtochrome P450 family member (cyp-35A5) [Source:RefSeq_peptide;Acc:NP_504092]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-35B1	K07C6.4	CYtochrome P450 family member (cyp-35B1) [Source:RefSeq_peptide;Acc:NP_504093]	electron transport, determination of adult life span, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-35B2	K07C6.3	CYtochrome P450 family member (cyp-35B2) [Source:RefSeq_peptide;Acc:NP_504094]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-35B3	K07C6.2	CYtochrome P450 family member (cyp-35B3) [Source:RefSeq_peptide;Acc:NP_504095]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
srz-89	K07C6.1				
cyp-34A4	T09H2.1	CYtochrome P450 family member (cyp-34A4) [Source:RefSeq_peptide;Acc:NP_504097]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
str-247	B0213.9	Seven TM Receptor family member (str-247) [Source:RefSeq_peptide;Acc:NP_504098]			
cyp-34A5	B0213.10	CYtochrome P450 family member (cyp-34A5) [Source:RefSeq_peptide;Acc:NP_504099]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-34A6	B0213.11	CYtochrome P450 family member (cyp-34A6) [Source:RefSeq_peptide;Acc:NP_504100]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-34A7	B0213.12	CYtochrome P450 family member (cyp-34A7) [Source:RefSeq_peptide;Acc:NP_504101]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-34A8	B0213.14	CYtochrome P450 family member (cyp-34A8) [Source:RefSeq_peptide;Acc:NP_504102]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
NR_001520.1	B0213.18	B0213.18, snoRNA [Source:RefSeq_dna;Acc:NR_001520]			
cyp-34A9	B0213.15	CYtochrome P450 family member (cyp-34A9) [Source:RefSeq_peptide;Acc:NP_001041071]	electron transport, determination of adult life span, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-34A10	B0213.16	CYtochrome P450 family member (cyp-34A10) [Source:RefSeq_peptide;Acc:NP_504104]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
str-82	B0213.8	Seven TM Receptor family member (str-82) [Source:RefSeq_peptide;Acc:NP_504105]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
str-83	B0213.7	Seven TM Receptor family member (str-83) [Source:RefSeq_peptide;Acc:NP_504106]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
nlp-34	B0213.17	Neuropeptide-Like Protein family member (nlp-34) [Source:RefSeq_peptide;Acc:NP_741520]			
nlp-31	B0213.6	nlp-31 encodes five predicted neuropeptide-like proteins. in C. elegans, nlp-31 is part of the YGGWamide neuropeptide family that also contains nlp-24, nlp-25, and nlp-27-32. nlp-31 is expressed in the hypodermis, suggesting that the peptides it encodes may have a non-neuronal function. nlp-31 expression is also detected in precomma-stage embryos. as loss of nlp-31 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of the nlp-31-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]	protein homooligomerization, 	membrane, 	
nlp-30	B0213.5	nlp-30 encodes five predicted neuropeptide-like proteins. in C. elegans, nlp-30 is part of the YGGWamide neuropeptide family that also contains nlp-24, nlp-25, and nlp-27-32. nlp-30 is expressed in the hypodermis, suggesting that the peptides it encodes may have a non-neuronal function. as loss of nlp-30 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of the nlp-30-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
nlp-29	B0213.4	nlp-29 encodes a neuropeptide-like protein. nlp-29 appears to play a role in innate immunity, as its expression is strongly induced following bacterial and fungal infection. nlp-29 is expressed in the hypodermis and in the intestine. nlp-29 expression is regulated by TIR-1, an ortholog of SARM, a Toll-interleukin 1 receptor (TIR) domain protein, and by the RAB-1 GTPase and the product of R53.4, a mitochondrial ATP synthase subunit f homolog. [Source: WormBase]			
nlp-28	B0213.3	Neuropeptide-like protein 28 precursor [Contains: QWGYGGY-amide; GYGGYGGY-amide; GMYGGY-amide; GMYGGW-amide]. [Source:Uniprot/SWISSPROT;Acc:O44665]			
nlp-27	B0213.2	nlp-27 encodes a predicted neuropeptide with homology to C. elegans nlp-28 through nlp-31. [Source: WormBase]			
K09D9.9	K09D9.9	K09D9.9 [Source:RefSeq_peptide;Acc:NP_504113]			
srx-62	K09D9.10	Serpentine Receptor, class X family member (srx-62) [Source:RefSeq_peptide;Acc:NP_504114]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K09D9.11	K09D9.11	K09D9.11 [Source:RefSeq_peptide;Acc:NP_504115]		intracellular, 	
K09D9.12	K09D9.12	K09D9.12 [Source:RefSeq_peptide;Acc:NP_504116]			
srh-8	K09D9.8	Serpentine Receptor, class H family member (srh-8) [Source:RefSeq_peptide;Acc:NP_504117]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	purinergic nucleotide receptor activity, G-protein coupled, 
srh-7	K09D9.7	Serpentine Receptor, class H family member (srh-7) [Source:RefSeq_peptide;Acc:NP_504118]			
srh-4	K09D9.6	Serpentine Receptor, class H family member (srh-4) [Source:RefSeq_peptide;Acc:NP_504119]		membrane, 	G-protein coupled receptor activity, 
str-42	K09D9.5				
srh-6	K09D9.4				
srw-89	K09D9.13	Serpentine Receptor, class W family member (srw-89) [Source:RefSeq_peptide;Acc:NP_001024046]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K09D9.3	K09D9.3	K09D9.3 [Source:RefSeq_peptide;Acc:NP_504120]			
cyp-35A3	K09D9.2	CYtochrome P450 family member (cyp-35A3) [Source:RefSeq_peptide;Acc:NP_504121]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
K09D9.1	K09D9.1	K09D9.1 [Source:RefSeq_peptide;Acc:NP_504122]			
cyp-35A4	C49G7.8	CYtochrome P450 family member (cyp-35A4) [Source:RefSeq_peptide;Acc:NP_504124]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C49G7.7	C49G7.7	C49G7.7 [Source:RefSeq_peptide;Acc:NP_504125]			
C49G7.10	C49G7.10	C49G7.10 [Source:RefSeq_peptide;Acc:NP_504126]	electron transport, 		iron ion binding, heme binding, electron carrier activity, 
C49G7.6	C49G7.6	C49G7.6 [Source:RefSeq_peptide;Acc:NP_504127]			
C49G7.5	C49G7.5	C49G7.5 [Source:RefSeq_peptide;Acc:NP_504128]			
phat-3	C49G7.4	PHAryngeal gland Toxin-related family member (phat-3) [Source:RefSeq_peptide;Acc:NP_504129]			
C49G7.3	C49G7.3	C49G7.3 [Source:RefSeq_peptide;Acc:NP_504130]			
srh-169	C49G7.2	Serpentine Receptor, class H family member (srh-169) [Source:RefSeq_peptide;Acc:NP_504131]			
djr-1.2	C49G7.11	DJ-1 (mammalian transcriptional regulator) Related family member (djr-1.2) [Source:RefSeq_peptide;Acc:NP_504132]			hydrolase activity, acting on glycosyl bonds, 
C49G7.1	C49G7.1	C49G7.1 [Source:RefSeq_peptide;Acc:NP_504133]		intracellular, 	
D1065.3	D1065.3	D1065.3 [Source:RefSeq_peptide;Acc:NP_504134]			
D1065.2	D1065.2				
srh-210	D1065.4	Serpentine Receptor, class H family member (srh-210) [Source:RefSeq_peptide;Acc:NP_001023748]			
D1065.1	D1065.1	D1065.1 [Source:RefSeq_peptide;Acc:NP_504136]			
srh-211	D1065.5	Serpentine Receptor, class H family member (srh-211) [Source:RefSeq_peptide;Acc:NP_504137]			
F38H12.5	F38H12.5	F38H12.5 [Source:RefSeq_peptide;Acc:NP_504138]			
nhr-181	F38H12.3	nhr-181 encodes a putative nuclear hormone receptor (NHR), belonging to a large nematode-specific expanded family of NHRs, that inhibits CEP-1- and HUS-1-dependent germline apoptosis as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srj-40	F38H12.2	Serpentine Receptor, class J family member (srj-40) [Source:RefSeq_peptide;Acc:NP_504140]			
srj-39	F38H12.1	Serpentine Receptor, class J family member (srj-39) [Source:RefSeq_peptide;Acc:NP_504141]			
srw-132	T05B4.5	Serpentine Receptor, class W family member (srw-132) [Source:RefSeq_peptide;Acc:NP_504142]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-134	T05B4.7	Serpentine Receptor, class W family member (srw-134) [Source:RefSeq_peptide;Acc:NP_504143]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-133	T05B4.6	Serpentine Receptor, class W family member (srw-133) [Source:RefSeq_peptide;Acc:NP_504144]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, GABA-B receptor activity, 
T05B4.8	T05B4.8	T05B4.8 [Source:RefSeq_peptide;Acc:NP_504145]			
T05B4.9	T05B4.9	T05B4.9 [Source:RefSeq_peptide;Acc:NP_504146]			
T05B4.10	T05B4.10	T05B4.10 [Source:RefSeq_peptide;Acc:NP_504147]			
phat-5	T05B4.11	PHAryngeal gland Toxin-related family member (phat-5) [Source:RefSeq_peptide;Acc:NP_504148]			
T05B4.12	T05B4.12	T05B4.12 [Source:RefSeq_peptide;Acc:NP_504149]			
T05B4.13	T05B4.13	T05B4.13 [Source:RefSeq_peptide;Acc:NP_504150]			
T05B4.4	T05B4.4	T05B4.4 [Source:RefSeq_peptide;Acc:NP_504151]			
phat-4	T05B4.3	PHAryngeal gland Toxin-related family member (phat-4) [Source:RefSeq_peptide;Acc:NP_504152]			
nhr-57	T05B4.2	Nuclear hormone receptor family member nhr-57. [Source:Uniprot/SWISSPROT;Acc:O16425]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
lgc-1	T05B4.1	T05B4.1 [Source:RefSeq_peptide;Acc:NP_504154]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
lgc-29	Y45G5AL.2	Y45G5AL.2 [Source:RefSeq_peptide;Acc:NP_001033513]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
Y45G5AL.1	Y45G5AL.1	Y45G5AL.1a [Source:RefSeq_peptide;Acc:NP_741522]			
Y45G5AM.6	Y45G5AM.6	Y45G5AM.6 [Source:RefSeq_peptide;Acc:NP_504156]			
Y45G5AM.5	Y45G5AM.5	Y45G5AM.5 [Source:RefSeq_peptide;Acc:NP_504157]			
Y45G5AM.4	Y45G5AM.4	Y45G5AM.4 [Source:RefSeq_peptide;Acc:NP_001033514]			
Y45G5AM.3	Y45G5AM.3	Y45G5AM.3 [Source:RefSeq_peptide;Acc:NP_504159]			
Y45G5AM.7	Y45G5AM.7	Y45G5AM.7 [Source:RefSeq_peptide;Acc:NP_504160]			
Y45G5AM.8	Y45G5AM.8	Y45G5AM.8 [Source:RefSeq_peptide;Acc:NP_504161]		nuclear chromosome, 	
Y45G5AM.2	Y45G5AM.2	Y45G5AM.2 [Source:RefSeq_peptide;Acc:NP_504162]			metalloexopeptidase activity, 
Y45G5AM.9	Y45G5AM.9	Y45G5AM.9a [Source:RefSeq_peptide;Acc:NP_504163]			
nhr-114	Y45G5AM.1	nhr-114 encodes, by alternative splicing, two isoforms of a nuclear hormone receptor that specifically binds GPA-13 in yeast two-hybrid assays. the interaction of NHR-114 with GPA-13 is independent of whether GPA-13 is constitutively activated or not. NHR-114 is expressed in intestine (and weakly in hypodermal cells), with mainly nuclear localization. NHR-114 has no obvious function or phenotype in RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
H43I07.3	H43I07.3	H43I07.3 [Source:RefSeq_peptide;Acc:NP_741523]			
H43I07.2	H43I07.2	H43I07.2 [Source:RefSeq_peptide;Acc:NP_504166]	transcription, embryonic development ending in birth or egg hatching, 		DNA-directed RNA polymerase activity, protein dimerization activity, 
H43I07.1	H43I07.1	H43I07.1 [Source:RefSeq_peptide;Acc:NP_504167]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
nlp-9	E03D2.2	Neuropeptide-Like Protein family member (nlp-9) [Source:RefSeq_peptide;Acc:NP_504168]			
nlp-13	E03D2.1	nlp-13 encodes a predicted neuropeptide of the MSFamide family. expressed primarily in neurons or in the endocrine/secretory cells, and expression includes pharyngeal neurons that modulate pharyngeal pumping of food. [Source: WormBase]		extracellular region, 	hormone activity, 
srh-204	E03D2.3	Serpentine Receptor, class H family member (srh-204) [Source:RefSeq_peptide;Acc:NP_504171]			
srt-12	E03D2.4	Serpentine Receptor, class T family member (srt-12) [Source:RefSeq_peptide;Acc:NP_504172]			
srt-13	ZC142.1	Serpentine Receptor, class T family member (srt-13) [Source:RefSeq_peptide;Acc:NP_504173]	cell surface receptor linked signal transduction, 	membrane, 	non-G-protein coupled 7TM receptor activity, 
srt-14	ZC142.2	Serpentine Receptor, class T family member (srt-14) [Source:RefSeq_peptide;Acc:NP_504174]			
srt-3	F47D2.3	Serpentine Receptor, class T family member (srt-3) [Source:RefSeq_peptide;Acc:NP_504175]			
srt-35	F47D2.4	Serpentine Receptor, class T family member (srt-35) [Source:RefSeq_peptide;Acc:NP_504176]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
srt-36	F47D2.5	Serpentine Receptor, class T family member (srt-36) [Source:RefSeq_peptide;Acc:NP_504177]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srt-38	F47D2.6	Serpentine Receptor, class T family member (srt-38) [Source:RefSeq_peptide;Acc:NP_504178]			
srt-60	F47D2.2				
srt-20	F47D2.7	Serpentine Receptor, class T family member (srt-20) [Source:RefSeq_peptide;Acc:NP_504180]			
srt-37	F47D2.8	Serpentine Receptor, class T family member (srt-37) [Source:RefSeq_peptide;Acc:NP_504181]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srt-19	F47D2.1	Serpentine Receptor, class T family member (srt-19) [Source:RefSeq_peptide;Acc:NP_504182]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	
srh-193	F47D2.9	Serpentine Receptor, class H family member (srh-193) [Source:RefSeq_peptide;Acc:NP_504183]			
srh-194	F47D2.10	Serpentine Receptor, class H family member (srh-194) [Source:RefSeq_peptide;Acc:NP_001023946]			
ZC132.3	ZC132.3	ZC132.3b [Source:RefSeq_peptide;Acc:NP_001024297]			
ZC132.4	ZC132.4	ZC132.4 [Source:RefSeq_peptide;Acc:NP_504186]			
ZC132.5	ZC132.5	ZC132.5 [Source:RefSeq_peptide;Acc:NP_504187]			
ZC132.6	ZC132.6	ZC132.6 [Source:RefSeq_peptide;Acc:NP_504188]			nucleic acid binding, 
ZC132.t1	ZC132.t1				
ZC132.2	ZC132.2	ZC132.2 [Source:RefSeq_peptide;Acc:NP_504189]			
srh-192	ZC132.7	Serpentine Receptor, class H family member (srh-192) [Source:RefSeq_peptide;Acc:NP_504190]			
ZC132.8	ZC132.8	ZC132.8 [Source:RefSeq_peptide;Acc:NP_504192]			
ZC132.9	ZC132.9	ZC132.9 [Source:RefSeq_peptide;Acc:NP_504193]			
nhr-125	R02D1.1	Nuclear hormone receptor family member nhr-125. [Source:Uniprot/SWISSPROT;Acc:O17082]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
D2063.1	D2063.1	D2063.1 [Source:RefSeq_peptide;Acc:NP_504195]			protein binding, zinc ion binding, oxidoreductase activity, 
D2063.2	D2063.2	D2063.2 [Source:RefSeq_peptide;Acc:NP_504196]			transferase activity, transferring groups other than amino-acyl groups, 
D2063.4	D2063.4	D2063.4 [Source:RefSeq_peptide;Acc:NP_001033472]			
D2063.3	D2063.3	D2063.3a [Source:RefSeq_peptide;Acc:NP_001023756]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
figl-1	F32D1.1	F32D1.1 encodes an homolog of human SPASTIN (OMIM:604277, mutated in spastic paraplegia), FIDGETIN (OMIM:605295, mutated in fidget mice), and FIDGETIN-LIKE-1, and of Drosophila SPASTIN. recombinant F32D1.1 protein has N-ethylmaleimide-sensitive ATPase activity in vitro, which is strongly dependent on the C368 residue immediately C-terminal to its Walker A motif. F32D1.1 is required for persistence of the germline in RNAi assays. [Source: WormBase]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, protein binding, identical protein binding, 
F32D1.2	F32D1.2	F32D1.2 [Source:RefSeq_peptide;Acc:NP_504198]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	mitochondrion, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
mcm-7	F32D1.10	yeast MCM (licensing factor) related family member (mcm-7) [Source:RefSeq_peptide;Acc:NP_504199]	photosynthesis, chlorophyll biosynthetic process, DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, magnesium chelatase activity, 
F32D1.3	F32D1.3	F32D1.3 [Source:RefSeq_peptide;Acc:NP_504200]			binding, 
grl-13	F32D1.4	grl-13 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-13 is expressed in larval arcade cells. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
F32D1.11	F32D1.11	F32D1.11 [Source:RefSeq_peptide;Acc:NP_001033482]			
F32D1.5	F32D1.5	Probable GMP reductase (EC 1.7.1.7) (Guanosine 5'-monophosphate oxidoreductase) (Guanosine monophosphate reductase). [Source:Uniprot/SWISSPROT;Acc:O16294]	nucleotide metabolic process, 		catalytic activity, GMP reductase activity, 
F32D1.9	F32D1.9	F32D1.9 [Source:RefSeq_peptide;Acc:NP_504203]	embryonic development ending in birth or egg hatching, 		
F32D1.6	F32D1.6	F32D1.6 [Source:RefSeq_peptide;Acc:NP_504204]	embryonic development ending in birth or egg hatching, 		
F32D1.7	F32D1.7	F32D1.7 [Source:RefSeq_peptide;Acc:NP_504205]	potassium ion transport, embryonic development ending in birth or egg hatching, 	integral to membrane, 	voltage-gated potassium channel activity, 
F32D1.8	F32D1.8	F32D1.8 [Source:RefSeq_peptide;Acc:NP_504206]			
F13A2.1	F13A2.1	F13A2.1 [Source:RefSeq_peptide;Acc:NP_504207]			
F13A2.2	F13A2.2	F13A2.2 [Source:RefSeq_peptide;Acc:NP_504208]			
F13A2.9	F13A2.9	F13A2.9 [Source:RefSeq_peptide;Acc:NP_001033476]			
F13A2.3	F13A2.3	F13A2.3 [Source:RefSeq_peptide;Acc:NP_504209]			
F13A2.4	F13A2.4	F13A2.4 [Source:RefSeq_peptide;Acc:NP_504210]			
F13A2.5	F13A2.5	F13A2.5 [Source:RefSeq_peptide;Acc:NP_504211]			
F13A2.6	F13A2.6	F13A2.6 [Source:RefSeq_peptide;Acc:NP_504212]			
nhr-118	F13A2.8	Nuclear Hormone Receptor family member (nhr-118) [Source:RefSeq_peptide;Acc:NP_504213]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
Y47D7A.3	Y47D7A.3	Y47D7A.3 [Source:RefSeq_peptide;Acc:NP_504215]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
grl-5	Y47D7A.5	grl-5 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
Y47D7A.6	Y47D7A.6	Y47D7A.6 [Source:RefSeq_peptide;Acc:NP_504217]			
Y47D7A.7	Y47D7A.7	Y47D7A.7 [Source:RefSeq_peptide;Acc:NP_504218]			
Y47D7A.2	Y47D7A.2	Y47D7A.2 [Source:RefSeq_peptide;Acc:NP_504219]			
skr-14	Y47D7A.8	The skr-14 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-14(RNAi) animals are at least superficially normal. [Source: WormBase]			
skr-7	Y47D7A.1	The skr-7 gene encodes a homolog of Skp1 in S. cerevisiae that is required for posterior body morphogenesis, embryonic and larval development, and cell proliferation. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
Y47D7A.9	Y47D7A.9	Y47D7A.9 [Source:RefSeq_peptide;Acc:NP_504222]			
Y47D7A.10	Y47D7A.10	Y47D7A.10 [Source:RefSeq_peptide;Acc:NP_504223]			
Y47D7A.11	Y47D7A.11	Y47D7A.11 [Source:RefSeq_peptide;Acc:NP_504224]			
Y47D7A.12	Y47D7A.12	Y47D7A.12 [Source:RefSeq_peptide;Acc:NP_504225]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	dopamine receptor activity, 
Y47D7A.15	Y47D7A.15	Y47D7A.15 [Source:RefSeq_peptide;Acc:NP_741525]			
Y47D7A.13	Y47D7A.13	Y47D7A.13 [Source:RefSeq_peptide;Acc:NP_504226]	protein homooligomerization, 	membrane, 	
Y47D7A.16	Y47D7A.16	Y47D7A.16 [Source:RefSeq_peptide;Acc:NP_001033515]	embryonic development ending in birth or egg hatching, 		
Y47D7A.14	Y47D7A.14	Y47D7A.14 [Source:RefSeq_peptide;Acc:NP_504227]			
H22D07.1	H22D07.1	H22D07.1 [Source:RefSeq_peptide;Acc:NP_504228]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T08H10.3	T08H10.3	T08H10.3 [Source:RefSeq_peptide;Acc:NP_504229]			
str-35	T08H10.2				
str-34	T08H10.5				
T08H10.4	T08H10.4	T08H10.4 [Source:RefSeq_peptide;Acc:NP_504230]			transferase activity, transferring groups other than amino-acyl groups, 
T08H10.1	T08H10.1	T08H10.1 [Source:RefSeq_peptide;Acc:NP_504231]			oxidoreductase activity, 
unc-62	T28F12.2	unc-62 encodes a Meis-class homeodomain protein required for posterior embryonic morphogenesis, male tail morphogenesis, commissure formation by VD and DD motor neurons, vulval morphogenesis, and normal locomotion. UNC-62 is orthologous to Drosophila HOMOTHORAX. both maternal-effect unc-62 alleles and the zygotic lethal unc-62(s472) allele phenotypically resemble mutations of the caudal ortholog pal-1. RNAi of the Pbc-class ceh-20 and ceh-40 homeodomain genes strongly enhances the hypomorphic unc-62(e644) allele to give either a strong loss-of-function or null-like phenotype, while overexpression of ceh-20 enhances the lethality of some unc-62 alleles. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
T28F12.1	T28F12.1	T28F12.1 [Source:RefSeq_peptide;Acc:NP_504234]			
sos-1	T28F12.3	The sos-1 gene, also known as let-341, encodes an ortholog of Son of sevenless, a guanine nucleotide exchange factor that affects viability, sex myoblast migration, vulval induction, and oogenesis. it acts genetically downstream of let-23 and upstream of let-60 with respect to vulval development. [Source: WormBase]	small GTPase mediated signal transduction, regulation of Rho protein signal transduction, regulation of small GTPase mediated signal transduction, post-embryonic body morphogenesis, positive regulation of vulval development, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
Y61A9LA.12	Y61A9LA.12	Y61A9LA.12 [Source:RefSeq_peptide;Acc:NP_001033519]		cytoplasm, extrinsic to membrane, 	cytoskeletal protein binding, 
Y61A9LA.5	Y61A9LA.5		embryonic development ending in birth or egg hatching, 		
Y61A9LA.7	Y61A9LA.7	Y61A9LA.7 [Source:RefSeq_peptide;Acc:NP_504237]			
Y61A9LA.4	Y61A9LA.4	Y61A9LA.4 [Source:RefSeq_peptide;Acc:NP_504238]			
Y61A9LA.8	Y61A9LA.8	Y61A9LA.8 [Source:RefSeq_peptide;Acc:NP_504239]	mRNA processing, 		zinc ion binding, nucleic acid binding, 
Y61A9LA.3	Y61A9LA.3	Y61A9LA.3b [Source:RefSeq_peptide;Acc:NP_504240]			
Y61A9LA.9	Y61A9LA.9	Y61A9LA.9 [Source:RefSeq_peptide;Acc:NP_504242]	embryonic development ending in birth or egg hatching, 		
Y61A9LA.1	Y61A9LA.1	Y61A9LA.1 [Source:RefSeq_peptide;Acc:NP_504243]	transport, proteolysis, 	integral to membrane, 	transporter activity, zinc ion binding, carboxypeptidase A activity, 
Y61A9LA.11	Y61A9LA.11	Y61A9LA.11 [Source:RefSeq_peptide;Acc:NP_504244]			
Y61A9LA.10	Y61A9LA.10	Y61A9LA.10 [Source:RefSeq_peptide;Acc:NP_504245]	defense response, positive regulation of growth rate, 		nucleotide binding, nucleoside-triphosphatase activity, 
F54D11.4	F54D11.4	F54D11.4 [Source:RefSeq_peptide;Acc:NP_504246]			
F54D11.2	F54D11.2	F54D11.2 [Source:RefSeq_peptide;Acc:NP_504247]	embryonic development ending in birth or egg hatching, 		
pmt-2	F54D11.1	pmt-2 encodes an experimentally validated N-methyltransferase required for phosphocholine biosynthesis and viability. PMT-2 lacks known mammalian orthologs, but has orthologs in parasitic nematodes, fish, amphibians, echinoderms, plants, alveolata, and bacteria. PMT-2 is distantly paralogous to PMT-1. PMT-2 has a single C-terminal methyltransferase domain, unlike plant enzymes that have two tandem domains, and catalyses only two of three steps in phosphocholine biosynthesis (methylation of phosphomonomethylethanolamine [P-MME] to phosphodimethylethanolamine [P-DME] and of P-DME to phosphocholine, but not methylation of phosphoethanolamine to P-MME). pmt-2(RNAi) animals are unable to progress past the L1 larval stage, but can be rescued by choline in their food media. PMT-2 binds its substrates in random order, and is competitively inhibited by phosphocholine. given its phylogenetic and enzymatic specificity, coupled with its inviable RNAi phenotype, PMT-1 is a plausible target for nematicides. [Source: WormBase]	metabolic process, lipid biosynthetic process, 		methyltransferase activity, cyclopropane-fatty-acyl-phospholipid synthase activity, 
F54D11.3	F54D11.3	F54D11.3 [Source:RefSeq_peptide;Acc:NP_504249]			
soc-1	F41F3.2	Suppressor Of Clr family member (soc-1) [Source:RefSeq_peptide;Acc:NP_504250]			
F41F3.3	F41F3.3	F41F3.3 [Source:RefSeq_peptide;Acc:NP_504251]			
F41F3.8	F41F3.8	F41F3.8 [Source:RefSeq_peptide;Acc:NP_001033486]			
col-139	F41F3.4	COLlagen family member (col-139) [Source:RefSeq_peptide;Acc:NP_504252]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
F41F3.1	F41F3.1	F41F3.1 [Source:RefSeq_peptide;Acc:NP_504253]			
srx-75	F41F3.5				
srx-74	F41F3.6	Serpentine Receptor, class X family member (srx-74) [Source:RefSeq_peptide;Acc:NP_504255]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-73	F41F3.7	Serpentine Receptor, class X family member (srx-73) [Source:RefSeq_peptide;Acc:NP_504256]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-77	K03B4.5	Serpentine Receptor, class X family member (srx-77) [Source:RefSeq_peptide;Acc:NP_504257]			
K03B4.6	K03B4.6	K03B4.6 [Source:RefSeq_peptide;Acc:NP_504258]		membrane, 	mating-type factor pheromone receptor activity, 
K03B4.4	K03B4.4	K03B4.4 [Source:RefSeq_peptide;Acc:NP_504259]	type I hypersensitivity, 		
taf-10	K03B4.3	TAF (TBP-associated transcription factor) family member (taf-10) [Source:RefSeq_peptide;Acc:NP_504261]	transcription initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	RNA polymerase II transcription factor activity, oxygen binding, 
K03B4.2	K03B4.2	K03B4.2 [Source:RefSeq_peptide;Acc:NP_504262]			
K03B4.1	K03B4.1	K03B4.1 [Source:RefSeq_peptide;Acc:NP_504263]	embryonic development ending in birth or egg hatching, 		nucleotide binding, 
cpg-8	K03B4.7	cpg-8 encodes, by alternative splicing, two putatively secreted small proteins of 115 and 99 residues. the large CPG-8 isoform has 6 potential chondroitin attachment sites, 5 of them verified by mass spectrometry. CPG-8 has no obvious function in mass RNAi assays. [Source: WormBase]	type I hypersensitivity, 		
ZC266.2	ZC266.2	ZC266.2 [Source:RefSeq_peptide;Acc:NP_504265]			
ZC266.1	ZC266.1	ZC266.1 [Source:RefSeq_peptide;Acc:NP_504266]			protein binding, 
F39G3.6	F39G3.6	F39G3.6 [Source:RefSeq_peptide;Acc:NP_504267]			transferase activity, transferring groups other than amino-acyl groups, 
prx-6	F39G3.7	F39G3.7 [Source:RefSeq_peptide;Acc:NP_504268]	biological_process, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, 
F39G3.5	F39G3.5	F39G3.5b [Source:RefSeq_peptide;Acc:NP_001023901]	electron transport, 	integral to membrane, 	protein binding, 
F39G3.4	F39G3.4	F39G3.4 [Source:RefSeq_peptide;Acc:NP_504270]	electron transport, 	integral to membrane, 	
tig-2	F39G3.8	The tig-2 gene, like dbl-1, daf-7, and unc-129, encodes a TGF-beta-like protein. [Source: WormBase]		extracellular region, 	growth factor activity, 
F39G3.3	F39G3.3	F39G3.3 [Source:RefSeq_peptide;Acc:NP_504272]			
F39G3.2	F39G3.2	F39G3.2 [Source:RefSeq_peptide;Acc:NP_504273]			
ugt-61	F39G3.1	UDP-GlucuronosylTransferase family member (ugt-61) [Source:RefSeq_peptide;Acc:NP_504274]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C18G1.7	C18G1.7	C18G1.7 [Source:RefSeq_peptide;Acc:NP_504275]		membrane, 	GABA-B receptor activity, 
C18G1.6	C18G1.6	C18G1.6 [Source:RefSeq_peptide;Acc:NP_504276]			
hil-4	C18G1.5	Histone H1.4 (Histone H1-like protein 4). [Source:Uniprot/SWISSPROT;Acc:O17536]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
pgl-3	C18G1.4	P GranuLe abnormality family member (pgl-3) [Source:RefSeq_peptide;Acc:NP_504278]	embryonic development ending in birth or egg hatching, 		
C18G1.3	C18G1.3	C18G1.3 [Source:RefSeq_peptide;Acc:NP_504280]			
C18G1.8	C18G1.8	C18G1.8 [Source:RefSeq_peptide;Acc:NP_504281]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
C18G1.9	C18G1.9	C18G1.9 [Source:RefSeq_peptide;Acc:NP_504282]			
elt-7	C18G1.2	C18G1.2 [Source:RefSeq_peptide;Acc:NP_504283]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
C18G1.1	C18G1.1	C18G1.1 [Source:RefSeq_peptide;Acc:NP_504284]			
Y60C6A.t1	Y60C6A.t1				
Y60C6A.1	Y60C6A.1	Y60C6A.1 [Source:RefSeq_peptide;Acc:NP_504285]			
R02F11.2	R02F11.2	R02F11.2 [Source:RefSeq_peptide;Acc:NP_504286]			sugar binding, 
R02F11.1	R02F11.1	R02F11.1 [Source:RefSeq_peptide;Acc:NP_504287]			protein binding, 
R02F11.3	R02F11.3	R02F11.3a [Source:RefSeq_peptide;Acc:NP_001024065]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
R02F11.4	R02F11.4	R02F11.4 [Source:RefSeq_peptide;Acc:NP_504289]	embryonic development ending in birth or egg hatching, 		protein binding, 
C37H5.6	C37H5.6	Probable adenylosuccinate synthetase (EC 6.3.4.4) (IMP--aspartate ligase) (AdSS) (AMPSase). [Source:Uniprot/SWISSPROT;Acc:P91134]	purine nucleotide biosynthetic process, embryonic development ending in birth or egg hatching, 		GTP binding, adenylosuccinate synthase activity, 
hsp-6	C37H5.8	hsp-6 encodes a mitochondrial-specific chaperone that is a member of the DnaK/Hsp70 superfamily of molecular chaperones. hsp-6 is believed to be involved in the mitochondrial unfolded protein response, as hsp-6 expression, normally broadly detected from the L1 larval through adult stages of development, is greatly increased in response to treatments that disrupt mitochondrial protein handling. loss of hsp-6 activity via RNAi results in severe growth defects with arrest at embryonic and early larval stages of development. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, 		ATP binding, unfolded protein binding, 
C37H5.5	C37H5.5	Nucleolar complex protein 3 homolog (NOC3 protein homolog) (NOC3-like protein) (Nucleolar complex-associated protein 3-like protein). [Source:Uniprot/SWISSPROT;Acc:P91136]	positive regulation of growth rate, 		
C37H5.14	C37H5.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3RMS6]			
nas-9	C37H5.9	Zinc metalloproteinase nas-9 precursor (EC 3.4.24.21) (Nematode astacin 9). [Source:Uniprot/SWISSPROT;Acc:P91137]	proteolysis, embryonic development ending in birth or egg hatching, 		metallopeptidase activity, astacin activity, 
cwp-1	C37H5.10	cwp-1 encodes a nematode-specific protein that is coexpressed with lov-1 and pkd-2. [Source: WormBase]			
cwp-2	C37H5.11	cwp-2 encodes a nematode-specific protein that is coexpressed with lov-1 and pkd-2. [Source: WormBase]			
cwp-3	C37H5.4	cwp-3 encodes an unfamiliar protein predicted to be secreted and alleged to be coexpressed with polycystins. CWP-3 is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]			
C37H5.3	C37H5.3	C37H5.3a [Source:RefSeq_peptide;Acc:NP_504297]	proteolysis, aromatic compound metabolic process, 		catalytic activity, hydrolase activity, aminopeptidase activity, 
C37H5.2	C37H5.2	C37H5.2 [Source:RefSeq_peptide;Acc:NP_504299]	proteolysis, aromatic compound metabolic process, 		catalytic activity, hydrolase activity, aminopeptidase activity, 
nex-4	C37H5.1	nex-4 encodes a predicted annexin. [Source: WormBase]			calcium ion binding, calcium-dependent phospholipid binding, 
C37H5.13	C37H5.13	C37H5.13a [Source:RefSeq_peptide;Acc:NP_504301]	acyl-CoA metabolic process, 		acyl-CoA thioesterase activity, 
srd-32	T19H12.5	Serpentine receptor class delta-32 (Protein srd-32). [Source:Uniprot/SWISSPROT;Acc:O01608]	ATP synthesis coupled electron transport, 		NADH dehydrogenase (ubiquinone) activity, 
srd-33	T19H12.4	Serpentine receptor class delta-33 (Protein srd-33). [Source:Uniprot/SWISSPROT;Acc:O01609]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T19H12.6	T19H12.6	T19H12.6 [Source:RefSeq_peptide;Acc:NP_504305]			gamma-glutamyltransferase activity, 
str-32	T19H12.7	Seven TM Receptor family member (str-32) [Source:RefSeq_peptide;Acc:NP_504306]			
nhr-220	T19H12.8	Nuclear Hormone Receptor family member (nhr-220) [Source:RefSeq_peptide;Acc:NP_504307]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T19H12.12	T19H12.12	T19H12.12 [Source:RefSeq_peptide;Acc:NP_001024147]			transferase activity, transferring hexosyl groups, 
T19H12.3	T19H12.3	T19H12.3 [Source:RefSeq_peptide;Acc:NP_001024148]			transferase activity, transferring hexosyl groups, 
ugt-12	T19H12.9	UDP-GlucuronosylTransferase family member (ugt-12) [Source:RefSeq_peptide;Acc:NP_504309]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
T19H12.2	T19H12.2	Acidic leucine-rich nuclear phosphoprotein 32-related protein 2 (ANP32/acidic nuclear phosphoprotein-like protein 2). [Source:Uniprot/SWISSPROT;Acc:O01615]	embryonic development ending in birth or egg hatching, 		protein binding, 
ugt-11	T19H12.10	UDP-GlucuronosylTransferase family member (ugt-11) [Source:RefSeq_peptide;Acc:NP_504311]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-9	T19H12.1	UDP-GlucuronosylTransferase family member (ugt-9) [Source:RefSeq_peptide;Acc:NP_504312]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-10	T19H12.11	UDP-GlucuronosylTransferase family member (ugt-10) [Source:RefSeq_peptide;Acc:NP_504313]	metabolic process, positive regulation of growth rate, 		transferase activity, transferring hexosyl groups, 
H23N18.4	H23N18.4	H23N18.4 [Source:RefSeq_peptide;Acc:NP_504314]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-8	H23N18.3	UDP-GlucuronosylTransferase family member (ugt-8) [Source:RefSeq_peptide;Acc:NP_504315]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-14	H23N18.2	UDP-GlucuronosylTransferase family member (ugt-14) [Source:RefSeq_peptide;Acc:NP_504316]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-13	H23N18.1	UDP-GlucuronosylTransferase family member (ugt-13) [Source:RefSeq_peptide;Acc:NP_504317]	metabolic process, 		transferase activity, transferring hexosyl groups, 
H23N18.5	H23N18.5	H23N18.5 [Source:RefSeq_peptide;Acc:NP_504318]	phospholipid metabolic process, lipid catabolic process, 		phospholipase A2 activity, 
H23N18.6	H23N18.6	H23N18.6 [Source:RefSeq_peptide;Acc:NP_001033493]			
C02E7.7	C02E7.7	C02E7.7 [Source:RefSeq_peptide;Acc:NP_504319]			
C02E7.6	C02E7.6	C02E7.6 [Source:RefSeq_peptide;Acc:NP_504320]			
C02E7.8	C02E7.8	C02E7.8 [Source:RefSeq_peptide;Acc:NP_504321]			
srh-23	C02E7.5	Serpentine Receptor, class H family member (srh-23) [Source:RefSeq_peptide;Acc:NP_504322]			
srh-22	C02E7.4	Serpentine Receptor, class H family member (srh-22) [Source:RefSeq_peptide;Acc:NP_504323]			
srh-20	C02E7.3	Serpentine Receptor, class H family member (srh-20) [Source:RefSeq_peptide;Acc:NP_504324]			
srh-21	C02E7.2	Serpentine Receptor, class H family member (srh-21) [Source:RefSeq_peptide;Acc:NP_504325]			
str-205	C02E7.9	Seven TM Receptor family member (str-205) [Source:RefSeq_peptide;Acc:NP_504326]			
C02E7.10	C02E7.10	C02E7.10 [Source:RefSeq_peptide;Acc:NP_504327]			
C02E7.1	C02E7.1	C02E7.1 [Source:RefSeq_peptide;Acc:NP_504328]	transport, metabolic process, cation transport, 	membrane, 	ATP binding, transporter activity, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
str-213	C02E7.11				
str-212	C02E7.12				
str-211	C02E7.13	Seven TM Receptor family member (str-211) [Source:RefSeq_peptide;Acc:NP_504329]			
str-210	F26G5.11				
str-209	F26G5.5	Seven TM Receptor family member (str-209) [Source:RefSeq_peptide;Acc:NP_504331]			
str-207	F26G5.4	Seven TM Receptor family member (str-207) [Source:RefSeq_peptide;Acc:NP_504332]			
srd-22	F26G5.3				
str-208	F26G5.2	Seven TM Receptor family member (str-208) [Source:RefSeq_peptide;Acc:NP_504334]			
tam-1	F26G5.9	tam-1 encodes a broadly expressed nuclear protein with RING finger, B-box, and glutamine/asparagine-rich domains that promotes signalling in the class B synthetic-multivulva gene pathway (which includes the lin-35/RB gene), and also promotes the activity of genes in multicopy transgenic arrays. the normal role of TAM-1's class B activity is presumably to inhibit RAS pathway activity in vulval development, while TAM-1's effect on transgenes may be through changes in the acetylation state of histones in chromatin. [Source: WormBase]	embryonic development ending in birth or egg hatching, negative regulation of vulval development, 	intracellular, 	protein binding, zinc ion binding, 
srsx-9	F26G5.10	Serpentine Receptor, class SX family member (srsx-9) [Source:RefSeq_peptide;Acc:NP_504336]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-10	F26G5.12	Serpentine Receptor, class SX family member (srsx-10) [Source:RefSeq_peptide;Acc:NP_001023863]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F26G5.1	F26G5.1	F26G5.1 [Source:RefSeq_peptide;Acc:NP_504337]	embryonic development ending in birth or egg hatching, 		
srsx-11	C13D9.4	Serpentine Receptor, class SX family member (srsx-11) [Source:RefSeq_peptide;Acc:NP_504338]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-12	C13D9.5	Serpentine Receptor, class SX family member (srsx-12) [Source:RefSeq_peptide;Acc:NP_504339]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-13	C13D9.6	Serpentine Receptor, class SX family member (srsx-13) [Source:RefSeq_peptide;Acc:NP_504340]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ncx-8	C13D9.7	Na/Ca eXchangers family member (ncx-8) [Source:RefSeq_peptide;Acc:NP_504341]		integral to membrane, 	
ncx-9	C13D9.8	Na/Ca eXchangers family member (ncx-9) [Source:RefSeq_peptide;Acc:NP_504342]		integral to membrane, 	
ugt-7	C13D9.9	UDP-GlucuronosylTransferase family member (ugt-7) [Source:RefSeq_peptide;Acc:NP_504343]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
srr-8	C13D9.3	Serpentine Receptor, class R family member (srr-8) [Source:RefSeq_peptide;Acc:NP_504344]			
srr-5	C13D9.2	Serpentine Receptor, class R family member (srr-5) [Source:RefSeq_peptide;Acc:NP_504345]	carbohydrate metabolic process, 		phosphoric ester hydrolase activity, 
srr-6	C13D9.1	Serpentine Receptor, class R family member (srr-6) [Source:RefSeq_peptide;Acc:NP_504346]			
srr-4	K11D12.3	Serpentine Receptor, class R family member (srr-4) [Source:RefSeq_peptide;Acc:NP_504347]			
cpt-4	K11D12.4	K11D12.4 [Source:RefSeq_peptide;Acc:NP_504348]	proteolysis, 		cysteine-type endopeptidase activity, acyltransferase activity, 
K11D12.5	K11D12.5	K11D12.5 [Source:RefSeq_peptide;Acc:NP_504349]	response to antibiotic, defense response, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
K11D12.13	K11D12.13	K11D12.13 [Source:RefSeq_peptide;Acc:NP_001033498]			serine-type endopeptidase inhibitor activity, 
K11D12.6	K11D12.6	K11D12.6 encodes a putative serine protease inhibitor, with no obvious non-nematode orthologs but multiple C. elegans paralogs. K11D12.6 antagonizes CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
K11D12.7	K11D12.7	K11D12.7 [Source:RefSeq_peptide;Acc:NP_504351]			serine-type endopeptidase inhibitor activity, 
K11D12.11	K11D12.11	K11D12.11 [Source:RefSeq_peptide;Acc:NP_504352]			serine-type endopeptidase inhibitor activity, 
K11D12.8	K11D12.8	K11D12.8 [Source:RefSeq_peptide;Acc:NP_504353]			
K11D12.9	K11D12.9	K11D12.9 [Source:RefSeq_peptide;Acc:NP_504354]	vesicle-mediated transport, 	membrane, 	protein binding, zinc ion binding, 
pqn-51	K11D12.2	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	transcription initiation from RNA polymerase II promoter, embryonic development ending in birth or egg hatching, 	transcription factor TFIIA complex, 	RNA polymerase II transcription factor activity, 
K11D12.12	K11D12.12	K11D12.12 [Source:RefSeq_peptide;Acc:NP_741535]		intracellular, 	zinc ion binding, nucleic acid binding, 
cwp-4	K11D12.1	cwp-4 encodes a protein with some similarity to mucins that is predicted to be secreted, and is alleged to be coexpressed with polycystins. CWP-4 is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]			
mlk-1	K11D12.10	human MLK (Mixed Lineage Kinase) homolog family member (mlk-1) [Source:RefSeq_peptide;Acc:NP_741536]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y58A7A.1	Y58A7A.1	Y58A7A.1 [Source:RefSeq_peptide;Acc:NP_504358]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
Y58A7A.2	Y58A7A.2	Y58A7A.2 [Source:RefSeq_peptide;Acc:NP_504359]			
Y58A7A.3	Y58A7A.3	Y58A7A.3 [Source:RefSeq_peptide;Acc:NP_504360]			zinc ion binding, 
Y58A7A.4	Y58A7A.4	Y58A7A.4 [Source:RefSeq_peptide;Acc:NP_504361]			zinc ion binding, 
Y58A7A.5	Y58A7A.5	Y58A7A.5 [Source:RefSeq_peptide;Acc:NP_504362]			
Y58A7A.6	Y58A7A.6	Y58A7A.6 [Source:RefSeq_peptide;Acc:NP_504363]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C04F5.2	C04F5.2	C04F5.2 [Source:RefSeq_peptide;Acc:NP_504364]			
unc-46	C04F5.3	unc-46 encodes a novel protein with a single predicted transmembrane domain. UNC-46 and UNC-47, a novel transmembrane vesicular GABA transporter, are required in GABAergic neurons for all GABA neurotransmission, specifically for loading of GABA into synaptic vesicles, where UNC-46 is localized. UNC-46 localization requires UNC-47, which when overexpressed can rescue unc-46 mutant animals. [Source: WormBase]			
srab-1	C04F5.4	Serpentine Receptor, class AB (class A-like) family member (srab-1) [Source:RefSeq_peptide;Acc:NP_504366]		membrane, 	transmembrane receptor activity, 
srab-2	C04F5.5	Serpentine Receptor, class AB (class A-like) family member (srab-2) [Source:RefSeq_peptide;Acc:NP_504367]		membrane, intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, transmembrane receptor activity, 
srab-3	C04F5.6	Serpentine Receptor, class AB (class A-like) family member (srab-3) [Source:RefSeq_peptide;Acc:NP_504368]		membrane, 	transmembrane receptor activity, 
ugt-63	C04F5.7	UDP-GlucuronosylTransferase family member (ugt-63) [Source:RefSeq_peptide;Acc:NP_504369]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C04F5.8	C04F5.8	C04F5.8 [Source:RefSeq_peptide;Acc:NP_504370]	embryonic development ending in birth or egg hatching, 		
C04F5.9	C04F5.9	C04F5.9 [Source:RefSeq_peptide;Acc:NP_504371]		intracellular, 	zinc ion binding, nucleic acid binding, 
sid-1	C04F5.1	The sid-1 gene encodes a predicted transmembrane protein with conserved human (OMIM:606816) and mouse homologs of unknown function and is required cell autonomously for systemic RNA interference (RNAi). a SID-1::GFP fusion is enriched at the cell periphery of most nonneuronal cells from late embryogenesis through adulthood with highest levels detected in cells exposed to the environment. [Source: WormBase]	RNA interference, 	integral to membrane, 	transporter activity, serine-type endopeptidase inhibitor activity, molecular_function, 
F14F9.5	F14F9.5	Uncharacterized protein F14F9.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9GUC9]	DNA repair, 		
F14F9.8	F14F9.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q4R138]			
F14F9.4	F14F9.4	F14F9.4 [Source:RefSeq_peptide;Acc:NP_504374]			protein binding, zinc ion binding, 
F14F9.3	F14F9.3	F14F9.3 [Source:RefSeq_peptide;Acc:NP_504375]			zinc ion binding, 
srh-129	F14F9.7	Serpentine Receptor, class H family member (srh-129) [Source:RefSeq_peptide;Acc:NP_504376]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
F14F9.2	F14F9.2	F14F9.2 [Source:RefSeq_peptide;Acc:NP_504377]			
F14F9.6	F14F9.6	F14F9.6 [Source:RefSeq_peptide;Acc:NP_504378]			
srh-130	F14F9.1	Serpentine Receptor, class H family member (srh-130) [Source:RefSeq_peptide;Acc:NP_504379]	sodium ion transport, 	membrane, 	sodium:amino acid symporter activity, 
srx-38	C03A7.5	Serpentine Receptor, class X family member (srx-38) [Source:RefSeq_peptide;Acc:NP_504380]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-39	C03A7.6	Serpentine Receptor, class X family member (srx-39) [Source:RefSeq_peptide;Acc:NP_504381]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
pqn-5	C03A7.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, identical protein binding, 
abu-6	C03A7.7	abu-6 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-6 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-6 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			
abu-7	C03A7.8	abu-7 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-7 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-7 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, 
srw-140	C03A7.3	Serpentine Receptor, class W family member (srw-140) [Source:RefSeq_peptide;Acc:NP_504385]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srt-64	C03A7.9	Serpentine Receptor, class T family member (srt-64) [Source:RefSeq_peptide;Acc:NP_504386]			
srt-65	C03A7.10				
ugt-51	C03A7.11	UDP-GlucuronosylTransferase family member (ugt-51) [Source:RefSeq_peptide;Acc:NP_504388]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C03A7.12	C03A7.12	C03A7.12 [Source:RefSeq_peptide;Acc:NP_504389]	metabolic process, 		transferase activity, transferring hexosyl groups, 
C03A7.2	C03A7.2	C03A7.2 [Source:RefSeq_peptide;Acc:NP_504390]	morphogenesis of an epithelium, 		
C03A7.13	C03A7.13	C03A7.13 [Source:RefSeq_peptide;Acc:NP_504392]			protein binding, calcium ion binding, 
abu-8	C03A7.14	abu-8 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-8 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-8 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, 
Y47A7.2	Y47A7.2	Y47A7.2 [Source:RefSeq_peptide;Acc:NP_504394]			
Y47A7.1	Y47A7.1	Y47A7.1 [Source:RefSeq_peptide;Acc:NP_504395]			binding, 
Y49G5B.1	Y49G5B.1	Y49G5B.1 [Source:RefSeq_peptide;Acc:NP_504396]	embryonic development ending in birth or egg hatching, 		
C52A10.1	C52A10.1	C52A10.1 [Source:RefSeq_peptide;Acc:NP_504397]			
C52A10.2	C52A10.2	C52A10.2 [Source:RefSeq_peptide;Acc:NP_504398]			
C52A10.3	C52A10.3	C52A10.3 [Source:RefSeq_peptide;Acc:NP_504399]			
B0238.15	B0238.15	B0238.15 [Source:RefSeq_peptide;Acc:NP_001033465]			
B0238.1	B0238.1	B0238.1 [Source:RefSeq_peptide;Acc:NP_504400]			protein binding, 
B0238.13	B0238.13	B0238.13 [Source:RefSeq_peptide;Acc:NP_504401]			
srt-66	B0238.14				
srt-68	B0238.3	Serpentine Receptor, class T family member (srt-68) [Source:RefSeq_peptide;Acc:NP_504403]			
srt-67	B0238.5	Serpentine Receptor, class T family member (srt-67) [Source:RefSeq_peptide;Acc:NP_504405]			
srt-70	B0238.6	Serpentine Receptor, class T family member (srt-70) [Source:RefSeq_peptide;Acc:NP_504406]			
B0238.7	B0238.7	B0238.7 [Source:RefSeq_peptide;Acc:NP_504407]			
srt-69	B0238.8	Serpentine Receptor, class T family member (srt-69) [Source:RefSeq_peptide;Acc:NP_504408]			
B0238.12	B0238.12	B0238.12 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. B0238.12 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. B0238.12 has no obvious function in mass RNAi assays. [Source: WormBase]			protein binding, 
B0238.11	B0238.11	B0238.11 [Source:RefSeq_peptide;Acc:NP_504410]	positive regulation of growth rate, 		
B0238.10	B0238.10	B0238.10 [Source:RefSeq_peptide;Acc:NP_504411]	metabolic process, 		N-acetyltransferase activity, 
B0238.9	B0238.9	B0238.9 [Source:RefSeq_peptide;Acc:NP_504412]			
Y49G5A.1	Y49G5A.1	Y49G5A.1 [Source:RefSeq_peptide;Acc:NP_504413]			serine-type endopeptidase inhibitor activity, 
ncx-2	C10G8.5	Na/Ca eXchangers family member (ncx-2) [Source:RefSeq_peptide;Acc:NP_504415]	cell communication, calcium ion transport, positive regulation of growth rate, 	membrane, integral to membrane, 	calcium:sodium antiporter activity, 
C10G8.4	C10G8.4	C10G8.4 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. C10G8.4 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. C10G8.4 has no obvious function in mass RNAi assays. [Source: WormBase]			
C10G8.3	C10G8.3	C10G8.3 [Source:RefSeq_peptide;Acc:NP_504417]			serine-type endopeptidase inhibitor activity, 
C10G8.2	C10G8.2	C10G8.2 [Source:RefSeq_peptide;Acc:NP_504418]			serine-type endopeptidase inhibitor activity, 
ceh-34	C10G8.6	ceh-34 encodes a homeodomain protein, homologous to human SIX2 (OMIM:604994), that is expressed very weakly in the pharynxes of late embryos and early larvae. it has no known function. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ceh-33	C10G8.7	ceh-33 encodes a Six/sine oculis class homeodomain transcription factor. preliminary RNAi experiments suggest that CEH-33 activity may be required for gonad development. a ceh-33::gfp reporter shows very weak pharyngeal expression in late embryos and early larvae. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, cellular_component, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
C10G8.8	C10G8.8	C10G8.8a [Source:RefSeq_peptide;Acc:NP_504421]			
C10G8.t1	C10G8.t1				
srg-26	C10G8.1	Serpentine Receptor, class G (gamma) family member (srg-26) [Source:RefSeq_peptide;Acc:NP_504422]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-28	T09D3.2	Serpentine Receptor, class G (gamma) family member (srg-28) [Source:RefSeq_peptide;Acc:NP_872227]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-29	T09D3.6	Serpentine Receptor, class G (gamma) family member (srg-29) [Source:RefSeq_peptide;Acc:NP_872226]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-27	T09D3.7	Serpentine Receptor, class G (gamma) family member (srg-27) [Source:RefSeq_peptide;Acc:NP_504423]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-25	T09D3.5	Serpentine Receptor, class G (gamma) family member (srg-25) [Source:RefSeq_peptide;Acc:NP_504424]	signal transduction, 	membrane, 	transmembrane receptor activity, 
T09D3.3	T09D3.3	T09D3.3 [Source:RefSeq_peptide;Acc:NP_504425]			
srd-9	T09D3.1	Serpentine Receptor, class D (delta) family member (srd-9) [Source:RefSeq_peptide;Acc:NP_504426]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-216	T09D3.4	Nuclear Hormone Receptor family member (nhr-216) [Source:RefSeq_peptide;Acc:NP_504427]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T09D3.8	T09D3.8	T09D3.8 [Source:RefSeq_peptide;Acc:NP_001033503]			
C35A11.3	C35A11.3	C35A11.3 [Source:RefSeq_peptide;Acc:NP_504428]			
C35A11.2	C35A11.2	C35A11.2 [Source:RefSeq_peptide;Acc:NP_504429]			
C35A11.4	C35A11.4	C35A11.4 [Source:RefSeq_peptide;Acc:NP_504430]	transport, carbohydrate transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
C35A11.1	C35A11.1	C35A11.1 [Source:RefSeq_peptide;Acc:NP_504431]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C25A6.1	C25A6.1	C25A6.1 [Source:RefSeq_peptide;Acc:NP_504432]			hydrolase activity, 
F08F3.4	F08F3.4	F08F3.4 [Source:RefSeq_peptide;Acc:NP_504433]	cellular metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
F08F3.10	F08F3.10	F08F3.10 [Source:RefSeq_peptide;Acc:NP_872219]			
F08F3.6	F08F3.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
cyp-14A5	F08F3.7	cyp-14A5 encodes a member of the cytochrome P450 family. [Source: WormBase]	electron transport, 		iron ion binding, protein binding, monooxygenase activity, heme binding, 
rhr-1	F08F3.3	rhr-1 encodes an ortholog of human Rhesus blood-group associated glycoprotein (RHAG. OMIM:180297, mutated in chronic hemolytic anemia), a member of the ammonium transporter family, and affects general levels of mRNA transcripts, and embryonic viability in a large-scale RNAi screen. [Source: WormBase]	response to antibiotic, tetracycline transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	tetracycline:hydrogen antiporter activity, 
F08F3.8	F08F3.8	F08F3.8 [Source:RefSeq_peptide;Acc:NP_504437]			
acl-6	F08F3.2	acl-6 encodes a mitochondrial glycerol-3-phosphate acyltransferase. ACL-6 is predicted to play a role in phospholipid metabolism, but as loss of acl-6 activity via large-scale RNAi experiments results in no obvious defects, the precise role of acl-6 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	metabolic process, cellular lipid metabolic process, 	membrane, 	acyltransferase activity, 
F08F3.9	F08F3.9	F08F3.9b [Source:RefSeq_peptide;Acc:NP_001023773]			
F08F3.1	F08F3.1	F08F3.1 [Source:RefSeq_peptide;Acc:NP_504440]			
glc-3	ZC317.3	The glc-3 gene encodes a fipronil and BIDN-sensitive, but picrotoxinin-insensitive, L-glutamate-gated chloride channel subunit. [Source: WormBase]	transport, ion transport, locomotion during locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
ZC317.2	ZC317.2	ZC317.2 [Source:RefSeq_peptide;Acc:NP_504442]			
srg-67	ZC317.4	Serpentine Receptor, class G (gamma) family member (srg-67) [Source:RefSeq_peptide;Acc:NP_504443]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-68	ZC317.5	Serpentine Receptor, class G (gamma) family member (srg-68) [Source:RefSeq_peptide;Acc:NP_504444]			
ZC317.6	ZC317.6	ZC317.6 [Source:RefSeq_peptide;Acc:NP_504445]			
ZC317.7	ZC317.7	ZC317.7 [Source:RefSeq_peptide;Acc:NP_504446]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
ZC317.1	ZC317.1	ZC317.1 [Source:RefSeq_peptide;Acc:NP_504447]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
srg-66	T05C3.7	Serpentine Receptor, class G (gamma) family member (srg-66) [Source:RefSeq_peptide;Acc:NP_504449]			
srg-65	T05C3.8	Serpentine Receptor, class G (gamma) family member (srg-65) [Source:RefSeq_peptide;Acc:NP_872224]	signal transduction, 	membrane, 	transmembrane receptor activity, 
grl-18	T05C3.4	grl-18 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
T05C3.6	T05C3.6	The T05C3.6 gene encodes a paralog of T05C3.2, a protein with NACHT and WD domains that may be involved in apoptosis. [Source: WormBase]	metabolic process, 		catalytic activity, 
T05C3.2	T05C3.2	The T05C3.2 gene encodes a protein that may be involved in apoptosis. [Source: WormBase]			nucleotide binding, nucleoside-triphosphatase activity, 
dnj-19	T05C3.5	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]	protein folding, 		heat shock protein binding, unfolded protein binding, 
nhr-47	C24G6.4	nhr-47 is predicted to encode a nuclear hormone receptor (NHR). gene expression of nhr-47 appears to be induced upon exposure of worm cultures to estradiol. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C24G6.6	C24G6.6	C24G6.6 [Source:RefSeq_peptide;Acc:NP_504456]	electron transport, 		oxidoreductase activity, 
C24G6.3	C24G6.3	C24G6.3 [Source:RefSeq_peptide;Acc:NP_504457]			
C24G6.2	C24G6.2	C24G6.2a [Source:RefSeq_peptide;Acc:NP_504458]	protein amino acid phosphorylation, 	extracellular region, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
grl-1	C24G6.7	grl-1 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich region, and a C-terminal Ground-like (Grl) domain. GRL-1 is expressed in intestine, neurons, and larval arcade cells. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
C24G6.8	C24G6.8	Probable peptidyl-tRNA hydrolase 2 (EC 3.1.1.29) (PTH 2). [Source:Uniprot/SWISSPROT;Acc:O76387]	positive regulation of growth rate, 		
syp-2	C24G6.1	SYnaPsis in meiosis abnormal family member (syp-2) [Source:RefSeq_peptide;Acc:NP_504462]	embryonic development ending in birth or egg hatching, 		
cft-1	C18C4.2	Cystic Fibrosis Transmembrane conductance regulator homolog family member (cft-1) [Source:RefSeq_peptide;Acc:NP_504463]	transport, beta-lactam antibiotic catabolic process, response to antibiotic, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, beta-lactamase activity, 
ugt-48	C18C4.3	Putative UDP-glucuronosyltransferase ugt-48 precursor (EC 2.4.1.17) (UDPGT 48). [Source:Uniprot/SWISSPROT;Acc:Q18081]	metabolic process, translation, carbohydrate metabolic process, tRNA aminoacylation for protein translation, lipid glycosylation, 	cytoplasm, 	ATP binding, nucleotide binding, transferase activity, transferring hexosyl groups, aminoacyl-tRNA ligase activity, carbohydrate binding, 
C18C4.4	C18C4.4				
C18C4.5	C18C4.5	C18C4.5a [Source:RefSeq_peptide;Acc:NP_741538]	regulation of transcription, 	cytoplasm, nucleus, extrinsic to membrane, 	GTPase activator activity, transcription regulator activity, cytoskeletal protein binding, growth factor activity, 
C18C4.1	C18C4.1	C18C4.1 [Source:RefSeq_peptide;Acc:NP_504466]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C18C4.6	C18C4.6	C18C4.6 [Source:RefSeq_peptide;Acc:NP_504467]			
C18C4.7	C18C4.7	C18C4.7 [Source:RefSeq_peptide;Acc:NP_504468]			
C18C4.9	C18C4.9	C18C4.9 [Source:RefSeq_peptide;Acc:NP_504469]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
klc-2	C18C4.10	klc-2 encodes a kinesin light chain and was identified as a protein that interacts with UNC-16 by the yeast two-hybrid system, this association suggests that KLC-2 may be involved in the regulation of synaptic vesicle localization by the UNC-16-JNK signaling complex. [Source: WormBase]	embryonic development ending in birth or egg hatching, locomotion, 	kinesin complex, 	protein binding, microtubule motor activity, 
pas-6	CD4.6	pas-6 encodes a type 1 alpha subunit of the 26S proteasome's 20S protease core particle (CP). PAS-6 is required for embryonic, larval, and germline development and by homology, is predicted to comprise the outer rings of the proteasome and to play a role in selective degradation of ubiquitinated proteins during development. in vitro, PAS-6 interacts with BRP-1, a glutamine/asparagine (Q/N)-rich domain-containing protein conserved amongst nematodes, and with other members of the proteasome. [Source: WormBase]	ubiquitin-dependent protein catabolic process, biological_process, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
CD4.11	CD4.11	CD4.11 [Source:RefSeq_peptide;Acc:NP_001033471]			
CD4.5	CD4.5	CD4.5 [Source:RefSeq_peptide;Acc:NP_504473]			
CD4.4	CD4.4	CD4.4 [Source:RefSeq_peptide;Acc:NP_504474]	positive regulation of growth rate, 		
CD4.3	CD4.3	CD4.3 [Source:RefSeq_peptide;Acc:NP_504475]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
crn-2	CD4.2	crn-2 encodes a cell death-related nuclease, homologous to the magnesium-dependant TatD nuclease of E. coli. CRN-2 is required for normal levels of DNA degradation during apoptosis. crn-2(RNAi) 1.5-fold stage embryos display TUNEL labelling of nuclei that is five-fold higher than that seen in untreated N2 animals. CRN-2 promotes both DNA degradation and cell corpse engulfment, in a partially redundant pathway that includes CRN-3 but is parallel to CPS-6. CRN-2 is predicted to be mitochondrial. [Source: WormBase]	apoptotic cell clearance, DNA fragmentation during apoptosis, 		
CD4.7	CD4.7	CD4.7 [Source:RefSeq_peptide;Acc:NP_504477]			
NR_000460.1	CD4.10	CD4.10, miscRNA [Source:RefSeq_dna;Acc:NR_000460]			
CD4.8	CD4.8				
CD4.1	CD4.1	CD4.1 [Source:RefSeq_peptide;Acc:NP_504479]			
M03E7.4	M03E7.4	M03E7.4 encodes a protein, predicted to be secreted, with one chitin-binding peritrophin-A and three low-density lipoprotein receptor domain class A domains. M03E7.4 has no obvious function in mass RNAi assays. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	chitin binding, 
M03E7.3	M03E7.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q21497]			
M03E7.2	M03E7.2	M03E7.2 [Source:RefSeq_peptide;Acc:NP_504483]			
M03E7.5	M03E7.5	M03E7.5 [Source:RefSeq_peptide;Acc:NP_504484]	intracellular protein transport, embryonic development ending in birth or egg hatching, 	membrane, 	
M03E7.1	M03E7.1	M03E7.1 [Source:RefSeq_peptide;Acc:NP_504485]			structural molecule activity, 
acy-4	T01C2.1	acy-4 encodes an adenylate cyclase most similar to vertebrate type V and type VI adenylate cyclases. by homology, ACY-4 is a predicted plasma membrane protein that catalyzes the conversion of ATP to cyclic AMP, a key second messenger in intracellular signaling. as loss of acy-4 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of ACY-4 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, G-protein signaling, coupled to cAMP nucleotide second messenger, 		phosphorus-oxygen lyase activity, 
srx-117	C14C11.5	Serpentine Receptor, class X family member (srx-117) [Source:RefSeq_peptide;Acc:NP_504487]			protein binding, 
C14C11.4	C14C11.4	C14C11.4 [Source:RefSeq_peptide;Acc:NP_504488]	reproduction, 		
hex-2	C14C11.3	hex-2 encodes a beta-N-acetylhexosaminidase. [Source: WormBase]			beta-N-acetylhexosaminidase activity, 
mut-14	C14C11.6	mut-14 mutants exhibit germline transposon activation, a deficient response to RNAi, resistance to co-suppression, and transgene desilencing. [Source: WormBase]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
C14C11.2	C14C11.2	C14C11.2 [Source:RefSeq_peptide;Acc:NP_504491]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
C14C11.1	C14C11.1	C14C11.1 [Source:RefSeq_peptide;Acc:NP_504492]			
C14C11.7	C14C11.7	C14C11.7 [Source:RefSeq_peptide;Acc:NP_504493]			
pqn-13	C14C11.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	hormone-mediated signaling, 	extracellular region, 	
F25B4.5	F25B4.5	F25B4.5 [Source:RefSeq_peptide;Acc:NP_504495]	RNA processing, 	intracellular, 	
F25B4.6	F25B4.6	F25B4.6 is orthologous to the human gene 3-HYDROXY-3-METHYLGLUTARYL COA SYNTHASE (HMGCS2. OMIM:600234), which when mutated leads to disease. [Source: WormBase]	acetyl-CoA metabolic process, positive regulation of growth rate, 		hydroxymethylglutaryl-CoA synthase activity, 
F25B4.4	F25B4.4	F25B4.4 [Source:RefSeq_peptide;Acc:NP_504497]			
F25B4.7	F25B4.7	F25B4.7 [Source:RefSeq_peptide;Acc:NP_504498]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
F25B4.3	F25B4.3				
F25B4.8	F25B4.8	F25B4.8b [Source:RefSeq_peptide;Acc:NP_741541]	metabolic process, 		carbon-sulfur lyase activity, 
clec-1	F25B4.9	C-type LECtin family member (clec-1) [Source:RefSeq_peptide;Acc:NP_504500]	positive regulation of multicellular organism growth, 		sugar binding, 
F25B4.2	F25B4.2	F25B4.2 [Source:RefSeq_peptide;Acc:NP_504501]			
F25B4.1	F25B4.1	F25B4.1 is orthologous to the human gene GLYCINE CLEAVAGE SYSTEM T-PROTEIN (AMT. OMIM:238310), which when mutated leads to glycine encephalopathy. [Source: WormBase]	glycine catabolic process, 	cytoplasm, 	aminomethyltransferase activity, 
K09H11.9	K09H11.9	K09H11.9 [Source:RefSeq_peptide;Acc:NP_001033496]			
K09H11.10	K09H11.10	K09H11.10 [Source:RefSeq_peptide;Acc:NP_001033494]	embryonic development ending in birth or egg hatching, 		
rga-3	K09H11.3	Rho GTPase Activating protein family member (rga-3) [Source:RefSeq_peptide;Acc:NP_504503]	signal transduction, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, intracellular, 	peptide receptor activity, G-protein coupled, 
K09H11.4	K09H11.4	K09H11.4 [Source:RefSeq_peptide;Acc:NP_504504]			
srx-124	K09H11.8				
K09H11.5	K09H11.5	K09H11.5 [Source:RefSeq_peptide;Acc:NP_504505]			
srx-123	K09H11.2				
K09H11.6	K09H11.6	K09H11.6 [Source:RefSeq_peptide;Acc:NP_504507]			
K09H11.1	K09H11.1	K09H11.1 [Source:RefSeq_peptide;Acc:NP_504508]	protein amino acid phosphorylation, proteolysis, metabolic process, electron transport, 		ATP binding, protein-tyrosine kinase activity, catalytic activity, cysteine-type endopeptidase activity, hydrolase activity, acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
K09H11.7	K09H11.7	K09H11.7 [Source:RefSeq_peptide;Acc:NP_504509]	metabolic process, 		catalytic activity, hydrolase activity, phosphoric monoester hydrolase activity, 
K09H11.11	K09H11.11	K09H11.11 [Source:RefSeq_peptide;Acc:NP_001033495]			
C53A3.3	C53A3.3	C53A3.3 [Source:RefSeq_peptide;Acc:NP_001033470]			
C53A3.1	C53A3.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C53A3.2	C53A3.2	C53A3.2 [Source:RefSeq_peptide;Acc:NP_504511]	metabolic process, 		catalytic activity, hydrolase activity, phosphoric monoester hydrolase activity, 
F44E7.2	F44E7.2	F44E7.2 [Source:RefSeq_peptide;Acc:NP_504512]	metabolic process, 		catalytic activity, hydrolase activity, phosphoric monoester hydrolase activity, 
F44E7.3	F44E7.3	F44E7.3 [Source:RefSeq_peptide;Acc:NP_504513]			
F44E7.4	F44E7.4	F44E7.4a [Source:RefSeq_peptide;Acc:NP_741543]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
F44E7.5	F44E7.5	F44E7.5b [Source:RefSeq_peptide;Acc:NP_872177]			
fbxa-183	F44E7.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F44E7.7	F44E7.7	F44E7.7 [Source:RefSeq_peptide;Acc:NP_504517]	transport, 	integral to membrane, 	transporter activity, 
nhr-142	F44E7.8	Nuclear Hormone Receptor family member (nhr-142) [Source:RefSeq_peptide;Acc:NP_504518]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F44E7.9	F44E7.9	F44E7.9 [Source:RefSeq_peptide;Acc:NP_504519]			protein binding, 
ZC250.2	ZC250.2	ZC250.2 [Source:RefSeq_peptide;Acc:NP_504520]			
ZC250.3	ZC250.3	ZC250.3 [Source:RefSeq_peptide;Acc:NP_504521]	carbohydrate transport, nucleotide-sugar transport, biological_process, 	integral to membrane, Golgi membrane, 	sugar:hydrogen ion symporter activity, nucleotide-sugar transmembrane transporter activity, 
cyn-17	ZC250.1	CYclophyliN family member (cyn-17) [Source:RefSeq_peptide;Acc:NP_504522]			
ZC250.5	ZC250.5	Peptidyl-prolyl cis-trans isomerase (EC 5.2.1.8). [Source:Uniprot/SPTREMBL;Acc:A3KFD7]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
ZC250.4	ZC250.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3KFD8]			
let-418	F26F12.7	The let-418 gene encodes a homolog of Mi-2/CHD3, a component of the nucleosome remodeling and histone deacetylase (NURD) complex. LET-418 is similar to DNA helicases, homologous to human AIRE (OMIM:607358, mutated in autoimmune polyendocrinopathy syndrome), and paralogous to CHD-3. with MEP-1, LET-418 is required to repress germline-specific genes in somatic cells, and also negatively regulates RAS-dependent postembryonic vulval development (via the synMuvB pathway). LET-418 and CHD-3 are redundantly required for specification of secondary cell fates in vulval development. LET-418 is expressed in all interphase nuclei throughout development. LET-418 is bound by MEP-1, and also interacts with HDA-1 and PIE-1. these interactions probably reflect repression of LET-418 by PIE-1 in the germline. [Source: WormBase]	chromatin assembly or disassembly, growth, embryonic digestive tract morphogenesis, 	nucleus, chromatin, 	ATP binding, protein binding, zinc ion binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, chromatin binding, ATP-dependent helicase activity, 
srh-76	F26F12.6	Serpentine Receptor, class H family member (srh-76) [Source:RefSeq_peptide;Acc:NP_001023860]			
col-140	F26F12.1	COLlagen family member (col-140) [Source:RefSeq_peptide;Acc:NP_504525]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
F26F12.2	F26F12.2	F26F12.2 [Source:RefSeq_peptide;Acc:NP_504526]			
F26F12.3	F26F12.3	F26F12.3a [Source:RefSeq_peptide;Acc:NP_504527]			zinc ion binding, 
F26F12.8	F26F12.8	F26F12.8 [Source:RefSeq_peptide;Acc:NP_001033478]			
F26F12.5	F26F12.5	F26F12.5a [Source:RefSeq_peptide;Acc:NP_001023857]			
F26F12.4	F26F12.4	F26F12.4 [Source:RefSeq_peptide;Acc:NP_504530]			
C02G6.2	C02G6.2	C02G6.2 [Source:RefSeq_peptide;Acc:NP_504531]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
C02G6.1	C02G6.1	C02G6.1 [Source:RefSeq_peptide;Acc:NP_504532]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
C02G6.3	C02G6.3	C02G6.3 [Source:RefSeq_peptide;Acc:NP_001041079]			
C04E6.8	C04E6.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O01463]			
C04E6.7	C04E6.7	C04E6.7 [Source:RefSeq_peptide;Acc:NP_504534]	metabolic process, DNA repair, DNA replication, DNA recombination, 		ATP binding, catalytic activity, hydrolase activity, DNA ligase (ATP) activity, 
grd-9	C04E6.6	grd-9 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity proline-rich domain, and a C-terminal Ground domain. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-9 is weakly required for normal molting. GRD-9 is also required for normal growth to full size, locomotion, and male tail development. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
srd-16	C04E6.9	Serpentine Receptor, class D (delta) family member (srd-16) [Source:RefSeq_peptide;Acc:NP_504536]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C04E6.5	C04E6.5	C04E6.5 [Source:RefSeq_peptide;Acc:NP_504537]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
srd-15	C04E6.10	Serpentine Receptor, class D (delta) family member (srd-15) [Source:RefSeq_peptide;Acc:NP_504538]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C04E6.4	C04E6.4	C04E6.4 [Source:RefSeq_peptide;Acc:NP_504539]			
C04E6.13	C04E6.13	C04E6.13 [Source:RefSeq_peptide;Acc:NP_872214]	immune response, 	membrane, 	tumor necrosis factor receptor binding, 
C04E6.11	C04E6.11	C04E6.11 [Source:RefSeq_peptide;Acc:NP_504540]			
C04E6.12	C04E6.12				
C04E6.3	C04E6.3	C04E6.3 [Source:RefSeq_peptide;Acc:NP_504542]			
srsx-18	C04E6.2	Serpentine Receptor, class SX family member (srsx-18) [Source:RefSeq_peptide;Acc:NP_504543]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-17	F58D7.1	Serpentine Receptor, class SX family member (srsx-17) [Source:RefSeq_peptide;Acc:NP_504544]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
M03F8.4	M03F8.4	M03F8.4 [Source:RefSeq_peptide;Acc:NP_504545]			
M03F8.5	M03F8.5	M03F8.5 [Source:RefSeq_peptide;Acc:NP_504546]			
M03F8.3	M03F8.3	M03F8.3 [Source:RefSeq_peptide;Acc:NP_504547]	RNA processing, biological_process, 	intracellular, 	
pst-1	M03F8.2	Adenosine 3'-phospho 5'-phosphosulfate transporter 1 (PAPS transporter 1). [Source:Uniprot/SWISSPROT;Acc:Q8MXJ9]			
M03F8.1	M03F8.1	M03F8.1 [Source:RefSeq_peptide;Acc:NP_504549]			
M03F8.6	M03F8.6	M03F8.6 [Source:RefSeq_peptide;Acc:NP_504550]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
pcm-1	C10F3.5	Protein-L-isoaspartate O-methyltransferase (EC 2.1.1.77) (Protein- beta-aspartate methyltransferase) (PIMT) (Protein L-isoaspartyl methyltransferase) (L-isoaspartyl protein carboxyl methyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q27873]	protein modification process, 		methyltransferase activity, protein-L-isoaspartate (D-aspartate) O-methyltransferase activity, 
C10F3.4	C10F3.4	C10F3.4b [Source:RefSeq_peptide;Acc:NP_001023639]	embryonic development ending in birth or egg hatching, 		
acy-2	C10F3.3	acy-2 encodes an adenylyl cyclase. an intragenic deletion of acy-2 is lethal at the first larval stage of development. the terminal phenotype resembles that seen in loss-of-function gsa-1 mutants. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, locomotory behavior, 		phosphorus-oxygen lyase activity, 
dhs-16	C10F3.2	dhs-16 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C10F3.7	C10F3.7	C10F3.7 [Source:RefSeq_peptide;Acc:NP_872204]			
fut-8	C10F3.6	fut-8 encodes a core alpha 1,6-fucosyltransferase. characterization of a recombinant form of the protein that contains the catalytic region of FUT-8 reveals a sustrate requirement for unsubstituted nonreducing terminal GlcNAc residues. [Source: WormBase]			
cpg-4	C10F3.1	cpg-4 encodes a large (782-residue), unfamiliar, putatively secreted protein with a C-terminal low-complexity domain. CPG-4 has 35 potential chondroitin attachment sites, mostly in its C-terminal half, 4 of which have been verified by mass spectrometry. CPG-4 has no obvious function in mass RNAi assays. [Source: WormBase]			
fos-1	F29G9.4	fos-1 encodes two basic region-leucine zipper (bZip) transcription factors, FOS-1A and FOS-1B, that are the sole C. elegans orthologs of the fos bZip transcription factor family. during hermaphrodite development, FOS-1A activity is required cell autonomously in the gonadal anchor cell for basement-membrane removal and subsequent anchor cell invasion of the vulval epithelium. in addition, fos-1 activity is also required for proper vulval and uterine development, fertility, and oogenesis. in late-L3 larvae, a FOS-1A translational fusion protein is expressed at high levels in the anchor cell nucleus and at lower levels in uterine cells, while a FOS-1B reporter is expressed at low levels in the anchor cell, uterine, and vulval cells. transcriptional reporters additionally reveal that fos-1b is expressed in most cells of late L3 larvae. in affecting anchor cell invasion, FOS-1A appears to act by regulating the expression of three AC-expressed genes: cdh-3/cadherin, him-4/hemicentin, and zmp-1/matrix metalloproteinase, which likely function together to promote anchor cell invasion. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, morphogenesis of an epithelium, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
rpt-2	F29G9.5	Probable 26S protease regulatory subunit 4. [Source:Uniprot/SWISSPROT;Acc:O16368]	protein catabolic process, embryonic cleavage, 	cytoplasm, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, hydrolase activity, 
aps-1	F29G9.3	aps-1 encodes an adaptin: specifically, it encodes an ortholog of the sigma1 subunit of adaptor protein complex 1 (AP-1). [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	membrane coat, 	protein transporter activity, protein binding, 
F29G9.2	F29G9.2	F29G9.2a [Source:RefSeq_peptide;Acc:NP_504560]	embryonic development ending in birth or egg hatching, 		protein binding, 
dhs-17	F29G9.6	dhs-17 encodes a member of the short-chain dehydrogenases/reductases family (SDR). [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F29G9.7	F29G9.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F29G9.1	F29G9.1	F29G9.1 [Source:RefSeq_peptide;Acc:NP_504563]			
R01B10.2	R01B10.2	R01B10.2 [Source:RefSeq_peptide;Acc:NP_504564]			
cpi-2	R01B10.1	cpi-2 encodes a protein that contains a cystatin-like domain. [Source: WormBase]	reproduction, 		cysteine protease inhibitor activity, 
R01B10.3	R01B10.3	R01B10.3 [Source:RefSeq_peptide;Acc:NP_504566]	reproduction, 		
R01B10.4	R01B10.4	R01B10.4 [Source:RefSeq_peptide;Acc:NP_504567]			protein binding, 
jamp-1	R01B10.5	JAMP (JNK1-Associated Membrane Protein) homolog family member (jamp-1) [Source:RefSeq_peptide;Acc:NP_504568]			
R01B10.6	R01B10.6	R01B10.6 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:16393) (BSCL2. OMIM:606158), which when mutated leads to disease. [Source: WormBase]			
srd-20	Y38A10A.1	Serpentine Receptor, class D (delta) family member (srd-20) [Source:RefSeq_peptide;Acc:NP_504569]			
Y38A10A.2	Y38A10A.2	Y38A10A.2 [Source:RefSeq_peptide;Acc:NP_504570]	biological_process, 		
srh-10	Y38A10A.3	Serpentine Receptor, class H family member (srh-10) [Source:RefSeq_peptide;Acc:NP_504571]			
fbxa-214	Y38A10A.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
Y38A10A.7	Y38A10A.7	Y38A10A.7 [Source:RefSeq_peptide;Acc:NP_504573]	metabolic process, 		N-acetyltransferase activity, 
Y38A10A.6	Y38A10A.6	Y38A10A.6 [Source:RefSeq_peptide;Acc:NP_504574]			ATP binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, ATP-dependent helicase activity, 
crt-1	Y38A10A.5	crt-1 encodes an ortholog of calreticulin (a calcium-binding molecular chaperone of the endoplasmic reticulum). crt-1 is dispensable for viability, but required for normal sperm development, male mating efficiency, some forms of necrotic cell death, and hermaphrodite fertility at high temperatures (which may reflect a stress response). crt-1 expression is induced by stress. CRT-1 protein binds Ca(2+) and can suppress heat-induced protein aggregation in vitro. crt-1(bz29) and crt-1(bz30) mutants suppress necrotic cell death induced either by mec-4(d) or by a constitutively activated Gas subunit. crt-1(bz29). crt-1's suppression of necrosis is itself partly reversed by thapsigargin, which enhances calcium release from the endoplasmic reticulum. crt-1(bz30), and crt-1(jh101) mutants grow more slowly, and have have reduced broods at 25 deg. C.. crt-1(jh101) mutants are slightly shorter than normal and have defective sperm. CRT-1 and ITR-1 serve partly redundant functions in vivo, since crt-1.itr-1(sa73) are highly infertile and slow-growing with greatly slowed defecation. a number of proteins, notably HSP-3/4 and PDI-2/3, are over-expressed in crt-1(jh101) mutants and crt-1(jh101).cnx-1(nr2009) double mutants. [Source: WormBase]	locomotory behavior, positive regulation of non-apoptotic programmed cell death, 	endoplasmic reticulum, 	protein binding, calcium ion binding, 
F17A9.3	F17A9.3	F17A9.3 [Source:RefSeq_peptide;Acc:NP_504576]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
F17A9.2	F17A9.2	F17A9.2 [Source:RefSeq_peptide;Acc:NP_504577]			
F17A9.4	F17A9.4	F17A9.4 [Source:RefSeq_peptide;Acc:NP_504578]			RNA binding, oxidoreductase activity, catalytic activity, FMN binding, 
F17A9.5	F17A9.5	F17A9.5 [Source:RefSeq_peptide;Acc:NP_504579]			oxidoreductase activity, catalytic activity, FMN binding, 
fbxa-178	F17A9.1	F17A9.1 encodes a divergent ONECUT class CUT homeobox protein with a single N-terminal cut domain. F17A9.1 has an atypical tyrosine residue at position 48 of its homeodomain rather than a phenylalanine or tryptophan residue. the cut domain may be a compact DNA-binding domain composed of alpha helices. phylogenetically, F17A9.1 is (somewhat distantly) affiliated with C17H12.9, Drosophila ONECUT, and mammalian HNF6 proteins. F17A9.1 has no obvious function in mass RNAi assays. [Source: WormBase]			
ceh-49	F17A9.6	ceh-49 encodes a divergent ONECUT class CUT homeobox protein with a single N-terminal cut domain. CEH-49 has an atypical tyrosine residue at position 48 of its homeodomain rather than a phenylalanine or tryptophan residue. the cut domain may be a compact DNA-binding domain composed of alpha helices. phylogenetically, CEH-49 is (somewhat distantly) affiliated with CEH-48, Drosophila ONECUT, and mammalian HNF6 proteins. CEH-49 has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
ttn-1	W06H8.8	ttn-1, through multiple splicing, encodes at least six protein isoforms that are orthologs of titin (OMIM:188840, mutated in cardiomyopathy or tibial muscular dystrophy), with the three largest isoforms being 2.2 MDa, 1.2 MDa and 301 kDa. TTN-1 isoforms are expressed in body wall and vulval muscle, localized to the centers of I-bands, with the two largest isoforms expressed in all muscles except pharyngeal. the largest TTN-1 isoform contains 56 Ig domains, 11 FnIII domains, a twitchin-like protein kinase domain, a domain similar to the elastic PEVK domain of vertebrate titin, 96 tandem copies of a 16-residue motif predicted to comprise a coiled-coil domain, and two other short multiply repeated motifs. the TTN-1 kinase domain is catalytically active, and its activity is quantitatively regulated by alternative splicing of an adjacent autoinhibitory domain. TTN-1 is mislocalized in an alpha-actinin mutant (atn-1[ok84]). ttn-1 is transcribed from at least two promoters, and its transcription is stimulated by NFI-1. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, structural constituent of cell wall, 
exp-2	F12F3.1	exp-2 encodes a member of the six-transmembrane voltage-activated (Kv-type) family of potassium channels. exp-2 is required for normal pharyngeal muscle action potentials and hence, for normal feeding behavior. in addition, exp-2 is required for chemotaxis. when expressed in Xenopus oocytes, EXP-2 displays inward rectifying currents, however when assessed in endogenous pharyngeal tissue, EXP-2 displays hyperpolarization-activated outward currents. an EXP-2 translational reporter fusion is expressed strongly in pharyngeal muscles, amphid, phasmid, and head neurons, posterior enteric muscles, and occasionally faintly in the egg-laying muscles. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
W06H8.4	W06H8.4	W06H8.4 [Source:RefSeq_peptide;Acc:NP_504588]			
W06H8.2	W06H8.2	W06H8.2 [Source:RefSeq_peptide;Acc:NP_504589]			oxidoreductase activity, catalytic activity, FMN binding, 
rme-1	W06H8.1	The rme-1 gene encodes a C. elegans protein required for endocytosis. [Source: WormBase]	receptor-mediated endocytosis, 	intracellular, 	protein binding, GTP binding, GTPase activity, calcium ion binding, 
str-206	W06H8.7	Seven TM Receptor family member (str-206) [Source:RefSeq_peptide;Acc:NP_504594]	protein retention in ER, 	integral to membrane, 	ER retention sequence binding, 
NR_002678.1	W06H8.5	W06H8.5, miscRNA [Source:RefSeq_dna;Acc:NR_002678]			
W06H8.6	W06H8.6	W06H8.6 [Source:RefSeq_peptide;Acc:NP_504596]			
K08B12.3	K08B12.3	K08B12.3 [Source:RefSeq_peptide;Acc:NP_504597]	metabolic process, 		catalytic activity, hydrolase activity, 
K08B12.4	K08B12.4				
K08B12.2	K08B12.2	K08B12.2a [Source:RefSeq_peptide;Acc:NP_741551]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
tag-59	K08B12.5	tag-59/K08B12.5 encodes a serine/threonine-protein kinase that is homologous to human DMK (OMIM:160900l. mutated in dystrophia myotonica I). [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, locomotory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, small GTPase regulator activity, 
K08B12.1	K08B12.1	K08B12.1 [Source:RefSeq_peptide;Acc:NP_504600]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
F31F7.3	F31F7.3	F31F7.3 [Source:RefSeq_peptide;Acc:NP_504601]			
F31F7.2	F31F7.2	F31F7.2 [Source:RefSeq_peptide;Acc:NP_504602]			
F31F7.1	F31F7.1	F31F7.1a [Source:RefSeq_peptide;Acc:NP_504603]	metabolic process, embryonic development ending in birth or egg hatching, 		N-acetyltransferase activity, 
K12B6.3	K12B6.3	K12B6.3 [Source:RefSeq_peptide;Acc:NP_504604]	lipid catabolic process, 		lipase activity, 
K12B6.4	K12B6.4	K12B6.4 [Source:RefSeq_peptide;Acc:NP_504605]			
K12B6.2	K12B6.2	K12B6.2 [Source:RefSeq_peptide;Acc:NP_504606]		integral to membrane, 	
srn-1	K12B6.5	Serpentine Receptor, class N family member (srn-1) [Source:RefSeq_peptide;Acc:NP_504607]			
K12B6.9	K12B6.9	K12B6.9 [Source:RefSeq_peptide;Acc:NP_001024055]			
K12B6.6	K12B6.6	K12B6.6 [Source:RefSeq_peptide;Acc:NP_504608]			
K12B6.7	K12B6.7	K12B6.7 [Source:RefSeq_peptide;Acc:NP_504609]			
sago-1	K12B6.1	sago-1 encodes an Argonaute homolog that is partially required for the amplification phase of RNAi responses. a multiply mutant strain (MAGO), consisting of ppw-1(tm914), sago-1(tm1195), sago-2(tm894), F58G1.1(tm1019), C06A1.4(tm887), and M03D4.6(tm1144) alleles, is completely resistant to both germline and somatic RNAi. sago-1 is genetically redundant with ppw-1 and sago-2, with any one of these genes being able to transgenically partially restore the deficiency of MAGO worms. GFP-tagged SAGO-1 binds small secondary siRNAs produced by RNAi against GFP. MAGO is not transgenically rescued by rde-1. strains overexpressing GFP::SAGO-1 exhibited an enhanced level of RNAi overall, suggesting that SAGO-1 and its congeners are rate-limiting in vivo for RNAi. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
K12B6.8	K12B6.8	K12B6.8 [Source:RefSeq_peptide;Acc:NP_504611]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
T28C12.5	T28C12.5	T28C12.5 [Source:RefSeq_peptide;Acc:NP_504612]			
T28C12.4	T28C12.4	T28C12.4 encodes a protein with visible similarity to human neuroligin 4 (OMIM:300427, mutated in autism), but also belongs to a large family of carboxylesterases that happen to include NLG-1. normally, T28C12.4 is expressed in hypodermal cells. transcription of T28C12.4 is immediately induced by exposure to ethanol, and with glr-2 is one of a few genes that may be specifically responsive to ethanol (as opposed to other stresses, which are expected to typically induce heat shock genes). the 5' flank of T28C12.4 contains a single ethanol- and stress-responsive element that is required in a T28C12.4::GFP transgene for transcriptional induction by ethanol. [Source: WormBase]	biological_process, 	cellular_component, 	protein binding, 
fbxa-202	T28C12.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T28C12.2	T28C12.2	T28C12.2 [Source:RefSeq_peptide;Acc:NP_504616]	transport, 	integral to membrane, 	transporter activity, 
T28C12.1	T28C12.1	T28C12.1 [Source:RefSeq_peptide;Acc:NP_504617]	transport, 	integral to membrane, 	transporter activity, 
T28C12.6	T28C12.6	T28C12.6 [Source:RefSeq_peptide;Acc:NP_504618]			protease inhibitor activity, 
T28C12.t1	T28C12.t1				
F13H6.1	F13H6.1	F13H6.1 [Source:RefSeq_peptide;Acc:NP_504620]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
F13H6.3	F13H6.3	Esterase CM06B1 (EC 3.1.1.1). [Source:Uniprot/SWISSPROT;Acc:Q07085]			protein binding, 
F13H6.4	F13H6.4	F13H6.4 [Source:RefSeq_peptide;Acc:NP_504622]			
F13H6.5	F13H6.5	F13H6.5 [Source:RefSeq_peptide;Acc:NP_504623]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F57F4.2	F57F4.2	F57F4.2 [Source:RefSeq_peptide;Acc:NP_504624]			
F57F4.1	F57F4.1	F57F4.1 [Source:RefSeq_peptide;Acc:NP_504625]			
gfi-1	F57F4.3	gfi-1 encodes a protein that contains 21 ET modules. interacts with unc-68 in yeast two-hybrid assays. [Source: WormBase]	positive regulation of growth rate, 		enzyme inhibitor activity, 
F57F4.4	F57F4.4	F57F4.4 [Source:RefSeq_peptide;Acc:NP_504627]	positive regulation of growth rate, 		enzyme inhibitor activity, 
T05H4.7	T05H4.7	T05H4.7 [Source:RefSeq_peptide;Acc:NP_504628]	chitin catabolic process, cell wall catabolic process, 		chitinase activity, 
T05H4.10	T05H4.10	T05H4.10 [Source:RefSeq_peptide;Acc:NP_504629]			
T05H4.8	T05H4.8				
T05H4.t1	T05H4.t1				
T05H4.t2	T05H4.t2				
T05H4.11	T05H4.11	T05H4.11 [Source:RefSeq_peptide;Acc:NP_504632]			
atp-4	T05H4.12	ATP synthase subunit family member (atp-4) [Source:RefSeq_peptide;Acc:NP_504633]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
alh-4	T05H4.13	ALdehyde deHydrogenase family member (alh-4) [Source:RefSeq_peptide;Acc:NP_741553]	metabolic process, 		oxidoreductase activity, 
gad-1	T05H4.14	The gad-1 gene encodes a WD repeat-containing protein that is required maternally for gastrulation initiation during early embryogenesis by regulating the division timing, spindle orientation, and subsequent inward migration of the two gut precusor (E) cells at the 26-cell stage. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
T05H4.6a	T05H4.6	Eukaryotic peptide chain release factor subunit 1 (eRF1) (Eukaryotic release factor 1). [Source:Uniprot/SWISSPROT;Acc:O16520]	translational termination, embryonic development ending in birth or egg hatching, 	cytoplasm, 	translation release factor activity, codon specific, 
T05H4.5	T05H4.5	The T05H4.5 gene encodes an ortholog of the human gene NADH-CYTOCHROME B5 REDUCTASE (DIA1), which when mutated leads to methemoglobinemia (OMIM:250800). [Source: WormBase]	electron transport, positive regulation of growth rate, 		oxidoreductase activity, 
T05H4.4	T05H4.4	The T05H4.4 gene encodes a homolog of the human gene B5R, which when mutated leads to methemoglobinemia (OMIM:250800). [Source: WormBase]	electron transport, positive regulation of growth rate, 		oxidoreductase activity, 
T05H4.15	T05H4.15	T05H4.15a [Source:RefSeq_peptide;Acc:NP_504640]			
T05H4.3	T05H4.3	T05H4.3 [Source:RefSeq_peptide;Acc:NP_504641]			protein binding, 
fbxa-196	T05H4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			protein binding, 
acl-8	T05H4.1	ACyLtransferase-like family member (acl-8) [Source:RefSeq_peptide;Acc:NP_504643]	metabolic process, 		acyltransferase activity, 
acl-9	ZK40.1	ACyLtransferase-like family member (acl-9) [Source:RefSeq_peptide;Acc:NP_504644]	metabolic process, 		protein binding, acyltransferase activity, 
unc-83	W01A11.3	unc-83 encodes a novel transmembrane protein. during development, unc-83 activity is required for nuclear migrations in P cells, hyp7 hypodermal precursors, and intestinal cells. unc-83 is thus essential for proper vulva formation, ventral nerve cord development, and locomotion. UNC-83 co-localizes to the nuclear envelope with UNC-84, a conserved nuclear envelope component, and LMN-1/lamin. UNC-83 localization is dependent upon the UNC-84 SUN domain with which it interacts in vitro. as UNC-84 localization does not require UNC-83, UNC-84 is proposed to act upstream of UNC-83 in the pathway controlling nuclear migrations. [Source: WormBase]	regulation of cell migration, nuclear migration, 		
lec-10	W01A11.4	lec-10 encodes a galectin, a soluble galactose-binding lectin. recombinant lec-10 can bind to sugar in an in vitro assay. [Source: WormBase]			protein binding, sugar binding, 
cpt-6	W01A11.5	Carnitine Palmitoyl Transferase family member (cpt-6) [Source:RefSeq_peptide;Acc:NP_504648]			acyltransferase activity, 
W01A11.2	W01A11.2	W01A11.2 [Source:RefSeq_peptide;Acc:NP_504649]	embryonic development ending in birth or egg hatching, 		
W01A11.1	W01A11.1	W01A11.1 [Source:RefSeq_peptide;Acc:NP_504650]	response to toxin, 	membrane, microsome, 	catalytic activity, epoxide hydrolase activity, 
moc-2	W01A11.6	MOlybdenum Cofactor biosynthesis family member (moc-2) [Source:RefSeq_peptide;Acc:NP_504651]	Mo-molybdopterin cofactor biosynthetic process, 		
W01A11.7	W01A11.7	W01A11.7 [Source:RefSeq_peptide;Acc:NP_504652]			nucleotide binding, 
ubh-3	Y40G12A.1	UBiquitin C-terminal Hydrolase (family 1) family member (ubh-3) [Source:RefSeq_peptide;Acc:NP_504653]	ubiquitin-dependent protein catabolic process, 	intracellular, 	ubiquitin thiolesterase activity, 
ubh-2	Y40G12A.2	UBiquitin C-terminal Hydrolase (family 1) family member (ubh-2) [Source:RefSeq_peptide;Acc:NP_741555]	ubiquitin-dependent protein catabolic process, 	intracellular, 	ubiquitin thiolesterase activity, 
ubh-1	F46E10.8	ubh-1 encodes a putative ubiquitin C-terminal hydrolase orthologous to human UCHL1 (OMIM:191342, mutated in Parkinson disease). [Source: WormBase]	ubiquitin-dependent protein catabolic process, 	intracellular, 	ubiquitin thiolesterase activity, 
dpy-11	F46E10.9	dpy-11 encodes a membrane- associated thioredoxin- like (TRX) protein that affects body shape and ray morphology. the TRX domain displays catalytic activity in vitro, and dpy-11 is expressed in cytoplasm of hypodermis. [Source: WormBase]	cell redox homeostasis, positive regulation of multicellular organism growth, 		protein binding, 
F46E10.10	F46E10.10	F46E10.10c [Source:RefSeq_peptide;Acc:NP_872154]	chloride transport, tricarboxylic acid cycle intermediate metabolic process, malate metabolic process, 	membrane, 	oxidoreductase activity, voltage-gated chloride channel activity, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, L-malate dehydrogenase activity, malate dehydrogenase activity, 
F46E10.3	F46E10.3	F46E10.3 [Source:RefSeq_peptide;Acc:NP_504657]			
F46E10.2	F46E10.2	F46E10.2 [Source:RefSeq_peptide;Acc:NP_504658]	metabolic process, 		
F46E10.1	F46E10.1	F46E10.1a [Source:RefSeq_peptide;Acc:NP_001023937]	metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, 
F46E10.11	F46E10.11	F46E10.11 [Source:RefSeq_peptide;Acc:NP_504660]	positive regulation of growth rate, 		protease inhibitor activity, 
dre-1	K04A8.6	dre-1 encodes an ortholog of human FBXO11/PRMT9 (OMIM:607871, associated with vitiligo and otitis media) that is required, in conjunction with DAF-12 and its partners, for global developmental timing of the transistion from larval to adult cell fates. DRE-1 has an N-terminal F-box domain, three central tandem C-terminal CASH domains, and a C-terminal zinc finger. hypomorphic dre-1 mutations are synthetically heterochronic with loss-of-function daf-12 alleles, inducing defective distal tip cell migration and precocious fusion of seam cells. five different hypomorphic dre-1 alleles alter conserved glycine residues in the CASH domain region, whereas the null dre-1(hd60) allele is lethal at the three-fold embryo stage. DRE-1 is expressed in many tissues, including epidermal and distal tip cells, and localizes to both nucleus and cytoplasm. strong loss-of-function of dre-1 (the dh99 mutant fed RNAi) induces defects at all four molts. dre-1 also has synthetic phenotypes with daf-9(k182), daf-36(k114), and lin-29(n546). dre-1-like enhancement of daf-12 is also seen in skr-1(RNAi), cul-1(RNAi), or rbx-1/2(RNAi) animals. DRE-1 and SKR-1 bind one another, as do their human orthologs. DRE-1 affects lin-29 expression, and is suppressed by lin-42(RNAi). DRE-1 is paralogous to C. elegans BE0003N10.3. [Source: WormBase]	ubiquitin cycle, oviposition, 	intracellular, 	protein binding, zinc ion binding, ubiquitin-protein ligase activity, 
K04A8.5	K04A8.5	K04A8.5 [Source:RefSeq_peptide;Acc:NP_504662]	lipid metabolic process, 		
K04A8.t2	K04A8.t2				
twk-10	K04A8.4	TWiK family of potassium channels family member (twk-10) [Source:RefSeq_peptide;Acc:NP_504663]	potassium ion transport, 	membrane, 	potassium channel activity, 
spp-20	K04A8.8	SaPosin-like Protein family member (spp-20) [Source:RefSeq_peptide;Acc:NP_504665]	lipid metabolic process, 		
spp-19	K04A8.9	SaPosin-like Protein family member (spp-19) [Source:RefSeq_peptide;Acc:NP_504666]			
K04A8.3	K04A8.3	K04A8.3 [Source:RefSeq_peptide;Acc:NP_504667]			
K04A8.t3	K04A8.t3				
K04A8.2	K04A8.2	K04A8.2 [Source:RefSeq_peptide;Acc:NP_504668]			
K04A8.1	K04A8.1	K04A8.1 [Source:RefSeq_peptide;Acc:NP_504669]			
K04A8.10	K04A8.10	K04A8.10 [Source:RefSeq_peptide;Acc:NP_504670]	metabolic process, 		transferase activity, transferring hexosyl groups, 
fut-2	EGAP9.2	fut-2 encodes a unique alpha 1,2-fucosyltransferase specifically expressed in intestinal cells of larval and adult animals. recombinant FUT-2 expressed in human 293T cells exhibits a novel acceptor specificity profile compared with mammalian alpha 1,2-fucosyltransferases and the predicted protein shares very low amino acid identity with human alpha 1,2-fucosyltransferases, but its predicted type 2 topology and domain structure are typical of other glucosyltransferases. [Source: WormBase]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
EGAP9.4	EGAP9.4	EGAP9.4 [Source:RefSeq_peptide;Acc:NP_001033473]		intracellular, 	zinc ion binding, nucleic acid binding, 
EGAP9.3	EGAP9.3	EGAP9.3 [Source:RefSeq_peptide;Acc:NP_504672]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
ZK1055.5	ZK1055.5	ZK1055.5 [Source:RefSeq_peptide;Acc:NP_504673]			
ZK1055.4	ZK1055.4	ZK1055.4 [Source:RefSeq_peptide;Acc:NP_504674]			
ZK1055.3	ZK1055.3	ZK1055.3 [Source:RefSeq_peptide;Acc:NP_504675]			
ZK1055.2	ZK1055.2	ZK1055.2 [Source:RefSeq_peptide;Acc:NP_504676]			
hcp-1	ZK1055.1	hcp-1 encodes a homolog of the mammalian centromere protein-F (CENP-F) and is involved in mitotic chromosome segregation. hcp-1 functions in an ordered pathway consisting of two other CENP proteins encoded by hcp-3 and hcp-4 to control assembly of the kinetochore. hcp-1 localization to the kinetochore is dependent on hcp-3 and hcp-4. [Source: WormBase]	signal transduction, chemotaxis, vesicle-mediated transport, mitotic sister chromatid segregation, 	membrane, 	protein binding, signal transducer activity, 
ZK1055.6	ZK1055.6	ZK1055.6b [Source:RefSeq_peptide;Acc:NP_504678]			
ZK1055.7	ZK1055.7	ZK1055.7 [Source:RefSeq_peptide;Acc:NP_504680]			protein binding, 
gon-14	F44C4.4	abnormal GONad development family member (gon-14) [Source:RefSeq_peptide;Acc:NP_741557]	negative regulation of multicellular organism growth, 		protein dimerization activity, 
cpr-4	F44C4.3	cpr-4 encodes a cathepsin B-like cysteine protease expressed at all life stages. [Source: WormBase]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
nhr-37	F44C4.2	Nuclear Hormone Receptor family member (nhr-37) [Source:RefSeq_peptide;Acc:NP_504683]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ppt-1	F44C4.5	ppt-1 encodes the C. elegans palmitoyl protein thioesterase-1 ortholog. by homology PPT-1 is predicted to function in degradation of palmitoylated proteins and ppt-1 mutations result in loss of enzymatic activity from mixed-stage extracts. in C. elegans, ppt-1 activity is essential for mitochondrial organization and biogenesis in neuronal and muscle cells, as well as for proper timing of the onset of both the L4-to-adult molt and egg laying. ppt-1 is also required for normal egg-laying behavior and for a fully normal adult [Source: WormBase]	protein modification process, cellular protein catabolic process, 		palmitoyl-(protein) hydrolase activity, 
F44C4.6	F44C4.6				
scd-2	T10H9.2	Suppressor of Constitutive Dauer formation family member (scd-2) [Source:RefSeq_peptide;Acc:NP_504685]	protein amino acid phosphorylation, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T10H9.1	T10H9.1	T10H9.1 [Source:RefSeq_peptide;Acc:NP_504686]			
T10H9.8	T10H9.8	T10H9.8 [Source:RefSeq_peptide;Acc:NP_001041166]			calcium ion binding, 
T10H9.3	T10H9.3	T10H9.3 [Source:RefSeq_peptide;Acc:NP_504687]	vesicle-mediated transport, positive regulation of growth rate, 	membrane, 	protein binding, 
snb-1	T10H9.4	The snb-1 gene encodes synaptobrevin, a synaptic vesicle protein orthologous to human vesicle-associated membrane protein 1 (VAMP1 OMIM:185880) and 2 (VAMP2 OMIM:185881), and is required for viability and synaptic transmission. SNB-1 is likely to play a role in vesicle docking and/or fusion and is expressed in neurons where it colocalizes with synaptic vesicle proteins RAB-3 and synaptotagmin. [Source: WormBase]	vesicle-mediated transport, locomotory behavior, 	integral to membrane, 	
pmp-5	T10H9.5	Peroxisomal Membrane Protein related family member (pmp-5) [Source:RefSeq_peptide;Acc:NP_504689]	transport, small GTPase mediated signal transduction, dicarboxylic acid transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, GTP binding, sodium:dicarboxylate symporter activity, 
str-180	T10H9.6	Seven TM Receptor family member (str-180) [Source:RefSeq_peptide;Acc:NP_001024133]			
K11G9.3	K11G9.3	K11G9.3 [Source:RefSeq_peptide;Acc:NP_504691]			
K11G9.2	K11G9.2	K11G9.2 [Source:RefSeq_peptide;Acc:NP_504692]			
K11G9.1	K11G9.1	K11G9.1 [Source:RefSeq_peptide;Acc:NP_504693]			
egl-46	K11G9.4	egl-46 encodes a predicted transcription factor and conserved member of a TFIIA-like zinc finger protein family that affects coordinated locomotion, morphology and process formation of the touch cells, male mating efficiency, HSN cell migration, differentiation, and axonal outgrowth, serotonin production and also affects terminal divisions of the Q neuroblasts. acts to inhibit touch cell fate in FLP cells together with egl-44 and is expressed dynamically in neurons, specifically in touch cells, FLP, and HSN neurons. [Source: WormBase]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
K11G9.5	K11G9.5	K11G9.5 [Source:RefSeq_peptide;Acc:NP_504695]	transport, 	integral to membrane, 	transporter activity, 
mtl-1	K11G9.6	mtl-1 encodes one of two C. elegans metallothioneins, small, cysteine-rich, metal-binding proteins. MTL-1 functions in metal detoxification and homeostasis and in stress adaptation. in addition, mtl-1 plays a role in regulating growth and fertility. mtl-1 is constitutively expressed in the terminal bulb of the pharynx and expression is induced in larval intestinal cells following exposure to cadmium or heat shock. intestinal expression is dependent upon ELT-2, an intestine-specific GATA-type transcription factor. mtl-1 is upregulated by DAF-16 in daf-2 mutants. [Source: WormBase]	determination of adult life span, response to cadmium ion, 		metal ion binding, calcium ion binding, 
W02F12.2	W02F12.2	Alkaline ceramidase (EC 3.5.1.23) (AlkCDase) (Alkaline acylsphingosine deacylase) (Alkaline N-acylsphingosine amidohydrolase). [Source:Uniprot/SWISSPROT;Acc:O45145]	ceramide metabolic process, 	integral to membrane, Golgi membrane, endoplasmic reticulum membrane, 	hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear amides, 
W02F12.3	W02F12.3	W02F12.3 [Source:RefSeq_peptide;Acc:NP_504698]			
W02F12.4	W02F12.4	W02F12.4a [Source:RefSeq_peptide;Acc:NP_001024182]			
W02F12.5	W02F12.5	W02F12.5 [Source:RefSeq_peptide;Acc:NP_504700]	metabolic process, tricarboxylic acid cycle, positive regulation of growth rate, 	nucleus, chromatin, oxoglutarate dehydrogenase complex, 	DNA binding, acyltransferase activity, dihydrolipoyllysine-residue succinyltransferase activity, 
sna-1	W02F12.6	sna-1 encodes an snRNP-binding protein (SNA-1/SL21p) orthologous to Ascaris SL30p (SL 30kd) and Brugia 13258.m00169, and paralogous to Brugia 14704.m00455. SNA-1 is found in the Sm snRNP SL1, but not in SL2. in snRNP SL1, SNA-1 associates with the SNA-2/SL75p protein, while being replaced by SUT-1/SL26p (a paralog of SNA-1) in snRNP Y. sna-1(RNAi) animals, like sut-1(bk79) mutants, have cold-sensitive sterility, whereas sna-1(RNAi) combined with sut-1(bk79) is synthetically lethal. double sna-1(RNAi) sut-1(RNAi) is lethal. these RNAi data indicate that SNA-1 and SUT-1 are partially redundant, and suggest that snRNP Y (like snRNP SL1) may participate in trans-splicing. SNA-1 can bind SNA-2 even in the absence of RNA. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
W02F12.1	W02F12.1				
srg-30	W02F12.7	Serpentine receptor class gamma-30 (Protein srg-30). [Source:Uniprot/SWISSPROT;Acc:O45150]	signal transduction, 	membrane, 	transmembrane receptor activity, 
ZC487.2	ZC487.2	ZC487.2 [Source:RefSeq_peptide;Acc:NP_504703]			
ZC487.3	ZC487.3	ZC487.3 [Source:RefSeq_peptide;Acc:NP_504704]			
ZC487.1	ZC487.1	ZC487.1b [Source:RefSeq_peptide;Acc:NP_001041206]			catalytic activity, 
grl-9	ZC487.4	grl-9 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	cell adhesion, 	extracellular region, actin cytoskeleton, 	structural molecule activity, hormone activity, 
grl-8	ZC487.5	grl-8 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
T25F10.3	T25F10.3	T25F10.3 [Source:RefSeq_peptide;Acc:NP_504708]	cell communication, 	membrane, 	
dbl-1	T25F10.2	dbl-1 encodes a member of the transforming growth factor beta (TGFbeta) superfamily that includes Drosophila decapentaplegic (Dpp) and the vertebrate bone morphogenetic proteins (BMPs). DBL-1 functions as a dose-dependent ligand for the SMA-6 and DAF-4 TGFbeta receptors that ultimately activate the SMA-2, -3, and -4 complex of transcription factors to regulate body length and size, as well as the patterning of male sensory rays and copulatory spicules. DBL-1 signaling upregulates sma-6 expression, suggesting that there is positive autoregulation in the DBL-1 signaling pathway. in contrast, DBL-1 negatively regulates expression of LON-1, a predicted secreted protein that is a downstream component of the body size pathway. DBL-1 is expressed primarily in neurons. [Source: WormBase]	positive regulation of multicellular organism growth, 	extracellular region, 	growth factor activity, 
T25F10.4	T25F10.4	T25F10.4 [Source:RefSeq_peptide;Acc:NP_504710]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
bbs-8	T25F10.5	bbs-8 encodes a tetratricopeptide repeat (TPR)-containing protein that is orthologous to the human Bardet-Biedl syndrome protein, BBS8. in C. elegans, bbs-8 activity is required for cilia biogenesis and function. accordingly, bbs-8 mutant animals display odorant chemotaxis defects and exhibit both aberrant motility and abnormal localization of at least two intraflagellar transport (IFT) protein markers. a BBS-8::GFP translational fusion is expressed exclusively in ciliated head and tail neurons, where it localizes predominantly to the base of cilia, known as the ciliary transition zone. BBS-8::GFP is also observed moving bidirectionally (anterograde and retrograde) along the ciliary axoneme. DNA sequences upstream of bbs-8 contain X box DNA binding sites, suggesting that bbs-8 expression may be regulated by the DAF-19 RFX-type transcription factor. [Source: WormBase]	proteolysis, 		subtilase activity, 
T25F10.6	T25F10.6	T25F10.6b [Source:RefSeq_peptide;Acc:NP_001024159]			protein binding, 
T25F10.1	T25F10.1	T25F10.1 [Source:RefSeq_peptide;Acc:NP_504713]			
srh-30	ZC404.12	Serpentine Receptor, class H family member (srh-30) [Source:RefSeq_peptide;Acc:NP_504714]			
srh-28	ZC404.5	Serpentine Receptor, class H family member (srh-28) [Source:RefSeq_peptide;Acc:NP_504715]			
srh-29	ZC404.6				
ZC404.7	ZC404.7	ZC404.7 [Source:RefSeq_peptide;Acc:NP_504716]	negative regulation of multicellular organism growth, 		
spn-4	ZC404.8	spn-4 encodes a protein containing an RNP-type RNA-binding domain. SPN-4 is required for rotation, but not polarization, of the mitotic spindle in the P1 blastomere of the two-cell stage embryo. SPN-4 is also required for mesectoderm and mesendoderm formation in conjunction with proper localization of maternal cell-fate determinants such as SKN-1. in addition, SPN-4 binds the glp-1 3' UTR and is necessary for glp-1 mRNA translation in the anterior blastomeres of the early embryo. conversely, SPN-4 binds and suppresses translation of pal-1 and skn-1 mRNAs in anterior blastomeres. in vitro, SPN-4 interacts with POS-1, a CCCH-type zinc finger protein that negatively regulates glp-1 mRNA translation in posterior blastomeres. SPN-4 is a P granule component, but is also detected in oocytes, the AB and P1 blastomeres at the two-cell stage, and in all four blastomeres at the four-cell stage, with higher levels in EMS and P2. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		nucleotide binding, RNA binding, nucleic acid binding, 
spe-39	ZC404.3	defective SPErmatogenesis family member (spe-39) [Source:RefSeq_peptide;Acc:NP_504718]			
gck-2	ZC404.9	Germinal Center Kinase family member (gck-2) [Source:RefSeq_peptide;Acc:NP_504721]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, small GTPase regulator activity, 
ZC404.1	ZC404.1	ZC404.1 [Source:RefSeq_peptide;Acc:NP_504722]			
ZC404.13	ZC404.13	ZC404.13 [Source:RefSeq_peptide;Acc:NP_504723]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, 
ZC404.10	ZC404.10	ZC404.10 [Source:RefSeq_peptide;Acc:NP_504724]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZC404.11	ZC404.11	ZC404.11 [Source:RefSeq_peptide;Acc:NP_504725]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
H34P18.1	H34P18.1	H34P18.1 [Source:RefSeq_peptide;Acc:NP_504726]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T15B7.10	T15B7.10	T15B7.10 [Source:RefSeq_peptide;Acc:NP_504727]			
T15B7.17	T15B7.17	T15B7.17 [Source:RefSeq_peptide;Acc:NP_504728]			
T15B7.11	T15B7.11	T15B7.11 [Source:RefSeq_peptide;Acc:NP_504729]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, ATP synthesis coupled electron transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, NADH dehydrogenase (ubiquinone) activity, 
T15B7.12	T15B7.12	T15B7.12 [Source:RefSeq_peptide;Acc:NP_504730]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T15B7.8	T15B7.8	T15B7.8 [Source:RefSeq_peptide;Acc:NP_504731]			
T15B7.7	T15B7.7	T15B7.7 [Source:RefSeq_peptide;Acc:NP_504732]			
T15B7.6	T15B7.6	T15B7.6 [Source:RefSeq_peptide;Acc:NP_504733]			
T15B7.13	T15B7.13	T15B7.13 [Source:RefSeq_peptide;Acc:NP_504734]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
col-141	T15B7.5	T15B7.5 [Source:RefSeq_peptide;Acc:NP_504735]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-142	T15B7.4	T15B7.4 [Source:RefSeq_peptide;Acc:NP_504736]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T15B7.14	T15B7.14	T15B7.14 [Source:RefSeq_peptide;Acc:NP_504737]			
col-143	T15B7.3	T15B7.3 [Source:RefSeq_peptide;Acc:NP_504738]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T15B7.15	T15B7.15	T15B7.15 [Source:RefSeq_peptide;Acc:NP_504739]			
T15B7.2	T15B7.2	T15B7.2 [Source:RefSeq_peptide;Acc:NP_504740]	positive regulation of growth rate, 		
T15B7.16	T15B7.16	T15B7.16 [Source:RefSeq_peptide;Acc:NP_504741]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
T15B7.1	T15B7.1	T15B7.1 [Source:RefSeq_peptide;Acc:NP_504743]	signal transduction, embryonic development ending in birth or egg hatching, 		sugar binding, receptor binding, 
C55H1.1	C55H1.1	C55H1.1 [Source:RefSeq_peptide;Acc:NP_504744]			transferase activity, transferring hexosyl groups, 
gpa-10	C55H1.2	gpa-10 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ADF, ASI, ASJ, ALN, CAN, LUA, and the spermatheca. [Source: WormBase]	small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
T19F4.1	T19F4.1	T19F4.1 encodes, by alternative splicing, two G-protein coupled receptors for the flp-2-encoded peptides SPREPIRFamide (FLP2-A) and LRGEPIRFamide (FLP2-B). T19F4.1B protein has an extension of 30 residues more than T19F4.1A in the intracellular C-terminal region. activation of either T19F4.1A or T19F4.1B is temperature-independent, and T19F4.1A/B are probably linked to the G(q) pathway. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, thyrotropin-releasing hormone receptor activity, 
unc-70	K11C4.3	unc-70 encodes two isoforms of a beta-spectrin ortholog required for normal body curvature and shape, normal movement, and correct localization of the alpha-spectrin SPC-1. the predominant UNC-70 isoform is expressed in all embryonic cells except the intestine, at the plasma membrane at sites of intercellular contact. UNC-70 becomes largely restricted to muscles and neurons from hatching to adulthood, with expression in adult spermetheca and hypodermis as well. conversely, the minor isoform is predominantly expressed in gut, and is also apposed to intercellular membrane junctions in embryos. sma-1 mutations (which impair the one beta-H-spectrin ortholog in C. elegans) enhance the unc-70 phenotype. UNC-70 is dispensable for viability (under undemanding laboratory culture conditions). [Source: WormBase]	nematode larval development, locomotory behavior, embryonic body morphogenesis, 		actin binding, 
NR_003479.1	K11C4.6	K11C4.6, snoRNA [Source:RefSeq_dna;Acc:NR_003479]			
K11C4.2	K11C4.2	K11C4.2 [Source:RefSeq_peptide;Acc:NP_504750]		integral to membrane, 	
K11C4.1	K11C4.1	K11C4.1 [Source:RefSeq_peptide;Acc:NP_504751]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
odc-1	K11C4.4	odc-1 encodes ornithine decarboxylase, the first enzyme of polyamine biosynthesis that catalyzes the conversion of ornithine to putrescine. ODC-1 is required for development when animals are deprived of exogenous polyamines, which are required for oogenesis and completion of embryogenesis. in addition,ODC-1 may contribute to male fertility. ODC-1 activity is detectable at all developmental stages, with highest levels observed in adults and L4 larvae. [Source: WormBase]	polyamine biosynthetic process, 		catalytic activity, 
unc-68	K11C4.5	unc-68 encodes a ryanodine receptor ortholog that is expressed in body-wall muscle cells and is required for normal body tension and locomotion. unc-68 mutants are flaccid, sluggish, and resistant to ryanodine, but have normal muscle ultrastructure. UNC-68 is dispensable for excitation-contraction coupling itself, but may amplify its calcium signals. the unc-68/kra-1(kh30) mutation is an S1444N substitution at a putative protein kinase C phosphorylation site. UNC-68 reduced unc-103(sy557)-induced spicule protraction by one half. unc-68 is orthologous to the human genes RYR1 (OMIM:180901, mutated in malignant hyperthermia and central core disease), RYR2 (OMIM:180902, mutated in stress-induced polymorphic ventricular tachycardia), and RYR3 (OMIM:180903). [Source: WormBase]	ion transport, biosynthetic process, calcium ion transport, cellular calcium ion homeostasis, locomotory behavior, positive regulation of non-apoptotic programmed cell death, 	membrane, integral to membrane, endoplasmic reticulum, 	ion channel activity, metal ion binding, calcium ion binding, calcium channel activity, hydroxymethylglutaryl-CoA reductase (NADPH) activity, ryanodine-sensitive calcium-release channel activity, inositol 1,4,5-triphosphate-sensitive calcium-release channel activity, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
K11C4.t1	K11C4.t1				
Y57E12B.2	Y57E12B.2	Y57E12B.2 [Source:RefSeq_peptide;Acc:NP_504754]			
Y57E12B.3	Y57E12B.3	Y57E12B.3 [Source:RefSeq_peptide;Acc:NP_504755]	lipid metabolic process, 		catalytic activity, 
Y57E12B.4	Y57E12B.4	Y57E12B.4 [Source:RefSeq_peptide;Acc:NP_504756]			
Y57E12B.1	Y57E12B.1	Y57E12B.1 [Source:RefSeq_peptide;Acc:NP_504757]			
srg-31	T07H8.5	Serpentine receptor class gamma-31 (Protein srg-31). [Source:Uniprot/SWISSPROT;Acc:O61892]	signal transduction, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
mec-1	T07H8.4	mec-1 encodes proteins with multiple disulfide-linked EGF and Kunitz domains. MEC-1 activity is required for normal mechanosensory behavior, and specifically for: 1) localization of the touch receptor degenerin channel complex, 2) accumulation of MEC-5/collagen into the extracellular matrix surrounding touch receptor neurons, and 3) attachment of touch receptor processes to the body wall. mec-1 promoter-GFP fusions indicate that, in addition to the six touch receptors, mec-1 can be expressed in many lateral neurons, the PVT interneuron, and the intestinal muscle. mec-1 expression in the touch receptors is, however, sufficient to rescue touch sensitivity in mec-1 mutant animals. MEC-1 appears to be an extracellular protein that: 1) binds to touch receptor processes uniformly and in a punctate pattern and 2) colocalizes with MEC-5 and degenerin channel puncta on these processes. while localization of MEC-1 into puncta requires the activity of mec-5 and mec-9, uniform MEC-1 localization requires the activity of him-4. in addition, proper organization and distribution of MEC-1, MEC-5, and the degenerin channel complex puncta appears to be regulated by interactions with adjacent epidermal tissue. [Source: WormBase]	mechanosensory behavior, 		calcium ion binding, serine-type endopeptidase inhibitor activity, 
ptr-15	T07H8.6	ptr-15 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-15 has no known function in vivo. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
srx-59	T07H8.3	Serpentine Receptor, class X family member (srx-59) [Source:RefSeq_peptide;Acc:NP_504761]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-138	T07H8.2				
srx-16	T07H8.1	Serpentine Receptor, class X family member (srx-16) [Source:RefSeq_peptide;Acc:NP_504763]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sre-12	T07H8.7	Serpentine receptor class epsilon-12 (Protein sre-12). [Source:Uniprot/SWISSPROT;Acc:O61898]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
nhr-161	C33G8.7	Nuclear Hormone Receptor family member (nhr-161) [Source:RefSeq_peptide;Acc:NP_504765]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-163	C33G8.12	Nuclear Hormone Receptor family member (nhr-163) [Source:RefSeq_peptide;Acc:NP_504766]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-139	C33G8.8	Nuclear Hormone Receptor family member (nhr-139) [Source:RefSeq_peptide;Acc:NP_504767]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-140	C33G8.9	Nuclear Hormone Receptor family member (nhr-140) [Source:RefSeq_peptide;Acc:NP_504768]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-162	C33G8.10	Nuclear Hormone Receptor family member (nhr-162) [Source:RefSeq_peptide;Acc:NP_504769]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-107	C33G8.11	nhr-107 encodes a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-42	C33G8.6	Nuclear hormone receptor family member nhr-42. [Source:Uniprot/SWISSPROT;Acc:O76828]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srab-4	C33G8.5	Serpentine Receptor, class AB (class A-like) family member (srab-4) [Source:RefSeq_peptide;Acc:NP_504772]			
C33G8.4	C33G8.4	C33G8.4 [Source:RefSeq_peptide;Acc:NP_504773]			protein binding, 
C33G8.3	C33G8.3	C33G8.3 [Source:RefSeq_peptide;Acc:NP_504774]			
C33G8.2	C33G8.2	C33G8.2 [Source:RefSeq_peptide;Acc:NP_504775]	cell adhesion, calcium ion transport, ossification, 	integral to membrane, 	voltage-gated calcium channel activity, 
srw-127	C33G8.1	Serpentine Receptor, class W family member (srw-127) [Source:RefSeq_peptide;Acc:NP_504776]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C33G8.13	C33G8.13	C33G8.13 [Source:RefSeq_peptide;Acc:NP_504777]			
srsx-32	F20A1.3	Serpentine Receptor, class SX family member (srsx-32) [Source:RefSeq_peptide;Acc:NP_504778]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F20A1.4	F20A1.4	F20A1.4 [Source:RefSeq_peptide;Acc:NP_504779]			
F20A1.6	F20A1.6	F20A1.6a [Source:RefSeq_peptide;Acc:NP_001023819]			
twk-11	F20A1.7	twk-11 encodes one of more than 40 TWK (two-P domain K+) potassium channels in C. elegans that contain two pore regions and four transmembrane domains. orthologous to C. briggsae CBG19123 with some similarity to Drosophila CG6004. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
F20A1.2	F20A1.2	F20A1.2 [Source:RefSeq_peptide;Acc:NP_504784]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F20A1.8	F20A1.8	F20A1.8 [Source:RefSeq_peptide;Acc:NP_504785]			
F20A1.9	F20A1.9	F20A1.9 [Source:RefSeq_peptide;Acc:NP_504786]	embryonic development ending in birth or egg hatching, 		
F20A1.1	F20A1.1	F20A1.1 [Source:RefSeq_peptide;Acc:NP_504787]			
F20A1.10	F20A1.10	F20A1.10 [Source:RefSeq_peptide;Acc:NP_504788]			
Y57E12AL.4	Y57E12AL.4	Y57E12AL.4 [Source:RefSeq_peptide;Acc:NP_504789]			
Y57E12AL.3	Y57E12AL.3				
Y57E12AL.2	Y57E12AL.2	Y57E12AL.2 [Source:RefSeq_peptide;Acc:NP_504790]			
mdt-6	Y57E12AL.5	mdt-6 encodes a highly conserved transcriptional mediator of the Med6 family that includes Saccharomyces cerevisiae Med6 and human MED6 (OMIM:602984). MDT-6 is an essential gene required maternally for embryogenesis and zygotically for postembryonic transcriptional regulation of genes involved in the Ras and Wnt signaling pathways that mediate vulval and male tail formation, respectively. mdt-6 is expressed in all cells at all stages and localizes to the peripheral region of nuclei, where actively transcribed portions of the genome may be localized. [Source: WormBase]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, 
Y57E12AL.6	Y57E12AL.6	Y57E12AL.6 [Source:RefSeq_peptide;Acc:NP_504792]	biological_process, 		
Y57E12AL.1	Y57E12AL.1	Y57E12AL.1b [Source:RefSeq_peptide;Acc:NP_741562]	positive regulation of growth rate, 	membrane, 	
Y57E12AM.1	Y57E12AM.1	UPF0197 protein Y57E12AM.1. [Source:Uniprot/SWISSPROT;Acc:Q965T1]			
Y57E12AR.1	Y57E12AR.1	Y57E12AR.1 [Source:RefSeq_peptide;Acc:NP_001033516]			serine-type endopeptidase inhibitor activity, nutrient reservoir activity, 
F27B10.t1	F27B10.t1				
F27B10.1	F27B10.1	F27B10.1 [Source:RefSeq_peptide;Acc:NP_741563]			
npa-1	VC5.3	npa-1 encodes a large polyprotein precursor that is posttranslationally cleaved to multiple units of ~14.5kDa, each of which is a strong binding protein for fatty acids and retinol (Vitamin A). the lipid binding sites of NPA-1-derived peptides are unusually apolar. NPA-1-derived peptides probably are carrier proteins that enable distribution of these lipids within nematodes. NPA-1-derived peptides are also secreted by parasitic nematode species. [Source: WormBase]	negative regulation of vulval development, 		
mys-1	VC5.4	mys-1 encodes a MYST family histone acetyltransferase orthologous to Drosophila EG0007.7, human TIP60, and S. cerevisiae Esa1p. during vulval development, mys-1 acts as Class C synMuv gene: mys-1 mutations enhance mutations in components of the C. elegans NuRD and Rb repressor complexes that negatively regulate expression of genes required for vulval induction. in addition, mys-1(RNAi) enhances mutations in pha-4, which encodes a FoxA transcription factor required for pharyngeal organogenesis. mys-1 mutations also cause a synthetic slow growth phenotype in combination with mutations in the MCD-1 zinc-finger protein. thus, mys-1 activity is essential for proper cell fate specification of different cell types at different times during C. elegans development. [Source: WormBase]	chromatin assembly or disassembly, morphogenesis of an epithelium, 	nucleus, chromatin, 	chromatin binding, 
VC5.2	VC5.2	VC5.2 [Source:RefSeq_peptide;Acc:NP_504797]			
nhr-286	VC5.6	Nuclear Hormone Receptor family member (nhr-286) [Source:RefSeq_peptide;Acc:NP_001041174]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-135	VC5.5	Nuclear Hormone Receptor family member (nhr-135) [Source:RefSeq_peptide;Acc:NP_504798]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
VC5.1	VC5.1	VC5.1 [Source:RefSeq_peptide;Acc:NP_504799]			
odr-2	T01C4.2	odr-2 encodes three isoforms of a predicted membrane-associated protein related to the Ly-6 (leukocyte antigen-6) family of GPI (glycosylated phosphatidylinositol)-linked signaling proteins. ODR-2 activity is required for proper functioning of the AWC olfactory neurons and thus for chemotaxis in response to AWC-sensed odorants. ODR-2 is expressed at high levels in sensory neurons, motor neurons, and interneurons, where it appears to be enriched in axons. [Source: WormBase]	chemosensory behavior, sensory perception of smell, 		molecular_function, 
srx-33	T01C4.3	Serpentine Receptor, class X family member (srx-33) [Source:RefSeq_peptide;Acc:NP_504803]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-34	T01C4.4	Serpentine Receptor, class X family member (srx-34) [Source:RefSeq_peptide;Acc:NP_504804]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-35	T01C4.5	Serpentine Receptor, class X family member (srx-35) [Source:RefSeq_peptide;Acc:NP_504805]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T01C4.1	T01C4.1	T01C4.1 [Source:RefSeq_peptide;Acc:NP_504806]	carbohydrate metabolic process, chitin catabolic process, cell wall catabolic process, 		chitin binding, chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
T01C4.8	T01C4.8	T01C4.8 [Source:RefSeq_peptide;Acc:NP_001033501]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
srx-36	T01C4.6	Serpentine Receptor, class X family member (srx-36) [Source:RefSeq_peptide;Acc:NP_504807]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-37	T01C4.7				
sre-10	F10D2.3				
str-112	F10D2.4	Seven TM Receptor family member (str-112) [Source:RefSeq_peptide;Acc:NP_504809]			
ugt-40	F10D2.5	UDP-GlucuronosylTransferase family member (ugt-40) [Source:RefSeq_peptide;Acc:NP_504810]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-37	F10D2.6	UDP-GlucuronosylTransferase family member (ugt-37) [Source:RefSeq_peptide;Acc:NP_504811]	metabolic process, 		transferase activity, transferring hexosyl groups, 
NR_003472.1	F10D2.13	F10D2.13, snRNA [Source:RefSeq_dna;Acc:NR_003472]			
ugt-38	F10D2.7	UDP-GlucuronosylTransferase family member (ugt-38) [Source:RefSeq_peptide;Acc:NP_504812]	cytochrome complex assembly, metabolic process, carbohydrate metabolic process, lipid glycosylation, heme transport, 	membrane, 	transferase activity, transferring hexosyl groups, carbohydrate binding, heme transporter activity, 
F10D2.12	F10D2.12	F10D2.12 [Source:RefSeq_peptide;Acc:NP_741564]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
F10D2.8	F10D2.8	F10D2.8 [Source:RefSeq_peptide;Acc:NP_504813]			transferase activity, transferring hexosyl groups, 
F10D2.10	F10D2.10	F10D2.10 [Source:RefSeq_peptide;Acc:NP_504815]			
fat-7	F10D2.9	fat-7 encodes an essential delta-9 fatty acid desaturase that is required for the synthesis of monounsaturated fatty acids. fat-7 can substitute for the functions of the other two fatty acid desaturases, fat-5 and fat-6. RNA interference has shown that fat-7 is required for viability and normal growth. [Source: WormBase]	fatty acid biosynthetic process, positive regulation of growth rate, 	endoplasmic reticulum membrane, 	oxidoreductase activity, 
ugt-39	F10D2.2	UDP-GlucuronosylTransferase family member (ugt-39) [Source:RefSeq_peptide;Acc:NP_504816]	cytochrome complex assembly, metabolic process, carbohydrate metabolic process, lipid glycosylation, heme transport, 	membrane, 	transferase activity, transferring hexosyl groups, carbohydrate binding, heme transporter activity, 
str-204	F10D2.1	Seven TM Receptor family member (str-204) [Source:RefSeq_peptide;Acc:NP_504817]			
ugt-41	F10D2.11	UDP-GlucuronosylTransferase family member (ugt-41) [Source:RefSeq_peptide;Acc:NP_504818]	metabolic process, 		transferase activity, transferring hexosyl groups, 
srh-83	F09G2.7	Serpentine Receptor, class H family member (srh-83) [Source:RefSeq_peptide;Acc:NP_504819]			
ugt-36	F09G2.6	UDP-GlucuronosylTransferase family member (ugt-36) [Source:RefSeq_peptide;Acc:NP_504820]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
F09G2.5	F09G2.5	F09G2.5 [Source:RefSeq_peptide;Acc:NP_504821]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
F09G2.4	F09G2.4	Probable cleavage and polyadenylation specificity factor subunit 2 (Cleavage and polyadenylation specificity factor 100 kDa subunit) (CPSF 100 kDa subunit). [Source:Uniprot/SWISSPROT;Acc:O17403]	embryonic development ending in birth or egg hatching, 		hydrolase activity, 
F09G2.3	F09G2.3	F09G2.3 [Source:RefSeq_peptide;Acc:NP_504823]	phosphate transport, 	membrane, 	inorganic phosphate transmembrane transporter activity, 
F09G2.8	F09G2.8	Probable phospholipase D F09G2.8 (EC 3.1.4.4) (Choline phosphatase F09G2.8) (Phosphatidylcholine-hydrolyzing phospholipase D F09G2.8). [Source:Uniprot/SWISSPROT;Acc:O17405]	metabolic process, 		catalytic activity, 
F09G2.9	F09G2.9	F09G2.9 [Source:RefSeq_peptide;Acc:NP_504825]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	DNA binding, 
F09G2.2	F09G2.2	F09G2.2 [Source:RefSeq_peptide;Acc:NP_504826]			
F09G2.1	F09G2.1	F09G2.1 [Source:RefSeq_peptide;Acc:NP_504827]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C13F10.4	C13F10.4	C13F10.4 [Source:RefSeq_peptide;Acc:NP_504828]	positive regulation of growth rate, 	proteinaceous extracellular matrix, 	
C13F10.5	C13F10.5	C13F10.5 [Source:RefSeq_peptide;Acc:NP_504829]			
C13F10.6	C13F10.6	C13F10.6 [Source:RefSeq_peptide;Acc:NP_504830]			
C13F10.2	C13F10.2	C13F10.2 [Source:RefSeq_peptide;Acc:NP_504831]	embryonic development ending in birth or egg hatching, 		
C13F10.7	C13F10.7	C13F10.7 [Source:RefSeq_peptide;Acc:NP_504832]	embryonic development ending in birth or egg hatching, 		protein binding, zinc ion binding, nucleic acid binding, 
C13F10.1	C13F10.1	C13F10.1a [Source:RefSeq_peptide;Acc:NP_504833]			
fkb-3	C05C8.3	fkb-3 encodes a peptidylprolyl cis/trans isomerase homologous to mammalian FK506 immunosuppressant-binding protein 9. FKB-3 expression is positively regulated by signaling through the DAF-2 insulin receptor-like pathway and the activity of the DAF-16 fork-head transcription factor suggesting that FKB-3 could play a role in metabolism and longevity. however, as loss of FKB-3 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of FKB-3 in C. elegans development and/or behavior is not yet known. FKB-3 contains a predicted endoplasmic reticulum (ER) retention sequence and is thus proposed to localize to the ER. [Source: WormBase]	protein folding, determination of adult life span, 	endoplasmic reticulum, 	
gei-6	C05C8.4	GEX Interacting protein family member (gei-6) [Source:RefSeq_peptide;Acc:NP_504836]			
C05C8.2	C05C8.2	C05C8.2 [Source:RefSeq_peptide;Acc:NP_504837]	positive regulation of growth rate, 		RNA binding, 
C05C8.5	C05C8.5	C05C8.5 [Source:RefSeq_peptide;Acc:NP_504838]		intracellular, 	exonuclease activity, 
C05C8.6	C05C8.6	C05C8.6 [Source:RefSeq_peptide;Acc:NP_504839]	embryonic development ending in birth or egg hatching, 		protein binding, identical protein binding, 
C05C8.9	C05C8.9	C05C8.9a [Source:RefSeq_peptide;Acc:NP_504840]			
C05C8.1	C05C8.1	C05C8.1 [Source:RefSeq_peptide;Acc:NP_504842]			
C05C8.7	C05C8.7	C05C8.7 [Source:RefSeq_peptide;Acc:NP_504843]	carbohydrate metabolic process, positive regulation of growth rate, 		zinc ion binding, mannose-6-phosphate isomerase activity, 
C05C8.8	C05C8.8	C05C8.8 [Source:RefSeq_peptide;Acc:NP_504844]			
C13A2.12	C13A2.12	C13A2.12 [Source:RefSeq_peptide;Acc:NP_001033466]			
C13A2.9	C13A2.9	C13A2.9 [Source:RefSeq_peptide;Acc:NP_504845]			
C13A2.8	C13A2.8				
C13A2.7	C13A2.7	C13A2.7 [Source:RefSeq_peptide;Acc:NP_504846]			
C13A2.6	C13A2.6	C13A2.6 [Source:RefSeq_peptide;Acc:NP_504847]			
C13A2.10	C13A2.10	C13A2.10 [Source:RefSeq_peptide;Acc:NP_504848]			
C13A2.5	C13A2.5	C13A2.5 [Source:RefSeq_peptide;Acc:NP_504849]			
C13A2.4	C13A2.4	C13A2.4 [Source:RefSeq_peptide;Acc:NP_504850]			
C13A2.11	C13A2.11	C13A2.11 [Source:RefSeq_peptide;Acc:NP_504851]			
C13A2.3	C13A2.3	C13A2.3 [Source:RefSeq_peptide;Acc:NP_504852]			
C13A2.2	C13A2.2	C13A2.2 [Source:RefSeq_peptide;Acc:NP_504853]			iron ion binding, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
C13A2.1	C13A2.1	C13A2.1 [Source:RefSeq_peptide;Acc:NP_504854]			
F07G11.4	F07G11.4	F07G11.4 [Source:RefSeq_peptide;Acc:NP_504855]			
srj-32	F07G11.5	Serpentine Receptor, class J family member (srj-32) [Source:RefSeq_peptide;Acc:NP_504856]			
F07G11.3	F07G11.3	F07G11.3 [Source:RefSeq_peptide;Acc:NP_504857]			
F07G11.6	F07G11.6				
F07G11.2	F07G11.2	F07G11.2 [Source:RefSeq_peptide;Acc:NP_504858]			
F07G11.7	F07G11.7	F07G11.7 [Source:RefSeq_peptide;Acc:NP_504859]			
F07G11.1	F07G11.1	F07G11.1 [Source:RefSeq_peptide;Acc:NP_504860]			
srx-6	F07G11.8	Serpentine Receptor, class X family member (srx-6) [Source:RefSeq_peptide;Acc:NP_504861]			
F07G11.9	F07G11.9	F07G11.9 [Source:RefSeq_peptide;Acc:NP_504862]	carbohydrate metabolic process, chitin catabolic process, cell wall catabolic process, 		chitin binding, chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
srx-92	F10G2.6	Serpentine Receptor, class X family member (srx-92) [Source:RefSeq_peptide;Acc:NP_001023783]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F10G2.4	F10G2.4	F10G2.4 [Source:RefSeq_peptide;Acc:NP_504864]			
clec-7	F10G2.3	C-type LECtin family member (clec-7) [Source:RefSeq_peptide;Acc:NP_504865]			sugar binding, 
F10G2.2	F10G2.2	F10G2.2 [Source:RefSeq_peptide;Acc:NP_504866]	embryonic development ending in birth or egg hatching, 		
F10G2.1	F10G2.1	UPF0376 protein F10G2.1. [Source:Uniprot/SWISSPROT;Acc:Q22957]			
F10G2.7	F10G2.7	F10G2.7 [Source:RefSeq_peptide;Acc:NP_504868]			
srh-187	F10G2.8	Serpentine Receptor, class H family member (srh-187) [Source:RefSeq_peptide;Acc:NP_504869]			
nhr-263	F10G2.9	Nuclear Hormone Receptor family member (nhr-263) [Source:RefSeq_peptide;Acc:NP_504870]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
nhr-148	C03G6.10	Nuclear Hormone Receptor family member (nhr-148) [Source:RefSeq_peptide;Acc:NP_504871]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srh-244	C03G6.9	Serpentine Receptor, class H family member (srh-244) [Source:RefSeq_peptide;Acc:NP_504872]			
nhr-147	C03G6.8	Nuclear Hormone Receptor family member (nhr-147) [Source:RefSeq_peptide;Acc:NP_504873]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-149	C03G6.12	Nuclear Hormone Receptor family member (nhr-149) [Source:RefSeq_peptide;Acc:NP_504874]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srh-231	C03G6.11	Serpentine Receptor, class H family member (srh-231) [Source:RefSeq_peptide;Acc:NP_504875]	blood coagulation, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	thrombin receptor activity, 
srh-275	C03G6.7	Serpentine Receptor, class H family member (srh-275) [Source:RefSeq_peptide;Acc:NP_504876]			
tag-293	C03G6.13	Temporarily Assigned Gene name family member (tag-293) [Source:RefSeq_peptide;Acc:NP_504877]			
C03G6.6	C03G6.6	C03G6.6 [Source:RefSeq_peptide;Acc:NP_504878]			
cyp-35A1	C03G6.14	CYtochrome P450 family member (cyp-35A1) [Source:RefSeq_peptide;Acc:NP_504879]	electron transport, copper ion transport, 	membrane, 	ATP binding, iron ion binding, monooxygenase activity, heme binding, copper-exporting ATPase activity, 
cyp-35A2	C03G6.15	CYtochrome P450 family member (cyp-35A2) [Source:RefSeq_peptide;Acc:NP_504880]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C03G6.5	C03G6.5	UPF0376 protein C03G6.5. [Source:Uniprot/SWISSPROT;Acc:O01454]		viral capsid, 	structural molecule activity, 
srh-189	C03G6.20				
srj-14	C03G6.3	Serpentine Receptor, class J family member (srj-14) [Source:RefSeq_peptide;Acc:NP_504884]			
srx-56	C03G6.2	Serpentine Receptor, class X family member (srx-56) [Source:RefSeq_peptide;Acc:NP_504885]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-57	C03G6.1				
srsx-24	C03G6.16	Serpentine Receptor, class SX family member (srsx-24) [Source:RefSeq_peptide;Acc:NP_504887]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C03G6.17	C03G6.17	C03G6.17 [Source:RefSeq_peptide;Acc:NP_504888]			
srp-5	C03G6.18	srp-5 encodes an ovalbumin-like serpin (ov-serpin) member of the serine protease inhibitor superfamily. by homology, SRP-5 is predicted to function as a suicide substrate that inhibits the proteolytic activity of serine proteases. however, as loss of srp-5 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of SRP-5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
srp-6	C03G6.19	srp-6 encodes a functional serpin (serine protease inhibitor) [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
C02H6.1	C02H6.1	C02H6.1 [Source:RefSeq_peptide;Acc:NP_504891]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
fbxa-105	C02H6.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
R13D7.5	R13D7.5				
srx-9	R13D7.6	Serpentine Receptor, class X family member (srx-9) [Source:RefSeq_peptide;Acc:NP_504893]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
gst-41	R13D7.7	Glutathione S-Transferase family member (gst-41) [Source:RefSeq_peptide;Acc:NP_504894]			
cnc-9	R13D7.11	CaeNaCin (Caenorhabditis bacteriocin) family member (cnc-9) [Source:RefSeq_peptide;Acc:NP_001033500]	protein homooligomerization, 	membrane, 	
srx-60	R13D7.4	Serpentine Receptor, class X family member (srx-60) [Source:RefSeq_peptide;Acc:NP_504895]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srj-13	R13D7.3	Serpentine Receptor, class J family member (srj-13) [Source:RefSeq_peptide;Acc:NP_504896]			
str-24	R13D7.9				
srt-6	R13D7.10	Serpentine Receptor, class T family member (srt-6) [Source:RefSeq_peptide;Acc:NP_504897]			
R13D7.2	R13D7.2	R13D7.2 [Source:RefSeq_peptide;Acc:NP_001024081]			
str-41	R13D7.1	Seven TM Receptor family member (str-41) [Source:RefSeq_peptide;Acc:NP_504899]			
F18E3.11	F18E3.11	F18E3.11 [Source:RefSeq_peptide;Acc:NP_001023816]			
F18E3.12	F18E3.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ4]			
F18E3.13	F18E3.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ5]			
srw-67	F18E3.2	Serpentine Receptor, class W family member (srw-67) [Source:RefSeq_peptide;Acc:NP_504900]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srxa-4	F18E3.1	Serpentine Receptor, class XA family member (srxa-4) [Source:RefSeq_peptide;Acc:NP_504902]			
srh-126	F18E3.3				
F18E3.10	F18E3.10	F18E3.10 [Source:RefSeq_peptide;Acc:NP_504903]			
srw-68	F18E3.4	Serpentine Receptor, class W family member (srw-68) [Source:RefSeq_peptide;Acc:NP_001023818]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-69	F18E3.5	Serpentine Receptor, class W family member (srw-69) [Source:RefSeq_peptide;Acc:NP_504905]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-71	F18E3.6	Serpentine Receptor, class W family member (srw-71) [Source:RefSeq_peptide;Acc:NP_504906]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-78	F18E3.9				
F18E3.7	F18E3.7	F18E3.7 encodes a D-aspartate oxidase (DASPO), paralogous to C47A10.5 and F20H11.5. recombinant F18E3.7 protein has DASPO acvitity on acidic D-amino acid substrates (e.g., D-aspartate, D-glutamate, or N-methyl-D-aspartate/NMDA), with highest catalytic efficiency on D-aspartate or D-glutamate. F18E3.7 is required for viability in mass RNAi assays. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, D-amino-acid oxidase activity, 
F25E5.8	F25E5.8	F25E5.8b [Source:RefSeq_peptide;Acc:NP_872195]			
F25E5.9	F25E5.9	F25E5.9 [Source:RefSeq_peptide;Acc:NP_504910]			
F25E5.16	F25E5.16	F25E5.16 [Source:RefSeq_peptide;Acc:NP_504911]			protein binding, 
F25E5.7	F25E5.7	F25E5.7 [Source:RefSeq_peptide;Acc:NP_872235]	proteolysis, 		serine-type endopeptidase activity, 
nhr-141	F25E5.6	Nuclear Hormone Receptor family member (nhr-141) [Source:RefSeq_peptide;Acc:NP_001023844]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F25E5.5	F25E5.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F25E5.4	F25E5.4	F25E5.4 [Source:RefSeq_peptide;Acc:NP_504914]	proteolysis, 		serine-type endopeptidase activity, 
F25E5.3	F25E5.3	F25E5.3 [Source:RefSeq_peptide;Acc:NP_504915]	proteolysis, 		serine-type endopeptidase activity, 
try-8	F25E5.10	F25E5.10 [Source:RefSeq_peptide;Acc:NP_504916]	proteolysis, 		hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amides, serine-type endopeptidase activity, 
F25E5.2	F25E5.2	F25E5.2 [Source:RefSeq_peptide;Acc:NP_504917]			
srh-93	F25E5.15				
srh-92	F25E5.13	Serpentine Receptor, class H family member (srh-92) [Source:RefSeq_peptide;Acc:NP_504918]			
srh-91	F25E5.11				
srh-89	F25E5.14	Serpentine Receptor, class H family member (srh-89) [Source:RefSeq_peptide;Acc:NP_504919]			
F25E5.1	F25E5.1	F25E5.1 [Source:RefSeq_peptide;Acc:NP_504920]	biological_process, 		
str-28	F25E5.12	Seven TM Receptor family member (str-28) [Source:RefSeq_peptide;Acc:NP_504921]			
str-29	C18B10.9				
srh-125	C18B10.8	Serpentine Receptor, class H family member (srh-125) [Source:RefSeq_peptide;Acc:NP_504922]	sodium ion transport, 	membrane, 	sodium:amino acid symporter activity, 
str-190	C18B10.7	Seven TM Receptor family member (str-190) [Source:RefSeq_peptide;Acc:NP_504923]			
C18B10.6	C18B10.6	C18B10.6 [Source:RefSeq_peptide;Acc:NP_504924]			
str-259	C18B10.10				
srbc-8	C18B10.5	Serpentine Receptor, class BC (class B-like) family member (srbc-8) [Source:RefSeq_peptide;Acc:NP_504925]			
srbc-7	C18B10.4	Serpentine Receptor, class BC (class B-like) family member (srbc-7) [Source:RefSeq_peptide;Acc:NP_504926]			
srbc-9	C18B10.3	Serpentine Receptor, class BC (class B-like) family member (srbc-9) [Source:RefSeq_peptide;Acc:NP_504927]			
srbc-10	C18B10.2	Serpentine Receptor, class BC (class B-like) family member (srbc-10) [Source:RefSeq_peptide;Acc:NP_504928]			
srbc-11	C18B10.1	Serpentine Receptor, class BC (class B-like) family member (srbc-11) [Source:RefSeq_peptide;Acc:NP_504929]			
srh-79	C04F2.1	Serpentine Receptor, class H family member (srh-79) [Source:RefSeq_peptide;Acc:NP_504930]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
srh-221	C04F2.2				
srh-230	C04F2.3				
srh-229	C04F2.4	Serpentine Receptor, class H family member (srh-229) [Source:RefSeq_peptide;Acc:NP_504931]			
srh-267	C04F2.5				
C04F2.t1	C04F2.t1				
str-31	C54F6.10	Seven TM Receptor family member (str-31) [Source:RefSeq_peptide;Acc:NP_504932]	cell surface receptor linked signal transduction, 	membrane, 	non-G-protein coupled 7TM receptor activity, 
nhr-172	C54F6.9	Nuclear Hormone Receptor family member (nhr-172) [Source:RefSeq_peptide;Acc:NP_504933]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-171	C54F6.8	Nuclear Hormone Receptor family member (nhr-171) [Source:RefSeq_peptide;Acc:NP_504934]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srb-18	C54F6.7	Serpentine receptor class beta-18 (Protein srb-18). [Source:Uniprot/SWISSPROT;Acc:O16444]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
srb-19	C54F6.11	Serpentine Receptor, class B (beta) family member (srb-19) [Source:RefSeq_peptide;Acc:NP_504936]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C54F6.15	C54F6.15	C54F6.15 [Source:RefSeq_peptide;Acc:NP_001023737]			
C54F6.6	C54F6.6	C54F6.6 [Source:RefSeq_peptide;Acc:NP_504937]			
C54F6.5	C54F6.5	C54F6.5 [Source:RefSeq_peptide;Acc:NP_504938]			
C54F6.4	C54F6.4	C54F6.4 [Source:RefSeq_peptide;Acc:NP_504939]			
C54F6.3	C54F6.3	C54F6.3 [Source:RefSeq_peptide;Acc:NP_504940]			
C54F6.2	C54F6.2				
C54F6.12	C54F6.12	C54F6.12 [Source:RefSeq_peptide;Acc:NP_504941]			
srh-268	C54F6.1	Serpentine Receptor, class H family member (srh-268) [Source:RefSeq_peptide;Acc:NP_504942]			
nhx-3	C54F6.13	nhx-3 encodes a sodium/proton exchanger expressed intracellularly (in elliptical, randomly distributed dots that might be multivesicular or Ward bodies) within hypodermal cells of the main body syncytium, socket cells, and the excretory pore cell, as well as (in adults) within uterine cells (probably ut1) in the region closest to the vulva, in spermathecal junction cells. nhx-3 has no obvious phenotype in mass RNAi screens. NHX-3 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of vesicular sodium for an intracellular proton. speculatively, NHX-3 might enable hypodermis-specific secretion of cuticle or phagocytosis. [Source: WormBase]	sodium ion transport, regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
ftn-1	C54F6.14	ftn-1 encodes one of two C. elegans ferritin heavy chain homologs. ftn-1 activity is essential for normal lifespan under iron stress conditions and, in addition, has been reported to be essential for embryogenesis. an ftn-1::gfp reporter is expressed in the intestine at all stages of development and its expression, as well as that of ftn-1 mRNA, increases under iron stress conditions and in the background of mutations in the second ferritin-encoding gene, ftn-2. [Source: WormBase]	cellular iron ion homeostasis, embryonic development ending in birth or egg hatching, 		protein binding, oxidoreductase activity, transition metal ion binding, ferric iron binding, identical protein binding, 
F19F10.3	F19F10.3	F19F10.3 [Source:RefSeq_peptide;Acc:NP_504945]			
F19F10.4	F19F10.4	F19F10.4 [Source:RefSeq_peptide;Acc:NP_504946]			
sri-22	F19F10.2				
F19F10.5	F19F10.5	F19F10.5 [Source:RefSeq_peptide;Acc:NP_504947]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F19F10.6	F19F10.6	F19F10.6 [Source:RefSeq_peptide;Acc:NP_504948]			sugar binding, 
F19F10.1	F19F10.1	F19F10.1 [Source:RefSeq_peptide;Acc:NP_504949]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F19F10.7	F19F10.7	F19F10.7 [Source:RefSeq_peptide;Acc:NP_504950]			sugar binding, 
F19F10.8	F19F10.8	F19F10.8 [Source:RefSeq_peptide;Acc:NP_504951]			
F19F10.9	F19F10.9	The F19F10.9 gene encodes a homolog of the human SART1 gene, which encodes a protein recognised by IgE that may be involved in atopic disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F19F10.12	F19F10.12	F19F10.12 [Source:RefSeq_peptide;Acc:NP_504953]	embryonic development ending in birth or egg hatching, 	cell outer membrane, 	
F19F10.10	F19F10.10	F19F10.10 encodes a protein with a THAP or THAP-like domain. other proteins with such domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]			
F19F10.11	F19F10.11	F19F10.11 encodes a protein with a THAP or THAP-like domain. other proteins with such domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]			
C50E3.5	C50E3.5	C50E3.5 [Source:RefSeq_peptide;Acc:NP_504957]	pathogenesis, embryonic development ending in birth or egg hatching, 		phosphoric monoester hydrolase activity, 
C50E3.6	C50E3.6	C50E3.6 [Source:RefSeq_peptide;Acc:NP_504958]			
C50E3.7	C50E3.7	C50E3.7 [Source:RefSeq_peptide;Acc:NP_504960]		membrane, 	mating-type factor pheromone receptor activity, 
C50E3.8	C50E3.8	C50E3.8 [Source:RefSeq_peptide;Acc:NP_504961]			
C50E3.9	C50E3.9	C50E3.9 [Source:RefSeq_peptide;Acc:NP_504962]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
C50E3.10	C50E3.10	C50E3.10 [Source:RefSeq_peptide;Acc:NP_504963]		extracellular region, 	
C50E3.11	C50E3.11	C50E3.11 [Source:RefSeq_peptide;Acc:NP_504964]			folic acid binding, 
C50E3.16	C50E3.16	folt-3 encodes a putative folate transporter, not yet tested for in vitro activity. FOLT-3 is orthologous to human SLC19A1 (OMIM:600424), SLC19A2 (OMIM:603941, mutated in thiamine-responsive megaloblastic anemia syndrome), and SLC19A3 (OMIM:606152, mutated in biotin-responsive basal ganglia disease). FOLT-3 has no obvious function in mass RNAi assays, perhaps because of genetic redundancy with its paralogs FOLT-1 and FOLT-2. [Source: WormBase]	transport, 	membrane, 	folic acid binding, reduced folate carrier activity, 
C50E3.3	C50E3.3	C50E3.3 [Source:RefSeq_peptide;Acc:NP_504965]			
C50E3.2	C50E3.2	C50E3.2 [Source:RefSeq_peptide;Acc:NP_504966]			
C50E3.1	C50E3.1	C50E3.1 [Source:RefSeq_peptide;Acc:NP_504967]			
C50E3.14	C50E3.14	C50E3.14 [Source:RefSeq_peptide;Acc:NP_001033468]			sugar binding, 
C50E3.15	C50E3.15	C50E3.15 [Source:RefSeq_peptide;Acc:NP_001033469]			
C50E3.12	C50E3.12	C50E3.12 [Source:RefSeq_peptide;Acc:NP_504968]			
C50E3.13	C50E3.13	C50E3.13 [Source:RefSeq_peptide;Acc:NP_504969]			protein binding, 
grsp-4	F07C4.7	Glycine Rich Secreted Protein family member (grsp-4) [Source:RefSeq_peptide;Acc:NP_504970]	microtubule-based process, protein homooligomerization, 	membrane, microtubule, 	GTP binding, 
F07C4.6	F07C4.6	F07C4.6 [Source:RefSeq_peptide;Acc:NP_504971]			
srd-30	F07C4.5	Serpentine receptor class delta-30 (Protein srd-30). [Source:Uniprot/SWISSPROT;Acc:P91209]			protein binding, 
srd-25	F07C4.4	Serpentine receptor class delta-25 (Protein srd-25). [Source:Uniprot/SWISSPROT;Acc:P91210]			
srd-31	F07C4.8	Serpentine receptor class delta-31 (Protein srd-31). [Source:Uniprot/SWISSPROT;Acc:P91211]			
srd-29	F07C4.3	Serpentine Receptor, class D (delta) family member (srd-29) [Source:RefSeq_peptide;Acc:NP_504975]			
clec-46	F07C4.9	C-type LECtin family member (clec-46) [Source:RefSeq_peptide;Acc:NP_504976]			sugar binding, 
clec-45	F07C4.2	C-type LECtin family member (clec-45) [Source:RefSeq_peptide;Acc:NP_504977]			sugar binding, 
F07C4.10	F07C4.10	F07C4.10 [Source:RefSeq_peptide;Acc:NP_504978]			
F07C4.11	F07C4.11	F07C4.11 [Source:RefSeq_peptide;Acc:NP_504979]	homoiothermy, response to freezing, 		ice binding, 
str-47	F07C4.1	Seven TM Receptor family member (str-47) [Source:RefSeq_peptide;Acc:NP_504980]			
F07C4.12	F07C4.12	F07C4.12b [Source:RefSeq_peptide;Acc:NP_001033475]			
srh-234	F07C4.14	Serpentine Receptor, class H family member (srh-234) [Source:RefSeq_peptide;Acc:NP_504982]			
srh-200	F07C4.13	Serpentine Receptor, class H family member (srh-200) [Source:RefSeq_peptide;Acc:NP_504983]			
C12D5.5	C12D5.5	C12D5.5 [Source:RefSeq_peptide;Acc:NP_504984]			
C12D5.4	C12D5.4	C12D5.4 [Source:RefSeq_peptide;Acc:NP_504985]			
C12D5.3	C12D5.3	C12D5.3 [Source:RefSeq_peptide;Acc:NP_504987]	protein folding, 		ATP binding, unfolded protein binding, 
cyp-33A1	C12D5.7	CYtochrome P450 family member (cyp-33A1) [Source:RefSeq_peptide;Acc:NP_504988]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
sre-11	C12D5.11	Serpentine Receptor, class E (epsilon) family member (sre-11) [Source:RefSeq_peptide;Acc:NP_872215]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
nhr-94	C12D5.8	Nuclear Hormone Receptor family member (nhr-94) [Source:RefSeq_peptide;Acc:NP_504989]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-152	C12D5.2	Nuclear Hormone Receptor family member (nhr-152) [Source:RefSeq_peptide;Acc:NP_504990]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C12D5.9	C12D5.9	C12D5.9 [Source:RefSeq_peptide;Acc:NP_504991]			
str-147	C12D5.1				
C12D5.10	C12D5.10	C12D5.10 [Source:RefSeq_peptide;Acc:NP_504992]			
ZK105.3	ZK105.3	ZK105.3 [Source:RefSeq_peptide;Acc:NP_504993]			
srsx-40	ZK105.4	Serpentine Receptor, class SX family member (srsx-40) [Source:RefSeq_peptide;Acc:NP_504994]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-3	ZK105.2	Serpentine Receptor, class W family member (srw-3) [Source:RefSeq_peptide;Acc:NP_504995]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-188	ZK105.7				
ZK105.5	ZK105.5	ZK105.5 [Source:RefSeq_peptide;Acc:NP_504996]			
ZK105.1	ZK105.1	ZK105.1 [Source:RefSeq_peptide;Acc:NP_504997]			
ZK105.6	ZK105.6	ZK105.6 [Source:RefSeq_peptide;Acc:NP_504998]	transport, 	membrane, 	transporter activity, 
ZK105.8	ZK105.8	ZK105.8 [Source:RefSeq_peptide;Acc:NP_001033523]			
Y97E10C.1	Y97E10C.1	Y97E10C.1 [Source:RefSeq_peptide;Acc:NP_741565]			
Y97E10C.t1	Y97E10C.t1				
T05B11.7	T05B11.7	T05B11.7 [Source:RefSeq_peptide;Acc:NP_001024104]			
clic-1	T05B11.3	Clathrin LIght Chain family member (clic-1) [Source:RefSeq_peptide;Acc:NP_504999]			structural molecule activity, 
srr-10	T05B11.6	Serpentine Receptor, class R family member (srr-10) [Source:RefSeq_peptide;Acc:NP_741566]			
srr-9	T05B11.2	Serpentine Receptor, class R family member (srr-9) [Source:RefSeq_peptide;Acc:NP_505000]			
T05B11.1	T05B11.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T05B11.4	T05B11.4	T05B11.4 [Source:RefSeq_peptide;Acc:NP_505002]			
T05B11.5	T05B11.5				
C26F1.7	C26F1.7	C26F1.7 [Source:RefSeq_peptide;Acc:NP_505003]			
C26F1.6	C26F1.6	C26F1.6 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that C26F1.6 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
grl-10	C26F1.5	grl-10 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
rpl-39	C26F1.9	rpl-39 encodes a large ribosomal subunit L39 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
rps-30	C26F1.4	rps-30 encodes two proteins, a small ribosomal subunit S30 protein and ubiquitin, which is cleaved from the ribosomal protein posttranslationally. by homology, S30 is predicted to function in protein biosynthesis and ubiquitin in protein degradation. in C. elegans, loss of rps-30 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. [Source: WormBase]	translation, protein modification process, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
C26F1.3	C26F1.3	Uncharacterized protein C26F1.3. [Source:Uniprot/SWISSPROT;Acc:Q18232]	positive regulation of growth rate, 		
cyp-32A1	C26F1.2	CYtochrome P450 family member (cyp-32A1) [Source:RefSeq_peptide;Acc:NP_505009]	electron transport, SRP-dependent cotranslational protein targeting to membrane, 	membrane, 	iron ion binding, GTP binding, monooxygenase activity, heme binding, 7S RNA binding, 
C26F1.1	C26F1.1	C26F1.1b [Source:RefSeq_peptide;Acc:NP_001023681]			
flp-21	C26F1.10	flp-21 encodes a single FMRFamide-related neuropeptide (FaRP) that serves as a ligand for NPR-1, a G protein-coupled receptor that regulates social versus solitary feeding behavior in several Caenorhabditis species. genetic analysis suggests that FLP-21 acts through NPR-1 to inhibit social feeding behavior. FLP-21 is expressed in the ADL, ASE and ASH sensory neurons, the URA motor neurons, the MC, M2 and M4 pharyngeal neurons, and the intestine. flp-21 encodes the only FMRFamide-related neuropeptide (FaRP) encoded by the C. elegans genome that activates both the social (215F) and the solitary (215V) forms of NPR-1 in both Xenopus oocytes and pharyngeal assays. [Source: WormBase]			
ZK742.2	ZK742.2	ZK742.2 [Source:RefSeq_peptide;Acc:NP_505012]			
imb-4	ZK742.1	imb-4 encodes exportin-1, an importin-beta-like protein orthologous to Drosophila, vertebrate, and yeast exportin-1/CRM1. IMB-4 is predicted to function as a nuclear export receptor for proteins containing leucine-rich nuclear export signals. in C. elegans, IMB-4 is essential for embryogenesis and larval development, and may also be required for normal body morphology and postembryonic growth rates. [Source: WormBase]	intracellular protein transport, photosynthesis, protein import into nucleus, docking, positive regulation of growth rate, 	cytoplasm, nucleus, nuclear pore, phycobilisome, 	protein transporter activity, binding, 
ZK742.3	ZK742.3	ZK742.3 [Source:RefSeq_peptide;Acc:NP_505014]			oxidoreductase activity, catalytic activity, FMN binding, 
ZK742.4	ZK742.4	ZK742.4 [Source:RefSeq_peptide;Acc:NP_505015]			oxidoreductase activity, catalytic activity, FMN binding, 
ZK742.6	ZK742.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ7]			
lbp-4	ZK742.5	lpb-4 encodes a homolog of the novel fatty acid binding protein, As-p18, found in the parasitic nematode Ascaris suum. As-p18 is a member of a family of small intracellular fatty acid binding proteins (iFABPs). unlike most lpb family members lpb-4 lacks a secretory signal [Source: WormBase]	transport, 		transporter activity, binding, lipid binding, 
ppn-1	C37C3.6	C37C3.6 encodes three isoforms of a large, novel multidomain glycoprotein orthologous to thrombospondin from Haemonchus contortus, papilin from D. melanogaster, and lacunin from Manduca sexta. the N-terminal region of C37C3.6 proteins have a domain set also found in the C-terminal region of ADAMTS matrix-associated metalloproteinases. C37C3.6 is generally required for normal cell arrangements, being required in embryos for viability and normal hypodermal enclosure, and in L1 larvae for normal excretory canal function. [Source: WormBase]	positive regulation of growth rate, 	proteinaceous extracellular matrix, extracellular matrix, 	protein binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, serine-type endopeptidase inhibitor activity, peptidase activity, 
C37C3.7	C37C3.7	C37C3.7 [Source:RefSeq_peptide;Acc:NP_505019]			
C37C3.13	C37C3.13	C37C3.13 [Source:RefSeq_peptide;Acc:NP_872192]			
C37C3.12	C37C3.12	C37C3.12 [Source:RefSeq_peptide;Acc:NP_872190]	multicellular organismal development, 		
grd-8	C37C3.4	grd-8 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity proline-rich domain, and a C-terminal Ground domain. GRD-8 is expressed in larval intestine and neurons. the grd-8 gene is directly bound by DAF-12 and requires DAF-12 for full transcription. GRD-8's Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-8 is weakly required for normal molting. GRD-8 is also required for normal adult alae formation, growth to full size, locomotion, and male tail development. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
tag-253	C37C3.8	UPF0103 protein tag-253. [Source:Uniprot/SWISSPROT;Acc:Q22915]			
vps-32.2	C37C3.3	C37C3.3 [Source:RefSeq_peptide;Acc:NP_505022]	protein transport, embryonic development ending in birth or egg hatching, 		
C37C3.9	C37C3.9	C37C3.9 [Source:RefSeq_peptide;Acc:NP_505023]			protein binding, 
C37C3.2	C37C3.2	Eukaryotic translation initiation factor 5 (eIF-5). [Source:Uniprot/SWISSPROT;Acc:Q22918]	translational initiation, regulation of translational initiation, biological_process, 	eukaryotic translation initiation factor 2B complex, 	translation initiation factor activity, molecular_function, 
C37C3.1	C37C3.1	C37C3.1 [Source:RefSeq_peptide;Acc:NP_505025]	calcium ion transport, 	integral to membrane, 	voltage-gated calcium channel activity, 
C37C3.10	C37C3.10	C37C3.10 [Source:RefSeq_peptide;Acc:NP_505026]			
C37C3.11	C37C3.11	C37C3.11 [Source:RefSeq_peptide;Acc:NP_505027]			
F40A3.5	F40A3.5	F40A3.5 [Source:RefSeq_peptide;Acc:NP_505028]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F40A3.4	F40A3.4	F40A3.4 [Source:RefSeq_peptide;Acc:NP_505029]			
F40A3.3	F40A3.3	Phosphatidylethanolamine-binding protein homolog F40A3.3. [Source:Uniprot/SWISSPROT;Acc:O16264]			
F40A3.2	F40A3.2	F40A3.2 [Source:RefSeq_peptide;Acc:NP_505031]			
F40A3.6	F40A3.6	F40A3.6 [Source:RefSeq_peptide;Acc:NP_505032]			
F40A3.1	F40A3.1	F40A3.1 [Source:RefSeq_peptide;Acc:NP_505033]			
F40A3.7	F40A3.7	F40A3.7 [Source:RefSeq_peptide;Acc:NP_505034]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-11	Y97E10B.6				
srsx-7	Y97E10B.4	Serpentine Receptor, class SX family member (srsx-7) [Source:RefSeq_peptide;Acc:NP_505036]			
srsx-6	Y97E10B.3	Serpentine Receptor, class SX family member (srsx-6) [Source:RefSeq_peptide;Acc:NP_505037]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-5	Y97E10B.2	Serpentine Receptor, class SX family member (srsx-5) [Source:RefSeq_peptide;Acc:NP_505038]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ncx-10	Y97E10B.7	Na/Ca eXchangers family member (ncx-10) [Source:RefSeq_peptide;Acc:NP_505039]		integral to membrane, 	
srsx-4	Y97E10B.8				
srsx-3	Y97E10B.9	Serpentine Receptor, class SX family member (srsx-3) [Source:RefSeq_peptide;Acc:NP_505041]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srt-53	Y97E10B.10	Serpentine Receptor, class T family member (srt-53) [Source:RefSeq_peptide;Acc:NP_505042]			
Y97E10B.1	Y97E10B.1	Y97E10B.1 [Source:RefSeq_peptide;Acc:NP_505043]			
F26D11.4	F26D11.4	F26D11.4 [Source:RefSeq_peptide;Acc:NP_505044]			
F26D11.5	F26D11.5	F26D11.5 [Source:RefSeq_peptide;Acc:NP_505046]			sugar binding, 
F26D11.13	F26D11.13	F26D11.6 [Source:RefSeq_peptide;Acc:NP_505047]			
F26D11.12	F26D11.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8R5]			
F26D11.6	F26D11.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5A8R3]			
F26D11.9	F26D11.9	F26D11.9 [Source:RefSeq_peptide;Acc:NP_505048]			sugar binding, 
F26D11.2	F26D11.2	F26D11.2 [Source:RefSeq_peptide;Acc:NP_505049]			
inx-4	F26D11.10	INneXin family member (inx-4) [Source:RefSeq_peptide;Acc:NP_505050]		gap junction, 	
let-413	F26D11.11	let-413 encodes a protein with strong similarity to human ERBIN, rat DENSIN, Drosophila SCRIB and its human ortholog hSCRIB. LET-413 protein is localized to the basolateral region of epithelial cells, and is required for the assembly of adherens junctions. [Source: WormBase]	protein transport, embryonic development ending in birth or egg hatching, embryonic development, establishment and/or maintenance of cell polarity, regulation of intermediate filament polymerization and/or depolymerization, 	adherens junction, 	protein binding, 
F26D11.1	F26D11.1	F26D11.1 [Source:RefSeq_peptide;Acc:NP_505052]	carbohydrate metabolic process, 		ATP binding, kinase activity, shikimate kinase activity, 
Y97E10AL.3	Y97E10AL.3	Y97E10AL.3 [Source:RefSeq_peptide;Acc:NP_505053]	metabolic process, 		N-acetyltransferase activity, 
Y97E10AL.2	Y97E10AL.2	Y97E10AL.2 [Source:RefSeq_peptide;Acc:NP_505054]	aromatic compound metabolic process, 		hydrolase activity, hydrolase activity, acting on ester bonds, 
Y97E10AL.1	Y97E10AL.1	Y97E10AL.1 [Source:RefSeq_peptide;Acc:NP_505055]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
Y97E10AM.1	Y97E10AM.1	Y97E10AM.1 [Source:RefSeq_peptide;Acc:NP_505056]			
Y97E10AR.2	Y97E10AR.2	Y97E10AR.2b [Source:RefSeq_peptide;Acc:NP_001024294]			gamma-glutamyltransferase activity, 
Y97E10AR.1	Y97E10AR.1	Y97E10AR.1 [Source:RefSeq_peptide;Acc:NP_505058]			protein binding, 
Y97E10AR.8	Y97E10AR.8	Y97E10AR.8 [Source:RefSeq_peptide;Acc:NP_001033522]			
Y97E10AR.3	Y97E10AR.3	Y97E10AR.3 [Source:RefSeq_peptide;Acc:NP_505059]			
Y97E10AR.4	Y97E10AR.4	Y97E10AR.4 [Source:RefSeq_peptide;Acc:NP_505060]			
Y97E10AR.7	Y97E10AR.7	Mitogen-activated protein-binding protein-interacting protein homolog. [Source:Uniprot/SWISSPROT;Acc:Q9N2U6]			protein binding, 
Y97E10AR.5	Y97E10AR.5	Y97E10AR.5 [Source:RefSeq_peptide;Acc:NP_505062]	regulation of transcription, transcription, 		zinc ion binding, transcription regulator activity, DNA binding, nucleic acid binding, DNA-directed RNA polymerase activity, 
Y97E10AR.6	Y97E10AR.6	Y97E10AR.6 [Source:RefSeq_peptide;Acc:NP_505063]			
sptl-2	F43H9.2	Serine Palmitoyl Transferase famiLy family member (sptl-2) [Source:RefSeq_peptide;Acc:NP_505064]	metabolic process, biosynthetic process, 		pyridoxal phosphate binding, transferase activity, transferase activity, transferring nitrogenous groups, 
ech-3	F43H9.1	Enoyl-CoA Hydratase family member (ech-3) [Source:RefSeq_peptide;Acc:NP_505066]	metabolic process, 		catalytic activity, 
F43H9.3	F43H9.3	F43H9.3 [Source:RefSeq_peptide;Acc:NP_505067]			
F43H9.4	F43H9.4	F43H9.4 [Source:RefSeq_peptide;Acc:NP_505068]			
oma-2	ZC513.6	The oma-2 gene encodes a zinc finger protein of the TIS11 finger type that is paralogous to OMA-1. while either oma-1 or oma-2 individually have no obvious mutant phenotype, a normal copy of at least one of these genes is required for oocyte maturation. [Source: WormBase]			protein binding, zinc ion binding, nucleic acid binding, 
vrs-1	ZC513.4	vrs-1 encodes a predicted valyl-tRNA synthetase that affects embryonic viability, growth, and morphology [Source: WormBase]	translation, tRNA aminoacylation for protein translation, valyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, valine-tRNA ligase activity, 
ZC513.5	ZC513.5	Probable dolichyl-P-Man:Man(7)GlcNAc(2)-PP-dolichyl-alpha-1,6- mannosyltransferase (EC 2.4.1.-) (Mannosyltransferase ALG12 homolog). [Source:Uniprot/SWISSPROT;Acc:Q23361]	protein amino acid glycosylation, dolichol-linked oligosaccharide biosynthetic process, 	endoplasmic reticulum, 	alpha-1,6-mannosyltransferase activity, 
ZC513.3	ZC513.3	ZC513.3 [Source:RefSeq_peptide;Acc:NP_505073]			
col-43	ZC513.8	col-43 encodes a collagen that is individually dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
sth-1	ZC513.12	SpermaTHecal expression family member (sth-1) [Source:RefSeq_peptide;Acc:NP_741574]			
ZC513.2	ZC513.2	ZC513.2 [Source:RefSeq_peptide;Acc:NP_505075]			lipid binding, 
ZC513.1	ZC513.1	ZC513.1 [Source:RefSeq_peptide;Acc:NP_505076]			lipid binding, 
str-138	ZC513.11	Seven TM Receptor family member (str-138) [Source:RefSeq_peptide;Acc:NP_505077]			
str-139	ZC513.9	Seven TM Receptor family member (str-139) [Source:RefSeq_peptide;Acc:NP_505078]	amino acid transport, 	membrane, 	
fbxa-223	ZC513.10	fbxa-223 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXA-223 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
str-140	C09H5.3	Seven TM Receptor family member (str-140) [Source:RefSeq_peptide;Acc:NP_505080]			
str-143	C09H5.4	Seven TM Receptor family member (str-143) [Source:RefSeq_peptide;Acc:NP_505081]			
str-144	C09H5.5	Seven TM Receptor family member (str-144) [Source:RefSeq_peptide;Acc:NP_505082]			
C09H5.2	C09H5.2	C09H5.2a [Source:RefSeq_peptide;Acc:NP_505083]	transport, metabolic process, cation transport, oviposition, 	membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
str-131	C09H5.6	Seven TM Receptor family member (str-131) [Source:RefSeq_peptide;Acc:NP_505084]			
C09H5.1	C09H5.1	C09H5.1 [Source:RefSeq_peptide;Acc:NP_505085]			
C09H5.7	C09H5.7	C09H5.7 [Source:RefSeq_peptide;Acc:NP_505086]			hydrolase activity, 
str-128	C09H5.8				
str-130	C09H5.9	Seven TM Receptor family member (str-130) [Source:RefSeq_peptide;Acc:NP_505087]			
str-129	F58G4.5	Seven TM Receptor family member (str-129) [Source:RefSeq_peptide;Acc:NP_505088]			
str-146	F58G4.6	Seven TM Receptor family member (str-146) [Source:RefSeq_peptide;Acc:NP_505089]			
str-145	F58G4.7	Seven TM Receptor family member (str-145) [Source:RefSeq_peptide;Acc:NP_505090]			
sdz-23	F58G4.4	SKN-1 Dependent Zygotic transcript family member (sdz-23) [Source:RefSeq_peptide;Acc:NP_505091]			calcium ion binding, 
str-90	F58G4.2	Seven TM Receptor family member (str-90) [Source:RefSeq_peptide;Acc:NP_505092]			
F58G4.3	F58G4.3	F58G4.3 [Source:RefSeq_peptide;Acc:NP_505093]			protein binding, 
F58G4.1	F58G4.1	F58G4.1 [Source:RefSeq_peptide;Acc:NP_505094]		myosin complex, 	ATP binding, motor activity, 
D1014.7	D1014.7	D1014.7 [Source:RefSeq_peptide;Acc:NP_505095]			
D1014.6	D1014.6	D1014.6 [Source:RefSeq_peptide;Acc:NP_505096]			
D1014.5	D1014.5	D1014.5 [Source:RefSeq_peptide;Acc:NP_505097]			
spr-1	D1014.8	REST corepressor spr-1 (CoREST) (Suppressor of presenilin 1). [Source:Uniprot/SWISSPROT;Acc:Q18919]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, 
snap-1	D1014.3	SNAP (Soluble NSF Attachment Protein) homolog family member (snap-1) [Source:RefSeq_peptide;Acc:NP_505099]	intracellular protein transport, positive regulation of growth rate, 	endoplasmic reticulum, Golgi apparatus, 	
D1014.4	D1014.4	D1014.4 [Source:RefSeq_peptide;Acc:NP_505100]			
D1014.2	D1014.2	D1014.2 [Source:RefSeq_peptide;Acc:NP_505101]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sul-2	D1014.1	sul-2 is orthologous to the human gene ARYLSULFATASE A (ARSA. OMIM:250100), which when mutated leads to metachromatic leukodystrophy. [Source: WormBase]	metabolic process, 		sulfuric ester hydrolase activity, 
F20D6.6	F20D6.6	F20D6.6 [Source:RefSeq_peptide;Acc:NP_505103]			hydrolase activity, 
F20D6.5	F20D6.5	F20D6.5 [Source:RefSeq_peptide;Acc:NP_505104]	protein amino acid phosphorylation, 		ATP binding, protein-tyrosine kinase activity, 
F20D6.8	F20D6.8	F20D6.8 [Source:RefSeq_peptide;Acc:NP_505105]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
F20D6.9	F20D6.9	F20D6.9 [Source:RefSeq_peptide;Acc:NP_505106]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
srp-7	F20D6.4	SeRPin family member (srp-7) [Source:RefSeq_peptide;Acc:NP_001023823]			serine-type endopeptidase inhibitor activity, 
srp-8	F20D6.3	srp-8 encodes a predicted serpin (serine protease inhibitor) [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
F20D6.2	F20D6.2	F20D6.2 [Source:RefSeq_peptide;Acc:NP_505109]			
F20D6.12	F20D6.12	F20D6.12 [Source:RefSeq_peptide;Acc:NP_001023821]			
F20D6.1	F20D6.1	F20D6.1 [Source:RefSeq_peptide;Acc:NP_505110]			protein binding, 
F20D6.10	F20D6.10	F20D6.10 [Source:RefSeq_peptide;Acc:NP_505111]			
F20D6.11	F20D6.11	F20D6.11 encodes a putative flavin-adenine dinucleotide (FAD)-binding oxidoreductase orthologous to human AIFM3 (AIFL), and paralogous to WAH-1 and mammalian PDCD8 (AIF. OMIM:300169, mutated in Harlequin mice). F20D6.11 is expressed in pharynx, anal depressor and body wall muscles, the reproductive system (including spermatheca), and unidentified tail cells. given its orthology to AIFM3, F20D6.11 may promote apoptosis. however, F20D6.11 has no obvious function in mass RNAi assays. [Source: WormBase]	electron transport, induction of apoptosis, caspase activation via cytochrome c, mitochondrial depolarization, 	mitochondrion, endoplasmic reticulum, mitochondrial inner membrane, 	oxidoreductase activity, monooxygenase activity, FAD binding, caspase activator activity, 
tag-225	K07C11.5	K07C11.5 is orthologous to the human gene SIMILAR TO TISSUE INHIBITOR OF METALLOPROTEINASE 3 (SORSBY FUNDUS DYSTROPHY, PSEUDOINFLAMMATORY) (TIMP3. OMIM:188826), which when mutated leads to disease. [Source: WormBase]		proteinaceous extracellular matrix, 	metalloendopeptidase inhibitor activity, 
K07C11.4	K07C11.4	K07C11.4 [Source:RefSeq_peptide;Acc:NP_505114]	positive regulation of growth rate, 		protein binding, 
K07C11.3	K07C11.3	K07C11.3 [Source:RefSeq_peptide;Acc:NP_505115]			metalloendopeptidase inhibitor activity, 
K07C11.7	K07C11.7	UPF0046 protein K07C11.7. [Source:Uniprot/SWISSPROT;Acc:Q21268]			hydrolase activity, 
K07C11.8	K07C11.8	K07C11.8 [Source:RefSeq_peptide;Acc:NP_505117]			
cogc-6	K07C11.9	cogc-6 encodes an ortholog of mammalian COG-6, a subunit of lobe B of the conserved oligomeric Golgi complex (COGC). COGC-6 is weakly required for normal gonadal distal tip cell migration, a process that also requires seven other orthologs of COGC subunits. like other lobe B subunits in both C. elegans and S. cerevisiae, COGC-6 is only partially required for normal function, while lobe A subunits are strongly required in either worms or yeast. [Source: WormBase]	regulation of cell migration, 		
air-1	K07C11.2	AIR-1 belongs to the Aurora-A family of serine/threonine kinases that localize to centrosomes. AIR-1 is required for embryonic survival, germline proliferation and development, locomotion, and vulval development. AIR-1 is required to recruit centrosomal gamma-tubulin during maturation. Aurora-A kinases are implicated in centrosome separation and spindle assembly. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
NR_003475.1	K07C11.11	K07C11.11, snoRNA [Source:RefSeq_dna;Acc:NR_003475]			
NR_003476.1	K07C11.12	K07C11.12, snoRNA [Source:RefSeq_dna;Acc:NR_003476]			
pax-1	K07C11.1	PAX (Paired box) transcription factor family member (pax-1) [Source:RefSeq_peptide;Acc:NP_505120]	multicellular organismal development, 	nucleus, 	
K07C11.10	K07C11.10	K07C11.10 [Source:RefSeq_peptide;Acc:NP_505121]			
rol-3	C16D9.2	rol-3 was identified in screens for recessive mutations that affect body morphology. strong loss-of-function mutations in rol-3 result in early-to-mid larval lethality, while weaker mutations result in animals that are left-handed rollers at the adult stage only. lethal rol-3 mutations are suppressed by mutations in srl-1 and srl-2. [Source: WormBase]	protein amino acid phosphorylation, locomotory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
NR_003467.1	C16D9.11	C16D9.11, snoRNA [Source:RefSeq_dna;Acc:NR_003467]			
C16D9.t3	C16D9.t3				
C16D9.t2	C16D9.t2				
C16D9.3	C16D9.3	C16D9.3 [Source:RefSeq_peptide;Acc:NP_505123]			
C16D9.4	C16D9.4	C16D9.4 [Source:RefSeq_peptide;Acc:NP_505124]	electron transport, 		iron ion binding, monooxygenase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
C16D9.5	C16D9.5	C16D9.5 [Source:RefSeq_peptide;Acc:NP_505125]			
C16D9.t4	C16D9.t4				
NR_001521.1	C16D9.10	C16D9.10, snoRNA [Source:RefSeq_dna;Acc:NR_001521]			
C16D9.6	C16D9.6	C16D9.6 [Source:RefSeq_peptide;Acc:NP_505126]			
srt-25	C16D9.7	Serpentine Receptor, class T family member (srt-25) [Source:RefSeq_peptide;Acc:NP_505127]			
C16D9.1	C16D9.1	C16D9.1 [Source:RefSeq_peptide;Acc:NP_505128]			
C16D9.8	C16D9.8	C16D9.8 [Source:RefSeq_peptide;Acc:NP_505129]			
C16D9.9	C16D9.9	C16D9.9 [Source:RefSeq_peptide;Acc:NP_505130]			
F21F8.5	F21F8.5	F21F8.5 [Source:RefSeq_peptide;Acc:NP_505131]			
F21F8.6	F21F8.6	F21F8.6 [Source:RefSeq_peptide;Acc:NP_505132]			
asp-6	F21F8.7	aspartic protease. [Source: WormBase]	proteolysis, cell death, 		protein binding, pepsin A activity, aspartic-type endopeptidase activity, 
F21F8.4	F21F8.4	F21F8.4 [Source:RefSeq_peptide;Acc:NP_505134]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
asp-5	F21F8.3	F21F8.3 [Source:RefSeq_peptide;Acc:NP_505135]	proteolysis, cell death, 		pepsin A activity, aspartic-type endopeptidase activity, 
F21F8.2	F21F8.2	F21F8.2 [Source:RefSeq_peptide;Acc:NP_505136]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
str-137	F21F8.8				
str-136	F21F8.9	Seven TM Receptor family member (str-136) [Source:RefSeq_peptide;Acc:NP_505137]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
str-135	F21F8.10	Seven TM Receptor family member (str-135) [Source:RefSeq_peptide;Acc:NP_505138]			
F21F8.11	F21F8.11	F21F8.11 [Source:RefSeq_peptide;Acc:NP_505139]	transport, 	integral to membrane, 	transporter activity, 
srg-33	F21F8.1	Serpentine receptor class gamma-33 (Protein srg-33). [Source:Uniprot/SWISSPROT;Acc:O01538]	signal transduction, 	membrane, 	transmembrane receptor activity, 
W02D7.3	W02D7.3	W02D7.3 [Source:RefSeq_peptide;Acc:NP_505141]			
W02D7.4	W02D7.4	W02D7.4 [Source:RefSeq_peptide;Acc:NP_505142]			
W02D7.5	W02D7.5	W02D7.5 [Source:RefSeq_peptide;Acc:NP_505143]			
W02D7.6	W02D7.6	W02D7.6 [Source:RefSeq_peptide;Acc:NP_505144]		intracellular, 	zinc ion binding, nucleic acid binding, 
sel-9	W02D7.7	sel-9 encodes a member of the p24 family of proteins that affects growth and locomotion and likely functions to negatively regulate the transport of lin-12 and glp-1 to the cell surface. genetically interacts with mutations in lin-12 that affect the extracellular domain with respect to egg laying, AC/VU fate decision, and vulval formation and interacts with glp-1 mutations with respect to proximal proliferation of the germline and embryonic viability. [Source: WormBase]	transport, ER to Golgi vesicle-mediated transport, positive regulation of growth rate, regulation of Notch signaling pathway, 	integral to membrane, ER to Golgi transport vesicle membrane, 	transporter activity, 
W02D7.11	W02D7.11	W02D7.11 [Source:RefSeq_peptide;Acc:NP_741575]			
W02D7.8	W02D7.8	W02D7.8 [Source:RefSeq_peptide;Acc:NP_505146]			
W02D7.2	W02D7.2	W02D7.2 [Source:RefSeq_peptide;Acc:NP_505147]			sugar binding, 
W02D7.12	W02D7.12	W02D7.12 [Source:RefSeq_peptide;Acc:NP_001024181]			
W02D7.10	W02D7.10	W02D7.10 [Source:RefSeq_peptide;Acc:NP_505148]	embryonic development ending in birth or egg hatching, 		
W02D7.1	W02D7.1				
W02D7.9	W02D7.9	W02D7.9 [Source:RefSeq_peptide;Acc:NP_505149]			
Y51B11A.1	Y51B11A.1	Y51B11A.1 [Source:RefSeq_peptide;Acc:NP_505150]		membrane, 	
tmd-2	C08D8.2	TropoMoDulin family member (tmd-2) [Source:RefSeq_peptide;Acc:NP_872143]		cytoskeleton, 	tropomyosin binding, 
C08D8.1	C08D8.1	C08D8.1 [Source:RefSeq_peptide;Acc:NP_505152]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
NR_003465.1	C08D8.3	C08D8.3, snoRNA [Source:RefSeq_dna;Acc:NR_003465]			
srsx-22	F38E1.8	Serpentine Receptor, class SX family member (srsx-22) [Source:RefSeq_peptide;Acc:NP_505153]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-23	F38E1.12				
mom-2	F38E1.7	mom-2 encodes a member of the Wnt family of secreted signaling glycoproteins that is required for induction of endodermal (gut) tissue in the 4-cell stage embryo. MOM-2, required in the inducing blastomere (P2) at the 4-cell stage, may be the ligand for MOM-5, a Frizzled homolog, thought to act in the receiving blastomere (EMS). MOM-2 genetically interacts in the same pathway as KIN-19, but parallel to APR-1. MOM-2 also may be a ligand for LIN-18, a Ryk homolog. [Source: WormBase]	multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, embryonic development ending in birth or egg hatching, establishment of mitotic spindle orientation, 	extracellular region, 	protein binding, signal transducer activity, receptor binding, 
F38E1.9	F38E1.9	Mannose-P-dolichol utilization defect 1 protein homolog. [Source:Uniprot/SWISSPROT;Acc:Q20157]			
F38E1.6	F38E1.6	F38E1.6 [Source:RefSeq_peptide;Acc:NP_505156]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
gpa-2	F38E1.5	gpa-2 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that is involved in dauer formation and chemotaxis to water-soluble odorants. it is expressed in the phasmid neurons PHA and PHB, three pharyngeal neurons, one interneuron, three pairs of head neurons, and the anal sphincter muscle. [Source: WormBase]	small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, olfactory learning, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
F38E1.10	F38E1.10	F38E1.10 [Source:RefSeq_peptide;Acc:NP_505158]			
F38E1.3	F38E1.3	F38E1.3 [Source:RefSeq_peptide;Acc:NP_505159]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F38E1.11	F38E1.11	F38E1.11 [Source:RefSeq_peptide;Acc:NP_505160]			
F52E1.5	F52E1.5	F52E1.5 [Source:RefSeq_peptide;Acc:NP_505164]			
F52E1.12	F52E1.12				
F52E1.14	F52E1.14	F52E1.14 [Source:RefSeq_peptide;Acc:NP_001041119]			
hsp-17	F52E1.7	hsp-17 encodes a heat shock protein that is a member of the hsp16/hsp20/alpha-crystallin family of heat shock proteins. by homology, HSP-17 is predicted to function as a molecular chaperone that protects cells from heat-induced protein aggregation and denaturation. at present, the precise developmental and/or behavioral role of HSP-17, as well as its expression pattern, are not yet known. [Source: WormBase]			protein binding, structural constituent of eye lens, identical protein binding, 
gcy-7	F52E1.4	Guanylyl CYclase family member (gcy-7) [Source:RefSeq_peptide;Acc:NP_001023955]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
F52E1.8	F52E1.8	F52E1.8 [Source:RefSeq_peptide;Acc:NP_505167]			acid phosphatase activity, 
F52E1.3	F52E1.3	F52E1.3 [Source:RefSeq_peptide;Acc:NP_505168]			
F52E1.9	F52E1.9	F52E1.9 [Source:RefSeq_peptide;Acc:NP_505169]			
F52E1.2	F52E1.2	F52E1.2 [Source:RefSeq_peptide;Acc:NP_505170]	metabolic process, 		oxidoreductase activity, sugar binding, 
vha-18	F52E1.10	vha-18 encodes an an ortholog of subunit H of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-18 and VHA-15 are co-orthologs. VHA-18 is a predicted cytosolic stator (stalk) component. [Source: WormBase]	ATP synthesis coupled proton transport, 	vacuolar proton-transporting V-type ATPase, V1 domain, peripheral to membrane of membrane fraction, 	ATP binding, binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
pos-1	F52E1.1	pos-1 encodes a CCCH-type zinc-finger protein. during embryogenesis, maternally provided POS-1 is essential for proper fate specification of germ cells, intestine, pharynx, and hypodermis. POS-1's role in cell fate specification is likely as a translational regulator, as POS-1 is required, in posterior blastomeres, for positive regulation of apx-1 mRNA translation and negative regulation of glp-1 mRNA translation via direct binding to the spatial control region (SCR) in the glp-1 mRNA 3' UTR. in regulating mRNA translation, POS-1 interacts with SPN-4, an RNP-type RNA binding protein, that may function to negatively regulate POS-1 activity. pos-1 mRNA is first detected in the gonads of L4 and adult animals, and is present uniformly in oocytes and newly fertilized embryos. during early embryonic divisions, pos-1 mRNA is present at higher levels in germline blastomeres until it disappears following the division of P4. POS-1 protein is first apparent at low levels in 1-cell embryos, with subsequent expression mirroring that of pos-1 mRNA: high levels in germline blastomeres until its disappearance after the P4 division. in the germline blastomeres P1, P2, P3, and P4, POS-1 colocalizes with cytoplasmic and perinuclear P granules. [Source: WormBase]	embryonic development ending in birth or egg hatching, cell fate specification, 		zinc ion binding, transcription regulator activity, nucleic acid binding, 
F52E1.13	F52E1.13	F52E1.13c [Source:RefSeq_peptide;Acc:NP_505174]	cell wall catabolic process, 		protein binding, 
T23B12.5	T23B12.5	T23B12.5 [Source:RefSeq_peptide;Acc:NP_505176]			
T23B12.11	T23B12.11	T23B12.11 [Source:RefSeq_peptide;Acc:NP_001033504]			heme binding, transition metal ion binding, 
T23B12.6	T23B12.6	T23B12.6 [Source:RefSeq_peptide;Acc:NP_505177]	potassium ion transport, embryonic development ending in birth or egg hatching, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
dnj-22	T23B12.7	This gene encodes a protein containing a DnaJ ('J') domain that is predicted to be mitochondrial. [Source: WormBase]	positive regulation of growth rate, 		heat shock protein binding, 
T23B12.4	T23B12.4	T23B12.4 [Source:RefSeq_peptide;Acc:NP_505179]	embryonic development ending in birth or egg hatching, 		
T23B12.3	T23B12.3	T23B12.3 [Source:RefSeq_peptide;Acc:NP_505180]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
T23B12.2	T23B12.2	T23B12.2 [Source:RefSeq_peptide;Acc:NP_505181]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
T23B12.1	T23B12.1	T23B12.1 [Source:RefSeq_peptide;Acc:NP_505182]			protein binding, zinc ion binding, 
T23B12.8	T23B12.8	T23B12.8 [Source:RefSeq_peptide;Acc:NP_505183]		extracellular region, 	hormone activity, 
pxn-1	ZK994.3	ZK994.3 [Source:RefSeq_peptide;Acc:NP_505188]	electron transport, response to oxidative stress, 		protein binding, peroxidase activity, heme binding, 
ZK994.t1	ZK994.t1				
ZK994.t3	ZK994.t3				
ZK994.t2	ZK994.t2				
NR_003485.1	ZK994.7	ZK994.7, snoRNA [Source:RefSeq_dna;Acc:NR_003485]			
ZK994.6	ZK994.6	ZK994.6 [Source:RefSeq_peptide;Acc:NP_505189]			
ZK994.1	ZK994.1	ZK994.1 [Source:RefSeq_peptide;Acc:NP_505190]			
F45F2.9	F45F2.9	F45F2.9 [Source:RefSeq_peptide;Acc:NP_505191]			
F45F2.10	F45F2.10	F45F2.10 [Source:RefSeq_peptide;Acc:NP_505192]	reproduction, 		
F45F2.11	F45F2.11	F45F2.11 [Source:RefSeq_peptide;Acc:NP_505193]			
F45F2.7	F45F2.7	F45F2.7 [Source:RefSeq_peptide;Acc:NP_505194]	ATP synthesis coupled electron transport, 		NADH dehydrogenase (ubiquinone) activity, 
F45F2.6	F45F2.6	F45F2.6 [Source:RefSeq_peptide;Acc:NP_505195]			
F45F2.5	F45F2.5	F45F2.5 [Source:RefSeq_peptide;Acc:NP_505196]			
his-8	F45F2.12	his-8 encodes an H2B histone. his-8 is contained within the histone gene cluster HIS2. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-7	F45F2.4	his-7 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-6	F45F2.13	his-6 encodes an H3 histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-5	F45F2.3	his-5 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-39	F45F2.2	his-39 encodes an H2B histone. by homology, HIS-39 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. loss of his-39 function via RNA-mediated interference (RNAi) does not result in any abnormalities. his-39 is a replication-dependent histone locus that resides in the HIS2 cluster on chromosome V. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
F45F2.1	F45F2.1	F45F2.1 [Source:RefSeq_peptide;Acc:NP_505202]			
F25G6.7	F25G6.7	F25G6.7b [Source:RefSeq_peptide;Acc:NP_001023849]	transport, 	integral to membrane, 	transporter activity, 
nrs-2	F25G6.6	nrs-2 encodes a predicted asparaginyl-tRNA synthetase (AsnRS), a class II aminoacyl-tRNA synthetase that catalyzes the attachment of asparagine to its cognate tRNA and is thus required for protein biosynthesis. loss of nrs-2 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities. [Source: WormBase]	metabolic process, asparagine biosynthetic process, locomotory behavior, 		asparagine synthase (glutamine-hydrolyzing) activity, 
tag-57	F25G6.5	Putative steroid dehydrogenase tag-57 (EC 1.1.1.-). [Source:Uniprot/SWISSPROT;Acc:O16925]	metabolic process, electron transport, response to oxidative stress, enterobactin biosynthetic process, 		oxidoreductase activity, peroxidase activity, heme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
acr-15	F25G6.4	A homolog of an alpha type nicotinic acetylcholine receptor subunit involved in the mediation of fast synaptic transmission at neuromuscular junctions. [Source: WormBase]	transport, ion transport, synaptic transmission, 	membrane, integral to membrane, postsynaptic membrane, synapse, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
acr-16	F25G6.3	acr-16 encodes an alpha-7-like homomer-forming subunit of the nicotinic acetylcholine receptor (nAChR) superfamily orthologous to human nicotinic cholinergic receptor alpha 7 (CHRNA7. OMIM:118511. possibly associated with schizophrenia and juvenile myoclonic epilepsy). ACR-16 functions as a ligand-gated ion channel that probably regulates fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-16 is active as a homomeric receptor and responds robustly to acetylcholine when expressed in Xenopus oocytes. [Source: WormBase]	transport, ion transport, locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F25G6.8	F25G6.8	Signal recognition particle 14 kDa protein homolog (SRP14). [Source:Uniprot/SWISSPROT;Acc:O16927]	SRP-dependent cotranslational protein targeting to membrane, negative regulation of translational elongation, 	signal recognition particle, 	RNA binding, protein binding, 7S RNA binding, 
F25G6.9	F25G6.9	F25G6.9 [Source:RefSeq_peptide;Acc:NP_505209]	embryonic development ending in birth or egg hatching, 		
F25G6.2	F25G6.2	F25G6.2 [Source:RefSeq_peptide;Acc:NP_505210]	embryonic development ending in birth or egg hatching, 		
F25G6.1	F25G6.1	F25G6.1 [Source:RefSeq_peptide;Acc:NP_505211]			
C10B5.1	C10B5.1	C10B5.1 [Source:RefSeq_peptide;Acc:NP_505213]	metabolic process, 		oxidoreductase activity, 
C10B5.3	C10B5.3	C10B5.3 [Source:RefSeq_peptide;Acc:NP_505214]			
tag-196	F41E6.6	Temporarily Assigned Gene name family member (tag-196) [Source:RefSeq_peptide;Acc:NP_505215]	proteolysis, 		cysteine-type peptidase activity, protein binding, cysteine-type endopeptidase activity, cysteine protease inhibitor activity, 
F41E6.7	F41E6.7	F41E6.7 [Source:RefSeq_peptide;Acc:NP_505216]			
F41E6.8	F41E6.8	F41E6.8 [Source:RefSeq_peptide;Acc:NP_505217]			
F41E6.15	F41E6.15	F41E6.15 [Source:RefSeq_peptide;Acc:NP_001033485]			
F41E6.5	F41E6.5	F41E6.5 [Source:RefSeq_peptide;Acc:NP_505218]	electron transport, 		oxidoreductase activity, catalytic activity, 
F41E6.9	F41E6.9	F41E6.9 [Source:RefSeq_peptide;Acc:NP_505219]	protein transport, 		
smk-1	F41E6.4	smk-1 encodes a novel, evolutionarily conserved protein that is orthologous to the mammalian and Dictyostelium discoideum SMEK (suppressor of MEK null) proteins. smk-1 activity is essential for several aspects of DAF-16-mediated longevity namely, the defense response to pathogenic bacteria and increased resistance to oxidative and UV-induced damage. in regulating DAF-16 activity, SMK-1 appears to act by affecting the transcription of DAF-16 target genes, such as sod-3, ctl-1, and lys-8. SMK-1 is present in the nucleus of intestinal cells, many head and tail neurons, and some hypodermal cells throughout development. [Source: WormBase]	embryonic development ending in birth or egg hatching, defense response to bacterium, 		nucleic acid binding, pancreatic ribonuclease activity, 
fip-4	F41E6.10	F41E6.10 [Source:RefSeq_peptide;Acc:NP_505221]			
grd-5	F41E6.2	grd-5 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. GRD-5 is expressed in adult anterior and posterior seam cells, overlapping GRD-3 expression. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-5 is weakly required for normal molting. GRD-5 is also required for normal adult alae formation, growth to full size, and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F41E6.11	F41E6.11	F41E6.11 [Source:RefSeq_peptide;Acc:NP_505224]			nutrient reservoir activity, 
F41E6.1	F41E6.1	F41E6.1 [Source:RefSeq_peptide;Acc:NP_505225]			
F41E6.12	F41E6.12	F41E6.12 [Source:RefSeq_peptide;Acc:NP_505226]			
atgr-18	F41E6.13	atgr-18 encodes a WD40 repeat-containing protein that is orthologous to Saccharomyces cerevisiae Atg18p, which is required for autophagy. in C. elegans, atgr-18 activity is essential for normal dauer morphogenesis and autophagy in daf-2 mutant animals. [Source: WormBase]	positive regulation of growth rate, dauer larval development, 		
F41E6.14	F41E6.14	F41E6.14 [Source:RefSeq_peptide;Acc:NP_505228]			transferase activity, transferring groups other than amino-acyl groups, 
grl-12	F28A12.2	grl-12 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
F28A12.1	F28A12.1	F28A12.1 [Source:RefSeq_peptide;Acc:NP_505230]	sodium ion transport, 	membrane, 	sodium channel activity, 
F28A12.3	F28A12.3	F28A12.3 [Source:RefSeq_peptide;Acc:NP_505231]			
F28A12.4	F28A12.4	F28A12.4 [Source:RefSeq_peptide;Acc:NP_505232]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
ZC190.4	ZC190.4	ZC190.4 [Source:RefSeq_peptide;Acc:NP_505233]			
ZC190.5	ZC190.5	ZC190.5 [Source:RefSeq_peptide;Acc:NP_505234]			
ZC190.6	ZC190.6	ZC190.6 [Source:RefSeq_peptide;Acc:NP_505235]			
ZC190.2	ZC190.2	ZC190.2 [Source:RefSeq_peptide;Acc:NP_505236]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, mating-type factor pheromone receptor activity, 
cln-3.3	ZC190.1	cln-3.3 encodes a predicted transmembrane protein that comprises one of three C. elegans homologs of human CLN3, (OMIM:607042, mutations are associated with Batten disease (also known as juvenile neuronal ceroid lipofuscinosis), a recessively inherited childhood neurodegenerative lysosomal storage disease). as loss of cln-3.3 via large-scale RNAi screens results in no obvious abnormalities, the precise role of cln-3.3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	determination of adult life span, 	membrane, 	catalytic activity, 
ZC190.7	ZC190.7	ZC190.7 [Source:RefSeq_peptide;Acc:NP_505238]			
ZC190.8	ZC190.8	ZC190.8 [Source:RefSeq_peptide;Acc:NP_505239]			
ZC190.9	ZC190.9	ZC190.9 [Source:RefSeq_peptide;Acc:NP_505240]			
ZC190.10	ZC190.10	ZC190.10 [Source:RefSeq_peptide;Acc:NP_505241]			
ZC178.1	ZC178.1	ZC178.1 [Source:RefSeq_peptide;Acc:NP_505242]			
ZC178.2	ZC178.2	ZC178.2 [Source:RefSeq_peptide;Acc:NP_505243]			
glr-5	ZC196.7	glr-5 encodes a kainate (non-NMDA)-type ionotropic glutamate receptor subunit. GLR-5 activity is required for normal brood sizes, especially at high temperatures. GLR-5 is expressed in neurons. [Source: WormBase]	ion transport, 	membrane, 	ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
ZC196.8	ZC196.8	ZC196.8 [Source:RefSeq_peptide;Acc:NP_505245]	embryonic development ending in birth or egg hatching, 		
ZC196.9	ZC196.9	ZC196.9 [Source:RefSeq_peptide;Acc:NP_505246]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZC196.6	ZC196.6	ZC196.6 [Source:RefSeq_peptide;Acc:NP_505247]			
ZC196.5	ZC196.5	ZC196.5 [Source:RefSeq_peptide;Acc:NP_505248]			
ZC196.4	ZC196.4	ZC196.4 [Source:RefSeq_peptide;Acc:NP_505249]	DNA topological change, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
ZC196.3	ZC196.3	ZC196.3 [Source:RefSeq_peptide;Acc:NP_505250]			
ZC196.2	ZC196.2	ZC196.2 [Source:RefSeq_peptide;Acc:NP_505251]			structural molecule activity, 
ZC196.1	ZC196.1	ZC196.1 [Source:RefSeq_peptide;Acc:NP_505252]			
B0507.6	B0507.6	B0507.6 [Source:RefSeq_peptide;Acc:NP_505253]			
B0507.5	B0507.5	B0507.5 [Source:RefSeq_peptide;Acc:NP_505254]			
B0507.4	B0507.4	B0507.4 [Source:RefSeq_peptide;Acc:NP_505255]		endoplasmic reticulum, 	
B0507.7	B0507.7	B0507.7 [Source:RefSeq_peptide;Acc:NP_505256]			
B0507.10	B0507.10	B0507.10 [Source:RefSeq_peptide;Acc:NP_505257]			
B0507.8	B0507.8	B0507.8 [Source:RefSeq_peptide;Acc:NP_505258]			
B0507.9	B0507.9	B0507.9 [Source:RefSeq_peptide;Acc:NP_505259]	vesicle-mediated transport, 	membrane, 	protein binding, 
B0507.3	B0507.3	B0507.3a [Source:RefSeq_peptide;Acc:NP_001041076]			
srx-115	B0507.11	Serpentine Receptor, class X family member (srx-115) [Source:RefSeq_peptide;Acc:NP_001021353]			
B0507.2	B0507.2	B0507.2 [Source:RefSeq_peptide;Acc:NP_505261]			
B0507.1	B0507.1	B0507.1 [Source:RefSeq_peptide;Acc:NP_505262]			protein binding, 
C01B7.3	C01B7.3	C01B7.3 [Source:RefSeq_peptide;Acc:NP_505263]			
C01B7.1	C01B7.1	C01B7.1a [Source:RefSeq_peptide;Acc:NP_741578]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
tag-117	C01B7.4	Temporarily Assigned Gene name family member (tag-117) [Source:RefSeq_peptide;Acc:NP_505265]	embryonic development ending in birth or egg hatching, 		protein binding, 
C01B7.5	C01B7.5	C01B7.5 [Source:RefSeq_peptide;Acc:NP_505266]			protein binding, 
rpm-1	C01B7.6	E3 ubiquitin-protein ligase rpm-1 (EC 6.3.2.-) (Pam/highwire/rpm-1 protein) (Regulator of presynaptic morphology protein 1) (Synapse defective protein 3). [Source:Uniprot/SWISSPROT;Acc:Q17551]	regulation of synapse organization and biogenesis, 	intracellular, 	protein binding, zinc ion binding, hydrolase activity, 
C01B7.7	C01B7.7	F07B7.13 [Source:RefSeq_peptide;Acc:NP_505282]			
W09B7.3	W09B7.3	W09B7.3 [Source:RefSeq_peptide;Acc:NP_505269]			
W09B7.2	W09B7.2	F07B7.2 [Source:RefSeq_peptide;Acc:NP_505284]			protein binding, 
W09B7.1	W09B7.1	F07B7.1 [Source:RefSeq_peptide;Acc:NP_505285]			zinc ion binding, nucleic acid binding, 
F07B7.7	F07B7.7	ZC411.1 [Source:RefSeq_peptide;Acc:NP_505287]			
F07B7.8	F07B7.8	F07B7.8 [Source:RefSeq_peptide;Acc:NP_505274]			
his-50	F07B7.9	his-50 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-49	F07B7.5	his-49 encodes an H3 histone. by homology, HIS-49 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-49 is a replication-dependent histone locus that resides in a histone gene-rich region on chromosome V. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-51	F07B7.10	his-51 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-52	F07B7.4	his-52 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-54	F07B7.11	his-54 encodes an H2B histone. by homology, HIS-54 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-53	F07B7.3	his-53 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
F07B7.12	F07B7.12	F07B7.12 [Source:RefSeq_peptide;Acc:NP_505281]			hydrolase activity, 
F07B7.13	F07B7.13	F07B7.13 [Source:RefSeq_peptide;Acc:NP_505282]			
F07B7.14	F07B7.14	F07B7.14 [Source:RefSeq_peptide;Acc:NP_505283]			
F07B7.2	F07B7.2	F07B7.2 [Source:RefSeq_peptide;Acc:NP_505284]			protein binding, 
F07B7.1	F07B7.1	F07B7.1 [Source:RefSeq_peptide;Acc:NP_505285]			zinc ion binding, nucleic acid binding, 
EGAP798.1	EGAP798.1	EGAP798.1 [Source:RefSeq_peptide;Acc:NP_505286]			
ZC411.1	ZC411.1	ZC411.1 [Source:RefSeq_peptide;Acc:NP_505287]			
K06C4.15	K06C4.15	K06C4.15 [Source:RefSeq_peptide;Acc:NP_505288]	proteolysis, embryonic development ending in birth or egg hatching, 		aspartic-type endopeptidase activity, 
K06C4.1	K06C4.1	K06C4.1 [Source:RefSeq_peptide;Acc:NP_505290]			
his-28	K06C4.2	his-28 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-27	K06C4.13	his-27 encodes an H3 histone. by homology, HIS-27 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-27 is a replication-dependent histone locus that resides in the HIS4 cluster on chromosome V. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-21	K06C4.3	his-21 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-22	K06C4.12	his-22 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-20	K06C4.4	his-20 encodes an H2B histone. by homology, HIS-20 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-19	K06C4.11	his-19 encodes an H2A histone. his-19 is contained within the histone gene cluster HIS4. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-17	K06C4.5	his-17 encodes an H3 histone. his-17 is contained within the histone gene cluster HIS4. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
his-18	K06C4.10	his-18 encodes an H4 histone. by homology, HIS-18 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-18 is a replication-dependent histone locus that resides in the HIS4 cluster on chromosome V. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
K06C4.17	K06C4.17	K06C4.17 [Source:RefSeq_peptide;Acc:NP_505299]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K06C4.9	K06C4.9	K06C4.9 [Source:RefSeq_peptide;Acc:NP_505300]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K06C4.8	K06C4.8	K06C4.8 [Source:RefSeq_peptide;Acc:NP_505301]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, 
mod-1	K06C4.6	mod-1 encodes a serotonin-gated chloride channel. MOD-1 activity is required for locomotory behavior, specifically for the experience-dependent behavior of an enhanced slowing response exhibited by food-deprived animals upon encountering a bacterial food source. when expressed in voltage-clamped Xenopus oocytes, MOD-1 is able to form a serotonin-gated ion channel, and when expressed in human tissue culture cells, MOD-1 exhibits behavior consistent with chloride selectivity. a rescuing MOD-1::GFP construct is expressed in the cell bodies and axons (the latter presumably due to overexpression) of neurons in the head, tail, and ventral nerve cord. [Source: WormBase]	transport, ion transport, serotonin receptor signaling pathway, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
K06C4.7	K06C4.7	K06C4.7 [Source:RefSeq_peptide;Acc:NP_505303]			
H14N18.3	H14N18.3	H14N18.3 [Source:RefSeq_peptide;Acc:NP_505304]	transport, 	extracellular region, 	transporter activity, 
H14N18.4	H14N18.4	H14N18.4a [Source:RefSeq_peptide;Acc:NP_741581]			gamma-glutamyltransferase activity, 
H14N18.2	H14N18.2	H14N18.2 [Source:RefSeq_peptide;Acc:NP_505306]			
unc-23	H14N18.1	UNCoordinated family member (unc-23) [Source:RefSeq_peptide;Acc:NP_505307]	apoptosis, locomotory behavior, 		protein binding, 
T19A5.3	T19A5.3	T19A5.3a [Source:RefSeq_peptide;Acc:NP_001024142]	biological_process, protein homooligomerization, 	membrane, 	
gck-1	T19A5.2	gck-1 encodes a member of the germinal center kinase III (GCK-III) family of Ste20PAK kinases that affects fertility due to improper meiotic prophase progression and interacts with AIR-2 in yeast two-hybrid assays. associated with P-granules in embryos and dissected gonads, and localizes to the mitotic cleavage furrow in embryonic somatic cells. [Source: WormBase]	protein amino acid phosphorylation, reproduction, meiotic prophase I, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
T19A5.1	T19A5.1	T19A5.1 [Source:RefSeq_peptide;Acc:NP_505312]	positive regulation of growth rate, 		binding, 
nhr-44	T19A5.4	Nuclear hormone receptor family member nhr-44. [Source:Uniprot/SWISSPROT;Acc:Q22555]	regulation of transcription, DNA-dependent, immune response, antigen processing and presentation, 	membrane, nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-219	T19A5.5	Nuclear Hormone Receptor family member (nhr-219) [Source:RefSeq_peptide;Acc:NP_505314]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-194	F59E11.8	Nuclear Hormone Receptor family member (nhr-194) [Source:RefSeq_peptide;Acc:NP_505315]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
nhr-195	F59E11.10	Nuclear Hormone Receptor family member (nhr-195) [Source:RefSeq_peptide;Acc:NP_505316]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-143	F59E11.11	Nuclear Hormone Receptor family member (nhr-143) [Source:RefSeq_peptide;Acc:NP_505317]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-144	F59E11.12	Nuclear Hormone Receptor family member (nhr-144) [Source:RefSeq_peptide;Acc:NP_001024004]			
str-84	F59E11.13	Seven TM Receptor family member (str-84) [Source:RefSeq_peptide;Acc:NP_505319]			
str-86	F59E11.14	Seven TM Receptor family member (str-86) [Source:RefSeq_peptide;Acc:NP_505320]			
str-85	F59E11.15	Seven TM Receptor family member (str-85) [Source:RefSeq_peptide;Acc:NP_505321]			
str-87	F59E11.16	Seven TM Receptor family member (str-87) [Source:RefSeq_peptide;Acc:NP_505322]			
F59E11.7	F59E11.7	F59E11.7a [Source:RefSeq_peptide;Acc:NP_505323]			
F59E11.6	F59E11.6	F59E11.6 [Source:RefSeq_peptide;Acc:NP_505324]			
F59E11.5	F59E11.5	F59E11.5 [Source:RefSeq_peptide;Acc:NP_505325]			
sri-23	F59E11.3				
F59E11.2	F59E11.2	F59E11.2 [Source:RefSeq_peptide;Acc:NP_505327]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
srx-1	F59E11.1	Serpentine Receptor, class X family member (srx-1) [Source:RefSeq_peptide;Acc:NP_505328]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, mating-type factor pheromone receptor activity, 
srx-3	R03H4.3	Serpentine Receptor, class X family member (srx-3) [Source:RefSeq_peptide;Acc:NP_505329]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-2	R03H4.2	Serpentine Receptor, class X family member (srx-2) [Source:RefSeq_peptide;Acc:NP_505330]			
R03H4.8	R03H4.8				
srh-201	R03H4.9	Serpentine Receptor, class H family member (srh-201) [Source:RefSeq_peptide;Acc:NP_505331]			
srt-18	R03H4.4	Serpentine Receptor, class T family member (srt-18) [Source:RefSeq_peptide;Acc:NP_505332]			
R03H4.1	R03H4.1	R03H4.1 [Source:RefSeq_peptide;Acc:NP_505333]			transferase activity, transferring groups other than amino-acyl groups, 
R03H4.5	R03H4.5	R03H4.5 [Source:RefSeq_peptide;Acc:NP_505334]			transferase activity, transferring groups other than amino-acyl groups, 
R03H4.6	R03H4.6	R03H4.6 [Source:RefSeq_peptide;Acc:NP_505335]			transferase activity, transferring groups other than amino-acyl groups, 
srsx-20	R03H4.7				
C25E10.5	C25E10.5	C25E10.5 [Source:RefSeq_peptide;Acc:NP_505338]			
C25E10.4	C25E10.4	C25E10.4 [Source:RefSeq_peptide;Acc:NP_505339]		integral to membrane, 	arsenite transmembrane transporter activity, 
srsx-34	C25E10.3	Serpentine Receptor, class SX family member (srsx-34) [Source:RefSeq_peptide;Acc:NP_505340]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
cyp-33B1	C25E10.2	CYtochrome P450 family member (cyp-33B1) [Source:RefSeq_peptide;Acc:NP_505342]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
nhr-30	C25E10.1	Nuclear Hormone Receptor family member (nhr-30) [Source:RefSeq_peptide;Acc:NP_505343]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C25E10.7	C25E10.7	C25E10.7 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. C25E10.7 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. C25E10.7 has no obvious function in mass RNAi assays. [Source: WormBase]			
C25E10.8	C25E10.8	C25E10.8 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. C25E10.8 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. despite both swm-1 and C25E10.8 being mutated by the swm-1(ok1193) deletion, transgenic rescue of swm-1(ok1193) by SWM-1 alone leaves males with no obvious residual phenotype, indicating that C25E10.8 has no conspicuous function in vivo. [Source: WormBase]			protein binding, 
swm-1	C25E10.9	swm-1 encodes a putative secreted TIL-domain protease inhibitor that, in males, inhibits unpolarized round spermatids from remodelling themselves into motile spermatozoa until their transfer to a hermaphrodite. SWM-1 is also required for efficient sperm transfer, and thus for male fertility. SWM-1 is biologically active from spermatogenesis in L4 larvae onward into adulthood, and functions non-autonomously, probably being expressed in germline. SWM-1-inhibited spermatid activation requires SPE-8, SPE-12, and SPE-27. SWM-1 is active in hermaphrodites but is not strongly required for fertility. SWM-1 is paralogous to C25E10.8, ISL-1, and the products of 11 other C. elegans genes. SWM-1 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates, including the Drosophila melanogaster seminal fluid protein Acp62F. SWM-1 contains two tandem TIL domains, missense mutations of which partially complement one another in vivo, and which therefore may inhibit two different proteases. mutant swm-1 males can trans-activate hermaphrodite spermatids by mating, but prematurely remodel their own spermatids, which then generally fail to be transferred to hermaphrodites. sporadically or artificially transferred swm-1 mutant sperm do, however, fertilize hermaphrodite eggs normally. [Source: WormBase]			
C25E10.10	C25E10.10	C25E10.10 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. C25E10.10 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. C25E10.10 has no obvious function in mass RNAi assays. [Source: WormBase]			
C25E10.11	C25E10.11	C25E10.11 [Source:RefSeq_peptide;Acc:NP_505348]	embryonic development ending in birth or egg hatching, 		
C25E10.13	C25E10.13	C25E10.13 [Source:RefSeq_peptide;Acc:NP_001023677]			
C25E10.12	C25E10.12	UPF0046 protein C25E10.12. [Source:Uniprot/SWISSPROT;Acc:Q18161]			hydrolase activity, 
fip-2	T27E4.4	T27E4.4 [Source:RefSeq_peptide;Acc:NP_505350]			
T27E4.5	T27E4.5	T27E4.5 [Source:RefSeq_peptide;Acc:NP_505351]			protease inhibitor activity, 
T27E4.6	T27E4.6	T27E4.6 [Source:RefSeq_peptide;Acc:NP_505352]			
T27E4.7	T27E4.7	T27E4.7 [Source:RefSeq_peptide;Acc:NP_505353]			
hsp-16.1	T27E4.8	hsp-16.1 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins, and that is identical to the protein encoded by hsp-16.11. an hsp-16.1 reporter fusion, expressed broadly but most strongly in muscle and hypodermis, is induced solely in response to heat shock or other environmental stresses. expression is detectable in somatic tissues in post-gastrulation embryos, all larval stages, and in adults. HSP-16.1 is likely to function as a passive ligand temporarily preventing unfolded proteins from aggregating. [Source: WormBase]	determination of adult life span, unfolded protein response, 		structural constituent of eye lens, 
hsp-16.48	T27E4.3	hsp-16.48 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins. an hsp-16.48 reporter fusion, expressed broadly but most strongly in body muscle and hypodermis, is induced solely in response to heat shock or other environmental stresses. expression is detectable in somatic tissues in post-gastrulation embryos, all larval stages, and in adults. HSP-16.48 is likely to function as a passive ligand temporarily preventing unfolded proteins from aggregating. [Source: WormBase]			structural constituent of eye lens, 
hsp-16.49	T27E4.9	hsp-16.49 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins, and that is identical to the protein encoded by hsp-16.48. HSP-16.49 is likely to function as a passive ligand temporarily preventing unfolded proteins from aggregating. [Source: WormBase]	determination of adult life span, unfolded protein response, 		structural constituent of eye lens, 
hsp-16.11	T27E4.2	hsp-16.11 encodes a 16-kD heat shock protein (HSP) that is a member of the hsp16/hsp20/alphaB-crystallin (HSP16) family of heat shock proteins, and that is identical to the protein encoded by hsp-16.1. hsp-16.11 expression is induced in response to heat shock or other environmental stresses. HSP-16.11 is likely to function as passive ligand temporarily preventing unfolded proteins from aggregating. HSP-16.11 has been shown to interact with intracellular human beta amyloid peptide, a primary component of the extracellular plaques found in Alzheimer's disease. [Source: WormBase]	determination of adult life span, unfolded protein response, 		structural constituent of eye lens, 
NR_003482.1	T27E4.10	T27E4.10, snRNA [Source:RefSeq_dna;Acc:NR_003482]			
T27E4.1	T27E4.1	T27E4.1 [Source:RefSeq_peptide;Acc:NP_505358]			
F21C10.10	F21C10.10	F21C10.10 [Source:RefSeq_peptide;Acc:NP_505359]			
F21C10.9	F21C10.9	F21C10.9 [Source:RefSeq_peptide;Acc:NP_505360]	metabolic process, 		N-acetyltransferase activity, 
F21C10.12	F21C10.12	F21C10.12 [Source:RefSeq_peptide;Acc:NP_872220]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
pqn-31	F21C10.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
F21C10.7	F21C10.7	F21C10.7 [Source:RefSeq_peptide;Acc:NP_505362]	translation, 	proteinaceous extracellular matrix, intracellular, ribosome, 	structural constituent of ribosome, 
F21C10.11	F21C10.11	F21C10.11a [Source:RefSeq_peptide;Acc:NP_001041103]			
F21C10.6	F21C10.6	F21C10.6 [Source:RefSeq_peptide;Acc:NP_505364]			
F21C10.5	F21C10.5	F21C10.5 [Source:RefSeq_peptide;Acc:NP_505365]			
F21C10.4	F21C10.4	F21C10.4 [Source:RefSeq_peptide;Acc:NP_505366]			
F21C10.3	F21C10.3	F21C10.3a [Source:RefSeq_peptide;Acc:NP_741583]			
F21C10.1	F21C10.1	F21C10.1 [Source:RefSeq_peptide;Acc:NP_505368]			
B0222.1	B0222.1	B0222.1 [Source:RefSeq_peptide;Acc:NP_505369]		membrane, 	
B0222.2	B0222.2	B0222.2 [Source:RefSeq_peptide;Acc:NP_505370]	phosphate transport, 	membrane, 	inorganic phosphate transmembrane transporter activity, 
B0222.3	B0222.3	B0222.3 [Source:RefSeq_peptide;Acc:NP_505371]	phosphate transport, dicarboxylic acid transport, 	membrane, 	inorganic phosphate transmembrane transporter activity, sodium:dicarboxylate symporter activity, 
tag-38	B0222.4	Temporarily Assigned Gene name family member (tag-38) [Source:RefSeq_peptide;Acc:NP_505372]	proteolysis, metabolic process, carboxylic acid metabolic process, 		zinc ion binding, metallopeptidase activity, carboxy-lyase activity, pyridoxal phosphate binding, transaminase activity, 
B0222.5	B0222.5	B0222.5 [Source:RefSeq_peptide;Acc:NP_505373]			serine-type endopeptidase inhibitor activity, 
B0222.10	B0222.10	B0222.10 [Source:RefSeq_peptide;Acc:NP_741585]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
col-144	B0222.6	COLlagen family member (col-144) [Source:RefSeq_peptide;Acc:NP_505374]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-145	B0222.7	COLlagen family member (col-145) [Source:RefSeq_peptide;Acc:NP_505375]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-10	B0222.8	col-10 encodes a collagen protein. expressed exclusively in hypodermal cells [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
B0222.11	B0222.11	B0222.11 encodes a novel protein with a predicted signal sequence that is highly conserved amongst other Caenorhabditis species. [Source: WormBase]			
B0222.9	B0222.9	B0222.9 [Source:RefSeq_peptide;Acc:NP_505377]	protein amino acid phosphorylation, electron transport, 		protein kinase activity, ATP binding, metal ion binding, oxidoreductase activity, electron carrier activity, iron-sulfur cluster binding, 
pqn-16	C24B5.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	defense response, pathogenesis, 	extracellular region, 	
spas-1	C24B5.2	spas-1 encodes, by alternative splicing, two isoforms of an ortholog of human SPAST (OMIM:604277, mutated in spastic paraplegia) that, like its ortholog, has a AAA domain and severs microtubles. SPAS-1 is required for normally rapid growth, fully normal fertility and oogenesis, and inhibition of vulval development. SPAS-1 is expressed throughout the body (e.g., in intestine, gonad, and vulva), with its subcellular localization matching perinuclear cytoskeleton. spas-1 deletion mutants show intense microtubule staining around centrosomes. overexpression of SPAS-1 in cell culture induces the microtubule network to disintegrate, and this effect is blocked by SPAS-1 mutations orthologous to human disease-causing alleles. SPAS-1's isoforms are generated by developmentally regulated alternative splicing, with the larger form being primarily embryonic and the smaller form constitutive. [Source: WormBase]			ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
ptr-1	C24B5.3	ptr-1 encodes an ortholog of Drosophila and human PTCHD3, which defines one of seven paralogous families of sterol sensing domain (SSD) proteins. individually, PTR-1 is weakly required for normal molting from L4 to adult stages. however, PTR-1, in conjunction with either PTR-16 alone or with PTR-6 and PTR-10, is strongly required for both molting and viability, with double ptr-1/-16 or triple ptr-1/-6/-10 RNAi animals showing pronounced molting defects and lethality. PTR-1 is also required for normal adult alae formation, growth to full size, locomotion, and male tail development. [Source: WormBase]		membrane, integral to membrane, 	phosphopantetheine binding, hedgehog receptor activity, 
C24B5.1	C24B5.1	C24B5.1 [Source:RefSeq_peptide;Acc:NP_505381]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C24B5.4	C24B5.4	C24B5.4 [Source:RefSeq_peptide;Acc:NP_505382]			
str-177	T18H9.4	Seven TM Receptor family member (str-177) [Source:RefSeq_peptide;Acc:NP_505383]			
asp-2	T18H9.2	asp-2 encodes aspartic protease. [Source: WormBase]	proteolysis, response to antibiotic, tetracycline transport, cell death, 	integral to membrane, 	protein binding, pepsin A activity, aspartic-type endopeptidase activity, tetracycline:hydrogen antiporter activity, 
inx-10	T18H9.5	inx-10 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. as loss of INX-10 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of INX-10 in C. elegans development and/or behavior is not yet known. INX-10 is broadly expressed and detected in the developing embryonic pharynx and in larvae and adults in the pharyngeal corpus and terminal bulb, the sheath, several ventral cord neurons, rectal epithelial cells, the developing spermathecum, and in a few vulval cells. [Source: WormBase]		gap junction, 	
mdt-27	T18H9.6	MeDiaTor family member (mdt-27) [Source:RefSeq_peptide;Acc:NP_505386]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	leukotriene receptor activity, 
tag-232	T18H9.7	Temporarily Assigned Gene name family member (tag-232) [Source:RefSeq_peptide;Acc:NP_505387]			
grd-6	T18H9.1	grd-6 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity proline-rich domain, and a C-terminal Ground domain. GRD-6 is expressed in hypodermis and in various neurons, in both head and tail, and the PVT interneuron. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-6 has no obvious function in RNAi assays. [Source: WormBase]			
F07C3.2	F07C3.2	F07C3.2 [Source:RefSeq_peptide;Acc:NP_505390]			
F07C3.3	F07C3.3	F07C3.3 [Source:RefSeq_peptide;Acc:NP_505391]			
glo-4	F07C3.4	glo-4 encodes a guanine nucleotide exchange factor (GEF) that is similar to Drosophila Claret and human RP3. throughout development, glo-4 activity is required for biogenesis of the lysosome-related gut granules. based upon phenotypic similarity, glo-4 is likely to encode a GEF for the GLO-1 Rab-like GTPase. in regulating gut granule formation, glo-4 acts downstream of apb-3, which encodes the AP-3 complex beta subunit. [Source: WormBase]	proteolysis, 		endopeptidase Clp activity, 
aat-2	F07C3.7	aat-2 encodes a predicted amino acid transporter catalytic subunit. when co-expressed in Xenopus oocytes with a glycoprotein subunit, however, AAT-2 is not able to induce amino acid uptake. [Source: WormBase]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
str-94	F07C3.8	Seven TM Receptor family member (str-94) [Source:RefSeq_peptide;Acc:NP_505395]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ptd-2	F07C3.1	disPaTchED family member (ptd-2) [Source:RefSeq_peptide;Acc:NP_505396]	cation transport, reproduction, 	membrane, integral to membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
F07C3.9	F07C3.9	F07C3.9 [Source:RefSeq_peptide;Acc:NP_505397]			
nhr-36	F07C3.10	Nuclear Hormone Receptor family member (nhr-36) [Source:RefSeq_peptide;Acc:NP_505398]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK682.2	ZK682.2	ZK682.2 [Source:RefSeq_peptide;Acc:NP_505399]	transport, 	membrane, integral to membrane, 	transporter activity, 
ZK682.1	ZK682.1				
hlh-10	ZK682.4	ZK682.4 [Source:RefSeq_peptide;Acc:NP_505401]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
ZK682.5	ZK682.5	ZK682.5 [Source:RefSeq_peptide;Acc:NP_505402]	growth, 		protein binding, nutrient reservoir activity, 
ZK682.7	ZK682.7	ZK682.7 [Source:RefSeq_peptide;Acc:NP_505403]			
F44A2.5	F44A2.5	F44A2.5b [Source:RefSeq_peptide;Acc:NP_741589]	RNA metabolic process, 		protein binding, 
nhr-39	F44A2.4	Nuclear Hormone Receptor family member (nhr-39) [Source:RefSeq_peptide;Acc:NP_505405]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
F44A2.3	F44A2.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q20380]	embryonic development ending in birth or egg hatching, 		lipid binding, 
F44A2.t1	F44A2.t1				
F44A2.2	F44A2.2	F44A2.2 [Source:RefSeq_peptide;Acc:NP_505407]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
F44A2.7	F44A2.7	F44A2.7 [Source:RefSeq_peptide;Acc:NP_505408]			protein binding, 
tag-153	F44A2.1	Temporarily Assigned Gene name family member (tag-153) [Source:RefSeq_peptide;Acc:NP_505409]	regulation of transcription, 	nucleus, 	protein binding, transcription regulator activity, 
acl-14	K07B1.5	ACyLtransferase-like family member (acl-14) [Source:RefSeq_peptide;Acc:NP_505412]	metabolic process, embryonic development ending in birth or egg hatching, 		acyltransferase activity, 
K07B1.4	K07B1.4	K07B1.4a [Source:RefSeq_peptide;Acc:NP_505413]			
ucp-4	K07B1.3	UnCoupling Protein (mitochondrial substrate carrier) family member (ucp-4) [Source:RefSeq_peptide;Acc:NP_505414]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
coq-6	K07B1.2	coq-6 encodes a putative flavin-dependent aromatic-ring monooxygenase, homologous to yeast COQ6. COQ-6 is required for ubiquinone (coenzyme Q9) biosynthesis and for normally short lifespan. coq-6(RNAi) animals have reduced levels of coenzyme Q9 and superoxide, and have abnormally long lifespans. [Source: WormBase]	metabolic process, electron transport, ubiquinone biosynthetic process, aromatic compound metabolic process, determination of adult life span, 		oxidoreductase activity, monooxygenase activity, FAD binding, 
K07B1.8	K07B1.8	K07B1.8 [Source:RefSeq_peptide;Acc:NP_505416]			
K07B1.6	K07B1.6	K07B1.6a [Source:RefSeq_peptide;Acc:NP_505417]	growth, 		
K07B1.7	K07B1.7	K07B1.7b [Source:RefSeq_peptide;Acc:NP_505420]	biological_process, 	intracellular, 	nucleic acid binding, 
try-5	K07B1.1	TRYpsin-like Protease family member (try-5) [Source:RefSeq_peptide;Acc:NP_505421]	proteolysis, 		serine-type endopeptidase activity, 
srx-47	E02C12.3	Serpentine Receptor, class X family member (srx-47) [Source:RefSeq_peptide;Acc:NP_505422]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-46	E02C12.2	Serpentine Receptor, class X family member (srx-46) [Source:RefSeq_peptide;Acc:NP_505423]			
E02C12.4	E02C12.4	E02C12.4 [Source:RefSeq_peptide;Acc:NP_505424]			
E02C12.13	E02C12.13	E02C12.13 [Source:RefSeq_peptide;Acc:NP_001023761]			
gpa-3	E02C12.5	gpa-3 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that affects dauer formation, water-soluble chemoattraction and chemoaversion, and volatile chemoattraction. it is expressed in amphid and phasmid neurons and some interneurons. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, potassium ion transport, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, cation transmembrane transporter activity, guanyl nucleotide binding, 
E02C12.6	E02C12.6	E02C12.6 [Source:RefSeq_peptide;Acc:NP_505426]			
E02C12.8	E02C12.8	E02C12.8a [Source:RefSeq_peptide;Acc:NP_505427]			
E02C12.9	E02C12.9	E02C12.9 [Source:RefSeq_peptide;Acc:NP_505429]			
E02C12.10	E02C12.10	E02C12.10 [Source:RefSeq_peptide;Acc:NP_505430]			
E02C12.11	E02C12.11	E02C12.11 [Source:RefSeq_peptide;Acc:NP_505431]			
E02C12.12	E02C12.12	E02C12.12 [Source:RefSeq_peptide;Acc:NP_505432]			
hum-2	F36D4.3	hum-2 is orthologous to the human gene MYOSIN HEAVY CHAIN 12 (MYO5A. OMIM:160777), which when mutated leads to disease. [Source: WormBase]		myosin complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, motor activity, 
F36D4.2	F36D4.2	F36D4.2 [Source:RefSeq_peptide;Acc:NP_505435]	transport, ER to Golgi vesicle-mediated transport, 	cis-Golgi network, 	protein binding, 
F36D4.4	F36D4.4	F36D4.4 [Source:RefSeq_peptide;Acc:NP_505436]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
F36D4.t2	F36D4.t2				
F36D4.t1	F36D4.t1				
F36D4.7	F36D4.7	F36D4.7 [Source:RefSeq_peptide;Acc:NP_001033483]			
F36D4.1	F36D4.1	F36D4.1 [Source:RefSeq_peptide;Acc:NP_505437]			
F36D4.5	F36D4.5	F36D4.5b [Source:RefSeq_peptide;Acc:NP_741592]			
F36D4.6	F36D4.6	F36D4.6 [Source:RefSeq_peptide;Acc:NP_505439]			
Y54B9A.1	Y54B9A.1	Y54B9A.1 [Source:RefSeq_peptide;Acc:NP_505440]			
H24G06.1	H24G06.1	H24G06.1b [Source:RefSeq_peptide;Acc:NP_741594]	post-embryonic body morphogenesis, 		protein binding, 
F07D3.3	F07D3.3	F07D3.3 [Source:RefSeq_peptide;Acc:NP_505443]			
flp-6	F07D3.2	FMRF-Like Peptide family member (flp-6) [Source:RefSeq_peptide;Acc:NP_505444]	neuropeptide signaling pathway, positive regulation of growth rate, 	extracellular region, 	hormone activity, 
nas-3	K06A4.1	Zinc metalloproteinase nas-3 precursor (EC 3.4.24.21) (Nematode astacin 3). [Source:Uniprot/SWISSPROT;Acc:Q21252]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
K06A4.6	K06A4.6	K06A4.6 [Source:RefSeq_peptide;Acc:NP_505446]	embryonic development ending in birth or egg hatching, 		
K06A4.8	K06A4.8				
K06A4.2	K06A4.2	K06A4.2 [Source:RefSeq_peptide;Acc:NP_505447]			
K06A4.7	K06A4.7	K06A4.7 [Source:RefSeq_peptide;Acc:NP_741595]			
K06A4.3	K06A4.3	K06A4.3 [Source:RefSeq_peptide;Acc:NP_505448]			actin binding, 
K06A4.4	K06A4.4	K06A4.4 [Source:RefSeq_peptide;Acc:NP_505449]			
K06A4.t1	K06A4.t1				
K06A4.5	K06A4.5	3-hydroxyanthranilate 3,4-dioxygenase (EC 1.13.11.6) (3-HAO) (3- hydroxyanthranilic acid dioxygenase) (3-hydroxyanthranilate oxygenase). [Source:Uniprot/SWISSPROT;Acc:Q19341]	metabolic process, 		iron ion binding, 3-hydroxyanthranilate 3,4-dioxygenase activity, 
F11A3.1	F11A3.1	F11A3.1 [Source:RefSeq_peptide;Acc:NP_505451]	metabolic process, 		catalytic activity, 
F11A3.3	F11A3.3				
F11A3.2	F11A3.2	F11A3.2a [Source:RefSeq_peptide;Acc:NP_001023784]	cellular metabolic process, positive regulation of growth rate, homoiothermy, response to freezing, 		ice binding, 
C50F4.8	C50F4.8	C50F4.8 [Source:RefSeq_peptide;Acc:NP_505453]			
C50F4.15	C50F4.15				
C50F4.9	C50F4.9	C50F4.9 [Source:RefSeq_peptide;Acc:NP_505454]			
C50F4.1	C50F4.1	C50F4.1 [Source:RefSeq_peptide;Acc:NP_505455]			
C50F4.10	C50F4.10	C50F4.10 [Source:RefSeq_peptide;Acc:NP_505456]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C50F4.2	C50F4.2	C50F4.2 encodes a putative 6-phosphofructokinase, paralogous to Y71H10A.1. C50F4.2 is required for fertility, full body size, and normally rapid growth in mass RNAi assays. C50F4.2 transcripts are enriched during spermatogenesis. [Source: WormBase]	glycolysis, biological_process, 	cytoplasm, 6-phosphofructokinase complex, 	6-phosphofructokinase activity, 
tag-329	C50F4.3	Temporarily Assigned Gene name family member (tag-329) [Source:RefSeq_peptide;Acc:NP_505458]	proteolysis, 		cysteine-type peptidase activity, 
C50F4.4	C50F4.4	C50F4.4 [Source:RefSeq_peptide;Acc:NP_505459]			
C50F4.12	C50F4.12	C50F4.12 [Source:RefSeq_peptide;Acc:NP_505460]			
C50F4.16	C50F4.16	The C50F4.16 gene encodes a NUDIX hydrolase. [Source: WormBase]			hydrolase activity, 
mdf-1	C50F4.11	mdf-1 encodes a coiled-coil domain-containing protein that is orthologous to the Saccharomyces cerevisiae mitotic spindle checkpoint protein Mad1p. consistent with a role as a checkpoint protein, MDF-1 is required in C. elegans for mitotic genome stability and hence, long-term survival and fertility. in vitro, MDF-1 interacts with MDF-2, the C. elegans Mad2p ortholog. [Source: WormBase]	locomotory behavior, 		
his-35	C50F4.13	his-35 encodes an H2A histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-41	C50F4.5	his-41 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, nucleosome, 	DNA binding, 
C50F4.6	C50F4.6	his-36 encodes an UNSPECIFIED histone. [Source: WormBase]			
his-37	C50F4.7	his-37 encodes an H4 histone. [Source: WormBase]	nucleosome assembly, locomotory behavior, 	nucleus, nucleosome, 	DNA binding, 
C50F4.14	C50F4.14	The C50F4.14 gene encodes a putative GDP-fucose transporter orthologous to the human GDP-FUCOSE TRANSPORTER 1 gene (LAD II. OMIM:605881), which when mutated leads to congenital disorder of glycosylation, type IIc. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	transporter activity, protein-hormone receptor activity, 
ehbp-1	F25B3.1	F25B3.1 [Source:RefSeq_peptide;Acc:NP_505468]	morphogenesis of an epithelium, 		nucleotide binding, 
F25B3.3	F25B3.3	F25B3.3 [Source:RefSeq_peptide;Acc:NP_505469]	intracellular signaling cascade, small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	protein binding, calcium ion binding, guanyl-nucleotide exchange factor activity, 
F25B3.4	F25B3.4	F25B3.4 [Source:RefSeq_peptide;Acc:NP_505470]			hydrolase activity, 
F25B3.5	F25B3.5	F25B3.5 [Source:RefSeq_peptide;Acc:NP_505471]			
F25B3.2	F25B3.2	F25B3.2 [Source:RefSeq_peptide;Acc:NP_505472]			
F25B3.6	F25B3.6	F25B3.6 [Source:RefSeq_peptide;Acc:NP_505473]	positive regulation of growth rate, 		
K09G1.1	K09G1.1	K09G1.1b [Source:RefSeq_peptide;Acc:NP_505474]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	bradykinin receptor activity, 
K09G1.2	K09G1.2	K09G1.2 [Source:RefSeq_peptide;Acc:NP_505476]			
K09G1.3	K09G1.3	K09G1.3 [Source:RefSeq_peptide;Acc:NP_505477]			
dop-2	K09G1.4	dop-2 is orthologous to the human gene DOPAMINE RECEPTOR D2 (DRD2. OMIM:126450), which when mutated leads to myoclonus-dystonia syndrome. [Source: WormBase]	chemotaxis, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, octopamine receptor activity, platelet activating factor receptor activity, 
pqn-63	T06E4.11	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, nutrient reservoir activity, 
T06E4.10	T06E4.10	T06E4.10 encodes an uncharacterized protein that is proline- and alanine-rich and contains a predicted signal sequence. as loss of T06E4.10 results in no obvious defects, the precise role of its gene product in C. elegans development and/or behavior is not yet known. [Source: WormBase]	homoiothermy, response to freezing, type I hypersensitivity, 		ice binding, 
T06E4.9	T06E4.9	T06E4.9 [Source:RefSeq_peptide;Acc:NP_505481]			
T06E4.8	T06E4.8	T06E4.8 [Source:RefSeq_peptide;Acc:NP_505482]			
T06E4.7	T06E4.7	T06E4.7 [Source:RefSeq_peptide;Acc:NP_505483]			
T06E4.12	T06E4.12	T06E4.12 [Source:RefSeq_peptide;Acc:NP_001024108]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, structural constituent of cell wall, 
col-146	T06E4.6	T06E4.6 [Source:RefSeq_peptide;Acc:NP_505484]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
T06E4.5	T06E4.5	T06E4.5 [Source:RefSeq_peptide;Acc:NP_505485]	transport, translation, embryonic development ending in birth or egg hatching, 	membrane, intracellular, ribosome, 	transporter activity, structural constituent of ribosome, 
col-147	T06E4.4	T06E4.4 [Source:RefSeq_peptide;Acc:NP_505486]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
nspa-11	T06E4.13		embryonic development ending in birth or egg hatching, 		
atl-1	T06E4.3	The atl-1 gene encodes a large, 2514-residue protein of the ATM family, homologous to human AT (OMIM:208900, mutated in ataxia telangiectasia). the C-terminal sequence of ATL-1 contains a PI-3 kinase-like domain. ATL-1 is required for survival through early embryogenesis and normal chromosomal segregation. atl-1 is expressed in both the mitotic and meiotic cells of adult gonads. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 	condensed nuclear chromosome, 	phosphotransferase activity, alcohol group as acceptor, 1-phosphatidylinositol-3-kinase activity, 
hcp-2	T06E4.1	HoloCentric chromosome binding Protein family member (hcp-2) [Source:RefSeq_peptide;Acc:NP_505489]	vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, GTPase activator activity, growth factor activity, 
cyp-29A4	B0331.1	CYtochrome P450 family member (cyp-29A4) [Source:RefSeq_peptide;Acc:NP_505490]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
B0331.2	B0331.2	B0331.2 [Source:RefSeq_peptide;Acc:NP_505491]	phosphate transport, 	membrane, 	inorganic phosphate transmembrane transporter activity, 
ZK287.1	ZK287.1	ZK287.1 [Source:RefSeq_peptide;Acc:NP_505492]			
sulp-8	ZK287.2	sulp-8 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-8 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a SULP-8::GFP fusion is expressed in the basolateral membrane of the excretory cell, intestine, and rectal gland cells. [Source: WormBase]	transport, sulfate transport, reproduction, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, 
ZK287.3	ZK287.3	ZK287.3 [Source:RefSeq_peptide;Acc:NP_505494]			
ZK287.9	ZK287.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q7YWN0]			
ZK287.4	ZK287.4	ZK287.4 [Source:RefSeq_peptide;Acc:NP_505495]			serine-type endopeptidase inhibitor activity, 
rbx-1	ZK287.5	The rbx-1 gene encodes an ortholog of the mammalian RING box protein RBX1 (or ROC1), which interacts with several cullins and is a subunit of both the von Hippel-Lindau (VHL) tumor suppressor complex and of the SCF ubiquitin-ligase (E3) complex. [Source: WormBase]	negative regulation of multicellular organism growth, sister chromosome movement towards spindle pole during meiosis II, 		protein binding, zinc ion binding, 
ztf-9	ZK287.6	Zinc finger Transcription Factor family member (ztf-9) [Source:RefSeq_peptide;Acc:NP_505497]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
ZK287.7	ZK287.7	ZK287.7 [Source:RefSeq_peptide;Acc:NP_505498]			
her-1	ZK287.8	her-1 generates two transcripts, the larger of which encodes a small, secreted, cysteine-rich protein (HER-1A) required for normal sex determination in wild-type XO male animals, while being dispensable for sex determination in XX hermaphrodites. transcription of her-1 in XX animals is repressed by SDC-2. HER-1A protein has two all-helical domains, with fourteen conserved cysteine residues forming seven disulfide bonds, at least eight of which residues are critical for function in vivo. HER-1A has no known homologs except in other nematodes (e.g., Brugia malayi), and does not structurally resemble other well-known secreted proteins. HER-1A inhibits the receptor TRA-2A in vivo, and binds it in vitro. HER-1A functions nonautonomously and requires a signal sequence for biological activity. the her-1(n695gf) mutation alters a site in the her-1 promoter bound by SDC-2, partially transforms XX animals into phenotypic males, and requires sup-26 and sup-27 to do so. [Source: WormBase]			
xbx-6	F40F9.1	X-BoX promoter element regulated family member (xbx-6) [Source:RefSeq_peptide;Acc:NP_505500]			protein binding, 
tag-120	F40F9.2	tag-120 encodes a predicted transmembrane protein. as loss of tag-120 activity via RNAi does not result in any abnormalities, the precise role of TAG-120 in C. elegans development and/or behavior is not yet known. however, TAG-120 is homologous to a Drosophila NMDA receptor-associated protein and mammalian transmembrane proteins that function in Fas-mediated cell death, so TAG-120 may play a role in neuronal functions and/or apoptosis. a tag-120 reporter fusion is expressed in the nervous system, pharyngeal muscles, and to a lesser extent in the excretory system. [Source: WormBase]			
F40F9.10	F40F9.10	F40F9.10 [Source:RefSeq_peptide;Acc:NP_505502]	electron transport, 		oxidoreductase activity, 
F40F9.3	F40F9.3	F40F9.3 [Source:RefSeq_peptide;Acc:NP_505503]			protein binding, 
str-188	F40F9.4	Seven TM Receptor family member (str-188) [Source:RefSeq_peptide;Acc:NP_505504]			
F40F9.11	F40F9.11				
F40F9.5	F40F9.5	F40F9.5 [Source:RefSeq_peptide;Acc:NP_505506]			drug transporter activity, 
F40F9.6	F40F9.6	F40F9.6b [Source:RefSeq_peptide;Acc:NP_505508]	lipid transport, carbohydrate metabolic process, embryonic development ending in birth or egg hatching, 		hydrolase activity, hydrolyzing O-glycosyl compounds, lipid transporter activity, 
F40F9.7	F40F9.7	F40F9.7b [Source:RefSeq_peptide;Acc:NP_001023907]		intracellular, 	sequence-specific DNA binding, 
F40F9.8	F40F9.8	F40F9.8 [Source:RefSeq_peptide;Acc:NP_505510]			calcium ion binding, 
aqp-4	F40F9.9	AQuaPorin or aquaglyceroporin related family member (aqp-4) [Source:RefSeq_peptide;Acc:NP_505512]	transport, 	membrane, 	transporter activity, 
F58E6.1	F58E6.1	The F58E6.1 encodes a protein that may be involved in apoptosis. [Source: WormBase]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
F58E6.3	F58E6.3	F58E6.3 [Source:RefSeq_peptide;Acc:NP_505513]			protein binding, calcium ion binding, 
F58E6.4	F58E6.4	F58E6.4 [Source:RefSeq_peptide;Acc:NP_505514]			
F58E6.6	F58E6.6	F58E6.6 [Source:RefSeq_peptide;Acc:NP_505515]			
F58E6.5	F58E6.5	F58E6.5 [Source:RefSeq_peptide;Acc:NP_505516]			structural molecule activity, 
F58E6.8	F58E6.8	F58E6.8 [Source:RefSeq_peptide;Acc:NP_505517]			
F58E6.7	F58E6.7	F58E6.7 [Source:RefSeq_peptide;Acc:NP_505518]			
F58E6.11	F58E6.11	F58E6.11 [Source:RefSeq_peptide;Acc:NP_001023997]			
unc-42	F58E6.10	unc-42 encodes a paired-like homeodomain protein of the Q50 class. UNC-42 is required to specify the fate of ASH sensory neurons, AVA, AVD, and AVE interneurons, and a subset of motor neurons. unc-42 mutants fail to express cell-surface receptors required for differentiated neuronal function (sra-6, srb-6, glr-1, glr-5, and glr-6). UNC-42 is also required for AVKR and HSNL growth cones to follow the PVPR and PVQL pioneer axons, for axonal outgrowth in the backward command interneurons AVA, AVD, and AVE, and for inhibition of ectopic FMRFamide-positive and GABAergic axons. unc-42 mutants are defective in mechanosensation, backward motion, and regulation of egg-laying. [Source: WormBase]	regulation of transcription, DNA-dependent, multicellular organismal development, locomotory behavior, 	nucleus, 	protein binding, DNA binding, transcription factor activity, sequence-specific DNA binding, 
F46B6.2	F46B6.2	F46B6.2 [Source:RefSeq_peptide;Acc:NP_505520]			
F46B6.12	F46B6.12	F46B6.12 [Source:RefSeq_peptide;Acc:NP_505521]			
smg-4	F46B6.3	Suppressor with Morphological effect on Genitalia family member (smg-4) [Source:RefSeq_peptide;Acc:NP_741601]	hermaphrodite genitalia development, mRNA catabolic process, nonsense-mediated decay, 		molecular_function, 
F46B6.4	F46B6.4	F46B6.4 [Source:RefSeq_peptide;Acc:NP_505523]		intracellular, 	nucleotide binding, nucleoside-triphosphatase activity, GTP binding, 
F46B6.5	F46B6.5	F46B6.5a [Source:RefSeq_peptide;Acc:NP_505524]			
F46B6.6	F46B6.6	F46B6.6a [Source:RefSeq_peptide;Acc:NP_001023936]	intracellular protein transport, translational initiation, positive regulation of growth rate, 	intracellular, 	GTP binding, GTPase activity, translation initiation factor activity, 
ztf-7	F46B6.7	Zinc finger Transcription Factor family member (ztf-7) [Source:RefSeq_peptide;Acc:NP_505526]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
F46B6.8	F46B6.8	F46B6.8 [Source:RefSeq_peptide;Acc:NP_505527]	lipid metabolic process, 		catalytic activity, 
F46B6.9	F46B6.9	F46B6.9 [Source:RefSeq_peptide;Acc:NP_505528]	embryonic development ending in birth or egg hatching, 		
F46B6.13	F46B6.13	F46B6.13 [Source:RefSeq_peptide;Acc:NP_001023934]			
F46B6.10	F46B6.10	F46B6.10 [Source:RefSeq_peptide;Acc:NP_505529]			
sru-39	F46B6.11	Serpentine Receptor, class U family member (sru-39) [Source:RefSeq_peptide;Acc:NP_505530]			
sru-37	C50C10.1	Serpentine Receptor, class U family member (sru-37) [Source:RefSeq_peptide;Acc:NP_505531]			
sru-33	C50C10.8	Serpentine Receptor, class U family member (sru-33) [Source:RefSeq_peptide;Acc:NP_001023722]		membrane, 	transmembrane receptor activity, 
sru-29	C50C10.2	Serpentine Receptor, class U family member (sru-29) [Source:RefSeq_peptide;Acc:NP_505532]			
sru-30	C50C10.3	Serpentine Receptor, class U family member (sru-30) [Source:RefSeq_peptide;Acc:NP_505533]			
sru-31	C50C10.4	Serpentine Receptor, class U family member (sru-31) [Source:RefSeq_peptide;Acc:NP_505534]		membrane, 	
sru-32	C50C10.5				
str-193	C50C10.6	Seven TM Receptor family member (str-193) [Source:RefSeq_peptide;Acc:NP_505536]			
str-2	C50C10.7	Seven TM Receptor family member (str-2) [Source:RefSeq_peptide;Acc:NP_741602]			
sru-34	C50C10.9				
R07B5.1	R07B5.1				
R07B5.2	R07B5.2				
sru-40	R07B5.3	Serpentine Receptor, class U family member (sru-40) [Source:RefSeq_peptide;Acc:NP_505537]			
sru-38	R07B5.4	Serpentine Receptor, class U family member (sru-38) [Source:RefSeq_peptide;Acc:NP_505538]			
srsx-21	R07B5.5	Serpentine Receptor, class SX family member (srsx-21) [Source:RefSeq_peptide;Acc:NP_505539]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sru-36	R07B5.6	Serpentine Receptor, class U family member (sru-36) [Source:RefSeq_peptide;Acc:NP_505540]			
sru-8	R07B5.7	Serpentine Receptor, class U family member (sru-8) [Source:RefSeq_peptide;Acc:NP_505541]	sodium ion transport, 	membrane, 	sodium:amino acid symporter activity, 
R07B5.9	R07B5.9	R07B5.9 [Source:RefSeq_peptide;Acc:NP_741603]	positive regulation of multicellular organism growth, 		
R07B5.8	R07B5.8	The R07B5.8 gene encodes a MYST acetyltransferase homologous to the S. cerevisiae SAS3 protein. it is also more distantly homologous to the human MOZ and MORF proteins, which share a similar domain organization C-terminal to the MYST domain. [Source: WormBase]	transport, positive regulation of vulval development, 		transporter activity, binding, 
T11A5.1	T11A5.1	T11A5.1 [Source:RefSeq_peptide;Acc:NP_505543]			
srab-17	T11A5.2	Serpentine Receptor, class AB (class A-like) family member (srab-17) [Source:RefSeq_peptide;Acc:NP_505544]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
srab-18	T11A5.3	Serpentine Receptor, class AB (class A-like) family member (srab-18) [Source:RefSeq_peptide;Acc:NP_505545]		membrane, 	transmembrane receptor activity, 
srab-19	T11A5.4				
srab-26	T11A5.7	Serpentine Receptor, class AB (class A-like) family member (srab-26) [Source:RefSeq_peptide;Acc:NP_001024134]			
sdz-31	T11A5.5	SKN-1 Dependent Zygotic transcript family member (sdz-31) [Source:RefSeq_peptide;Acc:NP_505547]	transport, 		nutrient reservoir activity, oxygen transporter activity, 
T11A5.6	T11A5.6	T11A5.6 [Source:RefSeq_peptide;Acc:NP_741604]	proteolysis, 	intracellular, 	zinc ion binding, calcium-dependent cysteine-type endopeptidase activity, 
fshr-1	C50H2.1	fshr-1 encodes a putative neuropeptide receptor required for normal acetylcholine secretion by synapses. FSHR-1 is orthologous to human follicle-stimulating hormone receptor (OMIM:136435. mutated in ovarian dysgenesis), thyrotropin receptor (OMIM:603372. mutated in hyperthyroidism), and luteinizing hormone receptor (OMIM:152790, mutated in precocious puberty). fshr-1 mutants have abnormally many GFP::SNB-1 puncta at synapses, suggesting exocytotic defects. the requirement for FSHR-1 and ten other predicted neuropeptide signalling proteins in cholinergic neurotransmission indicates that such signalling is important for regulating acetylcholine release at neuromuscular junctions. possible ligands of FSHR-1 are FLP-1 and NLP-12. [Source: WormBase]	translation, G-protein coupled receptor protein signaling pathway, positive regulation of growth rate, 	integral to membrane, intracellular, ribosome, 	protein binding, rhodopsin-like receptor activity, structural constituent of ribosome, protein-hormone receptor activity, 
C50H2.9	C50H2.9				
egl-47	C50H2.2	egl-47 encodes two seven transmembrane G-protein-coupled receptors. while loss-of-function mutations in egl-47 result in no detectable egg-laying defects, gain-of-function mutations and overexpression studies suggest that EGL-47 is required for negatively regulating activity of the hermaphrodite-specific motor neurons (HSNs) that control egg laying. EGL-47::GFP reporters made with either of the two isoforms indicate that EGL-47 is expressed in a small subset of head neurons, the HSNs, and the PVQ tail interneurons. in addition, a reporter made with the longer isoform, EGL-47A, is expressed in vulval cells in L4 larvae. in adults, the only cells of the egg-laying system that express EGL-47 are the HSNs. genetic and overexpression studies suggest that, in the HSNs, EGL-47 signals through the G-alpha protein GOA-1 to inhibit egg laying. [Source: WormBase]	methylation, G-protein coupled receptor protein signaling pathway, oviposition, 	integral to membrane, 	methyltransferase activity, nucleic acid binding, arsenite transmembrane transporter activity, 
fipr-11	C50H2.10	C50H2.10 [Source:RefSeq_peptide;Acc:NP_741606]			
mec-9	C50H2.3	mec-9 encodes a predicted extracellular protein containing six EGF-like repeats,five Kunitz-type protease inhibitor domains, and a glutamic acid-rich region possibly involved in protein-protein interactions. mec-9 encodes two proteins, only one of which, MEC-9L, appears to be required for normal mechanosensory response to gentle touch and proper functioning of the touch receptor neurons. mec-9 interacts genetically with mec-5, which encodes a unique C. elegans collagen secreted by the hypodermis. MEC-9L is expressed and secreted by the touch receptor neurons. [Source: WormBase]	mechanosensory behavior, 	extracellular region, 	calcium ion binding, serine-type endopeptidase inhibitor activity, 
fipr-10	C50H2.12	C50H2.12 [Source:RefSeq_peptide;Acc:NP_001023726]			
C50H2.4	C50H2.4	C50H2.4 [Source:RefSeq_peptide;Acc:NP_505552]			
C50H2.5	C50H2.5	C50H2.5 [Source:RefSeq_peptide;Acc:NP_505553]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C50H2.6	C50H2.6	C50H2.6 [Source:RefSeq_peptide;Acc:NP_505554]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C50H2.7	C50H2.7	C50H2.7 [Source:RefSeq_peptide;Acc:NP_505555]			
C50H2.13	C50H2.13	C50H2.13 [Source:RefSeq_peptide;Acc:NP_001023727]			
T07C12.12	T07C12.12	T07C12.12 [Source:RefSeq_peptide;Acc:NP_741607]	embryonic development ending in birth or egg hatching, 		
T07C12.14	T07C12.14	T07C12.14 [Source:RefSeq_peptide;Acc:NP_001024114]			
srj-35	T07C12.3				
srj-33	T07C12.1	Serpentine Receptor, class J family member (srj-33) [Source:RefSeq_peptide;Acc:NP_505557]			
T07C12.4	T07C12.4				
srj-34	T07C12.5				
fipr-12	T07C12.13	T07C12.13 [Source:RefSeq_peptide;Acc:NP_001024113]			
sre-28	T07C12.6	Serpentine Receptor, class E (epsilon) family member (sre-28) [Source:RefSeq_peptide;Acc:NP_505560]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
T07C12.7	T07C12.7	Transthyretin-like protein T07C12.7 precursor. [Source:Uniprot/SWISSPROT;Acc:Q22285]			
T07C12.8	T07C12.8	T07C12.8 [Source:RefSeq_peptide;Acc:NP_505562]		membrane, 	
T07C12.9	T07C12.9	T07C12.9 [Source:RefSeq_peptide;Acc:NP_505563]			methyltransferase activity, 
T07C12.10	T07C12.10	T07C12.10 [Source:RefSeq_peptide;Acc:NP_505564]			
T07C12.11	T07C12.11	T07C12.11 [Source:RefSeq_peptide;Acc:NP_505565]			
apt-10	C27H6.1	apt-10 encodes the C. elegans ortholog of the mammalian Stonins and Drosophila Stoned B, membrane-associated proteins that contain three distinct domains: a proline-rich domain, a stonin homology domain, and a domain paralogous to the mu-adaptin subunits of adaptor protein complexes 1-3. by homology, APT-10 is predicted to regulate the activity of the heteromeric AP-1 and AP-2 clathrin adaptor protein complexes, and thus to play a role in intracellular protein trafficking and endocytosis. in vivo, apt-10 is required for the secretion of EGL-17/FGF, required for sex myoblast migration, from the vulval precursor cell P6.p. loss of apt-10 activity via large-scale RNAi screens, however, does not result in any obvious abnormalities. [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, endocytosis, embryonic development ending in birth or egg hatching, 	clathrin adaptor complex, 	protein transporter activity, protein binding, 
NR_003468.1	C27H6.5	C27H6.5, snoRNA [Source:RefSeq_dna;Acc:NR_003468]			
ruvb-1	C27H6.2	RUVB (recombination protein) homolog family member (ruvb-1) [Source:RefSeq_peptide;Acc:NP_505567]	positive regulation of growth rate, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, DNA helicase activity, 
C27H6.3	C27H6.3	C27H6.3 [Source:RefSeq_peptide;Acc:NP_505568]	gamete generation, 		protein binding, 
C27H6.4	C27H6.4	C27H6.4b [Source:RefSeq_peptide;Acc:NP_741608]			binding, 
C27H6.8	C27H6.8	UPF0160 protein C27H6.8. [Source:Uniprot/SWISSPROT;Acc:O17606]			
rde-1	K08H10.7	rde-1 encodes a novel, conserved protein that is a member of the PIWI/STING/Argonaute/Zwille/eIF2c family of proteins. rde-1 activity is required for RNA-mediated interference (RNAi), likely at a point after small interfering RNAs (siRNAs) have been produced from dsRNA triggers. RDE-1 interacts with RDE-4 in vivo and its activity is also required for accumulation of dsRNA bound to RDE-4. [Source: WormBase]	defense response, 		
K08H10.9	K08H10.9	K08H10.9 [Source:RefSeq_peptide;Acc:NP_505571]			
K08H10.6	K08H10.6	K08H10.6 [Source:RefSeq_peptide;Acc:NP_505572]	transport, 	membrane, integral to membrane, 	transporter activity, 
K08H10.5	K08H10.5				
uda-1	K08H10.4	Nucleoside-diphosphatase uda-1 (EC 3.6.1.6) (Uridine-diphosphatase). [Source:Uniprot/SWISSPROT;Acc:Q9XU84]	carboxylic acid metabolic process, 		hydrolase activity, transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer, 
K08H10.3	K08H10.3	K08H10.3a [Source:RefSeq_peptide;Acc:NP_001041146]			
lea-1	K08H10.1	The lea-1 gene encodes a protein that is predicted to be hydrophilic and heat-resistant, and that might participate in anhydrobiosis. [Source: WormBase]	response to stress, 		
K08H10.2	K08H10.2	The K08H10.2 gene encodes a protein (K08H10.2A) that is predicted to be hydrophilic and heat-resistant, and that might participate in anhydrobiosis. [Source: WormBase]			protein binding, 
acl-2	T06E8.1	T06E8.1 is orthologous to the human gene 1-ACYLGLYCEROL-3-PHOSPHATE O-ACYLTRANSFERASE 2 (LYSOPHOSPHATIDIC ACID ACYLTRANSFERASE, BETA) (AGPAT2. OMIM:603100), which when mutated leads to disease. T06E8.1 protein is predicted to be mitochondrial. [Source: WormBase]	metabolic process, phospholipid biosynthetic process, 	membrane, 	acyltransferase activity, 1-acylglycerol-3-phosphate O-acyltransferase activity, 
T06E8.2	T06E8.2	T06E8.2 [Source:RefSeq_peptide;Acc:NP_505579]			
F57A8.1	F57A8.1	F57A8.1 [Source:RefSeq_peptide;Acc:NP_505580]			
F57A8.2	F57A8.2	F57A8.2a [Source:RefSeq_peptide;Acc:NP_001041126]			
str-118	F57A8.3	Seven TM Receptor family member (str-118) [Source:RefSeq_peptide;Acc:NP_505581]			
fipr-13	F57A8.8	F57A8.8 [Source:RefSeq_peptide;Acc:NP_001023988]			
F57A8.4	F57A8.4	F57A8.4 [Source:RefSeq_peptide;Acc:NP_505583]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-192	F57A8.5	Nuclear Hormone Receptor family member (nhr-192) [Source:RefSeq_peptide;Acc:NP_505584]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F57A8.6	F57A8.6	F57A8.6 [Source:RefSeq_peptide;Acc:NP_505585]			
F57A8.7	F57A8.7	F57A8.7 [Source:RefSeq_peptide;Acc:NP_505586]			drug transporter activity, 
R04B5.1	R04B5.1	R04B5.1 [Source:RefSeq_peptide;Acc:NP_505587]			
R04B5.2	R04B5.2				
nhr-205	R04B5.3	Nuclear Hormone Receptor family member (nhr-205) [Source:RefSeq_peptide;Acc:NP_505588]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-12	R04B5.4	Nuclear hormone receptor family member nhr-12. [Source:Uniprot/SWISSPROT;Acc:Q21701]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
R04B5.6	R04B5.6	R04B5.6 [Source:RefSeq_peptide;Acc:NP_505590]			zinc ion binding, oxidoreductase activity, 
R04B5.5	R04B5.5	R04B5.5 [Source:RefSeq_peptide;Acc:NP_505591]			zinc ion binding, oxidoreductase activity, 
R04B5.7	R04B5.7	R04B5.7 [Source:RefSeq_peptide;Acc:NP_505592]			
R04B5.11	R04B5.11	R04B5.11 [Source:RefSeq_peptide;Acc:NP_505593]			
srd-49	R04B5.8	Serpentine Receptor, class D (delta) family member (srd-49) [Source:RefSeq_peptide;Acc:NP_505594]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ugt-47	R04B5.9	R04B5.9 [Source:RefSeq_peptide;Acc:NP_505595]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
R04B5.10	R04B5.10				
C08B6.14	C08B6.14	C08B6.14 [Source:RefSeq_peptide;Acc:NP_001023633]			metal ion binding, hydrolase activity, acid phosphatase activity, 
ugt-17	C08B6.1	UDP-GlucuronosylTransferase family member (ugt-17) [Source:RefSeq_peptide;Acc:NP_505597]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
C08B6.2	C08B6.2	C08B6.2 [Source:RefSeq_peptide;Acc:NP_505598]			
C08B6.11	C08B6.11	C08B6.11 [Source:RefSeq_peptide;Acc:NP_741612]			
C08B6.3	C08B6.3	C08B6.3 [Source:RefSeq_peptide;Acc:NP_505599]			
C08B6.4	C08B6.4	C08B6.4b [Source:RefSeq_peptide;Acc:NP_001023635]	chitin catabolic process, cell wall catabolic process, 		chitinase activity, 
C08B6.5	C08B6.5	C08B6.5 [Source:RefSeq_peptide;Acc:NP_505601]			
srxa-18	C08B6.12	Serpentine Receptor, class XA family member (srxa-18) [Source:RefSeq_peptide;Acc:NP_001023631]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srxa-19	C08B6.13	Serpentine Receptor, class XA family member (srxa-19) [Source:RefSeq_peptide;Acc:NP_001023632]			
C08B6.6	C08B6.6	C08B6.6 [Source:RefSeq_peptide;Acc:NP_505602]			
C08B6.10	C08B6.10	C08B6.10 [Source:RefSeq_peptide;Acc:NP_505603]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
aos-1	C08B6.9	aos-1 encodes the C. elegans ortholog of Saccharomyces cerevisiae Aos1p and human SUMO-1 activating enzyme E1 N subunit. by homology, AOS-1 is predicted to form, with a catalytic subunit, UBA-2, a heterodimeric enzyme that activates the ubiquitin-like protein SMO-1/SUMO in preparation for its covalent attachment to target proteins to regulate their subcellular localization and/or stability. in C. elegans, AOS-1 is required for embryonic and larval development, as well as for proper Hox gene regulation. uba-2/aos-1(RNAi) animals that survive embryogenesis show ectopic expression of EGL-5 and ectopic anterior sensory ray formation. [Source: WormBase]	electron transport, positive regulation of embryonic development, 		oxidoreductase activity, catalytic activity, 
C08B6.7	C08B6.7	C08B6.7 [Source:RefSeq_peptide;Acc:NP_505605]			
C08B6.8	C08B6.8	Probable oligoribonuclease (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:Q17819]		intracellular, 	exonuclease activity, 
C51E3.8	C51E3.8	C51E3.8 [Source:RefSeq_peptide;Acc:NP_505607]	chitin catabolic process, G-protein coupled receptor protein signaling pathway, cell wall catabolic process, 		G-protein coupled receptor activity, chitinase activity, 
C51E3.9	C51E3.9	C51E3.9 [Source:RefSeq_peptide;Acc:NP_741613]			
srsx-26	C51E3.1	Serpentine Receptor, class SX family member (srsx-26) [Source:RefSeq_peptide;Acc:NP_505608]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-27	C51E3.2	Serpentine Receptor, class SX family member (srsx-27) [Source:RefSeq_peptide;Acc:NP_505609]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-28	C51E3.3	Serpentine Receptor, class SX family member (srsx-28) [Source:RefSeq_peptide;Acc:NP_505610]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-29	C51E3.4	Serpentine Receptor, class SX family member (srsx-29) [Source:RefSeq_peptide;Acc:NP_505611]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, 
srsx-30	C51E3.5	Serpentine Receptor, class SX family member (srsx-30) [Source:RefSeq_peptide;Acc:NP_505612]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C51E3.10	C51E3.10	C51E3.10 [Source:RefSeq_peptide;Acc:NP_001023731]			
C51E3.6	C51E3.6	C51E3.6 [Source:RefSeq_peptide;Acc:NP_505613]	transport, 	membrane, 	transporter activity, 
egl-3	C51E3.7	The egl-3 gene encodes a homolog of a mammalian proprotein convertase that participates in peptide secretion. [Source: WormBase]	proteolysis, 		subtilase activity, 
cul-5	ZK856.1	cul-5 encodes a cullin, orthologous to vasopressin-activated calcium-mobilizing receptor-1 in mammals, that is thought to regulate the cell cycle by virtue of its paralogy to cul-1 and cul-2. however, CUL-5 is dispensable for viability and gross morphology in mass RNAi screens, and does not appear to interact with any of 17 Skp1-related proteins (SKR-1 through SKR-21). [Source: WormBase]	DNA repair, cell cycle, 		
ZK856.4	ZK856.4	ZK856.4 [Source:RefSeq_peptide;Acc:NP_505617]			
ZK856.5	ZK856.5	ZK856.5 [Source:RefSeq_peptide;Acc:NP_505620]			hydrolase activity, 
ZK856.6	ZK856.6	ZK856.6 [Source:RefSeq_peptide;Acc:NP_505621]			
ZK856.7	ZK856.7	ZK856.7 [Source:RefSeq_peptide;Acc:NP_505622]			
ZK856.8	ZK856.8	ZK856.8 [Source:RefSeq_peptide;Acc:NP_505623]	ciliary or flagellar motility, locomotory behavior, 	flagellin-based flagellum, 	calcium ion binding, 
ZK856.11	ZK856.11	ZK856.11 [Source:RefSeq_peptide;Acc:NP_505624]	translational initiation, positive regulation of growth rate, 		RNA binding, protein binding, translation initiation factor activity, 
ZK856.10	ZK856.10	ZK856.10 [Source:RefSeq_peptide;Acc:NP_505625]	transcription, positive regulation of growth rate, 		RNA binding, DNA-directed RNA polymerase activity, 
tag-315	ZK856.13	Temporarily Assigned Gene name family member (tag-315) [Source:RefSeq_peptide;Acc:NP_505626]	positive regulation of growth rate, 		binding, 
tag-143	ZK856.9	Temporarily Assigned Gene name family member (tag-143) [Source:RefSeq_peptide;Acc:NP_505627]			
ZK856.12	ZK856.12	ZK856.12 [Source:RefSeq_peptide;Acc:NP_505628]			
ZK856.14	ZK856.14	ZK856.14 [Source:RefSeq_peptide;Acc:NP_001024321]			
C12D8.13	C12D8.13	C12D8.13 [Source:RefSeq_peptide;Acc:NP_001023649]			
fipr-5	C12D8.18	C12D8.18 [Source:RefSeq_peptide;Acc:NP_001023654]			
fipr-9	C12D8.19	C12D8.19 [Source:RefSeq_peptide;Acc:NP_001023655]			
daf-36	C12D8.5	abnormal DAuer Formation family member (daf-36) [Source:RefSeq_peptide;Acc:NP_505629]	electron transport, 		oxidoreductase activity, 
C12D8.4	C12D8.4	C12D8.4 [Source:RefSeq_peptide;Acc:NP_505630]			
C12D8.3	C12D8.3				
fipr-4	C12D8.14	C12D8.14 [Source:RefSeq_peptide;Acc:NP_001023650]			
C12D8.15	C12D8.15	C12D8.15 [Source:RefSeq_peptide;Acc:NP_001023651]			
fipr-7	C12D8.16	C12D8.16 [Source:RefSeq_peptide;Acc:NP_001023652]			
C12D8.2	C12D8.2				
fipr-6	C12D8.17	C12D8.17 [Source:RefSeq_peptide;Acc:NP_001023653]			
str-182	C12D8.12	Seven TM Receptor family member (str-182) [Source:RefSeq_peptide;Acc:NP_505631]			
C12D8.1	C12D8.1	C12D8.1 encodes two alternative proteins (through alternative splicing), that belong to an ancient family of single-stranded nucleic acid-binding proteins, and that are predicted to regulate gene expression through binding either mRNA or (locally) single-stranded DNA. they is most likely to specifically bind one or more discrete mRNAs and regulate their spatial localization or alternative splicing. [Source: WormBase]			RNA binding, protein binding, 
fipr-8	C12D8.6	C12D8.6 [Source:RefSeq_peptide;Acc:NP_505634]			
C12D8.7	C12D8.7				
col-148	C12D8.8	C12D8.8 [Source:RefSeq_peptide;Acc:NP_505635]	phosphate transport, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
C12D8.9	C12D8.9	C12D8.9 [Source:RefSeq_peptide;Acc:NP_505636]			
akt-1	C12D8.10	akt-1 encodes an ortholog of the serine/threonine kinase Akt/PKB. akt-1 genetically interacts with the insulin signaling pathway and functions to regulate such processes as dauer larval development and salt chemotaxis learning. an AKT-1::GFP fusion protein is widely expressed beginning in late stage embryos and continuing through adulthood. expression is seen in head, tail, and dorsal and ventral cord neurons, with additional expression seen in other cells including those of the pharynx, hypodermis, intestine, and spermatheca. two alleles of akt-1 (sa573 and sa700) have a Daf-c mutant phenotype at 27 degrees C (Hid phenotype). [Source: WormBase]	protein amino acid phosphorylation, determination of adult life span, insulin receptor signaling pathway, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
rop-1	C12D8.11	rop-1 encodes an RNAi-binding protein that is orthologous to the vertebrate 60-kDa Ro autoantigen that is the protein component of the Ro ribonucleoprotein (RNP) complex. ROP-1 binds the single C. elegans Ro RNP RNA component, YRN-1 (Y RNA) in vivo and although loss of rop-1 activity via mutation results in no obvious visible phenotypes, it does result in a dramatic decrease in YRN-1 levels, indicating that ROP-1 is necessary for maintaining normal levels of the Ro RNP Y RNA. in addition, rop-1 mutations also result in a statistically significant increase in mutant 5S rRNA molecules found in ribosomal RNA preparations, suggesting that ROP-1 may play a role in quality control of 5S rRNA processing. rop-1 mRNA is detectable during all stages of development, and rop-1 promoter fusions appear to be expressed in all cell types, except the germline. [Source: WormBase]		ribonucleoprotein complex, 	RNA binding, 
nhr-232	Y22F5A.1	Nuclear Hormone Receptor family member (nhr-232) [Source:RefSeq_peptide;Acc:NP_505639]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
sri-18	Y22F5A.2	Serpentine Receptor, class I family member (sri-18) [Source:RefSeq_peptide;Acc:NP_505640]			
ric-4	Y22F5A.3	ric-4 encodes an ortholog of vertebrate SNAP-25 and S. cerevisiae Sec9p. SNAP-25 is associated with synaptosomes, required for axonal growth in vivo, and targeted by botulinum neurotoxins. UNC-86 and MEC-3 are required for ric-4 expression, and act on a regulatory element (I2h) in ric-4 conserved between the first introns of C. elegans and C. briggsae ric-4 genes. other conserved motifs in the promoter region (P1 and P2) and first intron (I1h, I1m, I2h, and I2m) are required for ric-4 expression in DA and DD motor neurons (P1), DB and DA neurons (I1m and I2m), amphid and phasmid neurons (P2), pharyngeal neurons (I1h), and mechanosensory neurons (I2h). loss of ric-4 function via RNAi results in aldicarb resistance, indicating that ric-4 plays a role in synapse structure and function. [Source: WormBase]	vesicle-mediated transport, 	membrane, 	protein binding, 
lys-1	Y22F5A.4	lys-1 encodes a putative lysozyme, whose overexpression increases resistance to infection by Serratia marcescens. lys-1(RNAi) animals have normal resistance to S. marcescens, perhaps because of genetic redundancy with the LYS-1 paralogs LYS-2 to -8 and LYS-10. in uninfected animals, LYS-1 is expressed in the intestine and in IL1/IL2 neurons, along with a few unidentified head neurons. in intestinal cells, LYS-1 localizes to apical vesicles. LYS-1 expression is induced by infection by Pseudomonas aeruginosa but not S. marcescens. LYS-1 expression is promoted by DBL-1, TIR-1 and NSY-1, and perhaps also by ELT-2, but not by DAF-16. LYS-1 and its paralogs are more similar to lysozymes from the amoeboid protozoon Entamoeba histolytica than to more familiar ones from vertebrates. [Source: WormBase]			protein binding, catalytic activity, 
lys-2	Y22F5A.5	lys-2 is one of ten C. elegans lysozyme genes. as such, lys-2 can be predicted to have a role in lysozymal function including immune function. [Source: WormBase]			protein binding, catalytic activity, 
lys-3	Y22F5A.6	lys-3 encodes one of a family of ten C. elegans lysozyme genes that are homologous to lysozymes in the amoeboid protozoon Entamoeba histolytica. [Source: WormBase]			catalytic activity, 
B0024.3	B0024.3	B0024.3 [Source:RefSeq_peptide;Acc:NP_505645]	biological_process, 	integral to membrane, 	molecular_function, 
B0024.15	B0024.15	B0024.15 [Source:RefSeq_peptide;Acc:NP_741615]	protein amino acid glycosylation, 	membrane, cellular_component, 	galactosyltransferase activity, 
col-149	B0024.1	B0024.1 [Source:RefSeq_peptide;Acc:NP_505646]	phosphate transport, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
col-150	B0024.2	B0024.2 [Source:RefSeq_peptide;Acc:NP_505647]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
B0024.4	B0024.4	B0024.4 [Source:RefSeq_peptide;Acc:NP_505648]	positive regulation of growth rate, 		
B0024.8	B0024.8	B0024.8 [Source:RefSeq_peptide;Acc:NP_505649]			
gcy-6	B0024.6	gcy-6 encodes a predicted guanylate cyclase. expressed in the ASEL neurons. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, determination of adult life span, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
trx-2	B0024.9	Probable thioredoxin-2. [Source:Uniprot/SWISSPROT;Acc:Q17424]	cell redox homeostasis, 		
B0024.10	B0024.10	B0024.10 [Source:RefSeq_peptide;Acc:NP_505652]			
B0024.11	B0024.11	Putative pseudouridine synthase B0024.11 (EC 5.4.99.-). [Source:Uniprot/SWISSPROT;Acc:Q17426]	tRNA processing, 		pseudouridylate synthase activity, 
gna-1	B0024.12	gna-1 encodes one of two C. elegans glucosamine 6-phosphate N-acetyltransferases (GNAs). by homology, GNA-1 is predicted to be required for the formation of UDP-N-acetylglucosamine, a substrate in chitin synthesis, Golgi and cytoplasmic glycosylation, and GPI anchoring. gna-1, like chs-2, is expressed pharyngeally rather than in germline, and (unlike its paralog gna-1) does not have an osmotically-sensitive embryonic lethal RNAi phenotype. as loss of gna-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GNA-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	metabolic process, 		protein binding, N-acetyltransferase activity, 
B0024.13	B0024.13	B0024.13b [Source:RefSeq_peptide;Acc:NP_001021342]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
crm-1	B0024.14	CRiM (Cysteine RIch motor neuron protein) homolog family member (crm-1) [Source:RefSeq_peptide;Acc:NP_741616]	regulation of cell growth, biological_process, 	extracellular region, 	protein binding, serine-type endopeptidase inhibitor activity, insulin-like growth factor binding, enzyme inhibitor activity, identical protein binding, 
arx-2	K07C5.1	arx-2 encodes the C. elegans ortholog of the Arp2 subunit of the actin-related protein (Arp)2/3 complex. [Source: WormBase]	pathogenesis, positive regulation of growth rate, 		ATP binding, protein binding, 
K07C5.2	K07C5.2	K07C5.2 [Source:RefSeq_peptide;Acc:NP_505658]			oxidoreductase activity, 
K07C5.3	K07C5.3	K07C5.3 [Source:RefSeq_peptide;Acc:NP_505659]		nucleus, 	zinc ion binding, DNA binding, 
K07C5.9	K07C5.9	K07C5.9 [Source:RefSeq_peptide;Acc:NP_741620]			
K07C5.4	K07C5.4	Uncharacterized NOP5 family protein K07C5.4. [Source:Uniprot/SWISSPROT;Acc:Q21276]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
NR_002675.1	K07C5.10	K07C5.10, snoRNA [Source:RefSeq_dna;Acc:NR_002675]			
NR_003478.1	K07C5.12	K07C5.12, snoRNA [Source:RefSeq_dna;Acc:NR_003478]			
NR_003477.1	K07C5.11	K07C5.11, snoRNA [Source:RefSeq_dna;Acc:NR_003477]			
K07C5.6	K07C5.6	Pre-mRNA-splicing factor SLU7. [Source:Uniprot/SWISSPROT;Acc:Q21278]	embryonic development ending in birth or egg hatching, 		zinc ion binding, nucleic acid binding, 
K07C5.5	K07C5.5	K07C5.5 [Source:RefSeq_peptide;Acc:NP_505662]	aromatic compound metabolic process, 		catalytic activity, hydrolase activity, 
ttll-15	K07C5.7	ttll-15 encodes a putative tubulin polyaminoacid ligase orthologous to Drosophila melanogaster CG4089 and Tetrahymena thermophila TTLL15. TTLL-15 has no obvious function in mass RNAi assays. [Source: WormBase]	protein modification process, 		tubulin-tyrosine ligase activity, 
cash-1	K07C5.8	CKA And Striatin Homolog family member (cash-1) [Source:RefSeq_peptide;Acc:NP_505664]	proteolysis, hermaphrodite genitalia development, 		aspartic-type endopeptidase activity, 
sri-20	AC3.1	Serpentine Receptor, class I family member (sri-20) [Source:RefSeq_peptide;Acc:NP_505665]			
ugt-49	AC3.2	AC3.2 [Source:RefSeq_peptide;Acc:NP_505666]	metabolic process, 		transferase activity, transferring hexosyl groups, 
AC3.9	AC3.9				
abu-1	AC3.3	abu-1 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-1 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-1 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, 
pqn-2	AC3.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
spe-10	AC3.10	defective SPErmatogenesis family member (spe-10) [Source:RefSeq_peptide;Acc:NP_001021339]	organelle organization and biogenesis, 		zinc ion binding, 
AC3.5	AC3.5	Aminopeptidase-like protein AC3.5. [Source:Uniprot/SWISSPROT;Acc:Q17405]	proteolysis, 		zinc ion binding, metallopeptidase activity, subtilase activity, membrane alanyl aminopeptidase activity, 
col-151	AC3.6	AC3.6 [Source:RefSeq_peptide;Acc:NP_505670]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
ugt-1	AC3.7	AC3.7 [Source:RefSeq_peptide;Acc:NP_505671]	metabolic process, determination of adult life span, 		transferase activity, transferring hexosyl groups, 
ugt-2	AC3.8	AC3.8 [Source:RefSeq_peptide;Acc:NP_505672]	metabolic process, 		transferase activity, transferring hexosyl groups, 
F15H10.8	F15H10.8	F15H10.8 [Source:RefSeq_peptide;Acc:NP_505673]			
F15H10.7	F15H10.7	F15H10.7 [Source:RefSeq_peptide;Acc:NP_505674]			
F15H10.6	F15H10.6	F15H10.6 [Source:RefSeq_peptide;Acc:NP_505675]			
F15H10.9	F15H10.9	F15H10.9 [Source:RefSeq_peptide;Acc:NP_001023807]			
F15H10.10	F15H10.10	F15H10.10 [Source:RefSeq_peptide;Acc:NP_001023806]			
F15H10.5	F15H10.5	F15H10.5 [Source:RefSeq_peptide;Acc:NP_505676]			
col-13	F15H10.2	col-13 encodes a collagen which is expressed in all stages of development, like sqt-3 (col-1), col-3, col-10, col-11, col-12, and col-14. collagen genes with this expression profile may be specifically required to construct the L1 cuticle (and, perhaps, less specifically required for cuticles at other stages). the amino- and carboxyl-terminal cysteine-rich regions of COL-13 are most closely related to those of COL-6, COL-12, COL-14, COL-36, and COL-40. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
col-12	F15H10.1	col-12 encodes a member of the collagen superfamily containing collagen triple helix repeats (20 copies). expressed throughout development but expression peaks after each larval molt when new cuticle is being secreted and deposited, and after the L4 to adult larval molt. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
tag-314	F15H10.4	Temporarily Assigned Gene name family member (tag-314) [Source:RefSeq_peptide;Acc:NP_872234]			zinc ion binding, 
apc-10	F15H10.3	apc-10 encodes a homolog of the fission yeast anaphase promoting complex subunit APC10. apc-10(RNAi) animals are generally unable to progress through meiotic divisions. initially they produce reduced numbers of viable embryos mixed with inviable embryos, but then show severe germline maintenance defects and become sterile. [Source: WormBase]	regulation of mitotic metaphase/anaphase transition, embryonic development ending in birth or egg hatching, 	anaphase-promoting complex, 	protein binding, 
Y32F6A.4	Y32F6A.4	Y32F6A.4 [Source:RefSeq_peptide;Acc:NP_505680]	amino acid transport, 	membrane, 	
set-22	Y32F6A.1	Y32F6A.1 [Source:RefSeq_peptide;Acc:NP_505681]		nucleus, 	
snf-10	Y32F6A.2	snf-10 encodes a member of the sodium:neurotransmitter symporter family. [Source: WormBase]	sodium ion transport, neurotransmitter transport, embryonic development ending in birth or egg hatching, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, sodium:amino acid symporter activity, 
pap-1	Y32F6A.3	Poly-A Polymerase family member (pap-1) [Source:RefSeq_peptide;Acc:NP_505683]	transcription, RNA polyadenylation, reproduction, 	nucleus, 	RNA binding, nucleotidyltransferase activity, polynucleotide adenylyltransferase activity, 
Y32F6A.6	Y32F6A.6	Y32F6A.6 [Source:RefSeq_peptide;Acc:NP_001024224]			
Y32F6A.5	Y32F6A.5	Y32F6A.5 [Source:RefSeq_peptide;Acc:NP_872130]	proteolysis, 		aminopeptidase activity, serine carboxypeptidase activity, 
F22E12.1	F22E12.1	F22E12.1 [Source:RefSeq_peptide;Acc:NP_505684]			serine-type endopeptidase inhibitor activity, 
F22E12.3	F22E12.3	F22E12.3 [Source:RefSeq_peptide;Acc:NP_505685]			
chw-1	F22E12.2	CHp/Wrch Rho-like protein homolog family member (chw-1) [Source:RefSeq_peptide;Acc:NP_505686]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
egl-9	F22E12.4	egl-9 encodes a dioxygenase that negatively regulates hypoxia inducible factor (hif-1) by hydroxylating prolyl residues in HIF-1. [Source: WormBase]	protein metabolic process, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	zinc ion binding, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, vasopressin receptor activity, 
crp-1	Y32F6B.3	Cdc-42 Related Protein family member (crp-1) [Source:RefSeq_peptide;Acc:NP_505688]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y32F6B.1	Y32F6B.1	Y32F6B.1 [Source:RefSeq_peptide;Acc:NP_505689]	transport, 	membrane, 	transporter activity, 
ncx-5	Y32F6B.2	Na/Ca eXchangers family member (ncx-5) [Source:RefSeq_peptide;Acc:NP_505690]		integral to membrane, 	
aqp-5	C35A5.1	AQuaPorin or aquaglyceroporin related family member (aqp-5) [Source:RefSeq_peptide;Acc:NP_505691]	transport, 	membrane, 	transporter activity, 
ugt-33	C35A5.2	C35A5.2 [Source:RefSeq_peptide;Acc:NP_505692]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
C35A5.4	C35A5.4	C35A5.4 [Source:RefSeq_peptide;Acc:NP_505693]			structural molecule activity, 
C35A5.3	C35A5.3	C35A5.3 [Source:RefSeq_peptide;Acc:NP_505694]	transport, 	integral to membrane, 	transporter activity, 
C35A5.11	C35A5.11	C35A5.11 [Source:RefSeq_peptide;Acc:NP_001023701]			
C35A5.10	C35A5.10	Uncharacterized protein C35A5.10. [Source:Uniprot/SWISSPROT;Acc:Q5FC62]			
C35A5.5	C35A5.5	UPF0392 protein C35A5.5. [Source:Uniprot/SWISSPROT;Acc:Q18473]			
C35A5.6	C35A5.6	Uncharacterized protein C35A5.6. [Source:Uniprot/SWISSPROT;Acc:Q18474]			
C35A5.7	C35A5.7	C35A5.7 [Source:RefSeq_peptide;Acc:NP_505697]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C35A5.8	C35A5.8	C35A5.8 [Source:RefSeq_peptide;Acc:NP_505698]			
C35A5.9	C35A5.9	C35A5.9 encodes a class 4 histone deacetylase (HDAC), orthologous to human HDAC11. [Source: WormBase]	DNA repair, 		
F25D1.3	F25D1.3	F25D1.3 [Source:RefSeq_peptide;Acc:NP_505700]	inflammatory response, 	extracellular region, 	cytokine activity, 
F25D1.2	F25D1.2	F25D1.2 [Source:RefSeq_peptide;Acc:NP_505701]			
tag-93	F25D1.1	Temporarily Assigned Gene name family member (tag-93) [Source:RefSeq_peptide;Acc:NP_001023842]	protein amino acid dephosphorylation, 	protein serine/threonine phosphatase complex, 	catalytic activity, protein phosphatase type 2C activity, protein serine/threonine phosphatase activity, 
F25D1.4	F25D1.4	F25D1.4 [Source:RefSeq_peptide;Acc:NP_505703]	sodium ion transport, 	membrane, 	sodium channel activity, 
F25D1.5	F25D1.5	F25D1.5 [Source:RefSeq_peptide;Acc:NP_505704]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		protein binding, oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
srd-34	F32G8.1	Serpentine receptor class delta-34 (Protein srd-34). [Source:Uniprot/SWISSPROT;Acc:Q19975]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F32G8.2	F32G8.2	F32G8.2 [Source:RefSeq_peptide;Acc:NP_505706]			
F32G8.3	F32G8.3	F32G8.3 [Source:RefSeq_peptide;Acc:NP_505707]			
F32G8.4	F32G8.4	Uncharacterized protein F32G8.4. [Source:Uniprot/SWISSPROT;Acc:Q19978]			
col-152	F32G8.5	F32G8.5 [Source:RefSeq_peptide;Acc:NP_505709]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
cat-4	F32G8.6	cat-4 encodes an ortholog of the human GTP cyclohydrolase I gene (GCH1. OMIM:600225), which when mutated leads to dystonia. CAT-4 is involved in serotonin and dopamine biosynthesis that affects movement, mating behavior, foraging behavior, and cell migration. CAT-4 acts in the same genetic pathway as flp-1. [Source: WormBase]	aromatic compound biosynthetic process, dopamine biosynthetic process, 	cytoplasm, 	protein binding, GTP cyclohydrolase I activity, 
vps-54	T21C9.2	The vps-54 gene encodes an ortholog of VPS54 in S. cerevisiae, a protein involved in vacuolar trafficking. [Source: WormBase]	electron transport, retrograde transport, endosome to Golgi, 		protein binding, electron carrier activity, copper ion binding, 
T21C9.3	T21C9.3	T21C9.3b [Source:RefSeq_peptide;Acc:NP_741622]	sodium ion transport, 	membrane, 	sodium channel activity, 
T21C9.1	T21C9.1	T21C9.1 [Source:RefSeq_peptide;Acc:NP_505712]			protein binding, 
T21C9.4	T21C9.4	Enhancer of rudimentary homolog. [Source:Uniprot/SWISSPROT;Acc:Q22640]			protein binding, identical protein binding, 
lpd-9	T21C9.5	lpd-9 encodes a novel protein conserved amongst C. elegans, C. briggsae, and C. remanei. loss of lpd-9 activity via RNAi indicates that LPD-9 is required for fat storage and for larval growth and development. [Source: WormBase]	embryonic development ending in birth or egg hatching, sequestering of lipid, 		
T21C9.6	T21C9.6	T21C9.6 [Source:RefSeq_peptide;Acc:NP_505715]	phosphorylation, 		ATP binding, catalytic activity, transferase activity, transferring phosphorus-containing groups, kinase activity, 
srg-32	T21C9.7	Serpentine Receptor, class G (gamma) family member (srg-32) [Source:RefSeq_peptide;Acc:NP_505716]	signal transduction, 	membrane, 	transmembrane receptor activity, 
T21C9.8	T21C9.8	T21C9.8 [Source:RefSeq_peptide;Acc:NP_505717]			
T21C9.9	T21C9.9	T21C9.9 [Source:RefSeq_peptide;Acc:NP_505719]			
T21C9.11	T21C9.11	T21C9.11 [Source:RefSeq_peptide;Acc:NP_505720]			
T21C9.13	T21C9.13	T21C9.13 [Source:RefSeq_peptide;Acc:NP_505721]			
scpl-4	T21C9.12	scpl-4 encodes an ortholog of budding yeast TIM50 and human TIMM50 (OMIM:607381). by orthology, SCPL-4 is expected to be part of the mitochondrial inner membrane protein translocase. SCPL-4 is required for embryonic development and fertility in mass RNAi assays. SCPL-4 is distantly similar to FCP-1 and SCPL-1, -2, and -3. [Source: WormBase]	reproduction, 		phosphoric monoester hydrolase activity, 
H27A22.1	H27A22.1	H27A22.1b [Source:RefSeq_peptide;Acc:NP_001041144]	proteolysis, 		peptidase activity, 
H09F14.1	H09F14.1	H09F14.1 [Source:RefSeq_peptide;Acc:NP_505724]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
mab-23	C32C4.5	mab-23 encodes a DNA binding transcription factor of the DM (DOUBLESEX/MAB-3) class that is required for morphogenesis of the posterior hypodermis, spicules, and proctodeum in male tails, for the patterning of posterior male sensory neurons, and for normal turning during male mating. mab-23 interacts with egl-5 and with a TGF-beta-related signaling pathway, while having functions independent of mab-3. [Source: WormBase]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
C32C4.4	C32C4.4	C32C4.4 was published as a microRNA, a small non-coding RNA, but has been removed from the mir gene class as it does not satisfy current criteria for classification as a mir gene. the precise function of C32C4.4 is unknown. [Source: WormBase]			
C32C4.1	C32C4.1	C32C4.1 [Source:RefSeq_peptide;Acc:NP_505725]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, GABA-B receptor activity, 
C32C4.3	C32C4.3	C32C4.3 [Source:RefSeq_peptide;Acc:NP_505726]			
aqp-6	C32C4.2	AQuaPorin or aquaglyceroporin related family member (aqp-6) [Source:RefSeq_peptide;Acc:NP_505727]	transport, 	membrane, 	transporter activity, 
ugt-35	C32C4.7	UDP-GlucuronosylTransferase family member (ugt-35) [Source:RefSeq_peptide;Acc:NP_001023694]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-34	F29F11.2	ugt-34 encodes a putative UDP-glucuronosyltransferase (UGT), belonging to a large nematode-specific expanded family of UGTs, that inhibits CEP-1- and HUS-1-dependent germline apoptosis as do BMK-1, RAD-50, and RAD-51. [Source: WormBase]	blood coagulation, metabolic process, carbohydrate metabolic process, lipid glycosylation, 	integral to membrane, 	transferase activity, transferring hexosyl groups, carbohydrate binding, 
F29F11.3	F29F11.3	F29F11.3 [Source:RefSeq_peptide;Acc:NP_505729]			
sqv-4	F29F11.1	sqv-4 encodes a UDP-glucose 6-dehydrogenase, biochemically active in vitro, that is required for cytokinesis of one-cell embryos and for vulval morphogenesis. SQV-4 is orthologous to Drosophila SUGARLESS, human UGDH (OMIM:603370), and zebrafish JEKYLL. SQV-4 is expressed in many cell types, notably oocytes and uterine, seam, pharyngeal, and spermathecal cells, with expression being prominent in 14 of the 22 vulval nuclei of late L4 larvae. the common requirement for SQV-4 in both cytokinesis and morphogenesis may be to promote filling an extracellular space with hygroscopic proteoglycans (either in the eggshell, or underneath the L4 cuticle), which in turn may cause the space to fill with fluid. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, morphogenesis of an epithelium, 		protein binding, NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, identical protein binding, 
twk-12	F29F11.4	twk-12 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. as loss of TWK-12 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of TWK-12 in C. elegans development and/or behavior is not yet known. TWK-12 may, however, function redundantly with other TWK channels. the TWK-12 expression pattern has not been determined. [Source: WormBase]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
ceh-22	F29F11.5	The ceh-22 gene encodes a NK-2 family homeodomain factor homologous to Drosophila TINMAN and vertebrate Nkx2-5 proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, type I hypersensitivity, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
gsp-1	F29F11.6	Serine/threonine-protein phosphatase PP1-alpha (EC 3.1.3.16) (CeGLC-7- alpha) (Glc seven-like phosphatase 1). [Source:Uniprot/SWISSPROT;Acc:Q27497]	meiosis, 		hydrolase activity, 
pph-1	C05A2.1	Protein PHosphatase family member (pph-1) [Source:RefSeq_peptide;Acc:NP_505734]			hydrolase activity, 
T28B11.1	T28B11.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
mre-11	ZC302.1	mre-11 encodes a protein orthologous to S. cerevisiae MRE11 and to human MRE11A (OMIM:600814, mutated in ataxia-telangiectasia-like disorder). MRE-11 is required for meiotic recombination and DNA repair in C. elegans, for multigenerational persistence of the germline, and (in conjunction with CHK-2 and SPO-11) for the localization of RAD-51 to foci in late zygotene/early pachytene nuclei. [Source: WormBase]	DNA metabolic process, double-strand break repair, embryonic development ending in birth or egg hatching, 	nucleus, 	endonuclease activity, hydrolase activity, exonuclease activity, manganese ion binding, 
ZC302.2	ZC302.2	Uncharacterized WD repeat protein ZC302.2. [Source:Uniprot/SWISSPROT;Acc:Q23256]			
ZC302.3	ZC302.3	ZC302.3 [Source:RefSeq_peptide;Acc:NP_505738]			
srj-22	F28H7.1	Serpentine Receptor, class J family member (srj-22) [Source:RefSeq_peptide;Acc:NP_505739]			
srj-21	F28H7.11	Serpentine Receptor, class J family member (srj-21) [Source:RefSeq_peptide;Acc:NP_505740]			
F28H7.4	F28H7.4	F28H7.4 [Source:RefSeq_peptide;Acc:NP_505741]	cell redox homeostasis, 		selenium binding, 
F28H7.2	F28H7.2	F28H7.2 [Source:RefSeq_peptide;Acc:NP_505742]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F28H7.3	F28H7.3	F28H7.3 [Source:RefSeq_peptide;Acc:NP_505743]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
F28H7.7	F28H7.7	F28H7.7 [Source:RefSeq_peptide;Acc:NP_505744]			
F28H7.6	F28H7.6	F28H7.6 [Source:RefSeq_peptide;Acc:NP_505745]		membrane, 	
F28H7.8	F28H7.8	Uncharacterized protein F28H7.8. [Source:Uniprot/SWISSPROT;Acc:Q19895]	transport, 	integral to membrane, intracellular, 	transporter activity, 
sre-6	F28H7.9	Serpentine receptor class epsilon-6 (Protein sre-6). [Source:Uniprot/SWISSPROT;Acc:Q19897]	sensory perception of chemical stimulus, locomotory behavior, 	integral to membrane, 	transmembrane receptor activity, 
ocr-1	F28H7.10	Osm-9 and Capsaicin receptor-Related family member (ocr-1) [Source:RefSeq_peptide;Acc:NP_001041107]	ion transport, 	membrane, 	ion channel activity, 
D1054.1	D1054.1	D1054.1 [Source:RefSeq_peptide;Acc:NP_505749]	lipid metabolic process, 		
pas-2	D1054.2	pas-2 encodes a proteasome subunit with highest similarity to vertebrate proteasome alpha 2 subunits. [Source: WormBase]	ubiquitin-dependent protein catabolic process, biological_process, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
D1054.3	D1054.3	D1054.3 [Source:RefSeq_peptide;Acc:NP_505751]	embryonic development ending in birth or egg hatching, 		
NR_002672.1	D1054.17	D1054.17, snoRNA [Source:RefSeq_dna;Acc:NR_002672]			
D1054.5	D1054.5	D1054.5 [Source:RefSeq_peptide;Acc:NP_505752]			protein binding, 
D1054.4	D1054.4				
D1054.6	D1054.6				
D1054.7	D1054.7	D1054.7 [Source:RefSeq_peptide;Acc:NP_505754]			sugar binding, 
D1054.8	D1054.8	D1054.8 [Source:RefSeq_peptide;Acc:NP_505755]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
D1054.9	D1054.9	D1054.9b [Source:RefSeq_peptide;Acc:NP_505757]			protein binding, 
D1054.10	D1054.10	D1054.10 [Source:RefSeq_peptide;Acc:NP_505758]			
D1054.11	D1054.11	D1054.11 [Source:RefSeq_peptide;Acc:NP_505759]	homoiothermy, response to freezing, 		ice binding, 
srh-184	D1054.12	Serpentine Receptor, class H family member (srh-184) [Source:RefSeq_peptide;Acc:NP_505760]			
srh-163	D1054.16				
secs-1	D1054.13	O-phosphoseryl-tRNA(Sec) selenium transferase (EC 2.9.1.-) (Selenocysteine synthase) (Sec synthase) (Selenocysteinyl-tRNA(Sec) synthase) (Sep-tRNA:Sec-tRNA synthase) (SepSecS) (UGA suppressor tRNA- associated protein homolog). [Source:Uniprot/SWISSPROT;Acc:Q18953]			protein binding, catalytic activity, identical protein binding, 
D1054.14	D1054.14	D1054.14 [Source:RefSeq_peptide;Acc:NP_505762]	positive regulation of growth rate, 		
tag-135	D1054.15	Temporarily Assigned Gene name family member (tag-135) [Source:RefSeq_peptide;Acc:NP_505763]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	
C29A12.2	C29A12.2				
C29A12.1	C29A12.1	C29A12.1 [Source:RefSeq_peptide;Acc:NP_505765]			
lig-1	C29A12.3	lig-1 is orthologous to the human gene LIM HOMEOBOX PROTEIN 3 ISOFORM B (LIG1. OMIM:600577), which when mutated leads to disease. [Source: WormBase]	DNA repair, DNA replication, DNA recombination, embryonic development ending in birth or egg hatching, 		ATP binding, DNA binding, DNA ligase (ATP) activity, 
nrx-1	C29A12.4	GLIoTactin (Drosophila neuroligin-like) homolog family member (nrx-1) [Source:RefSeq_peptide;Acc:NP_505767]			calcium ion binding, 
C29A12.6	C29A12.6	C29A12.6 [Source:RefSeq_peptide;Acc:NP_505768]			
F53H10.2	F53H10.2	F53H10.2 [Source:RefSeq_peptide;Acc:NP_505769]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
F32D8.1	F32D8.1	F32D8.1 (F32D8.1) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_073369]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F32D8.2	F32D8.2	F32D8.2 [Source:RefSeq_peptide;Acc:NP_505771]			
F32D8.3	F32D8.3	F32D8.3 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. F32D8.3 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. F32D8.3 has no obvious function in mass RNAi assays. [Source: WormBase]			
F32D8.12	F32D8.12	F32D8.12b [Source:RefSeq_peptide;Acc:NP_001023873]	electron transport, 		oxidoreductase activity, FAD binding, 
F32D8.4	F32D8.4	F32D8.4 is homologous to Yip1p, an essential Golgi membrane protein in S. cerevisiae that specifically binds the transport GTPases Ypt1p and Ypt31p, as well as Yop1p (the yeast homolog of human ADENOMATOUS POLYPOSIS COLI 1). F32D8.4 is also homologous to the Golgi membrane protein SB140 of H. sapiens, and contains a glutamine/asparagine-rich domain. [Source: WormBase]			
F32D8.14	F32D8.14	F32D8.14 [Source:RefSeq_peptide;Acc:NP_001023875]			
F32D8.5	F32D8.5	F32D8.5b [Source:RefSeq_peptide;Acc:NP_505776]	biological_process, 		
F32D8.13	F32D8.13	F32D8.13 [Source:RefSeq_peptide;Acc:NP_872133]	cholesterol biosynthetic process, biological_process, 	cytoplasm, 	phosphomevalonate kinase activity, 
emo-1	F32D8.6	emo-1 encodes an ortholog of S. cerevisiae Sec61p gamma subunit, which is required for translocation of secreted and membrane proteins into the endoplasmic reticulum. EMO-1 is required for oogenesis and ovulation. [Source: WormBase]	protein transport, intracellular protein transport, protein targeting, embryonic development ending in birth or egg hatching, oocyte growth, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
F32D8.7	F32D8.7	F32D8.7 [Source:RefSeq_peptide;Acc:NP_505779]			serine-type endopeptidase inhibitor activity, 
spp-16	F32D8.9	SaPosin-like Protein family member (spp-16) [Source:RefSeq_peptide;Acc:NP_505780]			
F32D8.8	F32D8.8	F32D8.8 [Source:RefSeq_peptide;Acc:NP_505781]			
F32B6.11	F32B6.11	F32B6.11 [Source:RefSeq_peptide;Acc:NP_505782]			
F32D8.10	F32D8.10	F32D8.10 [Source:RefSeq_peptide;Acc:NP_505783]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
F58B4.2	F58B4.2	F58B4.2 [Source:RefSeq_peptide;Acc:NP_505784]			heme binding, transition metal ion binding, 
nas-31	F58B4.1	Zinc metalloproteinase nas-31 precursor (EC 3.4.24.21) (Nematode astacin 31). [Source:Uniprot/SWISSPROT;Acc:Q7JLI1]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F58B4.6	F58B4.6	F58B4.6 [Source:RefSeq_peptide;Acc:NP_001023995]			
F58B4.3	F58B4.3	F58B4.3 [Source:RefSeq_peptide;Acc:NP_505786]			
F58B4.4	F58B4.4	F58B4.4 [Source:RefSeq_peptide;Acc:NP_505787]			
F58B4.5	F58B4.5	F58B4.5 [Source:RefSeq_peptide;Acc:NP_505788]			
F17C11.12	F17C11.12	F17C11.12 [Source:RefSeq_peptide;Acc:NP_505789]	transport, 	integral to membrane, 	transporter activity, 
F17C11.11	F17C11.11	F17C11.11 [Source:RefSeq_peptide;Acc:NP_505790]			
F17C11.1	F17C11.1	F17C11.1 [Source:RefSeq_peptide;Acc:NP_505791]			
F17C11.2	F17C11.2	F17C11.2 [Source:RefSeq_peptide;Acc:NP_505792]	proteolysis, 		zinc ion binding, metallopeptidase activity, 
col-153	F17C11.3	F17C11.3 [Source:RefSeq_peptide;Acc:NP_505793]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F17C11.4	F17C11.4	F17C11.4 [Source:RefSeq_peptide;Acc:NP_505794]			
F17C11.5	F17C11.5	F17C11.5 [Source:RefSeq_peptide;Acc:NP_505795]			sugar binding, 
F17C11.6	F17C11.6	F17C11.6 [Source:RefSeq_peptide;Acc:NP_505796]			
F17C11.13	F17C11.13	F17C11.13 [Source:RefSeq_peptide;Acc:NP_001023811]			
F17C11.7	F17C11.7	F17C11.7b [Source:RefSeq_peptide;Acc:NP_001023813]	negative regulation of multicellular organism growth, 	integral to membrane, GPI-anchor transamidase complex, 	
tag-318	F17C11.8	Temporarily Assigned Gene name family member (tag-318) [Source:RefSeq_peptide;Acc:NP_505798]	regulation of transcription, DNA-dependent, 	intracellular, 	transcription factor activity, sequence-specific DNA binding, 
F17C11.10	F17C11.10	F17C11.10 [Source:RefSeq_peptide;Acc:NP_505799]	embryonic development ending in birth or egg hatching, 		
F17C11.9	F17C11.9	Probable elongation factor 1-gamma (EF-1-gamma) (eEF-1B gamma). [Source:Uniprot/SWISSPROT;Acc:P54412]	translational elongation, positive regulation of growth rate, 	eukaryotic translation elongation factor 1 complex, 	protein binding, translation elongation factor activity, 
F17C11.15	F17C11.15				
NR_003473.1	F17C11.14	F17C11.14, snoRNA [Source:RefSeq_dna;Acc:NR_003473]			
F53B7.5	F53B7.5	F53B7.5 [Source:RefSeq_peptide;Acc:NP_505801]	proteolysis, metabolic process, 		oxidoreductase activity, aspartic-type endopeptidase activity, 
F53B7.2	F53B7.2	F53B7.2 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that F53B7.2 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, intracellular, 	zinc ion binding, nucleic acid binding, rhodopsin-like receptor activity, 
F53B7.7	F53B7.7	F53B7.7 [Source:RefSeq_peptide;Acc:NP_001023959]	embryonic development ending in birth or egg hatching, 		
F53B7.3	F53B7.3	F53B7.3 [Source:RefSeq_peptide;Acc:NP_505803]	embryonic development ending in birth or egg hatching, 		
F53B7.4	F53B7.4	F53B7.4 [Source:RefSeq_peptide;Acc:NP_505804]	signal transduction, chemotaxis, 	membrane, 	signal transducer activity, 
C13G3.1	C13G3.1	C13G3.1 [Source:RefSeq_peptide;Acc:NP_505805]			
hot-6	C13G3.2	Homolog of Odr-2(Two) family member (hot-6) [Source:RefSeq_peptide;Acc:NP_505806]			
pptr-2	C13G3.3	Protein Phosphatase 2A (Two A) Regulatory subunit family member (pptr-2) [Source:RefSeq_peptide;Acc:NP_505808]	signal transduction, growth, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
pak-2	C45B11.1	pak-2 encodes, by alternative splicing, at least two isoforms of a putative p21-activated kinase, orthologous to Drosophila melanogaster MUSHROOM BODIES TINY. pak-2 is expressed in pharynx, the pharyngeal-intestinal valve, vulva, and spermatheca. pak-2(ok332), a probable null allele, has no obvious mutant phenotype in isolation and has no effect on the axonal guidance phenotype of max-2(cy2), but shows some embryonic defects and L1 lethality as a double mutant with the null pak-1(ok448). [Source: WormBase]	protein amino acid phosphorylation, protein complex assembly, actin polymerization and/or depolymerization, 	actin cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, structural constituent of cell wall, small GTPase regulator activity, 
C45B11.5	C45B11.5	C45B11.5 [Source:RefSeq_peptide;Acc:NP_001023709]			
C45B11.2	C45B11.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q18638]			catalytic activity, 
C45B11.6	C45B11.6	C45B11.2 [Source:RefSeq_peptide;Acc:NP_505811]	aromatic compound metabolic process, response to toxin, 	membrane, microsome, 	catalytic activity, hydrolase activity, epoxide hydrolase activity, 
dhs-18	C45B11.3	DeHydrogenases, Short chain family member (dhs-18) [Source:RefSeq_peptide;Acc:NP_505812]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
srh-74	C45B11.4	Serpentine Receptor, class H family member (srh-74) [Source:RefSeq_peptide;Acc:NP_505813]			
T04C12.7	T04C12.7	T04C12.7 [Source:RefSeq_peptide;Acc:NP_001024101]			
srh-75	T04C12.2	Serpentine Receptor, class H family member (srh-75) [Source:RefSeq_peptide;Acc:NP_001024099]			
T04C12.1	T04C12.1	T04C12.1 [Source:RefSeq_peptide;Acc:NP_505815]			nutrient reservoir activity, 
T04C12.3	T04C12.3	T04C12.3 [Source:RefSeq_peptide;Acc:NP_505816]			
T04C12.8	T04C12.8	T04C12.8 [Source:RefSeq_peptide;Acc:NP_001024102]			
act-3	T04C12.4	act-3 encodes an invertebrate actin, highly similar to ACT-1, ACT-2, and ACT-4, that functions in body wall muscle. act-3 functions with two other action isoforms, act-1 and act-2, to control cytoplasmic microfilament function in the early embryo. [Source: WormBase]	reproduction, actin filament-based process, 		ATP binding, protein binding, 
act-2	T04C12.5	act-2 encodes an invertebrate actin that may function specifically in the pharynx. [Source: WormBase]	embryonic development, reproduction, 		ATP binding, protein binding, 
act-1	T04C12.6	act-1 encodes an actin isoform that is required for proper body wall muscle and pharyngeal muscle structures and the motility of animals. actins have highly similar amino acid sequences. ACT-1 is identical to ACT-3. act-1 functions redundantly with two other actin isoforms, act-2 and act-3, to control cytoplasmic microfilament function in the early embryo. [Source: WormBase]	actin cytoskeleton organization and biogenesis, reproduction, muscle development, 		ATP binding, protein binding, 
Y42A5A.1	Y42A5A.1	Y42A5A.1 [Source:RefSeq_peptide;Acc:NP_505820]	proteolysis, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
lact-8	Y42A5A.2	Y42A5A.2 [Source:RefSeq_peptide;Acc:NP_505821]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
Y42A5A.3	Y42A5A.3	Y42A5A.3 [Source:RefSeq_peptide;Acc:NP_505822]			
Y42A5A.4	Y42A5A.4	Y42A5A.4 [Source:RefSeq_peptide;Acc:NP_505823]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y42A5A.5	Y42A5A.5	Y42A5A.5 [Source:RefSeq_peptide;Acc:NP_001024237]			
H19N07.1	H19N07.1	H19N07.1 [Source:RefSeq_peptide;Acc:NP_505824]	positive regulation of growth rate, 		protein binding, GTP binding, GTPase activity, 
math-33	H19N07.2	The H19N07.2 gene encodes a protein with a meprin-associated Traf homology (MATH) domain that may be involved in apoptosis. [Source: WormBase]	ubiquitin-dependent protein catabolic process, positive regulation of multicellular organism growth, protein deubiquitination, 	nucleus, 	ubiquitin thiolesterase activity, ubiquitin-specific protease activity, 
H19N07.3	H19N07.3	H19N07.3 [Source:RefSeq_peptide;Acc:NP_505827]			
H19N07.4	H19N07.4	H19N07.4 encodes an integral membrane protein with acyl-CoA:diacylglycerol o-acyltransferase activity when expressed in yeast. H19N07.4 belongs to the MBOAT protein family, whose biochemically characterized members transfer fatty acids or acetate to membrane-associated hydroxyl-bearing substrates such as cholesterol, diacylglycerol, long-chain alcohols, or alginate. MBOAT proteins include MOM-1 and its Drosophila homolog PORCUPINE, involved in Wnt signalling. H19N07.4 has no obvious function in mass RNAi assays. [Source: WormBase]	DNA repair, 	intracellular, 	DNA binding, endonuclease activity, 
atp-5	C06H2.1	ATP synthase subunit family member (atp-5) [Source:RefSeq_peptide;Acc:NP_505829]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
C06H2.6	C06H2.6	C06H2.6 [Source:RefSeq_peptide;Acc:NP_741627]			protein binding, 
C06H2.2	C06H2.2	C06H2.2 [Source:RefSeq_peptide;Acc:NP_505830]			
C06H2.3	C06H2.3	C06H2.3 [Source:RefSeq_peptide;Acc:NP_505831]	metabolic process, DNA repair, 		N-acetyltransferase activity, 
C06H2.5	C06H2.5	C06H2.5 [Source:RefSeq_peptide;Acc:NP_505832]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
folt-1	C06H2.4	folt-1 encodes a folate transporter required for folate uptake. FOLT-1 is orthologous to human SLC19A1 (OMIM:600424), SLC19A2 (OMIM:603941, mutated in thiamine-responsive megaloblastic anemia syndrome), and SLC19A3 (OMIM:606152, mutated in biotin-responsive basal ganglia disease). heterologously expressed FOLT-1 transports folate in vitro. FOLT-1 activity is acid-dependent, is sodium-independent, and is inhibited by folate derivatives, sulfasalazine, or anion transport inhibitors such as 4,4''-diisothio-cyanatostilbene-2,2''-disulphonic acid (DIDS). folt-1(ok1460) and folt-1(RNAi) animals show significantly lowered folate uptake. folt-1 is expressed in several tissues, including (most strongly) pharynx and posterior intestine, as well as head, body wall, and vulva muscles, and gonad sheath cells. FOLT-1's intestinal expression diminishes with age from larvae to adults. both FOLT-1 intestinal expression and whole-animal folate uptake are lowered in folate-supplemented food media. FOLT-1 has no obvious function in mass RNAi assays, perhaps because of genetic redundancy with its paralogs FOLT-2 and FOLT-3. however, folt-1(ok1460) mutants are sluggish and sterile, which might instead indicate that FOLT-1 is required for locomotion and fertility. [Source: WormBase]	transport, 	membrane, 	folic acid binding, reduced folate carrier activity, 
C06H2.7	C06H2.7	C06H2.7 [Source:RefSeq_peptide;Acc:NP_001021378]			
nlp-33	T19C4.7	Neuropeptide-like protein 33 precursor. [Source:Uniprot/SWISSPROT;Acc:Q95ZN4]	protein homooligomerization, 	membrane, 	
T19C4.1	T19C4.1	T19C4.1 [Source:RefSeq_peptide;Acc:NP_505835]			
srg-39	T19C4.2	Serpentine Receptor, class G (gamma) family member (srg-39) [Source:RefSeq_peptide;Acc:NP_505836]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-38	T19C4.8	Serpentine Receptor, class G (gamma) family member (srg-38) [Source:RefSeq_peptide;Acc:NP_872228]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-42	T19C4.9	Serpentine Receptor, class G (gamma) family member (srg-42) [Source:RefSeq_peptide;Acc:NP_872229]	signal transduction, 	membrane, 	transmembrane receptor activity, 
srg-41	T19C4.3	Serpentine Receptor, class G (gamma) family member (srg-41) [Source:RefSeq_peptide;Acc:NP_505837]	signal transduction, cell communication, 	membrane, connexon complex, 	transmembrane receptor activity, 
srg-40	T19C4.4	Serpentine Receptor, class G (gamma) family member (srg-40) [Source:RefSeq_peptide;Acc:NP_505838]	signal transduction, cell communication, 	membrane, connexon complex, 	transmembrane receptor activity, 
T19C4.10	T19C4.10				
T19C4.5	T19C4.5	T19C4.5 [Source:RefSeq_peptide;Acc:NP_505839]			
gpa-1	T19C4.6	gpa-1 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that is involved in chemotaxis to water-soluble odorants. it is expressed in sensory neurons and in the spicule and phasmid neurons of the male tail. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
T19C4.t1	T19C4.t1				
T19C4.12	T19C4.12				
T19C4.11	T19C4.11				
cnc-10	VK10D6R.1	CaeNaCin (Caenorhabditis bacteriocin) family member (cnc-10) [Source:RefSeq_peptide;Acc:NP_001024178]	protein homooligomerization, 	membrane, 	
VK10D6R.t1	VK10D6R.t1				
K10D6.1	K10D6.1	K10D6.1 [Source:RefSeq_peptide;Acc:NP_505841]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
K10D6.2	K10D6.2	K10D6.2 encodes three isoforms of a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. K10D6.2A-C are worm-specific, with obvious homologs only in C. elegans. K10D6.2A-C are required for embryonic viability in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	integral to membrane, 	
K10D6.3	K10D6.3	K10D6.3 [Source:RefSeq_peptide;Acc:NP_505845]			
K10D6.4	K10D6.4	K10D6.4 [Source:RefSeq_peptide;Acc:NP_505846]			
cyp-29A2	T19B10.1	CYtochrome P450 family member (cyp-29A2) [Source:RefSeq_peptide;Acc:NP_505847]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
T19B10.2	T19B10.2	T19B10.2 [Source:RefSeq_peptide;Acc:NP_505848]	locomotory behavior, 		
T19B10.3	T19B10.3	The T19B10.3 gene encodes an ortholog of the human gene GALACTOSIDASE, BETA 1 (GLB1), which when mutated leads to gangliosidosis type I (OMIM:230500). [Source: WormBase]	carbohydrate metabolic process, 	beta-galactosidase complex, 	beta-galactosidase activity, 
pqn-70	T19B10.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
T19B10.5	T19B10.5	T19B10.5 encodes a protein with partial similarity to human PERIAXIN (PRX. OMIM:605725), which when mutated leads to Dejerine-Sottas neuropathy. [Source: WormBase]			protein binding, 
T19B10.6	T19B10.6	T19B10.6 [Source:RefSeq_peptide;Acc:NP_505853]	proteolysis, DNA repair, reproduction, 		zinc ion binding, metallopeptidase activity, DNA binding, 
ima-1	T19B10.7	ima-1 encodes a member of the importin family. [Source: WormBase]	intracellular protein transport, protein import into nucleus, embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, nuclear pore, 	protein transporter activity, 
T19B10.8	T19B10.8	T19B10.8 [Source:RefSeq_peptide;Acc:NP_505855]	embryonic development ending in birth or egg hatching, 		
mxl-1	T19B10.11	MaX-Like family member (mxl-1) [Source:RefSeq_peptide;Acc:NP_505856]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription regulator activity, transcription factor activity, 
T19B10.9	T19B10.9	T19B10.9 [Source:RefSeq_peptide;Acc:NP_505857]	reproduction, 		
srsx-33	T19B10.10	Serpentine Receptor, class SX family member (srsx-33) [Source:RefSeq_peptide;Acc:NP_505858]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-31	F07B10.6	Serpentine Receptor, class SX family member (srsx-31) [Source:RefSeq_peptide;Acc:NP_001023767]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F07B10.5	F07B10.5	F07B10.5 [Source:RefSeq_peptide;Acc:NP_001023766]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
F07B10.4	F07B10.4	F07B10.4 [Source:RefSeq_peptide;Acc:NP_001023765]			
cln-3.1	F07B10.1	cln-3.1 encodes a predicted transmembrane protein that comprises one of three C. elegans homologs of human CLN3, (OMIM:607042, mutations are associated with Batten disease (also known as juvenile neuronal ceroid lipofuscinosis), a recessively inherited childhood neurodegenerative lysosomal storage disease). as loss of cln-3.1 activity via deletion mutation results in no obvious abnormalities, the precise role of cln-3.1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	determination of adult life span, 	membrane, 	
str-116	F07B10.2	Seven TM Receptor family member (str-116) [Source:RefSeq_peptide;Acc:NP_505860]			
str-115	F07B10.3	Seven TM Receptor family member (str-115) [Source:RefSeq_peptide;Acc:NP_505861]			
C03E10.6	C03E10.6	C03E10.6 [Source:RefSeq_peptide;Acc:NP_505862]	embryonic development ending in birth or egg hatching, 		sugar binding, 
C03E10.5	C03E10.5	C03E10.5 [Source:RefSeq_peptide;Acc:NP_505863]			sugar binding, 
gly-20	C03E10.4	gly-20 is orthologous to the human gene MANNOSYL (ALPHA-1,6-)-GLYCOPROTEIN BETA-1,2-N-ACETYLGLUCOSAMINYLTRANSFERASE (MGAT2. OMIM:602616), which when mutated leads to carbohydrate-deficient glycoprotein syndrome, type II. [Source: WormBase]	oligosaccharide biosynthetic process, 	integral to membrane, Golgi stack, 	alpha-1,6-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity, 
C03E10.3	C03E10.3	C03E10.3 [Source:RefSeq_peptide;Acc:NP_505865]			
C03E10.1	C03E10.1	C03E10.1 [Source:RefSeq_peptide;Acc:NP_505867]			
T03F7.6	T03F7.6	T03F7.6 [Source:RefSeq_peptide;Acc:NP_505868]			
T03F7.5	T03F7.5	T03F7.5 [Source:RefSeq_peptide;Acc:NP_505869]			
srh-47	T03F7.4	Serpentine Receptor, class H family member (srh-47) [Source:RefSeq_peptide;Acc:NP_505870]	cation transport, 	membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
srh-46	T03F7.3	Serpentine Receptor, class H family member (srh-46) [Source:RefSeq_peptide;Acc:NP_505871]			
srh-45	T03F7.2	Serpentine Receptor, class H family member (srh-45) [Source:RefSeq_peptide;Acc:NP_505872]	transport, fumarate metabolic process, 	membrane, 	nucleoside transmembrane transporter activity, 
snf-11	T03F7.1	Sodium:Neurotransmitter symporter Family family member (snf-11) [Source:RefSeq_peptide;Acc:NP_505873]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
T03F7.7	T03F7.7	T03F7.7a [Source:RefSeq_peptide;Acc:NP_505874]	transport, 	integral to membrane, 	
F47G9.3	F47G9.3	F47G9.3 [Source:RefSeq_peptide;Acc:NP_505875]			
NR_003480.1	T03F7.8	T03F7.8, snoRNA [Source:RefSeq_dna;Acc:NR_003480]			
F47G9.4	F47G9.4	F47G9.4 [Source:RefSeq_peptide;Acc:NP_505876]		intracellular, 	protein binding, zinc ion binding, 
str-141	F47G9.2	Seven TM Receptor family member (str-141) [Source:RefSeq_peptide;Acc:NP_505878]			
F47G9.1	F47G9.1	F47G9.1 [Source:RefSeq_peptide;Acc:NP_505879]			
F47G9.6	F47G9.6	F47G9.6 [Source:RefSeq_peptide;Acc:NP_505880]	peptide cross-linking, 		protein-glutamine gamma-glutamyltransferase activity, 
T02E9.6	T02E9.6	T02E9.6 [Source:RefSeq_peptide;Acc:NP_001024095]			
T02E9.5	T02E9.5	T02E9.5 [Source:RefSeq_peptide;Acc:NP_505881]			
grl-7	T02E9.2	grl-7 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-7 is expressed in intestine, hypodermis, and seam cells. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	homoiothermy, response to freezing, type I hypersensitivity, 		protein binding, ice binding, 
T02E9.1	T02E9.1	T02E9.1 [Source:RefSeq_peptide;Acc:NP_505883]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
T02E9.4	T02E9.4				
T02E9.3	T02E9.3	T02E9.3 encodes a homolog of human melatonin type 1b receptors, and more generally of mammalian dopamine and serotonin (5-HT) receptors. T02E9.3 is partly required for male tail curling, with T02E9.3(RNAi) animals showing reduced curling in exogenous 5-HT. T02E9.3 is required for full sensitivity to 5-HT, normal brood sizes, and pharyngeal pumping. T02E9.3 is expressed in head and tail neurons. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, reproduction, 	integral to membrane, 	rhodopsin-like receptor activity, 
cnb-1	F55C10.1	cnb-1 encodes an ortholog of calcineurin B, the regulatory subunit of the protein phosphatase 2B with four EF-hand motifs for calcium binding, that binds TAX-6 (a calcineurin A ortholog) in a calcium-dependent manner. CNB-1 binds calcium, enhances the phosphatase activity of TAX-6 in vitro, promotes transcription of rcn-1, and is required for normal cuticle formation, sperm morphology, and brood size. [Source: WormBase]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
F55C10.5	F55C10.5	F55C10.5 [Source:RefSeq_peptide;Acc:NP_001023978]			
col-154	F55C10.2	F55C10.2 [Source:RefSeq_peptide;Acc:NP_505886]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
F55C10.4	F55C10.4	UPF0392 protein F55C10.4. [Source:Uniprot/SWISSPROT;Acc:Q20806]			
col-155	F55C10.3	Putative cuticle collagen 155. [Source:Uniprot/SWISSPROT;Acc:Q21184]	phosphate transport, multicellular organismal development, Wnt receptor signaling pathway, calcium modulating pathway, post-embryonic body morphogenesis, 	cytoplasm, extracellular region, 	signal transducer activity, 
K03B8.11	K03B8.11	K03B8.11 [Source:RefSeq_peptide;Acc:NP_001024027]			
NR_000584.1	K03B8.10	K03B8.10, snRNA [Source:RefSeq_dna;Acc:NR_000584]			
nas-16	K03B8.1	Zinc metalloproteinase nas-16 precursor (EC 3.4.24.21) (Nematode astacin 16). [Source:Uniprot/SWISSPROT;Acc:Q21180]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
K03B8.4	K03B8.4	K03B8.4 [Source:RefSeq_peptide;Acc:NP_505890]	embryonic development ending in birth or egg hatching, 		
nas-18	K03B8.3	Zinc metalloproteinase nas-18 precursor (EC 3.4.24.21) (Nematode astacin 18). [Source:Uniprot/SWISSPROT;Acc:Q21179]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
nas-17	K03B8.2	Zinc metalloproteinase nas-17 precursor (EC 3.4.24.21) (Nematode astacin 17). [Source:Uniprot/SWISSPROT;Acc:Q21178]	proteolysis, 		zinc ion binding, metallopeptidase activity, nutrient reservoir activity, astacin activity, 
nas-19	K03B8.5	Zinc metalloproteinase nas-19 precursor (EC 3.4.24.21) (Nematode astacin 19). [Source:Uniprot/SWISSPROT;Acc:Q21181]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
K03B8.6	K03B8.6	K03B8.6 [Source:RefSeq_peptide;Acc:NP_505894]			metal ion binding, catalytic activity, 
K03B8.8	K03B8.8	K03B8.8 [Source:RefSeq_peptide;Acc:NP_505895]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
grl-3	K03B8.7	grl-3 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-3 is expressed in intestine, larval renal gland cells, and larval neurons. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
K03B8.t1	K03B8.t1				
deg-3	K03B8.9	deg-3 encodes an alpha subunit of a nicotinic acetylcholine receptor (nAChR). originally defined by a gain-of-function mutation that results in neuronal degeneration and uncoordinated movement, DEG-3 can form heteromeric channels with a second alpha subunit, DES-2, and in vivo these channels appear to be required for chemosensation of choline. deg-3 and des-2 reside in an operon, and consistent with their role in metabolite chemosensation, are expressed in nonsynaptic regions such as the sensory endings of the IL2 chemosensory neurons. DEG-3 and DES-2 are also detected in the touch cell neurons, M1 head muscles, FLP and PVD sensory neurons, and the PVC interneuron. in subsets of these neurons, DEG-3 expression is not detectable in mec-3 or unc-86 mutant backgrounds. [Source: WormBase]	transport, ion transport, regulation of non-apoptotic programmed cell death, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
des-2	T26H10.1	des-2 encodes an alpha subunit of nicotinic acetylcholine receptor (nAChR), predicted to be a ligand-gated ion channel regulating the fast action of acetylcholine at neuromuscular junctions and in the nervous system. DES-2 is coexpressed with and genetically interacts with DEG-3, which which it probably forms heteromultimers, and DES-2 falls into the 'DEG-3' class of nAChR subunits, probably unique to nematodes, which includes DEG-3, ACR-5, ACR-17, ACR-18 ACR-20, and ACR-23. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F57B7.1	F57B7.1	F57B7.1b [Source:RefSeq_peptide;Acc:NP_741630]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F57B7.2	F57B7.2	F57B7.2 [Source:RefSeq_peptide;Acc:NP_505900]		extracellular region, 	
mig-17	F57B7.4	mig-17 encodes a secreted metalloprotease that is a member of the ADAM (A Disintegrin And Metalloprotease) protein family. MIG-17 activity is required for proper migration of gonadal leader cells, namely the hermaphrodite distal tip cells (DTCs) and the male linker cell (MLC). a MIG-17::GFP translational fusion protein is first detected in late embryos with expression continuing through adulthood. expression is initially seen on the pseudocoelomic face of body wall muscles and then on the surface of the gonad, when the DTCs migrate on the lateral hypodermis towards the dorsal muscles. proper MIG-17 localization and glycosylation requires activity of MIG-23, a membrane-bound nucleoside diphosphatase, as well as activity of COGC-3 and COGC-1, two members of the conserved oligomeric Golgi complex. expression studies with MIG-17 deletion derivatives indicate that MIG-17 is expressed by the body wall muscles and then localizes to the DTCs where its activity is sufficient for guiding DTC migration. [Source: WormBase]	proteolysis, regulation of cell migration, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, peptidase activity, 
col-156	F57B7.3	F57B7.3 [Source:RefSeq_peptide;Acc:NP_505902]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T11F9.1	T11F9.1	T11F9.1 [Source:RefSeq_peptide;Acc:NP_505903]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
tag-140	T11F9.2	Temporarily Assigned Gene name family member (tag-140) [Source:RefSeq_peptide;Acc:NP_505904]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
aat-6	T11F9.4	aat-6 encodes a predicted amino acid transporter catalytic subunit. unlike catalytic subunits in other organisms, however, AAT-6 does not contain the highly conserved cysteine residue known to facilitate covalent interaction with a glycoprotein subunit, suggesting that AAT-6 does not require this residue for heterodimer formation or alternatively, does not require the glycoprotein subunit for function. [Source: WormBase]	transport, 	membrane, 	amino acid transmembrane transporter activity, 
nas-20	T11F9.3	Zinc metalloproteinase nas-20 precursor (EC 3.4.24.21) (Nematode astacin 20). [Source:Uniprot/SWISSPROT;Acc:Q22396]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
nas-21	T11F9.5	Nematode AStacin protease family member (nas-21) [Source:RefSeq_peptide;Acc:NP_505907]	proteolysis, 		metallopeptidase activity, astacin activity, 
nas-22	T11F9.6	Zinc metalloproteinase nas-22 precursor (EC 3.4.24.21) (Nematode astacin 22). [Source:Uniprot/SWISSPROT;Acc:Q22398]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
T11F9.7	T11F9.7	T11F9.7 [Source:RefSeq_peptide;Acc:NP_505909]			
T11F9.8	T11F9.8	T11F9.8 [Source:RefSeq_peptide;Acc:NP_505910]	proteolysis, 		astacin activity, 
NR_000587.1	T11F9.15	T11F9.15, snRNA [Source:RefSeq_dna;Acc:NR_000587]			
srh-9	T11F9.17				
T11F9.14	T11F9.14	T11F9.14 [Source:RefSeq_peptide;Acc:NP_505911]			
T11F9.13	T11F9.13	T11F9.13 [Source:RefSeq_peptide;Acc:NP_505912]	positive regulation of growth rate, 		
col-157	T11F9.9	T11F9.9 [Source:RefSeq_peptide;Acc:NP_505913]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, extracellular region, 	structural constituent of cuticle, hormone activity, 
srh-1	T11F9.18	Serpentine Receptor, class H family member (srh-1) [Source:RefSeq_peptide;Acc:NP_001024135]			
T11F9.10	T11F9.10	T11F9.10 [Source:RefSeq_peptide;Acc:NP_505914]			
NR_000588.1	T11F9.16	T11F9.16, snRNA [Source:RefSeq_dna;Acc:NR_000588]			
dhs-19	T11F9.11	dhs-19 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T11F9.19	T11F9.19	T11F9.19 [Source:RefSeq_peptide;Acc:NP_001024136]			
T11F9.12	T11F9.12	T11F9.12 [Source:RefSeq_peptide;Acc:NP_505916]			
C55A6.12	C55A6.12	C55A6.12 [Source:RefSeq_peptide;Acc:NP_001023742]			
C55A6.1	C55A6.1	C55A6.1 [Source:RefSeq_peptide;Acc:NP_505917]			protein binding, zinc ion binding, 
C55A6.10	C55A6.10	C55A6.10 [Source:RefSeq_peptide;Acc:NP_741631]			
ttll-5	C55A6.2	ttll-5 encodes a putative tubulin polyglutamylase orthologous to human TTLL5. TTLL-5 is required for embryonic development and fertility. by orthology, TTLL-5 is expected to initiate glutamyl chains rather than elongating them, to prefer alpha-tubulin over beta-tubulin as a substrate, and to have non-tubulin substrates. [Source: WormBase]	protein modification process, embryonic development ending in birth or egg hatching, 		tubulin-tyrosine ligase activity, 
C55A6.3	C55A6.3	C55A6.3 [Source:RefSeq_peptide;Acc:NP_505919]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C55A6.6	C55A6.6	C55A6.6 [Source:RefSeq_peptide;Acc:NP_505920]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
sdz-8	C55A6.5	SKN-1 Dependent Zygotic transcript family member (sdz-8) [Source:RefSeq_peptide;Acc:NP_505921]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C55A6.4	C55A6.4	C55A6.4 [Source:RefSeq_peptide;Acc:NP_505922]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
C55A6.8	C55A6.8	C55A6.8 [Source:RefSeq_peptide;Acc:NP_505923]			oxidoreductase activity, 
C55A6.7	C55A6.7	C55A6.7 [Source:RefSeq_peptide;Acc:NP_505924]	metabolic process, defense response, 		oxidoreductase activity, 
C55A6.11	C55A6.11	C55A6.11 [Source:RefSeq_peptide;Acc:NP_001023741]	embryonic development ending in birth or egg hatching, 		
C55A6.9	C55A6.9	C55A6.9 [Source:RefSeq_peptide;Acc:NP_505925]	embryonic development ending in birth or egg hatching, 		
F38B7.1	F38B7.1	F38B7.1a [Source:RefSeq_peptide;Acc:NP_505926]			zinc ion binding, nucleic acid binding, 
F38B7.2	F38B7.2	F38B7.2 [Source:RefSeq_peptide;Acc:NP_505928]			
F38B7.3	F38B7.3	F38B7.3 [Source:RefSeq_peptide;Acc:NP_505929]			
srx-85	F38B7.4	Serpentine Receptor, class X family member (srx-85) [Source:RefSeq_peptide;Acc:NP_505930]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
duo-1	F38B7.5	Deubiquitylating with USP/UBP and OTU domains family member (duo-1) [Source:RefSeq_peptide;Acc:NP_505931]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
srx-71	F38B7.6	srx-71 is orthologous to the human gene HOMOLOG OF MOUSE PROGRESSIVE ANKYLOSIS mouse 'progressive ankylosis' (ANKH. OMIM:605145), which when mutated leads to craniometaphyseal dysplasia. [Source: WormBase]			
srx-72	F38B7.9				
srx-86	F38B7.7	Serpentine Receptor, class X family member (srx-86) [Source:RefSeq_peptide;Acc:NP_001023896]			
srx-87	F38B7.8	Serpentine Receptor, class X family member (srx-87) [Source:RefSeq_peptide;Acc:NP_001023897]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
pms-2	H12C20.2	PMS (Post Meiotic Segregation) family member (pms-2) [Source:RefSeq_peptide;Acc:NP_505934]	mismatch repair, pathogenesis, embryonic development ending in birth or egg hatching, 	extracellular region, 	ATP binding, protein binding, mismatched DNA binding, 
nhr-101	H12C20.6	nhr-101 encodes a member of the nuclear hormone receptor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-68	H12C20.3	Nuclear Hormone Receptor family member (nhr-68) [Source:RefSeq_peptide;Acc:NP_505936]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srx-91	H12C20.4				
srx-90	H12C20.5	Serpentine Receptor, class X family member (srx-90) [Source:RefSeq_peptide;Acc:NP_505938]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-88	F43A11.1	Serpentine Receptor, class X family member (srx-88) [Source:RefSeq_peptide;Acc:NP_505939]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, 
F43A11.8	F43A11.8				
srx-89	F43A11.3	Serpentine Receptor, class X family member (srx-89) [Source:RefSeq_peptide;Acc:NP_001023914]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-82	F43A11.6	Serpentine Receptor, class X family member (srx-82) [Source:RefSeq_peptide;Acc:NP_001023916]			
srx-80	F43A11.4	Serpentine Receptor, class X family member (srx-80) [Source:RefSeq_peptide;Acc:NP_001023915]			
srx-81	F43A11.5				
srx-83	F43A11.7				
srx-84	F35B12.1	Serpentine Receptor, class X family member (srx-84) [Source:RefSeq_peptide;Acc:NP_872236]			
F35B12.9	F35B12.9	F35B12.9 [Source:RefSeq_peptide;Acc:NP_505940]			
dhs-20	F35B12.2	dhs-20 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F35B12.3	F35B12.3	F35B12.3 [Source:RefSeq_peptide;Acc:NP_505942]	metabolic process, 		
F35B12.4	F35B12.4	F35B12.4 [Source:RefSeq_peptide;Acc:NP_505943]			serine-type endopeptidase inhibitor activity, 
sas-5	F35B12.5	sas-5 encodes a coiled-coil protein whose activity is required, paternally, maternally, and in a dose-dependent manner, for daughter centriole formation. SAS-5 localizes to both the cytoplasm and to centrioles, and photobleaching experiments reveal rapid SAS-5 cycling between these two cellular components throughout the cell cycle. SAS-5 localization to centrioles depends upon the ZYG-1 kinase and the SAS-6 coiled-coil protein, two proteins also required for centriole duplication. in turn, SAS-5 activity is required for SAS-6 centriolar localization, as SAS-6 fails to localize properly in sas-5 mutant embryos. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
tag-290	F35B12.6	Temporarily Assigned Gene name family member (tag-290) [Source:RefSeq_peptide;Acc:NP_505945]			serine-type endopeptidase inhibitor activity, 
nlp-24	F35B12.7	Neuropeptide-Like Protein family member (nlp-24) [Source:RefSeq_peptide;Acc:NP_505946]	protein homooligomerization, 	membrane, 	
F35B12.8	F35B12.8	F35B12.8 [Source:RefSeq_peptide;Acc:NP_505947]			
F35B12.10	F35B12.10	F35B12.10 [Source:RefSeq_peptide;Acc:NP_001023876]			
T27F2.2	T27F2.2	T27F2.2 encodes a homolog of human SIPA1/EHBP1L1 (OMIM:602180) and its paralogs. [Source: WormBase]	regulation of small GTPase mediated signal transduction, 	intracellular, 	protein binding, GTPase activator activity, 
bir-1	T27F2.3	bir-1 encodes a homolog of the baculoviral inhibitor-of-apoptosis (IAP) repeat (BIR) proteins (BIRPs) family. [Source: WormBase]	anti-apoptosis, positive regulation of growth rate, 	intracellular, 	protein binding, 
skp-1	T27F2.1	skp-1 encodes the C. elegans ortholog of the SKI-binding protein (SKIP). skp-1 is predicted to function as a transcriptional cofactor and its activity is essential for embryogenesis and molting. skp-1 is also required for normal expression of several embryonic genes, as assayed by gfp reporter fusions. SKP-1 is widely expressed from embryogenesis through adulthood. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, 
T27F2.4	T27F2.4	T27F2.4 [Source:RefSeq_peptide;Acc:NP_505951]	regulation of transcription, DNA-dependent, negative regulation of multicellular organism growth, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
ceh-27	F46F3.1	ceh-27 encodes a homeodomain protein of the NK-2 class that contains Drosophila scarecrow and human NKX-2 (OMIM:606727). CEH-27 activity is essential for embryogenesis and appears to be required for maintaining hypodermal integrity during movement as embryos lacking CEH-27 burst at a breach in the ventral hypodermis upon commencement of muscle contractions. CEH-27 expression is first detected in the ~100-cell embryo in what appear to be MS-derived cells while in later embryos expression is seen in a number of cells in the anterior head region. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F46F3.3	F46F3.3	F46F3.3 [Source:RefSeq_peptide;Acc:NP_505953]			
F46F3.2	F46F3.2	F46F3.2 [Source:RefSeq_peptide;Acc:NP_505954]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
ape-1	F46F3.4	ape-1 encodes an ortholog of inhibitory p53-interacting protein (iASPP). APE-1 binds CEP-1 in vitro, and shares 38% amino-acid identity in its ankyrin repeats and SH3 domain to iASPP, with many iASPP residues contacting p53 being conserved. RNAi of ape-1 induces CEP-1- and HUS-1-dependent apoptosis in the germline, consistent with inhibition of the CEP-1/HUS-1 DNA damage checkpoint by APE-1 in the germline. excess ape-1(RNAi) apoptosis also requires CED-3. [Source: WormBase]	cell death, 		
W05E10.2	W05E10.2	W05E10.2 [Source:RefSeq_peptide;Acc:NP_505956]			
W05E10.1	W05E10.1	W05E10.1 [Source:RefSeq_peptide;Acc:NP_505957]	transport, 	integral to membrane, 	transporter activity, 
W05E10.5	W05E10.5	W05E10.5 [Source:RefSeq_peptide;Acc:NP_001024188]			
ceh-32	W05E10.3	ceh-32 encodes a Six/sine oculis-type homeodomain protein most closely related to the Six3/6 subfamily that contains Drosophila OPTIX and human SIX3 (OMIM:603714, which when mutated leads to holoprosencephaly 2). CEH-32 appears to be essential for development and required for proper head morphogenesis. during embryogenesis, CEH-32 is expressed in hypodermal and neuronal precursors, and at later stages, in the descendants of these cells and in gonadal sheath cells. in some hypodermal cells, ceh-32 is a direct transcriptional target of VAB-3, a PAX-6 ortholog sufficient to induce ceh-32 expression in some cell types and able to bind the ceh-32 promoter in vitro. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, biological_process, post-embryonic morphogenesis, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
tre-3	W05E10.4	tre-3 encodes one of four putative trehalases in C. elegans of unknown function, as RNAi analysis has not produced an obvious phenotype. expressed throughout development. [Source: WormBase]	trehalose metabolic process, 		alpha,alpha-trehalase activity, 
daf-11	B0240.3	The daf-11 gene encodes a guanylate cyclase that affects dauer formation, chemotaxis, and axon formation. it is genetically upstream of daf-12 with respect to dauer larvae formation and is expressed in a subset of amphid neurons. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, embryonic development ending in birth or egg hatching, dauer larval development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
rhr-2	B0240.1	rhr-2 encodes a predicted transmembrane protein with similarity to human Rh blood group antigens proposed to function in inorganic ion transport and metabolism. the role of RHR-2 in C. elegans development or behavior remains unclear, as loss of RHR-2 function via RNA-mediated interference does not result in any abnormalities. [Source: WormBase]		membrane, 	
npp-22	B0240.4	Nucleoporin ndc-1 (Nucleoporin npp-22). [Source:Uniprot/SWISSPROT;Acc:Q8I4N3]			
spe-42	B0240.2	defective SPErmatogenesis family member (spe-42) [Source:RefSeq_peptide;Acc:NP_872213]		integral to membrane, 	
T04F3.1	T04F3.1	T04F3.1 [Source:RefSeq_peptide;Acc:NP_505963]	biosynthetic process, 		pyridoxal phosphate binding, 1-aminocyclopropane-1-carboxylate synthase activity, transferase activity, transferring nitrogenous groups, 
T04F3.2	T04F3.2	T04F3.2 [Source:RefSeq_peptide;Acc:NP_505964]			calcium ion binding, 
T04F3.3	T04F3.3	T04F3.3 [Source:RefSeq_peptide;Acc:NP_505965]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
T04F3.4	T04F3.4	T04F3.4 [Source:RefSeq_peptide;Acc:NP_505966]			calcium ion binding, 
F55A11.1	F55A11.1	F55A11.1 [Source:RefSeq_peptide;Acc:NP_505967]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
syn-3	F55A11.2	Putative syntaxin-3. [Source:Uniprot/SWISSPROT;Acc:Q20797]	intracellular protein transport, vesicle-mediated transport, biological_process, synaptic vesicle docking during exocytosis, 	membrane, 	protein transporter activity, protein binding, 
hrd-1	F55A11.3	E3 ubiquitin-protein ligase hrd-1 precursor (EC 6.3.2.-). [Source:Uniprot/SWISSPROT;Acc:Q20798]			protein binding, zinc ion binding, 
F55A11.4	F55A11.4		embryonic development ending in birth or egg hatching, 		
acl-10	F55A11.5	ACyLtransferase-like family member (acl-10) [Source:RefSeq_peptide;Acc:NP_505971]	metabolic process, 		acyltransferase activity, 
F55A11.6	F55A11.6	F55A11.6 encodes a protein most similar to glutathione S-transferases. as loss of F55A11.6 activity via large-scale RNAi results in no obvious defects, the precise role of F55A11.6 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
F55A11.11	F55A11.11	F55A11.11 encodes a member of the histidine phosphatase superfamily orthologous to Bombyx mori ecdysteroid phosphate phosphatase (EPP), human STS1 (OMIM:609201) and human UBASH3A (OMIM:605736). F55A11.11 lacks the consensus sequence for phosphatase activity, and thus is predicted to be catalytically inactive. F55A11.11 is also paralogous to C. elegans C52E4.7, F09C12.8, F53B6.7, and T07F12.1. loss of F55A11.11 activity via large-scale RNAi results in no obvious defects. [Source: WormBase]			
NR_001523.1	F55A11.10	F55A11.10, snoRNA [Source:RefSeq_dna;Acc:NR_001523]			
F55A11.7	F55A11.7	F55A11.7 [Source:RefSeq_peptide;Acc:NP_505973]			protein binding, zinc ion binding, 
F55A11.8	F55A11.8	F55A11.8 [Source:RefSeq_peptide;Acc:NP_505974]			
D2023.1	D2023.1	D2023.1, miscRNA [Source:RefSeq_dna;Acc:NR_003166]			heme binding, transition metal ion binding, 
D2023.3	D2023.3	D2023.3 [Source:RefSeq_peptide;Acc:NP_505976]			
pyc-1	D2023.2	pyc-1 encodes the C. elegans pyruvate carboxylase ortholog (OMIM:266150, deficiencies in humans are associated with lactic acidemia, neurological abnormalities, and early death). by homology, PYC-1 is predicted to function as a key regulatory enzyme of gluconeogenesis, lipogenesis, and anaplerosis, localizing to the mitochondrial matrix and catalyzing the formation of oxaloacetate from pyruvate and carbonate. however, loss of pyc-1 activity via large-scale RNAi screens does not result in any obvious abnormalities. pyc-1 expression is induced upon exposure of C. elegans to cadmium. [Source: WormBase]	metabolic process, gluconeogenesis, 	cytoplasm, 	ATP binding, catalytic activity, ligase activity, biotin binding, pyruvate carboxylase activity, carbamoyl-phosphate synthase activity, 
D2023.4	D2023.4	D2023.4 encodes a thialysine N-(epsilon)-acetyltransferase, belonging to the GCN5-related N-acetyltransferase superfamily. recombinant D2023.4 protein forms a catalytically active homodimer, most efficiently catalysing the N-acetylation of thialysine [S-(2-aminoethyl)-L-cysteine], O-(2-aminoethyl)-L-serine and S-(2-aminoethyl)-D,L-homocysteine. [Source: WormBase]	metabolic process, 		N-acetyltransferase activity, 
D2023.5	D2023.5	Putative thiosulfate sulfurtransferase D2023.5 (EC 2.8.1.1). [Source:Uniprot/SWISSPROT;Acc:O17730]			thiosulfate sulfurtransferase activity, 
D2023.6	D2023.6	D2023.6 is orthologous to a set of uncharacterized putative protein kinases from eukaryotes and from prokaryotes (e.g., UbiB from E. coli), and paralogous to COQ-8 from C. elegans and ABC1 (COQ8) from S. cerevisiae. like COQ-8, D2023.6 may be involved in ubiquinone (coenzyme Q9) biosynthesis. [Source: WormBase]	protein amino acid phosphorylation, 		ATP binding, protein serine/threonine kinase activity, 
col-158	D2023.7	D2023.7 [Source:RefSeq_peptide;Acc:NP_505981]	phosphate transport, embryonic development ending in birth or egg hatching, 	cytoplasm, 	structural constituent of cuticle, 
nph-4	R13H4.1	nph-4 encodes an ortholog of human NPHP4 (OMIM:607215, mutated in juvenile nephronophthisis and Senior-Loken syndrome-4) that is required for normal chemotaxis, lifespan, and male mating behavior. NPH-4 is expressed in diverse neurons (amphid and phasmid sensory, URX, labial, male lumbar and cloacal ganglia, and male-specific CEM, HOB and RnB). within neurons, NPH-4 is a ciliary protein, localized to the transistion zone at cilial bases rather than ciliary axonemes, and absent from somata, axons, or dendrites. NPH-4 colocalizes with NPH-1 and PKD-2 in male-specific sensory cilia, and is required for the normal ciliary localization of NPH-1. NPH-4 expression requires DAF-19, and mutating an X-box in nph-4's promoter abolishes nph-4 expression. NPH-4 is required for NPH-1's localization to transistion zones. morphologically, nph-4 mutant cilia are normal, indicating a function for NPH-4 in signal transduction. [Source: WormBase]	pathogenesis, 	extracellular region, 	
R13H4.3	R13H4.3	R13H4.3 [Source:RefSeq_peptide;Acc:NP_505983]			acid phosphatase activity, 
R13H4.2	R13H4.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2W3]			
R13H4.8	R13H4.8	R13H4.8 [Source:RefSeq_peptide;Acc:NP_001024083]			metal ion binding, calcium ion binding, 
hmp-1	R13H4.4	Protein humpback-1. [Source:Uniprot/SWISSPROT;Acc:P90947]	cell adhesion, embryonic development, cell migration, 	actin cytoskeleton, 	structural molecule activity, cadherin binding, 
R13H4.5	R13H4.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
R13H4.6	R13H4.6	R13H4.6 [Source:RefSeq_peptide;Acc:NP_505987]			
R13H4.7	R13H4.7	R13H4.7 [Source:RefSeq_peptide;Acc:NP_505988]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sulp-4	K12G11.1	sulp-4 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-4 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids and when expressed in Xenopus oocytes, SULP-4 exhibits robust transport of sulfate and more modest transport of chloride ions and oxalate. a SULP-4::GFP fusion is expressed in the apical canaliculae of the excretory cell and also in some head neurons. [Source: WormBase]	transport, sulfate transport, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, 
sulp-5	K12G11.2	sulp-5 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-5 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a SULP-5::GFP fusion is expressed in punctate structures irregularly distributed along the apical membrane of excretory cell canals and is also expressed weakly in adult seam cells. [Source: WormBase]	transport, sodium ion transport, sulfate transport, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, sodium:amino acid symporter activity, 
sodh-1	K12G11.3	Alcohol dehydrogenase 1 (EC 1.1.1.1) (Sorbitol dehydrogenase family protein 1). [Source:Uniprot/SWISSPROT;Acc:Q17334]	determination of adult life span, 		protein binding, zinc ion binding, oxidoreductase activity, 
sodh-2	K12G11.4	Alcohol dehydrogenase 2 (EC 1.1.1.1) (Sorbitol dehydrogenase family protein 2). [Source:Uniprot/SWISSPROT;Acc:O45687]	determination of adult life span, 		zinc ion binding, oxidoreductase activity, 
srx-76	K12G11.5	Serpentine Receptor, class X family member (srx-76) [Source:RefSeq_peptide;Acc:NP_505993]			
K12G11.6	K12G11.6	K12G11.6 [Source:RefSeq_peptide;Acc:NP_001024057]			serine-type endopeptidase inhibitor activity, 
sma-1	R31.1	sma-1 encodes a beta-H spectrin. during embryonic morphogenesis, SMA-1 activity is required for a normal rate of elongation and thus, for a wild-type body length upon hatching. in addition, SMA-1 is required for proper morphogenesis of the pharynx and the excretory cell. sma-1 mRNA transcripts are first detected in hypodermal cells at the beginning of embryonic morphogenesis with later expression visible in the developing pharynx, intestine, and excretory cell. [Source: WormBase]	positive regulation of growth rate, regulation of locomotion, 		protein binding, actin binding, 
R31.2	R31.2	R31.2c [Source:RefSeq_peptide;Acc:NP_001041156]			
osm-6	R31.3	osm-6 males are defective in their response to hermaphrodite-derived diffusible cues. [Source: WormBase]			
aman-2	F58H1.1	aman-2 encodes an alpha-mannosidase II, homologous to human MAN2A1 (OMIM:154582) and MAN2A2, that is required for normal N-glycan structures and predicted to act in the Golgi. AMAN-2 is predicted to mature glycoproteins by removing mannose residues from their N-linked oligosaccharides. translational fusions of AMAN-2 with GFP are subcellularly localized in a pattern consistent with Golgi function. aman-2 is broadly expressed in larvae. in adults, aman-2 is most strongly expressed in the digestive system (gut wall, pharynx and grinder), hypodermal cells, and neurons. aman-2 mutants have N-glycans not seen in normal worms, such as Hex5-7HexNAc2-3Fuc2Me, along with hybrid oligosaccharides, while having reduced paucimannosidic and trifucosylated glycans, and completely lacking tetrafucosylated ones. AMAN-2 contains three predicted N-glycosylation sites, one of which (Asn-320) is known to be occupied in vivo. Cu(II) was observed to completely inhibit AMAN-2, which it also does with mouse and Drosophila alpha-mannosidase II. the pH optimum of AMAN-2 is pH 5.5-6.0. several other ionic conditions (e.g., Co[II] or EDTA) have little effect on AMAN-2. aman-2(tm1078) mutants are superficially wild-type, but mutant extracts completely lack alpha-mannosidase II activity. aman-2(tm1078) mutants have reduced, but not absent, anti-horseradish peroxidase and phosphorylcholine epitopes. [Source: WormBase]	signal transduction, carbohydrate metabolic process, mannose metabolic process, 	intracellular, 	alpha-mannosidase activity, mannosidase activity, 
F58H1.2	F58H1.2	F58H1.2 [Source:RefSeq_peptide;Acc:NP_505996]			
F58H1.3	F58H1.3	F58H1.3a [Source:RefSeq_peptide;Acc:NP_001041138]	metabolic process, 		catalytic activity, 
F58H1.4	F58H1.4	F58H1.4 [Source:RefSeq_peptide;Acc:NP_505998]			
F58H1.6	F58H1.6	F58H1.6 [Source:RefSeq_peptide;Acc:NP_505999]			
F58H1.5	F58H1.5	F58H1.5 [Source:RefSeq_peptide;Acc:NP_506000]			
F58H1.7	F58H1.7	F58H1.7a [Source:RefSeq_peptide;Acc:NP_001041139]			
cpr-1	C52E4.1	cpr-1 encodes a cysteine protease of the cathepsin B-like cysteine protease family. cpr-1 appears to be required for embryogenesis. cpr-1 is specifically expressed in the gut of all stages except the embryo and around developing embryos in the gonad. expression of cpr-1 is regulated by three promoter GATA motifs. [Source: WormBase]	proteolysis, determination of adult life span, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
mif-2	C52E4.2	MIF-like protein mif-2. [Source:Uniprot/SWISSPROT;Acc:Q18785]	aromatic compound metabolic process, embryonic development ending in birth or egg hatching, 		
snr-4	C52E4.3	Probable small nuclear ribonucleoprotein Sm D2 (snRNP core protein D2) (Sm-D2). [Source:Uniprot/SWISSPROT;Acc:Q18786]	mRNA metabolic process, biological_process, 	ribonucleoprotein complex, 	protein binding, 
NR_000587.1	C52E4.8	T11F9.15, snRNA [Source:RefSeq_dna;Acc:NR_000587]			
rpt-1	C52E4.4	rpt-1 encodes a predicted ATPase subunit of the 19S regulatory complex of the proteasome that affects fertility and embryonic viability. [Source: WormBase]	protein catabolic process, embryonic development ending in birth or egg hatching, 	cytoplasm, nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, hydrolase activity, 
C52E4.5	C52E4.5	Mannosyl-oligosaccharide 1,2-alpha-mannosidase C52E4.5 (EC 3.2.1.113) (Processing alpha-1,2-mannosidase C52E4.5) (Alpha-1,2-mannosidase C52E4.5). [Source:Uniprot/SWISSPROT;Acc:Q18788]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
cyl-1	C52E4.6	CYclin L family member (cyl-1) [Source:RefSeq_peptide;Acc:NP_506007]	positive regulation of growth rate, 		
C52E4.7	C52E4.7	C52E4.7 encodes a member of the histidine phosphatase superfamily orthologous to Bombyx mori ecdysteroid phosphate phosphatase (EPP), human STS1 (OMIM:609201) and human UBASH3A (OMIM:605736). C52E4.7 is also paralogous to C. elegans F09C12.8, F53B6.7, F55A11.11, and T07F12.1. while no explicit prediction has been made for C52E4.7's activity, it might be catalytically inactive. as loss of C52E4.7 activity results in no obvious defects, the precise role of C52E4.7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
gcy-33	F57F5.2	Soluble guanylate cyclase gcy-33 (EC 4.6.1.2). [Source:Uniprot/SWISSPROT;Acc:P90895]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
F57F5.t1	F57F5.t1				
F57F5.1	F57F5.1	F57F5.1 [Source:RefSeq_peptide;Acc:NP_506011]	proteolysis, embryonic development ending in birth or egg hatching, 		cysteine-type peptidase activity, protein binding, cysteine-type endopeptidase activity, 
F57F5.3	F57F5.3	F57F5.3 [Source:RefSeq_peptide;Acc:NP_506012]			
add-2	F57F5.4	add-2 encodes a protein containing an alpha-adducin-like head domain that while highly similar in sequence to the head domain of vertebrate and Drosophila adducins, atypically resides at the C-, rather than N-, terminus of the protein. by homology, ADD-2 is predicted to be a cell membrane-associated cytoskeletal protein that mediates cytoskeletal rearrangements in response to activation of signal transduction cascades. as loss of add-2 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of ADD-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			metal ion binding, 
pkc-1	F57F5.5	pkc-1 encodes a serine/threonine protein kinase that is orthologous to mammalian protein kinase C epsilon (PRKCE), a member of the nPKC subgroup of the protein kinase C superfamily. together with UNC-13, PKC-1 may act downstream of goa-1 to modulate phorbol ester-induced stimulation of acetylcholine release at NMJs. PKC-1 positively regulates locomotion, and affects thermotaxis and chemotaxis together with kin-11. PKC-1 is required for regulating several behaviors including sensation of volatile and soluble compounds, osmolarity, and temperature (thermosensation). PKC-1 is also required for phorbolester-induced stimulation of acetylcholine release at neuromuscular junctions. PKC-1 localizes to the processes and cell bodies of approximately 75 sensory neurons and interneurons, and pkc-1 mRNA is detectable at varying levels during larval and adult stages. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, neurotransmitter secretion, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F10C2.3	F10C2.3	F10C2.3 [Source:RefSeq_peptide;Acc:NP_506015]			
kup-1	F10C2.2	kup-1 encodes a novel protein that is conserved in C. briggsae, but contains no other known homologs. kup-1 is the upstream gene in an operon with pkc-1, which encodes two protein kinase C isoforms of the nPKC isotype. the polycistronic kup-1/pkc-1 mRNA is detected at low levels in embryos and larvae, but its expression greatly increases in adults. as loss of kup-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of kup-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
F10C2.4	F10C2.4	F10C2.4 encodes a homolog of the DNA polymerase delta complex subunit A that is required in embryos for the normal timing of embryonic cell divisions (much as DIV-1 is) and, also, for normal chromosome segregation (probably because of defective DNA replication). [Source: WormBase]	DNA replication, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, embryonic development ending in birth or egg hatching, 	nucleus, 	nucleotide binding, DNA binding, nucleic acid binding, DNA-directed DNA polymerase activity, 
F10C2.5	F10C2.5	F10C2.5 [Source:RefSeq_peptide;Acc:NP_506018]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
drs-2	F10C2.6	drs-2 encodes a putative aspartyl-tRNA synthetase. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, aspartyl-tRNA aminoacylation, lysyl-tRNA aminoacylation, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, nucleotide binding, nucleic acid binding, aminoacyl-tRNA ligase activity, aspartate-tRNA ligase activity, lysine-tRNA ligase activity, 
F10C2.7	F10C2.7	F10C2.7 [Source:RefSeq_peptide;Acc:NP_506020]	transport, 	integral to membrane, 	transporter activity, 
R07B7.2	R07B7.2	R07B7.2 [Source:RefSeq_peptide;Acc:NP_506021]			protein binding, 
clh-6	R07B7.1	clh-6 encodes a voltage-gated chloride channel orthologous to the human CLCN7 chloride channel (OMIM:602727, which when mutated lead to osteopetrosis). although the precise role of CLH-6 in C. elegans development and/or behavior is not yet known, CLH-6 expression is detected in two GABA-ergic neurons, RMEL and RMER, suggesting that CLH-6 could play a role in membrane excitability and/or GABA packaging. as CLH-6 is also detected in many non-neuronal tissues, such as the gut and body wall muscle, it could also have a broader role in such as processes as transepithelial transport and muscle excitation. [Source: WormBase]	chloride transport, 	membrane, 	voltage-gated chloride channel activity, 
pqn-53	R07B7.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, 
R07B7.4	R07B7.4	R07B7.4 [Source:RefSeq_peptide;Acc:NP_506024]	metabolic process, electron transport, aromatic compound metabolic process, 		oxidoreductase activity, monooxygenase activity, 
R07B7.5	R07B7.5	R07B7.5 [Source:RefSeq_peptide;Acc:NP_506025]	metabolic process, electron transport, aromatic compound metabolic process, 		oxidoreductase activity, monooxygenase activity, 
R07B7.7	R07B7.7	R07B7.7 [Source:RefSeq_peptide;Acc:NP_506026]			
R07B7.6	R07B7.6	R07B7.6 [Source:RefSeq_peptide;Acc:NP_506027]		membrane, 	acetylglucosaminyltransferase activity, 
R07B7.9	R07B7.9	R07B7.9 [Source:RefSeq_peptide;Acc:NP_506028]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
R07B7.8	R07B7.8	R07B7.8 [Source:RefSeq_peptide;Acc:NP_506029]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
R07B7.10	R07B7.10	R07B7.10 [Source:RefSeq_peptide;Acc:NP_506030]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
gana-1	R07B7.11	gana-1 encodes a protein with homology to both human alpha-galactosidase (alpha-GAL) and alpha-N-acetylgalactosaminidase (alpha-NAGA) enzymes. these dual enzymatic activities were detected in mixed culture homogenates. immunofluorescence studies show cytoplasmic expression of GANA-1 in body wall muscle and intestinal cells and in coelomocytes. the human gene alpha-galactosidase B (GALB. OMIM:104170), when mutated leads to Schindler disease, Kanzaki disease, or NAGA deficiency. [Source: WormBase]	carbohydrate metabolic process, glycoside catabolic process, 		catalytic activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
R07B7.12	R07B7.12	UPF0392 protein R07B7.12. [Source:Uniprot/SWISSPROT;Acc:Q21802]			
nhr-206	R07B7.13	Nuclear Hormone Receptor family member (nhr-206) [Source:RefSeq_peptide;Acc:NP_506033]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-208	R07B7.15	Nuclear Hormone Receptor family member (nhr-208) [Source:RefSeq_peptide;Acc:NP_506034]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-207	R07B7.14	Nuclear Hormone Receptor family member (nhr-207) [Source:RefSeq_peptide;Acc:NP_506035]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, thyroid hormone receptor activity, 
nhr-209	R07B7.16	Nuclear Hormone Receptor family member (nhr-209) [Source:RefSeq_peptide;Acc:NP_506036]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-154	C13C4.2	Nuclear hormone receptor family member nhr-154. [Source:Uniprot/SWISSPROT;Acc:O01931]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-153	C13C4.1	Nuclear hormone receptor family member nhr-153. [Source:Uniprot/SWISSPROT;Acc:O01929]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-136	C13C4.3	Nuclear hormone receptor family member nhr-136. [Source:Uniprot/SWISSPROT;Acc:O01930]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C13C4.4	C13C4.4	C13C4.4 [Source:RefSeq_peptide;Acc:NP_506040]	metabolic process, 		catalytic activity, hydrolase activity, 
C13C4.5	C13C4.5	C13C4.5 [Source:RefSeq_peptide;Acc:NP_506041]	transport, 	integral to membrane, 	transporter activity, 
C13C4.7	C13C4.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q7YTR4]			
C13C4.6	C13C4.6	C13C4.6 [Source:RefSeq_peptide;Acc:NP_506042]			
C27A7.6	C27A7.6	C27A7.6 [Source:RefSeq_peptide;Acc:NP_506043]			transporter activity, 
C27A7.1	C27A7.1	C27A7.1 is orthologous to the human gene NPPASE (ENPP1. OMIM:173335), which when mutated leads to disease. [Source: WormBase]	metabolic process, nucleotide metabolic process, ATP synthesis coupled electron transport, 		hydrolase activity, NADH dehydrogenase (ubiquinone) activity, 
C27A7.2	C27A7.2	UPF0392 protein C27A7.2. [Source:Uniprot/SWISSPROT;Acc:P90756]			
C27A7.3	C27A7.3	Ectonucleotide pyrophosphatase/phosphodiesterase C27A7.3 (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:P90755]	metabolic process, dicarboxylic acid transport, nucleotide metabolic process, 	membrane, 	hydrolase activity, sodium:dicarboxylate symporter activity, 
che-11	C27A7.4	che-11 encodes a large, unfamiliar protein with orthologs in vertebrates and arthropods (e.g., KIAA0590 and CG11838-PA) and in Chlamydomonas (IFT140), as well as distant similarity to OSM-1 and ZK520.1. che-11 is required for normal synthesis of sensory cilia (via intraflagellar transport) in sensory neurons, osmotic avoidance, and dauer formation. [Source: WormBase]	response to oxidative stress, 		
C27A7.8	C27A7.8	C27A7.8 [Source:RefSeq_peptide;Acc:NP_001023683]			
C27A7.9	C27A7.9	C27A7.9 [Source:RefSeq_peptide;Acc:NP_001023684]			
C27A7.5	C27A7.5	C27A7.5a [Source:RefSeq_peptide;Acc:NP_506049]	amino acid metabolic process, 		asparaginase activity, 
srj-4	C27A7.7	Serpentine Receptor, class J family member (srj-4) [Source:RefSeq_peptide;Acc:NP_506051]			
VC27A7L.1	VC27A7L.1	VC27A7L.1 [Source:RefSeq_peptide;Acc:NP_506052]			
col-37	ZK863.2	ZK863.2 [Source:RefSeq_peptide;Acc:NP_506053]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
ZK863.1	ZK863.1	ZK863.1 [Source:RefSeq_peptide;Acc:NP_506054]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZK863.9	ZK863.9	ZK863.9 [Source:RefSeq_peptide;Acc:NP_001041207]			sugar binding, 
ZK863.3	ZK863.3	Putative elongator complex protein 3 (EC 2.3.1.48). [Source:Uniprot/SWISSPROT;Acc:Q23651]	metabolic process, ATP synthesis coupled proton transport, ATP biosynthetic process, regulation of transcription from RNA polymerase II promoter, 	cytoplasm, proton-transporting two-sector ATPase complex, transcription elongation factor complex, 	catalytic activity, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, N-acetyltransferase activity, iron-sulfur cluster binding, phosphorylase kinase regulator activity, 
ZK863.4	ZK863.4	ZK863.4 [Source:RefSeq_peptide;Acc:NP_506056]			
srd-4	ZK863.5	Serpentine Receptor, class D (delta) family member (srd-4) [Source:RefSeq_peptide;Acc:NP_506057]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZK863.8	ZK863.8	ZK863.8 [Source:RefSeq_peptide;Acc:NP_872189]			
dpy-30	ZK863.6	The dpy-30 gene encodes an essential nuclear protein required for hermaphrodite dosage compensation as well as normal male development. DPY-30 is expressed ubiquitously throughout development and can be detected in two different multiprotein complexes: the SDC complex involved in dosage compensation and a second complex containing NOX-1 (a WD repeat-containing protein) and ASH-2 (a trithorax-related protein) that is homologous to the yeast Set1p complex involved in epigenetic regulation of transcription. [Source: WormBase]	positive regulation of multicellular organism growth, dosage compensation, by hypoactivation of X chromosome, homoiothermy, response to freezing, 		protein binding, molecular_function, ice binding, 
rnp-1	ZK863.7	RNA-binding protein rnp-1. [Source:Uniprot/SWISSPROT;Acc:Q10667]	regulation of transcription, DNA-dependent, gamete generation, 	nucleus, 	nucleotide binding, protein binding, zinc ion binding, DNA binding, nucleic acid binding, ligand-dependent nuclear receptor activity, 
ZK836.2	ZK836.2	ZK836.2 [Source:RefSeq_peptide;Acc:NP_506060]	metabolic process, glycolysis, 		thiamin pyrophosphate binding, oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor, oxoglutarate dehydrogenase (succinyl-transferring) activity, 
ZK836.3	ZK836.3	ZK836.3 [Source:RefSeq_peptide;Acc:NP_001024320]			
lon-3	ZK836.1	lon-3 encodes a cuticle collagen. during development, lon-3 acts downstream of the TGF-beta signaling pathway to specify body length. lon-3 reporter fusions are expressed in hypodermal cells and LON-3 appears to localize to the surface of the animal, consistent with a role in cuticle formation. [Source: WormBase]	phosphate transport, negative regulation of multicellular organism growth, 	cytoplasm, 	protein binding, structural constituent of cuticle, 
vab-8	K12F2.2	The vab-8 gene encodes a novel protein containing an atypical kinesin-like motor domain that is required for many posteriorly-directed cell migrations, as well as axonal outgrowth and pathfinding. vab-8 encodes two protein isoforms: VAB-8S, a novel protein expressed in migrating cells, and VAB-8L, which contains a kinesin-related domain, is expressed in neurons and functions in growth cone migrations. VAB-8 interacts with UNC-51, a serine-threonine kinase also required for axon outgrowth. [Source: WormBase]	microtubule-based movement, cell migration, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
myo-3	K12F2.1	myo-3 encodes MHC A, the minor isoform of MHC (myosin heavy chain) that is essential for thick filament formation, and for viability, movement, and embryonic elongation. expressed in body muscle, the somatic sheath cell covering the hermaphrodite gonad, and also expressed in enteric muscle, vulval muscles of the hermaphrodite and the diagonal muscles of the male tail. [Source: WormBase]	signal transduction, embryonic development ending in birth or egg hatching, 	cytoplasm, intracellular, extrinsic to membrane, myosin complex, 	ATP binding, protein binding, cytoskeletal protein binding, motor activity, 
tag-348	T04H1.1	Temporarily Assigned Gene name family member (tag-348) [Source:RefSeq_peptide;Acc:NP_506066]	phosphate transport, 		
srw-80	T04H1.10	Serpentine Receptor, class W family member (srw-80) [Source:RefSeq_peptide;Acc:NP_506067]			
T04H1.3	T04H1.3	T04H1.3 [Source:RefSeq_peptide;Acc:NP_506068]			
T04H1.2	T04H1.2	T04H1.2 [Source:RefSeq_peptide;Acc:NP_506069]	small GTPase mediated signal transduction, 		protein binding, GTP binding, GTPase activity, identical protein binding, 
rad-50	T04H1.4	DNA repair protein rad-50 (EC 3.6.-.-). [Source:Uniprot/SWISSPROT;Acc:O44199]	DNA repair, DNA metabolic process, 	chromosome, Mre11 complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, zinc ion binding, nuclease activity, 
T04H1.5	T04H1.5	T04H1.5 [Source:RefSeq_peptide;Acc:NP_506071]		intracellular, 	zinc ion binding, nucleic acid binding, 
lrx-1	T04H1.6	lrx-1 encodes a protein that contains four class A low-density lipoprotein receptor domains. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	protein binding, chitin binding, 
ugt-55	T04H1.7	Putative UDP-glucuronosyltransferase ugt-55 precursor (EC 2.4.1.17) (UDPGT 55). [Source:Uniprot/SWISSPROT;Acc:Q22180]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-56	T04H1.8	Putative UDP-glucuronosyltransferase ugt-56 precursor (EC 2.4.1.17) (UDPGT 56). [Source:Uniprot/SWISSPROT;Acc:Q22181]	metabolic process, 		transferase activity, transferring hexosyl groups, 
tbb-6	T04H1.9	Tubulin, Beta family member (tbb-6) [Source:RefSeq_peptide;Acc:NP_506075]	microtubule-based process, microtubule-based movement, protein polymerization, 	microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
F55C5.1	F55C5.1	F55C5.1 [Source:RefSeq_peptide;Acc:NP_506076]			structural molecule activity, 
F55C5.2	F55C5.2	F55C5.2 [Source:RefSeq_peptide;Acc:NP_506077]	glycerol metabolic process, 		glycerophosphodiester phosphodiesterase activity, 
twk-24	F55C5.3	TWiK family of potassium channels family member (twk-24) [Source:RefSeq_peptide;Acc:NP_001023981]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
tsfm-1	F55C5.5	F55C5.5 encodes a translational elongation factor Ts (EF-Ts) that binds two different EF-Tu proteins (EF-TU1/Y71H2AM.23 and EF-TU2/C43E11.4) in vitro, stimulating guanine-nucleotide exchange and mRNA translation. F55C5.5 is predicted to be mitochondrial and has a putative N-terminal transit peptide sequence. F55C5.5 is required in mass RNAi assays for normally rapid growth and for maintenance of the germline. [Source: WormBase]	translational elongation, positive regulation of growth rate, 	intracellular, 	translation elongation factor activity, 
F55C5.4	F55C5.4	F55C5.4 [Source:RefSeq_peptide;Acc:NP_506080]	embryonic development ending in birth or egg hatching, 		
F55C5.11	F55C5.11	F55C5.11 [Source:RefSeq_peptide;Acc:NP_001041125]		intracellular, 	zinc ion binding, nucleic acid binding, 
F55C5.6	F55C5.6	F55C5.6 [Source:RefSeq_peptide;Acc:NP_506081]	electron transport, 		oxidoreductase activity, 
F55C5.10	F55C5.10	F55C5.10 [Source:RefSeq_peptide;Acc:NP_001023979]			
F55C5.7	F55C5.7	F55C5.7 [Source:RefSeq_peptide;Acc:NP_506082]	protein amino acid phosphorylation, cell communication, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, protein binding, phosphoinositide binding, 
F55C5.8	F55C5.8	Probable signal recognition particle 68 kDa protein (SRP68). [Source:Uniprot/SWISSPROT;Acc:Q20822]	reproduction, 		
srh-16	F55C5.9	Serpentine Receptor, class H family member (srh-16) [Source:RefSeq_peptide;Acc:NP_506084]			
frm-7	C51F7.1	FERM domain (protein4.1-ezrin-radixin-moesin) family member (frm-7) [Source:RefSeq_peptide;Acc:NP_506085]		cytoskeleton, 	
NR_001522.1	C51F7.3	C51F7.3, snoRNA [Source:RefSeq_dna;Acc:NR_001522]			
srg-45	C51F7.2	Serpentine Receptor, class G (gamma) family member (srg-45) [Source:RefSeq_peptide;Acc:NP_506086]	signal transduction, 	membrane, 	transmembrane receptor activity, 
R04F11.1	R04F11.1	R04F11.1 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. R04F11.1 is worm-specific, with obvious homologs only in C. elegans. R04F11.1 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]		integral to membrane, 	
R04F11.3	R04F11.3	R04F11.3 [Source:RefSeq_peptide;Acc:NP_506088]			
R04F11.5	R04F11.5	R04F11.5 [Source:RefSeq_peptide;Acc:NP_506089]	embryonic development ending in birth or egg hatching, 		
R04F11.2	R04F11.2	R04F11.2 [Source:RefSeq_peptide;Acc:NP_506090]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
twk-13	R04F11.4	twk-13 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. as loss of TWK-13 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of TWK-13 in C. elegans development and/or behavior is not yet known. however, TWK-13 likely functions redundantly with other TWK channels. the TWK-13 expression pattern has not been determined. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
R04F11.t1	R04F11.t1				
F23H12.2	F23H12.2	Mitochondrial import receptor subunit TOM20 homolog (Mitochondrial 20 kDa outer membrane protein) (Outer mitochondrial membrane receptor TOM20). [Source:Uniprot/SWISSPROT;Acc:Q19766]	intracellular protein transport, protein targeting, positive regulation of growth rate, 	mitochondrial outer membrane translocase complex, 	protein binding, 
snb-2	F23H12.1	SyNaptoBrevin related family member (snb-2) [Source:RefSeq_peptide;Acc:NP_506093]	vesicle-mediated transport, 	integral to membrane, 	
F23H12.3	F23H12.3	F23H12.3 [Source:RefSeq_peptide;Acc:NP_506094]			
sqt-3	F23H12.4	sqt-3 encodes a cuticle collagen. during development, sqt-3 activity is essential for viability and normal body morphology. genetic and expression studies indicate that SQT-3 is a cuticle component at all stages of development and that SQT-3 likely forms higher order cuticular structures with the DPY-17 cuticular collagen, both of which are candidate substrates for the DPY-31 procollagen C-proteinase. [Source: WormBase]	phosphate transport, biological_process, collagen and cuticulin-based cuticle development, 	cytoplasm, extracellular region, 	structural constituent of cuticle, 
F23H12.5	F23H12.5	F23H12.5 [Source:RefSeq_peptide;Acc:NP_506096]	positive regulation of growth rate, 		protein binding, 
fipr-1	F23H12.8	F23H12.8 [Source:RefSeq_peptide;Acc:NP_872151]	positive regulation of growth rate, 		
gcy-13	F23H12.6	gcy-13 encodes a predicted guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, 
fipr-2	F23H12.9	F23H12.9 [Source:RefSeq_peptide;Acc:NP_872150]			
F23H12.7	F23H12.7	F23H12.7 [Source:RefSeq_peptide;Acc:NP_506098]	sodium ion transport, 	membrane, 	sodium:amino acid symporter activity, 
F23H12.10	F23H12.10		embryonic development ending in birth or egg hatching, 		
K01D12.1	K01D12.1	K01D12.1 [Source:RefSeq_peptide;Acc:NP_506099]			
K01D12.2	K01D12.2	K01D12.2 [Source:RefSeq_peptide;Acc:NP_506100]			protein kinase activity, 
K01D12.3	K01D12.3	K01D12.3 [Source:RefSeq_peptide;Acc:NP_506101]			
K01D12.15	K01D12.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q27223]	regulation of transcription, DNA-dependent, translation, 	intracellular, nucleus, ribosome, 	transcription factor activity, structural constituent of ribosome, 
twk-14	K01D12.4	TWiK family of potassium channels family member (twk-14) [Source:RefSeq_peptide;Acc:NP_506103]	potassium ion transport, 	membrane, integral to membrane, 	protein binding, potassium channel activity, 
K01D12.5	K01D12.5	K01D12.5 [Source:RefSeq_peptide;Acc:NP_506104]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	histamine receptor activity, 
K01D12.6	K01D12.6	K01D12.6 [Source:RefSeq_peptide;Acc:NP_506105]			
K01D12.7	K01D12.7	K01D12.7 (K01D12.7) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_073705]	regulation of transcription, DNA-dependent, translation, 	intracellular, nucleus, ribosome, 	transcription factor activity, structural constituent of ribosome, 
K01D12.8	K01D12.8	K01D12.8 [Source:RefSeq_peptide;Acc:NP_506107]			
K01D12.9	K01D12.9	K01D12.9 [Source:RefSeq_peptide;Acc:NP_506108]			
K01D12.10	K01D12.10	K01D12.10 [Source:RefSeq_peptide;Acc:NP_506109]			
cdr-4	K01D12.11	CaDmium Responsive family member (cdr-4) [Source:RefSeq_peptide;Acc:NP_506110]			
cdr-5	K01D12.14	CaDmium Responsive family member (cdr-5) [Source:RefSeq_peptide;Acc:NP_506111]			
cdr-7	K01D12.13	CaDmium Responsive family member (cdr-7) [Source:RefSeq_peptide;Acc:NP_001024023]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
cdr-6	K01D12.12	CaDmium Responsive family member (cdr-6) [Source:RefSeq_peptide;Acc:NP_506113]			
cdr-2	C54D10.1	CaDmium Responsive family member (cdr-2) [Source:RefSeq_peptide;Acc:NP_506114]			
cdr-3	C54D10.2	CaDmium Responsive family member (cdr-3) [Source:RefSeq_peptide;Acc:NP_506115]			
C54D10.3	C54D10.3	C54D10.3 [Source:RefSeq_peptide;Acc:NP_506116]			
C54D10.4	C54D10.4	C54D10.4 [Source:RefSeq_peptide;Acc:NP_506117]			
C54D10.5	C54D10.5	C54D10.5 [Source:RefSeq_peptide;Acc:NP_506118]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C54D10.13	C54D10.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYT8]			
srh-25	C54D10.6	Serpentine Receptor, class H family member (srh-25) [Source:RefSeq_peptide;Acc:NP_506119]	pathogenesis, 		
C54D10.12	C54D10.12	C54D10.12 [Source:RefSeq_peptide;Acc:NP_001041098]			
C54D10.7	C54D10.7	C54D10.7 [Source:RefSeq_peptide;Acc:NP_506120]			
C54D10.8	C54D10.8	C54D10.8 [Source:RefSeq_peptide;Acc:NP_506121]			
C54D10.9	C54D10.9	C54D10.9 [Source:RefSeq_peptide;Acc:NP_506122]	cell-matrix adhesion, 	cytoskeleton, 	
C54D10.10	C54D10.10	C54D10.10 [Source:RefSeq_peptide;Acc:NP_506123]			serine-type endopeptidase inhibitor activity, 
F28C1.1	F28C1.1	F28C1.1 [Source:RefSeq_peptide;Acc:NP_506124]			
egl-10	F28C1.2	egl-10 encodes an RGS protein, expressed in neurons, that affects egg laying and negatively regulates GOA-1 (Galpha[o]) signalling. it requires the Gbeta(5) ortholog GPB-2 for this activity, and genetically interacts with the egl-30 and goa-1 signaling pathways. [Source: WormBase]	intracellular signaling cascade, G-protein coupled receptor protein signaling pathway, regulation of G-protein coupled receptor protein signaling pathway, rhythmic behavior, 	heterotrimeric G-protein complex, 	signal transducer activity, 
F28C1.3	F28C1.3	F28C1.3b [Source:RefSeq_peptide;Acc:NP_872197]			protein binding, 
atn-1	W04D2.1	atn-1 encodes an alpha-actinin homolog. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, actin binding, calcium ion binding, identical protein binding, 
srt-39	W04D2.2	Serpentine Receptor, class T family member (srt-39) [Source:RefSeq_peptide;Acc:NP_001041175]			
inx-11	W04D2.3	inx-11 encodes a predicted member of the innexin family. expressed in the pharynx, a few head neurons, the tail hypodermis, posterior intestine and in some vulval and uterine muscles. [Source: WormBase]		gap junction, 	
NR_002677.1	W04D2.7	W04D2.7, snoRNA [Source:RefSeq_dna;Acc:NR_002677]			
W04D2.5	W04D2.5	W04D2.5 [Source:RefSeq_peptide;Acc:NP_506131]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
W04D2.4	W04D2.4	W04D2.4 [Source:RefSeq_peptide;Acc:NP_506132]	positive regulation of growth rate, 	intracellular, 	zinc ion binding, nucleic acid binding, 
W04D2.6	W04D2.6	W04D2.6a [Source:RefSeq_peptide;Acc:NP_506133]	mRNA processing, positive regulation of growth rate, 		nucleic acid binding, 
T28H10.1	T28H10.1	T28H10.1 [Source:RefSeq_peptide;Acc:NP_506135]	macromolecule biosynthetic process, 		magnesium ion binding, phosphopantetheinyltransferase activity, 
T28H10.4	T28H10.4	T28H10.4 [Source:RefSeq_peptide;Acc:NP_001024176]			
T28H10.2	T28H10.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q22857]			
T28H10.3	T28H10.3	T28H10.3 [Source:RefSeq_peptide;Acc:NP_506137]	proteolysis, embryonic development ending in birth or egg hatching, 		cysteine-type endopeptidase activity, legumain activity, 
cal-1	C13C12.1	cal-1 encodes one of five predicted C. elegans calcium-binding calmodulin homologs (the others being CAL-2, CAL-3, CAL-4, and CMD-1). as loss of cal-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of CAL-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
C13C12.2	C13C12.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q17944]			
F45D3.1	F45D3.1	F45D3.1 [Source:RefSeq_peptide;Acc:NP_506140]			
F45D3.2	F45D3.2	F45D3.2 [Source:RefSeq_peptide;Acc:NP_506141]			
F45D3.3	F45D3.3	F45D3.3 [Source:RefSeq_peptide;Acc:NP_506142]			
F45D3.4	F45D3.4	F45D3.4a [Source:RefSeq_peptide;Acc:NP_001023930]			
sel-1	F45D3.5	sel-1 encodes two isoforms of a highly conserved transmembrane protein orthologous to human SEL1 (OMIM:602329) and Saccharomyces cerevisiae HRD3, a member of the HMG-CoA Reductase Degradation (HRD) complex that degrades malfolded endoplasmic reticulum (ER)-resident proteins. SEL-1 functions as a negative regulator of the LIN-12/GLP-1 Notch-like signaling pathway in C. elegans where it appears to function cell autonomously to regulate LIN-12 turnover. along with ABU-1, an ER-associated Type I transmembrane protein, SEL-1 may be a component of a cell survival pathway induced when unfolded proteins accumulate in the ER. SEL-1 is expressed throughout larval and adult stages of development, and detected in all tissues except the pharynx. within cells, SEL-1 appears to localize to intracellular vesicles, consistent with its proposed role in protein turnover. [Source: WormBase]	negative regulation of Notch signaling pathway, 		binding, 
E02A10.1	E02A10.1	Putative mitochondrial 40S ribosomal protein S5. [Source:Uniprot/SWISSPROT;Acc:Q93425]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	RNA binding, structural constituent of ribosome, 
E02A10.4	E02A10.4	E02A10.4 [Source:RefSeq_peptide;Acc:NP_872188]			
grl-23	E02A10.2	grl-23 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a glycine-rich low-complexity region, a Ground-like (Grl) domain, and an acid-rich low-complexity region. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, protein homooligomerization, 	membrane, nucleus, 	transcription factor activity, 
E02A10.3	E02A10.3	E02A10.3 [Source:RefSeq_peptide;Acc:NP_506147]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
C14C10.1	C14C10.1	C14C10.1 [Source:RefSeq_peptide;Acc:NP_506148]	transport, 	membrane, integral to membrane, mitochondrial inner membrane, 	transporter activity, binding, arsenite transmembrane transporter activity, 
C14C10.7	C14C10.7	C14C10.7 [Source:RefSeq_peptide;Acc:NP_506149]			
C14C10.2	C14C10.2	C14C10.2b [Source:RefSeq_peptide;Acc:NP_001041083]	neuropeptide signaling pathway, locomotory behavior, 	integral to membrane, 	melanin-concentrating hormone receptor activity, 
C14C10.4	C14C10.4	C14C10.4 [Source:RefSeq_peptide;Acc:NP_506151]	positive regulation of growth rate, 		
ril-2	C14C10.3	RNAi-Induced Longevity family member (ril-2) [Source:RefSeq_peptide;Acc:NP_001023658]	positive regulation of growth rate, 		
NR_003466.1	C14C10.8	C14C10.8, snoRNA [Source:RefSeq_dna;Acc:NR_003466]			
C14C10.5	C14C10.5	C14C10.5 [Source:RefSeq_peptide;Acc:NP_506153]			
C14C10.6	C14C10.6	C14C10.6 [Source:RefSeq_peptide;Acc:NP_506154]			
ZC116.1	ZC116.1	ZC116.1 [Source:RefSeq_peptide;Acc:NP_506155]			nutrient reservoir activity, 
ZC116.4	ZC116.4	ZC116.4 [Source:RefSeq_peptide;Acc:NP_001024295]	positive regulation of growth rate, 		
cyc-2.2	ZC116.2	ZC116.2 encodes, along with E04A4.7, one of two C. elegans cytochrome c proteins. the product of ZC116.2 is predicted to function in the electron transport chain by transferring electrons from respiratory chain Complex III to Complex IV. RNAi screens indicate the ZC116.2 activity is required for embryonic development as well as for normal body size and rates of growth. [Source: WormBase]	electron transport, positive regulation of growth rate, 		iron ion binding, heme binding, electron carrier activity, 
ZC116.3	ZC116.3	ZC116.3 is orthologous to the human gene CUBILIN (CUBN. OMIM:602997), which when mutated leads to hereditary megaloblastic anaemia 1 (OMIM:261100). [Source: WormBase]			calcium ion binding, 
F56H9.6	F56H9.6	F56H9.6 [Source:RefSeq_peptide;Acc:NP_001023986]			
srx-113	F56H9.1	Serpentine Receptor, class X family member (srx-113) [Source:RefSeq_peptide;Acc:NP_506158]			
F56H9.2	F56H9.2	F56H9.2 [Source:RefSeq_peptide;Acc:NP_506159]			
gpa-8	F56H9.3	gpa-8 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. expressed in URX, AQR, and PQR sensory cells. [Source: WormBase]	small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
gpa-9	F56H9.4	gpa-9 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ASJ, PHB, PVQ, pharyngeal muscle, and the spermatheca. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 		GTP binding, signal transducer activity, guanyl nucleotide binding, 
lin-25	F56H9.5	lin-25 encodes a novel transcription factor that is conserved in C. briggsae and C. remanei. during development, lin-25 functions downstream of let-60 ras to regulate fate specification and differentiation of a number of cell types such as the vulval precursor cells. targets of LIN-25 activity include the lin-39 Hox gene, whose transcriptional upregulation during vulval cell fate specification is dependent upon lin-25. LIN-25 is expressed in vulval precursor cells, hypodermal seam cells, and cells in the somatic gonad. LIN-25 is detected in nuclei, but also seen in the cytoplasm. [Source: WormBase]	cell fate specification, 		
W05B10.2	W05B10.2	W05B10.2 [Source:RefSeq_peptide;Acc:NP_506163]			zinc ion binding, nucleic acid binding, 
his-74	W05B10.1	Histone H3.3-like type 2. [Source:Uniprot/SWISSPROT;Acc:Q27532]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
W05B10.3	W05B10.3	W05B10.3 [Source:RefSeq_peptide;Acc:NP_506165]			
W05B10.4	W05B10.4	W05B10.4 [Source:RefSeq_peptide;Acc:NP_506166]	signal transduction, 		
srx-116	W05B10.5	Serpentine Receptor, class X family member (srx-116) [Source:RefSeq_peptide;Acc:NP_506167]			
K10C8.t1	K10C8.t1				
K10C8.2	K10C8.2	K10C8.2 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that K10C8.2 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, 
K10C8.1	K10C8.1	K10C8.1 [Source:RefSeq_peptide;Acc:NP_506169]		nucleus, 	
K10C8.4	K10C8.4	K10C8.4 [Source:RefSeq_peptide;Acc:NP_001024049]			
K10C8.3	K10C8.3	K10C8.3 [Source:RefSeq_peptide;Acc:NP_506170]			protein binding, 
R11D1.1	R11D1.1	R11D1.1a [Source:RefSeq_peptide;Acc:NP_506172]	signal transduction, 	protein phosphatase type 2A complex, 	protein binding, protein phosphatase type 2A regulator activity, 
R11D1.2	R11D1.2	R11D1.2 [Source:RefSeq_peptide;Acc:NP_506173]			
R11D1.3	R11D1.3	R11D1.3 [Source:RefSeq_peptide;Acc:NP_506174]			
R11D1.4	R11D1.4	R11D1.4 [Source:RefSeq_peptide;Acc:NP_506175]			
str-178	R11D1.5	Seven TM Receptor family member (str-178) [Source:RefSeq_peptide;Acc:NP_506176]			
str-181	R11D1.6	Seven TM Receptor family member (str-181) [Source:RefSeq_peptide;Acc:NP_506177]	cell redox homeostasis, 		
R11D1.7	R11D1.7	R11D1.7 [Source:RefSeq_peptide;Acc:NP_506178]			
R11D1.12	R11D1.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVK8]			
R11D1.13	R11D1.13				
rpl-28	R11D1.8	rpl-28 encodes a large ribosomal subunit L28 protein. [Source: WormBase]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
R11D1.9	R11D1.9	Probable mitochondrial 39S ribosomal protein L49 (L49mt). [Source:Uniprot/SWISSPROT;Acc:Q21939]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
R11D1.10	R11D1.10	R11D1.10 [Source:RefSeq_peptide;Acc:NP_506181]			zinc ion binding, 
dhs-21	R11D1.11	dhs-21 encodes a member of the short-chain dehydrogenases/reductases family (SDR) expressed in the intestine, hypodermis, uterus, and spermatheca. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C15C8.1	C15C8.1	C15C8.1 [Source:RefSeq_peptide;Acc:NP_506183]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
cky-1	C15C8.2	cky-1 encodes a member of the basic-helix-loop-helix-PAS (bHLH-PAS) protein family. it is likely that CKY-1 together with AHA-1, another bHLH-PAS protein, has a role in pharyngeal function. CKY-1 is expressed in most non-neuronal pharyngeal cells. [Source: WormBase]	signal transduction, regulation of transcription, 	nucleus, 	protein binding, signal transducer activity, transcription regulator activity, 
C15C8.3	C15C8.3	C15C8.3 [Source:RefSeq_peptide;Acc:NP_506185]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
C15C8.7	C15C8.7	C15C8.7 [Source:RefSeq_peptide;Acc:NP_506186]	biological_process, 		
C15C8.4	C15C8.4	C15C8.4 [Source:RefSeq_peptide;Acc:NP_506187]	positive regulation of growth rate, 	endoplasmic reticulum, 	heparin binding, low-density lipoprotein receptor binding, 
C15C8.5	C15C8.5	C15C8.5 [Source:RefSeq_peptide;Acc:NP_506188]			
C15C8.6	C15C8.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q18021]			
C15C8.8	C15C8.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2T3]			
gpa-13	F18E2.5	gpa-13 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in ADF, ASH, AWC, PHA, and PHB. [Source: WormBase]	signal transduction, G-protein coupled receptor protein signaling pathway, 		signal transducer activity, guanyl nucleotide binding, 
F18E2.1	F18E2.1	F18E2.1 [Source:RefSeq_peptide;Acc:NP_506191]			metal ion binding, hydrolase activity, acid phosphatase activity, 
abcf-1	F18E2.2	Temporarily Assigned Gene name family member (tag-167) [Source:RefSeq_peptide;Acc:NP_506192]	reproduction, 		ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, 
scc-3	F18E2.3	scc-3 encodes a cohesin complex subunit homologous to Saccharomyces cerevisiae Irr1p/Scc3p. SCC-3 is required during meiosis for synaptonemal complex formation and sister chromatid cohesion, proper localization of REC-8 to chromosomes, mitotic chromosome segregation, embryonic development, and vulval morphogenesis. in embryos, SCC-3 forms a cohesin complex with SCC-1, SMC-1, SMC-3, and TIM-1, a HEAT/Armadillo repeat-containing protein related to Drosophila TIMELESS. in the germline, SCC-3 associates with chromatin of transistion zone nuclei, assembles along the longitudinal axes of synapsed chromosomes at pachytene, and unlike other cohesins, localizes throughout chromatin at diakinesis. SCC-3 localization requires TIM-1, and SCC-3 and REC-8 are mutually required for chromatin localization. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
srt-43	F18E2.4	Serpentine Receptor, class T family member (srt-43) [Source:RefSeq_peptide;Acc:NP_506194]			
F18E2.6	F18E2.6	F18E2.6 [Source:RefSeq_peptide;Acc:NP_001023815]			
ZC455.1	ZC455.1	ZC455.1 [Source:RefSeq_peptide;Acc:NP_506195]			protein binding, 
ZC455.t1	ZC455.t1				
sre-20	ZC455.7	Serpentine Receptor, class E (epsilon) family member (sre-20) [Source:RefSeq_peptide;Acc:NP_506196]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
fkb-4	ZC455.10	fkb-4 encodes a peptidylprolyl cis/trans isomerase homologous to mammalian FK506 immunosuppressant-binding protein 9. FKB-4 expression is positively regulated by signaling through the DAF-2 insulin receptor-like pathway and in part, through the activity of the DAF-16 fork-head transcription factor suggesting that FKB-4 could play a role in metabolism and longevity. as loss of FKB-4 function via RNA-mediated interference does not result in any abnormalities, the precise role of FKB-4 in C. elegans development and/or behavior is not yet known. FKB-4 contains a predicted endoplasmic reticulum (ER) retention sequence and is thus proposed to localize to the ER. [Source: WormBase]	protein folding, 	endoplasmic reticulum, 	
srbc-44	ZC455.9	Serpentine Receptor, class BC (class B-like) family member (srbc-44) [Source:RefSeq_peptide;Acc:NP_506198]			
srbc-43	ZC455.8	Serpentine Receptor, class BC (class B-like) family member (srbc-43) [Source:RefSeq_peptide;Acc:NP_001041204]			
ugt-5	ZC455.6	UDP-GlucuronosylTransferase family member (ugt-5) [Source:RefSeq_peptide;Acc:NP_506200]	metabolic process, 		transferase activity, transferring hexosyl groups, 
ugt-4	ZC455.5	ZC455.5a [Source:RefSeq_peptide;Acc:NP_001041203]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-6	ZC455.4	ZC455.4 [Source:RefSeq_peptide;Acc:NP_506202]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-3	ZC455.3	ZC455.3 [Source:RefSeq_peptide;Acc:NP_506203]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		protein binding, transferase activity, transferring hexosyl groups, carbohydrate binding, 
srbc-45	ZC455.11	Serpentine Receptor, class BC (class B-like) family member (srbc-45) [Source:RefSeq_peptide;Acc:NP_506204]			
srbc-46	ZC455.12				
ZC443.1	ZC443.1	ZC443.1 [Source:RefSeq_peptide;Acc:NP_506205]			oxidoreductase activity, 
ZC443.2	ZC443.2	ZC443.2 [Source:RefSeq_peptide;Acc:NP_506206]			
ZC443.3	ZC443.3	ZC443.3 [Source:RefSeq_peptide;Acc:NP_506207]			
ZC443.4	ZC443.4	ZC443.4 [Source:RefSeq_peptide;Acc:NP_506208]			
ugt-18	ZC443.5	ZC443.5 [Source:RefSeq_peptide;Acc:NP_506209]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-16	ZC443.6	ZC443.6 [Source:RefSeq_peptide;Acc:NP_506210]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
ugt-15	C44H9.1	C44H9.1 [Source:RefSeq_peptide;Acc:NP_506211]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
C44H9.2	C44H9.2	C44H9.2 [Source:RefSeq_peptide;Acc:NP_506212]			
C44H9.4	C44H9.4	C44H9.4 [Source:RefSeq_peptide;Acc:NP_506213]	transport, 	membrane, 	transporter activity, DNA binding, 
C44H9.6	C44H9.6	C44H9.6 [Source:RefSeq_peptide;Acc:NP_506214]			
C44H9.8	C44H9.8	C44H9.8 [Source:RefSeq_peptide;Acc:NP_506215]			
C44H9.5	C44H9.5	C44H9.5 [Source:RefSeq_peptide;Acc:NP_506216]			
C44H9.7	C44H9.7	C44H9.7b [Source:RefSeq_peptide;Acc:NP_001023708]			
T07F10.1	T07F10.1	T07F10.1a [Source:RefSeq_peptide;Acc:NP_001041160]	proteolysis, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
T07F10.6	T07F10.6	T07F10.6 [Source:RefSeq_peptide;Acc:NP_506219]			
T07F10.5	T07F10.5	T07F10.5 [Source:RefSeq_peptide;Acc:NP_506221]			
T07F10.3	T07F10.3	T07F10.3 [Source:RefSeq_peptide;Acc:NP_506222]			nucleotide binding, nucleic acid binding, 
bus-19	T07F10.4	bus-19 encodes an ancient but unfamiliar transmembrane protein required for colonization by Microbacterium nematophilum and the tail-swelling response to M. nematophilum infection, as well as for cuticle integrity and traction during movement, normal alae and body shape, dauer formation, normally rapid growth, and larval viability. BUS-19 (along with Y71A12C.2) is orthologous to human TMEM41A, and paralogous to TAG-175/D2013.10 and human TMEM41B. both BUS-19 and TAG-175 are orthologous to plant and fungal proteins such as budding yeast Tvp38p, and bacterial proteins such as Geobacter metallireducens DedA. given its orthology with Tvp38p, BUS-19 may colocalize to late Golgi vesicles with the Tlg2p ortholog SYN-16 and with a variety of other protein ligands. [Source: WormBase]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
R90.5	R90.5	R90.5 [Source:RefSeq_peptide;Acc:NP_741635]			
R90.1	R90.1	R90.1 [Source:RefSeq_peptide;Acc:NP_506224]	protein amino acid phosphorylation, growth, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R90.2	R90.2	R90.2 [Source:RefSeq_peptide;Acc:NP_506225]			
R90.3	R90.3	R90.3 [Source:RefSeq_peptide;Acc:NP_506226]			
R90.4	R90.4	R90.4 [Source:RefSeq_peptide;Acc:NP_506227]			
nid-1	F54F3.1	NIDogen (basement membrane protein family member (nid-1) [Source:RefSeq_peptide;Acc:NP_506228]	blood coagulation, G-protein coupled receptor protein signaling pathway, cell-matrix adhesion, bioluminescence, protein-chromophore linkage, 	membrane, integral to membrane, 	calcium ion binding, thrombin receptor activity, 
F54F3.2	F54F3.2				
F54F3.3	F54F3.3	F54F3.3 [Source:RefSeq_peptide;Acc:NP_506229]	lipid metabolic process, 		catalytic activity, 
F54F3.4	F54F3.4	F54F3.4 [Source:RefSeq_peptide;Acc:NP_506230]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
pqn-67	T16G1.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
T16G1.2	T16G1.2	T16G1.2 [Source:RefSeq_peptide;Acc:NP_506232]			
T16G1.7	T16G1.7	T16G1.7 is orthologous to the human gene ALIAS DLC1~CANDIDATE TUMOR SUPPRESSOR GENE (DLEC1. OMIM:604050), which when mutated leads to disease. [Source: WormBase]			
T16G1.6	T16G1.6	T16G1.6 [Source:RefSeq_peptide;Acc:NP_506234]			
T16G1.5	T16G1.5	T16G1.5 [Source:RefSeq_peptide;Acc:NP_506235]			
T16G1.4	T16G1.4	T16G1.4 [Source:RefSeq_peptide;Acc:NP_506236]			
T16G1.3	T16G1.3	T16G1.3 [Source:RefSeq_peptide;Acc:NP_506237]			
grl-2	T16G1.8	grl-2 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-2 is expressed in neurons, amphid socket cells, and other cells. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
T16G1.9	T16G1.9	T16G1.9 [Source:RefSeq_peptide;Acc:NP_506239]			
pqn-68	T16G1.10	The protein product of this gene was predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS72 release of WormBase, i.e., in wormpep77). [Source: WormBase]	D-amino acid catabolic process, 	cytoplasm, 	hydrolase activity, acting on ester bonds, 
eif-3.K	T16G1.11	The protein product of this gene was predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS72 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, translation initiation factor activity, 
R186.6	R186.6	R186.6 [Source:RefSeq_peptide;Acc:NP_506242]			
R186.1	R186.1	R186.1 [Source:RefSeq_peptide;Acc:NP_506243]	embryonic development ending in birth or egg hatching, 		
srd-35	R186.2	Serpentine Receptor, class D (delta) family member (srd-35) [Source:RefSeq_peptide;Acc:NP_001041152]			
R186.3	R186.3	R186.3 [Source:RefSeq_peptide;Acc:NP_506245]	small GTPase mediated signal transduction, intracellular protein transport, embryonic development ending in birth or egg hatching, 	intracellular, 	nucleotide binding, nucleoside-triphosphatase activity, GTP binding, 
R186.8	R186.8	R186.8 [Source:RefSeq_peptide;Acc:NP_001024085]	embryonic development ending in birth or egg hatching, 		
lin-46	R186.4	lin-46 encodes one of two C. elegans paralogs of bacterial MoeA proteins and mammalian gephyrins (E domain, only). LIN-46 is predicted to function as a scaffolding protein for a developmental timing complex, and may also play a role in molybdenum cofactor biosynthesis. identified in screens for suppressors of precocious heterochronic mutations in lin-14 and lin-28, lin-46 is required for stage-specific developmental events at the third larval and adult stages of development. as a component of the heterochronic pathway, lin-46 appears to act immediately downstream of lin-28, which encodes a predicted RNA binding protein required for cell fate specification at the L2 stage. a LIN-46:GFP fusion protein is detected in the cytoplasm and non-nucleolar part of the nucleus of ventral and lateral hypodermal cells around the time of the larval molts. in addition, the LIN-46 fusion protein is detected in cell bodies and axons of the AVBL/R motor interneurons. [Source: WormBase]	Mo-molybdopterin cofactor biosynthetic process, 		
R186.7	R186.7	R186.7 [Source:RefSeq_peptide;Acc:NP_506247]			
shw-3	R186.5	SHaW family of potassium channels family member (shw-3) [Source:RefSeq_peptide;Acc:NP_506248]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
F15B9.8	F15B9.8	F15B9.8 [Source:RefSeq_peptide;Acc:NP_506249]			
dsl-7	F15B9.9	Delta/Serrate/Lag-2 domain family member (dsl-7) [Source:RefSeq_peptide;Acc:NP_001023803]	cell communication, 	membrane, 	calcium ion binding, 
far-5	F15B9.3	far-5 encodes a member of a class of fatty acid-and retinol-binding proteins that are known to be secreted by parasitic nematodes and plants. far-5 binds lipid in fluorescence-based assays, however, the precise function of far-5 is not known. [Source: WormBase]			lipid binding, 
far-3	F15B9.1	Fatty Acid/Retinol binding protein family member (far-3) [Source:RefSeq_peptide;Acc:NP_506251]			lipid binding, 
far-4	F15B9.2	far-4 encodes a fatty acid and retinol-binding protein, paralogous to FAR-3 and FAR-5 and distantly homologous to FAR proteins of parasitic nematodes. FAR-4 binds lipids in vitro. far-4 is transcribed at highest levels in the fourth larval stage, and is dispensable for viability and gross morphology in mass RNAi assays. [Source: WormBase]			lipid binding, 
inft-2	F15B9.4	INverted Formin/formin Three-related family member (inft-2) [Source:RefSeq_peptide;Acc:NP_506253]	regulation of transcription, DNA-dependent, actin cytoskeleton organization and biogenesis, cellular component organization and biogenesis, 	nucleus, 	actin binding, transcription factor activity, 
F15B9.t1	F15B9.t1				
F15B9.10	F15B9.10	F15B9.5 [Source:RefSeq_peptide;Acc:NP_506254]			
try-10	F15B9.5	Putative uncharacterized protein try-10. [Source:Uniprot/SPTREMBL;Acc:Q19476]	proteolysis, 		serine-type endopeptidase activity, 
F15B9.6	F15B9.6	F15B9.6 [Source:RefSeq_peptide;Acc:NP_506255]			
cdh-6	F15B9.7	cdh-6 encodes a cadherin homolog, with a domain resembling seven transmembrane-sequence receptors, that may be orthologous to the Drosophila cadherin STAN. both CDH-6 and STAN are homologous to secretin-type receptors, have extracellular domains of similar lengths and domain compositions (with similar numbers of cadherin, EGF, laminin G, GFS, and HormR domains). however, the cytoplasmic domains of CDH-6 and STAN are dissimilar. [Source: WormBase]	homophilic cell adhesion, neuropeptide signaling pathway, reproduction, 	membrane, 	protein binding, calcium ion binding, G-protein coupled receptor activity, 
W07G4.t1	W07G4.t1				
W07G4.1	W07G4.1	W07G4.1 [Source:RefSeq_peptide;Acc:NP_506257]			
W07G4.2	W07G4.2	W07G4.2 [Source:RefSeq_peptide;Acc:NP_506258]			
W07G4.3	W07G4.3	W07G4.3 [Source:RefSeq_peptide;Acc:NP_506259]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, binding, 
W07G4.4	W07G4.4	Putative aminopeptidase W07G4.4 (EC 3.4.11.-). [Source:Uniprot/SWISSPROT;Acc:Q27245]	proteolysis, 	intracellular, 	leucyl aminopeptidase activity, aminopeptidase activity, 
W07G4.5	W07G4.5	W07G4.5a [Source:RefSeq_peptide;Acc:NP_001041176]			protein binding, 
srr-1	W07G4.6	Serpentine Receptor, class R family member (srr-1) [Source:RefSeq_peptide;Acc:NP_506262]			
F42E8.1	F42E8.1	F42E8.1 [Source:RefSeq_peptide;Acc:NP_506263]			
F42E8.2	F42E8.2	F42E8.2 [Source:RefSeq_peptide;Acc:NP_506264]			structural molecule activity, 
C34B4.3	C34B4.3	C34B4.3 [Source:RefSeq_peptide;Acc:NP_001023696]			
C34B4.2	C34B4.2	C34B4.2a [Source:RefSeq_peptide;Acc:NP_001041093]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C34B4.4	C34B4.4	C34B4.4 [Source:RefSeq_peptide;Acc:NP_001023697]			
C34B4.5	C34B4.5	C34B4.5 [Source:RefSeq_peptide;Acc:NP_001023698]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
max-1	C34B4.1	max-1 encodes a novel, conserved PH/MyTH4/FERM domain-containing protein. max-1 activity is required cell-autonomously in motor neurons for UNC-6-mediated, dorsally directed axon guidance, proper axon extension and axon fasciculation in the nerve cords, and fully normal backward locomotion. genetic analyses indicate that max-1 likely acts downstream of unc-6 and unc-5, and in parallel to unc-40 and unc-129, to regulate axon guidance. max-1 expression begins during later stages of embryogenesis and continues through adulthood. expression is seen in motor neurons that extend circumferential processes, other neurons and, for the short form of MAX-1, body wall muscles. in neurons, MAX-1 localizes to processes but is excluded from cell bodies in a manner dependent upon the FERM domain, which appears critical for MAX-1 function. [Source: WormBase]		cytoskeleton, 	
B0365.1	B0365.1	B0365.1 [Source:RefSeq_peptide;Acc:NP_506267]	metabolic process, 		protein binding, catalytic activity, 
B0365.2	B0365.2				
eat-6	B0365.3	eat-6 encodes an ortholog of the alpha subunit of a sodium/potassium ATPase, which in turn affects Na+,K(+)-ATPase activity of membranes by affecting the level of the phosphorylated intermediate of the Na+,K(+)-ATPase. EAT-6 affects relaxation of the pharyngeal muscles, fertility (and thus affects feeding). EAT-6 also affects body length, life span, and ASE, ASI and ASJ axonal outgrowth. [Source: WormBase]	transport, metabolic process, cation transport, potassium ion transport, monovalent inorganic cation transport, growth, regulation of muscle contraction, 	membrane, integral to membrane, 	ATP binding, catalytic activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, monovalent inorganic cation transmembrane transporter activity, 
B0365.5	B0365.5	B0365.5a [Source:RefSeq_peptide;Acc:NP_001021349]			sugar binding, 
clec-41	B0365.6	C-type LECtin family member (clec-41) [Source:RefSeq_peptide;Acc:NP_506271]	positive regulation of growth rate, 		sugar binding, 
B0365.7	B0365.7	B0365.7 [Source:RefSeq_peptide;Acc:NP_506272]			serine-type endopeptidase inhibitor activity, 
K03H4.1	K03H4.1				
K03H4.2	K03H4.2	K03H4.2 [Source:RefSeq_peptide;Acc:NP_506274]	positive regulation of multicellular organism growth, 		
T09E8.1	T09E8.1	T09E8.1b [Source:RefSeq_peptide;Acc:NP_506275]	potassium ion transport, reproduction, 	membrane, 	nucleotide binding, calcium-activated potassium channel activity, 
him-17	T09E8.2	him-17 encodes a protein with no obvious non-nematode homologs that localizes to chromatin in germline nuclei, and that is required for double-stranded break (DSB) formation, chiasmata, crossovers, and genetic recombination during meiosis, but is dispensable for homolog pairing and synapsis, spo-11 germline transcription, or the conversion of DSBs into chiasmata. HIM-17 is also required for normal organization of meiotic stages in the germline, and to promote its orderly transistion from (potentially tumorous) mitosis to meiosis. moreover, HIM-17 is required for normal dimethylation of lysine 9 residues on H3 histones in meiotic prophase chromosomes from early pachytene onward, with null him-17(ok424) mutants showing greatly reduced or delayed dimethylation in both hermaphrodite and male germlines. HIM-17 cooperates with GLP-1 to promote meiotic entry, and with EGO-1 to promote germline viability. HIM-17 has six THAP and THAP-like domains, a domain type also found in CDC-14B, CTB-1, GON-14, LIN-15A, LIN-15B, and LIN-36, along with ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. missense or truncating mutations of HIM-17's THAP and THAP-like domains cause partial loss of function, implying that the domains collectively and partially contribute to HIM-17 activity. of the C. elegans genes encoding THAP or THAP-like domains, at least four (lin-15A, lin-15B, lin-36, and him-17) interact genetically with lin-35/Rb. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	vesicle membrane, 	nucleic acid binding, calcium ion binding, structural molecule activity, 
T09E8.3	T09E8.3	Uncharacterized protein T09E8.3. [Source:Uniprot/SWISSPROT;Acc:Q22361]	intracellular signaling cascade, 	membrane, 	
T09E8.4	T09E8.4	T09E8.4 [Source:RefSeq_peptide;Acc:NP_506279]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sri-6	T09E8.5	Serpentine Receptor, class I family member (sri-6) [Source:RefSeq_peptide;Acc:NP_506280]			
F57B1.8	F57B1.8	F57B1.8 [Source:RefSeq_peptide;Acc:NP_001023989]			
sun-1	F57B1.2	sun-1 encodes a paralog of UNC-84, also called matefin, whose general domain organization (one or more central transmembrane and coiled-coil domains, followed by a C-terminal SUN domain) is shared by Sad1p from Schizosaccharomyces pombe and UNC-84 from C. elegans. SUN-1 is a nuclear envelope receptor for CED-4 during apoptosis, and is bound by CED-4 in vitro. SUN-1 is partially required for apoptosis, since sun-1(RNAi) animals have a moderate defect in normal cell death. SUN-1 is strongly expressed in the nuclear envelope of all early embryonic cells, the primordial germ cells Z2 and Z3, and the germ cell lineage (but not in sperm). early (embryonic) SUN-1 protein is provided maternally, while germ line SUN-1 is zygotic. SUN-1 colocalizes with the nuclear lamin LMN-1 in vivo and binds it in vitro. SUN-1 is required for localization of the hook protein ZYG-12 to the nuclear envelope, and thus for the attachment of centrosomes to nuclei. SUN-1 and UNC-84 may define a class of proteins localized to the outer nuclear envelope but not the endoplasmic reticulum. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F57B1.1	F57B1.1	F57B1.1 [Source:RefSeq_peptide;Acc:NP_506282]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F57B1.9	F57B1.9		G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
col-159	F57B1.3	F57B1.3 [Source:RefSeq_peptide;Acc:NP_506283]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, nutrient reservoir activity, 
col-160	F57B1.4	F57B1.4 [Source:RefSeq_peptide;Acc:NP_506284]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F57B1.5	F57B1.5	F57B1.5 [Source:RefSeq_peptide;Acc:NP_506285]			
F57B1.6	F57B1.6	F57B1.6a [Source:RefSeq_peptide;Acc:NP_001041128]			
F57B1.7	F57B1.7	F57B1.7 [Source:RefSeq_peptide;Acc:NP_506287]			
C34D1.1	C34D1.1	C34D1.1 [Source:RefSeq_peptide;Acc:NP_506288]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
C34D1.2	C34D1.2	C34D1.2 [Source:RefSeq_peptide;Acc:NP_506289]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
odr-3	C34D1.3	Guanine nucleotide-binding protein alpha-17 subunit (Odorant response abnormal protein 3). [Source:Uniprot/SWISSPROT;Acc:Q18434]	signal transduction, small GTPase mediated signal transduction, potassium ion transport, G-protein coupled receptor protein signaling pathway, hyperosmotic response, 	intracellular, 	GTP binding, signal transducer activity, cation transmembrane transporter activity, guanyl nucleotide binding, 
C34D1.4	C34D1.4	C34D1.4 [Source:RefSeq_peptide;Acc:NP_506291]			
zip-5	C34D1.5	bZIP transcription factor family member (zip-5) [Source:RefSeq_peptide;Acc:NP_506292]	regulation of transcription, regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, histamine receptor activity, 
uig-1	F32F2.1	UNC-112-Interacting Guanine nucleotide exchange factor family member (uig-1) [Source:RefSeq_peptide;Acc:NP_506293]	intracellular signaling cascade, regulation of Rho protein signal transduction, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
C26E1.1	C26E1.1	C26E1.1 [Source:RefSeq_peptide;Acc:NP_506294]			
C26E1.3	C26E1.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O02224]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C26E1.2	C26E1.2	C26E1.2 [Source:RefSeq_peptide;Acc:NP_506296]			
C50B6.1	C50B6.1	C50B6.1 [Source:RefSeq_peptide;Acc:NP_506297]			
nasp-2	C50B6.2	NASP (human Nuclear Autoantigenic Sperm Protein) homolog family member (nasp-2) [Source:RefSeq_peptide;Acc:NP_506298]	embryonic development ending in birth or egg hatching, 		
C50B6.3	C50B6.3	C50B6.3 [Source:RefSeq_peptide;Acc:NP_506299]			
col-161	C50B6.4	C50B6.4 [Source:RefSeq_peptide;Acc:NP_506300]	phosphate transport, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
srh-18	C50B6.5	Serpentine Receptor, class H family member (srh-18) [Source:RefSeq_peptide;Acc:NP_506301]			
srh-15	C50B6.6	Serpentine Receptor, class H family member (srh-15) [Source:RefSeq_peptide;Acc:NP_506302]			
C50B6.7	C50B6.7	C50B6.7 [Source:RefSeq_peptide;Acc:NP_506303]	carbohydrate metabolic process, 		catalytic activity, cation binding, alpha-amylase activity, 
C50B6.13	C50B6.13				
str-37	C50B6.12	Seven TM Receptor family member (str-37) [Source:RefSeq_peptide;Acc:NP_506304]			
nhr-129	C50B6.14	Putative uncharacterized protein nhr-129. [Source:Uniprot/SPTREMBL;Acc:A5JYV3]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-168	C50B6.8	Nuclear Hormone Receptor family member (nhr-168) [Source:RefSeq_peptide;Acc:NP_872233]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C50B6.9	C50B6.9	C50B6.9 [Source:RefSeq_peptide;Acc:NP_506306]			
str-4	C50B6.10	Seven TM Receptor family member (str-4) [Source:RefSeq_peptide;Acc:NP_506307]			
C50B6.11	C50B6.11	C50B6.11 [Source:RefSeq_peptide;Acc:NP_506308]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
twk-43	F32H5.7	TWiK family of potassium channels family member (twk-43) [Source:RefSeq_peptide;Acc:NP_872137]	potassium ion transport, 	membrane, 	potassium channel activity, 
F32H5.1	F32H5.1	F32H5.1 [Source:RefSeq_peptide;Acc:NP_506310]	proteolysis, positive regulation of growth rate, 		cysteine-type peptidase activity, 
F32H5.3	F32H5.3	F32H5.3b [Source:RefSeq_peptide;Acc:NP_506312]			
F32H5.4	F32H5.4	F32H5.4 [Source:RefSeq_peptide;Acc:NP_506313]	transport, 	integral to membrane, 	transporter activity, 
srg-46	F32H5.5	Serpentine receptor class gamma-46 (Protein srg-46). [Source:Uniprot/SWISSPROT;Acc:P91994]			
srx-125	F32H5.6	Serpentine Receptor, class X family member (srx-125) [Source:RefSeq_peptide;Acc:NP_001041110]			
tag-260	M04G12.1	Temporarily Assigned Gene name family member (tag-260) [Source:RefSeq_peptide;Acc:NP_506316]	homoiothermy, response to freezing, 		protein binding, ice binding, 
cpz-2	M04G12.2	CathePsin Z family member (cpz-2) [Source:RefSeq_peptide;Acc:NP_506318]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
gcy-34	M04G12.3	gcy-34 encodes a predicted soluble guanylyl cyclase that is expressed in four candidate sensory neurons connected to the pseudocoelom, URXL, URXR, AQR, and PQR. as loss of gcy-34 activity via RNA-mediated interference does not result in any abnormalities, the precise role of GCY-34 in C. elegans development and/or behavior is not yet known. GCY-34 expression in neurons connected to the pseudocoelom suggests, however, that GCY-34 may play a role in fluid homeostasis. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
M04G12.4	M04G12.4	M04G12.4b [Source:RefSeq_peptide;Acc:NP_872161]		intracellular, 	zinc ion binding, nucleic acid binding, 
F53F1.1	F53F1.1	F53F1.1 [Source:RefSeq_peptide;Acc:NP_506321]			
F53F1.2	F53F1.2	F53F1.2 [Source:RefSeq_peptide;Acc:NP_506322]	biological_process, 		oxidoreductase activity, 
F53F1.3	F53F1.3	F53F1.3 [Source:RefSeq_peptide;Acc:NP_506323]			oxidoreductase activity, 
F53F1.4	F53F1.4	F53F1.4 [Source:RefSeq_peptide;Acc:NP_506324]			
F53F1.5	F53F1.5	F53F1.5 [Source:RefSeq_peptide;Acc:NP_506325]	translation, 	intracellular, ribosome, 	structural constituent of ribosome, 
F53F1.6	F53F1.6	F53F1.6 [Source:RefSeq_peptide;Acc:NP_506326]			
srv-8	F53F1.7	Serpentine Receptor, class V family member (srv-8) [Source:RefSeq_peptide;Acc:NP_506327]		membrane, 	GABA-B receptor activity, 
srv-9	F53F1.8	Serpentine Receptor, class V family member (srv-9) [Source:RefSeq_peptide;Acc:NP_506328]			
srv-10	F53F1.9	Serpentine Receptor, class V family member (srv-10) [Source:RefSeq_peptide;Acc:NP_506329]	response to antibiotic, tetracycline transport, 	integral to membrane, 	tetracycline:hydrogen antiporter activity, 
srd-18	F53F1.10	Serpentine receptor class delta-18 (Protein srd-18). [Source:Uniprot/SWISSPROT;Acc:P92001]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srd-19	F53F1.11	Serpentine receptor class delta-19 (Protein srd-19). [Source:Uniprot/SWISSPROT;Acc:P92002]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srd-17	Y2H9A.2	Serpentine Receptor, class D (delta) family member (srd-17) [Source:RefSeq_peptide;Acc:NP_506332]			
mes-4	Y2H9A.1	mes-4 encodes a SET domain-containing protein that also contains three plant homeodomain (PHD) fingers. MES-4 is required maternally for normal germline development, but in contrast to MES-2, -3, and -6, does not appear to be required for somatic anteroposterior patterning. in germline development, MES-4 activity is essential for regulating active chromatin states and for excluding the MES-2/MES-3/MES-6 chromatin repression complex from the autosomes. MES-4 is also required for germline silencing of repetitive transgene arrays. MES-4 localizes to autosomes, and is detectable in the distal, mitotic region of the germline, in meiotic germ cells during late pachytene, and in oocytes. MES-4 is detected in all somatic and germline nuclei of the early embryo, but by the 100-cell stage, its expression becomes restricted to the primordial germ cells, Z2 and Z3. exclusion of MES-4 from X chromosomes requires the activity of the MES-2, -3, -6 complex [Source: WormBase]	gamete generation, germ-line sex determination, gene silencing, 	nucleus, nuclear chromosome, 	protein binding, zinc ion binding, histone methyltransferase activity, 
col-162	Y2H9A.3	COLlagen family member (col-162) [Source:RefSeq_peptide;Acc:NP_506334]	phosphate transport, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
Y2H9A.4	Y2H9A.4	Y2H9A.4 [Source:RefSeq_peptide;Acc:NP_506335]			
F25H9.9	F25H9.9				
F25H9.1	F25H9.1	F25H9.1 [Source:RefSeq_peptide;Acc:NP_506336]			
F25H9.3	F25H9.3	F25H9.3 [Source:RefSeq_peptide;Acc:NP_506337]			
F25H9.2	F25H9.2	F25H9.2 [Source:RefSeq_peptide;Acc:NP_506338]			protein binding, 
bath-39	F25H9.4	BTB and MATH domain-containing protein 39. [Source:Uniprot/SWISSPROT;Acc:P90846]			protein binding, 
frm-10	F25H9.5	frm-10 encodes a protein that contains an N-terminal FERM (Band 4.1-ezrin-radixin-moesin) domain. by homology, FRM-10 is predicted to function as a membrane-cytoskeleton linker protein that plays a role in cell adhesion, migration, or organization of cell surface structures. however, as loss of frm-10 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of FRM-10 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		cytoskeleton, 	
F25H9.6	F25H9.6	F25H9.6 [Source:RefSeq_peptide;Acc:NP_506341]	biological_process, 		protein binding, catalytic activity, 
F25H9.7	F25H9.7	F25H9.7 [Source:RefSeq_peptide;Acc:NP_506342]			
T10G3.1	T10G3.1	T10G3.1 [Source:RefSeq_peptide;Acc:NP_506343]	embryonic development ending in birth or egg hatching, 		
T10G3.8	T10G3.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL0]			
T10G3.2	T10G3.2	T10G3.2 [Source:RefSeq_peptide;Acc:NP_506344]			
T10G3.4	T10G3.4	T10G3.4 [Source:RefSeq_peptide;Acc:NP_506345]			
T10G3.3	T10G3.3	T10G3.3 [Source:RefSeq_peptide;Acc:NP_506346]			
eea-1	T10G3.5	eea-1 encodes a coiled-coil protein that is the C. elegans ortholog of early endosome antigen 1 (EEA1). eea-1 activity is required for wild-type levels of endocytosis. a fusion protein between EEA-1 FYVE domains and GFP binds endosomal/vacuolar membranes in wild-type worms but not in those lacking vps-34 activity, suggesting that, like its human ortholog, C. elegans EEA-1 binds phosphatidylinositol 3-phosphate (PtdIns 3-P) in vivo. EEA-1 reporter fusion proteins localize to endocytic vesicles. [Source: WormBase]	vesicle-mediated transport, endocytosis, 	membrane, intracellular, 	protein binding, zinc ion binding, nucleic acid binding, calcium ion binding, 
gut-2	T10G3.6	gut-2 encodes a member of the Sm protein family with highest similarity to human U6 snRNA-associated Sm-like protein, LSm2, that affects embryonic viability. [Source: WormBase]	mRNA metabolic process, positive regulation of growth rate, 	ribonucleoprotein complex, 	
avr-15	R11G10.1	avr-15 encodes, via alternative splicing, two glutamate-gated chloride channel subunit homologs. these proteins mediate fast inhibitory glutamatergic neuromuscular transmission, as well as ivermectin sensitivity, and are required for normal pharyngeal function. [Source: WormBase]	transport, ion transport, locomotion during locomotory behavior, regulation of pharyngeal pumping, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
R11G10.t2	R11G10.t2				
R11G10.t1	R11G10.t1				
R11G10.2	R11G10.2	Putative selenium-binding protein. [Source:Uniprot/SWISSPROT;Acc:Q21950]			selenium binding, 
R11G10.3	R11G10.3	R11G10.3 [Source:RefSeq_peptide;Acc:NP_001024078]			
C56A3.9	C56A3.9		embryonic development ending in birth or egg hatching, 		
C56A3.2	C56A3.2	C56A3.2 [Source:RefSeq_peptide;Acc:NP_506352]			
C56A3.3	C56A3.3	C56A3.3 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that C56A3.3 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C56A3.4	C56A3.4	C56A3.4 [Source:RefSeq_peptide;Acc:NP_506354]	positive regulation of growth rate, 		protein binding, zinc ion binding, 
C56A3.5	C56A3.5	C56A3.5 [Source:RefSeq_peptide;Acc:NP_506355]			
C56A3.6	C56A3.6	C56A3.6 [Source:RefSeq_peptide;Acc:NP_506356]			calcium ion binding, 
cav-2	C56A3.7	cav-2 encodes one of two C. elegans proteins related to caveolins, integral transmembrane proteins that are believed to function in regulation of signal transduction and that are the major component of caveolae, specialized lipid rafts found in the plasma membrane of most cell types. as loss of cav-2 function via large-scale RNA-mediated interference (RNAi) screens does not result in any obvious abnormalities, the role of cav-2 in C. elegans development and/or behavior is not yet known. cav-2 mRNA is expressed in eggs and mixed stage populations. [Source: WormBase]	cell surface receptor linked signal transduction, 	caveolar membrane, 	
C56A3.8	C56A3.8	C56A3.8 [Source:RefSeq_peptide;Acc:NP_506358]			phosphotransferase activity, alcohol group as acceptor, 
grl-17	C56A3.1	grl-17 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-17 is expressed in pharynx, rectal epithelium, amphid socket cells, larval arcade cells, and larval hypodermis. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
C50B8.1	C50B8.1	C50B8.1 [Source:RefSeq_peptide;Acc:NP_506360]			nucleotide binding, nucleic acid binding, 
C50B8.3	C50B8.3	Probable complex I intermediate-associated protein 30, mitochondrial precursor. [Source:Uniprot/SWISSPROT;Acc:Q18726]			
bir-2	C50B8.2	The bir-2 gene encodes a protein with two BIR domains that may be involved in apoptosis. [Source: WormBase]	anti-apoptosis, embryonic development ending in birth or egg hatching, 	intracellular, 	
C50B8.4	C50B8.4	C50B8.4 [Source:RefSeq_peptide;Acc:NP_506363]			
C50B8.6	C50B8.6	C50B8.6 [Source:RefSeq_peptide;Acc:NP_001023720]	vesicle-mediated transport, 	membrane, 	protein binding, 
C50B8.5	C50B8.5	C50B8.5 [Source:RefSeq_peptide;Acc:NP_506364]			
F53F4.1	F53F4.1	F53F4.1 [Source:RefSeq_peptide;Acc:NP_506365]			
F53F4.17	F53F4.17	F53F4.17 [Source:RefSeq_peptide;Acc:NP_001076746]			
F53F4.2	F53F4.2	F53F4.2 [Source:RefSeq_peptide;Acc:NP_506366]			
F53F4.3	F53F4.3	Tubulin-specific chaperone B (Tubulin folding cofactor B) (CoB). [Source:Uniprot/SWISSPROT;Acc:Q20728]			
F53F4.4	F53F4.4	F53F4.4 [Source:RefSeq_peptide;Acc:NP_506368]			
rdy-2	F53F4.6	Rod-like lethal, DYe-filling defective family member (rdy-2) [Source:RefSeq_peptide;Acc:NP_506369]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
fmo-4	F53F4.5	fmo-4 encodes a flavin-containing monoxygenase homologous to human FMO1, FMO2, and FMO3 (OMIM:602079, mutated in trimethylaminuria). [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 	microsome, 	oxidoreductase activity, monooxygenase activity, flavin-containing monooxygenase activity, 
F53F4.13	F53F4.13	F53F4.13 [Source:RefSeq_peptide;Acc:NP_506371]			
F53F4.7	F53F4.7	F53F4.7 [Source:RefSeq_peptide;Acc:NP_506372]			
F53F4.8	F53F4.8	F53F4.8 [Source:RefSeq_peptide;Acc:NP_506373]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
srd-11	F53F4.9	Serpentine Receptor, class D (delta) family member (srd-11) [Source:RefSeq_peptide;Acc:NP_506374]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F53F4.15	F53F4.15	F53F4.15 [Source:RefSeq_peptide;Acc:NP_001023962]			
F53F4.16	F53F4.16	F53F4.16 [Source:RefSeq_peptide;Acc:NP_001023963]			
F53F4.11	F53F4.11	F53F4.11 [Source:RefSeq_peptide;Acc:NP_506375]	positive regulation of growth rate, 		structural constituent of ribosome, 
F53F4.10	F53F4.10	F53F4.10 is orthologous to the human gene NADH-UBIQUINONE OXIDOREDUCTASE FLAVOPROTEIN 2 (NDUFV2. OMIM:600532), which when mutated is associated with susceptibility to Parkinson disease (OMIM:168600). F53F4.10 protein is predicted to be mitochondrial. [Source: WormBase]	electron transport, embryonic development ending in birth or egg hatching, 		protein binding, oxidoreductase activity, NAD binding, 
F53F4.12	F53F4.12	F53F4.12 [Source:RefSeq_peptide;Acc:NP_506377]			
F53F4.14	F53F4.14	F53F4.14 [Source:RefSeq_peptide;Acc:NP_506378]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
H37A05.2	H37A05.2	H37A05.2 [Source:RefSeq_peptide;Acc:NP_506379]			
H37A05.3	H37A05.3				
H37A05.4	H37A05.4	H37A05.4 [Source:RefSeq_peptide;Acc:NP_001024017]			
H37A05.1	H37A05.1	H37A05.1 encodes a putative phosphatidic acid phosphatase orthologous to budding yeast PAH1 and human LPIN1 (OMIM:605518), LPIN2 (OMIM:605519, mutated in Majeed syndrome), and LPIN3 (OMIM:605520). H37A05.1 is expressed in vulval muscle. in mass RNAi assays, H37A05.1 is required for the osmotic integrity of eggs and for normal larval growth, body thickness, locomotion, and fertility. by orthology, H37A05.1 is expected to be dephosphorylated by SCPL-2. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
F58G11.1	F58G11.1	F58G11.1a [Source:RefSeq_peptide;Acc:NP_506381]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
F58G11.2	F58G11.2	F58G11.2 [Source:RefSeq_peptide;Acc:NP_506383]			ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
F58G11.3	F58G11.3	F58G11.3a [Source:RefSeq_peptide;Acc:NP_001041135]			
F58G11.4	F58G11.4	F58G11.4 [Source:RefSeq_peptide;Acc:NP_506385]			drug transporter activity, 
tag-65	F58G11.5	Temporarily Assigned Gene name family member (tag-65) [Source:RefSeq_peptide;Acc:NP_506386]		intracellular, 	nucleic acid binding, 
F58G11.6	F58G11.6	F58G11.6 (also known as ccz-1 or hps-4) encodes an ortholog of human C7orf28A and C7orf28B, with more distant similarity to human HPS4 (OMIM:606682) and S. cerevisiae Ccz1p in its N-terminal CHiPS domain. the CHiPS domain of F58G11.6 is predicted to have a longin-like fold. by analogy with Ccz1p and C. elegans SAND-1, F58G11.6 might be required for normal (RAB-7-mediated) traffic between early and late endosomes, or for autophagy. F58G11.6 is bound by SAND-1. [Source: WormBase]			
T01D3.1	T01D3.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O01335]			
T01D3.7	T01D3.7	T01D3.1 [Source:RefSeq_peptide;Acc:NP_506388]	cell communication, 	membrane, 	
T01D3.3	T01D3.3	T01D3.3a [Source:RefSeq_peptide;Acc:NP_506390]	superoxide metabolic process, embryonic development ending in birth or egg hatching, 		metal ion binding, protease inhibitor activity, copper, zinc superoxide dismutase activity, 
T01D3.2	T01D3.2	Single-minded homolog. [Source:Uniprot/SWISSPROT;Acc:P90953]	signal transduction, regulation of transcription, regulation of transcription, DNA-dependent, nervous system development, 	nucleus, 	signal transducer activity, transcription regulator activity, transcription factor activity, 
srx-96	T01D3.4	Serpentine Receptor, class X family member (srx-96) [Source:RefSeq_peptide;Acc:NP_506392]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T01D3.5	T01D3.5	T01D3.5 [Source:RefSeq_peptide;Acc:NP_506393]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
T01D3.6	T01D3.6	T01D3.6a [Source:RefSeq_peptide;Acc:NP_506394]	signal transduction, 		calcium ion binding, receptor binding, enzyme inhibitor activity, 
F35E12.1	F35E12.1	F35E12.1 [Source:RefSeq_peptide;Acc:NP_506396]		extracellular region, 	
F35E12.11	F35E12.11				
F35E12.2	F35E12.2	F35E12.2 [Source:RefSeq_peptide;Acc:NP_506397]			
fbxa-181	F35E12.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	peptide cross-linking, 		protein-glutamine gamma-glutamyltransferase activity, 
F35E12.7	F35E12.7	F35E12.7c [Source:RefSeq_peptide;Acc:NP_001023879]	phosphate metabolic process, 	cytoplasm, 	magnesium ion binding, inorganic diphosphatase activity, 
F35E12.4	F35E12.4	F35E12.4 [Source:RefSeq_peptide;Acc:NP_506400]			
F35E12.6	F35E12.6	F35E12.6 [Source:RefSeq_peptide;Acc:NP_506401]			
F35E12.5	F35E12.5	F35E12.5 [Source:RefSeq_peptide;Acc:NP_506402]			
F35E12.9	F35E12.9	F35E12.9a [Source:RefSeq_peptide;Acc:NP_001023881]			
F35E12.10	F35E12.10	F35E12.10 [Source:RefSeq_peptide;Acc:NP_506404]			
F35E12.8	F35E12.8	F35E12.8 [Source:RefSeq_peptide;Acc:NP_506405]			
F20G2.1	F20G2.1	F20G2.1 [Source:RefSeq_peptide;Acc:NP_506406]	metabolic process, 		oxidoreductase activity, 
F20G2.2	F20G2.2	F20G2.2 [Source:RefSeq_peptide;Acc:NP_506407]	metabolic process, 		oxidoreductase activity, 
F20G2.7	F20G2.7				
F20G2.6	F20G2.6	F20G2.6b [Source:RefSeq_peptide;Acc:NP_001023827]			
F20G2.3	F20G2.3	F20G2.3 [Source:RefSeq_peptide;Acc:NP_506408]	transport, 	integral to membrane, 	
nas-24	F20G2.4	Zinc metalloproteinase nas-24 precursor (EC 3.4.24.21) (Nematode astacin 24). [Source:Uniprot/SWISSPROT;Acc:Q93542]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F20G2.5	F20G2.5	F20G2.5 [Source:RefSeq_peptide;Acc:NP_506410]	defense response, 		
F53C11.1	F53C11.1	F53C11.1 [Source:RefSeq_peptide;Acc:NP_506411]			
F53C11.9	F53C11.9	F53C11.9 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. F53C11.9 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. [Source: WormBase]			
F53C11.2	F53C11.2	F53C11.2 [Source:RefSeq_peptide;Acc:NP_506412]			
F53C11.3	F53C11.3	Uncharacterized oxidoreductase F53C11.3 (EC 1.-.-.-). [Source:Uniprot/SWISSPROT;Acc:Q93761]	metabolic process, G-protein coupled receptor protein signaling pathway, defense response, enterobactin biosynthetic process, 	integral to membrane, 	oxidoreductase activity, alcohol dehydrogenase activity, beta1-adrenergic receptor activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F53C11.4	F53C11.4	F53C11.4 [Source:RefSeq_peptide;Acc:NP_506414]			
F53C11.5	F53C11.5	F53C11.5a [Source:RefSeq_peptide;Acc:NP_001041120]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
twk-32	F53C11.6	Putative uncharacterized protein twk-32. [Source:Uniprot/SPTREMBL;Acc:Q93764]	ion transport, potassium ion transport, 	membrane, 	potassium channel activity, chloride channel activity, 
swan-2	F53C11.7	Seven WD repeats, AN11 family member (swan-2) [Source:RefSeq_peptide;Acc:NP_506417]			
swan-1	F53C11.8	Seven WD repeats, AN11 family member (swan-1) [Source:RefSeq_peptide;Acc:NP_506418]			
ceh-24	F55B12.1	ceh-24 is orthologous to the human gene SIMILAR TO THYROID TRANSCRIPTION FACTOR 1 (TITF1. OMIM:600635), which when mutated leads to disease. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of multicellular organism growth, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
F55B12.2	F55B12.2	F55B12.2 [Source:RefSeq_peptide;Acc:NP_506420]			
sel-10	F55B12.3	sel-10 encodes two isoforms of an F-box and WD-repeat-containing protein that is a member of the CDC4/CUL-1 family of E2-E3 ubiquitin ligases that target cell cycle control proteins for ubiquitin-mediated degradation. SEL-10 functions as a negative regulator of the LIN-12/Notch-like signaling pathway in C. elegans and thus may contribute to cell fate decisions mediated by LIN-12. SEL-10 physically interacts with LIN-12 and with SEL-12, a C. elegans presenilin, and as such, is proposed to regulate the levels and/or activity of these proteins. SEL-10 also plays a role in sexual fate determination by regulating sexually dimorphic apoptosis of hermaphrodite- and male-specific neurons. the targets of SEL-10 in these sex-specific fate decisions are not yet known. [Source: WormBase]	regulation of transcription, regulation of Notch signaling pathway, 	nucleus, 	protein binding, 
F55B12.4	F55B12.4	F55B12.4 [Source:RefSeq_peptide;Acc:NP_001023976]	RNA processing, biological_process, 		RNA binding, nucleotidyltransferase activity, 
nrf-5	F55B12.5	Nose Resistant to Fluoxetine family member (nrf-5) [Source:RefSeq_peptide;Acc:NP_506424]			lipid binding, 
str-165	F55B12.6	Seven TM Receptor family member (str-165) [Source:RefSeq_peptide;Acc:NP_506425]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	neuropeptide Y receptor activity, 
srx-129	F55B12.9	Serpentine Receptor, class X family member (srx-129) [Source:RefSeq_peptide;Acc:NP_001023977]			
srx-128	F55B12.7	Serpentine Receptor, class X family member (srx-128) [Source:RefSeq_peptide;Acc:NP_506426]			
srx-17	F55B12.8				
srx-130	F09F3.1	Serpentine Receptor, class X family member (srx-130) [Source:RefSeq_peptide;Acc:NP_506428]			
srx-131	F09F3.2	Serpentine Receptor, class X family member (srx-131) [Source:RefSeq_peptide;Acc:NP_506429]			
srx-132	F09F3.3				
srx-133	F09F3.4	Serpentine Receptor, class X family member (srx-133) [Source:RefSeq_peptide;Acc:NP_506431]			
F09F3.5	F09F3.5	F09F3.5 [Source:RefSeq_peptide;Acc:NP_506432]	electron transport, response to oxidative stress, biological_process, 		peroxidase activity, heme binding, 
F09F3.6	F09F3.6	F09F3.6 [Source:RefSeq_peptide;Acc:NP_506433]			
srx-134	F09F3.7	Serpentine Receptor, class X family member (srx-134) [Source:RefSeq_peptide;Acc:NP_506434]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-136	F09F3.12	Serpentine Receptor, class X family member (srx-136) [Source:RefSeq_peptide;Acc:NP_506435]			
srx-135	F09F3.11	Serpentine Receptor, class X family member (srx-135) [Source:RefSeq_peptide;Acc:NP_506436]			
srx-137	F09F3.13	Serpentine Receptor, class X family member (srx-137) [Source:RefSeq_peptide;Acc:NP_506437]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, 
nhr-175	F09F3.10	Nuclear Hormone Receptor family member (nhr-175) [Source:RefSeq_peptide;Acc:NP_506438]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F09F3.8	F09F3.8				
cpt-5	F09F3.9	Carnitine Palmitoyl Transferase family member (cpt-5) [Source:RefSeq_peptide;Acc:NP_741637]	proteolysis, 		protein binding, cysteine-type endopeptidase activity, acyltransferase activity, 
T22G5.1	T22G5.1	T22G5.1 [Source:RefSeq_peptide;Acc:NP_506439]	glycerol metabolic process, 		glycerophosphodiester phosphodiesterase activity, 
lbp-7	T22G5.2	lbp-7 encodes a predicted intracellular fatty acid binding protein (iFABP) that is most similar to the vertebrate muscle and heart FABPs. by homology, LBP-7 is predicted to function as an intracellular transporter for small hydrophobic molecules such as lipids and steroid hormones. as loss of lbp-7 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of LBP-7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, determination of adult life span, 		transporter activity, protein binding, binding, lipid binding, 
T22G5.3	T22G5.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
srsx-19	T22G5.4	Serpentine Receptor, class SX family member (srsx-19) [Source:RefSeq_peptide;Acc:NP_506442]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
spp-12	T22G5.7	SaPosin-like Protein family member (spp-12) [Source:RefSeq_peptide;Acc:NP_506443]	determination of adult life span, 		
lbp-8	T22G5.6	lpb-8 belongs to a family of small intracellular fatty acid binding proteins (FABPs) that includes As-p18, found in the parasitic nematode Ascaris suum. lpb-8 shares 55% identity with bovine heart FABP but only 25% identity with As-p18 and lacks a secretory signal [Source: WormBase]	transport, 		transporter activity, binding, lipid binding, 
sptl-3	T22G5.5	Serine Palmitoyl Transferase famiLy family member (sptl-3) [Source:RefSeq_peptide;Acc:NP_506445]	metabolic process, biosynthetic process, reproduction, 		catalytic activity, pyridoxal phosphate binding, transferase activity, transferase activity, transferring nitrogenous groups, 
cyp-35C1	C06B3.3	CYtochrome P450 family member (cyp-35C1) [Source:RefSeq_peptide;Acc:NP_741638]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C06B3.2	C06B3.2	C06B3.2 [Source:RefSeq_peptide;Acc:NP_506446]			transferase activity, transferring groups other than amino-acyl groups, 
C06B3.1	C06B3.1	C06B3.1 [Source:RefSeq_peptide;Acc:NP_506447]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C06B3.5	C06B3.5	Putative steroid dehydrogenase C06B3.5 (EC 1.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q17704]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
stdh-1	C06B3.4	Putative steroid dehydrogenase stdh-1 (EC 1.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q17703]	metabolic process, determination of adult life span, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C06B3.6	C06B3.6	C06B3.6 [Source:RefSeq_peptide;Acc:NP_506450]			
C06B3.7	C06B3.7	C06B3.7 [Source:RefSeq_peptide;Acc:NP_506451]			
gcy-32	C06B3.8	gcy-32 encodes a predicted guanylate cyclase. expressed in URX, AQR, and PQR neurons. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
str-252	C06B3.9	Seven TM Receptor family member (str-252) [Source:RefSeq_peptide;Acc:NP_506453]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
str-250	C06B3.10	Seven TM Receptor family member (str-250) [Source:RefSeq_peptide;Acc:NP_506454]			
srx-42	C06B3.11	Serpentine Receptor, class X family member (srx-42) [Source:RefSeq_peptide;Acc:NP_506455]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srxa-11	C06B3.12	Serpentine Receptor, class XA family member (srxa-11) [Source:RefSeq_peptide;Acc:NP_001021368]			
srxa-12	C06B3.13	Serpentine Receptor, class XA family member (srxa-12) [Source:RefSeq_peptide;Acc:NP_001021369]			
srxa-13	C06B3.14	Serpentine Receptor, class XA family member (srxa-13) [Source:RefSeq_peptide;Acc:NP_001021370]	electron transport, 		iron ion binding, monooxygenase activity, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
R10D12.1	R10D12.1	R10D12.1 [Source:RefSeq_peptide;Acc:NP_506456]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
srw-145	R10D12.17	Serpentine Receptor, class W family member (srw-145) [Source:RefSeq_peptide;Acc:NP_001024075]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
dpr-1	R10D12.2	dpr-1 encodes a putative nuclear hormone receptor that affects endoderm differentiation and may promote entry into the dauer state and maintenance of the dauer state. expressed in the endoderm lineage and localization appears dependent on growth conditions. [Source: WormBase]	electron transport, regulation of transcription, DNA-dependent, dauer larval development, 	nucleus, 	iron ion binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, monooxygenase activity, heme binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srx-127	R10D12.3				
srx-10	R10D12.4	Serpentine Receptor, class X family member (srx-10) [Source:RefSeq_peptide;Acc:NP_506459]			
R10D12.5	R10D12.5	R10D12.5 [Source:RefSeq_peptide;Acc:NP_506460]	transport, 		
R10D12.6	R10D12.6	R10D12.6 [Source:RefSeq_peptide;Acc:NP_506461]		integral to membrane, 	
R10D12.7	R10D12.7	R10D12.7 [Source:RefSeq_peptide;Acc:NP_506462]		integral to membrane, 	
R10D12.8	R10D12.8	R10D12.8 [Source:RefSeq_peptide;Acc:NP_506463]			protein binding, 
R10D12.9	R10D12.9	R10D12.9 (R10D12.9) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_074063]			
R10D12.10	R10D12.10	R10D12.10 [Source:RefSeq_peptide;Acc:NP_506465]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
srh-24	R10D12.11	Serpentine Receptor, class H family member (srh-24) [Source:RefSeq_peptide;Acc:NP_506466]			
R10D12.12	R10D12.12	R10D12.12 [Source:RefSeq_peptide;Acc:NP_506467]	carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
R10D12.13	R10D12.13	R10D12.13a [Source:RefSeq_peptide;Acc:NP_506469]			
R10D12.14	R10D12.14	R10D12.14b [Source:RefSeq_peptide;Acc:NP_001041151]	embryonic development ending in birth or egg hatching, 		
R10D12.15	R10D12.15	T26F2.1 [Source:RefSeq_peptide;Acc:NP_506473]	chitin catabolic process, cell wall catabolic process, 		chitinase activity, 
T26F2.1	T26F2.1	T26F2.1 [Source:RefSeq_peptide;Acc:NP_506473]	chitin catabolic process, cell wall catabolic process, 		chitinase activity, 
T26F2.3	T26F2.3	T26F2.2 [Source:RefSeq_peptide;Acc:NP_506474]			
T26F2.2	T26F2.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O18133]			
end-1	F58E10.2	end-1 encodes a GATA-like transcription factor sufficient to initiate endoderm differentiation and binds to the canonical target DNA sequence WGATAR with specificity similar to GATA-1 and D4 transcription factors. its expression bypasses requirement for maternal SKN-1 and the maternal Wnt signaling pathway in endoderm formation and it activates endoderm differentiation in isolated Xenopus ectoderm. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
F58E10.1	F58E10.1	F58E10.1b [Source:RefSeq_peptide;Acc:NP_001041133]	DNA recombination, double-strand break repair, 	nucleus, 	protein binding, DNA binding, 
F58E10.7	F58E10.7	F58E10.7 [Source:RefSeq_peptide;Acc:NP_506477]			
F58E10.3	F58E10.3	F58E10.3a [Source:RefSeq_peptide;Acc:NP_001041134]	embryonic development ending in birth or egg hatching, 		ATP binding, nucleic acid binding, helicase activity, ATP-dependent helicase activity, 
aip-1	F58E10.4	aip-1 encodes an AN-1-like zinc finger-containing protein homologous to arsenite-inducible RNA-associated protein (AIRAP), conserved among C. elegans, Drosophila, and mammals. like AIRAP itself, AIP-1 protects cells from arsenite toxicity. AIP-1 is a predicted RNA binding protein that may function in ubiquitin-mediated proteolysis following aresenite treatment. AIP-1 does not appear to be essential for viability, but is expressed at high levels in hypodermal and intestinal cells following such treatment. [Source: WormBase]			zinc ion binding, 
end-3	F58E10.5	end-3 encodes a GATA zinc finger protein, paralogous to end-1, that helps specify mesoendodermal (as opposed to mesectodermal) lineages derived from the E blastomere. [Source: WormBase]	regulation of transcription, DNA-dependent, mesodermal cell fate specification, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
srh-308	F58E10.6	Serpentine Receptor, class H family member (srh-308) [Source:RefSeq_peptide;Acc:NP_506481]			
mtl-2	T08G5.10	mtl-2 encodes one of two C. elegans metallothioneins, small, cysteine-rich, metal-binding proteins. MTL-2 functions in metal detoxification and homeostasis and stress adaptation. in addition, mtl-2 plays a role in regulating growth and fertility. mtl-2 expression is induced in larval and adult intestinal cells following exposure to cadmium or heat shock. MTL-2 intestinal expression is dependent upon ELT-2, an intestine-specific GATA-type transcription factor. mtl-2 is downregulated by DAF-16 in daf-2 mutants. [Source: WormBase]	determination of adult life span, response to cadmium ion, 		metal ion binding, calcium ion binding, 
T08G5.1	T08G5.1	T08G5.1 [Source:RefSeq_peptide;Acc:NP_506483]			
T08G5.2	T08G5.2	T08G5.2 [Source:RefSeq_peptide;Acc:NP_506484]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T08G5.3	T08G5.3	T08G5.3 [Source:RefSeq_peptide;Acc:NP_506485]			
NR_000602.1	T08G5.11	T08G5.11, snRNA [Source:RefSeq_dna;Acc:NR_000602]			
T08G5.4	T08G5.4				
ins-10	T08G5.12	ins-10 encodes an insulin-like peptide. [Source: WormBase]		extracellular region, 	hormone activity, 
T08G5.5	T08G5.5	T08G5.5b [Source:RefSeq_peptide;Acc:NP_001041164]	morphogenesis of an epithelium, 		protein binding, small GTPase regulator activity, 
T08G5.7	T08G5.7	T08G5.7 [Source:RefSeq_peptide;Acc:NP_506487]		intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
T08G5.9	T08G5.9	T08G5.9 [Source:RefSeq_peptide;Acc:NP_506488]			structural molecule activity, 
T08G5.8	T08G5.8	T08G5.8 [Source:RefSeq_peptide;Acc:NP_506489]			structural molecule activity, 
F58D12.1	F58D12.1	F58D12.1 [Source:RefSeq_peptide;Acc:NP_506490]			
F58D12.2	F58D12.2				
F58D12.3	F58D12.3	F58D12.3 [Source:RefSeq_peptide;Acc:NP_506491]			
D1086.17	D1086.17	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL1]			
D1086.11	D1086.11	D1086.11 [Source:RefSeq_peptide;Acc:NP_001023750]			
D1086.6	D1086.6	D1086.6 [Source:RefSeq_peptide;Acc:NP_506492]			
D1086.10	D1086.10	D1086.10 [Source:RefSeq_peptide;Acc:NP_001023749]			
D1086.7	D1086.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O62125]			
D1086.18	D1086.18	D1086.7 [Source:RefSeq_peptide;Acc:NP_506493]			
D1086.19	D1086.19	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYW8]			
D1086.5	D1086.5	D1086.5 [Source:RefSeq_peptide;Acc:NP_506494]			
D1086.4	D1086.4	D1086.4 [Source:RefSeq_peptide;Acc:NP_506495]			
NR_003469.1	D1086.14	D1086.14, snoRNA [Source:RefSeq_dna;Acc:NR_003469]			
D1086.3	D1086.3	D1086.3 [Source:RefSeq_peptide;Acc:NP_506496]			
D1086.8	D1086.8	D1086.8 [Source:RefSeq_peptide;Acc:NP_001023753]			
NR_003471.1	D1086.16	D1086.16, snRNA [Source:RefSeq_dna;Acc:NR_003471]			
NR_003470.1	D1086.15	D1086.15, snRNA [Source:RefSeq_dna;Acc:NR_003470]			
D1086.2	D1086.2	D1086.2 [Source:RefSeq_peptide;Acc:NP_506497]			
D1086.13	D1086.13				
D1086.1	D1086.1	D1086.1 [Source:RefSeq_peptide;Acc:NP_506498]			
D1086.12	D1086.12	D1086.12a [Source:RefSeq_peptide;Acc:NP_001023751]			
D1086.9	D1086.9	D1086.9 [Source:RefSeq_peptide;Acc:NP_001023754]			
H39E23.3	H39E23.3	H39E23.3 [Source:RefSeq_peptide;Acc:NP_001024021]			
H39E23.2	H39E23.2	H39E23.2 [Source:RefSeq_peptide;Acc:NP_001024020]			
par-1	H39E23.1	par-1 encodes a serine-threonine kinase. maternally provided PAR-1 is essential for establishing early embryonic polarity. PAR-1 is membrane-associated and asymmetrically localized to the posterior cortex of late one-cell stage embryos. PAR-1 is continuously asymmetrically localized to the P lineage (germline blastomeres) at each subsequent division, and evenly distributed to the Z2 and Z3 germline precursors before eventually fading at embryonic morphogenesis. [Source: WormBase]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, embryonic pattern specification, polarity specification of anterior/posterior axis, establishment of cell polarity, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
AH10.4	AH10.4	AH10.4 [Source:RefSeq_peptide;Acc:NP_506500]			
AH10.3	AH10.3	AH10.3 [Source:RefSeq_peptide;Acc:NP_506501]			
AH10.1	AH10.1	AH10.1 [Source:RefSeq_peptide;Acc:NP_506502]	metabolic process, 		catalytic activity, 
AH10.2	AH10.2	AH10.2 [Source:RefSeq_peptide;Acc:NP_506503]			
T02B5.3	T02B5.3	T02B5.3 [Source:RefSeq_peptide;Acc:NP_506504]	metabolic process, 		hydrolase activity, 
srd-26	T02B5.4	Serpentine receptor class delta-26 (Protein srd-26). [Source:Uniprot/SWISSPROT;Acc:P92015]			
T02B5.1	T02B5.1	T02B5.1 [Source:RefSeq_peptide;Acc:NP_506506]	metabolic process, 		hydrolase activity, 
ocam-1	T02B5.2	T02B5.2 encodes a protein with an OCAM domain, a nematode-specific motif conserved between T02B5.2 and two other nematode ONECUT homeobox proteins (CEH-21 and CEH-41). this gene is probably derived from a ONECUT gene that lost both tit cut domain and its homeodomain. T02B5.2 has no obvious function in mass RNAi assays. [Source: WormBase]			
ZC376.3	ZC376.3	ZC376.3 [Source:RefSeq_peptide;Acc:NP_506508]			
ZC376.2	ZC376.2	ZC376.2 [Source:RefSeq_peptide;Acc:NP_506509]		membrane, 	
ZC376.1	ZC376.1	ZC376.1 [Source:RefSeq_peptide;Acc:NP_506510]			
ZC376.4	ZC376.4	ZC376.4 [Source:RefSeq_peptide;Acc:NP_506511]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ZC376.8	ZC376.8	ZC376.8 [Source:RefSeq_peptide;Acc:NP_506512]	cell adhesion, reproduction, 	actin cytoskeleton, 	structural molecule activity, 
trm-1	ZC376.5	N(2),N(2)-dimethylguanosine tRNA methyltransferase (EC 2.1.1.32) (tRNA(guanine-26,N(2)-N(2)) methyltransferase) (tRNA 2,2- dimethylguanosine-26 methyltransferase) (tRNA(m(2,2)G26)dimethyltransferase). [Source:Uniprot/SWISSPROT;Acc:Q23270]	tRNA processing, 		RNA binding, tRNA (guanine-N2-)-methyltransferase activity, 
ZC376.6	ZC376.6	ZC376.6 [Source:RefSeq_peptide;Acc:NP_506514]	embryonic development ending in birth or egg hatching, 	extracellular region, 	glycosylphosphatidylinositol phospholipase D activity, 
ZC376.7	ZC376.7	ZC376.7b [Source:RefSeq_peptide;Acc:NP_872160]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
T16A9.3	T16A9.3	T16A9.3 [Source:RefSeq_peptide;Acc:NP_506517]			protein binding, 
str-230	T16A9.2	Seven TM Receptor family member (str-230) [Source:RefSeq_peptide;Acc:NP_506518]			
T16A9.5	T16A9.5	T16A9.5 [Source:RefSeq_peptide;Acc:NP_506519]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
T16A9.4	T16A9.4	T16A9.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. while T16A9.4 has no clear orthologs in other organisms, it falls into a group of proteins that includes the classical neprilysins found in mammals (e.g., PEX [OMIM:307800] and the enkephalin cleaving enzymes). [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
K02E11.t1	K02E11.t1				
ent-3	K02E11.1	Equilibrative Nucleoside Transporter family member (ent-3) [Source:RefSeq_peptide;Acc:NP_506521]	transport, 	membrane, 	nucleoside transmembrane transporter activity, 
K02E11.8	K02E11.8	K02E11.8 [Source:RefSeq_peptide;Acc:NP_001024025]			
K02E11.10	K02E11.10	K02E11.10 [Source:RefSeq_peptide;Acc:NP_001024024]	microtubule-based process, protein homooligomerization, 	membrane, microtubule, 	GTP binding, 
sre-7	K02E11.2	Serpentine Receptor, class E (epsilon) family member (sre-7) [Source:RefSeq_peptide;Acc:NP_506522]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
K02E11.3	K02E11.3	K02E11.3 [Source:RefSeq_peptide;Acc:NP_506523]			transferase activity, transferring hexosyl groups, 
K02E11.4	K02E11.4	K02E11.4 [Source:RefSeq_peptide;Acc:NP_506524]			transferase activity, transferring hexosyl groups, 
K02E11.9	K02E11.9	K02E11.9 [Source:RefSeq_peptide;Acc:NP_001024026]			transferase activity, transferring hexosyl groups, 
K02E11.6	K02E11.6	K02E11.6 [Source:RefSeq_peptide;Acc:NP_506525]			transferase activity, transferring hexosyl groups, 
K02E11.5	K02E11.5	K02E11.5 [Source:RefSeq_peptide;Acc:NP_506526]			transferase activity, transferring hexosyl groups, 
K02E11.7	K02E11.7	K02E11.7 [Source:RefSeq_peptide;Acc:NP_506527]			transferase activity, transferring hexosyl groups, 
sre-8	F40G12.1	Serpentine receptor class epsilon-8 (Protein sre-8). [Source:Uniprot/SWISSPROT;Acc:Q20249]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F40G12.2	F40G12.2	F40G12.2 [Source:RefSeq_peptide;Acc:NP_506529]			
F40G12.3	F40G12.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q20253]			
NR_000605.1	F40G12.13	F40G12.13, snRNA [Source:RefSeq_dna;Acc:NR_000605]			
F40G12.4	F40G12.4	F40G12.4 [Source:RefSeq_peptide;Acc:NP_506531]			
F40G12.5	F40G12.5	F40G12.5 [Source:RefSeq_peptide;Acc:NP_506532]			
F40G12.6	F40G12.6	F40G12.6 [Source:RefSeq_peptide;Acc:NP_506533]			
F40G12.7	F40G12.7	F40G12.7 [Source:RefSeq_peptide;Acc:NP_506534]			
NR_000606.1	F40G12.14	F40G12.14, snRNA [Source:RefSeq_dna;Acc:NR_000606]			
srt-33	F40G12.8	Serpentine Receptor, class T family member (srt-33) [Source:RefSeq_peptide;Acc:NP_506535]			
srt-74	F40G12.15	Serpentine Receptor, class T family member (srt-74) [Source:RefSeq_peptide;Acc:NP_001023908]			
F40G12.9	F40G12.9	F40G12.9 [Source:RefSeq_peptide;Acc:NP_506536]			
F40G12.10	F40G12.10	F40G12.10 [Source:RefSeq_peptide;Acc:NP_506537]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F40G12.11	F40G12.11	F40G12.11 [Source:RefSeq_peptide;Acc:NP_506538]			
F14D7.1	F14D7.1	F14D7.1 [Source:RefSeq_peptide;Acc:NP_506539]			
F14D7.2	F14D7.2	F14D7.2 [Source:RefSeq_peptide;Acc:NP_506540]	morphogenesis of an epithelium, 		
F14D7.9	F14D7.9	F14D7.9 [Source:RefSeq_peptide;Acc:NP_001023797]			
F14D7.3	F14D7.3	F14D7.3 [Source:RefSeq_peptide;Acc:NP_506541]			
F14D7.4	F14D7.4				
F14D7.5	F14D7.5	F14D7.5 [Source:RefSeq_peptide;Acc:NP_506543]			
F14D7.12	F14D7.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVK9]			
F14D7.6	F14D7.6	F14D7.6 [Source:RefSeq_peptide;Acc:NP_506544]			drug transporter activity, 
F14D7.7	F14D7.7	F14D7.7 [Source:RefSeq_peptide;Acc:NP_506545]			
F14D7.13	F14D7.13				
F14D7.10	F14D7.10	F14D7.10 [Source:RefSeq_peptide;Acc:NP_001023795]			
F14D7.15	F14D7.15				
F14D7.14	F14D7.14				
F14D7.11	F14D7.11	F14D7.11 [Source:RefSeq_peptide;Acc:NP_001023796]			
F14D7.8	F14D7.8	F14D7.8 [Source:RefSeq_peptide;Acc:NP_506546]			
F47B8.1	F47B8.1	F47B8.1 [Source:RefSeq_peptide;Acc:NP_506547]			
F47B8.2	F47B8.2	F47B8.2 [Source:RefSeq_peptide;Acc:NP_506548]			
F47B8.13	F47B8.13	F47B8.13 [Source:RefSeq_peptide;Acc:NP_001023943]	regulation of transcription, DNA-dependent, potassium ion transport, 	integral to membrane, nucleus, 	DNA binding, transcription factor activity, ligand-dependent nuclear receptor activity, voltage-gated potassium channel activity, nutrient reservoir activity, 
F47B8.14	F47B8.14	F47B8.14 [Source:RefSeq_peptide;Acc:NP_001023944]	regulation of transcription, DNA-dependent, protein homooligomerization, 	membrane, nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
F47B8.3	F47B8.3	F47B8.3 [Source:RefSeq_peptide;Acc:NP_506549]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
F47B8.4	F47B8.4	F47B8.4 [Source:RefSeq_peptide;Acc:NP_506550]	cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
F47B8.5	F47B8.5	F47B8.5 [Source:RefSeq_peptide;Acc:NP_506551]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, ligand-dependent nuclear receptor activity, 
F47B8.6	F47B8.6	F47B8.6 [Source:RefSeq_peptide;Acc:NP_506552]			
F47B8.8	F47B8.8	F47B8.8 [Source:RefSeq_peptide;Acc:NP_506553]			zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
srm-4	F47B8.7	Serpentine Receptor, class M family member (srm-4) [Source:RefSeq_peptide;Acc:NP_506554]			
srm-5	F47B8.12	Serpentine Receptor, class M family member (srm-5) [Source:RefSeq_peptide;Acc:NP_001023942]			
srm-6	F47B8.9	Serpentine Receptor, class M family member (srm-6) [Source:RefSeq_peptide;Acc:NP_506555]			
F47B8.10	F47B8.10	F47B8.10 is orthologous to the human gene GLUCOSE-6-PHOSPHATE TRANSPORTER 1 (G6PT1. OMIM:602671), which when mutated leads to type Ib glycogen storage disease. [Source: WormBase]	transport, electron transport, response to antibiotic, response to oxidative stress, tetracycline transport, positive regulation of growth rate, 	integral to membrane, 	transporter activity, peroxidase activity, heme binding, tetracycline:hydrogen antiporter activity, 
sss-2	F47B8.11	Sperm-Specific family, class S family member (sss-2) [Source:RefSeq_peptide;Acc:NP_506557]			
Y49A3A.1	Y49A3A.1	Y49A3A.1 encodes a homolog of choline/ethanolaminephosphotransferase choline phosphotransferase 1. Y49A3A.1 shares an operon with vha-13, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	phospholipid biosynthetic process, negative regulation of multicellular organism growth, 	membrane, 	phosphotransferase activity, for other substituted phosphate groups, 
vha-13	Y49A3A.2	vha-13 encodes an ortholog of subunit A of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-13 is predicted to hydrolyse ATP as part of a cytosolic VHA-12/VHA-13 heterohexamer, whose activity drives the V-ATPase rotor. VHA-13 levels are lowered in mutants with either abnormally low or abnormally high calcineurin levels, and elevated in mutants lacking both calcineurin and calreticulin. VHA-13 is dispensable for alae formation, like the V1 subunit VHA-8, but not like the V0 subunits VHA-1 and VHA-4. [Source: WormBase]	ATP synthesis coupled proton transport, ATP biosynthetic process, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
Y49A3A.3	Y49A3A.3	Y49A3A.3 encodes a conserved but uncharacterized protein with some similarity to Barwin-related endoglucanase. Y49A3A.3 shares an operon with vha-13, and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]			
cyn-1	Y49A3A.5	cyn-1 encodes a functional cyclophilin that is predicted to be secreted. cyn-1 expression increases as worms progress from the L1 larval stage to the adult stage. cyn-1 shares an operon with vha-13 and thus might be a previously undescribed V-ATPase component or ancillary protein. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
Y49A3A.4	Y49A3A.4	Y49A3A.4 [Source:RefSeq_peptide;Acc:NP_506562]			
F56A12.5	F56A12.5				
NR_003474.1	F56A12.6	F56A12.6, snoRNA [Source:RefSeq_dna;Acc:NR_003474]			
unc-39	F56A12.1	unc-39 encodes a homeodomain transcription factor that belongs to the Six4/5 family of homeodomain proteins that includes human Six5. UNC-39 is required for axonal pathfinding in anterior-derived neurons and for specification of most mesodermal cell types and may regulate a developmental decision between migration and differentiation. UNC-39 is expressed in the embryo in anterior neurons, posteriorly derived mesoderm (somatic gonad, M mesoblast, and possibly the coelomocytes and muIntR), the CAN neurons, and body wall muscle. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
F56A12.2	F56A12.2	F56A12.2 [Source:RefSeq_peptide;Acc:NP_506564]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C15H11.10	C15H11.10	C15H11.10 [Source:RefSeq_peptide;Acc:NP_001023661]			
C15H11.1	C15H11.1	C15H11.1 [Source:RefSeq_peptide;Acc:NP_506565]			structural molecule activity, 
C15H11.2	C15H11.2	C15H11.2 [Source:RefSeq_peptide;Acc:NP_506566]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	rhodopsin-like receptor activity, vasopressin receptor activity, 
C15H11.12	C15H11.12				
nxf-1	C15H11.3	nxf-1 encodes a homolog of human TAP protein, a member of the NXF family of shuttling transport receptors for nuclear export of mRNA. binds RNA directly and its function has been shown to be conserved with the NXF family. [Source: WormBase]	transport, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, 
C15H11.11	C15H11.11	C15H11.11 [Source:RefSeq_peptide;Acc:NP_001023662]			
nxf-2	C15H11.6	nxf-2 encodes a predicted homolog of human TAP protein, a member of the NXF family of shuttling transport receptors for nuclear export of mRNA, and it affects embryonic viability. [Source: WormBase]	transport, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, 
set-31	C15H11.5	Temporarily Assigned Gene name family member (tag-338) [Source:RefSeq_peptide;Acc:NP_506569]	chromatin assembly or disassembly, 	nucleus, chromatin, 	chromatin binding, 
dhs-22	C15H11.4	dhs-22 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
pas-1	C15H11.7	pas-1 encodes a type 6 alpha subunit of the 26S proteasome's 20S protease core particle (CP). PAS-1 is required for embryonic development and by homology, is predicted to comprise the outer rings of the proteasome and to play a role in selective degradation of ubiquitinated proteins during development. in vitro, PAS-1 interacts with VET-1, a coiled-coil domain-containing protein expressed in the early embryo and ATN-1, an alpha-actinin, in addition to other members of the proteasome. [Source: WormBase]	ubiquitin-dependent protein catabolic process, embryonic development ending in birth or egg hatching, 	proteasome core complex (sensu Eukaryota), 	threonine endopeptidase activity, endopeptidase activity, 
C15H11.8	C15H11.8	C15H11.8 [Source:RefSeq_peptide;Acc:NP_506572]	regulation of transcription, positive regulation of growth rate, 		zinc ion binding, transcription regulator activity, nucleic acid binding, DNA-directed RNA polymerase activity, 
C15H11.9	C15H11.9	Ribosome biogenesis regulatory protein homolog. [Source:Uniprot/SWISSPROT;Acc:Q9XVT0]	ribosome biogenesis and assembly, positive regulation of growth rate, 	nucleus, 	
F23B12.1	F23B12.1	F23B12.1 [Source:RefSeq_peptide;Acc:NP_506574]			hydrolase activity, 
egl-1	F23B12.9	egl-1 encodes a novel protein that contains a region similar to the BH3 (Bcl-2 homology region 3) domain of mammalian cell death activators. EGL-1 functions as an upstream activator in the general programmed cell death pathway and positively regulates programmed cell death by interacting directly with CED-9 to induce CED-4 release from CED-4/CED-9 complexes and ultimately activate the CED-3 caspase. EGL-1 also induces WAH-1/apoptosis-inducing factor release from the mitochondria. in hermaphrodites, egl-1 is transcriptionally repressed by TRA-1, permitting survival of the HSN neurons required for egg laying. egl-1 message is detected at low abundance in embryonic and L1 larval mRNA preparations, but not in mRNA preparations from later larval stages or young adults. [Source: WormBase]	oviposition, positive regulation of programmed cell death, negative regulation of anti-apoptosis, 		protein binding, 
sru-43	F23B12.2				
F23B12.3	F23B12.3	F23B12.3 encodes a protein with some similarity to residues 45-185 of human FRRS1/SDR2. [Source: WormBase]	post-embryonic body morphogenesis, 		protein binding, 
F23B12.4	F23B12.4	F23B12.4 [Source:RefSeq_peptide;Acc:NP_506578]			
F23B12.5	F23B12.5	F23B12.5 is orthologous to the human gene DIHYDROLIPOAMIDE DEHYDROGENASE (DLD. OMIM:109720), which when mutated leads to lactic acidosis due to lipoamide dehydrogenase deficiency. F23B12.5 protein is predicted to be mitochondrial. [Source: WormBase]	metabolic process, pyruvate metabolic process, positive regulation of growth rate, 	pyruvate dehydrogenase complex, 	protein binding, acyltransferase activity, dihydrolipoyllysine-residue acetyltransferase activity, 
tag-114	F23B12.6	Temporarily Assigned Gene name family member (tag-114) [Source:RefSeq_peptide;Acc:NP_506580]	embryonic development ending in birth or egg hatching, 		catalytic activity, 
F23B12.7	F23B12.7	Uncharacterized protein F23B12.7. [Source:Uniprot/SWISSPROT;Acc:Q19753]	positive regulation of growth rate, 		calcium ion binding, 
bmk-1	F23B12.8	bmk-1 encodes the sole C. elegans BimC/kinesin-5 homolog. while BMK-1 activity is not essential for mitotic progression or development, BMK-1 does play a role in negatively regulating interpolar microtubule sliding during anaphase spindle elongation, thus serving as a brake to slow the rate of spindle-pole separation. BMK-1 localizes to mitotic and meiotic spindles and becomes concentrated at the spindle midzone during mitotic anaphase and telophase. in vivo, BMK-1 localization is dependent upon the AIR-2/Aurora B kinase with which it interacts and serves as a substrate in vitro. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
coh-3	F08H9.1	coh-3 encodes a member of the Rad21/Rec8-like family of cohesion proteins that is expressed in the germline. an effect on embryonic viability has been reported based on some RNAi screens, but has not been demonstrated in others. [Source: WormBase]		nuclear chromosome, 	
F08H9.2	F08H9.2	F08H9.2 [Source:RefSeq_peptide;Acc:NP_506584]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	lysosphingolipid and lysophosphatidic acid receptor activity, 
F08H9.3	F08H9.3	F08H9.3 encodes a heat shock protein (HSP) of the HSP16 class. unlike most HSP16s in C. elegans, it is specifically expressed in a particular tissue (the larval pharynx and the anterior adult pharynx), and its expression is not strongly induced by heat shock. however, F08H9.3 expression is increased by heat shock (with adult expression in the full pharynx) and probably aids heat shock resistance, since F08H9.3(RNAi) animals have sensitivity to heat shock that is sporadically higher than normal. in general, HSP16 proteins are thought to act as passive ligands for unfolded proteins that keep them safe from aggregation until the proteins can be refolded by a large (ATP-consuming) HSP. [Source: WormBase]	defense response, 		structural constituent of eye lens, 
NR_000608.1	F08H9.10	F08H9.10, snRNA [Source:RefSeq_dna;Acc:NR_000608]			
F08H9.4	F08H9.4	F08H9.4 encodes a heat shock protein (HSP) of the HSP16 class. unlike most HSP16s in C. elegans, it is specifically expressed in a particular tissue (the excretory canal and ventral nerve-cord neurons), and its expression is only mildly induced by heat shock. however, F08H9.4 expression is increased by heat shock, is induced in a new tissue type (intestine) by heat shock, and probably aids heat shock resistance, since F08H9.4(RNAi) animals die as embryos in heat shock at a higher rate than normal. in general, HSP16 proteins are thought to act as passive ligands for unfolded proteins that keep them safe from aggregation until the proteins can be refolded by a large (ATP-consuming) HSP. [Source: WormBase]	defense response, 		structural constituent of eye lens, 
srz-97	F08H9.12	Serpentine Receptor, class Z family member (srz-97) [Source:RefSeq_peptide;Acc:NP_001023774]			
NR_000609.1	F08H9.11	F08H9.11, snRNA [Source:RefSeq_dna;Acc:NR_000609]			
clec-57	F08H9.6	C-type LECtin family member (clec-57) [Source:RefSeq_peptide;Acc:NP_506587]			sugar binding, 
F08H9.5	F08H9.5	F08H9.5 [Source:RefSeq_peptide;Acc:NP_506588]			sugar binding, 
clec-56	F08H9.7	C-type LECtin family member (clec-56) [Source:RefSeq_peptide;Acc:NP_506589]			sugar binding, 
clec-54	F08H9.8	C-type LECtin family member (clec-54) [Source:RefSeq_peptide;Acc:NP_506590]			sugar binding, 
clec-55	F08H9.9	C-type LECtin family member (clec-55) [Source:RefSeq_peptide;Acc:NP_506591]			sugar binding, 
R02D5.7	R02D5.7	R02D5.7 [Source:RefSeq_peptide;Acc:NP_506592]	nucleosome assembly, 	nucleus, chromatin, nucleosome, 	DNA binding, 
R02D5.3	R02D5.3	R02D5.3 [Source:RefSeq_peptide;Acc:NP_506593]			
R02D5.4	R02D5.4	R02D5.4 [Source:RefSeq_peptide;Acc:NP_506594]			
R02D5.1	R02D5.1	R02D5.1 [Source:RefSeq_peptide;Acc:NP_506595]			protein binding, 
R02D5.6	R02D5.6	R02D5.6 [Source:RefSeq_peptide;Acc:NP_506596]			
C53A5.2	C53A5.2	C53A5.2 [Source:RefSeq_peptide;Acc:NP_506597]			
ril-1	C53A5.1	RNAi-Induced Longevity family member (ril-1) [Source:RefSeq_peptide;Acc:NP_506598]	positive regulation of growth rate, 		
hda-1	C53A5.3	The hda-1 gene encodes a histone deacetylase 1, similar to histone deacetylases RPD3 from yeast and fly. maternal and zygotic expression of hda-1 is required for embryonic viability, and zygotic expression of hda-1 is also required for gonadogenesis and vulval development. [Source: WormBase]	histone deacetylation, embryonic development ending in birth or egg hatching, regulation of cell differentiation, 	nucleus, 	histone deacetylase activity, 
tag-191	C53A5.4	Temporarily Assigned Gene name family member (tag-191) [Source:RefSeq_peptide;Acc:NP_506600]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C53A5.5	C53A5.5	C53A5.5 [Source:RefSeq_peptide;Acc:NP_506601]	potassium ion transport, 	membrane, integral to membrane, 	calmodulin binding, calcium-activated potassium channel activity, small conductance calcium-activated potassium channel activity, 
C53A5.6	C53A5.6	C53A5.6 [Source:RefSeq_peptide;Acc:NP_506602]	biological_process, 		protein binding, zinc ion binding, 
C53A5.13	C53A5.13	C53A5.13 [Source:RefSeq_peptide;Acc:NP_506603]			
srg-47	C53A5.8	Serpentine receptor class gamma-47 (Protein srg-47). [Source:Uniprot/SWISSPROT;Acc:O17699]	signal transduction, neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, transmembrane receptor activity, 
C53A5.9	C53A5.9	C53A5.9 [Source:RefSeq_peptide;Acc:NP_506605]	embryonic development ending in birth or egg hatching, 	nucleus, 	
srt-32	C53A5.10	Serpentine Receptor, class T family member (srt-32) [Source:RefSeq_peptide;Acc:NP_506606]			
C53A5.11	C53A5.11	C53A5.11 [Source:RefSeq_peptide;Acc:NP_506607]	proteolysis, 		subtilase activity, 
gar-3	Y40H4A.1	gar-3 encodes a muscarinic acetylcholine receptor. gar-3 activity is required for regulation of membrane potential and excitation-contraction coupling in pharyngeal muscle and thus, for normal feeding behavior. in regulating pharyngeal pumping, GAR-3 likely acts upstream of GPB-2, a G-protein beta-subunit. a gar-3::gfp reporter fusion is expressed in the I3 pharyngeal neuron, extrapharyngeal neurons, and in pharyngeal muscles, where expression is highest in the terminal bulb. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, acetylcholine receptor signaling, muscarinic pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, 
Y40H4A.2	Y40H4A.2	Y40H4A.2 [Source:RefSeq_peptide;Acc:NP_506609]			hydrolase activity, 
R11H6.6	R11H6.6				
pes-9	R11H6.1	pes-9 encodes a zinc metallopeptidase. pes-9 was originally identified in a promoter trap screen for sequences that direct reporter gene expression in specific cell types during C. elegans development. pes-9 sequences direct expression in a limited number of cells in the early embryo and in putative head and tail hypodermal cells in adults. after some confusion, the pes-9 reporter gene fusion was mapped to R11H6.1. [Source: WormBase]	proteolysis, 		metallopeptidase activity, hydrolase activity, protein dimerization activity, 
R11H6.2	R11H6.2	R11H6.2 [Source:RefSeq_peptide;Acc:NP_506611]	protein homooligomerization, 	membrane, 	
R11H6.3	R11H6.3	R11H6.3 [Source:RefSeq_peptide;Acc:NP_506612]			
R11H6.4	R11H6.4	R11H6.4 [Source:RefSeq_peptide;Acc:NP_506613]			
R11H6.5	R11H6.5	R11H6.5 [Source:RefSeq_peptide;Acc:NP_506614]	immune response, 		ATP binding, RNA binding, transferase activity, 
F43D2.1	F43D2.1	F43D2.1 [Source:RefSeq_peptide;Acc:NP_506615]	positive regulation of growth rate, 		
hot-1	F43D2.4	hot-1 encodes a predicted paralog of ODR-2 and contains a Ly-6 domain. may be expressed in neurons. [Source: WormBase]			
F43D2.6	F43D2.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q564S3]			
F43D2.3	F43D2.3	F43D2.3 [Source:RefSeq_peptide;Acc:NP_506616]			
F43D2.2	F43D2.2				
F43D2.7	F43D2.7				
C54G10.1	C54G10.1	C54G10.1 [Source:RefSeq_peptide;Acc:NP_506618]			
rfc-1	C54G10.2	RFC (DNA replication factor) family member (rfc-1) [Source:RefSeq_peptide;Acc:NP_506619]	proteolysis, embryonic development ending in birth or egg hatching, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, serine-type endopeptidase activity, ATP-dependent peptidase activity, 
pmp-3	C54G10.3	Peroxisomal Membrane Protein related family member (pmp-3) [Source:RefSeq_peptide;Acc:NP_506620]	transport, small GTPase mediated signal transduction, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, GTP binding, 
C54G10.4	C54G10.4	C54G10.4b [Source:RefSeq_peptide;Acc:NP_872134]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
srh-17	C47E8.2	Serpentine Receptor, class H family member (srh-17) [Source:RefSeq_peptide;Acc:NP_506622]			
C47E8.9	C47E8.9	C47E8.9 [Source:RefSeq_peptide;Acc:NP_001023718]			
C47E8.1	C47E8.1	C47E8.1 [Source:RefSeq_peptide;Acc:NP_506623]			
C47E8.10	C47E8.10				
C47E8.3	C47E8.3	C47E8.3 [Source:RefSeq_peptide;Acc:NP_506624]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C47E8.4	C47E8.4	C47E8.4 [Source:RefSeq_peptide;Acc:NP_506625]	embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, 
daf-21	C47E8.5	daf-21 encodes a member of the Hsp90 family of molecular chaperones. DAF-21 activity is required for larval development, negative regulation of dauer larva formation, and a number of specific chemosensory behaviors, such as the response to chemicals and odorants detected by the ASE and AWC sensory neurons. a daf-21 sensory defect can be rescued by a cyclic GMP analogue, suggesting that, in regulating chemosensory behaviors, DAF-21 acts at a similar point as the DAF-11 guanylyl cyclase. down-regulation of daf-21 via RNAi results in a small but reproducible reduction in age-1 life span, suggesting that daf-21 is part of a chaperone network required for the extended life span seen in age-1 mutant animals. [Source: WormBase]	protein folding, reproduction, dauer larval development, 		ATP binding, protein binding, unfolded protein binding, identical protein binding, 
C47E8.11	C47E8.11	C47E8.11 [Source:RefSeq_peptide;Acc:NP_001023716]	defense response, 		
C47E8.6	C47E8.6	C47E8.6 [Source:RefSeq_peptide;Acc:NP_506627]			
C47E8.t1	C47E8.t1				
unc-112	C47E8.7	The unc-112 gene encodes a pleckstrin homology domain-containing protein, orthologous to human Mitogen inducible gene-2, that is required for assembly of muscle dense bodies and M lines during embryogenesis. UNC-112 is a dense body/M-line component and requires PAT-3/beta-integrin, UNC-52/perlecan, and PAT-4/integrin-linked kinase for proper localization. UNC-112 binds PAT-4 directly, forms a ternary complex with PAT-4 and PAT-6/actopaxin, and is required for recruitment of PAT-3 and PAT-4 to muscle cell attachment sites. viable unc-112 mutations are suppressed by mutation of dim-1. [Source: WormBase]	cell-matrix adhesion, biological_process, muscle development, 	cytoplasm, cytoskeleton, 	protein binding, cell adhesion molecule binding, 
set-5	C47E8.8	C47E8.8 [Source:RefSeq_peptide;Acc:NP_506629]		nucleus, 	
R08A2.3	R08A2.3	R08A2.3 [Source:RefSeq_peptide;Acc:NP_506630]			structural molecule activity, 
R08A2.6	R08A2.6				
R08A2.5	R08A2.5	R08A2.5 [Source:RefSeq_peptide;Acc:NP_506631]			
R08A2.2	R08A2.2	R08A2.2 [Source:RefSeq_peptide;Acc:NP_506632]	proton transport, 	membrane, 	ATP binding, calcium ion binding, hydrolase activity, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
fbxa-147	R08A2.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
R08A2.1	R08A2.1	R08A2.1 [Source:RefSeq_peptide;Acc:NP_506634]			
R08A2.7	R08A2.7	R08A2.7 [Source:RefSeq_peptide;Acc:NP_001024071]			
Y50E8A.1	Y50E8A.1	Y50E8A.1 [Source:RefSeq_peptide;Acc:NP_506635]			
Y50E8A.2	Y50E8A.2	Y50E8A.2 [Source:RefSeq_peptide;Acc:NP_506636]			structural molecule activity, 
oig-3	Y50E8A.3	One IG domain family member (oig-3) [Source:RefSeq_peptide;Acc:NP_506637]			
unc-61	Y50E8A.4	unc-61, by alternative splicing, encodes two septin isoforms required (like the septin UNC-59) for normal axonal migration, distal tip cell migration, and postembryonic cytokinesis (at the cellular level) and for normal locomotion and formation of the postembryonic vulva, somatic gonad, and male tail (at the organismal level). both UNC-61A/B and UNC-59 are dispensable for embryonic cytokinesis and development, but are thought to be required for all postembryonic cytokinesis. UNC-61A/B and UNC-59 depend on each other for localization to the cytokinetic furrow. [Source: WormBase]	cell cycle, microtubule-based movement, hermaphrodite genitalia development, 	microtubule associated complex, 	ATP binding, GTP binding, microtubule motor activity, 
Y50E8A.5	Y50E8A.5	Y50E8A.5 [Source:RefSeq_peptide;Acc:NP_506639]		extracellular region, 	hormone activity, 
Y50E8A.6	Y50E8A.6	Y50E8A.6 encodes a putative mitochondrial glycerol-3-phosphate dehydrogenase, paralogous to T25G3.4 and orthologous to human GPD2 (OMIM:138430, mutated in type II diabetes mellitus). Y50E8A.6 has no obvious function in mass RNAi assays. [Source: WormBase]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, glycerol-3-phosphate dehydrogenase activity, 
Y50E8A.7	Y50E8A.7	Y50E8A.7 [Source:RefSeq_peptide;Acc:NP_506641]	lipid metabolic process, 		catalytic activity, 
nspa-10	Y50E8A.17	Nematode Specific Peptide family/group A family member (nspa-10) [Source:RefSeq_peptide;Acc:NP_001024255]			
Y50E8A.8	Y50E8A.8				
Y50E8A.14	Y50E8A.14				
haf-7	Y50E8A.16	HAlF transporter (PGP related) family member (haf-7) [Source:RefSeq_peptide;Acc:NP_506645]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, uridine kinase activity, 
scrm-7	Y50E8A.9	scrm-7 encodes a putative phospholipid scramblase homologous to human PLSCR1-5, and paralogous to other C. elegans SCRMs (e.g., SCRM-1). scrm-7(RNAi) animals have no obvious phenotype. [Source: WormBase]			protein binding, 
Y50E8A.10	Y50E8A.10	Y50E8A.10 [Source:RefSeq_peptide;Acc:NP_506647]		nucleus, chromatin, 	DNA binding, 
Y50E8A.11	Y50E8A.11	Y50E8A.11 [Source:RefSeq_peptide;Acc:NP_506648]			
Y50E8A.12	Y50E8A.12	Y50E8A.12 encodes a protein with a THAP or THAP-like domain that is required for normal levels of fat storage. other proteins with THAP or THAP-like domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]			
tag-333	C48G7.3	Temporarily Assigned Gene name family member (tag-333) [Source:RefSeq_peptide;Acc:NP_506650]	signal transduction, 		
C48G7.1	C48G7.1	C48G7.1 [Source:RefSeq_peptide;Acc:NP_506651]			
C48G7.2	C48G7.2	C48G7.2 [Source:RefSeq_peptide;Acc:NP_506652]	intracellular signaling cascade, 		
W06A7.2	W06A7.2	W06A7.2 [Source:RefSeq_peptide;Acc:NP_506653]	locomotory behavior, 		
nspa-8	W06A7.5	Nematode Specific Peptide family/group A family member (nspa-8) [Source:RefSeq_peptide;Acc:NP_506654]			
W06A7.4	W06A7.4	W06A7.4 [Source:RefSeq_peptide;Acc:NP_506655]			
ret-1	W06A7.3	RETiculon protein family member (ret-1) [Source:RefSeq_peptide;Acc:NP_001024189]		endoplasmic reticulum, 	protein binding, 
ZC412.1	ZC412.1	ZC412.1 [Source:RefSeq_peptide;Acc:NP_506659]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
ZC412.t2	ZC412.t2				
gcy-14	ZC412.2	gcy-14 encodes a predicted transmembrane guanylyl cyclase. the precise role of GCY-14 in C. elegans development and/or behavior is not yet known. however, by sequence similarity GCY-14 can be predicted to function in chemosensory signal transduction. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, metabotropic glutamate, GABA-B-like receptor activity, 
ZC412.4	ZC412.4	ZC412.4 [Source:RefSeq_peptide;Acc:NP_506661]			
ZC412.3	ZC412.3	Uncharacterized protein ZC412.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q23307]			
ZC412.5	ZC412.5	ZC412.5 [Source:RefSeq_peptide;Acc:NP_506663]			
ZC412.t1	ZC412.t1				
nspa-5	ZC412.6	Nematode Specific Peptide family/group A family member (nspa-4) [Source:RefSeq_peptide;Acc:NP_001024008]			
ZC412.8	ZC412.8	H12D21.3 [Source:RefSeq_peptide;Acc:NP_506668]			
nspa-3	ZC412.7	Nematode Specific Peptide family/group A family member (nspa-2) [Source:RefSeq_peptide;Acc:NP_001024007]			
ZC412.9	ZC412.9	ZC412.9 [Source:RefSeq_peptide;Acc:NP_506667]			
nspa-7	H12D21.15	Nematode Specific Peptide family/group A family member (nspa-6) [Source:RefSeq_peptide;Acc:NP_001024009]			
nspa-4	H12D21.13	Nematode Specific Peptide family/group A family member (nspa-4) [Source:RefSeq_peptide;Acc:NP_001024008]			
H12D21.3	H12D21.3	H12D21.3 [Source:RefSeq_peptide;Acc:NP_506668]			
nspa-1	H12D21.1	Nematode Specific Peptide family/group A family member (nspa-2) [Source:RefSeq_peptide;Acc:NP_001024007]			
H12D21.2	H12D21.2	H12D21.2 [Source:RefSeq_peptide;Acc:NP_506670]			
nspa-6	H12D21.14	Nematode Specific Peptide family/group A family member (nspa-6) [Source:RefSeq_peptide;Acc:NP_001024009]			
nspa-2	H12D21.12	Nematode Specific Peptide family/group A family member (nspa-2) [Source:RefSeq_peptide;Acc:NP_001024007]			
H12D21.4	H12D21.4	H12D21.4 [Source:RefSeq_peptide;Acc:NP_506671]	sulfate transport, 		thiosulfate sulfurtransferase activity, 
H12D21.5	H12D21.5	H12D21.5 [Source:RefSeq_peptide;Acc:NP_506672]			
H12D21.7	H12D21.7	H12D21.7 [Source:RefSeq_peptide;Acc:NP_506674]	transport, sulfate transport, 		transporter activity, lipid binding, thiosulfate sulfurtransferase activity, 
H12D21.6	H12D21.6	H12D21.6 [Source:RefSeq_peptide;Acc:NP_506673]			
H12D21.10	H12D21.10	H12D21.10 [Source:RefSeq_peptide;Acc:NP_506677]			
H12D21.9	H12D21.9	H12D21.9 [Source:RefSeq_peptide;Acc:NP_506676]			
H12D21.11	H12D21.11	H12D21.11 [Source:RefSeq_peptide;Acc:NP_001024006]			
W09D12.1	W09D12.1	W09D12.1 [Source:RefSeq_peptide;Acc:NP_506678]	proteolysis, 	proteinaceous extracellular matrix, 	metal ion binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, catalytic activity, 
srg-54	W09D12.3	Serpentine Receptor, class G (gamma) family member (srg-54) [Source:RefSeq_peptide;Acc:NP_872230]			
srg-55	W09D12.2	Serpentine Receptor, class G (gamma) family member (srg-55) [Source:RefSeq_peptide;Acc:NP_506679]			
C30G7.2	C30G7.2	C30G7.2 [Source:RefSeq_peptide;Acc:NP_001023687]			
C30G7.3	C30G7.3	C30G7.3 [Source:RefSeq_peptide;Acc:NP_001023688]			
C30G7.4	C30G7.4	C30G7.4 [Source:RefSeq_peptide;Acc:NP_001023689]			
hil-1	C30G7.1	Histone H1.X (Histone H1-like protein 1). [Source:Uniprot/SWISSPROT;Acc:Q18336]	nucleosome assembly, oviposition, 	nucleus, nucleosome, 	DNA binding, 
C30G7.5	C30G7.5	C30G7.5 [Source:RefSeq_peptide;Acc:NP_001023690]	DNA repair, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F02D8.5	F02D8.5	F02D8.5 [Source:RefSeq_peptide;Acc:NP_001023763]			
F02D8.1	F02D8.1	F02D8.1 [Source:RefSeq_peptide;Acc:NP_506681]			
grd-12	F02D8.2	grd-12 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central low-complexity proline-rich domain, and a C-terminal Ground domain. GRD-12 is expressed in intestine, rectal epithelium, undefined head and tail cells, vulva, and hypodermis. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-12 is required for normal growth to full size, locomotion, and vulval morphogenesis. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
xbx-1	F02D8.3	X-BoX promoter element regulated family member (xbx-1) [Source:RefSeq_peptide;Acc:NP_506683]			
F02D8.4	F02D8.4	F02D8.4 [Source:RefSeq_peptide;Acc:NP_506684]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
T01C3.1	T01C3.1	T01C3.1 [Source:RefSeq_peptide;Acc:NP_506685]	biological_process, 		
T01C3.2	T01C3.2	T01C3.2 [Source:RefSeq_peptide;Acc:NP_506686]			
T01C3.3	T01C3.3	T01C3.3 [Source:RefSeq_peptide;Acc:NP_506687]			protein binding, zinc ion binding, 
T01C3.4	T01C3.4	T01C3.4 [Source:RefSeq_peptide;Acc:NP_506688]	lipid catabolic process, 		lipase activity, 
T01C3.5	T01C3.5	T01C3.5 [Source:RefSeq_peptide;Acc:NP_506689]			
T01C3.11	T01C3.11	T01C3.11 [Source:RefSeq_peptide;Acc:NP_001024088]	biological_process, 		
rps-16	T01C3.6	rps-16 encodes a small ribosomal subunit S16 protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	structural constituent of ribosome, 
fib-1	T01C3.7	rRNA 2'-O-methyltransferase fibrillarin (EC 2.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q22053]	rRNA processing, positive regulation of growth rate, 	nucleus, 	RNA binding, 
mut-15	T01C3.8	T01C3.8 [Source:RefSeq_peptide;Acc:NP_506692]			
T01C3.9	T01C3.9	T01C3.9 [Source:RefSeq_peptide;Acc:NP_506693]			
nmr-2	T01C3.10	NMDA class glutamate receptor family member (nmr-2) [Source:RefSeq_peptide;Acc:NP_506694]	transport, ion transport, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
obr-2	F14H8.1	Oxysterol Binding protein (OSBP) Related family member (obr-2) [Source:RefSeq_peptide;Acc:NP_506695]	steroid metabolic process, embryonic development ending in birth or egg hatching, 		
F14H8.t1	F14H8.t1				
F14H8.2	F14H8.2	F14H8.2 [Source:RefSeq_peptide;Acc:NP_506696]			
F14H8.5	F14H8.5	F14H8.5 [Source:RefSeq_peptide;Acc:NP_506697]			
F14H8.3	F14H8.3				
F14H8.4	F14H8.4	F14H8.4 [Source:RefSeq_peptide;Acc:NP_506698]			
cng-1	F14H8.6	Cyclic Nucleotide Gated channel family member (cng-1) [Source:RefSeq_peptide;Acc:NP_506699]	ion transport, 	membrane, 	ion channel activity, 
C25D7.12	C25D7.12	C25D7.12 [Source:RefSeq_peptide;Acc:NP_506700]			structural molecule activity, 
C25D7.13	C25D7.13				
C25D7.14	C25D7.14				
C25D7.1	C25D7.1	C25D7.1 [Source:RefSeq_peptide;Acc:NP_506701]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
NM_074301.1	C25D7.2	C25D7.2 (C25D7.2) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_074301]			
sdc-3	C25D7.3	sdc-3 encodes a protein that contains two mutationally separable domains: a zinc finger motif required for dosage compensation and a myosin- like putative ATP- binding region required for her-1 regulation of sex determination. SDC-3 activates dosage compensation by directing the dosage compensation protein complex to the hermaphrodite X chromosomes, and is functionally redundant with SDC-2 with respect to dosage compensation. SDC-1, SDC-2, and SDC-3 proteins form a complex. [Source: WormBase]	morphogenesis of an epithelium, 	intracellular, 	zinc ion binding, transcription regulator activity, nucleic acid binding, 
fbxa-82	C25D7.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C25D7.5	C25D7.5	C25D7.5 [Source:RefSeq_peptide;Acc:NP_506705]			
mcm-3	C25D7.6	mcm-3 encodes a member of the MCM2/3/5 family with similarity to human DNA replication licensing factor, MCM3, and affects embryonic viability. [Source: WormBase]	photosynthesis, chlorophyll biosynthetic process, DNA replication initiation, embryonic development ending in birth or egg hatching, 	nucleus, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA binding, DNA-dependent ATPase activity, magnesium chelatase activity, 
C25D7.15	C25D7.15	C25D7.15 [Source:RefSeq_peptide;Acc:NP_001023676]			
rap-2	C25D7.7	rap-2 encodes a Ras-related GTPase that is most similar to the RAP2 members of the Ras GTPase superfamily. by homology, RAP-2 is predicted to function as a membrane-localized GTPase that likely plays a role in signal transduction. as animals homozygous for a rap-2 deletion mutation show no obvious abnormalities, the precise role of RAP-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, potassium ion transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, cation transmembrane transporter activity, 
C25D7.9	C25D7.9	C25D7.9 [Source:RefSeq_peptide;Acc:NP_506708]			
C25D7.8	C25D7.8	Ubiquitin thioesterase otubain-like (EC 3.1.2.-) (Ubiquitin-specific- processing protease otubain-like) (Deubiquitinating enzyme otubain- like). [Source:Uniprot/SWISSPROT;Acc:Q9XVR6]	amino acid and derivative metabolic process, 		protein binding, CoA hydrolase activity, 
C25D7.10	C25D7.10	C25D7.10 [Source:RefSeq_peptide;Acc:NP_506710]	reproduction, 		
dnj-3	C01G10.12	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
unc-76	C01G10.11	unc-76 encodes a predicted coiled-coil protein that belongs to the FEZ (fasciculation and elongation protein. zygin/zeta-1) family of proteins. UNC-76 activity is required for normal axonal outgrowth and fasciculation and hence, normal locomotion. UNC-76 expression begins during embryogenesis and is present in all axons throughout development. UNC-76 localizes to both axons and cell bodies. [Source: WormBase]	regulation of axon extension, 		structural molecule activity, 
C01G10.10	C01G10.10	C01G10.10 [Source:RefSeq_peptide;Acc:NP_506713]	proteolysis, 		endopeptidase activity, O-sialoglycoprotein endopeptidase activity, 
C01G10.9	C01G10.9	Uncharacterized protein C01G10.9. [Source:Uniprot/SWISSPROT;Acc:Q93169]	cellular metabolic process, cellular biosynthetic process, 		
C01G10.8	C01G10.8	C01G10.8 [Source:RefSeq_peptide;Acc:NP_506715]			
C01G10.7	C01G10.7	C01G10.7 [Source:RefSeq_peptide;Acc:NP_506716]	aromatic compound metabolic process, 		catalytic activity, carbon-carbon lyase activity, citrate (pro-3S)-lyase activity, 
C01G10.15	C01G10.15	C01G10.15 [Source:RefSeq_peptide;Acc:NP_001021355]			
C01G10.6	C01G10.6	C01G10.6 [Source:RefSeq_peptide;Acc:NP_506717]			
C01G10.5	C01G10.5	C01G10.5 [Source:RefSeq_peptide;Acc:NP_506718]			
C01G10.4	C01G10.4	C01G10.4 [Source:RefSeq_peptide;Acc:NP_506719]			
C01G10.17	C01G10.17	C01G10.17 [Source:RefSeq_peptide;Acc:NP_001041078]			
C01G10.16	C01G10.16	C01G10.16 [Source:RefSeq_peptide;Acc:NP_001021356]			
srx-78	C01G10.3	Serpentine Receptor, class X family member (srx-78) [Source:RefSeq_peptide;Acc:NP_506720]			
srx-79	C01G10.2	Serpentine Receptor, class X family member (srx-79) [Source:RefSeq_peptide;Acc:NP_506721]			
C01G10.1	C01G10.1	C01G10.1 [Source:RefSeq_peptide;Acc:NP_506722]		intracellular, 	
C01G10.14	C01G10.14	C01G10.14 [Source:RefSeq_peptide;Acc:NP_506723]			structural molecule activity, 
C01G10.13	C01G10.13				
Y75B12A.1	Y75B12A.1		embryonic development ending in birth or egg hatching, 		
Y75B12A.2	Y75B12A.2	Y75B12A.2 [Source:RefSeq_peptide;Acc:NP_506725]			
T01G5.7	T01G5.7	T01G5.7 [Source:RefSeq_peptide;Acc:NP_506726]			protein binding, zinc ion binding, 
T01G5.6	T01G5.6	T01G5.6 [Source:RefSeq_peptide;Acc:NP_506727]			
T01G5.1	T01G5.1	T01G5.1 [Source:RefSeq_peptide;Acc:NP_506728]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ugt-30	T01G5.2	T01G5.2 [Source:RefSeq_peptide;Acc:NP_506729]	metabolic process, 		transferase activity, transferring hexosyl groups, 
srj-27	T01G5.3	Serpentine Receptor, class J family member (srj-27) [Source:RefSeq_peptide;Acc:NP_506730]			
srr-7	T01G5.4	Serpentine Receptor, class R family member (srr-7) [Source:RefSeq_peptide;Acc:NP_506731]			
str-171	T01G5.5	Seven TM Receptor family member (str-171) [Source:RefSeq_peptide;Acc:NP_506732]			
tag-216	K08F9.2	Temporarily Assigned Gene name family member (tag-216) [Source:RefSeq_peptide;Acc:NP_506733]			
K08F9.1	K08F9.1	K08F9.1 [Source:RefSeq_peptide;Acc:NP_506734]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
K08F9.3	K08F9.3	K08F9.3 [Source:RefSeq_peptide;Acc:NP_506735]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
K08F9.4	K08F9.4	K08F9.4 [Source:RefSeq_peptide;Acc:NP_506736]	positive regulation of growth rate, 		
T09F5.1	T09F5.1	T09F5.1 [Source:RefSeq_peptide;Acc:NP_506737]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
T09F5.2	T09F5.2	T09F5.2 [Source:RefSeq_peptide;Acc:NP_506738]			
srh-53	T09F5.15				
srh-55	T09F5.5	Serpentine Receptor, class H family member (srh-55) [Source:RefSeq_peptide;Acc:NP_506739]			
srh-54	T09F5.6				
T09F5.t1	T09F5.t1				
str-45	T09F5.3	Seven TM Receptor family member (str-45) [Source:RefSeq_peptide;Acc:NP_506742]			
T09F5.4	T09F5.4				
srz-11	T09F5.16	Serpentine Receptor, class Z family member (srz-11) [Source:RefSeq_peptide;Acc:NP_001024126]			
T09F5.12	T09F5.12				
srh-278	T09F5.8	Serpentine Receptor, class H family member (srh-278) [Source:RefSeq_peptide;Acc:NP_506743]			
T09F5.13	T09F5.13				
clec-47	T09F5.9	C-type LECtin family member (clec-47) [Source:RefSeq_peptide;Acc:NP_506744]			sugar binding, 
srw-25	T09F5.14				
T09F5.10	T09F5.10	T09F5.10 [Source:RefSeq_peptide;Acc:NP_506745]			protein binding, 
fbxa-84	T09F5.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]		membrane, 	G-protein coupled receptor activity, 
Y75B12B.1	Y75B12B.1	Y75B12B.1 encodes a probable transposase, with many C. elegans paralogs and distant similarity to rotifer and insect transposases. Y75B12B.1 has no known function in mass RNAi assays. Y75B12B.1 mRNA is stabilized by bound GLD-1. [Source: WormBase]			
Y75B12B.3	Y75B12B.3	Y75B12B.3 [Source:RefSeq_peptide;Acc:NP_506748]			
cyn-7	Y75B12B.2	cyn-7 encodes a cyclophilin A isoform. while not tested for peptidyl-prolyl isomerase activity in vitro, it is very similar to CYN-3 and closely resembles the prototypical CypA, and is therefore likely to be a member of the cytosolic CsA-binding cyclophilin subfamily. CYN-7 was required for embryonic viability in one set of mass RNAi assays. [Source: WormBase]	protein folding, embryonic development ending in birth or egg hatching, 		peptidyl-prolyl cis-trans isomerase activity, 
bath-36	Y75B12B.4	BTB and MATH domain-containing protein 36. [Source:Uniprot/SWISSPROT;Acc:Q9XWB9]	embryonic development ending in birth or egg hatching, 		protein binding, 
cyn-3	Y75B12B.5	cyn-3 encodes an abundantly expressed cyclophilin A isoform with peptidyl-prolyl isomerase activity in vitro, which closely resembles the prototypical CypA and is thus likely to be a member of the cytosolic CsA-binding cyclophilin subfamily. cyn-3 is exclusively expressed in the single anterior excretory cell, and is dispensable for viability and gross morphology in mass RNAi screens. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
NR_003484.1	Y75B12B.12	Y75B12B.12, snoRNA [Source:RefSeq_dna;Acc:NR_003484]			
Y75B12B.11	Y75B12B.11	Y75B12B.11 [Source:RefSeq_peptide;Acc:NP_001024289]			
plc-2	Y75B12B.6	PhosphoLipase C family member (plc-2) [Source:RefSeq_peptide;Acc:NP_506752]	intracellular signaling cascade, signal transduction, lipid metabolic process, 		phosphoinositide phospholipase C activity, phospholipase C activity, 
Y75B12B.13	Y75B12B.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5HWA1]			
srw-1	Y75B12B.7	Serpentine Receptor, class W family member (srw-1) [Source:RefSeq_peptide;Acc:NP_506753]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y75B12B.10	Y75B12B.10	Y75B12B.10 [Source:RefSeq_peptide;Acc:NP_001024288]			
Y75B12B.8	Y75B12B.8	C41G6.13 [Source:RefSeq_peptide;Acc:NP_506757]			
NM_074355.1	Y75B12B.9	C41G6.12 (C41G6.12) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_074355]			
C41G6.12	C41G6.12	C41G6.12 [Source:RefSeq_peptide;Acc:NP_506756]			
C41G6.13	C41G6.13	C41G6.13 [Source:RefSeq_peptide;Acc:NP_506757]			
C41G6.16	C41G6.16	C41G6.16 [Source:RefSeq_peptide;Acc:NP_001023704]			
sri-24	C41G6.11	Serpentine Receptor, class I family member (sri-24) [Source:RefSeq_peptide;Acc:NP_506758]			
sri-26	C41G6.14	Serpentine Receptor, class I family member (sri-26) [Source:RefSeq_peptide;Acc:NP_506759]			
sri-25	C41G6.10	Serpentine Receptor, class I family member (sri-25) [Source:RefSeq_peptide;Acc:NP_506760]			
srh-165	C41G6.9	Serpentine Receptor, class H family member (srh-165) [Source:RefSeq_peptide;Acc:NP_506761]			
C41G6.6	C41G6.6	C41G6.6 [Source:RefSeq_peptide;Acc:NP_506762]		membrane, 	
srw-24	C41G6.7	Serpentine Receptor, class W family member (srw-24) [Source:RefSeq_peptide;Acc:NP_506763]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-14	C41G6.8	Serpentine Receptor, class W family member (srw-14) [Source:RefSeq_peptide;Acc:NP_506764]	G-protein coupled receptor protein signaling pathway, immune response, 	integral to membrane, extracellular region, 	rhodopsin-like receptor activity, interleukin-1 receptor binding, 
cyp-34A3	C41G6.1	CYtochrome P450 family member (cyp-34A3) [Source:RefSeq_peptide;Acc:NP_506765]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
srw-15	C41G6.3	Serpentine Receptor, class W family member (srw-15) [Source:RefSeq_peptide;Acc:NP_506766]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-13	C41G6.15	Serpentine Receptor, class W family member (srw-13) [Source:RefSeq_peptide;Acc:NP_506767]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-164	C41G6.5	Nuclear hormone receptor family member nhr-164. [Source:Uniprot/SWISSPROT;Acc:O17657]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
srw-12	C41G6.2	Serpentine Receptor, class W family member (srw-12) [Source:RefSeq_peptide;Acc:NP_506769]			
srw-11	M01B2.11	Serpentine Receptor, class W family member (srw-11) [Source:RefSeq_peptide;Acc:NP_001024058]			
M01B2.6	M01B2.6	M01B2.6 [Source:RefSeq_peptide;Acc:NP_506770]	carbohydrate metabolic process, chitin catabolic process, 		chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
kin-30	M01B2.1	kin-30 encodes a predicted tyrosine kinase. kin-30 is expressed during larval stages, but has not been detected in adults. the expression of kin-30 was experimentally verified by RT-PCR. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
srw-50	M01B2.5				
srd-28	M01B2.2	Serpentine receptor class delta-28 (Protein srd-28). [Source:Uniprot/SWISSPROT;Acc:O17956]	embryonic development ending in birth or egg hatching, 	membrane, 	G-protein coupled receptor activity, 
srbc-76	M01B2.4	Serpentine Receptor, class BC (class B-like) family member (srbc-76) [Source:RefSeq_peptide;Acc:NP_506774]			
srbc-75	M01B2.3	Serpentine Receptor, class BC (class B-like) family member (srbc-75) [Source:RefSeq_peptide;Acc:NP_506775]			
srsx-39	M01B2.9	Serpentine Receptor, class SX family member (srsx-39) [Source:RefSeq_peptide;Acc:NP_506776]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-37	M01B2.7	Serpentine Receptor, class SX family member (srsx-37) [Source:RefSeq_peptide;Acc:NP_506777]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
M01B2.8	M01B2.8	M01B2.8 [Source:RefSeq_peptide;Acc:NP_506778]			
M01B2.10	M01B2.10	M01B2.10 [Source:RefSeq_peptide;Acc:NP_506779]			
M01B2.12	M01B2.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL8]			
M01B2.13	M01B2.13				
T10H4.13	T10H4.13				
srw-22	T10H4.3	Serpentine Receptor, class W family member (srw-22) [Source:RefSeq_peptide;Acc:NP_506780]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T10H4.4	T10H4.4	T10H4.4 [Source:RefSeq_peptide;Acc:NP_506781]			
srw-16	T10H4.5	Serpentine Receptor, class W family member (srw-16) [Source:RefSeq_peptide;Acc:NP_506782]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-17	T10H4.6	Serpentine Receptor, class W family member (srw-17) [Source:RefSeq_peptide;Acc:NP_506783]	transport, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, nucleoside transmembrane transporter activity, angiotensin type II receptor activity, 
srw-18	T10H4.7		positive regulation of growth rate, 		
srw-19	T10H4.8	Serpentine Receptor, class W family member (srw-19) [Source:RefSeq_peptide;Acc:NP_506785]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-51	T10H4.9	Serpentine Receptor, class X family member (srx-51) [Source:RefSeq_peptide;Acc:NP_506786]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T10H4.1	T10H4.1				
cyp-34A1	T10H4.10	CYtochrome P450 family member (cyp-34A1) [Source:RefSeq_peptide;Acc:NP_506787]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-34A2	T10H4.11	CYtochrome P450 family member (cyp-34A2) [Source:RefSeq_peptide;Acc:NP_506788]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
str-96	T10H4.2	Seven TM Receptor family member (str-96) [Source:RefSeq_peptide;Acc:NP_506789]			
cpr-3	T10H4.12	Cathepsin B-like cysteine proteinase 3 precursor (EC 3.4.22.-) (Cysteine protease-related 3). [Source:Uniprot/SWISSPROT;Acc:P43507]	proteolysis, embryonic development ending in birth or egg hatching, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
srx-49	T26H8.3	Serpentine Receptor, class X family member (srx-49) [Source:RefSeq_peptide;Acc:NP_506791]			
srx-48	T26H8.2	Serpentine Receptor, class X family member (srx-48) [Source:RefSeq_peptide;Acc:NP_506793]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T26H8.4	T26H8.4	T26H8.4 [Source:RefSeq_peptide;Acc:NP_001024163]			
srz-10	ZK1037.11	Serpentine Receptor, class Z family member (srz-10) [Source:RefSeq_peptide;Acc:NP_506794]			
ZK1037.12	ZK1037.12				
ZK1037.1	ZK1037.1			membrane, 	
ZK1037.2	ZK1037.2				
srt-22	ZK1037.3	Serpentine Receptor, class T family member (srt-22) [Source:RefSeq_peptide;Acc:NP_506796]			
nhr-246	ZK1037.4				transcription factor activity, 
ZK1037.13	ZK1037.13		regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-247	ZK1037.5	Nuclear Hormone Receptor family member (nhr-247) [Source:RefSeq_peptide;Acc:NP_506798]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK1037.6	ZK1037.6	ZK1037.6 [Source:RefSeq_peptide;Acc:NP_506799]			
srw-70	ZK1037.7	Serpentine Receptor, class W family member (srw-70) [Source:RefSeq_peptide;Acc:NP_506800]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-295	ZK1037.8	Serpentine Receptor, class H family member (srh-295) [Source:RefSeq_peptide;Acc:NP_506801]			
srw-113	ZK1037.9	Serpentine Receptor, class W family member (srw-113) [Source:RefSeq_peptide;Acc:NP_506802]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
wrt-7	ZK1037.10	wrt-7 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Wart domain, and a Hint/Hog domain. the Hint/Hog domain is predicted to cut WRT-7 into two halves and then covalently link cholesterol to the C-terminus of the Wart domain. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-7 is required for normal growth to full size and locomotion. both of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, 		peptidase activity, 
H02K04.2	H02K04.2	H02K04.2 [Source:RefSeq_peptide;Acc:NP_001024005]			sugar binding, 
H02K04.1	H02K04.1	H02K04.1 [Source:RefSeq_peptide;Acc:NP_506804]			protein binding, sugar binding, 
wrt-8	C29F3.2	wrt-8 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Wart domain, an short region of low-complexity sequence, and a Hint/Hog domain. WRT-8 is strongly expressed in hypodermal syncytia hyp6-hyp10 throughout life, and in in 12 subventral P cells and their descendants from 3-fold embryo to L2 larva stages. the Hint/Hog domain is predicted to cut WRT-8 into two halves and then covalently link cholesterol to the C-terminus of the Wart domain. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-8 has no obvious function in RNAi assays. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, cell-cell signaling, segment polarity determination, protein autoprocessing, 	extracellular region, plasma membrane, 	peptidase activity, molecular_function, 
C29F3.3	C29F3.3	C29F3.3 [Source:RefSeq_peptide;Acc:NP_506806]			
C29F3.5	C29F3.5	C29F3.5 [Source:RefSeq_peptide;Acc:NP_506807]			protein binding, sugar binding, 
C29F3.4	C29F3.4	C29F3.4 [Source:RefSeq_peptide;Acc:NP_506808]			sugar binding, 
srx-58	C29F3.6	Serpentine Receptor, class X family member (srx-58) [Source:RefSeq_peptide;Acc:NP_506809]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
C29F3.7	C29F3.7	C29F3.7 [Source:RefSeq_peptide;Acc:NP_741643]			
ech-1	C29F3.1	Enoyl-CoA Hydratase family member (ech-1) [Source:RefSeq_peptide;Acc:NP_506810]	metabolic process, fatty acid metabolic process, fatty acid beta-oxidation, 	mitochondrion, fatty acid beta-oxidation multienzyme complex, 	oxidoreductase activity, catalytic activity, 3-hydroxyacyl-CoA dehydrogenase activity, enoyl-CoA hydratase activity, 
srh-106	R08H2.14				
srh-107	R08H2.12				
srh-108	R08H2.11				
nhr-269	R08H2.9	Nuclear Hormone Receptor family member (nhr-269) [Source:RefSeq_peptide;Acc:NP_506813]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
R08H2.8	R08H2.8	R08H2.8 [Source:RefSeq_peptide;Acc:NP_506814]			
R08H2.10	R08H2.10	R08H2.10 [Source:RefSeq_peptide;Acc:NP_506815]			structural molecule activity, 
srh-52	R08H2.7	Serpentine Receptor, class H family member (srh-52) [Source:RefSeq_peptide;Acc:NP_506816]			
srh-122	R08H2.5	Serpentine Receptor, class H family member (srh-122) [Source:RefSeq_peptide;Acc:NP_506818]			
srh-251	R08H2.4	Serpentine Receptor, class H family member (srh-251) [Source:RefSeq_peptide;Acc:NP_506819]			
dhs-23	R08H2.1	dhs-23 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, cellular metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, catalytic activity, coenzyme binding, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
str-88	R08H2.2	Seven TM Receptor family member (str-88) [Source:RefSeq_peptide;Acc:NP_506821]			
str-102	R08H2.13	Seven TM Receptor family member (str-102) [Source:RefSeq_peptide;Acc:NP_506822]	embryonic development ending in birth or egg hatching, 		
srh-170	R08H2.3	Serpentine Receptor, class H family member (srh-170) [Source:RefSeq_peptide;Acc:NP_506823]			
T06E6.1	T06E6.1	T06E6.1 [Source:RefSeq_peptide;Acc:NP_506824]	positive regulation of growth rate, 		calcium ion binding, 
cyb-3	T06E6.2	cyb-3 encodes a member of the cyclin B family that is required for embryonic viability, and may be involved with sister chromatid segregation. [Source: WormBase]	embryonic development ending in birth or egg hatching, oocyte maturation, 	nucleus, 	
fbxa-199	T06E6.3	srx-40 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T06E6.15	T06E6.15	T06E6.15 [Source:RefSeq_peptide;Acc:NP_001041159]			
sri-7	T06E6.4	Serpentine Receptor, class I family member (sri-7) [Source:RefSeq_peptide;Acc:NP_506828]			
fbxa-135	T06E6.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	transport, 		
fbxa-132	T06E6.14				
srh-258	T06E6.7	Serpentine Receptor, class H family member (srh-258) [Source:RefSeq_peptide;Acc:NP_506830]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
srh-257	T06E6.6	Serpentine Receptor, class H family member (srh-257) [Source:RefSeq_peptide;Acc:NP_506831]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
srbc-63	T06E6.11	Serpentine Receptor, class BC (class B-like) family member (srbc-63) [Source:RefSeq_peptide;Acc:NP_506832]			
srh-264	T06E6.8	Serpentine Receptor, class H family member (srh-264) [Source:RefSeq_peptide;Acc:NP_506833]			
srh-265	T06E6.9	Serpentine Receptor, class H family member (srh-265) [Source:RefSeq_peptide;Acc:NP_506834]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
T06E6.10	T06E6.10	T06E6.10 [Source:RefSeq_peptide;Acc:NP_506835]			protein binding, 
srh-263	T06E6.12				
fbxa-104	T06E6.13	F-box A protein family member (fbxa-104) [Source:RefSeq_peptide;Acc:NP_506837]			
fbxa-209	Y36E3A.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T26H5.8	T26H5.8	T26H5.8 [Source:RefSeq_peptide;Acc:NP_506839]			
str-117	T26H5.7				
T26H5.6	T26H5.6				
srh-254	T26H5.1				
T26H5.10	T26H5.10	T26H5.10 [Source:RefSeq_peptide;Acc:NP_001041171]			
T26H5.9	T26H5.9	T26H5.9 [Source:RefSeq_peptide;Acc:NP_001024162]			
srh-239	T26H5.3	Serpentine Receptor, class H family member (srh-239) [Source:RefSeq_peptide;Acc:NP_506842]			
T26H5.4	T26H5.4	T26H5.4 [Source:RefSeq_peptide;Acc:NP_506843]			protein binding, 
srw-33	T26H5.5	Serpentine Receptor, class W family member (srw-33) [Source:RefSeq_peptide;Acc:NP_506844]	G-protein coupled receptor protein signaling pathway, ATP synthesis coupled electron transport, hermaphrodite genitalia development, 	integral to membrane, 	rhodopsin-like receptor activity, NADH dehydrogenase (ubiquinone) activity, 
srh-238	T23F1.1				
T23F1.2	T23F1.2				
T23F1.3	T23F1.3	T23F1.3 [Source:RefSeq_peptide;Acc:NP_506846]			
str-71	T23F1.4	Seven TM Receptor family member (str-71) [Source:RefSeq_peptide;Acc:NP_506847]			
T23F1.5	T23F1.5	T23F1.5 [Source:RefSeq_peptide;Acc:NP_506848]			
T23F1.t1	T23F1.t1				
T23F1.t2	T23F1.t2				
pqn-71	T23F1.6	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, 
dpf-1	T23F1.7	Dipeptidyl peptidase family member 1 (EC 3.4.14.-). [Source:Uniprot/SWISSPROT;Acc:Q7JKY3]	proteolysis, 	membrane, 	serine-type peptidase activity, prolyl oligopeptidase activity, dipeptidyl-peptidase IV activity, aminopeptidase activity, 
C06B8.2	C06B8.2	C06B8.2b [Source:RefSeq_peptide;Acc:NP_506853]			metal ion binding, catalytic activity, 
nhr-150	C06B8.1	Nuclear hormone receptor family member nhr-150. [Source:Uniprot/SWISSPROT;Acc:O17573]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C06B8.t1	C06B8.t1				
C06B8.t2	C06B8.t2				
nhr-151	C06B8.3	C06B8.3 [Source:RefSeq_peptide;Acc:NP_506855]	metabolic process, regulation of transcription, DNA-dependent, enterobactin biosynthetic process, 	nucleus, 	oxidoreductase activity, transcription factor activity, steroid hormone receptor activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
C06B8.11	C06B8.11	C06B8.11 [Source:RefSeq_peptide;Acc:NP_001021373]			serine-type endopeptidase inhibitor activity, 
srw-21	C06B8.9	Serpentine Receptor, class W family member (srw-21) [Source:RefSeq_peptide;Acc:NP_001021374]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
str-264	C06B8.4	Seven TM Receptor family member (str-264) [Source:RefSeq_peptide;Acc:NP_506857]			
srh-218	C06B8.10	Serpentine Receptor, class H family member (srh-218) [Source:RefSeq_peptide;Acc:NP_001021372]	ion transport, 	membrane, 	ion channel activity, receptor activity, extracellular-glutamate-gated ion channel activity, 
srh-219	C06B8.6	Serpentine Receptor, class H family member (srh-219) [Source:RefSeq_peptide;Acc:NP_506858]			
C06B8.7	C06B8.7	C06B8.7 [Source:RefSeq_peptide;Acc:NP_506859]		membrane, 	sugar binding, endopeptidase inhibitor activity, scavenger receptor activity, 
C06B8.t3	C06B8.t3				
rpl-38	C06B8.8	rpl-38 encodes a large ribosomal subunit L38 protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	structural constituent of ribosome, 
lgc-31	F21A3.7	Putative uncharacterized protein lgc-31. [Source:Uniprot/SPTREMBL;Acc:Q9XTE5]	transport, ion transport, positive regulation of growth rate, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
F21A3.t2	F21A3.t2				
F21A3.t1	F21A3.t1				
F21A3.3	F21A3.3	F21A3.3 encodes a putatively secreted protein, with an N-terminal EGF-liked domain and a DUF1794 domain, that is homologous to human THAP4/CGI-36. F21A3.3 is a paralog of MAB-7, C15F1.1, C28H8.5, C52G5.2, T28H10.2, and a domain in Y46G5A.29. [Source: WormBase]			calcium ion binding, 
F21A3.8	F21A3.8	F21A3.8 [Source:RefSeq_peptide;Acc:NP_001023828]			
srh-276	F21A3.1	Serpentine Receptor, class H family member (srh-276) [Source:RefSeq_peptide;Acc:NP_506863]			
F21A3.2	F21A3.2	F21A3.2b [Source:RefSeq_peptide;Acc:NP_001041102]	protein amino acid phosphorylation, 		ATP binding, hydrolase activity, vascular endothelial growth factor receptor activity, 
F21A3.4	F21A3.4	F21A3.4 [Source:RefSeq_peptide;Acc:NP_506865]			
F21A3.5	F21A3.5	F21A3.5 [Source:RefSeq_peptide;Acc:NP_506866]	proteolysis, 		subtilase activity, calcium ion binding, 
F21A3.6	F21A3.6	F21A3.6 [Source:RefSeq_peptide;Acc:NP_506867]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
F28F8.t4	F28F8.t4				
F28F8.t1	F28F8.t1				
acr-18	F28F8.1	acr-18 encodes an alpha subunit of nicotinic acetylcholine receptor (nAChR), predicted to be a ligand-gated ion channel regulating fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-18 falls into the 'DEG-3' class of nAChR subunits, apparently unique to nematodes, which includes DEG-3, DES-2, ACR-5, ACR-17, ACR-20, and ACR-23. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F28F8.t3	F28F8.t3				
F28F8.t2	F28F8.t2				
acs-2	F28F8.2	fatty Acid CoA Synthetase family member (acs-2) [Source:RefSeq_peptide;Acc:NP_506869]	metabolic process, 		catalytic activity, 
lsm-5	F28F8.3	LSM Sm-like protein family member (lsm-5) [Source:RefSeq_peptide;Acc:NP_506870]	mRNA metabolic process, embryonic development ending in birth or egg hatching, 	ribonucleoprotein complex, 	
fbxa-95	F28F8.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-94	F28F8.8	F-box A protein family member (fbxa-94) [Source:RefSeq_peptide;Acc:NP_001023869]			
F28F8.5	F28F8.5	F28F8.5 [Source:RefSeq_peptide;Acc:NP_506872]	morphogenesis of an epithelium, 		
atx-3	F28F8.6	tag-70/F28F8.6 encodes an ortholog of human ATAXIN-3 (OMIM:607047, mutated in Machado-Joseph disease). [Source: WormBase]	regulation of transcription, embryonic development ending in birth or egg hatching, synaptic transmission, 		protein binding, 
F28F8.9	F28F8.9	F28F8.9 [Source:RefSeq_peptide;Acc:NP_001033479]			
F28F8.7	F28F8.7	F28F8.7 [Source:RefSeq_peptide;Acc:NP_506874]			
B0391.10	B0391.10	B0391.10 [Source:RefSeq_peptide;Acc:NP_506875]			
F28F8.10	F28F8.10				
fbxa-139	B0391.9	B0391.9 [Source:RefSeq_peptide;Acc:NP_506876]			
B0391.8	B0391.8				
fbxa-152	B0391.11	B0391.11 [Source:RefSeq_peptide;Acc:NP_506878]	cell redox homeostasis, 		
fbxa-154	B0391.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-153	B0391.5	B0391.5 [Source:RefSeq_peptide;Acc:NP_506881]			
str-12	B0391.4	Seven TM Receptor family member (str-12) [Source:RefSeq_peptide;Acc:NP_872211]			
str-263	B0391.12	Seven TM Receptor family member (str-263) [Source:RefSeq_peptide;Acc:NP_506882]			
B0391.3	B0391.3	B0391.3 [Source:RefSeq_peptide;Acc:NP_506883]		integral to membrane, 	arsenite transmembrane transporter activity, 
B0391.2	B0391.2				
B0391.1	B0391.1				
C55A1.13	C55A1.13				
C55A1.1	C55A1.1	C55A1.1 [Source:RefSeq_peptide;Acc:NP_506885]			
srg-35	C55A1.2				
C55A1.11	C55A1.11	C55A1.11 [Source:RefSeq_peptide;Acc:NP_506886]			
C55A1.9	C55A1.9	C55A1.9 [Source:RefSeq_peptide;Acc:NP_506887]			
str-248	C55A1.3	Seven TM Receptor family member (str-248) [Source:RefSeq_peptide;Acc:NP_506888]			
srz-49	C55A1.16				
C55A1.15	C55A1.15	C55A1.15 [Source:RefSeq_peptide;Acc:NP_001023740]			
srz-43	C55A1.14	Serpentine Receptor, class Z family member (srz-43) [Source:RefSeq_peptide;Acc:NP_001023739]		membrane, 	mating-type factor pheromone receptor activity, 
srz-44	C55A1.12	Serpentine Receptor, class Z family member (srz-44) [Source:RefSeq_peptide;Acc:NP_001023738]			
srh-168	C55A1.10				
C55A1.4	C55A1.4	C55A1.7 [Source:RefSeq_peptide;Acc:NP_506892]			
str-23	C55A1.5	Seven TM Receptor family member (str-23) [Source:RefSeq_peptide;Acc:NP_506891]			
C55A1.7	C55A1.7	C55A1.7 [Source:RefSeq_peptide;Acc:NP_506892]			
C55A1.6	C55A1.6	C55A1.6 [Source:RefSeq_peptide;Acc:NP_506893]			
sru-42	C55A1.8	Serpentine Receptor, class U family member (sru-42) [Source:RefSeq_peptide;Acc:NP_506894]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
F53E4.1	F53E4.1	F53E4.1 [Source:RefSeq_peptide;Acc:NP_506895]			
K06B4.4	K06B4.4	K06B4.4 [Source:RefSeq_peptide;Acc:NP_506896]	proteolysis, 		zinc ion binding, metallopeptidase activity, 
K06B4.3	K06B4.3	K06B4.3 [Source:RefSeq_peptide;Acc:NP_506897]			
nhr-51	K06B4.1	Nuclear hormone receptor family member nhr-51. [Source:Uniprot/SWISSPROT;Acc:O17927]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-52	K06B4.2	Nuclear hormone receptor family member nhr-52. [Source:Uniprot/SWISSPROT;Acc:O17928]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-196	K06B4.5	Nuclear Hormone Receptor family member (nhr-196) [Source:RefSeq_peptide;Acc:NP_506900]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-197	K06B4.7	Nuclear hormone receptor family member nhr-197. [Source:Uniprot/SWISSPROT;Acc:O17931]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-268	K06B4.6	Nuclear hormone receptor family member nhr-268. [Source:Uniprot/SWISSPROT;Acc:O17930]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-200	K06B4.13				
nhr-198	K06B4.8	Nuclear Hormone Receptor family member (nhr-198) [Source:RefSeq_peptide;Acc:NP_506903]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srx-29	K06B4.9	Serpentine Receptor, class X family member (srx-29) [Source:RefSeq_peptide;Acc:NP_506904]			
nhr-199	K06B4.10	Nuclear hormone receptor family member nhr-199. [Source:Uniprot/SWISSPROT;Acc:O17934]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-53	K06B4.11	Nuclear hormone receptor family member nhr-53. [Source:Uniprot/SWISSPROT;Acc:O17933]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
twk-34	K06B4.12	TWiK family of potassium channels family member (twk-34) [Source:RefSeq_peptide;Acc:NP_506906]	potassium ion transport, 	membrane, 	potassium channel activity, 
Y6E2A.1	Y6E2A.1	Y6E2A.1 [Source:RefSeq_peptide;Acc:NP_506907]		membrane, 	G-protein coupled receptor activity, 
str-101	Y6E2A.2	Seven TM Receptor family member (str-101) [Source:RefSeq_peptide;Acc:NP_506908]			
Y6E2A.4	Y6E2A.4	Y6E2A.4 [Source:RefSeq_peptide;Acc:NP_506910]			
Y6E2A.5	Y6E2A.5	Y6E2A.5 [Source:RefSeq_peptide;Acc:NP_506911]			
Y6E2A.7	Y6E2A.7	Y6E2A.7 [Source:RefSeq_peptide;Acc:NP_506912]			
srh-140	Y6E2A.6	Serpentine Receptor, class H family member (srh-140) [Source:RefSeq_peptide;Acc:NP_506913]	electron transport, photosynthesis, light reaction, 	plasma membrane light-harvesting complex, 	electron transporter, transferring electrons within the cyclic electron transport pathway of photosynthesis activity, 
Y6E2A.8	Y6E2A.8	Y6E2A.8 [Source:RefSeq_peptide;Acc:NP_506914]			
sfxn-1.3	Y6E2A.9	Y6E2A.9a [Source:RefSeq_peptide;Acc:NP_001024281]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
str-38	T23D5.2	Seven TM Receptor family member (str-38) [Source:RefSeq_peptide;Acc:NP_506916]			
T23D5.3	T23D5.3	T23D5.3 [Source:RefSeq_peptide;Acc:NP_506917]	translation, homoiothermy, response to freezing, 	intracellular, ribosome, 	structural constituent of ribosome, ice binding, 
str-27	T23D5.1	Seven TM Receptor family member (str-27) [Source:RefSeq_peptide;Acc:NP_506918]			
T23D5.5	T23D5.5				
str-18	T23D5.6	Seven TM Receptor family member (str-18) [Source:RefSeq_peptide;Acc:NP_506919]			
str-19	T23D5.7	Seven TM Receptor family member (str-19) [Source:RefSeq_peptide;Acc:NP_506920]			
T23D5.8	T23D5.8	T23D5.8 [Source:RefSeq_peptide;Acc:NP_506921]			
str-6	T23D5.10	Seven TM Receptor family member (str-6) [Source:RefSeq_peptide;Acc:NP_506922]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
str-43	T23D5.9	Seven TM Receptor family member (str-43) [Source:RefSeq_peptide;Acc:NP_506923]			
str-5	T23D5.12	Seven TM Receptor family member (str-5) [Source:RefSeq_peptide;Acc:NP_506924]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
str-8	T23D5.11	Seven TM Receptor family member (str-8) [Source:RefSeq_peptide;Acc:NP_506925]			
str-9	F57A10.1	Seven TM Receptor family member (str-9) [Source:RefSeq_peptide;Acc:NP_506926]			
haf-3	F57A10.3	haf-3 encodes a member of the ABC transporter family with highest similarity to human ABCB10. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
F57A10.2	F57A10.2	F57A10.2 [Source:RefSeq_peptide;Acc:NP_506928]			structural molecule activity, 
F57A10.4	F57A10.4	F57A10.4 [Source:RefSeq_peptide;Acc:NP_506929]			
nhr-60	F57A10.5	Nuclear Hormone Receptor family member (nhr-60) [Source:RefSeq_peptide;Acc:NP_506930]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-283	F57A10.6	Nuclear Hormone Receptor family member (nhr-283) [Source:RefSeq_peptide;Acc:NP_001023987]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-285	T26E4.16	Nuclear Hormone Receptor family member (nhr-285) [Source:RefSeq_peptide;Acc:NP_001024160]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T26E4.1	T26E4.1	T26E4.1 [Source:RefSeq_peptide;Acc:NP_506931]		membrane, 	
T26E4.2	T26E4.2	T26E4.2 [Source:RefSeq_peptide;Acc:NP_506932]			
T26E4.3	T26E4.3	T26E4.3 [Source:RefSeq_peptide;Acc:NP_506933]			
srxa-17	T26E4.6				
T26E4.5	T26E4.5	T26E4.5 [Source:RefSeq_peptide;Acc:NP_506935]			
T26E4.4	T26E4.4	T26E4.4 [Source:RefSeq_peptide;Acc:NP_506936]			
T26E4.7	T26E4.7	T26E4.7 [Source:RefSeq_peptide;Acc:NP_506937]			
nhr-223	T26E4.8	Nuclear Hormone Receptor family member (nhr-223) [Source:RefSeq_peptide;Acc:NP_506938]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T26E4.10	T26E4.10	T26E4.10 [Source:RefSeq_peptide;Acc:NP_506939]			
T26E4.9	T26E4.9	T26E4.9 [Source:RefSeq_peptide;Acc:NP_506940]			
srw-49	T26E4.11	Serpentine Receptor, class W family member (srw-49) [Source:RefSeq_peptide;Acc:NP_506941]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, rhodopsin-like receptor activity, 
srd-27	T26E4.12	Serpentine Receptor, class D (delta) family member (srd-27) [Source:RefSeq_peptide;Acc:NP_506942]	embryonic development ending in birth or egg hatching, 		
srbc-74	T26E4.13				
srsx-38	T26E4.14	Serpentine Receptor, class SX family member (srsx-38) [Source:RefSeq_peptide;Acc:NP_506944]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srsx-36	T26E4.15	Serpentine Receptor, class SX family member (srsx-36) [Source:RefSeq_peptide;Acc:NP_506945]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F54B8.1	F54B8.1	F54B8.1 [Source:RefSeq_peptide;Acc:NP_506946]			
nhr-282	F54B8.2	Nuclear Hormone Receptor family member (nhr-282) [Source:RefSeq_peptide;Acc:NP_506947]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
fbxa-69	F54B8.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F54B8.4	F54B8.4	The F54B8.4 gene encodes a homolog of Death Associated Protein 1 (DAP-1) protein that may be involved in apoptosis. [Source: WormBase]			
abf-3	F54B8.5	abf-3 encodes a homolog of the antibacterial factor ASABF from Ascaris suum. ABF-3 may play a role in innate immunity, though at present the only evidence for its having an antimicrobial humoral function is its sequence similarity. [Source: WormBase]			
srbc-47	F54B8.14				
srbc-48	F54B8.6	Serpentine Receptor, class BC (class B-like) family member (srbc-48) [Source:RefSeq_peptide;Acc:NP_506951]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srbc-49	F54B8.7	Serpentine Receptor, class BC (class B-like) family member (srbc-49) [Source:RefSeq_peptide;Acc:NP_001023967]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srbc-50	F54B8.8	Serpentine Receptor, class BC (class B-like) family member (srbc-50) [Source:RefSeq_peptide;Acc:NP_506953]			
srbc-51	F54B8.9	Serpentine Receptor, class BC (class B-like) family member (srbc-51) [Source:RefSeq_peptide;Acc:NP_506954]			
srbc-52	F54B8.10	Serpentine Receptor, class BC (class B-like) family member (srbc-52) [Source:RefSeq_peptide;Acc:NP_506955]			
srbc-55	F54B8.16	Serpentine Receptor, class BC (class B-like) family member (srbc-55) [Source:RefSeq_peptide;Acc:NP_001023965]			
srbc-56	F54B8.12	Serpentine Receptor, class BC (class B-like) family member (srbc-56) [Source:RefSeq_peptide;Acc:NP_506956]			
srbc-54	F54B8.11	Serpentine Receptor, class BC (class B-like) family member (srbc-54) [Source:RefSeq_peptide;Acc:NP_506957]			
srbc-53	F54B8.15				
nas-40	F54B8.13				
srh-149	K08G2.13	Serpentine Receptor, class H family member (srh-149) [Source:RefSeq_peptide;Acc:NP_001024040]			
srh-152	K08G2.3				
srh-150	K08G2.2				
srh-147	K08G2.12	Serpentine Receptor, class H family member (srh-147) [Source:RefSeq_peptide;Acc:NP_001024039]			
K08G2.15	K08G2.15				
K08G2.4	K08G2.4				
srh-153	K08G2.11				
srh-148	K08G2.5	Serpentine Receptor, class H family member (srh-148) [Source:RefSeq_peptide;Acc:NP_506959]			
K08G2.14	K08G2.14				
srh-151	K08G2.6				
srz-12	K08G2.7	Serpentine Receptor, class Z family member (srz-12) [Source:RefSeq_peptide;Acc:NP_506961]			
srh-299	K08G2.9	Serpentine Receptor, class H family member (srh-299) [Source:RefSeq_peptide;Acc:NP_001024041]			
srh-294	K08G2.10				
srh-293	K08G2.8	Serpentine Receptor, class H family member (srh-293) [Source:RefSeq_peptide;Acc:NP_506962]			
fbxa-197	T06C12.4	T06C12.4 [Source:RefSeq_peptide;Acc:NP_506963]			
fbxa-198	T06C12.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
str-57	T06C12.2	Seven TM Receptor family member (str-57) [Source:RefSeq_peptide;Acc:NP_506965]			
str-56	T06C12.3	Seven TM Receptor family member (str-56) [Source:RefSeq_peptide;Acc:NP_506966]	cytochrome complex assembly, heme transport, 	membrane, 	heme transporter activity, 
NR_003481.1	T06C12.16	T06C12.16, snoRNA [Source:RefSeq_dna;Acc:NR_003481]			
nhr-102	T06C12.6	nhr-102 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-84	T06C12.7	Nuclear Hormone Receptor family member (nhr-84) [Source:RefSeq_peptide;Acc:NP_506968]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T06C12.8	T06C12.8	T06C12.8 [Source:RefSeq_peptide;Acc:NP_506969]			transferase activity, transferring groups other than amino-acyl groups, 
T06C12.9	T06C12.9	T06C12.9 [Source:RefSeq_peptide;Acc:NP_506970]		integral to membrane, 	
cgt-1	T06C12.10	Ceramide Glucosyl Transferase family member (cgt-1) [Source:RefSeq_peptide;Acc:NP_506971]			
T06C12.12	T06C12.12	T06C12.12 [Source:RefSeq_peptide;Acc:NP_506972]			
T06C12.11	T06C12.11	T06C12.11 [Source:RefSeq_peptide;Acc:NP_506973]			
nhr-213	T06C12.13	Nuclear hormone receptor family member nhr-213. [Source:Uniprot/SWISSPROT;Acc:O18048]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
str-60	T06C12.1	Seven TM Receptor family member (str-60) [Source:RefSeq_peptide;Acc:NP_506975]			
T06C12.14	T06C12.14	T06C12.14 [Source:RefSeq_peptide;Acc:NP_506976]			
srab-27	T06C12.15				
F35E8.1	F35E8.1	F35E8.4 [Source:RefSeq_peptide;Acc:NP_506980]			
F35E8.2	F35E8.2	F35E8.2 [Source:RefSeq_peptide;Acc:NP_506978]			
F35E8.4	F35E8.4	F35E8.4 [Source:RefSeq_peptide;Acc:NP_506980]			
F35E8.6	F35E8.6	F35E8.6 [Source:RefSeq_peptide;Acc:NP_506981]	homoiothermy, response to freezing, 		ice binding, 
F35E8.7	F35E8.7	F35E8.7 [Source:RefSeq_peptide;Acc:NP_506982]	homoiothermy, response to freezing, 		ice binding, 
gst-38	F35E8.8	Glutathione S-Transferase family member (gst-38) [Source:RefSeq_peptide;Acc:NP_506983]			
F35E8.9	F35E8.9	F35E8.9 [Source:RefSeq_peptide;Acc:NP_506984]			
F35E8.10	F35E8.10	F35E8.13 [Source:RefSeq_peptide;Acc:NP_506988]			
cdr-1	F35E8.11	cdr-1 encodes a member of the cadmium-inducible lysosomal family that affects susceptibility to cadmium toxicity. expressed in intestinal cells. [Source: WormBase]			molecular_function, 
nhr-108	F35E8.12	nhr-108 encodes a nuclear receptor that is most highly conserved amongst nematode species. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F35E8.13	F35E8.13	F35E8.13 [Source:RefSeq_peptide;Acc:NP_506988]			
pzf-1	T05G11.1	Paired Zinc Finger protein family member (pzf-1) [Source:RefSeq_peptide;Acc:NP_506989]		intracellular, 	zinc ion binding, nucleic acid binding, 
srbc-77	T05G11.2	Serpentine Receptor, class BC (class B-like) family member (srbc-77) [Source:RefSeq_peptide;Acc:NP_506990]			
srw-26	T05G11.3	Serpentine Receptor, class W family member (srw-26) [Source:RefSeq_peptide;Acc:NP_506991]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-27	T05G11.4	Serpentine Receptor, class W family member (srw-27) [Source:RefSeq_peptide;Acc:NP_506992]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-28	T05G11.5				
srw-52	T05G11.8				
srw-55	T05G11.6	Serpentine Receptor, class W family member (srw-55) [Source:RefSeq_peptide;Acc:NP_506993]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-53	T05G11.7	Serpentine Receptor, class W family member (srw-53) [Source:RefSeq_peptide;Acc:NP_506994]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-58	H24D24.2	Serpentine Receptor, class W family member (srw-58) [Source:RefSeq_peptide;Acc:NP_506995]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-59	H24D24.1	Serpentine Receptor, class W family member (srw-59) [Source:RefSeq_peptide;Acc:NP_506996]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-56	F36G9.16	Serpentine Receptor, class W family member (srw-56) [Source:RefSeq_peptide;Acc:NP_001023889]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-57	F36G9.1	Serpentine Receptor, class W family member (srw-57) [Source:RefSeq_peptide;Acc:NP_506997]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-186	F36G9.2	Serpentine Receptor, class H family member (srh-186) [Source:RefSeq_peptide;Acc:NP_506998]			
F36G9.3	F36G9.3	F36G9.3 [Source:RefSeq_peptide;Acc:NP_506999]	embryonic development ending in birth or egg hatching, 		transporter activity, 
F36G9.4	F36G9.4				
sri-3	F36G9.10				
sri-2	F36G9.9	Serpentine Receptor, class I family member (sri-2) [Source:RefSeq_peptide;Acc:NP_507001]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
sri-1	F36G9.8	Serpentine Receptor, class I family member (sri-1) [Source:RefSeq_peptide;Acc:NP_507002]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
F36G9.7	F36G9.7	F36G9.7 [Source:RefSeq_peptide;Acc:NP_507003]			
sru-23	F36G9.6	Serpentine Receptor, class U family member (sru-23) [Source:RefSeq_peptide;Acc:NP_507004]	signal transduction, 	membrane, 	transmembrane receptor activity, 
sru-22	F36G9.5	Serpentine Receptor, class U family member (sru-22) [Source:RefSeq_peptide;Acc:NP_507005]			
F36G9.11	F36G9.11	F36G9.11 [Source:RefSeq_peptide;Acc:NP_507006]			protein binding, sugar binding, 
F36G9.12	F36G9.12	F36G9.12 [Source:RefSeq_peptide;Acc:NP_507007]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, transferase activity, transferring groups other than amino-acyl groups, 
fbxa-99	F36G9.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F36G9.13	F36G9.13	F36G9.13 [Source:RefSeq_peptide;Acc:NP_507009]			
F36G9.15	F36G9.15	F36G9.15 [Source:RefSeq_peptide;Acc:NP_507010]			
C06C6.6	C06C6.6	C06C6.6 [Source:RefSeq_peptide;Acc:NP_507011]			
C06C6.7	C06C6.7	C06C6.7 [Source:RefSeq_peptide;Acc:NP_507012]			
C06C6.9	C06C6.9	C06C6.9 [Source:RefSeq_peptide;Acc:NP_507013]			
C06C6.8	C06C6.8	C06C6.8 [Source:RefSeq_peptide;Acc:NP_507014]			
nhr-50	C06C6.5	Nuclear Hormone Receptor family member (nhr-50) [Source:RefSeq_peptide;Acc:NP_507015]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-63	C06C6.4	Nuclear Hormone Receptor family member (nhr-63) [Source:RefSeq_peptide;Acc:NP_741645]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
str-231	C06C6.3	Seven TM Receptor family member (str-231) [Source:RefSeq_peptide;Acc:NP_507017]			
str-233	C06C6.2	Seven TM Receptor family member (str-233) [Source:RefSeq_peptide;Acc:NP_507018]			
C06C6.1	C06C6.1	C06C6.1 [Source:RefSeq_peptide;Acc:NP_507019]			
T10C6.2	T10C6.2	T10C6.2 [Source:RefSeq_peptide;Acc:NP_507020]			
str-232	T10C6.1	Seven TM Receptor family member (str-232) [Source:RefSeq_peptide;Acc:NP_507021]			
srx-43	T10C6.3	Serpentine Receptor, class X family member (srx-43) [Source:RefSeq_peptide;Acc:NP_507022]	signal transduction, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, transmembrane receptor activity, 
srx-44	T10C6.4	Serpentine Receptor, class X family member (srx-44) [Source:RefSeq_peptide;Acc:NP_507023]			
T10C6.5	T10C6.5	Protein CWC15 homolog. [Source:Uniprot/SWISSPROT;Acc:O45766]	nuclear mRNA splicing, via spliceosome, embryonic development ending in birth or egg hatching, 	nucleus, spliceosome, 	RNA binding, protein binding, 
T10C6.6	T10C6.6	T10C6.6a [Source:RefSeq_peptide;Acc:NP_507025]	transport, 	integral to membrane, 	transporter activity, 
T10C6.8	T10C6.8				
T10C6.7	T10C6.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T10C6.9	T10C6.9				
T10C6.10	T10C6.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
his-4	T10C6.11	his-4 encodes an H2B histone. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, chromatin, nucleosome, 	DNA binding, 
his-3	T10C6.12	his-3 encodes an H2A histone. by homology, HIS-3 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-3 is a replication-dependent histone locus that resides in the HIS1 cluster on chromosome V. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	intracellular, nucleus, nucleosome, 	DNA binding, sequence-specific DNA binding, 
his-2	T10C6.13	his-2 encodes an H3 histone. his-2 is contained within the histone gene cluster HIS1. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-1	T10C6.14	his-1 encodes an H4 histone. his-1 is contained within the histone gene cluster HIS1. transcript analysis suggests that it encodes the major class of H4 transcripts. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
ZK285.2	ZK285.2	ZK285.2 [Source:RefSeq_peptide;Acc:NP_001024308]			
str-198	ZK285.1	Putative uncharacterized protein str-198. [Source:Uniprot/SPTREMBL;Acc:O62506]			
F14H3.2	F14H3.2	Uncharacterized protein F14H3.2. [Source:Uniprot/SWISSPROT;Acc:O45363]			
F14H3.3	F14H3.3	F14H3.3 [Source:RefSeq_peptide;Acc:NP_507037]			
F14H3.4	F14H3.4	F14H3.4 [Source:RefSeq_peptide;Acc:NP_507038]			serine-type endopeptidase inhibitor activity, 
F14H3.5	F14H3.5	F14H3.5 [Source:RefSeq_peptide;Acc:NP_507039]			
F14H3.6	F14H3.6	F14H3.6 [Source:RefSeq_peptide;Acc:NP_507040]			
fbxa-100	F14H3.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F14H3.14	F14H3.14				
cyp-35D2	F14H3.13				
F14H3.8	F14H3.8	F14H3.8 [Source:RefSeq_peptide;Acc:NP_507042]	purine ribonucleoside monophosphate biosynthetic process, embryonic development ending in birth or egg hatching, 		deaminase activity, 
F14H3.9	F14H3.9	F14H3.9 [Source:RefSeq_peptide;Acc:NP_507043]			
cyp-35D1	F14H3.10	CYtochrome P450 family member (cyp-35D1) [Source:RefSeq_peptide;Acc:NP_507044]	electron transport, protein secretion, 	membrane, 	iron ion binding, protein binding, monooxygenase activity, heme binding, 
nhr-176	F14H3.11	Nuclear Hormone Receptor family member (nhr-176) [Source:RefSeq_peptide;Acc:NP_507045]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srj-10	F14H3.1	Serpentine Receptor, class J family member (srj-10) [Source:RefSeq_peptide;Acc:NP_507046]			
F14H3.12	F14H3.12	F14H3.12 [Source:RefSeq_peptide;Acc:NP_507047]	protein amino acid phosphorylation, 		ATP binding, protein serine/threonine kinase activity, 
srj-29	F22B8.1	Serpentine Receptor, class J family member (srj-29) [Source:RefSeq_peptide;Acc:NP_507048]			
F22B8.2	F22B8.2				
F22B8.4	F22B8.4	F22B8.4 [Source:RefSeq_peptide;Acc:NP_507049]			
F22B8.8	F22B8.8				
F22B8.3	F22B8.3	F22B8.3 [Source:RefSeq_peptide;Acc:NP_507050]			
F22B8.7	F22B8.7	F22B8.7 [Source:RefSeq_peptide;Acc:NP_507051]			catalytic activity, pyridoxal phosphate binding, molybdenum ion binding, 
str-7	F22B8.5	Seven TM Receptor family member (str-7) [Source:RefSeq_peptide;Acc:NP_507052]			
F22B8.6	F22B8.6	F22B8.6 [Source:RefSeq_peptide;Acc:NP_507053]	amino acid metabolic process, 		pyridoxal phosphate binding, 
F44G3.2	F44G3.2	F44G3.2 [Source:RefSeq_peptide;Acc:NP_507054]			transferase activity, transferring phosphorus-containing groups, kinase activity, 
F44G3.3	F44G3.3				
F44G3.4	F44G3.4				
srxa-16	F44G3.5	Serpentine Receptor, class XA family member (srxa-16) [Source:RefSeq_peptide;Acc:NP_507056]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
str-25	F44G3.11	Seven TM Receptor family member (str-25) [Source:RefSeq_peptide;Acc:NP_507057]			
str-103	F44G3.1	Seven TM Receptor family member (str-103) [Source:RefSeq_peptide;Acc:NP_507058]			
skr-3	F44G3.6	The skr-3 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-3(RNAi) animals are at least superficially normal. [Source: WormBase]	defense response, 		
nhr-111	F44G3.9	nhr-111 encodes a member of the nuclear receptor superfamily. by homology, NHR-111 is predicted to function as a ligand-dependent transcriptional regulator, but as loss of nhr-111 activity via large-scale RNAi screens does not result in any abnormalities, the precise role of NHR-111 in C. elegans development and/or behavior is not yet known. an nhr-111 reporter construct is expressed in embryos and early larvae in a pair of neurons in the ventral ganglion of the head and in two cells that may be the somatic gonad precursors. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, identical protein binding, 
fbxa-143	F44G3.14	F44G3.14 [Source:RefSeq_peptide;Acc:NP_001041118]			
fbxa-87	F44G3.13				
fbxa-142	F44G3.12	F44G3.12 [Source:RefSeq_peptide;Acc:NP_001041117]			
fbxa-144	F44G3.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F44G3.7	F44G3.7	F44G3.7 [Source:RefSeq_peptide;Acc:NP_507062]			serine-type endopeptidase inhibitor activity, 
F44G3.10	F44G3.10	F44G3.10 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. F44G3.10 is worm-specific, with obvious homologs only in C. elegans. F44G3.10 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
F10A3.1	F10A3.1	F10A3.1 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. F10A3.1 is worm-specific, with obvious homologs only in C. elegans. F10A3.1 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
fbxa-88	F10A3.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			protein binding, 
fbxa-18	F10A3.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F10A3.16	F10A3.16	F10A3.16 [Source:RefSeq_peptide;Acc:NP_001023779]			
F10A3.10	F10A3.10				
F10A3.4	F10A3.4	F10A3.4 [Source:RefSeq_peptide;Acc:NP_872187]			
str-254	F10A3.9	Seven TM Receptor family member (str-254) [Source:RefSeq_peptide;Acc:NP_507067]			
str-97	F10A3.8	Seven TM Receptor family member (str-97) [Source:RefSeq_peptide;Acc:NP_507068]			
F10A3.7	F10A3.7	F10A3.7 [Source:RefSeq_peptide;Acc:NP_507069]			
str-99	F10A3.6	Seven TM Receptor family member (str-99) [Source:RefSeq_peptide;Acc:NP_507070]			
F10A3.17	F10A3.17				
str-109	F10A3.5	Seven TM Receptor family member (str-109) [Source:RefSeq_peptide;Acc:NP_507071]			
F10A3.11	F10A3.11	F10A3.11 [Source:RefSeq_peptide;Acc:NP_507072]			
F10A3.12	F10A3.12	F10A3.12 [Source:RefSeq_peptide;Acc:NP_507073]			
str-108	F10A3.13	Seven TM Receptor family member (str-108) [Source:RefSeq_peptide;Acc:NP_507074]			
str-111	F10A3.15	Seven TM Receptor family member (str-111) [Source:RefSeq_peptide;Acc:NP_507075]			
K05D4.9	K05D4.9	K05D4.9 [Source:RefSeq_peptide;Acc:NP_001024031]			
cyp-33D1	K05D4.4	CYtochrome P450 family member (cyp-33D1) [Source:RefSeq_peptide;Acc:NP_507076]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
K05D4.5	K05D4.5				
K05D4.1	K05D4.1				
str-106	K05D4.2	Seven TM Receptor family member (str-106) [Source:RefSeq_peptide;Acc:NP_507077]			
srz-13	K05D4.8	Serpentine Receptor, class Z family member (srz-13) [Source:RefSeq_peptide;Acc:NP_001024030]			
srz-14	K05D4.3	Serpentine Receptor, class Z family member (srz-14) [Source:RefSeq_peptide;Acc:NP_507078]			
srh-277	K05D4.6	Serpentine Receptor, class H family member (srh-277) [Source:RefSeq_peptide;Acc:NP_507079]	electron transport, photosynthesis, 	integral to membrane, photosystem I, thylakoid, 	
srh-280	K05D4.7				
srh-281	F11A5.1	Serpentine Receptor, class H family member (srh-281) [Source:RefSeq_peptide;Acc:NP_507081]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
srh-279	F11A5.2	Serpentine Receptor, class H family member (srh-279) [Source:RefSeq_peptide;Acc:NP_507082]			
F11A5.3	F11A5.3	F11A5.3 [Source:RefSeq_peptide;Acc:NP_507083]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
F11A5.4	F11A5.4	F11A5.4 [Source:RefSeq_peptide;Acc:NP_507084]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, G-protein coupled receptor protein signaling pathway, 	intracellular, 	protein binding, GTP binding, GTPase activity, signal transducer activity, guanyl nucleotide binding, 
F11A5.5	F11A5.5	F11A5.5 [Source:RefSeq_peptide;Acc:NP_507085]	carbohydrate metabolic process, 	membrane, Golgi apparatus, 	galactoside 2-alpha-L-fucosyltransferase activity, 
F11A5.17	F11A5.17				
F11A5.6	F11A5.6	F11A5.6 [Source:RefSeq_peptide;Acc:NP_507086]			
F11A5.18	F11A5.18				
F11A5.7	F11A5.7	F11A5.7 [Source:RefSeq_peptide;Acc:NP_507087]		membrane, 	
F11A5.8	F11A5.8	F11A5.8 [Source:RefSeq_peptide;Acc:NP_507088]			transferase activity, transferring groups other than amino-acyl groups, 
F11A5.16	F11A5.16	F11A5.16 [Source:RefSeq_peptide;Acc:NP_001023788]			
F11A5.9	F11A5.9	F11A5.9 [Source:RefSeq_peptide;Acc:NP_507089]	transport, 	integral to membrane, 	transporter activity, 
F11A5.15	F11A5.15	F11A5.15 [Source:RefSeq_peptide;Acc:NP_001023787]			
F11A5.t1	F11A5.t1				
glc-1	F11A5.10	glc-1 encodes the alpha subunit of a glutamate-gated chloride channel and forms a functional channel in Xenopus oocytes. mutations genetically interact with avr-14 and avr-15 mutations such that triple mutants exhibit high level resistance to ivermectin. [Source: WormBase]	transport, ion transport, dicarboxylic acid transport, locomotion during locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, sodium:dicarboxylate symporter activity, 
sri-35	F11A5.11				
stdh-2	F11A5.12	Putative steroid dehydrogenase stdh-2 (EC 1.1.1.-). [Source:Uniprot/SWISSPROT;Acc:O17795]	metabolic process, determination of adult life span, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
NR_000646.1	F11A5.14	F11A5.14, snRNA [Source:RefSeq_dna;Acc:NR_000646]			
F11A5.13	F11A5.13	F11A5.13 [Source:RefSeq_peptide;Acc:NP_507093]			
F21H7.2	F21H7.2	F21H7.2 [Source:RefSeq_peptide;Acc:NP_507094]			
F21H7.12	F21H7.12	F21H7.12 [Source:RefSeq_peptide;Acc:NP_872186]			
gst-22	F21H7.1	Glutathione S-Transferase family member (gst-22) [Source:RefSeq_peptide;Acc:NP_507095]			
F21H7.3	F21H7.3	F21H7.3 [Source:RefSeq_peptide;Acc:NP_507096]			
F21H7.4	F21H7.4	F21H7.4 [Source:RefSeq_peptide;Acc:NP_507097]	cell adhesion, embryonic development ending in birth or egg hatching, 	actin cytoskeleton, 	structural molecule activity, sugar binding, 
srh-98	F21H7.14	Serpentine Receptor, class H family member (srh-98) [Source:RefSeq_peptide;Acc:NP_001023831]			
F21H7.5	F21H7.5	F21H7.5 [Source:RefSeq_peptide;Acc:NP_507098]			structural molecule activity, 
F21H7.6	F21H7.6				
srh-103	F21H7.13				
srh-104	F21H7.7	Serpentine Receptor, class H family member (srh-104) [Source:RefSeq_peptide;Acc:NP_872212]			
srh-95	F21H7.11	Serpentine Receptor, class H family member (srh-95) [Source:RefSeq_peptide;Acc:NP_507100]			
gcy-20	F21H7.9	gcy-20 encodes a predicted guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, metabotropic glutamate, GABA-B-like receptor activity, 
F21H7.10	F21H7.10	F21H7.10 [Source:RefSeq_peptide;Acc:NP_507102]			
nhr-218	T13F3.2	Nuclear hormone receptor family member nhr-218. [Source:Uniprot/SWISSPROT;Acc:O18086]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-127	T13F3.3	nhr-127 encodes a member of the nuclear hormone receptor family. expressed in hypodermal seam cells from the embryonic 1.5-fold stage until the L1 larval stage. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T13F3.4	T13F3.4	T13F3.4 [Source:RefSeq_peptide;Acc:NP_507105]			
T13F3.9	T13F3.9	T13F3.9 [Source:RefSeq_peptide;Acc:NP_001041167]			
fbxa-2	T13F3.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T13F3.6	T13F3.6	T13F3.6 [Source:RefSeq_peptide;Acc:NP_507107]			
T13F3.8	T13F3.8	T13F3.8 [Source:RefSeq_peptide;Acc:NP_001024138]	intracellular signaling cascade, regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	DNA binding, 
T13F3.7	T13F3.7	T13F3.7 [Source:RefSeq_peptide;Acc:NP_001024137]			
str-183	T13F3.1	Seven TM Receptor family member (str-183) [Source:RefSeq_peptide;Acc:NP_507108]			
cyp-37B1	F28G4.1	CYtochrome P450 family member (cyp-37B1) [Source:RefSeq_peptide;Acc:NP_507109]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
F28G4.2	F28G4.2	F28G4.2 [Source:RefSeq_peptide;Acc:NP_507110]			
F28G4.4	F28G4.4	F28G4.4 [Source:RefSeq_peptide;Acc:NP_507111]			
F28G4.3	F28G4.3	F28G4.3 [Source:RefSeq_peptide;Acc:NP_507112]			
F28G4.5	F28G4.5	F28G4.5 [Source:RefSeq_peptide;Acc:NP_507113]			transferase activity, transferring groups other than amino-acyl groups, 
C31A11.1	C31A11.1	C31A11.1 [Source:RefSeq_peptide;Acc:NP_507114]			transferase activity, transferring groups other than amino-acyl groups, 
srbc-83	C31A11.3	Serpentine Receptor, class BC (class B-like) family member (srbc-83) [Source:RefSeq_peptide;Acc:NP_507116]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	
srbc-84	C31A11.10	Serpentine Receptor, class BC (class B-like) family member (srbc-84) [Source:RefSeq_peptide;Acc:NP_001023691]	G-protein coupled receptor protein signaling pathway, peptide cross-linking, 	integral to membrane, 	rhodopsin-like receptor activity, protein-glutamine gamma-glutamyltransferase activity, 
srbc-82	C31A11.4	Serpentine Receptor, class BC (class B-like) family member (srbc-82) [Source:RefSeq_peptide;Acc:NP_507117]			
C31A11.5	C31A11.5	C31A11.5 [Source:RefSeq_peptide;Acc:NP_507118]			transferase activity, transferring groups other than amino-acyl groups, 
srxa-7	C31A11.6	Serpentine Receptor, class XA family member (srxa-7) [Source:RefSeq_peptide;Acc:NP_507119]			
C31A11.7	C31A11.7	C31A11.7 [Source:RefSeq_peptide;Acc:NP_507120]			transferase activity, transferring groups other than amino-acyl groups, 
str-214	C31A11.9	Seven TM Receptor family member (str-214) [Source:RefSeq_peptide;Acc:NP_507122]			
srh-180	F57G8.1	Serpentine Receptor, class H family member (srh-180) [Source:RefSeq_peptide;Acc:NP_507123]			
srv-36	F57G8.8	Serpentine Receptor, class V family member (srv-36) [Source:RefSeq_peptide;Acc:NP_507126]	positive regulation of multicellular organism growth, 		
F57G8.7	F57G8.7	F57G8.7 [Source:RefSeq_peptide;Acc:NP_507127]			
srh-167	F57G8.3	Serpentine Receptor, class H family member (srh-167) [Source:RefSeq_peptide;Acc:NP_507128]			
srw-87	F57G8.4	Serpentine Receptor, class W family member (srw-87) [Source:RefSeq_peptide;Acc:NP_507129]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F57G8.t4	F57G8.t4				
F57G8.t1	F57G8.t1				
F57G8.5	F57G8.5	F57G8.5 [Source:RefSeq_peptide;Acc:NP_507130]	regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, 
F57G8.t3	F57G8.t3				
F57G8.t2	F57G8.t2				
nhr-193	F57G8.6	Nuclear Hormone Receptor family member (nhr-193) [Source:RefSeq_peptide;Acc:NP_507131]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
W08G11.5	W08G11.5	W08G11.5 [Source:RefSeq_peptide;Acc:NP_001024207]			
W08G11.1	W08G11.1	W08G11.1 [Source:RefSeq_peptide;Acc:NP_507132]			
pptr-1	W08G11.4	Protein Phosphatase 2A (Two A) Regulatory subunit family member (pptr-1) [Source:RefSeq_peptide;Acc:NP_507133]	signal transduction, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
W08G11.3	W08G11.3	W08G11.3a [Source:RefSeq_peptide;Acc:NP_001041179]		tight junction, 	
NR_002679.1	W08G11.6	W08G11.6, snoRNA [Source:RefSeq_dna;Acc:NR_002679]			
srv-34	F13A7.3	Serpentine Receptor, class V family member (srv-34) [Source:RefSeq_peptide;Acc:NP_507135]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, C-C chemokine receptor activity, 
F13A7.1	F13A7.1	F13A7.1 [Source:RefSeq_peptide;Acc:NP_507136]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	structural molecule activity, alpha1-adrenergic receptor activity, 
srv-35	F13A7.4				
F13A7.7	F13A7.7	F13A7.7 [Source:RefSeq_peptide;Acc:NP_507138]			
sri-64	F13A7.6				
sri-65	F13A7.8	Serpentine Receptor, class I family member (sri-65) [Source:RefSeq_peptide;Acc:NP_507140]	electron transport, aerobic respiration, 	integral to membrane, 	iron ion binding, heme binding, 
skr-11	F13A7.9	The skr-11 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-11(RNAi) animals are at least superficially normal. [Source: WormBase]			
gst-44	F13A7.10	Glutathione S-Transferase family member (gst-44) [Source:RefSeq_peptide;Acc:NP_507142]	metabolic process, 	cytoplasm, 	catalytic activity, glutathione transferase activity, 
srd-63	F13A7.2	Serpentine receptor class delta-63 (Protein srd-63). [Source:Uniprot/SWISSPROT;Acc:O17800]			
F13A7.11	F13A7.11	F13A7.11 [Source:RefSeq_peptide;Acc:NP_507144]			
F13A7.12	F13A7.12	F13A7.12 [Source:RefSeq_peptide;Acc:NP_001023793]			
sre-36	F13A7.13	Serpentine Receptor, class E (epsilon) family member (sre-36) [Source:RefSeq_peptide;Acc:NP_001023794]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
F13A7.14	F13A7.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL5]			
syp-1	F26D2.2	SYnaPsis in meiosis abnormal family member (syp-1) [Source:RefSeq_peptide;Acc:NP_507145]	embryonic development ending in birth or egg hatching, 		nucleotide binding, 
F26D2.3	F26D2.3	F26D2.3a [Source:RefSeq_peptide;Acc:NP_001023854]		membrane, 	acetylglucosaminyltransferase activity, 
srh-145	F26D2.4	Serpentine Receptor, class H family member (srh-145) [Source:RefSeq_peptide;Acc:NP_507147]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
srh-144	F26D2.5				
F26D2.8	F26D2.8				
str-55	F26D2.7	Seven TM Receptor family member (str-55) [Source:RefSeq_peptide;Acc:NP_507149]			
F26D2.16	F26D2.16	F26D2.16 [Source:RefSeq_peptide;Acc:NP_001023852]			
srw-48	F26D2.9	Serpentine Receptor, class W family member (srw-48) [Source:RefSeq_peptide;Acc:NP_507150]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-29	F26D2.11	Serpentine Receptor, class W family member (srw-29) [Source:RefSeq_peptide;Acc:NP_507151]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F26D2.10	F26D2.10	F26D2.10 [Source:RefSeq_peptide;Acc:NP_507152]		intracellular, 	
str-73	F26D2.1	Seven TM Receptor family member (str-73) [Source:RefSeq_peptide;Acc:NP_507153]			
F26D2.12	F26D2.12	F26D2.12 [Source:RefSeq_peptide;Acc:NP_507154]			sugar binding, 
F26D2.17	F26D2.17				
F26D2.13	F26D2.13	F26D2.13 [Source:RefSeq_peptide;Acc:NP_507155]			
F26D2.14	F26D2.14	F26D2.14 [Source:RefSeq_peptide;Acc:NP_507156]			
F26D2.15	F26D2.15	F26D2.15 [Source:RefSeq_peptide;Acc:NP_507157]	metabolic process, electron transport, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T08G3.4	T08G3.4				
srh-141	T08G3.5	Serpentine Receptor, class H family member (srh-141) [Source:RefSeq_peptide;Acc:NP_507159]			
T08G3.6	T08G3.6	T08G3.6 [Source:RefSeq_peptide;Acc:NP_507160]			
T08G3.13	T08G3.13	T08G3.13 [Source:RefSeq_peptide;Acc:NP_001024123]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
str-14	T08G3.2	Seven TM Receptor family member (str-14) [Source:RefSeq_peptide;Acc:NP_507161]			
str-15	T08G3.1	Seven TM Receptor family member (str-15) [Source:RefSeq_peptide;Acc:NP_507162]			
srh-142	T08G3.3	Serpentine Receptor, class H family member (srh-142) [Source:RefSeq_peptide;Acc:NP_507163]			
T08G3.7	T08G3.7	T08G3.7 [Source:RefSeq_peptide;Acc:NP_507164]		intracellular, 	
sru-44	T08G3.8	Serpentine Receptor, class U family member (sru-44) [Source:RefSeq_peptide;Acc:NP_507165]			
srh-138	T08G3.12	Serpentine Receptor, class H family member (srh-138) [Source:RefSeq_peptide;Acc:NP_001024122]			
srw-35	T08G3.10	Serpentine Receptor, class W family member (srw-35) [Source:RefSeq_peptide;Acc:NP_507166]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-126	T08G3.9				
T08G3.11	T08G3.11	T08G3.11 [Source:RefSeq_peptide;Acc:NP_507168]			
F57E7.1	F57E7.1	F57E7.1 [Source:RefSeq_peptide;Acc:NP_507169]			
F57E7.2	F57E7.2	F57E7.2 [Source:RefSeq_peptide;Acc:NP_507170]			
srh-139	F57E7.3	Serpentine Receptor, class H family member (srh-139) [Source:RefSeq_peptide;Acc:NP_507171]			
Y32B12A.5	Y32B12A.5	Y32B12A.5 [Source:RefSeq_peptide;Acc:NP_507172]			
Y32B12A.1	Y32B12A.1	Y32B12A.1 [Source:RefSeq_peptide;Acc:NP_507173]			zinc ion binding, 
srbc-73	Y32B12A.2				
srh-259	Y32B12A.6				
srh-260	Y32B12A.7				
Y32B12A.3	Y32B12A.3	Y32B12A.3 [Source:RefSeq_peptide;Acc:NP_507175]			O-methyltransferase activity, 
Y32B12A.4	Y32B12A.4	Y32B12A.4 [Source:RefSeq_peptide;Acc:NP_507176]			
srh-136	F36D3.6	Serpentine Receptor, class H family member (srh-136) [Source:RefSeq_peptide;Acc:NP_507177]			
F36D3.1	F36D3.1	F36D3.1 [Source:RefSeq_peptide;Acc:NP_507178]	positive regulation of growth rate, 		
F36D3.14	F36D3.14	F36D3.14 [Source:RefSeq_peptide;Acc:NP_001023884]			
nhr-54	F36D3.2	Nuclear hormone receptor family member nhr-54. [Source:Uniprot/SWISSPROT;Acc:O45460]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srr-3	F36D3.3	Serpentine Receptor, class R family member (srr-3) [Source:RefSeq_peptide;Acc:NP_507180]			
F36D3.5	F36D3.5	F36D3.5 [Source:RefSeq_peptide;Acc:NP_507181]		intracellular, 	
F36D3.4	F36D3.4	F36D3.4 [Source:RefSeq_peptide;Acc:NP_507182]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, structural molecule activity, 
F36D3.7	F36D3.7				
srw-34	F36D3.13	Serpentine Receptor, class W family member (srw-34) [Source:RefSeq_peptide;Acc:NP_001023883]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F36D3.8	F36D3.8	F36D3.8 [Source:RefSeq_peptide;Acc:NP_507184]			
F36D3.10	F36D3.10	F36D3.10 [Source:RefSeq_peptide;Acc:NP_507185]			sugar binding, 
F36D3.11	F36D3.11				
cpr-2	F36D3.9	Cysteine PRotease related family member (cpr-2) [Source:RefSeq_peptide;Acc:NP_507186]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
Y32B12B.1	Y32B12B.1	Y32B12B.1 [Source:RefSeq_peptide;Acc:NP_507187]			
Y32B12B.2	Y32B12B.2	Y32B12B.2 [Source:RefSeq_peptide;Acc:NP_507188]			
srbc-65	Y32B12B.3	Serpentine Receptor, class BC (class B-like) family member (srbc-65) [Source:RefSeq_peptide;Acc:NP_507189]			
Y32B12B.4	Y32B12B.4	Y32B12B.4 encodes a protein with a THAP or THAP-like domain. other proteins with such domains include LIN-15A, LIN-15B, LIN-36, and HIM-17 (which all interact with LIN-35/Rb), as well as CDC-14B, CTB-1, GON-14, and ~100 other proteins such as Drosophila P element transposase and human nuclear proapoptotic factor THAP1. [Source: WormBase]			
Y32B12B.t1	Y32B12B.t1				
Y32B12B.t2	Y32B12B.t2				
sru-45	Y32B12B.7	Serpentine Receptor, class U family member (sru-45) [Source:RefSeq_peptide;Acc:NP_001024223]			
nhr-233	Y32B12B.6	Nuclear Hormone Receptor family member (nhr-233) [Source:RefSeq_peptide;Acc:NP_507191]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
str-149	Y32B12B.5	Seven TM Receptor family member (str-149) [Source:RefSeq_peptide;Acc:NP_507192]			
str-151	T03E6.1	Seven TM Receptor family member (str-151) [Source:RefSeq_peptide;Acc:NP_507193]			
nhr-271	T03E6.3	Putative uncharacterized protein nhr-271. [Source:Uniprot/SPTREMBL;Acc:Q9XU11]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
T03E6.2	T03E6.2	T03E6.2 [Source:RefSeq_peptide;Acc:NP_507195]			
str-150	T03E6.4	Seven TM Receptor family member (str-150) [Source:RefSeq_peptide;Acc:NP_507196]			
srw-73	T03E6.6	Serpentine Receptor, class W family member (srw-73) [Source:RefSeq_peptide;Acc:NP_507197]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-269	T03E6.5	Serpentine Receptor, class H family member (srh-269) [Source:RefSeq_peptide;Acc:NP_507198]			
T03E6.t1	T03E6.t1				
cpl-1	T03E6.7	cpl-1 encodes a member of the cathepsin L-like cysteine protease family required for embryonic viability and normal growth. expressed in eggshells and throughout early embryos, accumulates in intestinal cells during late embryogenesis, and expressed in the cuticle, gonad, and pharynx later in development. [Source: WormBase]	proteolysis, positive regulation of growth rate, 		cysteine-type peptidase activity, protein binding, cysteine-type endopeptidase activity, 
T03E6.9	T03E6.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVM0]			
T03E6.8	T03E6.8	T03E6.8 [Source:RefSeq_peptide;Acc:NP_507200]			
Y32B12C.1	Y32B12C.1	Y32B12C.1 [Source:RefSeq_peptide;Acc:NP_507201]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
srw-54	Y32B12C.2	Serpentine Receptor, class W family member (srw-54) [Source:RefSeq_peptide;Acc:NP_507202]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y32B12C.3	Y32B12C.3	Y32B12C.3 [Source:RefSeq_peptide;Acc:NP_507203]			
Y70C5A.2	Y70C5A.2	Y70C5A.2 [Source:RefSeq_peptide;Acc:NP_507204]			
Y70C5A.t1	Y70C5A.t1				
W06G6.1	W06G6.1	W06G6.1 [Source:RefSeq_peptide;Acc:NP_507205]			transferase activity, transferring groups other than amino-acyl groups, 
W06G6.2	W06G6.2	W06G6.2 [Source:RefSeq_peptide;Acc:NP_507206]			
srd-21	W06G6.3	Serpentine Receptor, class D (delta) family member (srd-21) [Source:RefSeq_peptide;Acc:NP_507207]			
srd-24	W06G6.4				
srw-75	W06G6.13	Serpentine Receptor, class W family member (srw-75) [Source:RefSeq_peptide;Acc:NP_507208]			
srw-76	W06G6.6	Serpentine Receptor, class W family member (srw-76) [Source:RefSeq_peptide;Acc:NP_507209]			
W06G6.7	W06G6.7	W06G6.7 [Source:RefSeq_peptide;Acc:NP_507210]			
W06G6.t1	W06G6.t1				
srw-77	W06G6.8	Serpentine Receptor, class W family member (srw-77) [Source:RefSeq_peptide;Acc:NP_507211]			
W06G6.t3	W06G6.t3				
W06G6.9	W06G6.9	W06G6.9 [Source:RefSeq_peptide;Acc:NP_507212]			
W06G6.10	W06G6.10	W06G6.10 [Source:RefSeq_peptide;Acc:NP_507213]			
W06G6.11	W06G6.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9U342]			
W06G6.t2	W06G6.t2				
W06G6.12	W06G6.12	W06G6.12 [Source:RefSeq_peptide;Acc:NP_507215]			
W06G6.15	W06G6.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL9]			
Y70C5B.1	Y70C5B.1	Y70C5B.1 [Source:RefSeq_peptide;Acc:NP_507216]			
F14F8.14	F14F8.14	F14F8.14 [Source:RefSeq_peptide;Acc:NP_001023802]			
F14F8.9	F14F8.9	F14F8.9 [Source:RefSeq_peptide;Acc:NP_507217]			
str-61	F14F8.1	Seven TM Receptor family member (str-61) [Source:RefSeq_peptide;Acc:NP_507218]			
F14F8.8	F14F8.8	F14F8.8 [Source:RefSeq_peptide;Acc:NP_507219]			
srz-2	F14F8.2				
srz-1	F14F8.3	srz-1 encodes a predicted seven-pass G protein-coupled receptor. as loss of srz-1 activity via large-scale RNAi screens results in no obvious abnormalities, the precise role of SRZ-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
srz-103	F14F8.4	Serpentine Receptor, class Z family member (srz-103) [Source:RefSeq_peptide;Acc:NP_507222]	transport, 	membrane, 	transporter activity, 
srw-44	F14F8.6	Serpentine Receptor, class W family member (srw-44) [Source:RefSeq_peptide;Acc:NP_507223]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-36	F14F8.7	Serpentine Receptor, class W family member (srw-36) [Source:RefSeq_peptide;Acc:NP_507224]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-43	F14F8.5	Serpentine Receptor, class W family member (srw-43) [Source:RefSeq_peptide;Acc:NP_507225]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, 
srz-102	F14F8.13	Serpentine Receptor, class Z family member (srz-102) [Source:RefSeq_peptide;Acc:NP_001023801]			
srw-42	F14F8.11	Serpentine Receptor, class W family member (srw-42) [Source:RefSeq_peptide;Acc:NP_001023799]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-101	F14F8.12	Serpentine Receptor, class Z family member (srz-101) [Source:RefSeq_peptide;Acc:NP_001023800]			
srw-41	F14F8.10	Serpentine Receptor, class W family member (srw-41) [Source:RefSeq_peptide;Acc:NP_001023798]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y70C5C.1	Y70C5C.1	Y70C5C.1 [Source:RefSeq_peptide;Acc:NP_507226]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
clec-9	Y70C5C.2	C-type LECtin family member (clec-9) [Source:RefSeq_peptide;Acc:NP_507227]			sugar binding, 
srz-98	Y70C5C.7				
Y70C5C.3	Y70C5C.3	Y70C5C.3 [Source:RefSeq_peptide;Acc:NP_507228]		membrane, 	
srh-137	Y70C5C.4	Serpentine Receptor, class H family member (srh-137) [Source:RefSeq_peptide;Acc:NP_507229]			
Y70C5C.5	Y70C5C.5	Y70C5C.5 [Source:RefSeq_peptide;Acc:NP_507230]			sugar binding, 
nhr-112	Y70C5C.6	nhr-112 encodes a nuclear receptor that is most highly conserved amongst nematode species. loss of nhr-112 activity via RNAi results in increased susceptibility to Pseudomonas aeruginosa strain PA14. [Source: WormBase]	regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
fbxa-127	T25E12.12	F-box A protein family member (fbxa-127) [Source:RefSeq_peptide;Acc:NP_001024155]			
srz-99	T25E12.13	Serpentine Receptor, class Z family member (srz-99) [Source:RefSeq_peptide;Acc:NP_001024156]			
srz-100	T25E12.11	Serpentine Receptor, class Z family member (srz-100) [Source:RefSeq_peptide;Acc:NP_507232]			
clec-38	T25E12.10	C-type LECtin family member (clec-38) [Source:RefSeq_peptide;Acc:NP_507233]			sugar binding, 
clec-34	T25E12.8	C-type LECtin family member (clec-34) [Source:RefSeq_peptide;Acc:NP_507234]			sugar binding, 
clec-29	T25E12.9	C-type LECtin family member (clec-29) [Source:RefSeq_peptide;Acc:NP_507235]			sugar binding, 
clec-39	T25E12.7	C-type LECtin family member (clec-39) [Source:RefSeq_peptide;Acc:NP_507236]			sugar binding, 
T25E12.6	T25E12.6	T25E12.6 [Source:RefSeq_peptide;Acc:NP_507237]			
T25E12.5	T25E12.5	T25E12.5 [Source:RefSeq_peptide;Acc:NP_507238]	carbohydrate biosynthetic process, 		transferase activity, transferring hexosyl groups, 
T25E12.4	T25E12.4	T25E12.4a [Source:RefSeq_peptide;Acc:NP_507239]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W06H3.1	W06H3.1	W06H3.1 [Source:RefSeq_peptide;Acc:NP_507241]			
pus-1	W06H3.2	pus-1 encodes a putative tRNA pseudouridine synthase that is predicted, by phylogenetic profiling, to be mitochondrial. [Source: WormBase]	tRNA processing, 		pseudouridylate synthase activity, 
W06H3.3	W06H3.3	W06H3.3 [Source:RefSeq_peptide;Acc:NP_507243]	translation, pyrimidine nucleotide biosynthetic process, positive regulation of growth rate, 	intracellular, ribosome, 	catalytic activity, structural constituent of ribosome, CTP synthase activity, 
cand-1	Y102A5A.1	CAND1 (Cullin-Associated NEDD8-Dissociated protein 1) homolog family member (cand-1) [Source:RefSeq_peptide;Acc:NP_507244]			binding, 
T20B3.1	T20B3.1	T20B3.1 [Source:RefSeq_peptide;Acc:NP_507245]			acyltransferase activity, 
T20B3.14	T20B3.14	T20B3.14 [Source:RefSeq_peptide;Acc:NP_872205]			
srh-216	T20B3.5	Serpentine Receptor, class H family member (srh-216) [Source:RefSeq_peptide;Acc:NP_507246]			
srh-214	T20B3.4	Serpentine Receptor, class H family member (srh-214) [Source:RefSeq_peptide;Acc:NP_507247]			
srh-215	T20B3.3	Serpentine Receptor, class H family member (srh-215) [Source:RefSeq_peptide;Acc:NP_507248]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
phy-3	T20B3.7	Proline HYdroxylase family member (phy-3) [Source:RefSeq_peptide;Acc:NP_507251]	protein metabolic process, 		oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
tni-3	T20B3.2	tni-3 encodes one of the four elegans troponin I genes. tni-3 is required for coordinated movement, normal body and muscle morphology and for the proper contractions of the vulva and anus. CeTNI-3 interacts with both the body wall and pharynx troponin C. tni-3 is strongly expressed in body wall, head and vulval muscles. [Source: WormBase]	biological_process, post-embryonic body morphogenesis, 		protein binding, 
clec-40	T20B3.13	C-type LECtin family member (clec-40) [Source:RefSeq_peptide;Acc:NP_507252]			sugar binding, 
clec-23	T20B3.8				
clec-25	T20B3.15	C-type LECtin family member (clec-25) [Source:RefSeq_peptide;Acc:NP_001024149]			sugar binding, 
clec-30	T20B3.11				
clec-36	T20B3.16	Putative uncharacterized protein clec-36. [Source:Uniprot/SPTREMBL;Acc:Q4ZGE4]			sugar binding, 
clec-26	T20B3.12	C-type LECtin family member (clec-26) [Source:RefSeq_peptide;Acc:NP_507254]			sugar binding, 
clec-37	Y102A5B.3	C-type LECtin family member (clec-37) [Source:RefSeq_peptide;Acc:NP_507255]			sugar binding, 
clec-35	Y102A5B.2	C-type LECtin family member (clec-35) [Source:RefSeq_peptide;Acc:NP_507256]			sugar binding, 
clec-27	Y102A5B.1	C-type LECtin family member (clec-27) [Source:RefSeq_peptide;Acc:NP_507257]			sugar binding, 
clec-31	F49A5.2	C-type LECtin family member (clec-31) [Source:RefSeq_peptide;Acc:NP_507258]			sugar binding, 
clec-22	F49A5.3	C-type LECtin family member (clec-22) [Source:RefSeq_peptide;Acc:NP_507259]			sugar binding, 
clec-32	F49A5.9	C-type LECtin family member (clec-32) [Source:RefSeq_peptide;Acc:NP_001023952]			sugar binding, 
clec-24	F49A5.4	C-type LECtin family member (clec-24) [Source:RefSeq_peptide;Acc:NP_507260]			sugar binding, 
clec-28	F49A5.5	C-type LECtin family member (clec-28) [Source:RefSeq_peptide;Acc:NP_001023951]			protein binding, sugar binding, 
clec-33	F49A5.7	C-type LECtin family member (clec-33) [Source:RefSeq_peptide;Acc:NP_507262]			sugar binding, 
thn-4	F49A5.6	THaumatiN family member (thn-4) [Source:RefSeq_peptide;Acc:NP_507263]			
srw-23	F49A5.8	Serpentine Receptor, class W family member (srw-23) [Source:RefSeq_peptide;Acc:NP_507264]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F49A5.10	F49A5.10	F49A5.10 [Source:RefSeq_peptide;Acc:NP_001023949]			
F09C6.3	F09C6.3	F09C6.3 [Source:RefSeq_peptide;Acc:NP_507265]			
F09C6.14	F09C6.14	F09C6.14 [Source:RefSeq_peptide;Acc:NP_001023778]			
F09C6.11	F09C6.11	F09C6.11 [Source:RefSeq_peptide;Acc:NP_001023775]			
F09C6.12	F09C6.12	F09C6.12 [Source:RefSeq_peptide;Acc:NP_001023776]			
F09C6.13	F09C6.13	F09C6.13 [Source:RefSeq_peptide;Acc:NP_001023777]			
F09C6.1	F09C6.1	F09C6.1 [Source:RefSeq_peptide;Acc:NP_507266]			
fbxa-44	F09C6.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	immune response, inflammatory response, 	extracellular region, 	interleukin-1 receptor binding, 
srp-9	F09C6.5				
srp-10	F09C6.4				
fbxa-45	F09C6.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srd-68	F09C6.7	Serpentine Receptor, class D (delta) family member (srd-68) [Source:RefSeq_peptide;Acc:NP_507271]			
nhr-262	F09C6.8	Nuclear Hormone Receptor family member (nhr-262) [Source:RefSeq_peptide;Acc:NP_507272]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-116	F09C6.9	Nuclear Hormone Receptor family member (nhr-116) [Source:RefSeq_peptide;Acc:NP_507273]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F09C6.10	F09C6.10	F09C6.10 [Source:RefSeq_peptide;Acc:NP_507274]	embryonic development ending in birth or egg hatching, 		
fbxa-206	Y102A5C.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
Y102A5C.2	Y102A5C.2	Y102A5C.2 [Source:RefSeq_peptide;Acc:NP_507276]			
fbxa-207	Y102A5C.3	Y102A5C.3 is orthologous to the human gene HISTIDINE-RICH GLYCOPROTEIN (HRG), which when mutated leads to thrombophilia (OMIM:142640). [Source: WormBase]	growth, 		
Y102A5C.4	Y102A5C.4	Y102A5C.4 [Source:RefSeq_peptide;Acc:NP_507278]			
Y102A5C.35	Y102A5C.35				
Y102A5C.36	Y102A5C.36	Y102A5C.36 [Source:RefSeq_peptide;Acc:NP_001024209]			
Y102A5C.5	Y102A5C.5				
Y102A5C.6	Y102A5C.6		positive regulation of growth rate, 		
Y102A5C.7	Y102A5C.7	Y102A5C.7 [Source:RefSeq_peptide;Acc:NP_507279]			sugar binding, 
fbxa-110	Y102A5C.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
fbxa-148	Y102A5C.9	Y102A5C.9 [Source:RefSeq_peptide;Acc:NP_507281]			
fbxa-204	Y102A5C.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y102A5C.11	Y102A5C.11				
Y102A5C.37	Y102A5C.37				
fbxa-205	Y102A5C.12	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxa-112	Y102A5C.13	F-box A protein family member (fbxa-112) [Source:RefSeq_peptide;Acc:NP_507284]			
fbxa-111	Y102A5C.14	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
Y102A5C.17	Y102A5C.17	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XX75]			sugar binding, 
srh-206	Y102A5C.15	Serpentine Receptor, class H family member (srh-206) [Source:RefSeq_peptide;Acc:NP_507287]			
Y102A5C.16	Y102A5C.16	Y102A5C.16 [Source:RefSeq_peptide;Acc:NP_507288]			sugar binding, 
efl-1	Y102A5C.18	efl-1 encodes a homolog of mammalian E2F that is required for embryonic asymmetry and that functions as a transcriptional repressor. during vulval development, efl-1, a class B synMuv gene, acts with class B synMuv genes dpl-1 and lin-35/Rb to antagonize receptor tyrosine kinase and Ras-mediated signaling. EFL-1 also negatively regulates the G1 to S phase cell cycle transition. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of transcription, negative regulation of Ras protein signal transduction, embryonic digestive tract morphogenesis, 	transcription factor complex, 	transcription factor activity, 
fbxa-90	Y102A5C.19	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srbc-80	Y102A5C.20				
srh-119	Y102A5C.21	Serpentine Receptor, class H family member (srh-119) [Source:RefSeq_peptide;Acc:NP_507292]			
srx-54	Y102A5C.22	Serpentine Receptor, class X family member (srx-54) [Source:RefSeq_peptide;Acc:NP_507293]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-53	Y102A5C.23	Serpentine Receptor, class Z family member (srz-53) [Source:RefSeq_peptide;Acc:NP_507294]			
srx-55	Y102A5C.24	Serpentine Receptor, class X family member (srx-55) [Source:RefSeq_peptide;Acc:NP_507295]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-54	Y102A5C.25	Serpentine Receptor, class Z family member (srz-54) [Source:RefSeq_peptide;Acc:NP_507296]			
srz-52	Y102A5C.26				
Y102A5C.27	Y102A5C.27	Y102A5C.27 [Source:RefSeq_peptide;Acc:NP_507298]			
grd-17	Y102A5C.34				
srz-95	Y102A5C.33	Serpentine Receptor, class Z family member (srz-95) [Source:RefSeq_peptide;Acc:NP_507299]			
str-217	Y102A5C.28	Seven TM Receptor family member (str-217) [Source:RefSeq_peptide;Acc:NP_507300]			
sri-9	Y102A5C.29	Serpentine Receptor, class I family member (sri-9) [Source:RefSeq_peptide;Acc:NP_507301]	DNA topological change, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
Y102A5C.30	Y102A5C.30				
srh-131	Y102A5C.31	Serpentine Receptor, class H family member (srh-131) [Source:RefSeq_peptide;Acc:NP_507302]			
sri-69	Y102A5C.32	Serpentine Receptor, class I family member (sri-69) [Source:RefSeq_peptide;Acc:NP_507303]			
F49H6.13	F49H6.13	F49H6.13 [Source:RefSeq_peptide;Acc:NP_507304]	transport, 	membrane, synaptic vesicle, 	transporter activity, 
F49H6.1	F49H6.1	F49H6.1 [Source:RefSeq_peptide;Acc:NP_507305]			sugar binding, 
F49H6.2	F49H6.2	F49H6.2 [Source:RefSeq_peptide;Acc:NP_507306]			sugar binding, 
F49H6.3	F49H6.3	F49H6.3 [Source:RefSeq_peptide;Acc:NP_507307]			
F49H6.14	F49H6.14				
srh-97	F49H6.4	Serpentine Receptor, class H family member (srh-97) [Source:RefSeq_peptide;Acc:NP_507308]			
F49H6.12	F49H6.12	F49H6.12 [Source:RefSeq_peptide;Acc:NP_507309]			
F49H6.8	F49H6.8	F49H6.8 [Source:RefSeq_peptide;Acc:NP_507310]			
F49H6.5	F49H6.5	The F49H6.5 gene encodes a homolog of the human gene MOCS1A, which when mutated leads to molybdenum cofactor deficiency (OMIM:252150). [Source: WormBase]	Mo-molybdopterin cofactor biosynthetic process, 	molybdopterin synthase complex, 	4 iron, 4 sulfur cluster binding, metal ion binding, catalytic activity, iron-sulfur cluster binding, 
F49H6.6	F49H6.6				
srw-37	F49H6.7	Serpentine Receptor, class W family member (srw-37) [Source:RefSeq_peptide;Acc:NP_507312]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-92	F49H6.9				
srz-94	F49H6.11	Serpentine Receptor, class Z family member (srz-94) [Source:RefSeq_peptide;Acc:NP_507314]			
srz-93	F49H6.10				
F28B1.1	F28B1.1	F28B1.1 [Source:RefSeq_peptide;Acc:NP_507316]			
F28B1.2	F28B1.2	F28B1.2 [Source:RefSeq_peptide;Acc:NP_507317]			
F28B1.3	F28B1.3	F28B1.3 [Source:RefSeq_peptide;Acc:NP_507318]			
F28B1.4	F28B1.4	F28B1.4 [Source:RefSeq_peptide;Acc:NP_507319]			
F28B1.5	F28B1.5	F28B1.5 [Source:RefSeq_peptide;Acc:NP_507320]			
sri-66	F28B1.6	Serpentine Receptor, class I family member (sri-66) [Source:RefSeq_peptide;Acc:NP_507321]			
F28B1.9	F28B1.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL6]			
srh-256	F28B1.7				
srh-255	F28B1.8	Serpentine Receptor, class H family member (srh-255) [Source:RefSeq_peptide;Acc:NP_001023867]	potassium ion transport, 	voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
T05E12.8	T05E12.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL7]			
srbc-14	T05E12.2	Serpentine Receptor, class BC (class B-like) family member (srbc-14) [Source:RefSeq_peptide;Acc:NP_507322]			
str-125	T05E12.1	Seven TM Receptor family member (str-125) [Source:RefSeq_peptide;Acc:NP_507323]			
T05E12.3	T05E12.3	T05E12.3 [Source:RefSeq_peptide;Acc:NP_507324]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
srw-20	T05E12.4	Serpentine Receptor, class W family member (srw-20) [Source:RefSeq_peptide;Acc:NP_507325]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T05E12.9	T05E12.9				
T05E12.6	T05E12.6	T05E12.6 [Source:RefSeq_peptide;Acc:NP_507327]			
srh-237	T05E12.7				
ZK218.1	ZK218.1	ZK218.1 [Source:RefSeq_peptide;Acc:NP_507329]			
ZK218.3	ZK218.3	ZK218.3 [Source:RefSeq_peptide;Acc:NP_507331]			
ZK218.4	ZK218.4	ZK218.4 [Source:RefSeq_peptide;Acc:NP_507332]		integral to membrane, 	
ZK218.5	ZK218.5	ZK218.5 [Source:RefSeq_peptide;Acc:NP_507333]			
nhr-248	ZK218.6	Nuclear Hormone Receptor family member (nhr-248) [Source:RefSeq_peptide;Acc:NP_507334]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ZK218.7	ZK218.7	ZK218.7 [Source:RefSeq_peptide;Acc:NP_507335]	homoiothermy, response to freezing, 		nutrient reservoir activity, ice binding, 
ZK218.11	ZK218.11	ZK218.11 [Source:RefSeq_peptide;Acc:NP_507336]			
ZK218.14	ZK218.14				
ZK218.10	ZK218.10				
ZK218.9	ZK218.9				
ZK218.8	ZK218.8	ZK218.8 [Source:RefSeq_peptide;Acc:NP_507337]			
NR_000674.1	ZK218.13	ZK218.13, snRNA [Source:RefSeq_dna;Acc:NR_000674]			
ZK218.12	ZK218.12				
Y102A5D.1	Y102A5D.1	Y102A5D.1 [Source:RefSeq_peptide;Acc:NP_507338]			
F40D4.14	F40D4.14				
F40D4.13	F40D4.13	F40D4.13 [Source:RefSeq_peptide;Acc:NP_507339]			
F40D4.12	F40D4.12	F40D4.12 [Source:RefSeq_peptide;Acc:NP_507340]			
srh-102	F40D4.11	Serpentine Receptor, class H family member (srh-102) [Source:RefSeq_peptide;Acc:NP_507341]			
srz-66	F40D4.9	Serpentine Receptor, class Z family member (srz-66) [Source:RefSeq_peptide;Acc:NP_001023905]			
srz-65	F40D4.10				
srw-51	F40D4.8	Serpentine Receptor, class W family member (srw-51) [Source:RefSeq_peptide;Acc:NP_507344]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srbc-26	F40D4.7	Serpentine Receptor, class BC (class B-like) family member (srbc-26) [Source:RefSeq_peptide;Acc:NP_507345]			
srbc-25	F40D4.6	Serpentine Receptor, class BC (class B-like) family member (srbc-25) [Source:RefSeq_peptide;Acc:NP_507346]			
srsx-1	F40D4.5	Serpentine Receptor, class SX family member (srsx-1) [Source:RefSeq_peptide;Acc:NP_507347]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-174	F40D4.1	Serpentine Receptor, class H family member (srh-174) [Source:RefSeq_peptide;Acc:NP_507348]			
srh-155	F40D4.2	Serpentine Receptor, class H family member (srh-155) [Source:RefSeq_peptide;Acc:NP_507349]	cation transport, 	membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
srh-159	F40D4.3	Serpentine Receptor, class H family member (srh-159) [Source:RefSeq_peptide;Acc:NP_507350]			
srh-162	F40D4.4				
srh-202	Y68A4A.1				
str-199	Y68A4A.3	Seven TM Receptor family member (str-199) [Source:RefSeq_peptide;Acc:NP_507353]			
srz-47	Y68A4A.2	Serpentine Receptor, class Z family member (srz-47) [Source:RefSeq_peptide;Acc:NP_507354]			
Y68A4A.5	Y68A4A.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XXQ2]	cell redox homeostasis, 		
Y68A4A.4	Y68A4A.4				
srz-96	Y68A4A.6	Serpentine Receptor, class Z family member (srz-96) [Source:RefSeq_peptide;Acc:NP_507356]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
Y68A4A.10	Y68A4A.10	Y68A4A.10a [Source:RefSeq_peptide;Acc:NP_001024276]	cell redox homeostasis, 		
srw-74	Y68A4A.11				
Y68A4A.13	Y68A4A.13	Y68A4A.13 [Source:RefSeq_peptide;Acc:NP_001024278]			
Y68A4A.12	Y68A4A.12				
srh-236	Y68A4A.9	Serpentine Receptor, class H family member (srh-236) [Source:RefSeq_peptide;Acc:NP_507358]			
srh-113	Y68A4A.7	Serpentine Receptor, class H family member (srh-113) [Source:RefSeq_peptide;Acc:NP_507359]			
Y68A4A.8	Y68A4A.8				
srbc-62	T19C9.1	Serpentine Receptor, class BC (class B-like) family member (srbc-62) [Source:RefSeq_peptide;Acc:NP_507360]			
srh-109	T19C9.4	Serpentine Receptor, class H family member (srh-109) [Source:RefSeq_peptide;Acc:NP_507361]			
srh-252	T19C9.3	Serpentine Receptor, class H family member (srh-252) [Source:RefSeq_peptide;Acc:NP_507362]			serine-type endopeptidase inhibitor activity, 
srh-112	T19C9.2	Serpentine Receptor, class H family member (srh-112) [Source:RefSeq_peptide;Acc:NP_507363]			
T19C9.5	T19C9.5	T19C9.5 [Source:RefSeq_peptide;Acc:NP_507364]		extracellular region, 	
T19C9.6	T19C9.6	T19C9.6 [Source:RefSeq_peptide;Acc:NP_507365]			
T19C9.8	T19C9.8	T19C9.8 [Source:RefSeq_peptide;Acc:NP_507367]			
Y68A4B.3	Y68A4B.3	Y68A4B.3 [Source:RefSeq_peptide;Acc:NP_507368]			
Y68A4B.2	Y68A4B.2	Y68A4B.2 [Source:RefSeq_peptide;Acc:NP_507369]			sugar binding, 
Y68A4B.1	Y68A4B.1	Y68A4B.1 [Source:RefSeq_peptide;Acc:NP_507370]			sugar binding, 
Y61B8A.3	Y61B8A.3				
srh-116	Y61B8A.1	Serpentine Receptor, class H family member (srh-116) [Source:RefSeq_peptide;Acc:NP_507371]			
srh-115	Y61B8A.2	Serpentine Receptor, class H family member (srh-115) [Source:RefSeq_peptide;Acc:NP_507372]			
fbxa-85	Y61B8A.4	F-box A protein family member (fbxa-85) [Source:RefSeq_peptide;Acc:NP_001041200]			
srw-47	K10G4.2	Serpentine Receptor, class W family member (srw-47) [Source:RefSeq_peptide;Acc:NP_507373]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K10G4.3	K10G4.3	K10G4.3 [Source:RefSeq_peptide;Acc:NP_507374]			
srh-117	K10G4.6				
K10G4.10	K10G4.10	K10G4.10 [Source:RefSeq_peptide;Acc:NP_001024050]			
srh-262	K10G4.7				
K10G4.1	K10G4.1	K10G4.1 [Source:RefSeq_peptide;Acc:NP_507377]			
K10G4.4	K10G4.4	K10G4.4 [Source:RefSeq_peptide;Acc:NP_507378]			
srw-30	K10G4.9	Serpentine Receptor, class W family member (srw-30) [Source:RefSeq_peptide;Acc:NP_001024051]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K10G4.11	K10G4.11				
srw-46	K10G4.8				
K10G4.5	K10G4.5	K10G4.5 [Source:RefSeq_peptide;Acc:NP_507379]			
sri-70	Y61B8B.1	Serpentine Receptor, class I family member (sri-70) [Source:RefSeq_peptide;Acc:NP_507380]	electron transport, aerobic respiration, 	integral to membrane, 	iron ion binding, heme binding, 
Y61B8B.2	Y61B8B.2	Y61B8B.2 [Source:RefSeq_peptide;Acc:NP_507381]			
F31E9.6	F31E9.6	F31E9.6 [Source:RefSeq_peptide;Acc:NP_507382]			
srz-26	F31E9.7				
F31E9.t1	F31E9.t1				
srz-58	F31E9.5	Serpentine Receptor, class Z family member (srz-58) [Source:RefSeq_peptide;Acc:NP_507383]			
fbxa-180	F31E9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F31E9.3	F31E9.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F31E9.8	F31E9.8				
sdz-16	F31E9.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			protein binding, 
srg-44	F31E9.2	Serpentine Receptor, class G (gamma) family member (srg-44) [Source:RefSeq_peptide;Acc:NP_507387]	signal transduction, 	membrane, 	transmembrane receptor activity, 
fbxa-185	F47H4.4	F47H4.4 [Source:RefSeq_peptide;Acc:NP_507388]			
F47H4.5	F47H4.5				
fbxa-186	F47H4.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-187	F47H4.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-188	F47H4.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-189	F47H4.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
skr-5	F47H4.10	The skr-5 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-5(RNAi) animals are at least superficially normal. [Source: WormBase]			
F47H4.1	F47H4.1	F47H4.1 [Source:RefSeq_peptide;Acc:NP_507394]		intracellular, 	zinc ion binding, nucleic acid binding, 
fbxa-134	F47H4.11	F-box A protein family member (fbxa-134) [Source:RefSeq_peptide;Acc:NP_507395]			oxidoreductase activity, transition metal ion binding, 
F47H4.2	F47H4.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F47H4.12	F47H4.12				
srz-46	F47H4.3				
Y20C6A.1	Y20C6A.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxb-7	Y20C6A.2	F-box B protein family member (fbxb-7) [Source:RefSeq_peptide;Acc:NP_507398]			
Y20C6A.3	Y20C6A.3	Y20C6A.3 [Source:RefSeq_peptide;Acc:NP_507399]			
srh-120	T27C5.1	Serpentine Receptor, class H family member (srh-120) [Source:RefSeq_peptide;Acc:NP_507400]			
srh-121	T27C5.13				
srx-53	T27C5.2	Serpentine Receptor, class X family member (srx-53) [Source:RefSeq_peptide;Acc:NP_507401]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srx-52	T27C5.3				
srz-51	T27C5.11				
srz-50	T27C5.4				
srh-132	T27C5.5	Serpentine Receptor, class H family member (srh-132) [Source:RefSeq_peptide;Acc:NP_507404]	embryonic development ending in birth or egg hatching, 		
T27C5.6	T27C5.6				
T27C5.7	T27C5.7	T27C5.7 [Source:RefSeq_peptide;Acc:NP_507406]			sugar binding, 
T27C5.12	T27C5.12	T27C5.12 [Source:RefSeq_peptide;Acc:NP_001024165]			
T27C5.8	T27C5.8	T27C5.8 [Source:RefSeq_peptide;Acc:NP_507407]			
srh-96	T27C5.14				
T27C5.10	T27C5.10	T27C5.10 [Source:RefSeq_peptide;Acc:NP_507409]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srbc-27	F20E11.15	Serpentine Receptor, class BC (class B-like) family member (srbc-27) [Source:RefSeq_peptide;Acc:NP_001023825]	ATP synthesis coupled proton transport, 	integral to membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
srbc-28	F20E11.16				
srsx-2	F20E11.2	Serpentine Receptor, class SX family member (srsx-2) [Source:RefSeq_peptide;Acc:NP_507410]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-175	F20E11.11				
srh-154	F20E11.12	Serpentine Receptor, class H family member (srh-154) [Source:RefSeq_peptide;Acc:NP_507412]	cation transport, 	membrane, 	ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
srh-158	F20E11.13				
srh-160	F20E11.3				
srh-157	F20E11.8				
srh-156	F20E11.9				
srh-161	F20E11.14				
srh-203	F20E11.10	Serpentine Receptor, class H family member (srh-203) [Source:RefSeq_peptide;Acc:NP_507417]			
str-200	F20E11.4	Seven TM Receptor family member (str-200) [Source:RefSeq_peptide;Acc:NP_507418]			
srz-48	F20E11.1	Serpentine Receptor, class Z family member (srz-48) [Source:RefSeq_peptide;Acc:NP_507419]			
F20E11.5	F20E11.5	F20E11.5 [Source:RefSeq_peptide;Acc:NP_507420]			protein binding, 
F20E11.7	F20E11.7	F20E11.7 [Source:RefSeq_peptide;Acc:NP_507421]	cell redox homeostasis, 		
srw-72	F20E11.6	Serpentine Receptor, class W family member (srw-72) [Source:RefSeq_peptide;Acc:NP_507422]			
srh-235	F08E10.1	Serpentine Receptor, class H family member (srh-235) [Source:RefSeq_peptide;Acc:NP_507423]			
srh-114	F08E10.8				
srh-123	F08E10.3	Serpentine Receptor, class H family member (srh-123) [Source:RefSeq_peptide;Acc:NP_507424]			
srbc-61	F08E10.2	Serpentine Receptor, class BC (class B-like) family member (srbc-61) [Source:RefSeq_peptide;Acc:NP_507425]			
srh-110	F08E10.4				
srh-253	F08E10.5				
srh-111	F08E10.6	Serpentine Receptor, class H family member (srh-111) [Source:RefSeq_peptide;Acc:NP_507428]			
F08E10.7	F08E10.7	F08E10.7 [Source:RefSeq_peptide;Acc:NP_507429]		extracellular region, 	
K03D7.9	K03D7.9	K03D7.9 [Source:RefSeq_peptide;Acc:NP_507430]			
K03D7.8	K03D7.8	K03D7.8 [Source:RefSeq_peptide;Acc:NP_507431]			
fbxa-102	K03D7.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srh-118	K03D7.6	Serpentine Receptor, class H family member (srh-118) [Source:RefSeq_peptide;Acc:NP_507433]			
K03D7.5	K03D7.5				
srh-261	K03D7.4	Serpentine Receptor, class H family member (srh-261) [Source:RefSeq_peptide;Acc:NP_507434]			
K03D7.3	K03D7.3				
srw-31	K03D7.2	Serpentine Receptor, class W family member (srw-31) [Source:RefSeq_peptide;Acc:NP_507435]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, rhodopsin-like receptor activity, 
srw-32	K03D7.11	Serpentine Receptor, class W family member (srw-32) [Source:RefSeq_peptide;Acc:NP_507436]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-45	K03D7.10				
K03D7.1	K03D7.1				
fbxa-136	C18D4.2	F-box A protein family member (fbxa-136) [Source:RefSeq_peptide;Acc:NP_507438]	embryonic development ending in birth or egg hatching, 		calcium ion binding, 
srz-90	C18D4.9	Serpentine Receptor, class Z family member (srz-90) [Source:RefSeq_peptide;Acc:NP_507439]			
C18D4.4	C18D4.4	C18D4.4 [Source:RefSeq_peptide;Acc:NP_507440]			
C18D4.3	C18D4.3	C18D4.3 [Source:RefSeq_peptide;Acc:NP_507441]			
C18D4.6	C18D4.6	C18D4.6c [Source:RefSeq_peptide;Acc:NP_001023668]			
srz-25	C18D4.5	Serpentine Receptor, class Z family member (srz-25) [Source:RefSeq_peptide;Acc:NP_001023667]			
C18D4.t1	C18D4.t1				
srz-57	C18D4.7				
C18D4.8	C18D4.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C38D9.12	C38D9.12				
fbxa-176	C38D9.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C38D9.8	C38D9.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			protein binding, 
srg-43	C38D9.10				
fbxa-174	C38D9.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-172	C38D9.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-173	C38D9.11				
fbxa-171	C38D9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C38D9.2	C38D9.2	C38D9.2 [Source:RefSeq_peptide;Acc:NP_507450]			zinc ion binding, nucleic acid binding, 
C38D9.3	C38D9.3	C38D9.3 [Source:RefSeq_peptide;Acc:NP_507451]	proteolysis, 		aspartic-type endopeptidase activity, 
fbxa-133	C38D9.4	F-box A protein family member (fbxa-133) [Source:RefSeq_peptide;Acc:NP_507452]			
C38D9.5	C38D9.5	C38D9.5 [Source:RefSeq_peptide;Acc:NP_507453]			
srz-45	Y6G8.1	Serpentine Receptor, class Z family member (srz-45) [Source:RefSeq_peptide;Acc:NP_507454]		membrane, 	
Y6G8.2	Y6G8.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
Y6G8.3	Y6G8.3	Y6G8.3 [Source:RefSeq_peptide;Acc:NP_507456]		intracellular, 	zinc ion binding, nucleic acid binding, 
srz-91	Y6G8.4	Serpentine Receptor, class Z family member (srz-91) [Source:RefSeq_peptide;Acc:NP_001024283]			
Y6G8.5	Y6G8.5	Y6G8.5 [Source:RefSeq_peptide;Acc:NP_001024284]			
Y6G8.6	Y6G8.6	Y6G8.6 [Source:RefSeq_peptide;Acc:NP_001024285]			
Y6G8.8	Y6G8.8				
F57G4.1	F57G4.1	F57G4.1 [Source:RefSeq_peptide;Acc:NP_507457]			
F57G4.10	F57G4.10				
fbxa-191	F57G4.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-192	F57G4.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F57G4.5	F57G4.5	F57G4.5 [Source:RefSeq_peptide;Acc:NP_507461]			
F57G4.6	F57G4.6	F57G4.6 [Source:RefSeq_peptide;Acc:NP_507462]			
F57G4.9	F57G4.9	F57G4.9 [Source:RefSeq_peptide;Acc:NP_507463]			
F57G4.7	F57G4.7				
F59A1.5	F59A1.5				
fbxa-193	F59A1.9	F59A1.9 [Source:RefSeq_peptide;Acc:NP_507466]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
fbxa-129	F59A1.8	F-box A protein family member (fbxa-129) [Source:RefSeq_peptide;Acc:NP_507467]			
fbxa-108	F59A1.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F59A1.10	F59A1.10	F59A1.10 [Source:RefSeq_peptide;Acc:NP_507469]			
F59A1.t8	F59A1.t8				
F59A1.t1	F59A1.t1				
F59A1.11	F59A1.11	F59A1.11 [Source:RefSeq_peptide;Acc:NP_507470]			
F59A1.t2	F59A1.t2				
F59A1.12	F59A1.12	F59A1.12 [Source:RefSeq_peptide;Acc:NP_507471]			
F59A1.t7	F59A1.t7				
str-89	F59A1.4	Seven TM Receptor family member (str-89) [Source:RefSeq_peptide;Acc:NP_507472]			
str-93	F59A1.14	Seven TM Receptor family member (str-93) [Source:RefSeq_peptide;Acc:NP_001023998]			
str-92	F59A1.3	Seven TM Receptor family member (str-92) [Source:RefSeq_peptide;Acc:NP_507473]			
F59A1.2	F59A1.2				
F59A1.15	F59A1.15	F59A1.15 [Source:RefSeq_peptide;Acc:NP_001023999]			
F59A1.16	F59A1.16	F59A1.16 [Source:RefSeq_peptide;Acc:NP_001024000]			
F59A1.6	F59A1.6	F59A1.6 [Source:RefSeq_peptide;Acc:NP_507474]			
F59A1.t3	F59A1.t3				
F59A1.t4	F59A1.t4				
F59A1.13	F59A1.13	F59A1.13 [Source:RefSeq_peptide;Acc:NP_507475]	transport, 	integral to membrane, 	transporter activity, 
F59A1.t6	F59A1.t6				
F59A1.t5	F59A1.t5				
Y26G10.t1	Y26G10.t1				
Y26G10.1	Y26G10.1	Y26G10.1 [Source:RefSeq_peptide;Acc:NP_507476]			
Y26G10.t3	Y26G10.t3				
Y26G10.t2	Y26G10.t2				
srh-32	Y26G10.2	Serpentine Receptor, class H family member (srh-32) [Source:RefSeq_peptide;Acc:NP_507477]			
W06D12.6	W06D12.6	W06D12.6 [Source:RefSeq_peptide;Acc:NP_507478]			
srh-31	W06D12.7	Serpentine Receptor, class H family member (srh-31) [Source:RefSeq_peptide;Acc:NP_507479]			
twk-33	W06D12.5	TWiK family of potassium channels family member (twk-33) [Source:RefSeq_peptide;Acc:NP_507480]	potassium ion transport, 	membrane, 	potassium channel activity, 
str-77	W06D12.4	Seven TM Receptor family member (str-77) [Source:RefSeq_peptide;Acc:NP_507481]			
fat-5	W06D12.3	fat-5 encodes a delta-9 fatty acid desaturase that is predicted to be mitochondrial. when expressed heterologously in S. cerevisiae, FAT-5 rescues the fatty acid auxotrophy of the yeast delta-9 desaturase mutant ole1. [Source: WormBase]	long-chain fatty acid biosynthetic process, 		iron ion binding, oxidoreductase activity, 
twk-42	W06D12.2	TWiK family of potassium channels family member (twk-42) [Source:RefSeq_peptide;Acc:NP_507483]	potassium ion transport, 	membrane, 	potassium channel activity, 
W06D12.1	W06D12.1	W06D12.1 [Source:RefSeq_peptide;Acc:NP_507484]			
W06D12.t2	W06D12.t2				
W06D12.t1	W06D12.t1				
R12G8.t2	R12G8.t2				
R12G8.t1	R12G8.t1				
twk-36	R12G8.2	TWiK family of potassium channels family member (twk-36) [Source:RefSeq_peptide;Acc:NP_507485]	potassium ion transport, 	membrane, 	potassium channel activity, 
R12G8.1	R12G8.1	R12G8.1 [Source:RefSeq_peptide;Acc:NP_507486]	intracellular signaling cascade, 		
pgp-9	C47A10.1	pgp-9 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-9 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, and loss of pgp-9 activity via RNAi can result in embryonic lethality. pgp-9 promoter-gfp fusion proteins are expressed in the pharynx (first and second bulbs) and in the intestine. [Source: WormBase]	transport, proteolysis, embryonic development ending in birth or egg hatching, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, zinc ion binding, metallopeptidase activity, 
srh-283	C47A10.2	Serpentine Receptor, class H family member (srh-283) [Source:RefSeq_peptide;Acc:NP_507488]			
C47A10.t5	C47A10.t5				
srh-284	C47A10.3	Serpentine Receptor, class H family member (srh-284) [Source:RefSeq_peptide;Acc:NP_507489]			
sre-21	C47A10.4	C47A10.4 is orthologous to the human gene ALBINISM, OCULAR, TYPE I (OA1. OMIM:300500), which when mutated leads to Nettleship-Falls type ocular albinism. [Source: WormBase]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C47A10.5	C47A10.5	C47A10.5 encodes a D-aspartate oxidase (DASPO), paralogous to F18E3.7 and F20H11.5. recombinant C47A10.5 protein has DASPO acvitity on acidic D-amino acid substrates (e.g., D-aspartate, D-glutamate, or N-methyl-D-aspartate/NMDA), with highest catalytic efficiency on D-glutamate. since the C-terminal residues of C47A10.5 match the PTS1 consensus sequence, C47A10.5 is predicted to be peroxisomal. [Source: WormBase]	electron transport, potassium ion transport, 		oxidoreductase activity, cation transmembrane transporter activity, D-amino-acid oxidase activity, 
C47A10.12	C47A10.12	C47A10.12 [Source:RefSeq_peptide;Acc:NP_001023713]			
srab-12	C47A10.6	Serpentine Receptor, class AB (class A-like) family member (srab-12) [Source:RefSeq_peptide;Acc:NP_507492]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
C47A10.t1	C47A10.t1				
C47A10.t4	C47A10.t4				
C47A10.t3	C47A10.t3				
C47A10.t2	C47A10.t2				
srh-290	C47A10.11	Serpentine Receptor, class H family member (srh-290) [Source:RefSeq_peptide;Acc:NP_001023712]			
srh-289	C47A10.10	Serpentine Receptor, class H family member (srh-289) [Source:RefSeq_peptide;Acc:NP_001023711]			
srh-288	C47A10.7	Serpentine Receptor, class H family member (srh-288) [Source:RefSeq_peptide;Acc:NP_001023714]			
srx-18	C47A10.8	Serpentine Receptor, class X family member (srx-18) [Source:RefSeq_peptide;Acc:NP_507493]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srh-287	C47A10.9	Serpentine Receptor, class H family member (srh-287) [Source:RefSeq_peptide;Acc:NP_001023715]			
srh-292	Y94A7B.1	Serpentine Receptor, class H family member (srh-292) [Source:RefSeq_peptide;Acc:NP_507494]			
srh-291	Y94A7B.3	Serpentine Receptor, class H family member (srh-291) [Source:RefSeq_peptide;Acc:NP_507495]			
srh-296	Y94A7B.4	Serpentine Receptor, class H family member (srh-296) [Source:RefSeq_peptide;Acc:NP_507497]			
srh-298	Y94A7B.5	Serpentine Receptor, class H family member (srh-298) [Source:RefSeq_peptide;Acc:NP_507498]			
srh-300	Y94A7B.6	Serpentine Receptor, class H family member (srh-300) [Source:RefSeq_peptide;Acc:NP_507499]			
srh-301	Y94A7B.8	Serpentine Receptor, class H family member (srh-301) [Source:RefSeq_peptide;Acc:NP_507500]			
srh-304	Y94A7B.9	Serpentine Receptor, class H family member (srh-304) [Source:RefSeq_peptide;Acc:NP_507501]			
srh-303	Y94A7B.7	Serpentine Receptor, class H family member (srh-303) [Source:RefSeq_peptide;Acc:NP_507502]			
Y59A8A.6	Y59A8A.6				
Y59A8A.7	Y59A8A.7				
srh-302	Y59A8A.5				
srh-286	Y59A8A.4	Serpentine Receptor, class H family member (srh-286) [Source:RefSeq_peptide;Acc:NP_507505]			
Y59A8A.3	Y59A8A.3	Y59A8A.3 [Source:RefSeq_peptide;Acc:NP_507506]	homoiothermy, response to freezing, 		protein binding, ice binding, 
csn-1	Y59A8A.1	csn-1 encodes an ortholog of subunit 1 of the COP9 signalosome complex (CSN1), which in turn is a pan-eukaryotic multiprotein complex that positively regulates E3 ubiquitin ligases, physically interacts with SCF-type E3 ubiquitin ligases, and probably regulates protein degradation. in mass RNAi assays, csn-1 is required for embryonic viability, maintenance of the germline, and general health. [Source: WormBase]	biological_process, 		protein binding, 
Y59A8A.2	Y59A8A.2	Y59A8A.2 [Source:RefSeq_peptide;Acc:NP_507508]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
C06H5.6	C06H5.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9BH94]	transport, 	integral to membrane, 	transporter activity, 
C06H5.9	C06H5.9				
fbxa-156	C06H5.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-157	C06H5.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C06H5.7	C06H5.7	C06H5.7 [Source:RefSeq_peptide;Acc:NP_507511]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C06H5.8	C06H5.8	C06H5.8 [Source:RefSeq_peptide;Acc:NP_001041080]			
E01B7.2	E01B7.2	E01B7.2 [Source:RefSeq_peptide;Acc:NP_507512]			
E01B7.1	E01B7.1	E01B7.1 [Source:RefSeq_peptide;Acc:NP_507513]	positive regulation of growth rate, 		
Y59A8B.2	Y59A8B.2	Y59A8B.2 [Source:RefSeq_peptide;Acc:NP_507514]	ubiquitin-dependent protein catabolic process, positive regulation of growth rate, 		ubiquitin thiolesterase activity, 
Y59A8B.t1	Y59A8B.t1		positive regulation of growth rate, 		
Y59A8B.t2	Y59A8B.t2		positive regulation of growth rate, 		
Y59A8B.t3	Y59A8B.t3				
Y59A8B.t4	Y59A8B.t4		positive regulation of growth rate, 		
Y59A8B.t5	Y59A8B.t5		positive regulation of growth rate, 		
Y59A8B.t6	Y59A8B.t6		positive regulation of growth rate, 		
dpy-21	Y59A8B.1	dpy-21 encodes a novel, conserved protein with a proline-rich N terminus. dpy-21 affects RNA levels of X-linked dosage-compensated genes, body length in hermaphrodites, and fertility and male tail development in males. DPY-21 interacts in vivo with DPY-27 and SDC-3, members of the dosage compensation complex, and like members of the dosage compensation complex, is diffusely localized in nuclei of XX embryos containing <40 cells, but then specifically localizes to X chromosomes of XX embryos with >40 cells, remaining on the X throughout development. in XO embryos, DPY-21 is dispersed throughout the nucleus in multiple foci that are not coincident with the X chromosome. in hermaphrodites, localization of DPY-21 to the X chromosome requires activity of SDC-2, SDC-3, DPY-26, DPY-27, and DPY-28. DPY-21 is not, however, required reciprocally for the stability or localization of these other dosage compensation proteins. in addition, unlike SDC-3 and other members of the dosage compensation complex, DPY-21 is not recruited to the autosomal her-1 regulatory region, suggesting that DPY-21 is not part of the gene-specific complex that represses her-1 expression in hermaphrodites. [Source: WormBase]			
Y59A8B.24	Y59A8B.24	Y59A8B.24 [Source:RefSeq_peptide;Acc:NP_507516]			
gck-3	Y59A8B.23	Germinal Center Kinase family member (gck-3) [Source:RefSeq_peptide;Acc:NP_507517]	protein amino acid phosphorylation, homoiothermy, response to freezing, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, ice binding, 
Y59A8B.22	Y59A8B.22	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9NES0]	cell communication, 		protein binding, phosphoinositide binding, 
Y59A8B.21	Y59A8B.21	Y59A8B.21 [Source:RefSeq_peptide;Acc:NP_507519]	methylation, 		methyltransferase activity, nucleic acid binding, 
lon-8	Y59A8B.20	lon-8 encodes a secreted protein, conserved among nematodes, that inhibits body elongation during larval and early adult growth, probably by limiting cell size rather than nuclear ploidy or cell number. LON-8 is also required for normal ray morphology in the male tail, but not for superficially normal male mating, suggesting a role in cuticle retraction. LON-8 is strongly expressed in the hypodermal syncytia hyp4 and hyp7, and appears to be secreted from them in vivo. in males, LON-8 is also expressed in male tail hypodermal nuclei (V6.pppaa, T.aa, R6.p, T.apapa, R7.p, R8.p and R9.p). LON-8 has no obvious non-nematode homologs. LON-8 activity is genetically independent of DBL-1/TGF-beta signalling. newly hatched lon-8(hu187) larvae are normal in length, but then outgrow wild-type larvae at a rate similar to that of lon-1(e185) larvae until 96 hours post-hatching, after which lon-8(hu187) growth was normal. lon-8(hu187) mutants have normal levels of hypodermal endoreduplication and of seam cell fusion. lon-8(hu187) is suppressed by mutations of dpy-11 or dpy-18. conversely, lon-8(hu187) does not suppress dbl-1(nk3) or sma-6(e1482), and lon-8 transcripts are not affected by dbl-1(nk3) or sma-6(e1482) mutations. [Source: WormBase]	negative regulation of multicellular organism growth, 		
Y59A8B.19	Y59A8B.19	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9GRY4]	cell adhesion, type I hypersensitivity, 	membrane, 	receptor activity, 
Y59A8B.26	Y59A8B.26	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5PEY4]	cell adhesion, 		receptor activity, 
srh-133	Y59A8B.3	Serpentine Receptor, class H family member (srh-133) [Source:RefSeq_peptide;Acc:NP_507522]			
srh-134	Y59A8B.4	Serpentine Receptor, class H family member (srh-134) [Source:RefSeq_peptide;Acc:NP_507523]			
srh-307	Y59A8B.5				
Y59A8B.6	Y59A8B.6	Y59A8B.6 [Source:RefSeq_peptide;Acc:NP_507525]	RNA processing, nuclear mRNA splicing, via spliceosome, positive regulation of growth rate, 	intracellular, nucleus, 	
ebp-1	Y59A8B.7	microtubule End Binding Protein family member (ebp-1) [Source:RefSeq_peptide;Acc:NP_507526]	homoiothermy, response to freezing, 		protein binding, microtubule binding, ice binding, 
Y59A8B.25	Y59A8B.25	Y59A8B.25 [Source:RefSeq_peptide;Acc:NP_001041199]	intracellular protein transport, 		
tag-201	Y59A8B.9	Temporarily Assigned Gene name family member (tag-201) [Source:RefSeq_peptide;Acc:NP_507528]	translation, homoiothermy, response to freezing, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, microtubule binding, ice binding, 
Y59A8B.8	Y59A8B.8	Y59A8B.8 [Source:RefSeq_peptide;Acc:NP_507527]	intracellular protein transport, 	endoplasmic reticulum, Golgi apparatus, 	
Y59A8B.10	Y59A8B.10	Y59A8B.10 [Source:RefSeq_peptide;Acc:NP_507529]			RNA binding, protein binding, 
fbxa-106	Y59A8B.11	F-box A protein family member (fbxa-106) [Source:RefSeq_peptide;Acc:NP_507530]			
Y59A8B.12	Y59A8B.12	Y59A8B.12 [Source:RefSeq_peptide;Acc:NP_507531]			
Y59A8B.13	Y59A8B.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9GRY8]		intracellular, 	zinc ion binding, nucleic acid binding, 
par-4	Y59A8B.14	par-4 encodes a serine-threonine kinase that is homologous to the human LKB1 kinase, mutations in which are associated with the cancer predisposition Peutz-Jeghers syndrome. par-4 activity is required for several distinct development processes, including establishment of embryonic asymmetry, lifespan extension, and dauer larval development, particularly inhibition of germline proliferation during dauer formation. PAR-4 is present in embryos, L4 larvae, males, and adult hermaphrodites. in the hermaphrodite gonad, PAR-4 is present at the actin-rich boundaries between syncytial nuclei, while in early embryos PAR-4 is present in the cytoplasm and at the cellular cortex. [Source: WormBase]	protein amino acid phosphorylation, establishment of cell polarity, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y37H2A.1	Y37H2A.1	Y37H2A.1 [Source:RefSeq_peptide;Acc:NP_507534]			
fbxa-107	Y37H2A.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-210	Y37H2A.5	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-211	Y37H2A.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
Y37H2A.12	Y37H2A.12	Y37H2A.12 [Source:RefSeq_peptide;Acc:NP_001041191]			
Y37H2A.7	Y37H2A.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
NM_075139.2	Y37H2A.8	Y37H2A.8 (Y37H2A.8) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_075139]			
Y37H2A.9	Y37H2A.9	Y37H2A.9 [Source:RefSeq_peptide;Acc:NP_507541]			
Y37H2A.10	Y37H2A.10	Y37H2A.10 [Source:RefSeq_peptide;Acc:NP_507542]			
Y37H2A.11	Y37H2A.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9U2N2]			
Y37H2A.13	Y37H2A.13	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5PEY1]			
Y37H2A.14	Y37H2A.14	Y37H2A.11 [Source:RefSeq_peptide;Acc:NP_507543]			
C14A6.3	C14A6.3	C14A6.3 [Source:RefSeq_peptide;Acc:NP_507544]			
C14A6.2	C14A6.2	C14A6.2 [Source:RefSeq_peptide;Acc:NP_507545]	transport, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, 
C14A6.9	C14A6.9				
C14A6.10	C14A6.10				
C14A6.11	C14A6.11				
clec-48	C14A6.1	C-type LECtin family member (clec-48) [Source:RefSeq_peptide;Acc:NP_507547]			sugar binding, 
C14A6.5	C14A6.5	C14A6.5 [Source:RefSeq_peptide;Acc:NP_507548]			
C14A6.6	C14A6.6	C14A6.6 [Source:RefSeq_peptide;Acc:NP_507549]			
C14A6.7	C14A6.7	C14A6.7 [Source:RefSeq_peptide;Acc:NP_507550]			
C14A6.8	C14A6.8	C14A6.8 [Source:RefSeq_peptide;Acc:NP_507551]			
C31G12.4	C31G12.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O17632]			
C31G12.1	C31G12.1	C31G12.1 [Source:RefSeq_peptide;Acc:NP_507553]			
C31G12.3	C31G12.3	C31G12.3 [Source:RefSeq_peptide;Acc:NP_507554]			
C31G12.2	C31G12.2	C31G12.2 [Source:RefSeq_peptide;Acc:NP_507555]			sugar binding, 
F16H6.2	F16H6.2	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XTD4]			sugar binding, 
clec-42	F16H6.1	C-type LECtin family member (clec-42) [Source:RefSeq_peptide;Acc:NP_507557]			sugar binding, 
F16H6.3	F16H6.3	F16H6.3 [Source:RefSeq_peptide;Acc:NP_507558]			
F16H6.4	F16H6.4	F16H6.4 [Source:RefSeq_peptide;Acc:NP_507559]			
F16H6.5	F16H6.5	F16H6.5 [Source:RefSeq_peptide;Acc:NP_507560]			
F16H6.6	F16H6.6	F16H6.6 [Source:RefSeq_peptide;Acc:NP_507561]			
F16H6.7	F16H6.7	F16H6.7 [Source:RefSeq_peptide;Acc:NP_507562]			
F16H6.8	F16H6.8	F16H6.8 [Source:RefSeq_peptide;Acc:NP_507563]			
F16H6.9	F16H6.9	F16H6.9 [Source:RefSeq_peptide;Acc:NP_507564]			
F16H6.10	F16H6.10	F16H6.10 [Source:RefSeq_peptide;Acc:NP_507565]			
Y37H2B.1	Y37H2B.1	Y37H2B.1 [Source:RefSeq_peptide;Acc:NP_507566]			
R10E8.7	R10E8.7				
R10E8.3	R10E8.3	R10E8.3 [Source:RefSeq_peptide;Acc:NP_507567]			
R10E8.8	R10E8.8	R10E8.8 [Source:RefSeq_peptide;Acc:NP_872158]			
R10E8.1	R10E8.1	R10E8.1 [Source:RefSeq_peptide;Acc:NP_507568]			
R10E8.4	R10E8.4	R10E8.4 [Source:RefSeq_peptide;Acc:NP_507569]			
R10E8.2	R10E8.2	R10E8.2 [Source:RefSeq_peptide;Acc:NP_507570]			protein binding, 
R10E8.5	R10E8.5	R10E8.5 [Source:RefSeq_peptide;Acc:NP_507571]			
R10E8.6	R10E8.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-213	Y37H2C.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
skr-6	Y37H2C.2	The skr-6 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-6(RNAi) animals are at least superficially normal. [Source: WormBase]			
Y37H2C.4	Y37H2C.4	Y37H2C.4 [Source:RefSeq_peptide;Acc:NP_507575]			
Y37H2C.1	Y37H2C.1	Y37H2C.1 [Source:RefSeq_peptide;Acc:NP_507576]			
Y51A2A.1	Y51A2A.1	Y51A2A.1 [Source:RefSeq_peptide;Acc:NP_507577]			sugar binding, 
Y51A2A.2	Y51A2A.2				
Y51A2A.3	Y51A2A.3				
Y51A2A.4	Y51A2A.4	Y51A2A.4 [Source:RefSeq_peptide;Acc:NP_507580]	embryonic development ending in birth or egg hatching, 		
Y51A2A.11	Y51A2A.11	Y51A2A.11 [Source:RefSeq_peptide;Acc:NP_001024256]			sugar binding, 
Y51A2A.5	Y51A2A.5	Y51A2A.5 [Source:RefSeq_peptide;Acc:NP_507581]			
Y51A2A.6	Y51A2A.6	Y51A2A.6 [Source:RefSeq_peptide;Acc:NP_507582]			
Y51A2A.7	Y51A2A.7	Y51A2A.7 [Source:RefSeq_peptide;Acc:NP_507583]			sugar binding, 
fbxa-109	Y51A2A.8				
fbxa-117	Y51A2A.9	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxb-119	B0462.3	F-box B protein family member (fbxb-119) [Source:RefSeq_peptide;Acc:NP_507586]	embryonic development ending in birth or egg hatching, 		
sri-68	B0462.2				
B0462.1	B0462.1	B0462.1 [Source:RefSeq_peptide;Acc:NP_507588]			
B0462.4	B0462.4	B0462.4 [Source:RefSeq_peptide;Acc:NP_001021352]			
C08E8.7	C08E8.7				
C08E8.3	C08E8.3	C08E8.3 [Source:RefSeq_peptide;Acc:NP_507589]			
C08E8.2	C08E8.2		biosynthetic process, 		strictosidine synthase activity, 
C08E8.8	C08E8.8				
C08E8.5	C08E8.5	C08E8.5 [Source:RefSeq_peptide;Acc:NP_001023636]			
C08E8.1	C08E8.1	C08E8.1 [Source:RefSeq_peptide;Acc:NP_507591]			
C08E8.t1	C08E8.t1				
C08E8.6	C08E8.6	C08E8.6 [Source:RefSeq_peptide;Acc:NP_001023637]			
C08E8.t2	C08E8.t2				
C08E8.4	C08E8.4	C08E8.4 [Source:RefSeq_peptide;Acc:NP_507592]			
C08E8.t3	C08E8.t3				
Y51A2B.1	Y51A2B.1	Y51A2B.1 [Source:RefSeq_peptide;Acc:NP_507593]	metabolic process, 		oxidoreductase activity, 
Y51A2B.t2	Y51A2B.t2				
Y51A2B.t1	Y51A2B.t1				
Y51A2B.2	Y51A2B.2	Y51A2B.2 [Source:RefSeq_peptide;Acc:NP_507594]			
Y51A2B.8	Y51A2B.8	Y51A2B.8 [Source:RefSeq_peptide;Acc:NP_001024258]			
nhr-288	Y51A2B.3		regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
Y51A2B.4	Y51A2B.4	Y51A2B.4 [Source:RefSeq_peptide;Acc:NP_507596]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
Y51A2B.5	Y51A2B.5	Y51A2B.5 [Source:RefSeq_peptide;Acc:NP_507597]			
Y51A2B.6	Y51A2B.6	Y51A2B.6 [Source:RefSeq_peptide;Acc:NP_001024257]			
srw-81	Y51A2B.7				
srh-209	ZK262.11	Serpentine Receptor, class H family member (srh-209) [Source:RefSeq_peptide;Acc:NP_507600]			
ZK262.12	ZK262.12				
srh-207	ZK262.1	Serpentine Receptor, class H family member (srh-207) [Source:RefSeq_peptide;Acc:NP_507601]			
ZK262.2	ZK262.2	ZK262.2 [Source:RefSeq_peptide;Acc:NP_507602]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
ZK262.t1	ZK262.t1				
ZK262.3	ZK262.3	Lipase ZK262.3 precursor (EC 3.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q9XTR8]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
srh-198	ZK262.13				
srj-26	ZK262.10	Serpentine Receptor, class J family member (srj-26) [Source:RefSeq_peptide;Acc:NP_507604]			
ZK262.4	ZK262.4	ZK262.4 [Source:RefSeq_peptide;Acc:NP_507605]			
srw-83	ZK262.6	Serpentine Receptor, class W family member (srw-83) [Source:RefSeq_peptide;Acc:NP_507606]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srw-82	ZK262.7	Serpentine Receptor, class W family member (srw-82) [Source:RefSeq_peptide;Acc:NP_507608]			
ZK262.8	ZK262.8	ZK262.8 [Source:RefSeq_peptide;Acc:NP_507609]	morphogenesis of an epithelium, 		
ZK262.9	ZK262.9	ZK262.9 [Source:RefSeq_peptide;Acc:NP_507610]			
ZK228.1	ZK228.1	ZK228.1 [Source:RefSeq_peptide;Acc:NP_507612]			
ZK228.10	ZK228.10	ZK228.10 [Source:RefSeq_peptide;Acc:NP_001024307]			
ZK228.3	ZK228.3	ZK228.3 [Source:RefSeq_peptide;Acc:NP_507614]			
ZK228.t1	ZK228.t1				
ZK228.4	ZK228.4	ZK228.4 [Source:RefSeq_peptide;Acc:NP_507615]	metabolic process, 		N-acetyltransferase activity, 
srh-182	ZK228.5	Serpentine Receptor, class H family member (srh-182) [Source:RefSeq_peptide;Acc:NP_507616]			
srh-181	ZK228.6	Serpentine Receptor, class H family member (srh-181) [Source:RefSeq_peptide;Acc:NP_507617]			
srh-179	ZK228.7	Serpentine Receptor, class H family member (srh-179) [Source:RefSeq_peptide;Acc:NP_507618]			
srh-178	ZK228.8	Serpentine Receptor, class H family member (srh-178) [Source:RefSeq_peptide;Acc:NP_507619]			
Y51A2D.18	Y51A2D.18	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XXQ4]	transport, dicarboxylic acid transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, sugar:hydrogen ion symporter activity, 
slo-1	Y51A2D.19	slo-1 mutants have wild-type levels of motor activity, but have less smooth movement and tend to stop and reverse direction. [Source: WormBase]	ion transport, potassium ion transport, locomotion, mitotic cell cycle, 	membrane, voltage-gated potassium channel complex, cellular_component, 	ion channel activity, voltage-gated potassium channel activity, calcium-activated potassium channel activity, 
Y51A2D.1	Y51A2D.1	Y51A2D.1 [Source:RefSeq_peptide;Acc:NP_507622]	proteolysis, 		cysteine-type peptidase activity, 
hmit-1.1	Y51A2D.4	hmit-1.1 encodes one of three C. elegans proton (H+)-dependent myo-inositol transporters. loss of hmit-1.1 activity via large-scale RNAi result in no obvious abnormalities but by homology, HMIT-1.1 is predicted to function as a plasma membrane protein required for the regulated uptake of myo-inositol and thus potentially for regulation of cell signaling and intracellular osmolarity. [Source: WormBase]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
hmit-1.2	Y51A2D.5	hmit-1.2 encodes one of three C. elegans proton (H+)-dependent myo-inositol transporters. loss of hmit-1.2 activity via large-scale RNAi result in no obvious abnormalities but by homology, HMIT-1.2 is predicted to function as a plasma membrane protein required for the regulated uptake of myo-inositol and thus potentially for regulation of cell signaling and intracellular osmolarity. [Source: WormBase]	transport, carbohydrate transport, protein homooligomerization, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
Y51A2D.7	Y51A2D.7	Y51A2D.7a [Source:RefSeq_peptide;Acc:NP_507626]	embryonic development ending in birth or egg hatching, 		
Y51A2D.8	Y51A2D.8	Y51A2D.8 [Source:RefSeq_peptide;Acc:NP_507627]	proteolysis, 		cysteine-type peptidase activity, 
Y51A2D.9	Y51A2D.9	Y51A2D.9 [Source:RefSeq_peptide;Acc:NP_507628]			
Y51A2D.10	Y51A2D.10	Y51A2D.10 [Source:RefSeq_peptide;Acc:NP_507629]			
Y51A2D.11	Y51A2D.11	Y51A2D.11 [Source:RefSeq_peptide;Acc:NP_507630]			
srg-34	Y51A2D.12	Serpentine Receptor, class G (gamma) family member (srg-34) [Source:RefSeq_peptide;Acc:NP_507631]	signal transduction, 	membrane, 	transmembrane receptor activity, 
Y51A2D.21	Y51A2D.21	Y51A2D.21 [Source:RefSeq_peptide;Acc:NP_001024262]			
Y51A2D.13	Y51A2D.13	Y51A2D.13b [Source:RefSeq_peptide;Acc:NP_872145]	metabolic process, 		catalytic activity, 
Y51A2D.14	Y51A2D.14	Y51A2D.14 [Source:RefSeq_peptide;Acc:NP_507633]			
Y51A2D.15	Y51A2D.15	Y51A2D.15 [Source:RefSeq_peptide;Acc:NP_507634]	morphogenesis of an epithelium, 		
Y51A2D.20	Y51A2D.20	Y51A2D.20 [Source:RefSeq_peptide;Acc:NP_872206]			
nhr-70	Y51A2D.17	Nuclear Hormone Receptor family member (nhr-70) [Source:RefSeq_peptide;Acc:NP_507636]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y69H2.1	Y69H2.1	Y69H2.1 [Source:RefSeq_peptide;Acc:NP_507637]			
Y69H2.t1	Y69H2.t1				
Y69H2.2	Y69H2.2	Y69H2.2 [Source:RefSeq_peptide;Acc:NP_507638]	sodium ion transport, 	membrane, 	calcium ion binding, sodium channel activity, 
Y69H2.14	Y69H2.14	Y69H2.14 [Source:RefSeq_peptide;Acc:NP_872207]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
Y69H2.11	Y69H2.11	Y69H2.11 [Source:RefSeq_peptide;Acc:NP_507639]	sodium ion transport, 	membrane, 	calcium ion binding, sodium channel activity, 
tag-336	Y69H2.12	Temporarily Assigned Gene name family member (tag-336) [Source:RefSeq_peptide;Acc:NP_507640]			calcium ion binding, 
Y69H2.13	Y69H2.13	Y69H2.13 [Source:RefSeq_peptide;Acc:NP_507641]	sodium ion transport, 	membrane, 	sodium channel activity, 
Y69H2.3	Y69H2.3	Y69H2.3b [Source:RefSeq_peptide;Acc:NP_507644]			protein binding, 
Y69H2.10	Y69H2.10	Y69H2.10b [Source:RefSeq_peptide;Acc:NP_001024280]			protein binding, 
ubc-19	Y69H2.6	ubc-19 encodes a predicted conjgating enzyme (UBCs/E2s) of the ubiquitin-conjugation system with a potentially low effect on embryonic viability, based on RNAi analysis. [Source: WormBase]	protein modification process, ubiquitin cycle, biological_process, 		small conjugating protein ligase activity, 
Y69H2.7	Y69H2.7				
nhr-241	Y69H2.8	Nuclear Hormone Receptor family member (nhr-241) [Source:RefSeq_peptide;Acc:NP_507649]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y69H2.9	Y69H2.9	Y69H2.9 [Source:RefSeq_peptide;Acc:NP_507650]			
Y17D7C.1	Y17D7C.1	Y17D7C.1 [Source:RefSeq_peptide;Acc:NP_507651]			
Y17D7C.2	Y17D7C.2	Y17D7C.2 [Source:RefSeq_peptide;Acc:NP_507652]			
Y17D7C.3	Y17D7C.3				
ZK384.3	ZK384.3	ZK384.3 [Source:RefSeq_peptide;Acc:NP_507653]	proteolysis, translation, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, pepsin A activity, aspartic-type endopeptidase activity, aminoacyl-tRNA ligase activity, 
ZK384.1	ZK384.1	ZK384.1 [Source:RefSeq_peptide;Acc:NP_507654]		extracellular region, 	
ZK384.2	ZK384.2	ZK384.2 [Source:RefSeq_peptide;Acc:NP_507655]		extracellular region, 	
ZK384.4	ZK384.4				
F11D11.14	F11D11.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL3]			sugar binding, 
F11D11.13	F11D11.13				
F11D11.8	F11D11.8	F11D11.8 [Source:RefSeq_peptide;Acc:NP_507658]			
F11D11.7	F11D11.7	F11D11.7 [Source:RefSeq_peptide;Acc:NP_507659]			
F11D11.12	F11D11.12	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL4]			
F11D11.11	F11D11.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVL2]			sugar binding, 
F11D11.6	F11D11.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O62155]			sugar binding, 
F11D11.5	F11D11.5	F11D11.5 [Source:RefSeq_peptide;Acc:NP_507661]			sugar binding, 
F11D11.3	F11D11.3	F11D11.3 [Source:RefSeq_peptide;Acc:NP_507662]			
F11D11.4	F11D11.4	F11D11.4 [Source:RefSeq_peptide;Acc:NP_507663]			
F11D11.1	F11D11.1	F11D11.1 [Source:RefSeq_peptide;Acc:NP_507665]			sugar binding, 
Y17D7B.6	Y17D7B.6	Y17D7B.6 [Source:RefSeq_peptide;Acc:NP_507666]			sugar binding, 
Y17D7B.8	Y17D7B.8	Y17D7B.8 [Source:RefSeq_peptide;Acc:NP_001041188]			sugar binding, 
Y17D7B.5	Y17D7B.5	Y17D7B.5 [Source:RefSeq_peptide;Acc:NP_507667]			
Y17D7B.4	Y17D7B.4	Y17D7B.4 [Source:RefSeq_peptide;Acc:NP_507668]			
Y17D7B.7	Y17D7B.7				
Y17D7B.3	Y17D7B.3	Y17D7B.3 [Source:RefSeq_peptide;Acc:NP_507670]			
Y17D7B.2	Y17D7B.2	Y17D7B.2 [Source:RefSeq_peptide;Acc:NP_507671]			
nhr-231	Y17D7B.1	Nuclear Hormone Receptor family member (nhr-231) [Source:RefSeq_peptide;Acc:NP_507672]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-170	C54E10.5	Nuclear Hormone Receptor family member (nhr-170) [Source:RefSeq_peptide;Acc:NP_507673]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C54E10.t7	C54E10.t7				
sri-10	C54E10.4	Serpentine Receptor, class I family member (sri-10) [Source:RefSeq_peptide;Acc:NP_507674]			
C54E10.t6	C54E10.t6				
C54E10.t5	C54E10.t5				
C54E10.6	C54E10.6	C54E10.6 [Source:RefSeq_peptide;Acc:NP_507675]			
C54E10.3	C54E10.3	C54E10.3 [Source:RefSeq_peptide;Acc:NP_507676]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C54E10.1	C54E10.1	C54E10.1 [Source:RefSeq_peptide;Acc:NP_507677]			structural molecule activity, 
C54E10.t1	C54E10.t1				
C54E10.t2	C54E10.t2				
C54E10.2	C54E10.2	C54E10.2 [Source:RefSeq_peptide;Acc:NP_507678]			protein binding, calcium ion binding, 
C54E10.t4	C54E10.t4				
C54E10.t3	C54E10.t3				
cyp-33D3	Y17D7A.4	CYtochrome P450 family member (cyp-33D3) [Source:RefSeq_peptide;Acc:NP_507679]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen, 
nhr-65	Y17D7A.3	nhr-65 encodes a protein with similarity to members of the nuclear hormone receptor superfamily. although nhr-65 is not predicted to encode a complete DNA-binding domain, it is expressed, based on mRNA analysis cgc3416. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-230	Y17D7A.1	Nuclear Hormone Receptor family member (nhr-230) [Source:RefSeq_peptide;Acc:NP_507681]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
wrs-1	Y80D3A.1	wrs-1 encodes a predicted tryptophanyl-tRNA synthetase that affects fertility, embryonic viability, growth, and locomotion [Source: WormBase]	translation, tRNA aminoacylation for protein translation, tryptophanyl-tRNA aminoacylation, positive regulation of growth rate, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, tryptophan-tRNA ligase activity, 
emb-4	Y80D3A.2	emb-4 (also known as mal-2 or sel-6) encodes a nuclear protein orthologous to human AQR/IBP160, an intron-binding spliceosomal 'Aquarius' protein with a helicase-like domain. EMB-4 is required for the loss of PIE-1 and H3meK4 histones from the germline at its Z2/Z3 stage, and thus for the condensation of germline chromatin in Z2/Z3. EMB-4 is also required for normal embryonic and postembryonic development, and promotes LIN-12 activity. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		DNA binding, 
dlx-1	Y80D3A.3	DistalLess homeoboX protein family member (dlx-1) [Source:RefSeq_peptide;Acc:NP_507685]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
nhr-243	Y80D3A.4	Nuclear Hormone Receptor family member (nhr-243) [Source:RefSeq_peptide;Acc:NP_507686]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nlp-42	Y80D3A.10	Neuropeptide-Like Protein family member (nlp-42) [Source:RefSeq_peptide;Acc:NP_507687]			
Y80D3A.t1	Y80D3A.t1				
cyp-42A1	Y80D3A.5	CYtochrome P450 family member (cyp-42A1) [Source:RefSeq_peptide;Acc:NP_507688]	electron transport, locomotory behavior, 		iron ion binding, monooxygenase activity, heme binding, 
ptr-22	Y80D3A.7	ptr-22 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-22 is weakly required for normal molting from L4 to adult stages. PTR-22 is also required for normal growth to full size and locomotion. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
Y80D3A.11	Y80D3A.11	Y80D3A.11 [Source:RefSeq_peptide;Acc:NP_001024292]	positive regulation of growth rate, 		
Y80D3A.8	Y80D3A.8	Y80D3A.8 [Source:RefSeq_peptide;Acc:NP_507691]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y80D3A.9	Y80D3A.9	Y80D3A.9 [Source:RefSeq_peptide;Acc:NP_507692]			
Y39B6A.46	Y39B6A.46	Y39B6A.46 [Source:RefSeq_peptide;Acc:NP_741651]		intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
Y39B6A.43	Y39B6A.43	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q8MYM3]			
Y39B6A.42	Y39B6A.42	Y39B6A.42 [Source:RefSeq_peptide;Acc:NP_507695]			
Y39B6A.41	Y39B6A.41	Y39B6A.41 [Source:RefSeq_peptide;Acc:NP_741656]	transport, 	membrane, integral to membrane, 	transporter activity, 
Y39B6A.40	Y39B6A.40	Y39B6A.40 [Source:RefSeq_peptide;Acc:NP_741657]			zinc ion binding, 
Y39B6A.39	Y39B6A.39	Y39B6A.39 [Source:RefSeq_peptide;Acc:NP_741658]	reproduction, 		
reps-1	Y39B6A.38	REPS (RalBP1-associated Eps domain-containing protein) homolog family member (reps-1) [Source:RefSeq_peptide;Acc:NP_741659]			calcium ion binding, 
Y39B6A.37	Y39B6A.37	Y39B6A.37 [Source:RefSeq_peptide;Acc:NP_741660]			protein binding, 
Y39B6A.36	Y39B6A.36	Y39B6A.36 [Source:RefSeq_peptide;Acc:NP_741661]	transcription initiation from RNA polymerase II promoter, positive regulation of growth rate, 	transcription factor TFIIF complex, 	ATP binding, RNA polymerase II transcription factor activity, 
tgt-2	Y39B6A.35	TRNA Guanine Transglycosylase family member (tgt-2) [Source:RefSeq_peptide;Acc:NP_741662]	queuosine biosynthetic process, tRNA modification, 		queuine tRNA-ribosyltransferase activity, 
Y39B6A.34	Y39B6A.34	Y39B6A.34 [Source:RefSeq_peptide;Acc:NP_741663]			
Y39B6A.33	Y39B6A.33	Uncharacterized protein Y39B6A.33. [Source:Uniprot/SWISSPROT;Acc:Q9NEU5]	positive regulation of growth rate, 		
Y39B6A.32	Y39B6A.32	Y39B6A.32 [Source:RefSeq_peptide;Acc:NP_741665]			
Y39B6A.31	Y39B6A.31	Y39B6A.31 [Source:RefSeq_peptide;Acc:NP_741666]			
Y39B6A.30	Y39B6A.30		protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y39B6A.29	Y39B6A.29	Y39B6A.29 [Source:RefSeq_peptide;Acc:NP_741668]			
Y39B6A.25	Y39B6A.25	Y39B6A.25 [Source:RefSeq_peptide;Acc:NP_741669]			nucleic acid binding, 
Y39B6A.27	Y39B6A.27	Y39B6A.27 [Source:RefSeq_peptide;Acc:NP_741671]			
Y39B6A.24	Y39B6A.24	Y39B6A.24 [Source:RefSeq_peptide;Acc:NP_741673]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
Y39B6A.23	Y39B6A.23	Y39B6A.23 [Source:RefSeq_peptide;Acc:NP_741674]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
Y39B6A.22	Y39B6A.22	Y39B6A.22 [Source:RefSeq_peptide;Acc:NP_741675]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
Y39B6A.21	Y39B6A.21				
asp-1	Y39B6A.20	asp-1 encodes a homolog of cathepsin D aspartic protease. it is transcribed exclusively in intestinal cells of the late embryo and early larvae and is not observed in older larvae or adults. ASP-1 is dispensable for neuronal degeneration. [Source: WormBase]	proteolysis, cell death, 		pepsin A activity, aspartic-type endopeptidase activity, 
Y39B6A.t1	Y39B6A.t1				
Y39B6A.t2	Y39B6A.t2				
Y39B6A.t3	Y39B6A.t3				
Y39B6A.t4	Y39B6A.t4				
Y39B6A.t5	Y39B6A.t5				
twk-46	Y39B6A.19	TWiK family of potassium channels family member (twk-46) [Source:RefSeq_peptide;Acc:NP_741678]	potassium ion transport, 	membrane, integral to membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
Y39B6A.t6	Y39B6A.t6				
Y39B6A.18	Y39B6A.18	Y39B6A.18 [Source:RefSeq_peptide;Acc:NP_741679]	intracellular signaling cascade, protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
nhr-95	Y39B6A.17	nhr-95 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
Y39B6A.t7	Y39B6A.t7				
Y39B6A.t8	Y39B6A.t8				
nhr-145	Y39B6A.47	Nuclear Hormone Receptor family member (nhr-145) [Source:RefSeq_peptide;Acc:NP_741681]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y39B6A.16	Y39B6A.16	Y39B6A.16 [Source:RefSeq_peptide;Acc:NP_741682]	vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, 
pro-3	Y39B6A.14	Protein SDA1 homolog (Proximal proliferation in germline protein 3). [Source:Uniprot/SWISSPROT;Acc:Q9NEU2]	ribosome biogenesis and assembly, positive regulation of growth rate, 	nucleolus, 	
Y39B6A.13	Y39B6A.13	Y39B6A.13 [Source:RefSeq_peptide;Acc:NP_741685]	embryonic development ending in birth or egg hatching, 		
Y39B6A.12	Y39B6A.12	Y39B6A.12a [Source:RefSeq_peptide;Acc:NP_001024227]	reproduction, 		protein binding, DNA binding, 
Y39B6A.t9	Y39B6A.t9				
Y39B6A.11	Y39B6A.11	Y39B6A.11 [Source:RefSeq_peptide;Acc:NP_741687]			protein binding, 
Y39B6A.10	Y39B6A.10	Y39B6A.10 [Source:RefSeq_peptide;Acc:NP_741688]			
Y39B6A.9	Y39B6A.9	Y39B6A.9 [Source:RefSeq_peptide;Acc:NP_741689]			
Y39B6A.8	Y39B6A.8	Y39B6A.8 [Source:RefSeq_peptide;Acc:NP_741690]			serine-type endopeptidase inhibitor activity, 
Y39B6A.t10	Y39B6A.t10				
Y39B6A.7	Y39B6A.7	Y39B6A.7 [Source:RefSeq_peptide;Acc:NP_741691]			hydrolase activity, 
tsp-13	Y39B6A.6	TetraSPanin family member (tsp-13) [Source:RefSeq_peptide;Acc:NP_741692]	metal ion transport, visual perception, 	integral to membrane, 	metal ion binding, 
Y39B6A.5	Y39B6A.5	Y39B6A.5 [Source:RefSeq_peptide;Acc:NP_741693]			
Y39B6A.4	Y39B6A.4	Y39B6A.4 [Source:RefSeq_peptide;Acc:NP_741694]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, steroid hormone receptor activity, 
hot-2	Y39B6A.48	hot-2 encodes a predicted paralog of ODR-2 and contains a Ly-6 domain. [Source: WormBase]			
Y39B6A.3	Y39B6A.3	Y39B6A.3 [Source:RefSeq_peptide;Acc:NP_741696]			
pph-5	Y39B6A.2	Protein PHosphatase family member (pph-5) [Source:RefSeq_peptide;Acc:NP_741697]			hydrolase activity, 
Y39B6A.1	Y39B6A.1	Y39B6A.1 [Source:RefSeq_peptide;Acc:NP_741698]			protein binding, structural molecule activity, 
nhr-79	T26H2.9	Nuclear hormone receptor family member nhr-79. [Source:Uniprot/SWISSPROT;Acc:O18141]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srr-2	T26H2.8	Serpentine Receptor, class R family member (srr-2) [Source:RefSeq_peptide;Acc:NP_507735]		membrane, 	GABA-B receptor activity, 
T26H2.7	T26H2.7	T26H2.7 [Source:RefSeq_peptide;Acc:NP_507736]			transferase activity, transferring groups other than amino-acyl groups, 
T26H2.10	T26H2.10	T26H2.10 [Source:RefSeq_peptide;Acc:NP_001076748]			
str-81	T26H2.6	Seven TM Receptor family member (str-81) [Source:RefSeq_peptide;Acc:NP_507737]	embryonic development ending in birth or egg hatching, 		
T26H2.5	T26H2.5	T26H2.5 [Source:RefSeq_peptide;Acc:NP_507738]			zinc ion binding, 
fbxb-116	T26H2.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-2	T26H2.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
fbxb-115	T26H2.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]	multicellular organismal development, 		signal transducer activity, 
fbxb-1	T26H2.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
F21D9.6	F21D9.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F21D9.5	F21D9.5	F21D9.5 [Source:RefSeq_peptide;Acc:NP_507744]	translation, 		ATP binding, aminoacyl-tRNA ligase activity, 
F21D9.4	F21D9.4	F21D9.4 [Source:RefSeq_peptide;Acc:NP_507745]			
F21D9.3	F21D9.3	F21D9.3 [Source:RefSeq_peptide;Acc:NP_507746]			
F21D9.2	F21D9.2	F21D9.2 [Source:RefSeq_peptide;Acc:NP_507747]	reproduction, 		
F21D9.1	F21D9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F21D9.7	F21D9.7				
F21D9.8	F21D9.8	F21D9.8 [Source:RefSeq_peptide;Acc:NP_507749]			
fbxb-117	F55C9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F55C9.3	F55C9.3	F55C9.3 [Source:RefSeq_peptide;Acc:NP_507752]			
fbxb-57	F55C9.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F55C9.5	F55C9.5	F55C9.5 [Source:RefSeq_peptide;Acc:NP_507754]			
F55C9.12	F55C9.12	F55C9.12 [Source:RefSeq_peptide;Acc:NP_001023983]			
F55C9.6	F55C9.6	F55C9.6 [Source:RefSeq_peptide;Acc:NP_507755]			
fbxb-60	F55C9.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-62	F55C9.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-63	F55C9.13	F-box B protein family member (fbxb-63) [Source:RefSeq_peptide;Acc:NP_001023984]			
fbxb-61	F55C9.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F55C9.11	F55C9.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			protein binding, 
C43D7.8	C43D7.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
fbxb-64	C43D7.9	F-box B protein family member (fbxb-64) [Source:RefSeq_peptide;Acc:NP_001023705]			
srh-208	C43D7.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C43D7.7	C43D7.7	C43D7.7 [Source:RefSeq_peptide;Acc:NP_507763]			
sdz-6	C43D7.5	SKN-1 Dependent Zygotic transcript family member (sdz-6) [Source:RefSeq_peptide;Acc:NP_507764]			
C43D7.4	C43D7.4	C43D7.4 [Source:RefSeq_peptide;Acc:NP_507765]			
C43D7.3	C43D7.3				
C43D7.1	C43D7.1				
fbxb-65	C43D7.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C14B4.2	C14B4.2	C14B4.2 [Source:RefSeq_peptide;Acc:NP_507767]			
C14B4.t1	C14B4.t1				
Y43F8A.1	Y43F8A.1	Y43F8A.1 [Source:RefSeq_peptide;Acc:NP_507769]			
Y43F8A.2	Y43F8A.2	Y43F8A.2 [Source:RefSeq_peptide;Acc:NP_507770]			
Y43F8A.3	Y43F8A.3	Y43F8A.3 [Source:RefSeq_peptide;Acc:NP_507771]	metabolic process, 		hydrolase activity, 
srw-84	Y43F8A.4	Serpentine Receptor, class W family member (srw-84) [Source:RefSeq_peptide;Acc:NP_507772]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y43F8A.5	Y43F8A.5	Y43F8A.5 [Source:RefSeq_peptide;Acc:NP_507773]			
Y43F8A.t1	Y43F8A.t1				
C25F9.t3	C25F9.t3				
C25F9.8	C25F9.8	C25F9.8 [Source:RefSeq_peptide;Acc:NP_507774]			
C25F9.t2	C25F9.t2				
C25F9.t1	C25F9.t1				
C25F9.13	C25F9.13	Serpentine Receptor, class W family member (srw-86) [Source:RefSeq_peptide;Acc:NP_507775]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C25F9.t4	C25F9.t4				
srw-86	C25F9.7	Putative uncharacterized protein srw-86. [Source:Uniprot/SPTREMBL;Acc:O62076]			rhodopsin-like receptor activity, 
C25F9.12	C25F9.12	C25F9.6 (C25F9.6) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_075375]			
C25F9.6	C25F9.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O62075]			
C25F9.10	C25F9.10	C25F9.10 [Source:RefSeq_peptide;Acc:NP_001023679]			
C25F9.5	C25F9.5	C25F9.5 [Source:RefSeq_peptide;Acc:NP_507777]			ATP binding, DNA binding, 
C25F9.4	C25F9.4	C25F9.4 [Source:RefSeq_peptide;Acc:NP_507778]			
C25F9.9	C25F9.9	C25F9.9 [Source:RefSeq_peptide;Acc:NP_507779]			
C25F9.2	C25F9.2	C25F9.2 [Source:RefSeq_peptide;Acc:NP_507780]	DNA replication, nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		nucleotide binding, DNA binding, nucleic acid binding, 3'-5' exonuclease activity, DNA-directed DNA polymerase activity, 
srw-85	C25F9.1	Serpentine Receptor, class W family member (srw-85) [Source:RefSeq_peptide;Acc:NP_507781]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C25F9.t5	C25F9.t5				
C25F9.11	C25F9.11	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYW3]			
C25F9.14	C25F9.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5Z2V6]			
M04C3.1	M04C3.1	M04C3.1b [Source:RefSeq_peptide;Acc:NP_872172]			ATP binding, DNA binding, 
M04C3.3	M04C3.3	M04C3.3 [Source:RefSeq_peptide;Acc:NP_507783]			
M04C3.2	M04C3.2	M04C3.2 [Source:RefSeq_peptide;Acc:NP_507784]			
Y43F8B.14	Y43F8B.14	Y43F8B.14 [Source:RefSeq_peptide;Acc:NP_507785]			
Y43F8B.13	Y43F8B.13	Y43F8B.13 [Source:RefSeq_peptide;Acc:NP_507786]			
Y43F8B.15	Y43F8B.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5PEX3]			
Y43F8B.12	Y43F8B.12	Y43F8B.12 [Source:RefSeq_peptide;Acc:NP_507787]			
Y43F8B.11	Y43F8B.11	Y43F8B.11 [Source:RefSeq_peptide;Acc:NP_507788]			
Y43F8B.10	Y43F8B.10	Y43F8B.10 [Source:RefSeq_peptide;Acc:NP_507789]			
Y43F8B.9	Y43F8B.9	Y43F8B.9 [Source:RefSeq_peptide;Acc:NP_507790]			
Y43F8B.8	Y43F8B.8				
Y43F8B.7	Y43F8B.7	Y43F8B.7 [Source:RefSeq_peptide;Acc:NP_507791]			
Y43F8B.6	Y43F8B.6	Y43F8B.6 [Source:RefSeq_peptide;Acc:NP_507792]			
Y43F8B.5	Y43F8B.5	Y43F8B.5 [Source:RefSeq_peptide;Acc:NP_507793]		extracellular region, 	
Y43F8B.3	Y43F8B.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XWX5]			serine-type endopeptidase inhibitor activity, 
Y43F8B.4	Y43F8B.4	Y43F8B.4 [Source:RefSeq_peptide;Acc:NP_507795]	protein metabolic process, 		oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
Y43F8B.2	Y43F8B.2	Y43F8B.2a [Source:RefSeq_peptide;Acc:NP_507796]			protein binding, 
Y43F8B.1	Y43F8B.1	Y43F8B.1a [Source:RefSeq_peptide;Acc:NP_507798]			
B0399.2	B0399.2	B0399.2 [Source:RefSeq_peptide;Acc:NP_507799]			transferase activity, transferring groups other than amino-acyl groups, 
B0399.t16	B0399.t16				
B0399.t15	B0399.t15				
B0399.t14	B0399.t14				
B0399.1	B0399.1	B0399.1b [Source:RefSeq_peptide;Acc:NP_872182]	potassium ion transport, 	integral to membrane, 	calmodulin binding, calcium-activated potassium channel activity, 
B0399.3	B0399.3				
B0399.t1	B0399.t1				
B0399.t13	B0399.t13				
B0399.t12	B0399.t12				
B0399.t2	B0399.t2				
B0399.t3	B0399.t3				
B0399.t4	B0399.t4				
B0399.t5	B0399.t5				
B0399.t11	B0399.t11				
B0399.t10	B0399.t10				
B0399.t9	B0399.t9				
B0399.t8	B0399.t8				
B0399.t7	B0399.t7				
B0399.t6	B0399.t6				
Y43F8C.t1	Y43F8C.t1				
Y43F8C.t9	Y43F8C.t9				
Y43F8C.t2	Y43F8C.t2				
nlp-25	Y43F8C.1	Neuropeptide-Like Protein family member (nlp-25) [Source:RefSeq_peptide;Acc:NP_507801]	protein homooligomerization, 	membrane, 	protein binding, 
grsp-1	Y43F8C.20	Glycine Rich Secreted Protein family member (grsp-1) [Source:RefSeq_peptide;Acc:NP_001024238]	protein homooligomerization, 	membrane, 	
nlp-26	Y43F8C.2	nlp-26 encodes a predicted neuropeptide not found in multigene families within C. elegans and is not clearly related to other well-characterized neuropeptides. [Source: WormBase]			
Y43F8C.3	Y43F8C.3	Y43F8C.3 [Source:RefSeq_peptide;Acc:NP_507803]			protein binding, 
Y43F8C.t8	Y43F8C.t8				
Y43F8C.4	Y43F8C.4	Y43F8C.4 [Source:RefSeq_peptide;Acc:NP_507804]			
Y43F8C.t3	Y43F8C.t3				
Y43F8C.5	Y43F8C.5	Y43F8C.5 [Source:RefSeq_peptide;Acc:NP_507805]			
Y43F8C.6	Y43F8C.6	Y43F8C.6 [Source:RefSeq_peptide;Acc:NP_507806]	translation, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, protein binding, aminoacyl-tRNA ligase activity, 
Y43F8C.7	Y43F8C.7	Y43F8C.7 [Source:RefSeq_peptide;Acc:NP_507807]			
NR_003483.1	Y43F8C.22	Y43F8C.22, snoRNA [Source:RefSeq_dna;Acc:NR_003483]			
Y43F8C.8	Y43F8C.8	Y43F8C.8 [Source:RefSeq_peptide;Acc:NP_507808]	positive regulation of growth rate, 		
Y43F8C.9	Y43F8C.9	Y43F8C.9 [Source:RefSeq_peptide;Acc:NP_507809]			
dmd-3	Y43F8C.10	DM (Doublesex/MAB-3) Domain family member (dmd-3) [Source:RefSeq_peptide;Acc:NP_507810]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
Y43F8C.t4	Y43F8C.t4				
Y43F8C.t7	Y43F8C.t7				
Y43F8C.t6	Y43F8C.t6				
Y43F8C.t5	Y43F8C.t5				
Y43F8C.11	Y43F8C.11	Y43F8C.11 [Source:RefSeq_peptide;Acc:NP_507811]			
mrp-7	Y43F8C.12	mrp-7 encodes a predicted ATP-binding cassette (ABC) transporter that is a member of the ABCC subfamily of ABC transporters that includes the multidrug resistance-associated proteins and the cystic fibrosis transmembrane conductance regulator. by homology, MRP-7 is predicted to function as an ATP-dependent organic anion transporter that transports molecules across the plasma membrane into the extracellular space. at present, the precise role of MRP-7 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
Y43F8C.13	Y43F8C.13	Y43F8C.13 [Source:RefSeq_peptide;Acc:NP_507813]			
ani-3	Y43F8C.14	Anillin-like protein 3. [Source:Uniprot/SWISSPROT;Acc:Q9XWN6]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, thrombin receptor activity, 
Y43F8C.18	Y43F8C.18	Y43F8C.18 [Source:RefSeq_peptide;Acc:NP_872208]			
srv-3	Y43F8C.19	Serpentine Receptor, class V family member (srv-3) [Source:RefSeq_peptide;Acc:NP_872231]			
Y43F8C.15	Y43F8C.15	Y43F8C.15 [Source:RefSeq_peptide;Acc:NP_507815]			
Y43F8C.23	Y43F8C.23	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4Q8F6]			
Y43F8C.24	Y43F8C.24				
Y43F8C.16	Y43F8C.16	Y43F8C.16 [Source:RefSeq_peptide;Acc:NP_507816]			
Y43F8C.17	Y43F8C.17	Y43F8C.17 [Source:RefSeq_peptide;Acc:NP_507817]			
Y116F11A.t1	Y116F11A.t1				
Y116F11A.6	Y116F11A.6	Y116F11A.6 [Source:RefSeq_peptide;Acc:NP_507818]	regulation of apoptosis, 	intracellular, 	protein binding, 
Y116F11A.3	Y116F11A.3	Y116F11A.3 [Source:RefSeq_peptide;Acc:NP_507819]			
Y116F11A.1	Y116F11A.1	Y116F11A.1 [Source:RefSeq_peptide;Acc:NP_507820]			nucleotide binding, nucleoside-triphosphatase activity, 
Y116F11A.4	Y116F11A.4				
W04E12.7	W04E12.7	W04E12.7 [Source:RefSeq_peptide;Acc:NP_507823]			
fbxa-131	W04E12.1	F-box A protein family member (fbxa-131) [Source:RefSeq_peptide;Acc:NP_507824]			
W04E12.2	W04E12.2	W04E12.2 [Source:RefSeq_peptide;Acc:NP_507825]			
W04E12.3	W04E12.3	W04E12.3 [Source:RefSeq_peptide;Acc:NP_507826]			
W04E12.4	W04E12.4	W04E12.4 [Source:RefSeq_peptide;Acc:NP_507827]			
W04E12.5	W04E12.5	W04E12.5 [Source:RefSeq_peptide;Acc:NP_507828]	neuropeptide signaling pathway, 		
clec-49	W04E12.6	C-type LECtin family member (clec-49) [Source:RefSeq_peptide;Acc:NP_507829]			sugar binding, 
clec-50	W04E12.8	C-type LECtin family member (clec-50) [Source:RefSeq_peptide;Acc:NP_507830]			sugar binding, nutrient reservoir activity, 
W04E12.9	W04E12.9	W04E12.9 [Source:RefSeq_peptide;Acc:NP_001024186]			
M162.5	M162.5	M162.5 [Source:RefSeq_peptide;Acc:NP_507831]	transport, 	integral to membrane, 	transporter activity, 
M162.10	M162.10				
M162.9	M162.9				
fbxa-118	M162.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-194	M162.11	M162.11 [Source:RefSeq_peptide;Acc:NP_001041149]			
srt-46	M162.4				
srt-45	M162.3	Serpentine Receptor, class T family member (srt-45) [Source:RefSeq_peptide;Acc:NP_507834]			
M162.6	M162.6	M162.6 [Source:RefSeq_peptide;Acc:NP_507835]			
M162.2	M162.2	M162.2 [Source:RefSeq_peptide;Acc:NP_507836]			sugar binding, 
M162.1	M162.1	M162.1 [Source:RefSeq_peptide;Acc:NP_507837]			sugar binding, 
M162.7	M162.7	M162.7 [Source:RefSeq_peptide;Acc:NP_507838]			
Y116F11B.2	Y116F11B.2	Y116F11B.2 [Source:RefSeq_peptide;Acc:NP_507839]			
daf-28	Y116F11B.1	daf-28 encodes a beta-type insulin, mostly similar to INS-4 and INS-6 and homologous to human insulin. DAF-28 inhibits dauer formation. daf-28 mutants arrest as dauers and have downregulated signals through the DAF-2/insulin pathway. in young animals, daf-28 is expressed in ASI and ASJ neurons, which regulate dauer formation. in older animals, daf-28 expression spreads to other head neurons and to the somatic gonad. daf-28 expression is reduced by pheromone signalling, or in daf-1, daf-7, daf-11, or daf-22 mutant dauers. daf-28 mutants are dominant negative, and are suppressed by excess wild-type DAF-28, INS-4, or INS-6. normal loss-of-function daf-28 alleles are expected to have a normal phenotype because C. elegans' 38 insulin genes are likely to be redundant. daf-28 expression is increased in daf-6, osm-1, or tax-4 mutants. the transmembrane protein-tyrosine phosphatase IDA-1 is required for DAF-28 function. a ida-1 null allele enhances daf-28(sa191), with double mutants forming 50% dauers at 22.5 deg. C. [Source: WormBase]	dauer larval development, regulation of insulin receptor signaling pathway, 	extracellular region, 	hormone activity, 
pcp-4	Y116F11B.3	Y116F11B.3 [Source:RefSeq_peptide;Acc:NP_507841]	proteolysis, 		serine-type peptidase activity, 
srw-38	Y116F11B.5	Serpentine Receptor, class W family member (srw-38) [Source:RefSeq_peptide;Acc:NP_507842]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srz-35	Y116F11B.4				
Y116F11B.6	Y116F11B.6	Y116F11B.6 [Source:RefSeq_peptide;Acc:NP_507844]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
Y116F11B.7	Y116F11B.7	Y116F11B.7 [Source:RefSeq_peptide;Acc:NP_507845]		nucleus, 	nucleic acid binding, 
Y116F11B.8	Y116F11B.8	Y116F11B.8 [Source:RefSeq_peptide;Acc:NP_507846]			
Y116F11B.9	Y116F11B.9	Y116F11B.9a [Source:RefSeq_peptide;Acc:NP_001024218]			
Y116F11B.10	Y116F11B.10				
Y116F11B.11	Y116F11B.11	Y116F11B.11 [Source:RefSeq_peptide;Acc:NP_507849]			
gly-4	Y116F11B.12	Polypeptide N-acetylgalactosaminyltransferase 4 (EC 2.4.1.41) (Protein-UDP acetylgalactosaminyltransferase 4) (UDP- GalNAc:polypeptide N-acetylgalactosaminyltransferase 4) (pp-GaNTase 4). [Source:Uniprot/SWISSPROT;Acc:Q8I136]	embryonic development ending in birth or egg hatching, 		
Y116F11B.13	Y116F11B.13	Y116F11B.13 [Source:RefSeq_peptide;Acc:NP_507851]			
frs-3	Y60A3A.13	phenylalanyl (F) tRNA Synthetase family member (frs-3) [Source:RefSeq_peptide;Acc:NP_507852]	translation, tRNA aminoacylation for protein translation, phenylalanyl-tRNA aminoacylation, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, phenylalanine-tRNA ligase activity, 
Y116F11B.14	Y116F11B.14	Y116F11B.14 [Source:RefSeq_peptide;Acc:NP_507853]			
chk-2	Y60A3A.12	chk-2 encodes a member of the Cds1/Chk2 checkpoint kinase family, orthologous to human CHK2 (OMIM:604373, mutated in Li-Fraumeni syndrome), that affects pairing between homologous chromosomes during early meiotic prophase, and might function to couple premeiotic S phase with early prophase. CHK-2 is expressed in the germ line. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y60A3A.19	Y60A3A.19	Y60A3A.19 [Source:RefSeq_peptide;Acc:NP_507855]			
Y60A3A.16	Y60A3A.16	Y60A3A.16 [Source:RefSeq_peptide;Acc:NP_507856]	protein amino acid phosphorylation, 		ATP binding, protein serine/threonine kinase activity, 
Y60A3A.17	Y60A3A.17				
skr-4	Y60A3A.18	The skr-4 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-4(RNAi) animals are at least superficially normal. [Source: WormBase]			
nhr-240	Y60A3A.15	Nuclear Hormone Receptor family member (nhr-240) [Source:RefSeq_peptide;Acc:NP_507858]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y60A3A.14	Y60A3A.14	Y60A3A.14 [Source:RefSeq_peptide;Acc:NP_507859]	sodium ion transport, 	membrane, integral to membrane, 	catalytic activity, phospho-N-acetylmuramoyl-pentapeptide-transferase activity, sodium:amino acid symporter activity, 
dhs-24	Y60A3A.10	dhs-24 encodes a member of the short-chain dehydrogenases/reductases family (SDR). [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
Y60A3A.11	Y60A3A.11				
Y60A3A.9	Y60A3A.9	Y60A3A.9 [Source:RefSeq_peptide;Acc:NP_507861]	transport, locomotory behavior, 	integral to membrane, 	
Y60A3A.8	Y60A3A.8	Y60A3A.8 [Source:RefSeq_peptide;Acc:NP_507862]			
Y60A3A.7	Y60A3A.7	Y60A3A.7 [Source:RefSeq_peptide;Acc:NP_507863]			
srh-172	Y60A3A.6	Serpentine Receptor, class H family member (srh-172) [Source:RefSeq_peptide;Acc:NP_507864]			
Y60A3A.27	Y60A3A.27				
srh-171	Y60A3A.5	Serpentine Receptor, class H family member (srh-171) [Source:RefSeq_peptide;Acc:NP_507865]			
srh-173	Y60A3A.4	Serpentine Receptor, class H family member (srh-173) [Source:RefSeq_peptide;Acc:NP_507866]			
srh-183	Y60A3A.3	Serpentine Receptor, class H family member (srh-183) [Source:RefSeq_peptide;Acc:NP_507867]			
Y60A3A.24	Y60A3A.24	Y60A3A.24 [Source:RefSeq_peptide;Acc:NP_001024274]			
Y60A3A.2	Y60A3A.2	Y60A3A.2 [Source:RefSeq_peptide;Acc:NP_507868]			sugar binding, 
sri-67	Y60A3A.22	Serpentine Receptor, class I family member (sri-67) [Source:RefSeq_peptide;Acc:NP_001024272]			
Y60A3A.25	Y60A3A.25	Y60A3A.25 [Source:RefSeq_peptide;Acc:NP_001024275]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
unc-51	Y60A3A.1	The unc-51 gene encodes an activity required for both axonogenesis and sex myoblast migration. [Source: WormBase]	protein amino acid phosphorylation, dauer larval development, regulation of axon extension, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y60A3A.23	Y60A3A.23				
Y60A3A.21	Y60A3A.21	Y60A3A.21 [Source:RefSeq_peptide;Acc:NP_872232]			
Y60A3A.26	Y60A3A.26				
Y60A3A.t1	Y60A3A.t1				
Y60A3A.t2	Y60A3A.t2				
Y113G7A.5	Y113G7A.5	Y113G7A.5 [Source:RefSeq_peptide;Acc:NP_507870]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
Y113G7A.16	Y113G7A.16	Y113G7A.16 [Source:RefSeq_peptide;Acc:NP_872209]			
spe-19	Y113G7A.10	defective SPErmatogenesis family member (spe-19) [Source:RefSeq_peptide;Acc:NP_507871]			
Y113G7A.2	Y113G7A.2				
srh-233	Y113G7A.1	Serpentine Receptor, class H family member (srh-233) [Source:RefSeq_peptide;Acc:NP_507872]			
ttx-1	Y113G7A.6	ttx-1 encodes a homeodomain protein that is a member of the OTD/OTX subclass of homeodomain transcription factors. ttx-1 is expressed at higher levels in the AFD thermosensory neurons as compared to the AWB olfactory neurons and is necessary and partly sufficient for specification of the AFD thermosensory neuron fate and thus for proper AFD-mediated thermosensory behavior and normal expression of genes such as gcy-8, nhr-38, ceh-14, tax-2, and dac-1. a TTX-1::GFP fusion protein is nuclear and expressed in the AFD neurons and the nine pharyngeal marginal cells. [Source: WormBase]	regulation of transcription, DNA-dependent, thermosensory behavior, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
fre-1	Y113G7A.8	fre-1 encodes an NADPH-dependent flavin reductase. fre-1 is the downstream gene in an operon with dcs-1, which encodes a scavenger mRNA decapping enzyme. reporter fusions using dcs-1 upstream sequence direct expression throughout the life cycle in neurons and pharyngeal muscle. expression is present in dauer larvae and enhanced by heat shock. [Source: WormBase]	electron transport, 		iron ion binding, oxidoreductase activity, electron carrier activity, FMN binding, 
Y113G7A.7	Y113G7A.7				
dcs-1	Y113G7A.9	dcs-1 encodes a scavenger mRNA decapping enzyme. dcs-1 exhibits hydrolase activity in vitro, with specificity for 7meGMP in its primary nucleoside monophosphate binding site. dcs-1 is the upstream gene in an operon with fre-1, which encodes an NADPH-dependent flavin reductase. reporter fusions using dcs-1 upstream sequence direct expression throughout the life cycle in neurons and pharyngeal muscle. expression is present in dauer larvae and enhanced by heat shock. [Source: WormBase]	DNA repair, deadenylation-dependent decapping, 		protein binding, hydrolase activity, 
sec-23	Y113G7A.3	yeast SEC homolog family member (sec-23) [Source:RefSeq_peptide;Acc:NP_507877]	intracellular protein transport, ER to Golgi vesicle-mediated transport, biological_process, 	COPII vesicle coat, 	protein binding, zinc ion binding, 
Y113G7A.15	Y113G7A.15	Y113G7A.15 [Source:RefSeq_peptide;Acc:NP_507878]			
ncx-1	Y113G7A.4	Na/Ca eXchangers family member (ncx-1) [Source:RefSeq_peptide;Acc:NP_001041182]	cell communication, calcium ion transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	calcium:sodium antiporter activity, 
Y113G7A.t1	Y113G7A.t1				
Y113G7A.t5	Y113G7A.t5				
Y113G7A.t2	Y113G7A.t2				
Y113G7A.t4	Y113G7A.t4				
ssu-1	Y113G7A.11	ssu-1 encodes, by alternative splicing, two isoforms of a cytosolic alcohol sulfotransferase that interacts in the ASJ amphid neurons with the stomatins UNC-1 and UNC-24. the longer SSU-1 isoform is required for normal anesthetic sensitivity and unc-1 phenotypes. ssu-1(fc73) suppresses the anesthetic sensitivity and uncoordinated phenotypes of unc-1 and unc-24 mutants. ssu-1(fc73), along with daf-12, suppresses the synthetic constitutive dauer-formation phenotype of fc83.unc-24(e138) mutants. ssu-1 suppression is rescued by transgenic expression of SSU-1 in the ASJ neurons alone, implying that sulfation is required for an endocrine function. SSU-1 protein sulfates 4-nitrophenol and 2-naphthol substrates, and bisphenol A, but not monoamines or hydroxysteroids. SSU-1 is cytosolic, but its activity is not detectable in cytosolic extracts. ssu-1 is strongly expressed in embryos, growing larvae, and dauer larvae. ssu-1 expression is increased in daf-2. by homology with other sulfotransferases, SSU-1 may link sulfates to the alcohol group of small molecules as part of detoxification or signal transduction. [Source: WormBase]			sulfotransferase activity, 
Y113G7A.t3	Y113G7A.t3				
Y113G7A.14	Y113G7A.14	Y113G7A.14 [Source:RefSeq_peptide;Acc:NP_507881]			
Y113G7A.12	Y113G7A.12	Y113G7A.12 [Source:RefSeq_peptide;Acc:NP_507882]			
Y113G7A.13	Y113G7A.13	Y113G7A.13 [Source:RefSeq_peptide;Acc:NP_507883]			protein binding, 
F19B2.7	F19B2.7	F19B2.7 [Source:RefSeq_peptide;Acc:NP_507884]	proteolysis, 		serine-type endopeptidase activity, ATP-dependent peptidase activity, 
F19B2.6	F19B2.6	F19B2.6 [Source:RefSeq_peptide;Acc:NP_507885]	regulation of transcription, 		DNA binding, 
F19B2.5	F19B2.5	F19B2.5 [Source:RefSeq_peptide;Acc:NP_507886]			
srz-36	F19B2.4				
srw-39	F19B2.3	Serpentine Receptor, class W family member (srw-39) [Source:RefSeq_peptide;Acc:NP_507888]			
srz-34	F19B2.2				
srz-33	F19B2.1				
F19B2.10	F19B2.10				
srz-16	F19B2.8	Serpentine Receptor, class Z family member (srz-16) [Source:RefSeq_peptide;Acc:NP_507891]			
fbxa-116	Y113G7B.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-115	Y113G7B.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srh-217	Y113G7B.2	Serpentine Receptor, class H family member (srh-217) [Source:RefSeq_peptide;Acc:NP_507894]			
ftr-1	Y113G7B.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fog-2	Y113G7B.5	fog-2 encodes a protein that contains an N-terminal F-box and a C-terminal FOG-2 homology (FTH) domain. during germline development, FOG-2 activity is required for the brief period of hermaphrodite spermatogenesis that occurs during the L3/L4 larval stages. in promoting the onset of spermatogenesis, FOG-2 interacts with the RNA-binding protein GLD-1 which, in turn, binds the tra-2 mRNA 3' untranslated region to repress tra-2 activity in the germline. FOG-2 interacts with GLD-1 through the diverged C-terminal FTH domain, a domain that is both necessary and sufficient to confer GLD-1 binding. polyclonal antibodies raised against FOG-2 indicate that it is a cytoplasmic protein expressed solely in the germline from the L1 larval stage until young adulthood. during earlier larval stages, FOG-2 is detected uniformly throughout the germline, while in L4 larvae and in adult hermaphrodites and males, FOG-2 is found in proliferating and meiotic prophase germ cells. [Source: WormBase]	negative regulation of translation, 		translation repressor activity, 
fbxa-114	Y113G7B.7	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fbxa-113	Y113G7B.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]		membrane, 	G-protein coupled receptor activity, 
fbxb-59	Y113G7B.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
srbc-34	Y113G7B.9	Serpentine Receptor, class BC (class B-like) family member (srbc-34) [Source:RefSeq_peptide;Acc:NP_507900]			
Y113G7B.12	Y113G7B.12	Y113G7B.12 [Source:RefSeq_peptide;Acc:NP_507901]			
Y113G7B.11	Y113G7B.11	Y113G7B.11 [Source:RefSeq_peptide;Acc:NP_507902]			
Y113G7B.t2	Y113G7B.t2				
Y113G7B.t1	Y113G7B.t1				
Y113G7B.26	Y113G7B.26				
Y113G7B.14	Y113G7B.14	Y113G7B.14 [Source:RefSeq_peptide;Acc:NP_507903]			ATP binding, DNA binding, hydrolase activity, 
Y113G7B.15	Y113G7B.15	Y113G7B.15 [Source:RefSeq_peptide;Acc:NP_507904]	proteolysis, 		cysteine-type peptidase activity, protein binding, cysteine-type endopeptidase activity, 
Y113G7B.24	Y113G7B.24	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9U2W9]	embryonic development ending in birth or egg hatching, 		
psa-1	Y113G7B.23	psa-1 encodes an ortholog of SWI3, a component of the SWI/SNF complex that is conserved from yeast to mammals and that is involved in chromatin remodeling. psa-1 is probably required during mitosis of the T cells for asymmetric cell division, and in addition, is required for embryonic and larval development, as well as normal levels of fertility. psa-1 exhibits strong genetic interactions with lin-35/Rb, as psa-1 larval lethality and sterility at 20 degrees C are greatly enhanced in lin-35.psa-1 double mutants. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, reproduction, 	integral to membrane, nucleus, 	protein binding, DNA binding, rhodopsin-like receptor activity, identical protein binding, 
mdt-17	Y113G7B.18	MeDiaTor family member (mdt-17) [Source:RefSeq_peptide;Acc:NP_507908]	embryonic development ending in birth or egg hatching, 		
Y113G7B.17	Y113G7B.17	Y113G7B.17 [Source:RefSeq_peptide;Acc:NP_507909]	DNA topological change, positive regulation of growth rate, 	chromosome, 	ATP binding, DNA binding, DNA topoisomerase (ATP-hydrolyzing) activity, 
Y113G7B.16	Y113G7B.16	CDK5RAP3-like protein. [Source:Uniprot/SWISSPROT;Acc:Q9U2Y2]	regulation of cyclin-dependent protein kinase activity, 	cellular_component, 	molecular_function, 
pqn-94	ZC15.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
mlt-4	ZC15.7	ZC15.7 [Source:RefSeq_peptide;Acc:NP_507912]			
ZC15.6	ZC15.6	ZC15.6 [Source:RefSeq_peptide;Acc:NP_507913]	protein homooligomerization, 	membrane, 	sugar binding, 
ZC15.5	ZC15.5	ZC15.5 [Source:RefSeq_peptide;Acc:NP_507914]			
ZC15.4	ZC15.4				
ZC15.3	ZC15.3	ZC15.3 [Source:RefSeq_peptide;Acc:NP_507915]			protein binding, 
ZC15.1	ZC15.1	ZC15.1 [Source:RefSeq_peptide;Acc:NP_507916]			nucleic acid binding, 
ZC15.10	ZC15.10	ZC15.10 [Source:RefSeq_peptide;Acc:NP_001076752]			
ZC15.2	ZC15.2	ZC15.2 [Source:RefSeq_peptide;Acc:NP_507917]			sugar binding, 
Y113G7C.1	Y113G7C.1	Y113G7C.1 [Source:RefSeq_peptide;Acc:NP_507918]	microtubule-based process, protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 	microtubule, 	GTP binding, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
Y38H6A.1	Y38H6A.1	Y38H6A.1 [Source:RefSeq_peptide;Acc:NP_507919]			
Y38H6A.2	Y38H6A.2	Y38H6A.2 [Source:RefSeq_peptide;Acc:NP_507920]			
Y38H6A.3	Y38H6A.3	Y38H6A.3 [Source:RefSeq_peptide;Acc:NP_507921]			
Y38H6A.t1	Y38H6A.t1				
Y38H6A.4	Y38H6A.4				
K02E2.t1	K02E2.t1				
K02E2.1	K02E2.1	K02E2.1 [Source:RefSeq_peptide;Acc:NP_507922]			
grd-11	K02E2.2	grd-11 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, four Ground domains, an short region of low-complexity sequence, and a Hint/Hog domain. the Hint/Hog domain is predicted to cut GRD-2 into two halves and then covalently link cholesterol to the C-terminus of the Ground domain. the four N-terminal Ground domains are predicted to form one or more cysteine-crosslinked proteins involved in intercellular signalling. Ground domains have subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. grd-11 has no obvious function in RNAi assays. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, 		peptidase activity, 
K02E2.8	K02E2.8	K02E2.8 [Source:RefSeq_peptide;Acc:NP_507924]			
srh-177	K02E2.3	K02E2.3 [Source:RefSeq_peptide;Acc:NP_507925]			
ins-35	K02E2.4	ins-35 encodes one of several insulin-related peptides. [Source: WormBase]			
K02E2.5	K02E2.5				
K02E2.6	K02E2.6	K02E2.6 [Source:RefSeq_peptide;Acc:NP_507927]	proteolysis, 		aspartic-type endopeptidase activity, 
K02E2.7	K02E2.7	K02E2.7 [Source:RefSeq_peptide;Acc:NP_507928]			
F53H2.1	F53H2.1	F53H2.1 [Source:RefSeq_peptide;Acc:NP_507929]			
cnc-7	F53H2.2	CaeNaCin (Caenorhabditis bacteriocin) family member (cnc-7) [Source:RefSeq_peptide;Acc:NP_507930]			
F53H2.3	F53H2.3	F53H2.3 [Source:RefSeq_peptide;Acc:NP_507931]	amino acid metabolic process, 		
fce-2	F48F5.5	fce-2 encodes an ortholog of 'farnesylated-proteins converting enzyme 2' (FACE-2), and thus probably enables post-translational processing of proteins (such as LET-60/RAS) carrying a C-terminal CaaX motif. FCE-2 protein probably accounts for the tosylphenylalanylchloromethane-sensitive, EDTA-insensitive component of CaaX-proteolytic activity in membrane extracts from C. elegans. FCE-2 can cleave a farnesylated peptide in vitro. Rce1p, the S. cerevisiae homolog of FCE-2, is directly involved in the C-terminal processing of farnesylated a-factor mating pheromone, and transgenic fce-2 rescues the mating defect of mutant yeast lacking both the Ste24p and the Rce1p CaaX-proteases. [Source: WormBase]			
F48F5.1	F48F5.1	F48F5.1 [Source:RefSeq_peptide;Acc:NP_507932]	protein amino acid dephosphorylation, dephosphorylation, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F48F5.2	F48F5.2	F48F5.2 [Source:RefSeq_peptide;Acc:NP_507933]			
F48F5.6	F48F5.6	F48F5.6 [Source:RefSeq_peptide;Acc:NP_001023948]			
F48F5.3	F48F5.3	F48F5.3 [Source:RefSeq_peptide;Acc:NP_507934]			
srd-70	F48F5.4	Serpentine Receptor, class D (delta) family member (srd-70) [Source:RefSeq_peptide;Acc:NP_507935]			
B0250.4	B0250.4	B0250.4 [Source:RefSeq_peptide;Acc:NP_507936]		intracellular, 	zinc ion binding, nucleic acid binding, 
B0250.3	B0250.3		biological_process, 		
B0250.8	B0250.8	B0250.8 [Source:RefSeq_peptide;Acc:NP_507937]	positive regulation of growth rate, 		
B0250.7	B0250.7		biological_process, 		
B0250.2	B0250.2	B0250.2 [Source:RefSeq_peptide;Acc:NP_507939]			
rpl-2	B0250.1	rpl-2 encodes a large ribosomal subunit L8 protein. [Source: WormBase]	translation, biological_process, 	intracellular, ribosome, 	protein binding, structural constituent of ribosome, 
B0250.9	B0250.9	B0250.9 is orthologous to the human gene 7-DEHYDROCHOLESTEROL REDUCTASE (DHCR7. OMIM:602858), which when mutated leads to disease. [Source: WormBase]		membrane, 	
srbc-78	B0250.10	Serpentine Receptor, class BC (class B-like) family member (srbc-78) [Source:RefSeq_peptide;Acc:NP_001021344]			
srbc-79	B0250.6	Serpentine Receptor, class BC (class B-like) family member (srbc-79) [Source:RefSeq_peptide;Acc:NP_507942]			
B0250.5	B0250.5	Probable 3-hydroxyisobutyrate dehydrogenase, mitochondrial (EC 1.1.1.31) (HIBADH). [Source:Uniprot/SWISSPROT;Acc:Q9XTI0]	valine metabolic process, pentose-phosphate shunt, 		NAD binding, 3-hydroxyisobutyrate dehydrogenase activity, phosphogluconate dehydrogenase (decarboxylating) activity, 
Y38H6C.1	Y38H6C.1	Y38H6C.1 [Source:RefSeq_peptide;Acc:NP_507944]			
Y38H6C.3	Y38H6C.3	Y38H6C.3 [Source:RefSeq_peptide;Acc:NP_507945]			
srw-65	Y38H6C.2	Serpentine Receptor, class W family member (srw-65) [Source:RefSeq_peptide;Acc:NP_507946]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y38H6C.4	Y38H6C.4	Y38H6C.4 [Source:RefSeq_peptide;Acc:NP_507947]			
Y38H6C.5	Y38H6C.5	Y38H6C.5 [Source:RefSeq_peptide;Acc:NP_507948]	proteolysis, 		zinc ion binding, nucleic acid binding, aspartic-type endopeptidase activity, 
Y38H6C.7	Y38H6C.7	Y38H6C.7 [Source:RefSeq_peptide;Acc:NP_507950]			
Y38H6C.8	Y38H6C.8	Y38H6C.8 [Source:RefSeq_peptide;Acc:NP_507951]	immune response, 		protein binding, sugar binding, 
fbxa-149	Y38H6C.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
Y38H6C.9	Y38H6C.9	Y38H6C.9 [Source:RefSeq_peptide;Acc:NP_507953]			
fbxa-150	Y38H6C.11	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
srh-166	Y38H6C.12	Serpentine Receptor, class H family member (srh-166) [Source:RefSeq_peptide;Acc:NP_507955]			
Y38H6C.13	Y38H6C.13	Y38H6C.13 [Source:RefSeq_peptide;Acc:NP_507956]			
Y38H6C.14	Y38H6C.14	Y38H6C.14 [Source:RefSeq_peptide;Acc:NP_507957]			protein binding, 
Y38H6C.15	Y38H6C.15	Y38H6C.15 [Source:RefSeq_peptide;Acc:NP_507958]	muscle contraction, 		actin binding, calmodulin binding, myosin binding, 
Y38H6C.16	Y38H6C.16	Y38H6C.16 [Source:RefSeq_peptide;Acc:NP_507959]			
Y38H6C.17	Y38H6C.17	Y38H6C.17 encodes a putative amino acid transporter that inhibits CEP-1- and HUS-1-dependent germline apoptosis, as do BMK-1, RAD-50, and RAD-51. Y38H6C.17 has 11 predicted transmembrane alpha-helices. Y38H6C.17 has multiple C. elegans paralogs and non-nematode orthologs, including budding yeast AVT3 and AVT4 and human SLC36A1 (OMIM:606561). [Source: WormBase]			
Y38H6C.18	Y38H6C.18	Y38H6C.18 [Source:RefSeq_peptide;Acc:NP_507961]			
Y38H6C.20	Y38H6C.20	Y38H6C.20 [Source:RefSeq_peptide;Acc:NP_507962]	protein amino acid phosphorylation, pathogenesis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y38H6C.19	Y38H6C.19	Y38H6C.19 [Source:RefSeq_peptide;Acc:NP_507963]			
Y38H6C.21	Y38H6C.21	Y38H6C.21 [Source:RefSeq_peptide;Acc:NP_507964]			
Y38H6C.23	Y38H6C.23	Y38H6C.23 [Source:RefSeq_peptide;Acc:NP_001024226]			
abf-4	Y38H6C.22	abf-4 encodes a homolog of the antibacterial factor ASABF from Ascaris suum. ABF-4 may play a role in innate immunity, though at present the only evidence for its having an antimicrobial humoral function is its sequence similarity. [Source: WormBase]			
F26F2.1	F26F2.1	F26F2.1 [Source:RefSeq_peptide;Acc:NP_507966]			
F26F2.2	F26F2.2	F26F2.2 [Source:RefSeq_peptide;Acc:NP_507967]			
F26F2.3	F26F2.3	F26F2.3 [Source:RefSeq_peptide;Acc:NP_507968]			protein binding, 
F26F2.4	F26F2.4	F26F2.4 [Source:RefSeq_peptide;Acc:NP_507969]			
F26F2.5	F26F2.5	F26F2.5 [Source:RefSeq_peptide;Acc:NP_507970]			
F26F2.6	F26F2.6	F26F2.6 [Source:RefSeq_peptide;Acc:NP_507971]			sugar binding, 
F26F2.8	F26F2.8	F26F2.8 [Source:RefSeq_peptide;Acc:NP_001023862]			
F26F2.7	F26F2.7	F26F2.7 [Source:RefSeq_peptide;Acc:NP_507972]	embryonic development ending in birth or egg hatching, 		
F46B3.1	F46B3.1	F46B3.1 [Source:RefSeq_peptide;Acc:NP_507973]			
F46B3.2	F46B3.2	F46B3.2 [Source:RefSeq_peptide;Acc:NP_507974]			
col-163	F46B3.17	F46B3.17 [Source:RefSeq_peptide;Acc:NP_001023933]	phosphate transport, 	cytoplasm, 	
F46B3.3	F46B3.3	F46B3.3 [Source:RefSeq_peptide;Acc:NP_507975]	proteolysis, 		aspartic-type endopeptidase activity, 
F46B3.4	F46B3.4	F46B3.4 [Source:RefSeq_peptide;Acc:NP_507976]			
grd-2	F46B3.5	grd-2 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, four Ground domains, an short region of low-complexity sequence, and a Hint/Hog domain. the Hint/Hog domain is predicted to cut GRD-2 into two halves and then covalently link cholesterol to the C-terminus of the Ground domain. the four N-terminal Ground domains are predicted to form one or more cysteine-crosslinked proteins involved in intercellular signalling. Ground domains have subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-2 is weakly required for normal molting. GRD-2 is also required for normal adult alae formation, growth to full size, locomotion, and male tail development. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, 		peptidase activity, 
F46B3.7	F46B3.7	F46B3.7 [Source:RefSeq_peptide;Acc:NP_507978]			
F46B3.8	F46B3.8	F46B3.8 [Source:RefSeq_peptide;Acc:NP_507979]			
F46B3.9	F46B3.9	F46B3.9 [Source:RefSeq_peptide;Acc:NP_507980]			
srz-18	F46B3.11	Serpentine Receptor, class Z family member (srz-18) [Source:RefSeq_peptide;Acc:NP_507981]			
srz-17	F46B3.12				
F46B3.14	F46B3.14	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XV22]			
F46B3.13	F46B3.13				
F46B3.15	F46B3.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XV23]			
F46B3.16	F46B3.16	F46B3.16 [Source:RefSeq_peptide;Acc:NP_507985]			
Y44A6B.4	Y44A6B.4	Y44A6B.4 [Source:RefSeq_peptide;Acc:NP_507986]			
Y44A6B.3	Y44A6B.3	Y44A6B.3 [Source:RefSeq_peptide;Acc:NP_507987]			
srxa-14	Y44A6B.1	Serpentine Receptor, class XA family member (srxa-14) [Source:RefSeq_peptide;Acc:NP_507988]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
srxa-15	Y44A6B.2	Serpentine Receptor, class XA family member (srxa-15) [Source:RefSeq_peptide;Acc:NP_507989]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
W01F3.1	W01F3.1	W01F3.1a [Source:RefSeq_peptide;Acc:NP_507990]	proton transport, 	membrane, proton-transporting two-sector ATPase complex, 	hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, 
W01F3.2	W01F3.2	W01F3.2 [Source:RefSeq_peptide;Acc:NP_507992]			metal ion binding, catalytic activity, 
mlt-11	W01F3.3	MoLTing defective family member (mlt-11) [Source:RefSeq_peptide;Acc:NP_507993]	locomotory behavior, 		serine-type endopeptidase inhibitor activity, 
srsx-35	F53F8.2	Serpentine Receptor, class SX family member (srsx-35) [Source:RefSeq_peptide;Acc:NP_507994]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F53F8.1	F53F8.1	The F53F8.1 gene encodes a homolog of human WT1, which when mutated leads to Wilms tumour (OMIM:194070). [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F53F8.3	F53F8.3	F53F8.3 [Source:RefSeq_peptide;Acc:NP_507996]			protein binding, zinc ion binding, 
F53F8.4	F53F8.4	F53F8.4 [Source:RefSeq_peptide;Acc:NP_507997]		extracellular region, 	protein binding, 
F53F8.t1	F53F8.t1				
F53F8.5	F53F8.5	F53F8.5 [Source:RefSeq_peptide;Acc:NP_507998]			
F53F8.6	F53F8.6	F53F8.6 [Source:RefSeq_peptide;Acc:NP_001023964]			
Y44A6C.1	Y44A6C.1	Y44A6C.1 [Source:RefSeq_peptide;Acc:NP_507999]			
W07A8.2	W07A8.2	W07A8.2a [Source:RefSeq_peptide;Acc:NP_508000]	lipid metabolic process, 		
Y44A6C.2	Y44A6C.2	Y44A6C.2 [Source:RefSeq_peptide;Acc:NP_508001]			
dnj-25	W07A8.3	The dnj-25 (Ce-auxilin) gene is required in vivo for clathrin-mediated endocytosis and for normal development. [Source: WormBase]	positive regulation of growth rate, receptor-mediated endocytosis, 		heat shock protein binding, 
srxa-1	W07A8.1	Serpentine Receptor, class XA family member (srxa-1) [Source:RefSeq_peptide;Acc:NP_508003]	positive regulation of growth rate, 		
srxa-3	W07A8.4		positive regulation of growth rate, 		
srxa-6	W07A8.5	Serpentine Receptor, class XA family member (srxa-6) [Source:RefSeq_peptide;Acc:NP_508005]	positive regulation of growth rate, 		
pha-4	F38A6.1	pha-4 encodes a FoxA transcription factor. during embryonic development, PHA-4 functions as an organ identity gene whose activity is necessary and sufficient for development of the pharynx/foregut. in addition, PHA-4 plays a key role in regulation of diet-restriction-induced longevity in adult animals. PHA-4 expression begins early in embryogenesis and is seen in pharyngeal and intestinal cells (foregut and midgut). PHA-4 is also expressed later in the developing somatic gonad. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, homoiothermy, response to freezing, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, ice binding, 
elp-1	F38A6.2	elp-1 encodes a WD repeat-containing protein that is the sole C. elegans EMAP (echinoderm microtubule-associated protein) homolog. ELP-1 binds microtubules in vitro, but as loss of ELP-1 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of ELP-1 in C. elegans development and/or behavior is not yet known. ELP-1 is expressed in many tissues, including body wall muscle, male-specific sex muscles, the vulva, spermatheca, sensory neurons, and intestinal cells. [Source: WormBase]			
F38A6.4	F38A6.4	F38A6.4 [Source:RefSeq_peptide;Acc:NP_001023895]			
hif-1	F38A6.3	hif-1 encodes an ortholog of the mammalian hypoxia-induced factor HIF-1, and is required for survival in hypoxic environments (1% oxygen) that have no effect on wild-type C. elegans. [Source: WormBase]	signal transduction, regulation of transcription, regulation of transcription, DNA-dependent, response to hypoxia, 	nucleus, 	signal transducer activity, transcription regulator activity, DNA binding, transcription factor activity, 
Y44A6D.1	Y44A6D.1	Y44A6D.1 [Source:RefSeq_peptide;Acc:NP_508010]			
Y44A6D.2	Y44A6D.2	Y44A6D.2 [Source:RefSeq_peptide;Acc:NP_508011]	homoiothermy, response to freezing, 		ice binding, 
Y44A6D.3	Y44A6D.3	Y44A6D.3 [Source:RefSeq_peptide;Acc:NP_508012]			
sdf-9	Y44A6D.4	sdf-9 encodes a protein tyrosine phosphatase, paralogous to EAK-6. sdf-9 acts in parallel to akt-1 to regulate insulin-like signaling and dauer formation and may promote DAF-9 activity by means of steroid hormone signalling. sdf-9 dauer larvae resemble those of daf-9 and daf-12 dauer-constitutive mutants, and these Daf-c mutants are all enhanced by cholesterol deprivation. SDF-9 is expressed in the neuroendocrine XXXL/R cells, where it associates with the plasma membrane. ablation of the XXXL/R cells in wild-type L1 larvae also causes daf-9-like pseudodauer larvae. [Source: WormBase]	protein amino acid dephosphorylation, dauer larval development, 		protein tyrosine phosphatase activity, 
Y44A6D.5	Y44A6D.5	Y44A6D.5 [Source:RefSeq_peptide;Acc:NP_508014]	metabolic process, 		catalytic activity, 
Y44A6D.6	Y44A6D.6	Y44A6D.6 [Source:RefSeq_peptide;Acc:NP_508015]			
T03D8.7	T03D8.7	T03D8.7 [Source:RefSeq_peptide;Acc:NP_508016]			
T03D8.6	T03D8.6	T03D8.6 [Source:RefSeq_peptide;Acc:NP_508017]			gamma-glutamyltransferase activity, 
gcy-22	T03D8.5	gcy-22 is predicted to encode a guanylate cyclase. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
grl-14	T03D8.4	grl-14 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground-like (Grl) domain. GRL-14 is expressed in intestine, head mesodermal cell, hypodermis, seam cells, and uterine muscle, larval arcade cells and reproductive system, and the developing vulva. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			
sbt-1	T03D8.3	Seven B Two (mammalian 7BT prohormone convertase chaperone) homolog family member (sbt-1) [Source:RefSeq_peptide;Acc:NP_508020]	neuropeptide signaling pathway, 	secretory granule, 	
num-1	T03D8.1	Numb-related protein 1 (Protein kinase C adapter 1) (CKA1). [Source:Uniprot/SWISSPROT;Acc:Q9XTY6]	regulation of transcription, DNA-dependent, protein targeting to membrane, 	cytoplasm, integral to plasma membrane, nucleus, 	protein binding, transcription factor activity, protein domain specific binding, nutrient reservoir activity, transmembrane receptor protein tyrosine kinase docking protein activity, protein kinase C binding, 
T03D8.2	T03D8.2	T03D8.2 [Source:RefSeq_peptide;Acc:NP_508023]	translation, embryonic development ending in birth or egg hatching, 	intracellular, small ribosomal subunit, ribosome, 	structural constituent of ribosome, 
exos-7	F31D4.1	F31D4.1 [Source:RefSeq_peptide;Acc:NP_508024]	RNA processing, positive regulation of growth rate, 		RNA binding, 3'-5'-exoribonuclease activity, 
F31D4.2	F31D4.2	F31D4.2 [Source:RefSeq_peptide;Acc:NP_508025]			
fkb-6	F31D4.3	fkb-6 encodes a peptidyl-prolyl cis-trans isomerase that is most closely related to mammalian FK506-binding protein 4. loss of fkb-6 activity via large-scale RNAi screens indicates that fkb-6 is required fro embryonic and vulval development. [Source: WormBase]	protein folding, morphogenesis of an epithelium, 		
F31D4.4	F31D4.4	F31D4.4 [Source:RefSeq_peptide;Acc:NP_508027]	immune response, 		sugar binding, 
F31D4.9	F31D4.9	F31D4.9 [Source:RefSeq_peptide;Acc:NP_508028]			
F31D4.5	F31D4.5	F31D4.5 [Source:RefSeq_peptide;Acc:NP_508029]			
try-4	F31D4.6	TRYpsin-like Protease family member (try-4) [Source:RefSeq_peptide;Acc:NP_508030]	proteolysis, 		serine-type endopeptidase activity, 
twk-35	F31D4.7	TWiK family of potassium channels family member (twk-35) [Source:RefSeq_peptide;Acc:NP_508031]	potassium ion transport, 	membrane, 	potassium channel activity, 
F31D4.8	F31D4.8	F31D4.8 [Source:RefSeq_peptide;Acc:NP_508032]			
F25C8.3	F25C8.3	F25C8.3b [Source:RefSeq_peptide;Acc:NP_001023840]	DNA repair, positive regulation of locomotion, 		
amx-3	F25C8.2	AMine oXidase family member (amx-3) [Source:RefSeq_peptide;Acc:NP_508034]	electron transport, 		oxidoreductase activity, 
F25C8.4	F25C8.4	F25C8.4 [Source:RefSeq_peptide;Acc:NP_508035]	metabolic process, 		catalytic activity, 
F25C8.1	F25C8.1	F25C8.1 [Source:RefSeq_peptide;Acc:NP_508036]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
ttll-9	F25C8.5	ttll-9 encodes a putative tubulin polyaminoacid ligase orthologous to human TTLL9. [Source: WormBase]	protein modification process, 		catalytic activity, tubulin-tyrosine ligase activity, 
lgc-2	Y44A6E.1	Y44A6E.1b [Source:RefSeq_peptide;Acc:NP_001024240]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
cTel7X.1	cTel7X.1	cTel7X.1 [Source:RefSeq_peptide;Acc:NP_508038]			
CE7X_3.1	CE7X_3.1	CE7X_3.1 [Source:RefSeq_peptide;Acc:NP_872257]			
CE7X_3.2	CE7X_3.2	CE7X_3.2 [Source:RefSeq_peptide;Acc:NP_872258]			
VY35H6BL.2	VY35H6BL.2	VY35H6BL.2 [Source:RefSeq_peptide;Acc:NP_872259]			
VY35H6BL.1	VY35H6BL.1	VY35H6BL.1 [Source:RefSeq_peptide;Acc:NP_872260]			
Y35H6.3	Y35H6.3	Y35H6.3 [Source:RefSeq_peptide;Acc:NP_508047]			
Y35H6.1	Y35H6.1	Y35H6.1 [Source:RefSeq_peptide;Acc:NP_508048]			
Y73B3A.21	Y73B3A.21	Y73B3A.21 [Source:RefSeq_peptide;Acc:NP_508082]	proteolysis, 		ATP binding, metalloendopeptidase activity, 
Y73B3A.1	Y73B3A.1	Y73B3A.1 [Source:RefSeq_peptide;Acc:NP_508081]			
Y73B3A.20	Y73B3A.20	Y73B3A.20 [Source:RefSeq_peptide;Acc:NP_508080]			
Y73B3A.18	Y73B3A.18	Y73B3A.18a [Source:RefSeq_peptide;Acc:NP_741699]	translation, embryonic development ending in birth or egg hatching, 	intracellular, ribosome, 	structural constituent of ribosome, 
Y73B3A.2	Y73B3A.2	Y73B3A.2 [Source:RefSeq_peptide;Acc:NP_508077]	carbohydrate metabolic process, 		catalytic activity, 
Y73B3A.16	Y73B3A.16	Y73B3A.16 [Source:RefSeq_peptide;Acc:NP_508075]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
Y73B3A.3	Y73B3A.3	Y73B3A.3 [Source:RefSeq_peptide;Acc:NP_508074]			
Y73B3A.t1	Y73B3A.t1				
Y73B3A.4	Y73B3A.4	Y73B3A.4 [Source:RefSeq_peptide;Acc:NP_508073]			
Y73B3A.5	Y73B3A.5	Y73B3A.5 [Source:RefSeq_peptide;Acc:NP_508072]	negative regulation of vulval development, 	extracellular region, 	hormone activity, 
fbxa-221	Y73B3A.15	Y73B3A.15 [Source:RefSeq_peptide;Acc:NP_508071]			
fbxa-222	Y73B3A.22	F-box a protein protein 222. [Source:Uniprot/SPTREMBL;Acc:A3KFD5]			
fbxa-16	Y73B3A.14	F-box A protein family member (fbxa-16) [Source:RefSeq_peptide;Acc:NP_508070]			
Y73B3A.6	Y73B3A.6	Y73B3A.6 [Source:RefSeq_peptide;Acc:NP_508069]			
Y73B3A.13	Y73B3A.13	Y73B3A.13 [Source:RefSeq_peptide;Acc:NP_508068]			
Y73B3A.7	Y73B3A.7	Y73B3A.7 [Source:RefSeq_peptide;Acc:NP_508067]			
Y73B3A.12	Y73B3A.12	Y73B3A.12 [Source:RefSeq_peptide;Acc:NP_508066]	positive regulation of growth rate, 		calcium ion binding, 
Y73B3A.8	Y73B3A.8	Y73B3A.8 [Source:RefSeq_peptide;Acc:NP_508065]			
Y73B3A.11	Y73B3A.11	Y73B3A.11 [Source:RefSeq_peptide;Acc:NP_508064]			
Y73B3A.9	Y73B3A.9	Y73B3A.9 [Source:RefSeq_peptide;Acc:NP_508063]			
Y73B3A.10	Y73B3A.10	Y73B3A.10 [Source:RefSeq_peptide;Acc:NP_508062]			
T08D2.9	T08D2.9				
T08D2.1	T08D2.1	T08D2.1 [Source:RefSeq_peptide;Acc:NP_508054]	transport, locomotory behavior, 	integral to membrane, 	calcium ion binding, 
T08D2.2	T08D2.2	T08D2.2 [Source:RefSeq_peptide;Acc:NP_508055]		integral to membrane, 	catalytic activity, phospho-N-acetylmuramoyl-pentapeptide-transferase activity, 
T08D2.3	T08D2.3				
T08D2.4	T08D2.4	T08D2.4 [Source:RefSeq_peptide;Acc:NP_508057]			protein binding, zinc ion binding, 
T08D2.5	T08D2.5	T08D2.5 [Source:RefSeq_peptide;Acc:NP_508058]			
T08D2.6	T08D2.6	T08D2.6 [Source:RefSeq_peptide;Acc:NP_508059]			
T08D2.7	T08D2.7	T08D2.7 [Source:RefSeq_peptide;Acc:NP_508060]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T08D2.8	T08D2.8	T08D2.8 [Source:RefSeq_peptide;Acc:NP_508061]			
Y73B3B.5	Y73B3B.5		positive regulation of growth rate, 		
Y73B3B.1	Y73B3B.1	Y73B3B.1 [Source:RefSeq_peptide;Acc:NP_508051]			metal ion binding, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
Y73B3B.3	Y73B3B.3	Y73B3B.3 [Source:RefSeq_peptide;Acc:NP_508050]			
set-28	Y73B3B.2	Y73B3B.2 [Source:RefSeq_peptide;Acc:NP_508049]		nucleus, 	
AC8.6	AC8.6		positive regulation of growth rate, 		
AC8.5	AC8.5				
AC8.4	AC8.4	AC8.11 [Source:RefSeq_peptide;Acc:NP_001021380]			
AC8.3	AC8.3	AC8.10 [Source:RefSeq_peptide;Acc:NP_001021379]			
AC8.7	AC8.7	AC8.12 [Source:RefSeq_peptide;Acc:NP_001021381]			
AC8.9	AC8.9				
AC8.11	AC8.11	AC8.11 [Source:RefSeq_peptide;Acc:NP_001021380]			
AC8.10	AC8.10	AC8.10 [Source:RefSeq_peptide;Acc:NP_001021379]			
AC8.12	AC8.12	AC8.12 [Source:RefSeq_peptide;Acc:NP_001021381]			
pme-6	AC8.1		DNA repair, 		
AC8.2	AC8.2				
Y108F1.3	Y108F1.3	Y108F1.3 [Source:RefSeq_peptide;Acc:NP_872261]	positive regulation of growth rate, 		
math-43	Y108F1.4	MATH (meprin-associated Traf homology) domain containing family member (math-43) [Source:RefSeq_peptide;Acc:NP_872263]			
Y108F1.5	Y108F1.5	Y108F1.5 [Source:RefSeq_peptide;Acc:NP_872264]			protein binding, helicase activity, 
Y108F1.1	Y108F1.1	Y47C4A.1 [Source:RefSeq_peptide;Acc:NP_508083]	proteolysis, 		ATP binding, metalloendopeptidase activity, 
Y47C4A.1	Y47C4A.1	Y47C4A.1 [Source:RefSeq_peptide;Acc:NP_508083]	proteolysis, 		ATP binding, metalloendopeptidase activity, 
Y47C4A.t1	Y47C4A.t1				
Y47C4A.t2	Y47C4A.t2				
R57.2	R57.2	R57.2 [Source:RefSeq_peptide;Acc:NP_508084]			
R57.1	R57.1	Glutamate carboxypeptidase 2 homolog (EC 3.4.17.21) (Glutamate carboxypeptidase II homolog). [Source:Uniprot/SWISSPROT;Acc:P91406]	proteolysis, 		peptidase activity, glutamate carboxypeptidase II activity, 
M02E1.2	M02E1.2	M02E1.2 [Source:RefSeq_peptide;Acc:NP_508086]			
M02E1.3	M02E1.3	M02E1.3 (M02E1.3) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_001029630]			
M02E1.1	M02E1.1	M02E1.1a [Source:RefSeq_peptide;Acc:NP_508087]			
C04E7.4	C04E7.4	C04E7.4 [Source:RefSeq_peptide;Acc:NP_741701]			
C04E7.3	C04E7.3	Uncharacterized protein C04E7.3. [Source:Uniprot/SWISSPROT;Acc:Q11194]			
C04E7.t1	C04E7.t1				
sor-3	C04E7.2	Sop-2 related protein 3. [Source:Uniprot/SWISSPROT;Acc:Q11193]	regulation of transcription, 	nucleus, 	
C04E7.1	C04E7.1	Uncharacterized protein C04E7.1. [Source:Uniprot/SWISSPROT;Acc:Q11192]			
C04E7.5	C04E7.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPI9]			
R04A9.2	R04A9.2	R04A9.2 [Source:RefSeq_peptide;Acc:NP_508092]			
R04A9.3	R04A9.3	R04A9.3 [Source:RefSeq_peptide;Acc:NP_508093]			
ife-2	R04A9.4	The ife-2 gene encodes a member of the Initiation Factor 4E (eIF4E) family. [Source: WormBase]	translational initiation, 	cytoplasm, 	RNA binding, protein binding, translation initiation factor activity, 
R04A9.5	R04A9.5		regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
R04A9.7	R04A9.7		protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, transcription factor activity, 
R04A9.6	R04A9.6	R04A9.6 [Source:RefSeq_peptide;Acc:NP_508096]			
R04A9.1	R04A9.1	R04A9.1 [Source:RefSeq_peptide;Acc:NP_508097]			
ZK1193.2	ZK1193.2	ZK1193.2 [Source:RefSeq_peptide;Acc:NP_508098]			sugar binding, 
R04A9.t1	R04A9.t1				
ZK1193.3	ZK1193.3	ZK1193.3 [Source:RefSeq_peptide;Acc:NP_508099]			
col-19	ZK1193.1	col-19 encodes a member of the collagen superfamily containing collagen triple helix repeats (20 copies) that is required for normal structure of the alae. expressed during the L2-to-dauer and L4-to-adult molts with strongest expression in adult animals. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, collagen and cuticulin-based cuticle development, 	integral to membrane, cytoplasm, extracellular region, 	structural constituent of cuticle, alpha2-adrenergic receptor activity, 
ZK1193.4	ZK1193.4	ZK1193.4 [Source:RefSeq_peptide;Acc:NP_508101]			
dve-1	ZK1193.5	dve-1 encodes, by alternative splicing, three proteins with a COMPASS (CMP) domain and two homeodomains. dve-1 interacts with two or more components of the EGF/RAS signalling pathway, and is required for such signalling in vulval development. the CMP domain is found in the N-terminus of SATB-class CUT homeodomain proteins (e.g. human SATB1), and in Drosophila DEFECTIVE PROVENTRICULUS (DVE), to which DVE-1 may be orthologous. both DVE and dve-1 encode two homeodomains which are highly divergent, but homologous between species, and probably derived by intragenic duplication. dve-1 is required for a normally high rate of growth, fluid excretion, and larval viability in in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
F52D1.2	F52D1.2	F52D1.2 [Source:RefSeq_peptide;Acc:NP_508103]			
pqn-40	F52D1.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	alpha1-adrenergic receptor activity, 
F52D1.1	F52D1.1	F52D1.1 [Source:RefSeq_peptide;Acc:NP_508105]	carbohydrate metabolic process, 		protein binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 
F38G1.3	F38G1.3	F38G1.3 [Source:RefSeq_peptide;Acc:NP_001033547]			
che-2	F38G1.1	che-2 encodes a protein that contains G-protein beta-like WD-40 repeats that affects chemotaxis, dauer formation, and longevity. expressed in the cilia of most ciliated sensory neurons, some head neurons, and male tail rays. [Source: WormBase]	dauer larval development, cilium biogenesis, 		
F38G1.t1	F38G1.t1				
egl-17	F38G1.2	The egl-17 gene encodes a fibroblast growth factor-like protein that is expressed in the gonadal cells required to attract the sex myoblasts to their precise final positions. [Source: WormBase]			growth factor activity, 
F38G1.t2	F38G1.t2				
B0310.1	B0310.1	Uncharacterized protein B0310.1. [Source:Uniprot/SWISSPROT;Acc:Q10937]			
B0310.2	B0310.2	Putative zinc finger protein B0310.2. [Source:Uniprot/SWISSPROT;Acc:Q10938]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
B0310.3	B0310.3	Uncharacterized protein B0310.3. [Source:Uniprot/SWISSPROT;Acc:Q10939]			
B0310.4	B0310.4	Uncharacterized protein B0310.4. [Source:Uniprot/SWISSPROT;Acc:Q10940]			
ugt-46	B0310.5	Putative UDP-glucuronosyltransferase ugt-46 precursor (EC 2.4.1.17) (UDPGT 46). [Source:Uniprot/SWISSPROT;Acc:Q10941]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		protein binding, transferase activity, transferring hexosyl groups, carbohydrate binding, 
B0310.6	B0310.6	Uncharacterized protein B0310.6. [Source:Uniprot/SWISSPROT;Acc:Q10942]			
F28C10.3	F28C10.3	F28C10.3 [Source:RefSeq_peptide;Acc:NP_508114]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F28C10.4	F28C10.4	F28C10.4 [Source:RefSeq_peptide;Acc:NP_508115]			
F28C10.1	F28C10.1	F28C10.1 [Source:RefSeq_peptide;Acc:NP_508117]			
F57C12.2	F57C12.2	F57C12.2 [Source:RefSeq_peptide;Acc:NP_508118]	DNA repair, 	cytoplasm, nucleus, 	protein binding, GTP binding, 
hlh-19	F57C12.3	Helix Loop Helix family member (hlh-19) [Source:RefSeq_peptide;Acc:NP_508119]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
nas-38	F57C12.1	Zinc metalloproteinase nas-38 precursor (EC 3.4.24.21) (Nematode astacin 38). [Source:Uniprot/SWISSPROT;Acc:Q20942]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
mrp-2	F57C12.4	mrp-2 encodes a predicted multidomain transmembrane protein that is a member of the ATP-binding cassette (ABC) superfamily of transport proteins and is homologous to the human multidrug resistance-associated protein 1 (MRP1, OMIM:158343). by homology, MRP-2 is predicted to function as a membrane pump that couples the energy of ATP hydrolysis to membrane transport. as loss of MRP-2 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of MRP-2 in C. elegans development and/or behavior is not yet known. mrp-2 expression is, however, upregulated early in the exit from the alternative dauer stage and then remains induced, suggesting that MRP-2 activity is required for the transition to, and maintenance of, a more active metabolic state. [Source: WormBase]	transport, 	integral to membrane, nucleus, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, DNA binding, 
mrp-1	F57C12.5	mrp-1 encodes an ATP-binding cassette (ABC) transporter most closely related to the multidrug resistance-associated proteins. mrp-1 activity is required for efficient RNA interference (RNAi) of a germline-expressed target, pop-1. [Source: WormBase]	transport, ion transport, small GTPase mediated signal transduction, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, GTP binding, chloride channel activity, 
F13C5.2	F13C5.2	F13C5.2 [Source:RefSeq_peptide;Acc:NP_508124]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, chromatin, 	DNA binding, 
F13C5.3	F13C5.3	F13C5.3 [Source:RefSeq_peptide;Acc:NP_508125]			
F13C5.4	F13C5.4	F13C5.4 [Source:RefSeq_peptide;Acc:NP_508126]			
F13C5.1	F13C5.1	F13C5.1 [Source:RefSeq_peptide;Acc:NP_508127]	transport, 		
F13C5.5	F13C5.5	Uncharacterized protein F13C5.5 precursor. [Source:Uniprot/SWISSPROT;Acc:O76565]			
unc-96	F13C5.6	unc-96 encodes a novel protein without obvious homology to other proteins. unc-96 was identified in screens for mutations that disrupt body-wall muscle cell structure and is required for myofilament assembly, maintenance of muscle organization in response to muscle contraction, and normal locomotion. mutations in unc-96 interact genetically with mutations in unc-54, unc-98, and unc-105, which encode a muscle-specific myosin heavy chain, zinc finger protein, and degenerin, respectively. antibody staining indicates that UNC-96 localizes to M-lines, while GFP tagging indicates that UNC-96 localizes to both M-lines and dense bodies. [Source: WormBase]			
M6.4	M6.4	M6.4 [Source:RefSeq_peptide;Acc:NP_508130]			
pha-2	M6.3	pha-2 encodes a homeodomain protein that is orthologous to vertebrate Hex proteins required for the development of B lymphocytes and organs derived from foregut endoderm. in C. elegans, pha-2 is essential for proper development and morphogenesis of the pm5 pharyngeal muscles cells during late stages of embryogenesis. in regulating pm5 fate specification, PHA-2 appears to act downstream of the organ identity factor PHA-4, and upstream of ceh-22, whose expression it may negatively regulate in pm5. a rescuing PHA-2::GFP reporter is expressed in pharyngeal cells, intestinal-rectal cells, and postembryonic head neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, pharyngeal muscle development, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ifc-2	M6.1	ifc-2 encodes three isoforms of an intermediate filament protein dispensable for viability but required for normal movement, growth rate, body size, body shape, and cuticle strength. IFC-2 is present in the cytoplasm of intestinal cells, and at the desmosomes of intestinal and pharyngeal cells. [Source: WormBase]	vesicle-mediated transport, positive regulation of multicellular organism growth, 	membrane, 	protein binding, structural molecule activity, 
T19D7.3	T19D7.3	T19D7.3 [Source:RefSeq_peptide;Acc:NP_508134]			
T19D7.2	T19D7.2	T19D7.2 [Source:RefSeq_peptide;Acc:NP_508135]			
T19D7.4	T19D7.4	T19D7.4 [Source:RefSeq_peptide;Acc:NP_508136]			
T19D7.5	T19D7.5	T19D7.5 [Source:RefSeq_peptide;Acc:NP_508137]			
T19D7.6	T19D7.6	T19D7.6 [Source:RefSeq_peptide;Acc:NP_508138]			protein binding, 
T19D7.1	T19D7.1	T19D7.1 [Source:RefSeq_peptide;Acc:NP_508139]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
T19D7.7	T19D7.7	T19D7.7 [Source:RefSeq_peptide;Acc:NP_508140]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
Y9C12A.1	Y9C12A.1	Y9C12A.1 [Source:RefSeq_peptide;Acc:NP_508141]			
ncam-1	F02G3.1	NCAM (neural cell adhesion molecule) homolog family member (ncam-1) [Source:RefSeq_peptide;Acc:NP_741708]	cell adhesion, 	membrane, 	
irk-2	M02A10.2	irk-2 encodes an inwardly rectifying potassium channel based on sequence homology to the the human potassium channel genes KCNJ1/KCNJ2. [Source: WormBase]	potassium ion transport, 	membrane, 	inward rectifier potassium channel activity, G-protein activated inward rectifier potassium channel activity, 
M02A10.1	M02A10.1	M02A10.1 [Source:RefSeq_peptide;Acc:NP_508144]			
sli-1	M02A10.3	Suppressor of LIneage defect family member (sli-1) [Source:RefSeq_peptide;Acc:NP_508145]	cell surface receptor linked signal transduction, 	nucleus, 	protein binding, zinc ion binding, signal transducer activity, calcium ion binding, 
C02H7.2	C02H7.2	C02H7.2 [Source:RefSeq_peptide;Acc:NP_508147]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
aex-3	C02H7.3	The aex-3 gene encodes a guanine nucleotide exchange factor for the rab-3 GTPase that is orthologous to human MAP kinase activating protein containing death domain (MADD, OMIM:603584). AEX-3 is required for intracellular vesicle trafficking as well as synaptic vesicle release and interacts with CAB-1 and RAB-3 to regulate separate pathways for neural activities such as defecation and male mating, respectively. AEX-3 is also required for egg laying and locomotion. AEX-3 is expressed in nearly all neurons. [Source: WormBase]	synaptic transmission, 		
C02H7.1	C02H7.1	C02H7.1 [Source:RefSeq_peptide;Acc:NP_508149]			
T04G9.5	T04G9.5	T04G9.5 [Source:RefSeq_peptide;Acc:NP_508150]	embryonic development ending in birth or egg hatching, peptide cross-linking, 	integral to membrane, endoplasmic reticulum, 	protein-glutamine gamma-glutamyltransferase activity, 
ile-2	T04G9.3	Intracellular LEctin family member (ile-2) [Source:RefSeq_peptide;Acc:NP_508151]	embryonic development ending in birth or egg hatching, 	membrane, 	sugar binding, 
T04G9.7	T04G9.7	T04G9.7 [Source:RefSeq_peptide;Acc:NP_508152]	embryonic development ending in birth or egg hatching, 		
T04G9.4	T04G9.4	T04G9.4 [Source:RefSeq_peptide;Acc:NP_508153]	macromolecule biosynthetic process, biological_process, 		magnesium ion binding, phosphopantetheinyltransferase activity, 
nas-15	T04G9.2	Zinc metalloproteinase nas-15 precursor (EC 3.4.24.21) (Nematode astacin 15). [Source:Uniprot/SWISSPROT;Acc:P55115]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
T04G9.6	T04G9.6	T04G9.6 [Source:RefSeq_peptide;Acc:NP_508155]			
T04G9.1	T04G9.1	T04G9.1 [Source:RefSeq_peptide;Acc:NP_508156]			
F25E2.1	F25E2.1	F25E2.1 [Source:RefSeq_peptide;Acc:NP_508157]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F25E2.2	F25E2.2	F25E2.2 [Source:RefSeq_peptide;Acc:NP_508158]	embryonic development ending in birth or egg hatching, 		
F25E2.3	F25E2.3	F25E2.3 [Source:RefSeq_peptide;Acc:NP_508159]	acyl-CoA metabolic process, 		acyl-CoA thioesterase activity, 
ifd-2	F25E2.4	ifd-2 encodes a nonessential intermediate filament protein. IFD-2 is predicted to function as a structural component of the cytoskeleton. IFD-2 has no obvious function in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural molecule activity, 
daf-3	F25E2.5	daf-3 encodes a co-SMAD protein that is most closely related to Drosophila Medea and the vertebrate Smad4 proteins. DAF-3 functions as a transcriptional regulator that is required for formation of the alternative dauer larval stage as well as for regulation of pharyngeal gene expression during non-dauer development. DAF-3 activity is antagonized by signaling through the DAF-7/TGF-beta pathway which promotes reproductive growth. in yeast two-hybrid studies, DAF-3 interacts with SMA-3, another Smad protein that does not appear to have a role in dauer formation. in vitro, DAF-3 binds the organ-specific C subelement in the promoter of the pharyngeal muscle-specific myosin myo-2 and in vivo, suppresses the enhancer activity of this element during larval development. a DAF-3::GFP fusion protein is expressed in many tissues that undergo remodeling during dauer development, including the gut, nervous system and pharynx. DAF-3 localizes predominantly to the cytoplasm, but is also found in the nucleus in association with mitotic chromosomes. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of transcription from RNA polymerase II promoter, 	intracellular, 	protein binding, 
F39H12.2	F39H12.2	F39H12.2 [Source:RefSeq_peptide;Acc:NP_508163]	embryonic development ending in birth or egg hatching, 		
F39H12.1	F39H12.1	F39H12.1 [Source:RefSeq_peptide;Acc:NP_508164]			protein binding, 
F39H12.3	F39H12.3	F39H12.3 [Source:RefSeq_peptide;Acc:NP_508165]	signal transduction, 		cAMP-dependent protein kinase regulator activity, 
igcm-1	F39H12.4	ImmunoGlobulin-like Cell adhesion Molecule family member (igcm-1) [Source:RefSeq_peptide;Acc:NP_508166]			
F56F10.2	F56F10.2	F56F10.2 [Source:RefSeq_peptide;Acc:NP_508167]			
F56F10.3	F56F10.3	Cysteine dioxygenase (EC 1.13.11.20) (CDO). [Source:Uniprot/SWISSPROT;Acc:Q20893]	L-cysteine metabolic process, 		iron ion binding, cysteine dioxygenase activity, 
F56F10.4	F56F10.4	F56F10.4 [Source:RefSeq_peptide;Acc:NP_508169]			
F56F10.t1	F56F10.t1				
F56F10.1	F56F10.1	Putative serine protease F56F10.1 precursor (EC 3.4.-.-). [Source:Uniprot/SWISSPROT;Acc:P90893]	proteolysis, 		serine-type peptidase activity, 
ZC13.1	ZC13.1	ZC13.1a [Source:RefSeq_peptide;Acc:NP_001024969]			protein binding, zinc ion binding, 
ZC13.2	ZC13.2	ZC13.2 [Source:RefSeq_peptide;Acc:NP_508172]			
ZC13.3	ZC13.3	ZC13.3 [Source:RefSeq_peptide;Acc:NP_508173]	biological_process, 	membrane, 	
mab-7	ZC13.4	mab-7 encodes a protein with a hydrophobic type II transmembrane region at the N-terminus, an EGF-like motif, a ShKT motif and a long C-terminus. mab-7 is involved in morphogenesis of the mail tail, specifically affecting the structural cells, neuronal processes and the hypodermal sheath of the sensory rays, as such, it affects mating in males. a mab-7 promoter-gfp construct is expressed in hypodermis, body seam, ray structural cells, and several neurons in the head and tail region. [Source: WormBase]			calcium ion binding, 
ZC13.10	ZC13.10	ZC13.10 [Source:RefSeq_peptide;Acc:NP_001033575]			
F35H12.6	F35H12.6	F35H12.6 [Source:RefSeq_peptide;Acc:NP_741711]			
sel-12	F35H12.3	sel-12 encodes a transmembrane domain protein orthologous to presenilins. during gonadal, germline, and vulval development, sel-12 functions, within receiving cells, to positively regulate lin-12 and glp-1 Notch-like signaling pathways. [Source: WormBase]	intracellular signaling cascade, Notch signaling pathway, nervous system development, detection of temperature stimulus, 	membrane, integral to membrane, 	molecular_function, 
F35H12.5	F35H12.5	Uncharacterized protein F35H12.5. [Source:Uniprot/SWISSPROT;Acc:Q8WT51]			catalytic activity, 
F35H12.4	F35H12.4	F35H12.4 [Source:RefSeq_peptide;Acc:NP_508177]			phosphotransferase activity, alcohol group as acceptor, 
F35H12.2	F35H12.2	F35H12.2b [Source:RefSeq_peptide;Acc:NP_508178]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
F35H12.7	F35H12.7	F35H12.7 [Source:RefSeq_peptide;Acc:NP_741712]			
F35H12.1	F35H12.1	F35H12.1 [Source:RefSeq_peptide;Acc:NP_508180]			
F53H8.3	F53H8.3	F53H8.3 [Source:RefSeq_peptide;Acc:NP_508181]	transport, carbohydrate transport, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
sms-2	F53H8.4	Putative phosphatidylcholine:ceramide cholinephosphotransferase 2 (EC 2.7.8.27) (Sphingomyelin synthase 2). [Source:Uniprot/SWISSPROT;Acc:Q20735]	sphingomyelin biosynthetic process, 	integral to membrane, 	ceramide cholinephosphotransferase activity, 
arr-1	F53H8.2	arr-1 encodes the C. elegans beta-arrestin ortholog (OMIM:107940, 107941, mice lacking beta-arrestin family members display defects in G protein-coupled receptor desensitization). by homology, ARR-1 is predicted to be a multifunctional adaptor protein that interacts with intracellular signaling molecules as well as activated and phosphorylated G protein-coupled and TGF-beta receptors to: 1) downregulate receptor signaling, 2) promote receptor endocytosis, and 3) activate MAP kinase- and Src-dependent signaling pathways. in vivo, arr-1 activity is required for normal egg laying and for proper olfactory adaptation and recovery to volatile odorants. in addition, animals doubly mutant for arr-1 and grk-2, which encodes a G protein-coupled receptor kinase, are sick and slow growing. ARR-1 is detected throughout the nervous system and is highly expressed in the amphid chemosensory neurons. in neuronal cells, ARR-1 appears to be largely cytoplasmic. ARR-1 interacts physically with clathrin and beta2-adaptin, two proteins involved in receptor endocytosis. [Source: WormBase]	signal transduction, sensory perception, multicellular organismal process, 		
apm-3	F53H8.1	apm-3 encodes an adaptin, orthologous to the mu3 subunit of adaptor protein complex 3 (AP-3). APM-3 is also orthologous to human HPS, which when mutated leads to Hermansky-Pudlak syndrome (OMIM:203300). based on structural similarity, APM-3 is predicted to be involved in the formation of intracellular transport vesicles, and genetic analyses indicate that apm-3 activity is required for biogenesis of lysosome-related gut granules. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	clathrin adaptor complex, 	protein transporter activity, protein binding, 
C44C1.2	C44C1.2	C44C1.2 [Source:RefSeq_peptide;Acc:NP_508185]	chitin catabolic process, 		chitinase activity, 
ncs-1	C44C1.3	The ncs-1 gene encodes a neuronal calcium sensor protein that, along with calcium, is essential for thermotaxis along isothermal paths in thermal gradients. [Source: WormBase]			calcium ion binding, 
C44C1.6	C44C1.6	C44C1.6 [Source:RefSeq_peptide;Acc:NP_741713]			
vps-45	C44C1.4	related to yeast Vacuolar Protein Sorting factor family member (vps-45) [Source:RefSeq_peptide;Acc:NP_741714]	vesicle-mediated transport, vesicle docking during exocytosis, reproduction, 		
C44C1.5	C44C1.5	Putative esterase C44C1.5 (EC 3.1.1.-). [Source:Uniprot/SWISSPROT;Acc:Q18610]			
C44C1.1	C44C1.1	C44C1.1 [Source:RefSeq_peptide;Acc:NP_508189]	positive regulation of growth rate, 		
dgk-1	C09E10.2	The dgk-1 gene encodes an ortholog of diacylglyerol kinase that affects movement, egg laying, and synaptic transmission. it genetically interacts with the goa-1 and egl-30 signaling pathways, and is expressed in neurons. [Source: WormBase]	intracellular signaling cascade, signal transduction, protein kinase C activation, negative regulation of locomotion, 		protein binding, zinc ion binding, nucleic acid binding, diacylglycerol kinase activity, 
F55A4.10	F55A4.10	F55A4.10 [Source:RefSeq_peptide;Acc:NP_508192]			
F55A4.2	F55A4.2	F55A4.2 [Source:RefSeq_peptide;Acc:NP_508193]			
F55A4.3	F55A4.3	F55A4.3 [Source:RefSeq_peptide;Acc:NP_508194]			
F55A4.4	F55A4.4	F55A4.4 [Source:RefSeq_peptide;Acc:NP_508195]		intracellular, 	double-stranded RNA binding, 
F55A4.5	F55A4.5	F55A4.5 [Source:RefSeq_peptide;Acc:NP_508196]		intracellular, 	double-stranded RNA binding, 
F55A4.1	F55A4.1	F55A4.1 [Source:RefSeq_peptide;Acc:NP_508198]	transport, vesicle-mediated transport, 	integral to membrane, 	
F55A4.7	F55A4.7	F55A4.7 [Source:RefSeq_peptide;Acc:NP_508199]			
F55A4.8	F55A4.8	F55A4.8a [Source:RefSeq_peptide;Acc:NP_741716]	transport, response to antibiotic, tetracycline transport, 	integral to membrane, 	transporter activity, tetracycline:hydrogen antiporter activity, 
ncs-3	K03E6.3	ncs-3 encodes a neuronal calcium sensor (NCS) protein with no obvious null phenotype. [Source: WormBase]			calcium ion binding, 
unc-1	K03E6.5	unc-1 encodes a homolog of human stomatin (OMIM:133090. deficient in stomatocytosis). UNC-1 protein is found in major nerve tracts, particularly in the nerve ring. unc-1 is required for anesthetic sensitivity. unc-24, which also encodes a stomatin homolog, is epistatic to unc-1 and is required for UNC-1 localization to the nerve ring. [Source: WormBase]	response to drug, 	membrane, 	
tza-2	K03E6.4	K03E6.4 [Source:RefSeq_peptide;Acc:NP_508203]			protein binding, 
lim-6	K03E6.1	lim-6 encodes a LIM class homeodomain protein that contains two Zinc-finger-like LIM domains N-terminal to a predicted DNA-binding homeodomain. LIM-6 is predicted to function as a transcription factor whose activity is required for regulating uterine morphogenesis and specific aspects of terminal neuronal differentiation, including normal axonal morphology, full expression of UNC-25/glutamic acid decarboxylase in select GABAergic neurons, and repression of sensory receptor gene expression in the ASEL chemosensory neuron. LIM-6 is expressed in a group of nine chemosensory-, inter-, and motorneurons, uterine toroid cells, spermathecal junction cells, and the binucleate excretory gland cell. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
pfn-3	K03E6.6	Profilin-3. [Source:Uniprot/SWISSPROT;Acc:Q21193]	actin cytoskeleton organization and biogenesis, cytoskeleton organization and biogenesis, 	actin cytoskeleton, 	actin binding, 
K03E6.7	K03E6.7	K03E6.7 [Source:RefSeq_peptide;Acc:NP_508206]	reproduction, 		
F49E7.t3	F49E7.t3				
F49E7.t1	F49E7.t1				
F49E7.t2	F49E7.t2				
F49E7.2	F49E7.2	F49E7.2 [Source:RefSeq_peptide;Acc:NP_508207]			
rme-6	F49E7.1	The primary phenotype of rme-6 animals is an accumulation of secreted GFP in the pseudocoelom, suggesting a decrease in, or the absence of, endocytosis in coelomocytes. [Source: WormBase]	endocytosis, regulation of small GTPase mediated signal transduction, 	intracellular, 	GTPase activator activity, 
ife-4	C05D9.5	The ife-4 gene encodes a member of the Initiation Factor 4E (eIF4E) family. [Source: WormBase]	translational initiation, 	cytoplasm, 	RNA binding, translation initiation factor activity, 
C05D9.4	C05D9.4	C05D9.4 [Source:RefSeq_peptide;Acc:NP_508211]			
C05D9.3	C05D9.3	Uncharacterized integrin beta-like protein C05D9.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9GYK2]	cell adhesion, multicellular organismal development, cell-matrix adhesion, integrin-mediated signaling pathway, 	integrin complex, 	binding, receptor activity, 
C05D9.7	C05D9.7	C05D9.7 [Source:RefSeq_peptide;Acc:NP_508213]			
C05D9.9	C05D9.9	C05D9.9a [Source:RefSeq_peptide;Acc:NP_001041215]			
lmp-2	C05D9.2	LAMP (lysosome-associated membrane protein) homolog family member (lmp-2) [Source:RefSeq_peptide;Acc:NP_508215]		membrane, 	
snx-1	C05D9.1	Sorting NeXin family member (snx-1) [Source:RefSeq_peptide;Acc:NP_508216]	cell communication, SRP-dependent cotranslational protein targeting to membrane, 	signal recognition particle, 	protein binding, GTP binding, phosphoinositide binding, 7S RNA binding, 
R193.2	R193.2	R193.2 [Source:RefSeq_peptide;Acc:NP_508218]	positive regulation of growth rate, 		
R193.3	R193.3	R193.3 [Source:RefSeq_peptide;Acc:NP_508219]			
R193.1	R193.1	R193.1 [Source:RefSeq_peptide;Acc:NP_508220]			
T13G4.3	T13G4.3	T13G4.3 [Source:RefSeq_peptide;Acc:NP_508221]		integral to membrane, 	
T13G4.2	T13G4.2	T13G4.2 [Source:RefSeq_peptide;Acc:NP_508222]			
T13G4.4	T13G4.4	T13G4.4 [Source:RefSeq_peptide;Acc:NP_508223]			homocysteine S-methyltransferase activity, 
T13G4.1	T13G4.1	T13G4.1 [Source:RefSeq_peptide;Acc:NP_508224]			
T13G4.5	T13G4.5	T13G4.5 [Source:RefSeq_peptide;Acc:NP_508225]			
T13G4.6	T13G4.6	T13G4.6 [Source:RefSeq_peptide;Acc:NP_508226]			
T13G4.7	T13G4.7	T13G4.7 [Source:RefSeq_peptide;Acc:NP_508227]			
C46H3.1	C46H3.1	C46H3.1 [Source:RefSeq_peptide;Acc:NP_508228]			
C46H3.2	C46H3.2	C46H3.2a [Source:RefSeq_peptide;Acc:NP_001024475]			
C46H3.3	C46H3.3	C46H3.3 [Source:RefSeq_peptide;Acc:NP_508230]			
C25G6.3	C25G6.3	C25G6.3 [Source:RefSeq_peptide;Acc:NP_508231]	metabolic process, 		catalytic activity, 
tsp-9	C25G6.2	C25G6.2 [Source:RefSeq_peptide;Acc:NP_508232]		integral to membrane, 	
C25G6.4	C25G6.4	C25G6.4 [Source:RefSeq_peptide;Acc:NP_508233]			
C25G6.5	C25G6.5	Putative neuropeptide Y receptor (NPY-R). [Source:Uniprot/SWISSPROT;Acc:Q18179]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
C25G6.1	C25G6.1	C25G6.1 [Source:RefSeq_peptide;Acc:NP_508235]			
C52B11.5	C52B11.5	C52B11.5 [Source:RefSeq_peptide;Acc:NP_508236]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
C52B11.4	C52B11.4	C52B11.4 [Source:RefSeq_peptide;Acc:NP_508237]	embryonic development ending in birth or egg hatching, 		
dop-4	C52B11.3	Dopamine receptor 4. [Source:Uniprot/SWISSPROT;Acc:Q18775]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, integral to synaptic vesicle membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, dopamine D1 receptor-like receptor activity, melanocortin receptor activity, adrenoceptor activity, 
tag-303	C52B11.2	Temporarily Assigned Gene name family member (tag-303) [Source:RefSeq_peptide;Acc:NP_508239]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, identical protein binding, 
H42K12.3	H42K12.3	H42K12.3 [Source:RefSeq_peptide;Acc:NP_508240]	blood coagulation, proteolysis, 	extracellular region, 	serine-type endopeptidase activity, 
H42K12.2	H42K12.2	H42K12.2 [Source:RefSeq_peptide;Acc:NP_508241]			
pdk-1	H42K12.1	pdk-1 encodes the C. elegans 3-phosphoinositide-dependent kinase 1 ortholog. PDK-1 is a component of the DAF-2/insulin receptor-like signaling pathway and accordingly, functions to regulate such processes as dauer larvae formation, longevity, and salt chemotaxis learning. genetic analyses indicate that, in regulating dauer arrest, PDK-1 acts downstream of AGE-1/PI3K and upstream of the AKT-1 and AKT-2 kinases. a PDK-1::GFP fusion protein is expressed broadly beginning in late stage embryos and continuing on through adulthood. expression is seen in head, tail, and ventral cord motor neurons, pharyngeal tissues, hypodermal cells, the intestine, and the somatic gonad. in neurons, the PDK-1::GFP localizes to cell bodies and processes, with occasional expression seen in some neuronal nuclei. [Source: WormBase]	protein amino acid phosphorylation, dauer larval development, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F21E9.2	F21E9.2	F21E9.2 [Source:RefSeq_peptide;Acc:NP_508244]			
F21E9.3	F21E9.3	F21E9.3 [Source:RefSeq_peptide;Acc:NP_508245]			
ins-39	F21E9.4	ins-39 encodes an insulin-like peptide. [Source: WormBase]			
F21E9.6	F21E9.6	F21E9.6 [Source:RefSeq_peptide;Acc:NP_508249]			
F56C3.3	F56C3.3	F56C3.3 [Source:RefSeq_peptide;Acc:NP_508250]			
F56C3.4	F56C3.4	F56C3.4 [Source:RefSeq_peptide;Acc:NP_508251]			
F56C3.5	F56C3.5	F56C3.5 [Source:RefSeq_peptide;Acc:NP_508252]			
dgn-2	F56C3.6	DystroGlycaN family member (dgn-2) [Source:RefSeq_peptide;Acc:NP_508253]			
F56C3.7	F56C3.7	F56C3.7 [Source:RefSeq_peptide;Acc:NP_508254]			
fbxa-190	F56C3.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F56C3.t1	F56C3.t1				
F56C3.10	F56C3.10	F56C3.10 [Source:RefSeq_peptide;Acc:NP_001033552]			
F56C3.8	F56C3.8	F56C3.8 [Source:RefSeq_peptide;Acc:NP_508256]			
F56C3.1	F56C3.1	F56C3.1 [Source:RefSeq_peptide;Acc:NP_508257]			
F56C3.9	F56C3.9	F56C3.9 [Source:RefSeq_peptide;Acc:NP_508258]			
H39E20.1	H39E20.1	H39E20.1 [Source:RefSeq_peptide;Acc:NP_508259]			
ZK402.5	ZK402.5	ZK402.5 [Source:RefSeq_peptide;Acc:NP_508261]			
ZK402.3	ZK402.3	ZK402.3 [Source:RefSeq_peptide;Acc:NP_508262]			
ZK402.2	ZK402.2	ZK402.2 [Source:RefSeq_peptide;Acc:NP_508263]			
ZK402.1	ZK402.1	ZK402.1 [Source:RefSeq_peptide;Acc:NP_508264]			
abu-2	F19G12.7	abu-2 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-2 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-2 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			
srh-19	F19G12.5	Serpentine Receptor, class H family member (srh-19) [Source:RefSeq_peptide;Acc:NP_508266]			
F19G12.4	F19G12.4	F19G12.4 [Source:RefSeq_peptide;Acc:NP_508267]			
F19G12.3	F19G12.3	F19G12.3 [Source:RefSeq_peptide;Acc:NP_508268]			
F19G12.2	F19G12.2	F19G12.2 [Source:RefSeq_peptide;Acc:NP_508269]	DNA repair, deoxyribonucleoside diphosphate metabolic process, 		oxidoreductase activity, transition metal ion binding, ribonucleoside-diphosphate reductase activity, 
F19G12.1	F19G12.1	F19G12.1 [Source:RefSeq_peptide;Acc:NP_508270]			protein binding, zinc ion binding, 
F19G12.t1	F19G12.t1				
W05H7.2	W05H7.2	W05H7.2 [Source:RefSeq_peptide;Acc:NP_508271]			
sedl-1	W05H7.3	human SEDL (spondyloepiphyseal dysplasia tarda) related family member (sedl-1) [Source:RefSeq_peptide;Acc:NP_508272]	transport, ER to Golgi vesicle-mediated transport, 	intracellular, 	
W05H7.4	W05H7.4	W05H7.4b [Source:RefSeq_peptide;Acc:NP_741719]			protein binding, zinc ion binding, nucleic acid binding, 
W05H7.1	W05H7.1	W05H7.1 [Source:RefSeq_peptide;Acc:NP_508275]			
D1005.3	D1005.3	D1005.3 [Source:RefSeq_peptide;Acc:NP_508276]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
D1005.2	D1005.2	D1005.2 [Source:RefSeq_peptide;Acc:NP_508277]	metabolic process, 		nucleotidyltransferase activity, 
D1005.6	D1005.6	D1005.6 [Source:RefSeq_peptide;Acc:NP_508278]			
D1005.5	D1005.5	D1005.5 [Source:RefSeq_peptide;Acc:NP_508279]			
D1005.t1	D1005.t1				
D1005.1	D1005.1	Probable ATP-citrate synthase (EC 2.3.3.8) (ATP-citrate (pro-S-)- lyase) (Citrate cleavage enzyme). [Source:Uniprot/SWISSPROT;Acc:P53585]	metabolic process, 		catalytic activity, 
D1005.4	D1005.4	D1005.4 [Source:RefSeq_peptide;Acc:NP_508281]			
dhs-25	F09E10.3	dhs-25 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F09E10.5	F09E10.5	F09E10.5 [Source:RefSeq_peptide;Acc:NP_508283]			
F09E10.6	F09E10.6	F09E10.6 [Source:RefSeq_peptide;Acc:NP_508284]			
F09E10.7	F09E10.7	F09E10.7a [Source:RefSeq_peptide;Acc:NP_001024545]			
F09E10.1	F09E10.1	F09E10.1 [Source:RefSeq_peptide;Acc:NP_508286]			
NR_000459.1	F09E10.10	F09E10.10, miscRNA [Source:RefSeq_dna;Acc:NR_000459]			
toca-1	F09E10.8	TOCA (Transducer Of Cdc42-dependent Actin assembly) homolog family member (toca-1) [Source:RefSeq_peptide;Acc:NP_741723]	signal transduction, 	intracellular, 	
K06A9.3	K06A9.3	K06A9.3 [Source:RefSeq_peptide;Acc:NP_508290]			calcium ion binding, 
K06A9.2	K06A9.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
K06A9.1	K06A9.1	The K06A9.1 gene encodes an homolog of human TCOF1, which when mutated leads to Treacher-Collins syndrome (OMIM:154500). [Source: WormBase]	metabolic process, 	cytoplasm, 	ATP binding, phosphotransferase activity, alcohol group as acceptor, kinase activity, 
H02F09.3	H02F09.3	H02F09.3 [Source:RefSeq_peptide;Acc:NP_508295]	transport, 	membrane, 	ATP binding, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
H02F09.2	H02F09.2	H02F09.2 [Source:RefSeq_peptide;Acc:NP_508296]			
wrt-9	B0344.2	wrt-9 encodes a hedgehog-like protein, with an N-terminal signal sequence, a Wart domain, and a C-terminal region of proline-rich, low-complexity sequence. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-9 has no obvious function in RNAi assays. [Source: WormBase]			
B0344.t3	B0344.t3				
B0344.t2	B0344.t2				
B0344.t1	B0344.t1				
B0344.1	B0344.1				
H11E01.3	H11E01.3	H11E01.3 [Source:RefSeq_peptide;Acc:NP_508299]	embryonic development ending in birth or egg hatching, 		
H11E01.t1	H11E01.t1				
H11E01.2	H11E01.2	H11E01.2 [Source:RefSeq_peptide;Acc:NP_508300]	transport, 	integral to membrane, 	transporter activity, 
fbxb-58	H11E01.1	F-box B protein family member (fbxb-58) [Source:RefSeq_peptide;Acc:NP_508301]			
ZK380.t1	ZK380.t1				
ZK380.2	ZK380.2	ZK380.2 [Source:RefSeq_peptide;Acc:NP_508302]	signal transduction, 	intracellular, 	
ZK380.3	ZK380.3				
ZK380.t2	ZK380.t2				
ZK380.5	ZK380.5	ZK380.5 [Source:RefSeq_peptide;Acc:NP_001033578]			
ZK380.4	ZK380.4	ZK380.4 [Source:RefSeq_peptide;Acc:NP_508303]			
tbx-32	ZK380.1	Putative T-box protein 32. [Source:Uniprot/SWISSPROT;Acc:O61764]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
R09H3.1	R09H3.1	R09H3.1 [Source:RefSeq_peptide;Acc:NP_508305]			
R09H3.3	R09H3.3	R09H3.3 [Source:RefSeq_peptide;Acc:NP_508307]			
tbx-31	C36C9.2	tbx-31 encodes a diverged member of the T-box transcription factor family. by homology, TBX-31 is predicted to function as a transcriptional regulator during development, but as loss of tbx-31 activity via RNAi results in no obvious defects, the precise role of TBX-31 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
fbxa-170	C36C9.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C36C9.1	C36C9.1	C36C9.1 [Source:RefSeq_peptide;Acc:NP_508310]			protein binding, 
C36C9.6	C36C9.6	C36C9.6 [Source:RefSeq_peptide;Acc:NP_001033530]			calcium ion binding, 
C36C9.t3	C36C9.t3				
C36C9.4	C36C9.4	C36C9.4 [Source:RefSeq_peptide;Acc:NP_508311]			
C36C9.t1	C36C9.t1				
C36C9.t2	C36C9.t2				
C36C9.5	C36C9.5	C36C9.5 [Source:RefSeq_peptide;Acc:NP_508312]			
F07G6.5	F07G6.5	F07G6.5 [Source:RefSeq_peptide;Acc:NP_508313]			
fbxa-52	F07G6.6	F-box A protein family member (fbxa-52) [Source:RefSeq_peptide;Acc:NP_508314]			
F07G6.9	F07G6.9	F07G6.9 [Source:RefSeq_peptide;Acc:NP_001033538]			
fbxa-53	F07G6.7	F-box A protein family member (fbxa-53) [Source:RefSeq_peptide;Acc:NP_508315]			
F07G6.8	F07G6.8	F07G6.8 [Source:RefSeq_peptide;Acc:NP_508316]			
F07G6.3	F07G6.3	F07G6.3 [Source:RefSeq_peptide;Acc:NP_508317]			
F07G6.2	F07G6.2	F07G6.2 [Source:RefSeq_peptide;Acc:NP_508318]			
dgn-3	F07G6.1	DystroGlycaN family member (dgn-3) [Source:RefSeq_peptide;Acc:NP_508319]			
F07G6.10	F07G6.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ3]			
Y75D11A.2	Y75D11A.2	Y75D11A.2 [Source:RefSeq_peptide;Acc:NP_508320]			
Y75D11A.3	Y75D11A.3	Y75D11A.3 [Source:RefSeq_peptide;Acc:NP_508321]			
Y75D11A.6	Y75D11A.6	Y75D11A.6 [Source:RefSeq_peptide;Acc:NP_001033573]			
Y75D11A.1	Y75D11A.1	ZC190.9 [Source:RefSeq_peptide;Acc:NP_505240]			
Y75D11A.t2	Y75D11A.t2				
W03H1.t1	W03H1.t1				
elc-2	W03H1.2	elc-2 encodes a protein containing a Skp1 dimerisation domain that has homology to human transcription elongation factor B (SIII), polypeptide I (15kD, elonginsC). [Source: WormBase]			
F31A9.4	F31A9.4	F31A9.4 [Source:RefSeq_peptide;Acc:NP_508326]			
arg-1	F31A9.3	arg-1 encodes a member of the Delta/Serrate/LAG-2 family of transmembrane signaling ligands. arg-1 mediates cell fate decisions during early embryogenesis and in addition, is a downstream target of HLH-8/CeTwist, which binds E box sequences in the arg-1 promoter and is required for fate specification of a subset of mesodermal cells. arg-1 is closely related to apx-1 and lag-2 and is functionally interchangeable with them. an arg-1::gfp reporter is expressed in the vm1 vulval muscles, the intestinal, anal depressor, and anal sphincter muscles, and the head mesoderm cell. [Source: WormBase]	cell communication, 	membrane, 	calcium ion binding, 
F31A9.2	F31A9.2	F31A9.2 [Source:RefSeq_peptide;Acc:NP_508329]	embryonic development ending in birth or egg hatching, 		
F31A9.1	F31A9.1	F31A9.1 [Source:RefSeq_peptide;Acc:NP_508330]			
C14E2.2	C14E2.2	C14E2.2 [Source:RefSeq_peptide;Acc:NP_508331]	amino acid metabolic process, biosynthetic process, 		pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, 
C14E2.3	C14E2.3	C14E2.3 [Source:RefSeq_peptide;Acc:NP_508332]			
C14E2.7	C14E2.7	C14E2.7 [Source:RefSeq_peptide;Acc:NP_001033525]			
C14E2.4	C14E2.4	C14E2.4 [Source:RefSeq_peptide;Acc:NP_508333]	protein metabolic process, 		oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors, 
C14E2.5	C14E2.5	C14E2.5 [Source:RefSeq_peptide;Acc:NP_508334]			
C14E2.1	C14E2.1	C14E2.1 [Source:RefSeq_peptide;Acc:NP_508335]			
C14E2.6	C14E2.6	C14E2.6 [Source:RefSeq_peptide;Acc:NP_508336]	lipid metabolic process, 		triacylglycerol lipase activity, 
C14E2.t1	C14E2.t1				
T26C11.2	T26C11.2	T26C11.2 [Source:RefSeq_peptide;Acc:NP_508337]			nutrient reservoir activity, 
T26C11.3	T26C11.3	T26C11.3 [Source:RefSeq_peptide;Acc:NP_508338]			
T26C11.4	T26C11.4	T26C11.4 [Source:RefSeq_peptide;Acc:NP_508339]			
ceh-41	T26C11.5	ceh-41 encodes a a ONECUT class CUT homeobox protein with a single N-terminal OCAM domain. the OCAM domain is a nematode-specific motif conserved between CEH-21, CEH-41, and T02B5.2. ceh-41 is one of three nematode-specific ONECUT genes in a cluster with ceh-21 and ceh-39. ceh-41 has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ceh-21	T26C11.6	ceh-21 encodes a a ONECUT class CUT homeobox protein with a single N-terminal cut domain and an OCAM domain. the cut domain may be a compact DNA-binding domain composed of alpha helices. the OCAM domain is a nematode-specific motif conserved between CEH-21, CEH-41, and T02B5.2. ceh-21 is one of three nematode-specific ONECUT genes in a cluster with ceh-39 and ceh-41. CEH-21 may be required for muscle formation and differentiation, and is expressed in muscle precursor cells and differentiated gut cells. ceh-21 has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
ceh-39	T26C11.7	ceh-39 encodes a a ONECUT class CUT homeobox protein with a single N-terminal cut domain. CEH-39 acts as an X-signal element (XSE) to affect sex determination. the cut domain may be a compact DNA-binding domain composed of alpha helices. ceh-39 is one of three nematode-specific ONECUT genes in a cluster with ceh-21 and ceh-41. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
T26C11.t1	T26C11.t1				
T26C11.8	T26C11.8	T26C11.8 [Source:RefSeq_peptide;Acc:NP_001033566]			
tbx-41	T26C11.1	Putative T-box protein 41. [Source:Uniprot/SWISSPROT;Acc:Q22813]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
Y59E1B.2	Y59E1B.2	Y59E1B.2 [Source:RefSeq_peptide;Acc:NP_508344]			
Y59E1B.1	Y59E1B.1	Y59E1B.1 [Source:RefSeq_peptide;Acc:NP_508345]			
Y59E1B.t2	Y59E1B.t2				
Y59E1B.t1	Y59E1B.t1				
B0294.3	B0294.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
B0294.1	B0294.1	B0294.1 [Source:RefSeq_peptide;Acc:NP_508348]			
ZC53.1	ZC53.1	ZC53.1 [Source:RefSeq_peptide;Acc:NP_508349]			
rgs-9	ZC53.7	Regulator of G-protein signaling rgs-9. [Source:Uniprot/SWISSPROT;Acc:Q23376]	embryonic development ending in birth or egg hatching, 		signal transducer activity, 
ZC53.6	ZC53.6	ZC53.6 [Source:RefSeq_peptide;Acc:NP_508351]			
ZC53.2	ZC53.2	ZC53.2 [Source:RefSeq_peptide;Acc:NP_508352]			
ZC53.4	ZC53.4	ZC53.4 [Source:RefSeq_peptide;Acc:NP_508353]			
fbxa-40	Y59E1A.1	fbxa-40 encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. FBXA-40 also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			oxidoreductase activity, transition metal ion binding, 
rgs-8.2	Y59E1A.2	Regulator of G protein Signaling family member (rgs-8.1) [Source:RefSeq_peptide;Acc:NP_508359]			signal transducer activity, 
fbxa-41	F52D2.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			oxidoreductase activity, transition metal ion binding, 
rgs-8.1	F52D2.2	Regulator of G protein Signaling family member (rgs-8.1) [Source:RefSeq_peptide;Acc:NP_508359]			signal transducer activity, 
fbxa-17	F52D2.10	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
F52D2.7	F52D2.7	F52D2.7 [Source:RefSeq_peptide;Acc:NP_508362]			
str-79	F52D2.9	Seven TM Receptor family member (str-79) [Source:RefSeq_peptide;Acc:NP_508363]			
F52D2.5	F52D2.5	F52D2.5 [Source:RefSeq_peptide;Acc:NP_508364]			
F52D2.6	F52D2.6	F52D2.6 [Source:RefSeq_peptide;Acc:NP_508365]			
fbxa-46	F52D2.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
gei-12	F52D2.4	gei-12 encodes a novel protein that affects embryonic viability and development of the hypodermis. interacts with GEX-3 in yeast two-hybrid assays, and is expressed in all somatic cells. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
Y40A1A.2	Y40A1A.2	Y40A1A.2 [Source:RefSeq_peptide;Acc:NP_508368]			
Y40A1A.3	Y40A1A.3	Y40A1A.3 [Source:RefSeq_peptide;Acc:NP_508369]			
Y40A1A.1	Y40A1A.1	Y40A1A.1 [Source:RefSeq_peptide;Acc:NP_001024960]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
Y102A11A.9	Y102A11A.9	Y102A11A.9 [Source:RefSeq_peptide;Acc:NP_741724]			nucleotide binding, 
Y102A11A.3	Y102A11A.3	Y102A11A.3 [Source:RefSeq_peptide;Acc:NP_508372]	biological_process, 		protein binding, 
Y102A11A.2	Y102A11A.2	Y102A11A.2a [Source:RefSeq_peptide;Acc:NP_001024950]			protein binding, 
Y102A11A.5	Y102A11A.5	Y102A11A.5 [Source:RefSeq_peptide;Acc:NP_508374]			
Y102A11A.6	Y102A11A.6	Y102A11A.6 [Source:RefSeq_peptide;Acc:NP_508375]			
Y102A11A.7	Y102A11A.7	Y102A11A.7 [Source:RefSeq_peptide;Acc:NP_508376]			
Y102A11A.8	Y102A11A.8	Y102A11A.8 [Source:RefSeq_peptide;Acc:NP_508377]			
Y102A11A.1	Y102A11A.1	Y102A11A.1 [Source:RefSeq_peptide;Acc:NP_508378]			
F49H12.7	F49H12.7	F49H12.7 [Source:RefSeq_peptide;Acc:NP_001041254]			
acl-4	F49H12.6	acl-4 encodes a phosphate acyltransferase. ACL-4 is predicted to be a membrane protein that functions in phospholipid biosynthesis, but as loss of acl-4 activity via large-scale RNAi experiments results in no obvious defects, the precise role of ACL-4 in C. elegans development and/or behavior is not yet known. acl-4 expression can be detected in the pharynx, intestine, hypodermis, muscle, and reproductive system. [Source: WormBase]	metabolic process, 		acyltransferase activity, 
F49H12.5	F49H12.5	F49H12.5 [Source:RefSeq_peptide;Acc:NP_508381]	nucleosome assembly, 	nucleus, endoplasmic reticulum, nucleosome, 	DNA binding, 
F49H12.4	F49H12.4	F49H12.4 [Source:RefSeq_peptide;Acc:NP_508382]			
F49H12.3	F49H12.3	F49H12.3 [Source:RefSeq_peptide;Acc:NP_508383]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F49H12.2	F49H12.2	F49H12.2 [Source:RefSeq_peptide;Acc:NP_508384]			
lsy-2	F49H12.1	lsy-2 encodes a novel C2H2 zinc-finger transcription factor that is most closely related to other nematode zinc-finger proteins. during development, lsy-2 is required for the left-right asymmetry of the ASE neurons. specifically, lsy-2 is required in ASEL for regulating the expression of the lsy-6 miRNA that controls the asymmetric expression of guanylyl cyclase chemoreceptors. a LSY-2::GFP reporter fusion is expressed ubiquitously from the 50-cell stage of embryogenesis through adulthood with expression seen in both ASEL and ASER. expression is localized to moving nuclear punctae. [Source: WormBase]	positive regulation of growth rate, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
col-164	T21D9.1	COLlagen family member (col-164) [Source:RefSeq_peptide;Acc:NP_508386]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
T21D9.2	T21D9.2	T21D9.2 [Source:RefSeq_peptide;Acc:NP_508387]			
F53B1.3	F53B1.3	F53B1.3 [Source:RefSeq_peptide;Acc:NP_508388]			protein binding, 
F53B1.2	F53B1.2	Sphingomyelin synthase-related 1. [Source:Uniprot/SWISSPROT;Acc:Q20696]	sphingomyelin biosynthetic process, 	integral to membrane, 	molecular_function, 
F53B1.4	F53B1.4	F53B1.4 [Source:RefSeq_peptide;Acc:NP_508390]	metabolic process, biosynthetic process, cellular metabolic process, extracellular polysaccharide biosynthetic process, steroid biosynthetic process, positive regulation of locomotion, 		oxidoreductase activity, catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, dTDP-4-dehydrorhamnose reductase activity, 
F53B1.6	F53B1.6	F53B1.6 [Source:RefSeq_peptide;Acc:NP_508392]	proteolysis, 		subtilase activity, hydrolase activity, 
gpa-5	F53B1.7	gpa-5 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in AWA, with faint expression in ASI. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 		signal transducer activity, guanyl nucleotide binding, 
F53B1.8	F53B1.8	F53B1.8 [Source:RefSeq_peptide;Acc:NP_508394]	transport, 	membrane, 	transporter activity, 
F53B1.t1	F53B1.t1				
F53B1.9	F53B1.9	F53B1.9 [Source:RefSeq_peptide;Acc:NP_001033550]			
dpy-3	EGAP7.1	dpy-3 encodes a cuticular collagen. along with dpy-2, dpy-7, dpy-8, and dpy-10, dpy-3 is required postembryonically for annular furrow formation and/or maintenance. specifically, DPY-3 activity is required for proper assembly of the DPY-7 collagen into the mature extracellular matrix. during each cuticle synthetic period, dpy-3 mRNA is expressed approximately four hours prior to the secretion of new cuticle. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
F48B9.5	F48B9.5	F48B9.5 [Source:RefSeq_peptide;Acc:NP_508396]	multicellular organismal development, 	nucleus, 	
nlp-37	F48B9.4	Neuropeptide-Like Protein family member (nlp-37) [Source:RefSeq_peptide;Acc:NP_508397]			
F48B9.3	F48B9.3	F48B9.3 [Source:RefSeq_peptide;Acc:NP_508398]			
F48B9.2	F48B9.2	F48B9.2 [Source:RefSeq_peptide;Acc:NP_508401]			
F48B9.8	F48B9.8	F48B9.8 [Source:RefSeq_peptide;Acc:NP_508402]			
F48B9.1	F48B9.1	F48B9.1 [Source:RefSeq_peptide;Acc:NP_508403]			sugar binding, 
gap-1	T24C12.2	gap-1 encodes a member of the Ras GTPase-activating protein family. negatively regulates the let-60 pathway with respect to vulval development. [Source: WormBase]	regulation of small GTPase mediated signal transduction, negative regulation of Ras protein signal transduction, 	cytoplasm, intracellular, 	GTPase activator activity, Ras GTPase activator activity, 
T24C12.3	T24C12.3	T24C12.3 [Source:RefSeq_peptide;Acc:NP_508405]	D-ribose metabolic process, 		ribokinase activity, 
T24C12.1	T24C12.1	T24C12.1 [Source:RefSeq_peptide;Acc:NP_508406]			
T24C12.4	T24C12.4	T24C12.4 [Source:RefSeq_peptide;Acc:NP_508407]			
peb-1	T14F9.4	Pharyngeal Enhancer Binding family member (peb-1) [Source:RefSeq_peptide;Acc:NP_001024910]	locomotory behavior, organ morphogenesis, 		protein binding, 
hex-1	T14F9.3	hex-1 encodes a beta-N-acetylhexosaminidase that is orthologous to the human gene CERVICAL CANCER PROTO-ONCOGENE 7 (HEXB. OMIM:606873), which when mutated leads to disease. [Source: WormBase]	carbohydrate metabolic process, 		beta-N-acetylhexosaminidase activity, 
T14F9.t1	T14F9.t1				
lin-32	T14F9.5	lin-32 encodes a basic helix-loop-helix transcription factor that is required for development of several types of neurons, including the touch receptor neurons and the male sensory ray neurons. [Source: WormBase]	regulation of transcription, tail tip morphogenesis, neuron development, 	nucleus, 	transcription regulator activity, 
T14F9.2	T14F9.2	T14F9.2 [Source:RefSeq_peptide;Acc:NP_508411]			
vha-15	T14F9.1	vha-15 encodes an ortholog of subunit H of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-15 and VHA-18 are co-orthologs. VHA-15, along with VHA-2 and probably all V-ATPase subunits, is required for systemic RNAi, probably during endocytotic RNAi uptake. VHA-15 is a predicted cytosolic stator (stalk) component. neurons). [Source: WormBase]	ATP synthesis coupled proton transport, embryonic development ending in birth or egg hatching, 	vacuolar proton-transporting V-type ATPase, V1 domain, peripheral to membrane of membrane fraction, 	ATP binding, binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
rpl-11.2	F07D10.1	rpl-11.2 encodes a large ribosomal subunit L11 protein. by homology, RPL-11.2 is predicted to function in protein biosynthesis. [Source: WormBase]	translation, growth, 	intracellular, ribosome, 	structural constituent of ribosome, 
AH9.1	AH9.1	Probable G-protein coupled receptor AH9.1. [Source:Uniprot/SWISSPROT;Acc:Q10904]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
crn-4	AH9.2	Cell death-related nuclease 4 precursor (EC 3.1.-.-). [Source:Uniprot/SWISSPROT;Acc:Q10905]	DNA fragmentation during apoptosis, 	intracellular, 	exonuclease activity, 
AH9.3	AH9.3	AH9.3 [Source:RefSeq_peptide;Acc:NP_508416]			
AH9.6	AH9.6	AH9.6 encodes a novel protein that contains two predicted transmembrane domains and that is conserved in other nematode species. [Source: WormBase]			
AH9.4	AH9.4	Probable G-protein coupled receptor AH9.4. [Source:Uniprot/SWISSPROT;Acc:Q10907]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T10H10.3	T10H10.3	T10H10.3 [Source:RefSeq_peptide;Acc:NP_508418]	signal transduction, 		protein binding, 
T10H10.2	T10H10.2	T10H10.2 [Source:RefSeq_peptide;Acc:NP_508419]	cell redox homeostasis, 		
hum-6	T10H10.1	hum-6 is orthologous to the human gene MYOSIN VIIA (MYO7A. OMIM:276903), which when mutated leads to Usher syndrome type IB. [Source: WormBase]	signal transduction, 	cytoskeleton, myosin complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, motor activity, 
T01B6.3	T01B6.3	T01B6.3a [Source:RefSeq_peptide;Acc:NP_741725]			
T01B6.1	T01B6.1	T01B6.1 [Source:RefSeq_peptide;Acc:NP_508422]			
T01B6.4	T01B6.4	T01B6.4 [Source:RefSeq_peptide;Acc:NP_508423]			
nlp-22	T24D8.3	Neuropeptide-Like Protein family member (nlp-22) [Source:RefSeq_peptide;Acc:NP_508424]			
nlp-23	T24D8.4	nlp-23 encodes three predicted neuropeptide-like proteins. in C. elegans, nlp-23 is part of the FRPamide neuropeptide family that also contains nlp-2 and nlp-22. nlp-23 is expressed in the tail and in dorsal and ventral hypodermis. as loss of nlp-23 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of the nlp-23-encoded peptides in development and/or behavior is not yet known. [Source: WormBase]			
nlp-2	T24D8.5	Neuropeptide-Like Protein family member (nlp-2) [Source:RefSeq_peptide;Acc:NP_508426]			
T24D8.2	T24D8.2	T24D8.2 [Source:RefSeq_peptide;Acc:NP_508427]			
T24D8.1	T24D8.1	T24D8.1 [Source:RefSeq_peptide;Acc:NP_508428]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
T24D8.6	T24D8.6	T24D8.6 [Source:RefSeq_peptide;Acc:NP_508429]			
F47G3.3	F47G3.3	F47G3.3 [Source:RefSeq_peptide;Acc:NP_508430]	embryonic development ending in birth or egg hatching, 		
asna-2	F47G3.2	F47G3.2 [Source:RefSeq_peptide;Acc:NP_001024685]	anion transport, 	membrane, 	ATP binding, 
F47G3.1	F47G3.1	F47G3.1 [Source:RefSeq_peptide;Acc:NP_508432]			
C43H6.6	C43H6.6	C43H6.6 [Source:RefSeq_peptide;Acc:NP_508433]			
C43H6.5	C43H6.5	C43H6.5 [Source:RefSeq_peptide;Acc:NP_508434]			
C43H6.7	C43H6.7	C43H6.7 [Source:RefSeq_peptide;Acc:NP_508435]			zinc ion binding, 
C43H6.4	C43H6.4	C43H6.4 [Source:RefSeq_peptide;Acc:NP_508436]			
C43H6.3	C43H6.3	C43H6.3 [Source:RefSeq_peptide;Acc:NP_508437]			
C43H6.1	C43H6.1	C43H6.1 [Source:RefSeq_peptide;Acc:NP_508439]			
hlh-15	C43H6.8	Helix Loop Helix family member (hlh-15) [Source:RefSeq_peptide;Acc:NP_508440]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
glr-7	C43H6.9	glr-7 encodes a protein containing a ligand-gated ion channel domain and is a predicted non-NMDA type ionotropic glutamate receptor. expressed in the pharyngeal nervous system. [Source: WormBase]	ion transport, 	membrane, 	ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
T07D1.5	T07D1.5	T07D1.5 [Source:RefSeq_peptide;Acc:NP_508442]			
gcy-31	T07D1.1	Soluble guanylate cyclase gcy-31 (EC 4.6.1.2). [Source:Uniprot/SWISSPROT;Acc:Q86C56]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
T07D1.2	T07D1.2	T07D1.2 [Source:RefSeq_peptide;Acc:NP_508444]			
T07D1.3	T07D1.3	T07D1.3 [Source:RefSeq_peptide;Acc:NP_508445]	metabolic process, 		oxidoreductase activity, 
fox-1	T07D1.4	fox-1 encodes an RNA-binding protein of the RNA recognition motif (RRM) superfamily of ribonucleic acid binding proteins. during C. elegans development, FOX-1 functions redundantly with other numerator elements to effect proper dosage compensation in the early embryo. in influencing dosage compensation, FOX-1 likely acts via post-transcriptional regulation of xol-1 mRNA levels. in addition to its role in dosage compensation, fox-1 activity is also required for normal male mating behavior. Western analysis and lacZ reporter constructs indicate that FOX-1 is expressed throughout the life cycle, beginning at the 18-20-cell stage of embryogenesis and continuing on through larval stages and into adult hermaphrodites and males. while early embryonic expression of fox-1 is ubiquitous, postembryonic expression is limited to a subset of head and tail neurons. [Source: WormBase]	mRNA metabolic process, oviposition, primary sex determination, 		protein binding, nucleic acid binding, 
R04B3.t1	R04B3.t1				
R04B3.t2	R04B3.t2				
R04B3.1	R04B3.1	R04B3.1 [Source:RefSeq_peptide;Acc:NP_508447]		membrane, 	
R04B3.2	R04B3.2	The R04B3.2 gene encodes an ortholog of the human gene LYSOSOMAL GLYCOSYLASPARAGINASE (AGA. OMIM:208400), which when mutated leads to aspartylglucosaminuria (OMIM:208400). [Source: WormBase]	glycoprotein catabolic process, 		asparaginase activity, 
R04B3.3	R04B3.3	R04B3.3 [Source:RefSeq_peptide;Acc:NP_508449]			
K02E10.5	K02E10.5	K02E10.5 [Source:RefSeq_peptide;Acc:NP_508450]			
K02E10.6	K02E10.6	K02E10.6 [Source:RefSeq_peptide;Acc:NP_508451]			
K02E10.4	K02E10.4	K02E10.4b [Source:RefSeq_peptide;Acc:NP_001024751]			protein binding, 
hid-1	K02E10.2	hid-1 encodes a putative transmembrane protein, evolutionarily conserved among eukaryotes but unfamiliar, that is required for negative regulation of dauer formation, along with normal locomotion and defecation. HID-1 is paralogous to C47D12.2 and dymeclin (OMIM:607461). hid-1 is expressed in neurons of the head, tail, and ventral nerve cord. hid-1 mutations are suppressed by akt-1 and daf-16 mutations, suggesting that HID-1 acts in the insulin-signalling branch of dauer regulation. [Source: WormBase]	positive regulation of growth rate, 		
K02E10.1	K02E10.1	K02E10.1 [Source:RefSeq_peptide;Acc:NP_508455]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
K02E10.7	K02E10.7	K02E10.7 [Source:RefSeq_peptide;Acc:NP_508456]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
syg-1	K02E10.8	syg-1 encodes a novel transmembrane protein that is a member of the immunoglobulin superfamily of proteins. during larval development, SYG-1 activity is required cell autonomously within the HSNL neuron to specify proper synaptic specificity with its targets, such as vulval muscles and the VC neuron. in regulating synapse formation, SYG-1 acts as a receptor for a second immunoglobulin superfamily protein, SYG-2, a synaptic guidepost protein that interacts with SYG-1 and whose activity is essential for proper SYG-1 localization in HSNL. expression of a SYG-1::GFP reporter fusion in HSNL under the control of the unc-86 promoter reveals that SYG-1 localizes to axons and accumulates at future sites of synaptic vesicle clustering, while expression under an endogenous reporter reveals weak expression in head motorneurons, occasionally in HSN neurons, and in other cells in the vulval region. [Source: WormBase]	synapse organization and biogenesis, 		
tag-236	R11B5.1	Temporarily Assigned Gene name family member (tag-236) [Source:RefSeq_peptide;Acc:NP_508458]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
R11B5.t3	R11B5.t3				
R11B5.t1	R11B5.t1				
R11B5.t2	R11B5.t2				
F52H2.3	F52H2.3	F52H2.3 [Source:RefSeq_peptide;Acc:NP_508459]			
F52H2.4	F52H2.4	F52H2.4 [Source:RefSeq_peptide;Acc:NP_508460]	transport, 	membrane, 	transporter activity, 
F52H2.t2	F52H2.t2				
F52H2.t1	F52H2.t1				
aat-3	F52H2.2	aat-3 encodes an amino acid transporter catalytic subunit. when co-expressed in Xenopus oocytes with the ATG-2 glycoprotein subunit, AAT-3 is able to facilitate amino acid uptake and exchange, showing a relatively high affinity for small and some large neutral amino acids. in addition, AAT-3 is able to covalently associate with ATG-2 or ATG-1 to form heterodimers in the Xenopus expression system. when co-expressed with ATG-2, AAT-3 localizes to the cell surface of oocytes, but when expressed alone, or with ATG-1, AAT-3 localizes intracellularly. [Source: WormBase]	transport, dicarboxylic acid transport, 	membrane, 	amino acid transmembrane transporter activity, sodium:dicarboxylate symporter activity, 
F52H2.5	F52H2.5	F52H2.5 [Source:RefSeq_peptide;Acc:NP_508462]			
F52H2.6	F52H2.6	F52H2.6 is orthologous to the human gene 3BETA-HYDROXYSTEROL DELTA 24 REDUCTASE (DHCR24. OMIM:606418), which when mutated leads to disease. [Source: WormBase]	electron transport, 		oxidoreductase activity, FAD binding, 
F52H2.7	F52H2.7	F52H2.7 [Source:RefSeq_peptide;Acc:NP_508464]	transport, embryonic development ending in birth or egg hatching, 	membrane, synaptic vesicle, 	transporter activity, 
F52H2.1	F52H2.1	F52H2.1 [Source:RefSeq_peptide;Acc:NP_508465]			
H01M10.3	H01M10.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2V8C3]			
H01M10.1	H01M10.1	H01M10.1 [Source:RefSeq_peptide;Acc:NP_508466]			
H01M10.2	H01M10.2	H01M10.2 [Source:RefSeq_peptide;Acc:NP_508467]	biosynthetic process, 		catalytic activity, 
nhr-40	T03G6.2	nhr-40 encodes, by alternative splicing and promoters, three isoforms of a nuclear hormone receptor specific to nematodes. NHR-40 is required for normal development of bodywall muscles, and hence for normal movement. both nhr-40 promoters are active in body wall and pharygeal muscle cells, as well as in some (perhaps non-overlapping) neurons of the head and ventral nerve cord. NHR-40 is a divergent ortholog of HNF4, with 17 closely related paralogs in C. elegans belonging to the class 1, subgroup 8 of C. elegans NHRs with the P box sequence CNGCKT. nhr-40 is most strongly transcribed in L2 larvae. nhr-40(RNAi), overexpression of nhr-40 by heat shock, or the nhr-40(ok667) mutation all result in developmentally arrested embryos or larvae, with surviving larvae being smaller, abnormally bulging, and sluggish. nhr-40(RNAi) animals have disorganized epithelial cells and missing body wall muscle cells. nhr-40(ok667) mutants are slow-moving and uncoordinated, frequently reversing direction or going in circles. transgenic expression of nhr-40 cDNA in muscles rescues larval but not embryonic arrest. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
T03G6.1	T03G6.1	T03G6.1 [Source:RefSeq_peptide;Acc:NP_508469]			
T03G6.3	T03G6.3	T03G6.3 [Source:RefSeq_peptide;Acc:NP_508470]	metabolic process, nucleotide metabolic process, 		hydrolase activity, 
T03G6.t1	T03G6.t1				
F54G2.1	F54G2.1	F54G2.1a [Source:RefSeq_peptide;Acc:NP_001024711]			
F54G2.2	F54G2.2	F54G2.2 [Source:RefSeq_peptide;Acc:NP_508472]	proteolysis, 		zinc ion binding, nucleic acid binding, aspartic-type endopeptidase activity, 
NR_000944.1	C09B7.3	C09B7.3, miscRNA [Source:RefSeq_dna;Acc:NR_000944]			
C09B7.2	C09B7.2	C09B7.2 (transposase) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_076072]			
NR_000945.1	C09B7.4	C09B7.4, miscRNA [Source:RefSeq_dna;Acc:NR_000945]			
ser-7	C09B7.1	ser-7 encodes an ortholog of mammalian 5-HT7 metabotropic serotonin receptors. SER-7 is required for stimulation of egg-laying or pharyngeal pumping by serotonin (5-HT), for regular pumping in response to bacteria, and probably also for 5-HT to activate MC neurons. SER-7 and SER-1 are redundantly required for normal egg-laying. SER-7 is expressed in head and tail neurons, pharyngeal neurons (M4, MCs, I2s, I3, M5, M3s, I4, I6, and M2s), vulval muscles, and intestine. heterologously expressed SER-7, when challenged with 5-HT, stimulates intracellular adenylate cyclase activity. SER-7 has high affinity for 5-HT and tryptamine, but not for 5-CT, and is unaffected by at least some agonists of mammalian 5-HT7 receptors. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, sodium:dicarboxylate symporter activity, neuropeptide receptor activity, 
T14G11.3	T14G11.3	T14G11.3 [Source:RefSeq_peptide;Acc:NP_508475]			
T14G11.1	T14G11.1	T14G11.1 [Source:RefSeq_peptide;Acc:NP_508476]			
T02C5.1	T02C5.1	The T02C5.1 gene encodes a protein that may be involved in apoptosis. it has some similarity to the tumor necrosis factor (TNF) receptor of vertebrates. [Source: WormBase]			receptor activity, 
igcm-3	T02C5.3	ImmunoGlobulin-like Cell adhesion Molecule family member (igcm-3) [Source:RefSeq_peptide;Acc:NP_508479]			
unc-2	T02C5.5	unc-2 encodes a calcium channel alpha subunit required for desensitization to dopamine, normal flexion and speed during movement, normally low sensitivity of whole animals to serotonin, and neuronal migrations promoted by humoral serotonin. UNC-2 is orthologous to human CACNA1A (OMIM:601011, mutated in familiar hemiplegic migraine or episodic ataxia 2) and to Drosophila CACOPHONY. UNC-2 is expressed primarily in motor neurons, several sensory neurons, and HSN and VC neurons controlling egg-laying. [Source: WormBase]	ion transport, calcium ion transport, potassium ion transport, DNA methylation, locomotory behavior, negative regulation of transforming growth factor beta receptor signaling pathway, 	membrane, integral to membrane, voltage-gated calcium channel complex, voltage-gated potassium channel complex, 	ion channel activity, DNA binding, calcium ion binding, voltage-gated calcium channel activity, voltage-gated potassium channel activity, N-methyltransferase activity, 
F55F1.2	F55F1.2	F55F1.2 [Source:RefSeq_peptide;Acc:NP_508483]			
F55F1.1	F55F1.1	F55F1.1 [Source:RefSeq_peptide;Acc:NP_508484]			
F55F1.3	F55F1.3	F55F1.3 [Source:RefSeq_peptide;Acc:NP_741735]			
tag-150	C14A11.3	Temporarily Assigned Gene name family member (tag-150) [Source:RefSeq_peptide;Acc:NP_741736]	regulation of Rho protein signal transduction, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
C14A11.2	C14A11.2	C14A11.2 [Source:RefSeq_peptide;Acc:NP_508487]			
C14A11.5	C14A11.5	C14A11.5 [Source:RefSeq_peptide;Acc:NP_508488]			
C14A11.6	C14A11.6	C14A11.6 [Source:RefSeq_peptide;Acc:NP_508489]			
tsp-6	C14A11.1				
ssr-2	C14A11.7	Sperm-Specific family, class R family member (ssr-2) [Source:RefSeq_peptide;Acc:NP_508490]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
Y71H10B.1	Y71H10B.1	Y71H10B.1b [Source:RefSeq_peptide;Acc:NP_508491]	positive regulation of growth rate, 		
kin-29	F58H12.1	kin-29 encodes a serine/threonine kinase with significant homology in the kinase domain to the AMP-activated protein kinase (AMPK) and SNF1 kinases. the AMP-kinase cascade is activated by cellular stresses that deplete ATP. AMP-kinase is believed to protect the mammalian cell by 'switching off' ATP-consuming pathways like fatty acid synthesis, by phosphorylating key regulatory enzymes, and switching on alternative pathways for ATP generation. kin-29 is involved in regulating the expression of chemosensory receptors and entry into the daur pathway. kin-29 also affects body size via interaction with the Sma/Mab pathway and lifespan, with mutants exhibiting a smaller body size and increased life span. a functional KIN-29-GFP fusion protein is expressed in sensory neurons and many other cell types, and localizes to the cytoplasm. under conditions of cellular stress like heat shock and starvation, KIN-29-GFP translocates to the nucleus. [Source: WormBase]	protein amino acid phosphorylation, positive regulation of multicellular organism growth, detection of chemical stimulus during sensory perception, negative regulation of fatty acid biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
tra-4	F53B3.1	TRAnsformer : XX animals transformed into males family member (tra-4) [Source:RefSeq_peptide;Acc:NP_508494]	phosphate metabolic process, oviposition, 	cytoplasm, intracellular, 	protein binding, zinc ion binding, nucleic acid binding, magnesium ion binding, inorganic diphosphatase activity, 
F53B3.2	F53B3.2	F53B3.2 [Source:RefSeq_peptide;Acc:NP_508495]			O-methyltransferase activity, 
F53B3.6	F53B3.6	F53B3.6 [Source:RefSeq_peptide;Acc:NP_508496]			
F53B3.3	F53B3.3	F53B3.3 [Source:RefSeq_peptide;Acc:NP_508497]			protein binding, 
F53B3.5	F53B3.5	F53B3.5 encodes a claudin homolog that may regulate ion channels. F53B3.5 is distantly similar to mammalian voltage-dependent calcium channel gamma subunits that are known or suspected to prevent epilepsy in vivo (e.g., stargazin. MGI:1316660). F53B3.5 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]	calcium ion transport, 	membrane, tight junction, 	structural molecule activity, 
vang-1	B0410.2	vang-1 encodes an ortholog of Drosophila VAN GOGH (also known as STRABISMUS). VANG-1 enables Wnt-directed planar cell polarity. VANG-1 is required for the fully asymmetrical division of B.a versus B.p cells, though this requirement is quantitatively weak. [Source: WormBase]	multicellular organismal development, embryonic development ending in birth or egg hatching, 	integral to membrane, 	
B0410.3	B0410.3	B0410.3 [Source:RefSeq_peptide;Acc:NP_508502]			
F52B10.3	F52B10.3	F52B10.3 [Source:RefSeq_peptide;Acc:NP_001024699]			
B0410.1	B0410.1	B0410.1 [Source:RefSeq_peptide;Acc:NP_508503]			
nmy-1	F52B10.1	nmy-1 encodes a class II non-muscle myosin heavy chain related to Drosophila zipper, which plays a role in several aspects of embryonic morphogenesis. in C. elegans, NMY-1 is required for embryonic elongation and establishment of normal body morphology. however, nmy-1 functions redundantly with another non-muscle myosin heavy chain gene, nmy-2, during elongation and establishment of normal body morphology. mutations in nmy-1 suppress the hypercontraction phenotype produced by mutations in mel-11, a myosin phosphatase that regulates actomyosin filament contraction. in addition, NMY-1 may partner with MLC-4, myosin light chain 4, during elongation. NMY-1 expression is detected during embryogenesis, particularly at the onset of elongation. [Source: WormBase]	embryonic development ending in birth or egg hatching, shape changes of embryonic cells, 	myosin complex, 	ATP binding, nucleotide binding, protein binding, motor activity, 
hst-3.2	F52B10.2	Heparan SulphoTransferase family member (hst-3.2) [Source:RefSeq_peptide;Acc:NP_001024698]			sulfotransferase activity, 
Y71H10A.2	Y71H10A.2	Y71H10A.2 [Source:RefSeq_peptide;Acc:NP_508505]	steroid biosynthetic process, 		protein binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
Y71H10A.1	Y71H10A.1	Y71H10A.1 encodes two isoforms of a putative 6-phosphofructokinase, paralogous to C50F4.2. Y71H10A.1 is expressed in proximal germline and in several larval and adult tissues (including neurons, hypodermis, and pharyngeal muscle). Y71H10A.1 is required for embryonic viability in mass RNAi assays. [Source: WormBase]	glycolysis, embryonic development ending in birth or egg hatching, 	cytoplasm, 6-phosphofructokinase complex, 	6-phosphofructokinase activity, 
Y41G9A.10	Y41G9A.10	Y41G9A.10 [Source:RefSeq_peptide;Acc:NP_001076775]			
Y41G9A.5	Y41G9A.5	Y41G9A.5 [Source:RefSeq_peptide;Acc:NP_508507]			
Y41G9A.4	Y41G9A.4	Y41G9A.4b [Source:RefSeq_peptide;Acc:NP_741740]		membrane, 	metabotropic glutamate, GABA-B-like receptor activity, GABA-B receptor activity, 
Y41G9A.3	Y41G9A.3	Y41G9A.3 [Source:RefSeq_peptide;Acc:NP_508509]			
Y41G9A.2	Y41G9A.2	Y41G9A.2 [Source:RefSeq_peptide;Acc:NP_508510]			
osm-5	Y41G9A.1	The osm-5 gene encodes a homolog of the murine cystic kidney disease gene Tg737 that is required for the production of cilia in sensory neurons. [Source: WormBase]	proteolysis, sensory cilium biogenesis, 		aspartic-type endopeptidase activity, 
Y41G9A.6	Y41G9A.6	Y41G9A.6 [Source:RefSeq_peptide;Acc:NP_508512]			carbohydrate binding, 
Y48D7A.1	Y48D7A.1	Y48D7A.1 [Source:RefSeq_peptide;Acc:NP_508513]	embryonic development ending in birth or egg hatching, 		
flp-18	Y48D7A.2	flp-18 encodes the only FMRFamide-related neuropeptide (FaRP) encoded by the C. elegans genome, other than flp-21, that activates the solitary (215V) form of NPR-1 in Xenopus oocytes. in addition, FLP-18 can activated the social (215F) form of NPR-1 in pharyngeal assays. FLP-18 is expressed in the interneurons AVA, AIY and RIG, the motor neuron RIM and the pharyngeal neurons M2 and M3. [Source: WormBase]	neuropeptide signaling pathway, embryonic development ending in birth or egg hatching, 	extracellular region, 	molecular_function, 
aqp-7	M02F4.8	AQuaPorin or aquaglyceroporin related family member (aqp-7) [Source:RefSeq_peptide;Acc:NP_508515]	transport, metabolic process, 	membrane, integral to membrane, 	transporter activity, oxidoreductase activity, 
M02F4.1	M02F4.1	M02F4.1 [Source:RefSeq_peptide;Acc:NP_508516]			
NM_076116.1	M02F4.9	M02F4.9 (M02F4.9) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_076116]			
M02F4.7	M02F4.7	M02F4.7 [Source:RefSeq_peptide;Acc:NP_508518]			sugar binding, 
M02F4.2	M02F4.2	M02F4.2 [Source:RefSeq_peptide;Acc:NP_508519]			
M02F4.t2	M02F4.t2				
M02F4.t1	M02F4.t1				
M02F4.3	M02F4.3	M02F4.3 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C01H6.6, C33D12.2, C52D10.12, R04E5.2, and R13G10.4. by orthology with MAM3, M02F4.3 may participate in metal homoeostasis. M02F4.3, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. M02F4.3 has no obvious function in RNAi assays. [Source: WormBase]			
C33D12.2	C33D12.2	C33D12.2 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C01H6.6, C52D10.12, M02F4.3, R04E5.2, and R13G10.4. by orthology with MAM3, C33D12.2 may participate in metal homoeostasis. C33D12.2 is expressed in intestine, body wall muscle, nervous system (including ventral and dorsal nerve cords and head neurons), and adult vulval muscle and reproductive system. C33D12.2, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. C33D12.2 has no obvious function in RNAi assays. [Source: WormBase]			
twk-26	C33D12.3	TWiK family of potassium channels family member (twk-26) [Source:RefSeq_peptide;Acc:NP_508522]	potassium ion transport, embryonic development ending in birth or egg hatching, 	membrane, 	potassium channel activity, 
tag-312	C33D12.6	Temporarily Assigned Gene name family member (tag-312) [Source:RefSeq_peptide;Acc:NP_508523]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, translation, 	intracellular, ribosome, 	protein binding, GTP binding, GTPase activity, calcium ion binding, structural constituent of ribosome, 
ceh-30	C33D12.7	ceh-30 encodes a homeodomain protein most similar to Drosophila and mammalian BarH1 (OMIM:605211) which function in neuronal cell fate determination. the precise biological role of CEH-30 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ceh-31	C33D12.1	ceh-31 encodes a protein containing a homeobox domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
twk-16	F52E4.4	TWiK family of potassium channels family member (twk-16) [Source:RefSeq_peptide;Acc:NP_508526]	potassium ion transport, 	membrane, 	potassium channel activity, 
F52E4.5	F52E4.5	F52E4.5 [Source:RefSeq_peptide;Acc:NP_508527]			
pccb-1	F52E4.1	F52E4.1 is orthologous to the human gene PROPIONYL-CoA CARBOXYLASE, BETA SUBUNIT (PCCB. OMIM:232050), which when mutated leads to propionicacidemia. F52E4.1 protein is predicted to be mitochondrial. [Source: WormBase]	fatty acid biosynthetic process, 	acetyl-CoA carboxylase complex, 	protein binding, ligase activity, acetyl-CoA carboxylase activity, 
wrt-2	F52E4.6	wrt-2 encodes a hedgehog-like protein, with an N-terminal signal sequence, a Wart domain, and a C-terminal region of low-complexity sequence. WRT-2 is expressed in seam cells and hypodermal syncytia. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-2 is weakly required for normal molting. WRT-2 is also required for normal growth to full size and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. in two-hybrid assays, WRT-2 binds EYA-1, which may parallel the derepression of Drosophila eyes absent by HEDGEHOG. [Source: WormBase]			nutrient reservoir activity, 
sec-3	F52E4.7	Probable exocyst complex component 1 (Exocyst complex component Sec3). [Source:Uniprot/SWISSPROT;Acc:Q20678]	embryonic development ending in birth or egg hatching, 		protein binding, 
F52E4.8	F52E4.8	F52E4.8 [Source:RefSeq_peptide;Acc:NP_508531]		intracellular, 	zinc ion binding, nucleic acid binding, 
K10B3.5	K10B3.5	K10B3.5 [Source:RefSeq_peptide;Acc:NP_508532]		intracellular, 	zinc ion binding, nucleic acid binding, 
K10B3.6	K10B3.6	K10B3.6a [Source:RefSeq_peptide;Acc:NP_001024784]	carbohydrate metabolic process, glycerol metabolic process, 		catalytic activity, carbohydrate binding, glycerophosphodiester phosphodiesterase activity, 
gpd-3	K10B3.7	gpd-3 encodes a predicted glyceraldehyde 3-phosphate dehydrogenase that affects embryonic viability. GPD-3 interacts with LIN-2 in two-hybrid assays. [Source: WormBase]	glycolysis, glucose metabolic process, embryonic development ending in birth or egg hatching, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, glyceraldehyde-3-phosphate dehydrogenase activity, 
gpd-2	K10B3.8	gpd-2 encodes one of four C. elegans glyceraldehyde-3-phosphate dehydrogenases (GAPDHs). by homology, GPD-2 is predicted to reversibly catalyze the oxidation and phosphorylation of glyceraldehyde-3-phosphate to 1,3-diphosphoglycerate during glycolysis. in C. elegans, GPD-2 and GPD-3 constitute the major GAPDH isoenzymes and are expressed at highest levels during postembryonic development, primarily in the actin-containing A and I zones of body-wall muscle. loss of gpd-2 function via RNA-mediated interference (RNAi) does not result in any abnormalities. [Source: WormBase]	glycolysis, glucose metabolic process, determination of adult life span, 		protein binding, NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, glyceraldehyde-3-phosphate dehydrogenase activity, 
mai-1	K10B3.9	mai-1 is homologous to mitochondrial intrinsic ATPase inhibitor protein (IF(1)), which blocks reverse action (ATP hydrolysis) by F(0)F(1)-ATPase when its (normally required) proton gradient is lost. MAI-1 lacks an obvious mitochondrial import signal at its N-terminus, and is not transported to yeast mitochondria. MAI-1 may be cytosolic in vivo, regulating cytosolic ATPase(s). MAI-1 can inhibit yeast F(0)F(1)-ATPase, but this inhibition is pH-independent. MAI-1's tertiary structure is dominated by beta-strands and random loops. mai-1 exists as the upstream gene in an operon with gpd-2 and gpd-3. [Source: WormBase]	negative regulation of nucleotide metabolic process, 	mitochondrion, 	enzyme inhibitor activity, 
spc-1	K10B3.10	spc-1 encodes the C. elegans alpha spectrin ortholog. during development, spc-1 activity is required for body morphogenesis, formation of body wall muscles, locomotion, and larval development. [Source: WormBase]	growth, 		calcium ion binding, 
K10B3.1	K10B3.1	K10B3.1b [Source:RefSeq_peptide;Acc:NP_001024783]		intracellular, 	zinc ion binding, nucleic acid binding, 
C15C7.4	C15C7.4	C15C7.4 [Source:RefSeq_peptide;Acc:NP_508540]			
C15C7.5	C15C7.5	C15C7.5 [Source:RefSeq_peptide;Acc:NP_508542]	positive regulation of growth rate, 		
klp-8	C15C7.2	klp-8 encodes an atypical kinesin-like motor protein with the motor domain in the N-terminus. the motor domain of KLP-8 exhibits poor homology to the globular motor domain of the kinesin heavy chain. [Source: WormBase]	vesicle-mediated transport, 	membrane, 	protein binding, 
C15C7.1	C15C7.1	Putative syntaxin C15C7.1. [Source:Uniprot/SWISSPROT;Acc:P83528]	intracellular protein transport, vesicle-mediated transport, synaptic vesicle docking during exocytosis, 	membrane, integral to membrane, 	protein transporter activity, protein binding, 
C15C7.7	C15C7.7	Putative GDP-fucose protein O-fucosyltransferase 1 precursor (EC 2.4.1.221) (Peptide-O-fucosyltransferase 1) (O-FucT-1). [Source:Uniprot/SWISSPROT;Acc:Q18014]	protein amino acid O-linked glycosylation, 	integral to Golgi membrane, 	fucosyltransferase activity, 
C15C7.6	C15C7.6	C15C7.6 [Source:RefSeq_peptide;Acc:NP_508545]	ATP synthesis coupled electron transport, 		NADH dehydrogenase (ubiquinone) activity, 
klp-4	F56E3.3	klp-4 encodes a kinesin-like motor protein paralogous to UNC-104 and KLP-6 and orthologous to Drosophila KHC-73 and the vertebrate KIF1A, KIF13B, and GAKIN motor proteins. as loss of KLP-4 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of KLP-4 in C. elegans development and/or behavior is not yet known. based on sequence similarity, however, KLP-4 is predicted to play a role in neuronal development or function. a klp-4::gfp transcriptional reporter fusion is expressed in larvae and adults in the pharynx, intestine, and nervous system, including head and tail neurons, the nerve ring, and ventral nerve cord. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, protein binding, microtubule motor activity, 
fax-1	F56E3.4	fax-1 encodes a conserved nuclear receptor that contains two C4-type zinc fingers and is orthologous to the vertebrate photoreceptor-specific nuclear receptor PNR (OMIM:604485, mutated in enhanced S-cone syndrome and retinitis pigmentosa). fax-1 is required for normal locomotion and neuron fate specification, including specification of the AVA, AVE, and AVK interneurons and proper axon pathfinding of the AVK, HSNL, and PVQL axons. expression of reporter gene fusions in fax-1 mutants suggests that fax-1 functions by regulating expression of a number of downstream targets, including nmr-1 and nmr-2, opt-3, flp-1, and ncs-1. in some neurons, fax-1 regulates expression combinatorially with unc-42, which encodes a paired-like homeodomain protein that additionally, regulates fax-1 expression in AVK neurons. FAX-1 is expressed in the nuclei of 18 neurons, including the AVK, AVA, AVB, and AVE interneurons, beginning at mid-embryogenesis and continuing through larval and adult stages. FAX-1 is also seen in two non-neuronal cell types: the distal tip cells (DTCs), from L2 to L4 larval stages, and two pairs of vulval cells in L4 animals. [Source: WormBase]	regulation of transcription, DNA-dependent, regulation of forward locomotion, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F28B4.1	F28B4.1	F28B4.1 [Source:RefSeq_peptide;Acc:NP_508548]			
F28B4.4	F28B4.4	F28B4.4 [Source:RefSeq_peptide;Acc:NP_508549]			
rgl-1	F28B4.2	Ral GDS-Like family member (rgl-1) [Source:RefSeq_peptide;Acc:NP_508550]	signal transduction, small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	guanyl-nucleotide exchange factor activity, 
F28B4.3	F28B4.3	F28B4.3 [Source:RefSeq_peptide;Acc:NP_508551]		collagen, 	extracellular matrix structural constituent, sugar binding, 
F40F4.6	F40F4.6	F40F4.6 [Source:RefSeq_peptide;Acc:NP_508552]	positive regulation of growth rate, 		calcium ion binding, sugar binding, 
F40F4.7	F40F4.7	F40F4.7 [Source:RefSeq_peptide;Acc:NP_508553]	metabolic process, 		N-acetyltransferase activity, 
pqn-37	F40F4.8	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
tba-9	F40F4.5	tba-9 encodes one of nine C. elegans alpha tubulins. by homology, TBA-9 is predicted to be a component of microtubules. as loss of tba-9 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, TBA-9 likely functions redundantly with other alpha tubulins as a basic component of cellular architecture that may play additional roles in processes such as cell division, cell movement, and intracellular transport. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
lbp-3	F40F4.4	Fatty acid-binding protein homolog 3 precursor (Lipid-binding protein 3). [Source:Uniprot/SWISSPROT;Acc:Q20222]	transport, 		transporter activity, binding, lipid binding, 
lbp-1	F40F4.3	Fatty acid-binding protein homolog 1 precursor (Lipid-binding protein 1). [Source:Uniprot/SWISSPROT;Acc:Q20223]	transport, 		transporter activity, protein binding, binding, lipid binding, 
lbp-2	F40F4.2	lbp-2 encodes a homolog of the novel fatty acid binding protein, As-p18, found in the parasitic nematode Ascaris suum. As-p18 is a member of a family of small intracellular fatty acid binding proteins (iFABPs). the expression pattern of lpb-2 is consistent with it being secreted into the perienteric fluid where it may play a role in lipid transport beween the intestine and body wall. a lbp-2 promoter::gfp fusion reporter is restricted to body wall muscle cells abutting the pseudocoelom. [Source: WormBase]	transport, 		transporter activity, binding, lipid binding, 
fbxb-71	F40F4.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
sul-1	K09C4.8	sul-1 encodes a member of the sulfatase family. [Source: WormBase]	metabolic process, 		sulfuric ester hydrolase activity, 
K09C4.9	K09C4.9	K09C4.9 [Source:RefSeq_peptide;Acc:NP_508561]			
K09C4.7	K09C4.7	K09C4.7 [Source:RefSeq_peptide;Acc:NP_508562]			
K09C4.6	K09C4.6	K09C4.6 [Source:RefSeq_peptide;Acc:NP_508563]			
K09C4.10	K09C4.10	K09C4.10 [Source:RefSeq_peptide;Acc:NP_508564]			
K09C4.5	K09C4.5	K09C4.5 [Source:RefSeq_peptide;Acc:NP_508565]	transport, regulation of transcription, DNA-dependent, 	integral to membrane, intracellular, 	transporter activity, transcription factor activity, sequence-specific DNA binding, 
K09C4.4	K09C4.4	K09C4.4 [Source:RefSeq_peptide;Acc:NP_508566]	transport, 	integral to membrane, 	transporter activity, 
hsp-2	K09C4.3		embryonic development ending in birth or egg hatching, 		
K09C4.2	K09C4.2	K09C4.2 [Source:RefSeq_peptide;Acc:NP_508568]			
K09C4.1	K09C4.1	K09C4.1a [Source:RefSeq_peptide;Acc:NP_001041269]	transport, cell adhesion, 	integral to membrane, 	transporter activity, 
F11D5.5	F11D5.5	F11D5.5 [Source:RefSeq_peptide;Acc:NP_508570]			
F11D5.7	F11D5.7	F11D5.7 [Source:RefSeq_peptide;Acc:NP_001024554]	transport, 	integral to membrane, 	transporter activity, 
ddr-2	F11D5.3	F11D5.3 encodes a putative tyrosine kinase homologous to human RS1 (OMIM:312700, mutated in juvenile X-linked retinoschisis). [Source: WormBase]	protein amino acid phosphorylation, cell adhesion, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F11D5.6	F11D5.6	F11D5.6 [Source:RefSeq_peptide;Acc:NP_508574]			
F11D5.1	F11D5.1	F11D5.1a [Source:RefSeq_peptide;Acc:NP_508575]			
ZK816.3	ZK816.3	ZK816.3 [Source:RefSeq_peptide;Acc:NP_508577]			
ZK816.4	ZK816.4	ZK816.4 [Source:RefSeq_peptide;Acc:NP_508578]			
ZK816.1	ZK816.1	ZK816.1 [Source:RefSeq_peptide;Acc:NP_508579]			
dhs-26	ZK816.5	dhs-26 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 
ZK563.2	ZK563.2	ZK563.2 [Source:RefSeq_peptide;Acc:NP_508581]	phosphate transport, dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, sodium-dependent phosphate transmembrane transporter activity, 
ZK563.t1	ZK563.t1				
clc-3	ZK563.4	clc-3 encodes a claudin homolog that may regulate ion channels. CLC-3 is worm-specific, with a highly divergent sequence weakly similar to mammalian voltage-dependent calcium channel gamma subunits that are known or suspected to prevent epilepsy in vivo (e.g., stargazin. MGI:1316660). claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
ZK563.5	ZK563.5	ZK563.5 [Source:RefSeq_peptide;Acc:NP_508584]			
ZK563.7	ZK563.7	ZK563.7 [Source:RefSeq_peptide;Acc:NP_001024997]			
ZK563.6	ZK563.6	Putative acid phosphatase ZK563.6 precursor (EC 3.1.3.2). [Source:Uniprot/SWISSPROT;Acc:Q23534]			acid phosphatase activity, 
uvt-7	ZK563.1	uvt-7 encodes a transmembrane permease of the major facilitator superfamily (MFS) that by homology, is predicted to transport metabolites across cellular membranes in response to chemiosmotic gradients. uvt-7 was first identified in molecular analyses of gene products linked to the vitellogenin (vit) loci on the X chromosome. as loss of uvt-7 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of uvt-7 in C. elegans development and/or behavior is not yet known. uvt-7 mRNA is detected in embryos and adults, suggesting that uvt-7 may be a maternally expressed gene. [Source: WormBase]	transport, 	integral to membrane, 	transporter activity, 
C04F6.2	C04F6.2	Uncharacterized protein C04F6.2. [Source:Uniprot/SWISSPROT;Acc:Q11175]			
cht-1	C04F6.3	cht-1 encodes a chitinase orthologous to human chitinase-1 (OMIM:600031, mutations are associated with chitotriosidase deficiency). CHT-1 is predicted to function as an extracellular O-glycosyl hydrolase that hydrolyzes the glycosidic bond between two or more carbohydrates. in C. elegans, CHT-1 may play a role in embryogenesis, and may also be required for cuticle degradation during molting and degradation of chitin-containing pathogens as part of a host defense mechanism. [Source: WormBase]	carbohydrate metabolic process, chitin metabolic process, chitin catabolic process, embryonic development ending in birth or egg hatching, 	extracellular region, 	chitin binding, chitinase activity, hydrolase activity, hydrolyzing O-glycosyl compounds, 
vit-5	C04F6.1	vit-5 encodes a vitellogenin, a lipid-binding protein precursor related to vertebrate vitellogenins and mammalian ApoB-100, a core LDL particle constituent. by homology, VIT-5 is predicted to function as a lipid transport protein. loss of vit-5 activity via large-scale RNA-mediated interference (RNAi) screens indicates that VIT-5 is required for embryogenesis and normal rates of postembryonic growth. VIT-5 is a major yolk component and is expressed exclusively in the adult hermaphrodite intestine from which it is secreted into the pseudocoelomic space and taken up by oocytes. [Source: WormBase]	lipid transport, positive regulation of growth rate, 		lipid transporter activity, 
unc-78	C04F6.4	The unc-78 gene encodes a homolog of actin-interacting protein 1 (AIP1) that regulates the ordered assembly of actin and cofilin in myofibrils. [Source: WormBase]	oviposition, regulation of locomotion, muscle thin filament assembly, 		
dhs-27	C04F6.5	dhs-27 encodes a short-chain dehydrogenase predicted to be mitochondrial. [Source: WormBase]	metabolic process, 		oxidoreductase activity, 
ZK813.6	ZK813.6	ZK813.6 [Source:RefSeq_peptide;Acc:NP_001033579]			
ZK813.4	ZK813.4	ZK813.4a [Source:RefSeq_peptide;Acc:NP_001041304]			
ZK813.3	ZK813.3	ZK813.3 [Source:RefSeq_peptide;Acc:NP_508593]			
ZK813.2	ZK813.2	ZK813.2 [Source:RefSeq_peptide;Acc:NP_508594]			
ZK813.7	ZK813.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5HU91]			
ZK813.1	ZK813.1	ZK813.1 [Source:RefSeq_peptide;Acc:NP_508595]	multicellular organismal development, 	chorion, 	
ZK813.5	ZK813.5	ZK813.5 [Source:RefSeq_peptide;Acc:NP_741747]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sax-3	ZK377.2	The protein product of sax-3 is homologous to Drosophila ROUNDABOUT. in larval hermaphrodites, SAX-3 is required to confine migrating sex myoblasts to the ventral muscle quadrants during their migration through the body. [Source: WormBase]	protein amino acid phosphorylation, cell adhesion, regulation of cell growth, locomotory behavior, 	membrane, 	ATP binding, vascular endothelial growth factor receptor activity, 
wrt-6	ZK377.1	wrt-6 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Wart domain, an short region of low-complexity sequence, and a Hint/Hog domain. WRT-6 is expressed in sheath and socket cells of anterior sensilla, seam cells, and hypodermis. the Hint/Hog domain is predicted to cut WRT-6 into two halves and then covalently link cholesterol to the C-terminus of the Wart domain. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-6 is weakly required for normal molting. WRT-6 is also required for normal growth to full size and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, 		peptidase activity, 
C12D12.4	C12D12.4	C12D12.4 [Source:RefSeq_peptide;Acc:NP_508598]			
NR_000946.1	C12D12.7	C12D12.7, miscRNA [Source:RefSeq_dna;Acc:NR_000946]			
C12D12.3	C12D12.3				
glt-1	C12D12.2	glt-1 encodes a predicted plasma membrane glutamate transporter that is functional when expressed in Xenopus oocytes. expressed in the M3 pharyngeal neuron, the male tail, some anterior hypodermal cells, and in cells in the terminal bulb of the pharynx. [Source: WormBase]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
C12D12.1	C12D12.1	C12D12.1b [Source:RefSeq_peptide;Acc:NP_508602]			
C12D12.5	C12D12.5	C12D12.5 [Source:RefSeq_peptide;Acc:NP_508604]	regulation of transcription, DNA-dependent, 		DNA binding, 
uvt-6	F56B6.5	uvt-6 encodes a G protein-coupled receptor that is most similar to the mammalian somatostatin receptors. uvt-6 was first identified in molecular analyses of gene products linked to the vitellogenin (vit) loci on the X chromosome. as loss of uvt-6 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of uvt-6 in C. elegans development and/or behavior is not yet known. uvt-6 mRNA is expressed weakly in adult hermaphrodites. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F56B6.6	F56B6.6	F56B6.6 [Source:RefSeq_peptide;Acc:NP_508607]			
uvt-5	F56B6.4	Unidentified Vitellogenin-linked Transcript family member (uvt-5) [Source:RefSeq_peptide;Acc:NP_508609]	carbohydrate biosynthetic process, embryonic development ending in birth or egg hatching, 		transferase activity, transferring hexosyl groups, 
rgs-7	F56B6.2	rgs-7 encodes three isoforms of an atypical regulator of G protein signaling (RGS) protein that contains both a C2 and an RGS domain, and that binds EGL-30 via both domains, similar in organization to mammalian PDZ-RGS3. the RGS domain has GTPase activator protein (GAP) activity in vitro on mammalian G[alphai]3. RGS-7 thus may stably bind EGL-30 at all stages of EGL-30's GTPase cycle, might organize EGL-30 into a stable multiprotein signalling complex (with GTP[gamma]S), and might persistently inhibit EGL-30 when triggered by calcium or phospholipids. rgs-7 has no obvious function in mass RNAi assays [Source: WormBase]			signal transducer activity, 
vit-4	F59D8.2	Vitellogenin-4 precursor. [Source:Uniprot/SWISSPROT;Acc:P18947]	lipid transport, positive regulation of growth rate, 		lipid transporter activity, 
vit-3	F59D8.1	vit-3 encodes a vitellogenin, a precursor of the lipid-binding protein related to vertebrate vitellogenins and mammalian ApoB-100, a core LDL particle constituent (OMIM:107730). VIT-3 is a major yolk component, but as loss of VIT-3 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, VIT-3 likely functions redundantly with other vitellogenins to provide essential nutrients to the developing embryo. VIT-3 is expressed exclusively in the adult hermaphrodite intestine, from which it is secreted into the pseudocoelomic space and finally taken up by oocytes. in males, vit-3 expression may be negatively regulated by MAB-3, a DM binding domain-containing transcription factor required for male sexual development. [Source: WormBase]	lipid transport, positive regulation of growth rate, 		lipid transporter activity, 
T27A10.5	T27A10.5	T27A10.5 [Source:RefSeq_peptide;Acc:NP_508614]			
ckc-1	T27A10.3	ckc-1 encodes a putative ethanolamine or choline kinase, with somewhat more sequence similarity to ethanolamine kinases. CKC-1 is the sole member of a 'C' group of choline/ethanolamine kinases. [Source: WormBase]			
T27A10.2	T27A10.2	T27A10.2 [Source:RefSeq_peptide;Acc:NP_508616]			
T27A10.6	T27A10.6	T27A10.6 [Source:RefSeq_peptide;Acc:NP_508617]			
cgr-1	T27A10.7	CRAL/TRIO and GOLD domain suppressor of activated Ras family member (cgr-1) [Source:RefSeq_peptide;Acc:NP_508618]	transport, biological_process, 	integral to membrane, 	
C18B2.3	C18B2.3	C18B2.3 [Source:RefSeq_peptide;Acc:NP_508619]			
C18B2.4	C18B2.4	C18B2.4 [Source:RefSeq_peptide;Acc:NP_508620]			protein binding, nutrient reservoir activity, 
C18B2.5	C18B2.5	C18B2.5b [Source:RefSeq_peptide;Acc:NP_741751]			protein binding, 
C18B2.6	C18B2.6	C18B2.6 [Source:RefSeq_peptide;Acc:NP_508622]	sodium ion transport, 	membrane, 	sodium channel activity, 
C18B2.2	C18B2.2	Uncharacterized protein C18B2.2. [Source:Uniprot/SWISSPROT;Acc:Q18078]			
C18B2.1	C18B2.1	Uncharacterized protein C18B2.1. [Source:Uniprot/SWISSPROT;Acc:Q18079]	embryonic development ending in birth or egg hatching, 		
gst-11	R11G1.3	Glutathione S-Transferase family member (gst-11) [Source:RefSeq_peptide;Acc:NP_508625]	metabolic process, 		protein binding, catalytic activity, glutathione transferase activity, 
R11G1.6	R11G1.6	R11G1.6b [Source:RefSeq_peptide;Acc:NP_741753]	intracellular signaling cascade, 		
sax-1	R11G1.4	The sax-1 gene encodes a homolog of Ndr kinase that regulates neuronal cell shape and neurite initiation. [Source: WormBase]	protein amino acid phosphorylation, regulation of cell shape, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
R11G1.2	R11G1.2	R11G1.2 [Source:RefSeq_peptide;Acc:NP_508628]			
R11G1.7	R11G1.7	R11G1.7 [Source:RefSeq_peptide;Acc:NP_001041284]			
R11G1.1	R11G1.1	R11G1.1 [Source:RefSeq_peptide;Acc:NP_508629]			
C02F12.3	C02F12.3	Uncharacterized protein C02F12.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q11099]			
C02F12.5	C02F12.5	C02F12.5 encodes a homeobox protein of uncertain affinity, but with some similarity to the D. melanogster homeobox protein ROUGH. [Source: WormBase]			serine-type endopeptidase inhibitor activity, 
C02F12.10	C02F12.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ2]	regulation of transcription, DNA-dependent, nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
tag-52	C02F12.4	Putative protein tag-52. [Source:Uniprot/SWISSPROT;Acc:Q11100]	regulation of Rho protein signal transduction, 	intracellular, 	protein binding, Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
tsp-17	C02F12.1	Tetraspanin-17. [Source:Uniprot/SWISSPROT;Acc:Q11098]		integral to membrane, 	
tag-278	C02F12.7	Putative protein tag-278. [Source:Uniprot/SWISSPROT;Acc:Q11102]	signal transduction, 	intracellular, 	
C02F12.8	C02F12.8	Uncharacterized protein C02F12.8. [Source:Uniprot/SWISSPROT;Acc:Q11103]			protein binding, 
C02F12.9	C02F12.9	Putative uncharacterized protein (Fragment). [Source:Uniprot/SPTREMBL;Acc:Q95ZZ4]			
C02F12.t1	C02F12.t1				
C01C4.3	C01C4.3	Putative serine/threonine-protein kinase C01C4.3 (EC 2.7.11.1). [Source:Uniprot/SWISSPROT;Acc:Q11090]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C01C4.2	C01C4.2	Uncharacterized protein C01C4.2. [Source:Uniprot/SWISSPROT;Acc:Q11089]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, 	membrane coat, 	protein transporter activity, protein binding, 
nlp-1	C01C4.1	nlp-1 encodes a predicted neuropeptide-like protein of the MSFamide family with similarity to Aplysia californica (sea hare) buccalin, a neuropeptide that regulates acetylcholine-induced muscle contraction. NLP-1 is expressed in the phasmid PHB tail sensory neuron, lateral neurons, head neurons, and the intestine. the precise role of NLP-1 in nervous system function and development is not yet known. [Source: WormBase]		extracellular region, 	hormone activity, 
tag-81	T14G12.2	Temporarily Assigned Gene name family member (tag-81) [Source:RefSeq_peptide;Acc:NP_508641]	vesicle-mediated transport, 	membrane, 	protein binding, 
tag-18	T14G12.3	Temporarily Assigned Gene name family member (tag-18) [Source:RefSeq_peptide;Acc:NP_508642]			
fkh-2	T14G12.4	fkh-2 encodes one of 15 forkhead transcriptional regulators encoded by the C. elegans genome, and is homologous to Drosophila sloppy-paired (slp) and the vertebrate Brain Factor 1 (BF-1, OMIM:164874, expression is restricted to the central nervous system). by homology, FKH-2 is predicted to function as a transcription factor that regulates gene expression during development. while loss of fkh-2 activity via RNA-mediated interference (RNAi) results only in mild locomotion defects in L1 larvae, further RNAi experiments indicate that fkh-2 and pes-1, which encodes another C. elegans forkhead transcription factor, are required redundantly for completion of embryonic and larval development. fkh-2 expression, which partially overlaps that of pes-1, is detected in embryos in descendants of the D and AB founder cell lineages. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
T14G12.6	T14G12.6	T14G12.6 [Source:RefSeq_peptide;Acc:NP_508647]			
F47B7.3	F47B7.3	F47B7.3 [Source:RefSeq_peptide;Acc:NP_508648]			
F47B7.4	F47B7.4	F47B7.4 [Source:RefSeq_peptide;Acc:NP_508649]			
F47B7.5	F47B7.5	F47B7.5 [Source:RefSeq_peptide;Acc:NP_508650]			
F47B7.6	F47B7.6	F47B7.6 [Source:RefSeq_peptide;Acc:NP_508651]			
F47B7.2	F47B7.2	F47B7.2a [Source:RefSeq_peptide;Acc:NP_508654]	cell redox homeostasis, positive regulation of growth rate, 		
F47B7.7	F47B7.7	F47B7.7 [Source:RefSeq_peptide;Acc:NP_508655]			
F47B7.1	F47B7.1	UPF0057 membrane protein F47B7.1. [Source:Uniprot/SWISSPROT;Acc:Q20516]		integral to membrane, 	
F35A5.4	F35A5.4	F35A5.4 [Source:RefSeq_peptide;Acc:NP_508657]			
F35A5.t1	F35A5.t1				
F35A5.5	F35A5.5	F35A5.5 [Source:RefSeq_peptide;Acc:NP_508658]	positive regulation of growth rate, 		
abu-10	F35A5.3	abu-10 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and a cysteine-rich repeat (DUF139). abu-10 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum (ER), and ABU-10 may function within the ER to protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, 
erp-1	F35A5.8	erp-1 is homologous to the human gene endophilin B1 (also called SH3GLB1, for SH3 domain GRB2-like endophilin B1). [Source: WormBase]		cytoplasm, 	protein binding, 
F35A5.2	F35A5.2	F35A5.2 [Source:RefSeq_peptide;Acc:NP_508661]			
F35A5.1	F35A5.1	The F35A5.1 gene encodes a homolog of human FMR2, which when mutated leads to fragile site mental retardation, type 2 (OMIM:309548). [Source: WormBase]			
K03C7.1	K03C7.1	K03C7.1 [Source:RefSeq_peptide;Acc:NP_508663]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
fkh-9	K03C7.2	fkh-9 encodes a member of the forkhead domain transcription factor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
K03C7.3	K03C7.3	K03C7.3 [Source:RefSeq_peptide;Acc:NP_508665]			
ZC64.2	ZC64.2	ZC64.2 [Source:RefSeq_peptide;Acc:NP_508666]			
ceh-18	ZC64.3	ceh-18 encodes a POU-class homeodomain transcription factor. CEH-18 is required in hermaphrodites for specific aspects of gonadal sheath cell differentiation, such as normal cell shape and position, that are essential for negative regulation of oocyte meiotic maturation by the sheath cells. in this process, CEH-18 functions in parallel with the VAB-1/Ephrin receptor as part of a sperm-sensing checkpoint mechanism that prevents oocyte maturation, MAPK activation, and ovulation in the absence of sperm. CEH-18 is expressed in the sheath cell nuclei beginning at the L4 larval stage [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, oocyte maturation, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, 
lim-4	ZC64.4	lim-4 encodes a LIM homeodomain protein homologous to murine Lhx6 and L3/Lhx7, and to Drosophila ARROWHEAD. LIM-4 is required for differentiation of AWB chemosensory neurons, for several but not all aspects of RID motor neuron differentiation, expression of ser-2, repulsion from chemosensory repellants, SAA neurite outgrowth, and normal locomotion and head foraging. lim-4 is expressed in AWB, RID, RIV, RMDL, RMDR, RMEV, four SAA neurons, and four SIA neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, cell fate specification, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
F47F2.1	F47F2.1	F47F2.1b [Source:RefSeq_peptide;Acc:NP_508671]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F47F2.2	F47F2.2	F47F2.2 [Source:RefSeq_peptide;Acc:NP_508670]			
F47F2.3	F47F2.3	F47F2.3 [Source:RefSeq_peptide;Acc:NP_508673]			
sup-12	T22B2.4	SUPpressor family member (sup-12) [Source:RefSeq_peptide;Acc:NP_508674]			nucleotide binding, protein binding, nucleic acid binding, 
T22B2.7	T22B2.7	T22B2.7 [Source:RefSeq_peptide;Acc:NP_508675]			
T22B2.5	T22B2.5	T22B2.5 [Source:RefSeq_peptide;Acc:NP_508676]			
T22B2.6	T22B2.6	T22B2.6 [Source:RefSeq_peptide;Acc:NP_508677]			
T22B2.3	T22B2.3	T22B2.3 [Source:RefSeq_peptide;Acc:NP_508678]			
T22B2.2	T22B2.2	T22B2.2 [Source:RefSeq_peptide;Acc:NP_508679]			
T22B2.1	T22B2.1	T22B2.1 [Source:RefSeq_peptide;Acc:NP_508680]			protein binding, zinc ion binding, 
T19D2.1	T19D2.1	T19D2.1 [Source:RefSeq_peptide;Acc:NP_508681]	proteolysis, 	proteinaceous extracellular matrix, 	zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
T19D2.3	T19D2.3	T19D2.3 [Source:RefSeq_peptide;Acc:NP_508682]			
prl-1	T19D2.2	T19D2.2 [Source:RefSeq_peptide;Acc:NP_508683]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
lin-18	C16B8.1	lin-18 encodes a predicted receptor tyrosine kinase that is a member of the Ryk/Derailed family of tyrosine kinase-related receptors (OMIM:600524, mutations in humans are associated with cleft palate). in C. elegans, LIN-18 is required for establishing the polarity of the secondary vulval cell lineage produced by the P7.p vulval precursor cell. LIN-18 may be a receptor for Wnt-like signaling molecules, and in vulval development appears to function independently of, but in parallel with, LIN-17, a Frizzled-like Wnt receptor, also required for proper orientation of the P7.p lineage. a lin-18 reporter gene is expressed in body wall muscle, neurons, and the developing vulva. in the vulva, expression is detected in P5.p, P6.p, and P7.p and all of their descendants during the L3 and L4 larval stages. [Source: WormBase]	protein amino acid phosphorylation, regulation of asymmetric cell division, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C16B8.2	C16B8.2	C16B8.2 [Source:RefSeq_peptide;Acc:NP_508685]			protein binding, 
C16B8.3	C16B8.3	C16B8.3 [Source:RefSeq_peptide;Acc:NP_508686]			protein binding, 
C16B8.t1	C16B8.t1				
C16B8.t2	C16B8.t2				
C16B8.t3	C16B8.t3				
C16B8.4	C16B8.4	C16B8.4 [Source:RefSeq_peptide;Acc:NP_508687]	embryonic development ending in birth or egg hatching, 		
NR_000947.1	C16B8.5	C16B8.5, miscRNA [Source:RefSeq_dna;Acc:NR_000947]			
R02E12.t1	R02E12.t1				
R02E12.5	R02E12.5	R02E12.5 [Source:RefSeq_peptide;Acc:NP_508688]			
R02E12.4	R02E12.4	R02E12.4 [Source:RefSeq_peptide;Acc:NP_508689]	microtubule cytoskeleton organization and biogenesis, 	microtubule, 	protein binding, zinc ion binding, 
R02E12.6	R02E12.6	R02E12.6 [Source:RefSeq_peptide;Acc:NP_508690]			
mop-25.1	R02E12.2	R02E12.2a [Source:RefSeq_peptide;Acc:NP_001024819]			
acr-10	R02E12.8	acr-10 encodes an alpha-7-like homomer-forming subunit of the nicotinic acetylcholine receptor (nAChR) superfamily which encode ligand-gated ion channels that regulate fast action of acetylcholine at neuromuscular junctions and in the nervous system. ACR-10 is a member of the ACR-16-like group of nAChR subunits. [Source: WormBase]	transport, ion transport, locomotory behavior, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
T06F4.1	T06F4.1	T06F4.1a [Source:RefSeq_peptide;Acc:NP_508693]			
T06F4.3	T06F4.3	T06F4.3 [Source:RefSeq_peptide;Acc:NP_001033558]			
clh-4	T06F4.2	A homolog of a mammalian CIC-type chloride channel that is uniquely expressed in adult worms. [Source: WormBase]	chloride transport, 	membrane, 	voltage-gated chloride channel activity, 
R02E4.3	R02E4.3	R02E4.3 [Source:RefSeq_peptide;Acc:NP_001041279]			
R02E4.1	R02E4.1	R02E4.1 [Source:RefSeq_peptide;Acc:NP_508697]			
R02E4.2	R02E4.2	R02E4.2 [Source:RefSeq_peptide;Acc:NP_001024821]			
F09F9.2	F09F9.2	F09F9.2 [Source:RefSeq_peptide;Acc:NP_508698]			
F09F9.1	F09F9.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5HU92]			
F09F9.5	F09F9.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5HU93]			
F09F9.3	F09F9.3	F09F9.3 [Source:RefSeq_peptide;Acc:NP_508700]			
F09F9.4	F09F9.4	F09F9.4 [Source:RefSeq_peptide;Acc:NP_508701]			
ZK470.2	ZK470.2	ZK470.2c [Source:RefSeq_peptide;Acc:NP_741760]			
ZK470.4	ZK470.4	ZK470.4 [Source:RefSeq_peptide;Acc:NP_508703]			
nck-1	ZK470.5	nck-1 encodes a protein with similarity to the human NCK adaptor protein 2 and orthologous to C. briggsae CBG14353. contains three SH3 domains and two SH2 domains. [Source: WormBase]	intracellular signaling cascade, 		
ZK470.1	ZK470.1	ZK470.1 [Source:RefSeq_peptide;Acc:NP_508708]		integral to membrane, 	
ZK470.6	ZK470.6	ZK470.6 [Source:RefSeq_peptide;Acc:NP_508709]			
mrp-6	F20B6.3	Multidrug Resistance Protein family member (mrp-6) [Source:RefSeq_peptide;Acc:NP_508710]	transport, ion transport, oviposition, 	membrane, integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, chloride channel activity, 
vha-12	F20B6.2	vha-12 encodes an ortholog of subunit B of the cytoplasmic (V1) domain of vacuolar proton-translocating ATPase (V-ATPase). VHA-12 is orthologous to human ATP6V1B1 (OMIM:192132, mutated in distal renal tubular acidosis with progressive sensorineural deafness) and ATP6V1B2 (OMIM:606939). VHA-12 and TAG-300/Y110A7A.12 are co-orthologs. VHA-17, like VHA-1 and VHA-12, antagonizes EFF-1-mediated cell fusion in hypodermal cells. VHA-12 is required for necrosis, since mutation of vha-12 suppresses necrotic neurodegeneration, cytoplasmic acidification, and thapsigargin-induced cell death. VHA-12 is predicted to bind ATP as part of a cytosolic VHA-12/VHA-13 heterohexamer, whose ATP hydrolysis drives the V-ATPase rotor. general levels of VHA-12 protein are very low in embryos but increase strongly after hatching. [Source: WormBase]	ATP synthesis coupled proton transport, ATP biosynthetic process, energy coupled proton transport, against electrochemical gradient, proton transport, embryonic development ending in birth or egg hatching, cell death, cell-cell adhesion, positive regulation of non-apoptotic programmed cell death, 	cytoplasm, proton-transporting two-sector ATPase complex, 	ATP binding, hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, hydrogen-exporting ATPase activity, phosphorylative mechanism, 
F20B6.4	F20B6.4	F20B6.4 [Source:RefSeq_peptide;Acc:NP_508712]			
F20B6.5	F20B6.5	F20B6.5 [Source:RefSeq_peptide;Acc:NP_508713]			
F20B6.1	F20B6.1	F20B6.1 [Source:RefSeq_peptide;Acc:NP_508714]	protein amino acid dephosphorylation, dephosphorylation, embryonic development ending in birth or egg hatching, 		phosphoric monoester hydrolase activity, protein tyrosine phosphatase activity, 
F20B6.6	F20B6.6	F20B6.6 [Source:RefSeq_peptide;Acc:NP_508715]	protein amino acid dephosphorylation, 		protein tyrosine phosphatase activity, 
F20B6.9	F20B6.9	F20B6.9 [Source:RefSeq_peptide;Acc:NP_508716]			
F20B6.7	F20B6.7	F20B6.7 [Source:RefSeq_peptide;Acc:NP_508717]			
hpk-1	F20B6.8	hpk-1 encodes a predicted dual-specificity protein kinase with distant homology to the vertebrate protein kinase DYRK1A and the Drosophila homolog mini-brain. increased expression of DYRK1A is implicated in the neuropathology of trisomy 21/Down syndrome. RNA interference of hpk-1 does not result in any detectable phenotype. the HPK-1::GFP fusion protein is localized to the nucleus and is expressed in cleavage stage embryos. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W01H2.2	W01H2.2	W01H2.2 [Source:RefSeq_peptide;Acc:NP_508720]			
rab-37	W01H2.3	RAB family member (rab-37) [Source:RefSeq_peptide;Acc:NP_001041293]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
W01H2.t1	W01H2.t1				
F48D6.4	F48D6.4	F48D6.4b [Source:RefSeq_peptide;Acc:NP_508724]			
hlh-13	F48D6.3	Helix Loop Helix family member (hlh-13) [Source:RefSeq_peptide;Acc:NP_508725]	regulation of transcription, regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription regulator activity, transcription factor activity, 
srv-5	F48D6.2	Serpentine Receptor, class V family member (srv-5) [Source:RefSeq_peptide;Acc:NP_001024688]			
taf-11.1	F48D6.1	TAF (TBP-associated transcription factor) family member (taf-11.1) [Source:RefSeq_peptide;Acc:NP_508727]	regulation of transcription, homoiothermy, response to freezing, 	nucleus, 	RNA polymerase II transcription factor activity, ice binding, 
srv-6	C52B9.5	Serpentine Receptor, class V family member (srv-6) [Source:RefSeq_peptide;Acc:NP_508728]			
C52B9.4	C52B9.4	C52B9.4 [Source:RefSeq_peptide;Acc:NP_508729]		integral to membrane, 	
C52B9.3	C52B9.3	C52B9.3b [Source:RefSeq_peptide;Acc:NP_741765]			protein binding, 
mec-18	C52B9.9	mec-18 encodes a protein similar to firefly luciferase and plant protein 4-coumarate coA ligase. mec-18 is involved in sensory mechanotransduction. genetic interactions with other mec genes suggest that mec-18 may be involved in negative regulation of the degenerin channel in the touch receptor neurons. mec-18 is expressed exclusively in the touch cells. [Source: WormBase]	metabolic process, detection of mechanical stimulus during sensory perception of touch, 		catalytic activity, CoA-ligase activity, 
C52B9.10	C52B9.10	C52B9.10 [Source:RefSeq_peptide;Acc:NP_741766]			
twk-28	C52B9.6	TWiK family of potassium channels family member (twk-28) [Source:RefSeq_peptide;Acc:NP_508732]	potassium ion transport, 	membrane, 	potassium channel activity, 
C52B9.2	C52B9.2	C52B9.2b [Source:RefSeq_peptide;Acc:NP_001024483]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C52B9.11	C52B9.11	C52B9.11 [Source:RefSeq_peptide;Acc:NP_741767]			transcription factor activity, 
cka-2	C52B9.1	cka-2 encodes an isoform of choline kinase whose activity has been verified in vitro. CKA-1 and CKA-2 comprise a related group ('A') of choline kinases. purified CKA-2 is dimeric, requires 1 mM Mg(2+) for optimal activity, and has a strong preference for choline over ethanolamine. CKA-2 has a pH optimum of 10 and a k(cat) of 74/s, close to the maximum rate observed for yeast and rat enzymes. [Source: WormBase]			phosphopantetheine binding, 
paf-2	C52B9.7	paf-2 encodes a homolog of vertebrate Type II Platelet-activating factor-acetylhydrolase (PAF-AH) that is 70% identical to PAF-2 that is required for embryogenesis and affects organization of the hypodermis. [Source: WormBase]	lipid catabolic process, embryonic development ending in birth or egg hatching, 	2-acetyl-1-alkylglycerophosphocholine esterase complex, 	catalytic activity, 1-alkyl-2-acetylglycerophosphocholine esterase activity, 
C52B9.8	C52B9.8	C52B9.8 [Source:RefSeq_peptide;Acc:NP_508736]	calcium ion transport, 	integral to membrane, 	ATP binding, DNA binding, nucleic acid binding, hydrolase activity, helicase activity, voltage-gated calcium channel activity, 
pqn-15	C24A8.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			catalytic activity, 
C24A8.1	C24A8.1	C24A8.1 encodes an homolog of mammalian D2 or D3 dopamine receptors, and a paralog of DOP-2/-3. C24A8.1 is expressed in the nervous system. because of its paralogy, C24A8.1 might act redundantly with DOP-2 to promote the basal slowing response to bacterial feeding, or it might account for the residual response to excess dopamine seen in triple dop-1/-2/-3 mutants. but C24A8.1 otherwise has no obvious function in RNAi assays of brood size, egg laying, pharyngeal pumping, locomotion, or male mating. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C24A8.5	C24A8.5	C24A8.5 [Source:RefSeq_peptide;Acc:NP_508740]			
C24A8.6	C24A8.6	C24A8.6 [Source:RefSeq_peptide;Acc:NP_001041220]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
cst-2	C24A8.4	Caenorhabditis STE20-like kinase family member (cst-2) [Source:RefSeq_peptide;Acc:NP_001041219]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
cst-1	F14H12.4	Serine/threonine-protein kinase cst-1 (EC 2.7.11.1) (STE20-like kinase 1) (STE20-like kinase MST) (cMST). [Source:Uniprot/SWISSPROT;Acc:Q9NB31]	protein amino acid phosphorylation, signal transduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F14H12.3	F14H12.3	F14H12.3 [Source:RefSeq_peptide;Acc:NP_508745]			
F14H12.2	F14H12.2	F14H12.2 [Source:RefSeq_peptide;Acc:NP_508746]			
col-165	F14H12.1	COLlagen family member (col-165) [Source:RefSeq_peptide;Acc:NP_508747]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F14H12.6	F14H12.6	F14H12.6 [Source:RefSeq_peptide;Acc:NP_508748]			
F14H12.7	F14H12.7	F14H12.7 [Source:RefSeq_peptide;Acc:NP_508749]			
F14H12.8	F14H12.8	F14H12.8 [Source:RefSeq_peptide;Acc:NP_508750]			
R160.3	R160.3	R160.3 [Source:RefSeq_peptide;Acc:NP_508751]			
R160.4	R160.4	R160.4 [Source:RefSeq_peptide;Acc:NP_508752]			
R160.5	R160.5	R160.5 [Source:RefSeq_peptide;Acc:NP_508753]			
R160.6	R160.6	R160.6 [Source:RefSeq_peptide;Acc:NP_508754]			
R160.2	R160.2	R160.2 [Source:RefSeq_peptide;Acc:NP_508755]			
lst-2	R160.7	Lateral Signaling Target family member (lst-2) [Source:RefSeq_peptide;Acc:NP_508756]			zinc ion binding, 
dpy-23	R160.1	The dpy-23 gene encodes an adaptin: specifically, it encodes an ortholog of the mu2 subunit of adaptor protein complex 2 (AP-2). [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, biological_process, 	clathrin adaptor complex, membrane coat, AP-type membrane coat adaptor complex, AP-2 adaptor complex, 	protein transporter activity, protein binding, molecular_function, 
D1079.1	D1079.1	D1079.1 [Source:RefSeq_peptide;Acc:NP_508758]			
F15A8.4	F15A8.4	F15A8.4 [Source:RefSeq_peptide;Acc:NP_508759]			
F15A8.t1	F15A8.t1				
F15A8.t2	F15A8.t2				
dop-1	F15A8.5	dop-1 encodes a D1-like dopamine receptor. dop-1 is required cell autonomously in the touch neurons for modulation of mechanosensory behaviors such as tap habituation. in addition, dop-1 is required for regulation of locomotion via antagonism of the DOP-3 D2-like dopamine receptor in cholinergic neurons. when expressed in tissue culture cells, DOP-1 activity is stimulated by dopamine and to a lesser extent, by norepinephrine and epinephrine. when coexpressed with bovine or C. elegans GalphaS, DOP-1 stimulates potassium channel activity. DOP-1 is expressed in several different types of cells including mechanosensory neurons, cholinergic motor neurons, interneurons, excretory gland cells, head muscles, and neuronal support cells. DOP-1 localizes to the plasma membrane. dop-1 expression in the RIS interneuron is regulated by the LIM-6 homeodomain protein. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, response to food, habituation, 	integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, neuropeptide Y receptor activity, melanocortin receptor activity, adrenoceptor activity, 
F15A8.3	F15A8.3				
F15A8.6	F15A8.6	F15A8.6 [Source:RefSeq_peptide;Acc:NP_508761]			
F15A8.1	F15A8.1	F15A8.1 [Source:RefSeq_peptide;Acc:NP_508763]			
F15A8.7	F15A8.7	F15A8.7 [Source:RefSeq_peptide;Acc:NP_508764]			
F25F6.t1	F25F6.t1				
F25F6.1	F25F6.1	F25F6.1 [Source:RefSeq_peptide;Acc:NP_508765]			
F25F6.t2	F25F6.t2				
F02E8.4	F02E8.4	F02E8.4 [Source:RefSeq_peptide;Acc:NP_508766]			
aps-2	F02E8.3	The aps-2 gene encodes an adaptin: specifically, it encodes an ortholog of the sigma2 subunit of adaptor protein complex 2 (AP-2), which mediates endocytosis from the plasma membrane. APS-2 appears to be required for embryonic and larval development and for normal body morphology, but is not required for endocytosis of yolk protein in developing oocytes. APS-2 is expressed in nearly all cells during embryogenesis, but during larval and adult stages, expression is confined to neurons and some hypodermal cells, including vulval hypodermal cells during the fourth larval stage. [Source: WormBase]	transport, intracellular protein transport, protein complex assembly, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane coat, 	protein transporter activity, protein binding, 
F02E8.5	F02E8.5	Uncharacterized WD repeat protein F02E8.5. [Source:Uniprot/SWISSPROT;Acc:Q19124]			
F02E8.2	F02E8.2	F02E8.2a [Source:RefSeq_peptide;Acc:NP_001024524]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
asb-2	F02E8.1	asb-2 encodes the B subunit of the membrane-bound F0 proton channel portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V) that is closely similar to its paralog ASB-1. RNAi experiments indicate that asb-2 activity is required for larval development as well as for normal body morphology, lifespan, and growth rate. [Source: WormBase]	ATP synthesis coupled proton transport, growth, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
ncr-1	F02E8.6	ncr-1 encodes a large transmembrane glycoprotein with a patched-like domain that is orthologous to human NPC1 (OMIM:257220, mutated in Niemann-Pick type C disease). NCR-1 and NPC1 are eukaryotic members of the resistance-nodulation-division (RND) family of membrane permeases, and have a putative sterol-sensing domain. by homology, NCR-1 is predicted to function in intracellular cholesterol and glycolipid trafficking. in C. elegans, NCR-1 is required for growth and survival in the absence of cholesterol, newly hatched ncr-1 mutant larvae grow poorly on cholesterol-free medium and die at the L1 or L2 stage. NCR-1 is also involved in negative regulation of dauer formation, being required redundantly with NCR-2, a second C. elegans NPC1-like protein, for preventing constitutive dauer formation. dauer formation in ncr-1. ncr-2 double mutants is suppressed by mutations in daf-12, which encodes a steroid hormone receptor, and by overexpression of daf-9, which encodes a cytochrome P450, suggesting that NCR-1 and NCR-2 may function to transport a sterol precursor that is metabolized by DAF-9 to then serve as the DAF-12 ligand. [Source: WormBase]	embryonic development ending in birth or egg hatching, dauer larval development, 	membrane, integral to membrane, 	hedgehog receptor activity, molecular_function, 
F46H6.5	F46H6.5	F46H6.5 [Source:RefSeq_peptide;Acc:NP_001024682]			
dgk-2	F46H6.2	dgk-2 encodes a putative diacylglycerol kinase. [Source: WormBase]	intracellular signaling cascade, protein kinase C activation, 		diacylglycerol kinase activity, 
rhi-1	F46H6.1	Probable rho GDP-dissociation inhibitor (Rho GDI). [Source:Uniprot/SWISSPROT;Acc:Q20496]	locomotory behavior, 	cytoplasm, 	Rho GDP-dissociation inhibitor activity, 
spr-3	C07A12.5	Suppressor of presenilin protein 3. [Source:Uniprot/SWISSPROT;Acc:Q17768]	reproduction, 	intracellular, 	zinc ion binding, nucleic acid binding, 
C07A12.7	C07A12.7	C07A12.7a [Source:RefSeq_peptide;Acc:NP_508777]	intracellular protein transport, 	intracellular, 	
pdi-2	C07A12.4	Protein disulfide-isomerase 2 precursor (EC 5.3.4.1) (PDI 1) (Prolyl 4-hydroxylase subunit beta). [Source:Uniprot/SWISSPROT;Acc:Q17770]	cell redox homeostasis, embryonic development ending in birth or egg hatching, 	endoplasmic reticulum, 	isomerase activity, 
nhr-35	C07A12.3	Nuclear hormone receptor family member nhr-35. [Source:Uniprot/SWISSPROT;Acc:Q17771]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, 
C07A12.2	C07A12.2	C07A12.2 [Source:RefSeq_peptide;Acc:NP_508780]			
ham-2	C07A12.1	The ham-2 gene encodes a C2H2 zinc finger-containing protein required for proper migration of the hermaphrodite-specific neurons (HSNs) and proper attachment of the pharynx to the nose. HAM-2 is expressed in the nuclei of the HSNs during migration, and acts downstream of EGL-5, a posterior group Hox protein, in HSN specification. HAM-2 acts redundantly with UNC-86 to downregulate UNC-43 expression in the HSNs after migration is complete. [Source: WormBase]	cell fate determination, 	intracellular, 	zinc ion binding, nucleic acid binding, 
C05E11.6	C05E11.6	C05E11.6 [Source:RefSeq_peptide;Acc:NP_508782]		extracellular region, 	neuropeptide hormone activity, 
amt-4	C05E11.5	amt-4 encodes a member of the ammonium transporter protein family. [Source: WormBase]	transport, 	membrane, 	ammonium transmembrane transporter activity, 
amt-1	C05E11.4	amt-1 encodes a transmembrane transporter that by homology, is predicted to transport ammonium ions across the plasma membrane. as loss of amt-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of AMT-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	membrane, 	ammonium transmembrane transporter activity, 
C05E11.3	C05E11.3	C05E11.3 [Source:RefSeq_peptide;Acc:NP_508785]		integral to membrane, 	
C05E11.7	C05E11.7	C05E11.7 [Source:RefSeq_peptide;Acc:NP_508786]			
C05E11.2	C05E11.2	C05E11.2 [Source:RefSeq_peptide;Acc:NP_508787]			
lnp-1	C05E11.1	Uncharacterized protein C05E11.1. [Source:Uniprot/SWISSPROT;Acc:Q17667]	negative regulation of multicellular organism growth, 		
flp-12	C05E11.8	flp-12 encodes a predicted FMRFamide-like peptide neurotransmitter that affects locomotion when injected into A. suum. expressed in the ASE and PVM sensory neurons. [Source: WormBase]			
spat-3	T13H2.5	spat-3 encodes, by transcription from alternative promoters, two large (1092- and 2471-residues) proteins. while residues 162-228 of the larger SPAT-3 protein encode a Ring1 type of zinc-finger domain (like that seen in SEX COMBS EXTRA, an E3 ubiquitin-protein ligase RING1 protein of Drosophila melanogaster), the bulk of SPAT-3 has no obvious similarities to other proteins. SPAT-3 is specifically required for PAR protein-dependent cell-polarity, and this requirement is independent of PAR-2 activity. as with par-3, par-6, pkc-3, and cdc-42, inactivation of spat-3 (by RNAi or mutation) strongly suppresses the embryonic lethality of par-2(it5ts) at restrictive temperature. as with nos-3, spat-3 also suppresses par-2(lw32), a strong loss-of-function allele. while spat-3 par-2 double mutant embryos require PAR-1 for viability, PAR-1 does not regain posterial cortical localization in these embryos, but is instead diffused through their cytoplasm. [Source: WormBase]	metabolic process, 		protein binding, zinc ion binding, catalytic activity, 
pqn-65	T13H2.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
C46C11.3	C46C11.3	C46C11.3 [Source:RefSeq_peptide;Acc:NP_508792]			
C46C11.2	C46C11.2	C46C11.2a [Source:RefSeq_peptide;Acc:NP_001033533]			
C46C11.1	C46C11.1	C46C11.1a [Source:RefSeq_peptide;Acc:NP_001041228]	metabolic process, lipid catabolic process, cholesterol metabolic process, 		hydrolase activity, lipase activity, 
C46C11.4	C46C11.4	C46C11.4 [Source:RefSeq_peptide;Acc:NP_001033535]			
F16H11.3	F16H11.3	F16H11.3 [Source:RefSeq_peptide;Acc:NP_508795]	transport, 	membrane, 	nucleoside transmembrane transporter activity, 
ceh-1	F16H11.4	ceh-1 encodes a protein that contains a homeobox domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
nhr-45	F16H11.5	Nuclear Hormone Receptor family member (nhr-45) [Source:RefSeq_peptide;Acc:NP_508797]	regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F16H11.2	F16H11.2	F16H11.2 [Source:RefSeq_peptide;Acc:NP_508798]			
F16H11.1	F16H11.1	F16H11.1 [Source:RefSeq_peptide;Acc:NP_508799]			transporter activity, 
K02G10.3	K02G10.3	K02G10.3 [Source:RefSeq_peptide;Acc:NP_508800]			
flp-11	K02G10.4	FMRF-Like Peptide family member (flp-11) [Source:RefSeq_peptide;Acc:NP_001024752]			
K02G10.5	K02G10.5	K02G10.5 [Source:RefSeq_peptide;Acc:NP_508802]	transport, 	membrane, 	transporter activity, 
hyl-2	K02G10.6	hyl-2 encodes a predicted transmembrane protein that is related to Saccharomyces cerevisiae LAG1 (longevity assurance gene), a protein preferentially expressed in young yeasts. by homology, HYL-2 is predicted to have several possible functions, including regulation of lipid, particularly ceramide, biosynthesis, regulation of lipid transport, and regulation of protein translocation in the endoplasmic reticulum . however, as loss of hyl-2 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of hyl-2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]		integral to membrane, 	
aqp-8	K02G10.7	AQuaPorin or aquaglyceroporin related family member (aqp-8) [Source:RefSeq_peptide;Acc:NP_001024757]	transport, 	membrane, 	transporter activity, 
K02G10.1	K02G10.1	K02G10.1 [Source:RefSeq_peptide;Acc:NP_508805]			zinc ion binding, 
dnj-14	K02G10.8	This gene encodes a protein containing a DnaJ ('J') domain. [Source: WormBase]			heat shock protein binding, 
glit-1	F55D10.3	F55D10.3 [Source:RefSeq_peptide;Acc:NP_508807]	positive regulation of growth rate, 		
rpl-25.1	F55D10.2	rpl-25.1 encodes a large ribosomal subunit L23a protein. [Source: WormBase]	translation, positive regulation of growth rate, 	intracellular, ribosome, 	nucleotide binding, RNA binding, structural constituent of ribosome, 
F55D10.4	F55D10.4	F55D10.4 [Source:RefSeq_peptide;Acc:NP_508809]			
acc-3	F55D10.5	F55D10.5 [Source:RefSeq_peptide;Acc:NP_508810]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
aman-1	F55D10.1	aman-1 encodes an ortholog of human lysosomal mannosidase (MAN2B1. OMIM:609458, mutated in alpha-mannosidosis). AMAN-1 is predicted to help digest glycoproteins by removing mannose residues from their N-linked oligosaccharides. AMAN-1 has seven predicted N-glycosylation sites. AMAN-1 is biochemically active in vitro, has optimal activity at pH 4-4.5, and is unaffected by Co(II). however, AMAN-1 expressed in Pichia pastoris lacks normal activity, perhaps because it requires other subunits in vivo. aman-1 is expressed in neurons and intestine. [Source: WormBase]	carbohydrate metabolic process, mannose metabolic process, 		alpha-mannosidase activity, mannosidase activity, 
lon-2	C39E6.1	lon-2 encodes a member of the glypican family of heparan sulfate proteoglycans. during development, lon-2 activity is required in the hypodermis for negative regulation of the DBL-1/BMP signaling pathway that regulates body length. genetic analyses indicate that lon-2 functions upstream of dbl-1, and in vitro studies show that LON-2 can bind mammalian BMP2, suggesting that LON-2 may directly interact with DBL-1 to negatively regulate DBL-1/BMP signaling. in addition to expression in hypodermis, LON-2 is expressed strongly in the intestine, particularly the anterior and posterior cells. LON-2 localizes to the cell surface. [Source: WormBase]	embryonic development ending in birth or egg hatching, negative regulation of transforming growth factor beta receptor signaling pathway, 		
C39E6.2	C39E6.2	C39E6.2 [Source:RefSeq_peptide;Acc:NP_508813]			
mls-2	C39E6.4	Mesodermal Lineage Specification family member (mls-2) [Source:RefSeq_peptide;Acc:NP_508815]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
npr-1	C39E6.6	npr-1 encodes a predicted G protein-coupled neuropeptide receptor that is homologous to the mammalian neuropeptide Y (NPY) receptor (OMIM:162641) required for regulating anxiety, food consumption, and pain sensation. in C. elegans, NPR-1 is involved in ethological variations of social behavior such as social versus solitary feeding. NPR-1 also affects some aspect of UNC-6/netrin-mediated branching of motor neurons, as strong npr-1 mutations can suppress abnormal migration of ventral nerve cord neurons induced by overexpression of UNC-6 lacking domain C. NPR-1 is expressed predominantly in the nervous system, and particularly in the AQR, PQR, and URX neurons that are exposed to the body fluid. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, feeding behavior, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
F43C9.3	F43C9.3	F43C9.3 [Source:RefSeq_peptide;Acc:NP_508817]		myosin complex, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, motor activity, 
F43C9.2	F43C9.2	F43C9.2 [Source:RefSeq_peptide;Acc:NP_508818]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
F43C9.t1	F43C9.t1				
F43C9.1	F43C9.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
mig-13	F43C9.4	mig-13 encodes a novel single-pass transmembrane protein with a N-terminal signal sequence and two motifs that have been implicated in protein-protein interactions: a CUB domain and a LDL receptor repeat. mig-13 affects the migration and thus the positioning of the Q neuroblasts and their descendants and also the anterior migration of the BDU neuron and may be a component of a global anterior/posterior migration system. a mig-13-gfp translational fusion protein is expressed in embryonic pharyngeal, hypodermal and anterior body neuronal precursors as well as in the cell bodies and axons of a number of neurons in the retrovascular ganglion and the ventral cord. mig-13 localizes to the plasma membrane. mig-13 expression along the A/P axis is restricted by hox gene activity. [Source: WormBase]	positive regulation of cell migration, 		molecular_function, 
R08E3.4	R08E3.4	R08E3.4a [Source:RefSeq_peptide;Acc:NP_001024850]		intracellular, 	zinc ion binding, nucleic acid binding, 
R08E3.3	R08E3.3	R08E3.3b [Source:RefSeq_peptide;Acc:NP_001024849]			
R08E3.2	R08E3.2	R08E3.2 [Source:RefSeq_peptide;Acc:NP_508823]			
R08E3.1	R08E3.1	R08E3.1b [Source:RefSeq_peptide;Acc:NP_001024847]			
F39C12.1	F39C12.1	F39C12.1 [Source:RefSeq_peptide;Acc:NP_508825]	DNA repair, 		
add-1	F39C12.2	add-1 encodes an ortholog of the cytoskeletal protein alpha-adducin (ADD1, OMIM:102680, mutations are associated with susceptibility to salt-sensitive essential hypertension). by homology, ADD-1 is predicted to be a cell membrane-associated protein that mediates localized changes in the cytoskeleton in response to activation of signal transduction cascades. as loss of add-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of ADD-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			metal ion binding, 
F39C12.4	F39C12.4	F39C12.4 [Source:RefSeq_peptide;Acc:NP_001033548]		extracellular region, 	neurohypophyseal hormone activity, 
tsp-14	F39C12.3	TetraSPanin family member (tsp-14) [Source:RefSeq_peptide;Acc:NP_508828]		integral to membrane, 	
T07F12.3	T07F12.3	T07F12.3 [Source:RefSeq_peptide;Acc:NP_508830]			
T07F12.2	T07F12.2	T07F12.2 [Source:RefSeq_peptide;Acc:NP_508831]			
T07F12.1	T07F12.1	T07F12.1 encodes a member of the histidine phosphatase superfamily orthologous to Bombyx mori ecdysteroid phosphate phosphatase (EPP), human STS1 (OMIM:609201) and human UBASH3A (OMIM:605736). in cell culture, recombinant T07F12.1 is a cytosolic enzyme with steroid phosphatase activity on ecdysone 22-phosphate (E22P), 3-epiecdysone 22-phosphate, 3-epiecdysone 2-phosphate substrates, and prednisolone 21-phosphate substrates, with E22P being preferred. T07F12.1 has no activity against 3-epiecdysone 3(alpha)-phosphate or 1-dehydrotestosterone sodium sulphate. unlike its Bombyx or mammalian orthologs, T07F12.1 lacks non-catalytic SH3 and UBA domains. T07F12.1 is paralogous to C. elegans C52E4.7, F09C12.8, F53B6.7, and F55A11.11. [Source: WormBase]			
T07F12.4	T07F12.4	T07F12.4 [Source:RefSeq_peptide;Acc:NP_508833]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
K05B2.2	K05B2.2	K05B2.2a [Source:RefSeq_peptide;Acc:NP_001033555]			
ifa-4	K05B2.3	IFA-4 encodes a nonessential intermediate filament protein that is coexpressed with the essential IF protein IFB-1. IFA-4 binds IFB-1 in blot overlay assays. ifa-4 is expressed in larvae in the pharyngeal-intestinal valve, the rectum, some neurons of the tail, the excretory cell, and the intestine of dauer (but not nondauer) larvae. IFA-4 has no function in RNAi assays. [Source: WormBase]			protein binding, structural molecule activity, 
K05B2.4	K05B2.4	K05B2.4 [Source:RefSeq_peptide;Acc:NP_508837]	lipid metabolic process, 		palmitoyl-CoA hydrolase activity, 
pes-22	K05B2.5	pes-22 encodes a predicted transmembrane protein that is a member of the monocarboxylate porter subfamily of the major facilitator superfamily of transmembrane transporters. pes-22 was identified in promoter-trapping screens and by homology, is predicted to function in the transport of lactate and pyruvate across cell membranes, possibly as part of a metabolic pathway that allows these metabolites to be converted back to glucose when the organism is under high energy demand. however, as loss of pes-22 activity via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of PES-22 in C. elegans development and/or behavior is not yet known. a pes-22 reporter is expressed in the excretory gland cells and the ventral nerve cord from late embryogenesis through adulthood, and also in the intestine in late embryos and early larvae. [Source: WormBase]	transport, 	integral to membrane, 	transporter activity, 
tyra-3	M03F4.3	tyra-3 encodes a homolog of octopamine or tyramine receptors that is expressed in head neurons (anterior deirid and cephalic sensilla), tail neurons, and vulva. TYRA-3 is required for normal inhibition of movement by 5-HT, with tyra-3(RNAi) animals being hyperactive. heterologously expressed TYRA-3 has no effect on adenylate cyclase activity. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, octopamine receptor activity, vasopressin receptor activity, 
M03F4.4	M03F4.4	M03F4.4 [Source:RefSeq_peptide;Acc:NP_508840]			
act-4	M03F4.2	act-4 encodes an actin isoform that is most similar to act-2 in amino acid sequence. an act-4 reporter gene is expressed in body wall and vulval muscles and the spermatheca. [Source: WormBase]	reproduction, 		ATP binding, protein binding, 
M03F4.6	M03F4.6	M03F4.6 [Source:RefSeq_peptide;Acc:NP_508843]	embryonic development ending in birth or egg hatching, 		
calu-1	M03F4.7	CALUmenin (calcium-binding protein) homolog family member (calu-1) [Source:RefSeq_peptide;Acc:NP_001024806]	molting cycle, protein-based cuticle, 		calcium ion binding, 
ZC8.6	ZC8.6	ZC8.6 [Source:RefSeq_peptide;Acc:NP_508849]			phosphotransferase activity, alcohol group as acceptor, 
lfi-1	ZC8.4	lfi-1 encodes, by alternative splicing, at least four isoforms of a large coiled-coil protein paralogous to F35D11.11, and possibly orthologous to rootletin (the structural protein comprising ciliary rootlets). LFI-1 is also homologous to the Parascaris univalens Mitotic Antigen, PUMA1. LFI-1 was initially identified in yeast two-hybrid screens for proteins that interact with the coiled-coil protein LIN-5, which is essential for proper spindle positioning and chromosome segregation. antibody staining reveals that, in embryos, LFI-1 is expressed in metaphase cells in a diffuse area surrounding the kinetochore microtubules and overlapping with LIN-5 localization. in interphase cells, LFI-1 localizes to the nucleus and remains in the nuclear region even after nuclear envelope breakdown. as loss of lfi-1 activity, or the combined activities of lfi-1 and a related gene, F35D11.11, by RNAi results in no obvious defects, the precise role of LFI-1 in development is not yet known. [Source: WormBase]	signal transduction, regulation of transcription, DNA-dependent, vesicle-mediated transport, viral reproduction, 	membrane, intracellular, nucleus, 	nucleotide binding, protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
set-30	ZC8.3	Temporarily Assigned Gene name family member (tag-226) [Source:RefSeq_peptide;Acc:NP_508850]			zinc ion binding, 
ZC8.1	ZC8.1	The ZC8.1 gene encodes a homolog of the human gene 3BH1, which when mutated leads to giant cell hepatitis (OMIM:231100). [Source: WormBase]	cellular metabolic process, steroid biosynthetic process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
ZC449.6	ZC449.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVJ7]	cellular metabolic process, steroid biosynthetic process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
ZC449.7	ZC449.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A4UVJ8]			
ZC449.3	ZC449.3	ZC449.3b [Source:RefSeq_peptide;Acc:NP_741776]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZC449.2	ZC449.2	ZC449.2 [Source:RefSeq_peptide;Acc:NP_508854]			
ZC449.t1	ZC449.t1				
ZC449.1	ZC449.1	ZC449.1 [Source:RefSeq_peptide;Acc:NP_508855]	proteolysis, 		cysteine-type endopeptidase activity, 
ZC449.4	ZC449.4	ZC449.4 [Source:RefSeq_peptide;Acc:NP_508856]			
ZC449.5	ZC449.5	ZC449.5 [Source:RefSeq_peptide;Acc:NP_508857]			
Y64H9A.2	Y64H9A.2	Y64H9A.2 [Source:RefSeq_peptide;Acc:NP_508858]			
Y64H9A.1	Y64H9A.1	Y64H9A.1 [Source:RefSeq_peptide;Acc:NP_508859]	intracellular signaling cascade, 	membrane, 	
C24H10.4	C24H10.4	C24H10.4 [Source:RefSeq_peptide;Acc:NP_508860]			
C24H10.3	C24H10.3	C24H10.3 [Source:RefSeq_peptide;Acc:NP_508861]			
C24H10.2	C24H10.2	C24H10.2 [Source:RefSeq_peptide;Acc:NP_508862]			
C24H10.1	C24H10.1	C24H10.1 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. C24H10.1 is worm-specific, with obvious homologs only in C. elegans. C24H10.1 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]		integral to membrane, 	
uvt-2	C24H10.5	uvt-2 encodes a protein that contains four EF-hand calcium binding motifs with similarity to human calmodulin. mRNA weakly expressed in L1 through L4 larval stages and in the adult hermaphrodite. [Source: WormBase]			calcium ion binding, 
ets-5	C42D8.4	ETS class transcription factor family member (ets-5) [Source:RefSeq_peptide;Acc:NP_508865]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C42D8.t1	C42D8.t1				
uvt-3	C42D8.3	Unidentified Vitellogenin-linked Transcript family member (uvt-3) [Source:RefSeq_peptide;Acc:NP_508866]	coenzyme A biosynthetic process, 		ATP binding, pantothenate kinase activity, 
acn-1	C42D8.5	acn-1 encodes an ACE-like protein required for larval development and adult morphogenesis, and probably for cell fusion in larval seam cells. ACN-1 lacks not only the HExxH consensus metallopeptidase motif, but also other active site residues found in the sequence HEAI/VxD of mammalian and insect ACEs. acn-1 is expressed in hypodermal cells, vulval precursor cells, and ray papillae in the male tail. the hypodermal expression of acn-1 appears to be controlled by nhr-23 and nhr-25. [Source: WormBase]	proteolysis, positive regulation of growth rate, 	membrane, 	peptidyl-dipeptidase A activity, 
vit-2	C42D8.2	The vit-2 gene encodes the vitellogenin homolog YP170. [Source: WormBase]	lipid transport, 		protein binding, lipid transporter activity, 
C42D8.9	C42D8.9	C42D8.9 [Source:RefSeq_peptide;Acc:NP_001024456]	ATP synthesis coupled proton transport, determination of adult life span, 	membrane, proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
C42D8.1	C42D8.1	C42D8.1 [Source:RefSeq_peptide;Acc:NP_508869]			
apl-1	C42D8.8	apl-1 encodes two almost identical isoforms orthologous to human APP (OMIM:104760, mutated in familial Alzheimer disease or cerebroarterial amyloidosis), APLP1 (OMIM:104775), and APLP2 (OMIM:104776). although native APL-1 is predicted to be membrane-bound until proteolytically cleaved, neuronal expression of a partial N-terminal extracellular region of APL-1 alone, containing either the E1 or the E2 domain, is sufficient for APL-1's normal functions in vivo (molting and morphogenesis, pharyngeal pumping, and progession past the L1 larval stage), indicating that APL-1 functions non-cell-autonomously. apl-1 is widely expressed in neurons, muscle, hypodermis, and supporting cells of larvae and adults. APL-1 contains a Cu(II)-binding domain. overexpressed APL-1 causes abnormal locomotion, infertility, and partial lethality, but the lethality of excess APL-1 can be partially suppressed by hypomorphic sel-12 mutations. apl-1 mutants show vacuoles in hypodermal cells, while having superfically normal neurons. apl-1 genetically interacts with feh-1 to affect pharyngeal pumping, and APL-1 binds the PTB2 domain of FEH-1 in vitro. apl-1 mutations are not suppressed by ced-3 or crt-1 mutations, and thus are unlikely to activate apoptosis or necrosis. [Source: WormBase]	locomotory behavior, 	integral to membrane, 	binding, 
C31H2.1	C31H2.1	C31H2.1b [Source:RefSeq_peptide;Acc:NP_741779]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
dpy-8	C31H2.2	dpy-8 encodes a collagen with a nematode-specific N-terminal domain that is required for normal body morphology and (perhaps) for a normal embryonic cell division rate. dpy-8 interacts genetically with emb-5 and glp-1. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
C31H2.3	C31H2.3	C31H2.3 [Source:RefSeq_peptide;Acc:NP_508874]			
C31H2.4	C31H2.4	C31H2.4 is orthologous to human 4-HYDROXYPHENYLPYRUVATE DIOXYGENASE (HPD. OMIM:276710), which when mutated leads to tyrosinemia type III. C31H2.4 is somewhat less similar to human HPD than C. elegans HPD-1 (to which C31H2.4 is paralogous). [Source: WormBase]	aromatic amino acid family metabolic process, 		4-hydroxyphenylpyruvate dioxygenase activity, 
EGAP5.1	EGAP5.1	EGAP5.1 [Source:RefSeq_peptide;Acc:NP_508876]			
T03G11.4	T03G11.4	T03G11.4 [Source:RefSeq_peptide;Acc:NP_508877]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
T03G11.5	T03G11.5	T03G11.5 [Source:RefSeq_peptide;Acc:NP_508878]			
T03G11.10	T03G11.10	T03G11.10 [Source:RefSeq_peptide;Acc:NP_001041285]			
T03G11.3	T03G11.3	UPF0418 protein T03G11.3. [Source:Uniprot/SWISSPROT;Acc:Q22122]		intracellular, 	zinc ion binding, nucleic acid binding, 
T03G11.6	T03G11.6	T03G11.6 [Source:RefSeq_peptide;Acc:NP_508880]			protein binding, 
sru-48	T03G11.2	Serpentine Receptor, class U family member (sru-48) [Source:RefSeq_peptide;Acc:NP_508881]			
T03G11.9	T03G11.9	T03G11.9 [Source:RefSeq_peptide;Acc:NP_001033557]			
zig-6	T03G11.8	zig-6 encodes a predicted membrane-associated protein containing two C2-type immunoglobulin domains and a GPI (glycosylated phosphatidylinositol) anchor site, but no transmembrane domain. ZIG-6 is predicted to function in cell adhesion and/or signaling, and as loss of zig-6 activity via RNA-mediated interference results in a Clear phenotype, zig-6 appears also to be required for maintenance of body fluid homeostasis. ZIG-6 is expressed in anterior and posterior body wall muscles. [Source: WormBase]			interleukin-1 receptor activity, 
pqn-62	T03G11.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			nucleic acid binding, 
H28G03.2	H28G03.2	H28G03.2a [Source:RefSeq_peptide;Acc:NP_741780]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
H28G03.1	H28G03.1	H28G03.1c [Source:RefSeq_peptide;Acc:NP_741784]			nucleotide binding, nucleic acid binding, 
H28G03.3	H28G03.3	H28G03.3 [Source:RefSeq_peptide;Acc:NP_508886]			
H28G03.4	H28G03.4	H28G03.4 [Source:RefSeq_peptide;Acc:NP_508887]			
H28G03.5	H28G03.5				
mtm-5	H28G03.6	MTM (myotubularin) family member (mtm-5) [Source:RefSeq_peptide;Acc:NP_508888]	intracellular signaling cascade, phospholipid dephosphorylation, 		inositol or phosphatidylinositol phosphatase activity, 
Y34B4A.7	Y34B4A.7	Y34B4A.7 [Source:RefSeq_peptide;Acc:NP_508889]			
Y34B4A.10	Y34B4A.10	Y34B4A.10 [Source:RefSeq_peptide;Acc:NP_741786]			
Y34B4A.6	Y34B4A.6	Y34B4A.6 [Source:RefSeq_peptide;Acc:NP_508890]			
Y34B4A.9	Y34B4A.9	Y34B4A.9 [Source:RefSeq_peptide;Acc:NP_508891]			
Y34B4A.5	Y34B4A.5	Y34B4A.5 [Source:RefSeq_peptide;Acc:NP_508892]			
Y34B4A.4	Y34B4A.4	Y34B4A.4b [Source:RefSeq_peptide;Acc:NP_001024959]	small GTPase mediated signal transduction, regulation of small GTPase mediated signal transduction, 	intracellular, 	guanyl-nucleotide exchange factor activity, 
Y34B4A.8	Y34B4A.8	Y34B4A.8 [Source:RefSeq_peptide;Acc:NP_508894]	signal transduction, 	intracellular, 	
hst-6	Y34B4A.3	Heparan SulphoTransferase family member (hst-6) [Source:RefSeq_peptide;Acc:NP_508895]			
Y34B4A.2	Y34B4A.2	Y34B4A.2 [Source:RefSeq_peptide;Acc:NP_508896]			
Y34B4A.11	Y34B4A.11				
vps-41	F32A6.3	vps-41 encodes the C. elegans homolog of the Saccharomyces cerevisiae vacuolar sorting protein Vps41p. in C. elegans, vps-41 activity is required for biogenesis of the lysosome-related gut granules and for embryonic development. in addition, vps-41 is required for regulation of germline apoptosis. [Source: WormBase]	intracellular protein transport, vesicle-mediated transport, vacuolar transport, negative regulation of apoptosis, embryonic development ending in birth or egg hatching, vacuolar protein processing, 	cellular_component, 	protein binding, zinc ion binding, molecular_function, 
Y34B4A.t1	Y34B4A.t1		cell death, 		
ags-3	F32A6.4	ags-3 encodes an ortholog of mammalian AGS3, a receptor independent activator of G protein signalling, and of Drosophila RAPSYNOID. AGS-3 proteins have four GoLoco motifs. AGS-3 is involved in polarity and spindle orientation during early embryogenesis. a region of AGS-3 encompassing three GoLoco motifs specifically binds GOA-1 in yeast two-hybrid assays. AGS-3 is expressed in all muscles, intestine, and weakly in some head and ventral nerve cord neurons, with subcellular localization in strong dots. [Source: WormBase]	signal transduction, 		protein binding, GTPase activator activity, 
F32A6.2	F32A6.2	F32A6.2 [Source:RefSeq_peptide;Acc:NP_508900]			
F32A6.1	F32A6.1	F32A6.1 [Source:RefSeq_peptide;Acc:NP_508901]			
sto-2	F32A6.5	Stomatin-2. [Source:Uniprot/SWISSPROT;Acc:Q19958]		membrane, 	
F32A6.t1	F32A6.t1				
C26B9.5	C26B9.5	C26B9.5 [Source:RefSeq_peptide;Acc:NP_508903]	proteolysis, 		serine-type peptidase activity, 
C26B9.6	C26B9.6	C26B9.6 [Source:RefSeq_peptide;Acc:NP_508904]			protein binding, zinc ion binding, 
C26B9.3	C26B9.3	C26B9.3 [Source:RefSeq_peptide;Acc:NP_508905]	locomotory behavior, 		
C26B9.2	C26B9.2	C26B9.2 [Source:RefSeq_peptide;Acc:NP_508906]			
C26B9.7	C26B9.7	C26B9.7 [Source:RefSeq_peptide;Acc:NP_508907]			
C26B9.1	C26B9.1	C26B9.1a [Source:RefSeq_peptide;Acc:NP_001024433]			
syn-1	F35C8.4	syn-1 encodes a syntaxin (t-SNARE) homologous to mammalian and Drosophila syntaxin 1. by homology, SYN-1 is a predicted plasma membrane protein that mediates fusion events between exocytic vesicles and the plasma membrane. however, as loss of syn-1 activity via RNAi does not result in any obvious abnormalities, the precise role of syn-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	intracellular protein transport, vesicle-mediated transport, synaptic vesicle docking during exocytosis, 	membrane, 	protein transporter activity, protein binding, 
pfn-2	F35C8.6	Profilin-2. [Source:Uniprot/SWISSPROT;Acc:Q20025]	actin cytoskeleton organization and biogenesis, cytoskeleton organization and biogenesis, 	actin cytoskeleton, 	actin binding, 
chtl-1	F35C8.7	CHoline Transporter-Like family member (chtl-1) [Source:RefSeq_peptide;Acc:NP_741790]			
F35C8.5	F35C8.5	Cholesterol 25-hydroxylase-like protein (EC 1.14.99.-). [Source:Uniprot/SWISSPROT;Acc:Q20027]	metabolic process, 		catalytic activity, 
jkk-1	F35C8.3	jkk-1 encodes a member of the MAP kinase kinase superfamily that affects synaptic vesicle localization and is required in type-D motor neurons for normal locomotion. can function in the Hog1 MAP kinase pathway I in yeast as an activator of JNK and is expressed in most neurons [Source: WormBase]	protein amino acid phosphorylation, locomotion, hyperosmotic response, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F35C8.8	F35C8.8	F35C8.8 [Source:RefSeq_peptide;Acc:NP_508914]			
F35C8.2	F35C8.2	F35C8.2 [Source:RefSeq_peptide;Acc:NP_508915]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F35C8.1	F35C8.1	F35C8.1 [Source:RefSeq_peptide;Acc:NP_508916]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C03F11.1	C03F11.1	Uncharacterized protein C03F11.1. [Source:Uniprot/SWISSPROT;Acc:Q11122]	potassium ion transport, 	integral to membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, calmodulin binding, calcium-activated potassium channel activity, 
C03F11.2	C03F11.2	Uncharacterized protein C03F11.2. [Source:Uniprot/SWISSPROT;Acc:Q11123]			hydrolase activity, 
C03F11.3	C03F11.3	Uncharacterized protein C03F11.3. [Source:Uniprot/SWISSPROT;Acc:Q11124]	cell adhesion, 	membrane, 	
C03F11.4	C03F11.4	Uncharacterized protein C03F11.4. [Source:Uniprot/SWISSPROT;Acc:Q11125]			
C41A3.2	C41A3.2	C41A3.2b [Source:RefSeq_peptide;Acc:NP_508922]			
C03F11.t1	C03F11.t1				
C41A3.1	C41A3.1	C41A3.1 [Source:RefSeq_peptide;Acc:NP_508923]	metabolic process, cellular metabolic process, 		oxidoreductase activity, cofactor binding, catalytic activity, coenzyme binding, phosphopantetheine binding, transferase activity, 
C25F6.7	C25F6.7	C25F6.7a [Source:RefSeq_peptide;Acc:NP_741791]			
C25F6.8	C25F6.8	C25F6.8 [Source:RefSeq_peptide;Acc:NP_001033528]			
C25F6.6	C25F6.6	C25F6.6 [Source:RefSeq_peptide;Acc:NP_508925]			
C25F6.t4	C25F6.t4				
ddr-1	C25F6.4	The C25F6.4 gene encodes a protein tyrosine kinase homolog that is also homologous to human RS1. [Source: WormBase]	protein amino acid phosphorylation, cell adhesion, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C25F6.3	C25F6.3	The C25F6.3 gene encodes an ortholog of the human gene DIHYDROPYRIMIDINE DEHYDROGENASE (DPYD), which when mutated leads to thymine-uraciluria (OMIM:274270). [Source: WormBase]	electron transport, 'de novo' pyrimidine base biosynthetic process, 	cytoplasm, 	oxidoreductase activity, FAD binding, electron carrier activity, iron-sulfur cluster binding, dihydroorotate oxidase activity, dihydroorotate dehydrogenase activity, 
dlg-1	C25F6.2	dlg-1 encodes a MAGUK protein, orthologous to Drosophila disks large, that is physically located to adherens junctions in all epithelia and that is genetically required for organization of the embryonic gut epithelium into an coherent tube. [Source: WormBase]	embryonic development ending in birth or egg hatching, embryonic development, 		protein binding, 
C25F6.t1	C25F6.t1				
C25F6.t2	C25F6.t2				
C25F6.t3	C25F6.t3				
C25F6.1	C25F6.1	C25F6.1 [Source:RefSeq_peptide;Acc:NP_508929]			
F55D1.2	F55D1.2	F55D1.2 [Source:RefSeq_peptide;Acc:NP_508930]			
F55D1.1	F55D1.1	F55D1.1 [Source:RefSeq_peptide;Acc:NP_508931]			
tag-249	T23F2.1	T23F2.1 [Source:RefSeq_peptide;Acc:NP_508932]	biosynthetic process, biological_process, 		
T23F2.2	T23F2.2	T23F2.2b [Source:RefSeq_peptide;Acc:NP_741794]			
T23F2.3	T23F2.3	UPF0057 membrane protein T23F2.3. [Source:Uniprot/SWISSPROT;Acc:Q22700]		integral to membrane, 	
T23F2.4	T23F2.4	UPF0057 membrane protein T23F2.4. [Source:Uniprot/SWISSPROT;Acc:Q22701]		integral to membrane, 	
T23F2.5	T23F2.5	UPF0057 membrane protein T23F2.5. [Source:Uniprot/SWISSPROT;Acc:Q22702]		integral to membrane, 	
C54G7.2	C54G7.2	C54G7.2 [Source:RefSeq_peptide;Acc:NP_508937]			
lgx-1	C54G7.3	lgx-1 encodes a protein with eight EB modules (worm-specific domains, containing eight conserved cysteines that probably form four disulphide bridges, that are of unknown function) and a glutamine/asparagine (Q/N)-rich domain. [Source: WormBase]	carbohydrate metabolic process, chitin metabolic process, 	extracellular region, 	calcium ion binding, chitin binding, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, 
C54G7.1	C54G7.1	C54G7.1 [Source:RefSeq_peptide;Acc:NP_508939]			
ifta-1	C54G7.4	IntraFlagellar Transport Associated family member (ifta-1) [Source:RefSeq_peptide;Acc:NP_508940]			
C38C5.1	C38C5.1	C38C5.1 [Source:RefSeq_peptide;Acc:NP_508941]			
mec-2	F14D12.4	The mec-2 gene encodes a stomatin homolog required to sense gentle mechanical stimuli (e.g. touch) along the body wall. [Source: WormBase]	mechanosensory behavior, 	membrane, 	
unc-97	F14D12.2	The unc-97 gene encodes a LIM domain-containing protein of the PINCH family that is highly similar to human LIMS1 (OMIM:602567) and LIMS2. UNC-97 functions as an adaptor protein important for assembly of muscle adherens junctions and the mechanosensory functions of the touch neurons. UNC-97 interacts with PAT-4/integrin-linked kinase and with UNC-98. UNC-97 colocalizes with PAT-3/beta integrin at dense bodies, focal adhesion-like muscle attachment structures. [Source: WormBase]	embryonic development ending in birth or egg hatching, intercellular junction assembly and maintenance, 		protein binding, zinc ion binding, 
sulp-2	F14D12.5	sulp-2 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-2 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids and when expressed in Xenopus oocytes, SULP-2 does exhibit modest uptake of sulfate. a SULP-2::GFP fusion is expressed in the intestine and rectal gland cells, where it localizes to the basolateral membrane and in cephalic and deirid neurons, where it localizes to sensillar endings. [Source: WormBase]	transport, sulfate transport, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, 
F14D12.1	F14D12.1	F14D12.1b [Source:RefSeq_peptide;Acc:NP_508945]	signal transduction, 		signal transducer activity, 
tag-24	F14D12.6	tag-24 encodes a predicted G-protein-coupled seven-transmembrane domain biogenic amine receptor. a TAG-24::GFP fusion protein is expressed in a very restricted pattern nearly exclusively in a subset of head and tail neurons. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, dicarboxylic acid transport, 	membrane, integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, sodium:dicarboxylate symporter activity, neuropeptide Y receptor activity, adrenoceptor activity, 
T21F4.1	T21F4.1	T21F4.1 is orthologous to the human gene ARGINASE TYPE I ERYTHROID VARIANT (ARG1. OMIM:207800), which when mutated leads to argininemia. [Source: WormBase]	arginine catabolic process, 		metal ion binding, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear amidines, arginase activity, 
T22B7.8	T22B7.8	T22B7.8 [Source:RefSeq_peptide;Acc:NP_001033562]			
T22B7.4	T22B7.4	T22B7.4 [Source:RefSeq_peptide;Acc:NP_508949]			
srv-7	T22B7.5	Serpentine Receptor, class V family member (srv-7) [Source:RefSeq_peptide;Acc:NP_508950]		membrane, 	G-protein coupled receptor activity, 
T22B7.3	T22B7.3	T22B7.3 [Source:RefSeq_peptide;Acc:NP_508952]			
T22B7.7	T22B7.7	T22B7.7 [Source:RefSeq_peptide;Acc:NP_508954]			
egl-13	T22B7.1	egl-13 encodes a transcription factor of the HMG (high mobility group) box family that affects the cell fusion process that makes the vulval-uterine connection and thereby affects egg laying. expressed in the pi lineage cells, transiently expressed in the rho lineage, in the anchor cell following fusion, and in neurons, body wall muscles, and intestinal cells. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, anatomical structure morphogenesis, 		DNA binding, 
set-19	W01C8.3	W01C8.3 [Source:RefSeq_peptide;Acc:NP_508956]		nucleus, 	
set-20	W01C8.4	W01C8.4b [Source:RefSeq_peptide;Acc:NP_001024934]		nucleus, 	
W01C8.1	W01C8.1	W01C8.1 [Source:RefSeq_peptide;Acc:NP_508958]			
W01C8.5	W01C8.5	W01C8.5 [Source:RefSeq_peptide;Acc:NP_508959]			
cat-1	W01C8.6	cat-1 encodes a synaptic vesicular monoamine transporter required for the presence of dopamine and serotonin in nerve terminals, for the normal slowing of worms on a bacterial lawn (versus clean agar), for faster pharyngeal pumping on food, and for a normally (high) rate of egg-laying. [Source: WormBase]	transport, response to antibiotic, tetracycline transport, feeding behavior, 	integral to membrane, 	transporter activity, drug transporter activity, tetracycline:hydrogen antiporter activity, 
E03E2.t1	E03E2.t1				
E03E2.t2	E03E2.t2				
E03E2.t3	E03E2.t3				
cyp-43A1	E03E2.1	CYtochrome P450 family member (cyp-43A1) [Source:RefSeq_peptide;Acc:NP_508961]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
C41G11.1	C41G11.1	C41G11.1a [Source:RefSeq_peptide;Acc:NP_001033531]	potassium ion transport, 	integral to membrane, 	hydrolase activity, potassium channel activity, 
rgs-6	C41G11.3	rgs-6 encodes a regulator of G protein signaling. by homology, RGS-6 is predicted to function as a GTPase-activating protein that binds G protein alpha subunits and negatively regulates heterotrimeric G protein signaling. loss of rgs-6 activity via RNAi or a deletion mutation results in no obvious defects, and likewise, rgs-6 overexpression has no measurable effect on egg-laying behavior, locomotion, or viability. the rgs-6 expression pattern has not yet been reported. [Source: WormBase]	type I hypersensitivity, 		signal transducer activity, 
C41G11.4	C41G11.4	C41G11.4a [Source:RefSeq_peptide;Acc:NP_741798]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
tag-294	C54H2.3	Temporarily Assigned Gene name family member (tag-294) [Source:RefSeq_peptide;Acc:NP_508967]		intracellular, 	zinc ion binding, 
C54H2.4	C54H2.4	C54H2.4 [Source:RefSeq_peptide;Acc:NP_508968]			
sym-3	C54H2.1	sym-3 encodes a novel protein that has no recognizably conserved domains, but does have homologs in Drosophila, mouse, and human. mutations in sym-3, while producing no phenotype on their own, are synthetically lethal with loss-of-function mutations in mec-8, which encodes a regulator of alternative RNA splicing. although the precise function of sym-3 is not yet known, sym-3 activity appears to be required for some aspects of pharyngeal differentiation, as mec-8. sym-3 double mutants arrest as late-stage embryos or L1 larvae with pharynges that, despite normal morphology, do not attach to the outer cuticle to allow for feeding. [Source: WormBase]	glycolysis, 		phosphoglycerate kinase activity, 
sft-4	C54H2.5	sft-4 encodes a member of the SURF family highly conserved with the mouse Surf-4 gene, and conservation includes an encoded dilysine motif that is implicated in endoplasmic reticulum localization of the mouse protein. [Source: WormBase]	growth, 		
tag-257	F46G11.3	Temporarily Assigned Gene name family member (tag-257) [Source:RefSeq_peptide;Acc:NP_508971]	protein amino acid phosphorylation, positive regulation of locomotion, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
F46G11.6	F46G11.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPI7]			
F46G11.2	F46G11.2	F46G11.2 [Source:RefSeq_peptide;Acc:NP_508972]			
F46G11.1	F46G11.1	F46G11.1 is orthologous to the human gene TRUNCATED PUTATIVE T7-LIKE MITOCHONDRIAL DNA HELICASE (C10orf2. OMIM:606075), which when mutated leads to disease. [Source: WormBase]	DNA replication, 		ATP binding, nucleotide binding, nucleoside-triphosphatase activity, DNA helicase activity, 
F46G11.4	F46G11.4	F46G11.4 [Source:RefSeq_peptide;Acc:NP_508974]			
F46G11.t2	F46G11.t2				
F46G11.t1	F46G11.t1				
F13D11.3	F13D11.3	F13D11.3 [Source:RefSeq_peptide;Acc:NP_508975]	protein amino acid dephosphorylation, dephosphorylation, 		protein tyrosine/serine/threonine phosphatase activity, phosphoric monoester hydrolase activity, 
hbl-1	F13D11.2	hbl-1 encodes a protein that contains nine putative zinc finger domains of the C2H2 type and affects embryonic viability, locomotion, egg laying, body morphology, and hypodermal differentiation. expressed in hypodermal precursor cells, neuronal precursor cells, and pharyngeal cells during embryogenesis and is primarily expressed in neurons during larval development. [Source: WormBase]	DNA repair, growth, 	intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
F13D11.1	F13D11.1	F13D11.1 [Source:RefSeq_peptide;Acc:NP_508977]			acid phosphatase activity, 
F13D11.4	F13D11.4	F13D11.4 [Source:RefSeq_peptide;Acc:NP_508978]	cellular metabolic process, steroid biosynthetic process, 		catalytic activity, coenzyme binding, 3-beta-hydroxy-delta5-steroid dehydrogenase activity, 
W06B11.3	W06B11.3	W06B11.3 [Source:RefSeq_peptide;Acc:NP_508979]	embryonic development ending in birth or egg hatching, 		
puf-9	W06B11.2	The puf-9 gene encodes a predicted RNA binding protein orthologous to Drosophila PUMILIO and human PUMILIO 2 (OMIM:607205). PUF-9 is required for normal locomotion and fluid balance, and is expressed primarily in somatic tissues. PUF-9 contains a glutamine/asparagine-rich domain. [Source: WormBase]	locomotory behavior, 		RNA binding, binding, 
W06B11.1	W06B11.1	W06B11.1 [Source:RefSeq_peptide;Acc:NP_508981]			
hog-1	W06B11.4	hog-1 encodes a hedgehog-like protein, with a solitary Hint/Hog domain. the function of HOG-1's isolated Hint/Hog domain is unknown. in proteins where they coexist with other, N-terminal, domains, the Hint/Hog domain is predicted to cut its host protein into two halves and then covalently link cholesterol to the C-terminus of the N-terminal domain. HOG-1 is weakly required for normal molting. HOG-1 is also required for normal adult alae formation, growth to full size, cuticle adhesion, and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, 		peptidase activity, 
ctbp-1	F49E10.5	tag-45 encodes a D-isomer specific 2-hydroxyacid dehydrogenase. [Source: WormBase]	metabolic process, 		cofactor binding, nucleic acid binding, NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, 
F49E10.4	F49E10.4	F49E10.4a [Source:RefSeq_peptide;Acc:NP_741800]			
flp-7	F49E10.3	flp-7 encodes an MVRFamide-containing peptide that, upon injection into A. suum, produces paralysis and loss of locomotory waveforms, increased body length, and decreased cAMP production. [Source: WormBase]	neuropeptide signaling pathway, 		
F49E10.2	F49E10.2	F49E10.2a [Source:RefSeq_peptide;Acc:NP_508987]			
F49E10.1	F49E10.1	F49E10.1 [Source:RefSeq_peptide;Acc:NP_508988]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
H05L03.3	H05L03.3	H05L03.3 [Source:RefSeq_peptide;Acc:NP_508989]			
Y23B4A.1	Y23B4A.1	Y23B4A.1 [Source:RefSeq_peptide;Acc:NP_508990]			
Y23B4A.2	Y23B4A.2	Y23B4A.2 [Source:RefSeq_peptide;Acc:NP_508991]			
C46F4.1	C46F4.1	C46F4.1 [Source:RefSeq_peptide;Acc:NP_508992]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C46F4.3	C46F4.3	C46F4.3 [Source:RefSeq_peptide;Acc:NP_001033536]			
acs-17	C46F4.2	fatty Acid CoA Synthetase family member (acs-17) [Source:RefSeq_peptide;Acc:NP_508993]	metabolic process, determination of adult life span, 		catalytic activity, 
mig-23	R07E4.4	mig-23 encodes a nucleoside diphosphatase (NDPase). during larval development, MIG-23 activity is required, in body wall muscle cells, for proper dorsalward migration of the gonadal distal tip cells (DTCs) and gonad morphogenesis via regulation of MIG-17 N-glycosylation. animals lacking MIG-23 exhibit weaker UDP-, ADP-, and GDP-hydrolysing activity and when expressed in yeast lacking apyrase genes, MIG-23 can rescue NDPase activity. when expressed in body wall muscle under the control of the unc-54 promoter, MIG-23 rescues DTC migration defects and shows a punctate cytoplasmic expression pattern similar to that of Golgi enzymes. [Source: WormBase]	regulation of cell migration, 		hydrolase activity, 
R07E4.5	R07E4.5	R07E4.5 [Source:RefSeq_peptide;Acc:NP_508995]			
R07E4.3	R07E4.3	R07E4.3 [Source:RefSeq_peptide;Acc:NP_508996]	electron transport, 		ubiquinol-cytochrome-c reductase activity, 
R07E4.1	R07E4.1	R07E4.1a [Source:RefSeq_peptide;Acc:NP_001024839]	signal transduction, 		
kin-2	R07E4.6	kin-2 encodes a predicted regulatory subunit of a cAMP-dependent protein kinase that may act downstream of, or in parallel to, ric-8. [Source: WormBase]	protein amino acid phosphorylation, signal transduction, biological_process, 	cAMP-dependent protein kinase complex, 	ATP binding, protein binding, cAMP-dependent protein kinase regulator activity, cGMP-dependent protein kinase activity, 
klp-13	F22F4.3	klp-13 encodes an atypical kinesin-like motor protein similar to Saccharomyces cerevisiae Kip3, which has been implicated in nuclear migration. as loss of KLP-13 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of KLP-13 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	microtubule-based movement, 	microtubule associated complex, 	ATP binding, microtubule motor activity, 
F22F4.5	F22F4.5	F22F4.5 [Source:RefSeq_peptide;Acc:NP_001024599]			
inx-3	F22F4.2	Innexin-3 (Protein opu-3). [Source:Uniprot/SWISSPROT;Acc:Q19746]	growth, 	gap junction, 	
F22F4.4	F22F4.4	F22F4.4 [Source:RefSeq_peptide;Acc:NP_509003]			
F22F4.1	F22F4.1	F22F4.1 [Source:RefSeq_peptide;Acc:NP_509004]	oviposition, 		
C09B8.3	C09B8.3	C09B8.3 [Source:RefSeq_peptide;Acc:NP_509005]			
C09B8.8	C09B8.8	C09B8.8 [Source:RefSeq_peptide;Acc:NP_741802]			
C09B8.4	C09B8.4	C09B8.4 [Source:RefSeq_peptide;Acc:NP_509006]			
C09B8.5	C09B8.5	C09B8.5 [Source:RefSeq_peptide;Acc:NP_509007]	embryonic development ending in birth or egg hatching, 		
ipp-5	C09B8.1	ipp-5 encodes a type I inositol 5-phosphatase homolog. ipp-5 acts downstream of let-23 to negatively regulate IP3 signaling and is involved in spermathecal contractions during ovulation. an ipp-5::gfp transcriptional reporter is expressed in the adult distal spermatheca and weakly in the proximal sheath. [Source: WormBase]	ovulation, epidermal growth factor receptor signaling pathway, 		inositol or phosphatidylinositol phosphatase activity, 
hsp-25	C09B8.6	hsp-25 encodes a member of the small heat shock family of proteins. HSP-25 is expressed throughout development and in vitro, exhibits chaperone activity. HSP-25 localizes to: 1) dense bodies and M lines in body wall muscle, 2) the lining of the pharynx, and 3) to cell-cell junctions in the spermathecal wall. consistent with a role in myofibril organization, HSP-25 binds vinculin and alpha-actinin in vitro. [Source: WormBase]			protein binding, structural constituent of eye lens, 
pak-1	C09B8.7	pak-1 encodes, by alternative splicing, at least five isoforms of a putative p21-activated kinase orthologous to human PAK1, PAK2 (OMIM:?), and PAK3 (OMIM:300142, mutated in nonsyndromic mental retardation). PAK-1 is required (redundantly with its paralog, MAX-2) for normal axonal guidance of motoneurons, P cell migration, and locomotion, with max-2(cy2).pak-1(ok448) double mutants phenotypically resembling unc-73 or ced-10.mig-2 mutants. pak-1 is expressed in pharyngeal muscles, CAN neurons, ventral cord motoneurons, migrating distal tip cells, developing uterus, B, Y, and T cells in the male tail, and vulval muscle cells. by itself, the null pak-1(ok448) mutation has no known phenotype. [Source: WormBase]	protein amino acid phosphorylation, protein complex assembly, actin polymerization and/or depolymerization, 	integral to membrane, actin cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, GTP binding, small GTPase regulator activity, 
C45B2.6	C45B2.6	C45B2.6 [Source:RefSeq_peptide;Acc:NP_509011]	lipid metabolic process, 		
gln-1	C45B2.5	GLutamiNe synthetase (glutamate-ammonia ligase) family member (gln-1) [Source:RefSeq_peptide;Acc:NP_509012]	glutamine biosynthetic process, nitrogen compound metabolic process, 		glutamate-ammonia ligase activity, 
ptr-4	C45B2.7	ptr-4 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-4 is strongly required for normal molting from L4 to adult stages male tail development (a role conserved in C. briggsae). PTR-4 is also required for normal endocytosis of yolk by oocytes, adult alae formation, growth to full size, locomotion, and viability. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	hedgehog receptor activity, 
ggr-2	C45B2.4	ggr-2 encodes a predicted member of the GABA/ glycine receptor family of ligand-gated chloride channels that affects thermotaxis. expressed in neurons that include SMDV, SMDD, SIAV, CAN, HSN, DD, and is weakly expressed in the egg-laying muscles. [Source: WormBase]	transport, ion transport, taxis, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
C45B2.3	C45B2.3	C45B2.3 [Source:RefSeq_peptide;Acc:NP_509015]			
C45B2.2	C45B2.2	C45B2.2 [Source:RefSeq_peptide;Acc:NP_509016]			
C45B2.1	C45B2.1	C45B2.1 [Source:RefSeq_peptide;Acc:NP_509017]			
C45B2.8	C45B2.8	C45B2.8 [Source:RefSeq_peptide;Acc:NP_509018]			
hsp-3	C15H9.6	hsp-3 encodes a heat shock response 70 (hsp70) protein orthologous to human glucose regulated protein 78 (grp78/BiP, OMIM:138120). HSP-3 likely functions as a molecular chaperone, and is expressed constitutively (expression is not heat inducible) throughout development with greatest abundance during the L1 larval stage. HSP-3 contains a long hydrophobic amino terminus and a carboxyl terminal KDEL sequence suggesting that it may be retained in the endoplasmic reticulum. [Source: WormBase]	growth, unfolded protein response, 	endoplasmic reticulum, 	ATP binding, ATPase activity, 
C15H9.5	C15H9.5	C15H9.5 [Source:RefSeq_peptide;Acc:NP_509020]		integral to membrane, 	
C15H9.4	C15H9.4	C15H9.4 [Source:RefSeq_peptide;Acc:NP_509021]	positive regulation of growth rate, 		protein binding, 
C15H9.11	C15H9.11	C15H9.11 [Source:RefSeq_peptide;Acc:NP_509022]			
C15H9.7	C15H9.7	Probable kynureninase (EC 3.7.1.3) (L-kynurenine hydrolase). [Source:Uniprot/SWISSPROT;Acc:Q18026]	NAD biosynthetic process, tryptophan catabolic process, 	cytoplasm, 	pyridoxal phosphate binding, kynureninase activity, 
C15H9.10	C15H9.10	C15H9.10 [Source:RefSeq_peptide;Acc:NP_509024]			phosphopantetheine binding, 
prx-3	C15H9.8	prx-3 is orthologous to the human gene PEROXISOMAL BIOGENESIS FACTOR 3 (PEX3. OMIM:603164), which when mutated leads to Zellweger syndrome of complementation group G. [Source: WormBase]	peroxisome organization and biogenesis, positive regulation of growth rate, 	integral to peroxisomal membrane, 	
C15H9.3	C15H9.3	C15H9.3 [Source:RefSeq_peptide;Acc:NP_509026]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C15H9.2	C15H9.2	C15H9.2 [Source:RefSeq_peptide;Acc:NP_509027]			protein binding, 
nnt-1	C15H9.1	nnt-1 encodes a proton-pumping nicotinamide nucleotide transhydrogenase predicted to be mitochondrial. [Source: WormBase]	electron transport, proton transport, glycerol-3-phosphate metabolic process, aerobic respiration, 	integral to membrane, glycerol-3-phosphate dehydrogenase complex, 	iron ion binding, oxidoreductase activity, monooxygenase activity, phosphopantetheine binding, heme binding, NAD(P)+ transhydrogenase (AB-specific) activity, NAD(P) transhydrogenase activity, glycerol-3-phosphate dehydrogenase activity, 
C15H9.9	C15H9.9	C15H9.9 [Source:RefSeq_peptide;Acc:NP_509029]	electron transport, response to oxidative stress, 		protein binding, peroxidase activity, heme binding, 
Y72A10A.1	Y72A10A.1	Y72A10A.1 [Source:RefSeq_peptide;Acc:NP_509030]			
tag-275	C34H3.1	Temporarily Assigned Gene name family member (tag-275) [Source:RefSeq_peptide;Acc:NP_509031]	proteolysis, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
odd-2	C34H3.2	odd-2 encodes a protein with homology to the Drosophila ODD-SKIPPED family members and affects larval viability. expressed in the intestine. [Source: WormBase]	positive regulation of growth rate, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
T25B2.2	T25B2.2	T25B2.2b [Source:RefSeq_peptide;Acc:NP_001033565]			
T25B2.1	T25B2.1	T25B2.1 [Source:RefSeq_peptide;Acc:NP_509034]			
T13C5.3	T13C5.3	T13C5.3 [Source:RefSeq_peptide;Acc:NP_509035]			
T13C5.7	T13C5.7	T13C5.7 [Source:RefSeq_peptide;Acc:NP_741805]			
T13C5.2	T13C5.2	T13C5.2 [Source:RefSeq_peptide;Acc:NP_509036]	embryonic development ending in birth or egg hatching, 		
T13C5.4	T13C5.4	T13C5.4 encodes a paired-like homeodomain protein of the Q50 class, which has no obvious function in mass RNAi assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
daf-9	T13C5.1	daf-9 encodes a cytochrome P450 of the CYP2 subfamily that by homology is predicted to function as a steroidogenic or fatty acid hydroxylase. DAF-9 likely functions cell nonautonomously in hypodermal and neuronal cells to produce, for the DAF-12 nuclear receptor, a lipophilic hormone whose presence is necessary for bypassing entry into the alternative L3/dauer larval stage and promoting reproductive development. in regulating dauer formation, daf-9 acts downstream of the DAF-2/insulin/IGF receptor and the DAF-7/TGFbeta ligand, suggesting that at least two of the signaling pathways that control dauer formation converge, in part, upon daf-9. in addition, daf-9 activity is required for gonadal cell migration. a DAF-9::GFP fusion is expressed in the XXXL/R head cells at all developmental stages, in hypodermal cells from the L2 to L4 larval stages, and in the spermatheca of adult hermaphrodites. [Source: WormBase]	electron transport, cell-cell signaling, 		iron ion binding, monooxygenase activity, heme binding, 
bca-1	T13C5.5	bca-1 encodes a member of the carbonic anhydrase family. [Source: WormBase]	carbon utilization, 		zinc ion binding, carbonate dehydratase activity, 
T13C5.6	T13C5.6	T13C5.6 [Source:RefSeq_peptide;Acc:NP_509040]			
C14F11.7	C14F11.7	C14F11.7 [Source:RefSeq_peptide;Acc:NP_509041]			
C14F11.2	C14F11.2	C14F11.2 [Source:RefSeq_peptide;Acc:NP_509042]			protein binding, 
C14F11.t1	C14F11.t1				
lite-1	C14F11.3	C14F11.3 [Source:RefSeq_peptide;Acc:NP_509043]			
C14F11.4	C14F11.4	C14F11.4a [Source:RefSeq_peptide;Acc:NP_001024396]			
hsp-43	C14F11.5	hsp-43 encodes a member of the hsp20 family. [Source: WormBase]			protein binding, structural constituent of eye lens, 
C14F11.6	C14F11.6	C14F11.6 [Source:RefSeq_peptide;Acc:NP_509046]	lipopolysaccharide biosynthetic process, 		dTDP-4-dehydrorhamnose 3,5-epimerase activity, 
C14F11.1	C14F11.1	C14F11.1b [Source:RefSeq_peptide;Acc:NP_741811]	amino acid metabolic process, biosynthetic process, 		catalytic activity, pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, 
W05H9.3	W05H9.3	W05H9.3 [Source:RefSeq_peptide;Acc:NP_509048]			
W05H9.4	W05H9.4	W05H9.4 [Source:RefSeq_peptide;Acc:NP_001024943]			
W05H9.2	W05H9.2	W05H9.2 [Source:RefSeq_peptide;Acc:NP_509049]			
W05H9.1	W05H9.1	W05H9.1 [Source:RefSeq_peptide;Acc:NP_509050]			
col-166	T07H6.3	COLlagen family member (col-166) [Source:RefSeq_peptide;Acc:NP_001024893]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
T07H6.4	T07H6.4	T07H6.4 [Source:RefSeq_peptide;Acc:NP_509052]	cell adhesion, 	membrane, 	complement binding, 
T07H6.t1	T07H6.t1				
T07H6.5	T07H6.5	T07H6.5 [Source:RefSeq_peptide;Acc:NP_509053]			complement binding, 
T07H6.t2	T07H6.t2				
mom-1	T07H6.2	mom-1 encodes a predicted O-acyltransferase that is orthologous to Porcupine proteins conserved across a wide range of species. MOM-1 functions as part of a Wnt/MAPK signaling pathway that is required maternally for endoderm induction in the early embryo. by homology, MOM-1 is predicted to be a membrane-spanning endoplasmic reticulum protein that stimulates post-translational processing of Wnt signaling molecules such as MOM-2. embryonic mosaic analysis indicates that MOM-1 activity is required in the signaling cell, P2, for proper specification of endoderm, consistent with its predicted role in processing MOM-2/Wnt. [Source: WormBase]	endodermal cell fate specification, 		
T07H6.1	T07H6.1	T07H6.1a [Source:RefSeq_peptide;Acc:NP_741812]	metabolic process, 		hydrolase activity, 
T10E10.3	T10E10.3	T10E10.3 [Source:RefSeq_peptide;Acc:NP_509057]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T10E10.4	T10E10.4	T10E10.4 encodes a large (966-residue) protein, predicted to be secreted, with two N-terminal chitin-binding peritrophin-A domains followed by 14 cysteine-rich domains and one C-terminal EB module. the general organization of T10E10.4 protein resembles that of K04H4.2. T10E10.4 has no obvious function in mass RNAi assays but, like CEJ-1 and CPG-2, might participate in chitin synthesis. [Source: WormBase]	chitin metabolic process, pathogenesis, 	extracellular region, 	chitin binding, 
col-167	T10E10.2	T10E10.2 [Source:RefSeq_peptide;Acc:NP_509059]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
col-168	T10E10.1	T10E10.1 [Source:RefSeq_peptide;Acc:NP_509060]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
col-169	T10E10.5	T10E10.5 [Source:RefSeq_peptide;Acc:NP_872255]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
col-170	T10E10.6	T10E10.6 [Source:RefSeq_peptide;Acc:NP_872267]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
col-171	T10E10.7	T10E10.7 [Source:RefSeq_peptide;Acc:NP_872268]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C03B1.13	C03B1.13	C03B1.13 [Source:RefSeq_peptide;Acc:NP_509061]	transport, 	membrane, integral to membrane, 	transporter activity, arsenite transmembrane transporter activity, 
C03B1.7	C03B1.7	Uncharacterized protein C03B1.7. [Source:Uniprot/SWISSPROT;Acc:Q11114]			
C03B1.9	C03B1.9	Uncharacterized protein C03B1.9. [Source:Uniprot/SWISSPROT;Acc:Q11115]			
C03B1.6	C03B1.6	Uncharacterized protein C03B1.6. [Source:Uniprot/SWISSPROT;Acc:Q11113]			
C03B1.15	C03B1.15	Uncharacterized protein C03B1.15. [Source:Uniprot/SWISSPROT;Acc:Q8IG57]			
C03B1.5	C03B1.5	Putative tyrosine-protein kinase C03B1.5 (EC 2.7.10.2). [Source:Uniprot/SWISSPROT;Acc:Q11112]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C03B1.10	C03B1.10	Uncharacterized protein C03B1.10. [Source:Uniprot/SWISSPROT;Acc:Q11116]			
C03B1.14	C03B1.14	C03B1.14 [Source:RefSeq_peptide;Acc:NP_509067]			
C03B1.4	C03B1.4	Uncharacterized protein C03B1.4. [Source:Uniprot/SWISSPROT;Acc:Q11111]			
C03B1.3	C03B1.3	Uncharacterized protein C03B1.3. [Source:Uniprot/SWISSPROT;Acc:Q11110]			
C03B1.2	C03B1.2	Uncharacterized protein C03B1.2. [Source:Uniprot/SWISSPROT;Acc:Q11109]			
C03B1.t1	C03B1.t1				
C03B1.1	C03B1.1	Uncharacterized protein C03B1.1. [Source:Uniprot/SWISSPROT;Acc:Q11108]			
lmp-1	C03B1.12	lmp-1 encodes a protein with similarity to vertebrate lysosome-associated membrane proteins CD68, and appears to be the only protein in C. elegans that has a GYXX (phi) vertebrate lysosomal targeting sequence at its carboxy terminus. localized to the periphery of a large population of membrane bound organelles (granules) seen throughout the early embryos and restricted to the cells of the intestine during later stages. [Source: WormBase]		membrane, 	
igcm-2	SSSD1.1	ImmunoGlobulin-like Cell adhesion Molecule family member (igcm-2) [Source:RefSeq_peptide;Acc:NP_509073]			
T22E5.3	T22E5.3	T22E5.3 [Source:RefSeq_peptide;Acc:NP_509074]			
T22E5.7	T22E5.7	T22E5.7 [Source:RefSeq_peptide;Acc:NP_001033563]			
glt-4	T22E5.2	glt-4 encodes an ortholog of glutamate/aspartate and neutral amino acid transporters. [Source: WormBase]	dicarboxylic acid transport, 	membrane, 	sodium:dicarboxylate symporter activity, 
mup-2	T22E5.5	mup-2 encodes the muscle contractile protein troponin T ( TnT ) homologous to vertebrate and invertebrate TnT and contains an invertebrate- specific COOH -terminal tail. mup-2 affects embryonic body wall muscle cell contraction, sarcomere organization, cell positioning, regulated muscle contraction in larval and adult body wall muscle, epidermal morphogenesis, and is required for proper function of the hermaphrodite nonstriated oviduct myoepithelial sheath, proper growth, and fertility. [Source: WormBase]	intracellular signaling cascade, positive regulation of growth rate, regulation of muscle contraction, 		
T22E5.1	T22E5.1	T22E5.1a [Source:RefSeq_peptide;Acc:NP_001041289]			
T22E5.6	T22E5.6	T22E5.6 [Source:RefSeq_peptide;Acc:NP_509078]	electron transport, response to oxidative stress, 		peroxidase activity, heme binding, 
K10C2.1	K10C2.1	K10C2.1 [Source:RefSeq_peptide;Acc:NP_509079]	proteolysis, 		serine carboxypeptidase activity, 
K10C2.2	K10C2.2	K10C2.2 [Source:RefSeq_peptide;Acc:NP_509080]		membrane, 	G-protein coupled receptor activity, 
K10C2.8	K10C2.8	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPI6]			
K10C2.7	K10C2.7	K10C2.7 [Source:RefSeq_peptide;Acc:NP_509081]			
K10C2.3	K10C2.3	K10C2.3 [Source:RefSeq_peptide;Acc:NP_509082]	proteolysis, 		pepsin A activity, aspartic-type endopeptidase activity, 
K10C2.4	K10C2.4	K10C2.4 is orthologous to the human gene FUMARYLACETOACETATE (FAH. OMIM:276700), which when mutated leads to disease. [Source: WormBase]	metabolic process, aromatic amino acid family metabolic process, positive regulation of growth rate, 		catalytic activity, fumarylacetoacetase activity, 
grl-6	K10C2.5	grl-6 encodes a hedgehog-like protein, with an N-terminal signal sequence, a central proline-rich low-complexity region, and a C-terminal Ground-like (Grl) domain. GRL-6 is expressed in larval intestine, amphid socket cells, and neurons. the Grl domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. [Source: WormBase]			structural constituent of cell wall, nutrient reservoir activity, 
K10C2.6	K10C2.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q94274]			
nas-33	K04E7.3	Zinc metalloproteinase nas-33 precursor (EC 3.4.24.21) (Nematode astacin 33). [Source:Uniprot/SWISSPROT;Acc:P55114]	proteolysis, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	zinc ion binding, metallopeptidase activity, rhodopsin-like receptor activity, astacin activity, 
opt-2	K04E7.2	Oligopeptide transporter 2 (Di-/tri-peptide transporter CPTB). [Source:Uniprot/SWISSPROT;Acc:Q21219]	oligopeptide transport, positive regulation of growth rate, 	membrane, integral to membrane, 	transporter activity, oligopeptide transporter activity, 
K04E7.1	K04E7.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q21220]			
C15B12.2	C15B12.2	C15B12.2 [Source:RefSeq_peptide;Acc:NP_509089]			
C15B12.3	C15B12.3	C15B12.3 [Source:RefSeq_peptide;Acc:NP_509090]			
C15B12.9	C15B12.9	C15B12.9 [Source:RefSeq_peptide;Acc:NP_001033526]			
C15B12.4	C15B12.4	C15B12.4 [Source:RefSeq_peptide;Acc:NP_509091]		cytoplasm, 	GTP binding, 
C15B12.8	C15B12.8	C15B12.8 [Source:RefSeq_peptide;Acc:NP_741814]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, glycerol-3-phosphate dehydrogenase activity, 
C15B12.1	C15B12.1	Putative sarcosine oxidase (EC 1.5.3.1). [Source:Uniprot/SWISSPROT;Acc:Q18006]	electron transport, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, glycerol-3-phosphate dehydrogenase activity, 
gar-1	C15B12.5	gar-1 encodes a G-protein-linked acetylcholine receptor. though gar-1 is most closely related to muscarinic acetylcholine receptors (mAChR), it is pharmacologically distinct from them in its response to certain ligands. gar-1 gene transcripts are expressed at all developmental stages. the GAR-1-GFP fusion protein is expressed in some head neurons and in the PVM neuron. electrophysiological studies indicate that gar-1 couples to the inhibitory subunit of G proteins and not to Gs or to Go/Gq. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, 
C15B12.6	C15B12.6	C15B12.6 [Source:RefSeq_peptide;Acc:NP_509094]			protein binding, 
cdf-1	C15B12.7	a cation diffusion facilitator protein, affects vulva development, genetically interacts with let-60/ras signaling pathway. and is expressed in the vulval muscles, the intestinal cells, and in the vulval precursor cells. [Source: WormBase]	transport, cation transport, positive regulation of Ras protein signal transduction, 	membrane, 	transporter activity, binding, cation transmembrane transporter activity, 
glr-8	F22A3.3	glr-8 encodes a highly divergent putative ionotropic glutamate receptor subunit, unclassifiable as NMDA or non-NMDA (though possibly of the Delta subfamily), and without any clear close homologs in metazoa or plants. glr-8 is expressed in the pharyngeal nervous system, the body wall mechanoreceptors ALM and PLM, and two other neurons (BDU and URB). glr-8 is expressed from embryogenesis to adulthood. [Source: WormBase]		membrane, 	ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
F22A3.7	F22A3.7	F22A3.7 [Source:RefSeq_peptide;Acc:NP_001033541]			
F22A3.2	F22A3.2	F22A3.2 [Source:RefSeq_peptide;Acc:NP_509098]			
ets-4	F22A3.1	ETS class transcription factor family member (ets-4) [Source:RefSeq_peptide;Acc:NP_509099]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ceh-60	F22A3.5	ceh-60 encodes a homeodomain-containing protein that is a member of the PBX family of homeodomain transcription factors. loss of ceh-60 activity via large-scale RNAi results in reduced fat content, sterility, and variable embryonic lethality. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ilys-5	F22A3.6	F22A3.6a [Source:RefSeq_peptide;Acc:NP_001024594]	embryonic development ending in birth or egg hatching, 		
T14E8.2	T14E8.2	T14E8.2 [Source:RefSeq_peptide;Acc:NP_509103]			
T14E8.1	T14E8.1	T14E8.1b [Source:RefSeq_peptide;Acc:NP_509105]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
T14E8.4	T14E8.4	T14E8.4 [Source:RefSeq_peptide;Acc:NP_001024909]			
dop-3	T14E8.3	dop-3 encodes a homolog of mammalian D2 dopamine receptors that is required for the normal slowing of locomotion by well-fed animals moving onto a bacterial lawn ('basal slowing'), but not for the enhanced slowing of starved animals ('enhanced slowing response'). DOP-3 is also required for the paralysis of animals by excess dopamine, with dop-3 mutants showing significant resistance to such paralysis. DOP-3 is antagonized by DOP-1 (since a dop-1 mutation suppresses the dop-3 slowing and paralysis mutant phenotypes). DOP-3 and DOP-1 are coexpressed in cholinergic motor neurons and PVD mechanosensory neurons, and exert their antagonistic effects in the former. DOP-3 is also expressed in neurons of the head and tail. dop-3 mutants share a dopamine-resistant phenotype with goa-1, dgk-1, eat-16 and gpb-2 mutants. DOP-3 and DOP-1 probably counter one another through the GOA-1/Galpha(o) and EGL-30/Galpha(q) signaling pathways. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, regulation of locomotion, response to food, 	integral to membrane, integral to synaptic vesicle membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, octopamine receptor activity, dopamine D2 receptor-like receptor activity, melanocortin receptor activity, 
T28B4.2	T28B4.2	T28B4.2 [Source:RefSeq_peptide;Acc:NP_509107]			
T28B4.1	T28B4.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T28B4.t1	T28B4.t1				
T28B4.3	T28B4.3	T28B4.3 [Source:RefSeq_peptide;Acc:NP_509110]			
T28B4.4	T28B4.4	T28B4.4 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. T28B4.4 is worm-specific, weakly similar to CLC-1. T28B4.4 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
T28B4.t2	T28B4.t2				
F23G4.t1	F23G4.t1				
F23G4.1	F23G4.1	F23G4.1 [Source:RefSeq_peptide;Acc:NP_001033543]			
cpr-6	C25B8.3	Cathepsin B-like cysteine proteinase 6 precursor (EC 3.4.22.-) (Cysteine protease-related 6). [Source:Uniprot/SWISSPROT;Acc:P43510]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
C25B8.8	C25B8.8	C25B8.8 [Source:RefSeq_peptide;Acc:NP_001024430]			
C25B8.4	C25B8.4	C25B8.4a [Source:RefSeq_peptide;Acc:NP_001024427]			sugar binding, 
kqt-1	C25B8.1	kqt-1 encodes one of three C. elegans KCNQ-like potassium channel subunits that, with respect to humans, is most similar to the KCNQ2-5 subfamily of channel proteins. although loss of KQT-1 activity via large-scale RNAi screens results in no obvious abnormalities, KQT-1 likely functions to regulate cellular excitability as expression of KQT-1 in Xenopus oocytes can produce K+ channel currents that functionally resemble vertebrate M-currents. activity of these KQT-1 channels can be suppressed by coexpression with the human M1 muscarinic receptor and treatment with diacylglycerol analogs. a KQT-1::GFP translational fusion is expressed in pharyngeal muscle cells, in the anterior and posterior mechanosensory neurons ALM and PLM, and in some head neurons. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated potassium channel activity, 
C25B8.7	C25B8.7	C25B8.7 [Source:RefSeq_peptide;Acc:NP_741821]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C25B8.5	C25B8.5	C25B8.5 [Source:RefSeq_peptide;Acc:NP_509115]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
nhr-120	C25B8.6	Nuclear Hormone Receptor family member (nhr-120) [Source:RefSeq_peptide;Acc:NP_509116]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C56E10.3	C56E10.3	C56E10.3a [Source:RefSeq_peptide;Acc:NP_001041233]			
nhr-173	C56E10.1	Nuclear Hormone Receptor family member (nhr-173) [Source:RefSeq_peptide;Acc:NP_509119]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-137	C56E10.4	Nuclear Hormone Receptor family member (nhr-137) [Source:RefSeq_peptide;Acc:NP_001024506]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
col-172	F38B6.5	COLlagen family member (col-172) [Source:RefSeq_peptide;Acc:NP_001024635]	phosphate transport, pathogenesis, 	cytoplasm, extracellular region, 	calcium ion binding, structural constituent of cuticle, 
F38B6.4	F38B6.4	F38B6.4 [Source:RefSeq_peptide;Acc:NP_509122]	biosynthetic process, 'de novo' IMP biosynthetic process, purine base biosynthetic process, 	cytoplasm, 	ATP binding, hydroxymethyl-, formyl- and related transferase activity, phosphoribosylglycinamide formyltransferase activity, catalytic activity, phosphoribosylformylglycinamidine cyclo-ligase activity, phosphoribosylamine-glycine ligase activity, 
F38B6.8	F38B6.8	F38B6.8 [Source:RefSeq_peptide;Acc:NP_001033546]			
F38B6.6	F38B6.6	Transmembrane and TPR repeat-containing protein F38B6.6. [Source:Uniprot/SWISSPROT;Acc:Q20144]			binding, 
F38B6.3	F38B6.3	F38B6.3 [Source:RefSeq_peptide;Acc:NP_509124]			
F38B6.7	F38B6.7	F38B6.7 [Source:RefSeq_peptide;Acc:NP_509125]			
F38B6.2	F38B6.2	F38B6.2 [Source:RefSeq_peptide;Acc:NP_509126]			
F38B6.1	F38B6.1	F38B6.1 [Source:RefSeq_peptide;Acc:NP_509127]			
acr-2	K11G12.2	A homolog of a non-alpha type nicotinic acetylcholine receptor subunit that forms a functional channel when co-expressed with the unc-38 alpha subunit. [Source: WormBase]	transport, ion transport, synaptic transmission, 	membrane, integral to membrane, postsynaptic membrane, synapse, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
acr-3	K11G12.7	acr-3 encodes a non-alpha subunit of the nicotinic acetylcholine receptor (nAChR) superfamily. ACR-3 functions as a ligand-gated ion channel that likely mediates fast actions of acetylcholine at neuromuscular junctions and in the nervous system. when coexpressed with UNC-38, an nAChR alpha subunit, the resulting hetero-oligomer can form levamisole-gated channels. ACR-3 is a member of the UNC-29-like group of nAChR subunits. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
nas-11	K11G12.1	Zinc metalloproteinase nas-11 precursor (EC 3.4.24.21) (Nematode astacin 11). [Source:Uniprot/SWISSPROT;Acc:Q21432]	proteolysis, positive regulation of growth rate, 		metallopeptidase activity, astacin activity, 
smf-2	K11G12.3	yeast SMF (divalent cation transporter) homolog family member (smf-2) [Source:RefSeq_peptide;Acc:NP_509131]	transport, 	membrane, 	transporter activity, 
smf-1	K11G12.4	NRAMP-like transporter smf-1. [Source:Uniprot/SWISSPROT;Acc:Q21434]	transport, 	membrane, 	transporter activity, 
K11G12.5	K11G12.5	K11G12.5 [Source:RefSeq_peptide;Acc:NP_509133]	transport, mitochondrial transport, 	membrane, mitochondrion, mitochondrial inner membrane, 	transporter activity, binding, 
K11G12.6	K11G12.6	K11G12.6b [Source:RefSeq_peptide;Acc:NP_001041274]			
R03E9.2	R03E9.2	R03E9.2 [Source:RefSeq_peptide;Acc:NP_509135]			sugar binding, 
mdl-1	R03E9.1	MAD-Like family member (mdl-1) [Source:RefSeq_peptide;Acc:NP_509136]	regulation of transcription, embryonic development ending in birth or egg hatching, 	nucleus, 	protein binding, transcription regulator activity, 
abts-4	R03E9.3	Anion/Bicarbonate TranSporter family member (abts-4) [Source:RefSeq_peptide;Acc:NP_001024826]	anion transport, 	membrane, integral to membrane, 	anion exchanger activity, inorganic anion exchanger activity, 
irk-1	R03E9.4	Inward rectifier potassium channel irk-1. [Source:Uniprot/SWISSPROT;Acc:P52192]			inward rectifier potassium channel activity, 
H22K11.3	H22K11.3	H22K11.3 [Source:RefSeq_peptide;Acc:NP_509139]			
H22K11.2	H22K11.2	H22K11.2 [Source:RefSeq_peptide;Acc:NP_509140]	metabolic process, carbohydrate metabolic process, 	beta-galactosidase complex, 	beta-galactosidase activity, 
H22K11.4	H22K11.4	H22K11.4 is orthologous to the human gene SARCOGLYCAN, ALPHA (50KD DYSTROPHIN-ASSOCIATED GLYCOPROTEIN) (SGCA. OMIM:600119), which when mutated leads to disease. [Source: WormBase]		sarcoglycan complex, 	protein binding, calcium ion binding, 
asp-3	H22K11.1	asp-3 encodes an aspartyl protease homolog that is required, in parallel with ASP-4 but downstream of CLP-1 and TRA-3, for degenerative (necrotic-like) cell death in neurons induced by mutations such as mec-4(d), deg-3(d), or gsa-1(gf). [Source: WormBase]	proteolysis, cell death, 		protein binding, pepsin A activity, aspartic-type endopeptidase activity, 
M03A8.3	M03A8.3	M03A8.3 [Source:RefSeq_peptide;Acc:NP_509143]			
M03A8.2	M03A8.2	M03A8.2 [Source:RefSeq_peptide;Acc:NP_509145]		proteinaceous extracellular matrix, 	
dhs-28	M03A8.1	dhs-28 encodes an ortholog of human 17-BETA-HYDROXYSTEROID DEHYDROGENASE 4 (HSD17B4. OMIM:601860, mutated in D-bifunctional protein deficiency), which contains a C-terminal SCP-2 sterol transfer domain. the deletion allele dhs-28(ok450) is superficially wild-type. [Source: WormBase]	metabolic process, positive regulation of growth rate, enterobactin biosynthetic process, 		oxidoreductase activity, sterol carrier activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
gei-15	M03A8.4	GEX Interacting protein family member (gei-15) [Source:RefSeq_peptide;Acc:NP_509147]			
F41B4.1	F41B4.1	F41B4.1 [Source:RefSeq_peptide;Acc:NP_509148]			protein binding, 
F41B4.2	F41B4.2	F41B4.2b [Source:RefSeq_peptide;Acc:NP_001024646]	oviposition, 		
F41B4.3	F41B4.3	F41B4.3 [Source:RefSeq_peptide;Acc:NP_509150]			
glr-6	F41B4.4	glr-6 encodes a putative non-NMDA ionotropic glutamate receptor subunit, most closely related to GLR-5, possibly of the kainate subfamily. glr-6 (along with glr-3) is expressed in only one cell type, the thermosensory interneuron RIA, from near hatching onward to adulthood. [Source: WormBase]	transport, ion transport, embryonic development ending in birth or egg hatching, 	membrane, outer membrane-bounded periplasmic space, 	transporter activity, ion channel activity, receptor activity, ionotropic glutamate receptor activity, extracellular-glutamate-gated ion channel activity, 
asg-2	C53B7.4	asg-2 encodes a homolog of subunit G of the membrane-bound F0 proton channel portion of ATP synthase (mitochondrial respiratory chain [MRC] complex V). asg-2 activity is required for growth at a normally high rate and for normal osmoregulation. in addition, asg-2 activity is required for response to hermaphrodite contact, the first step in a series of stereotypical male mating behaviors. an ASG-2::GFP fusion localizes to mitochondria and to cilia of the male-specific CEM neurons. [Source: WormBase]	ATP synthesis coupled proton transport, positive regulation of growth rate, 	proton-transporting two-sector ATPase complex, 	hydrogen ion transporting ATP synthase activity, rotational mechanism, hydrogen ion transporting ATPase activity, rotational mechanism, 
C53B7.3	C53B7.3	C53B7.3 [Source:RefSeq_peptide;Acc:NP_509153]			
C53B7.2	C53B7.2	C53B7.2 encodes a putative secreted TIL-domain protease inhibitor paralogous to SWM-1, ISL-1, and the products of 11 other C. elegans genes. C53B7.2 and its relatives are collectively similar to other TIL-domain protease inhibitors from nematodes, insects, and vertebrates. C53B7.2 has no obvious function in mass RNAi assays. [Source: WormBase]			
rig-3	C53B7.1	neuRonal IGCAM family member (rig-3) [Source:RefSeq_peptide;Acc:NP_509155]			
C53B7.7	C53B7.7	C53B7.7 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. C53B7.7 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	neprilysin activity, 
odr-10	C53B7.5	odr-10 encodes a member of the 7-transmembrane family of odorant receptors which affects chemotaxis to the volatile odorant diacetyl. ODR-10 is strongly expressed in the cilia of the AWA olfactory neurons and, at low levels, in the CEP neurons. expression of odr-10 mRNA and of an odr-10::GFP fusion gene is greatly reduced in odr-7 mutant animals, suggesting that odr-7, which encodes a predicted transcription factor, functions upstream of odr-10 in specifying AWA neuronal cell fate. [Source: WormBase]	positive chemotaxis, 		
NR_003486.1	C53B7.8	C53B7.8, snoRNA [Source:RefSeq_dna;Acc:NR_003486]			
C53B7.6	C53B7.6	C53B7.6 [Source:RefSeq_peptide;Acc:NP_509158]			
F41C6.2	F41C6.2	F41C6.2 [Source:RefSeq_peptide;Acc:NP_509159]	positive regulation of growth rate, 		
F41C6.3	F41C6.3	F41C6.3 [Source:RefSeq_peptide;Acc:NP_509160]	positive regulation of growth rate, 		
F41C6.4	F41C6.4	F41C6.4 [Source:RefSeq_peptide;Acc:NP_509161]			
col-173	F41C6.5	COLlagen family member (col-173) [Source:RefSeq_peptide;Acc:NP_509162]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F41C6.6	F41C6.6	F41C6.6 [Source:RefSeq_peptide;Acc:NP_509163]			protein binding, 
F41C6.7	F41C6.7	F41C6.7 [Source:RefSeq_peptide;Acc:NP_509164]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
unc-6	F41C6.1	unc-6 encodes a netrin orthologous to the human and mouse netrin-1 precursor proteins. UNC-6 functions as a guidance molecule that regulates the migrations of pioneer axons and mesodermal cells, such as the gonadal distal tip cell, along the dorsoventral axis. a secreted molecule, UNC-6 is expressed during embryogenesis by epidermoblasts and neurons. UNC-6 is involved in both attractive and repulsive interactions that are mediated by the UNC-40 and UNC-5 netrin receptors, respectively. [Source: WormBase]	regulation of cell migration, locomotory behavior, mesodermal cell migration, 	proteinaceous extracellular matrix, 	
F14B8.4	F14B8.4	F14B8.4 [Source:RefSeq_peptide;Acc:NP_509166]			
pes-23	F14B8.3	Patterned Expression Site family member (pes-23) [Source:RefSeq_peptide;Acc:NP_509167]	transport, 	integral to membrane, 	transporter activity, 
F14B8.t1	F14B8.t1				
F14B8.2	F14B8.2	F14B8.2 [Source:RefSeq_peptide;Acc:NP_509168]			
nhx-4	F14B8.1	nhx-4 encodes two isoforms of a sodium/proton exchanger expressed in the plasma membrane of nearly all cells and cell types. in polarized epithelial cells, NHX-4::GFP appears specifically located in the basolateral membrane, like human SLC9A1 ('NHE1'. OMIM:107310). nhx-4 has no reported mutant or RNAi phenotype, but, given its ubiquitous expression, may represent a housekeeping exchanger generally required for cellular viability. transgenic NHX-4A, when expressed in cell culture, mediates Na[+]-dependent pH recovery after intracellular acidification, independently of extracellular Cl[-]. [Source: WormBase]	sodium ion transport, regulation of pH, embryonic development ending in birth or egg hatching, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
F14B8.7	F14B8.7	F14B8.7 [Source:RefSeq_peptide;Acc:NP_509170]			
F14B8.5	F14B8.5	F14B8.5a [Source:RefSeq_peptide;Acc:NP_509172]	pathogenesis, 		sugar binding, 
F14B8.6	F14B8.6	F14B8.6 [Source:RefSeq_peptide;Acc:NP_509173]			
C16E9.2	C16E9.2	C16E9.2a [Source:RefSeq_peptide;Acc:NP_509174]			
C16E9.1	C16E9.1	C16E9.1 [Source:RefSeq_peptide;Acc:NP_509176]			extracellular matrix structural constituent, 
inx-1	C16E9.4	inx-1 encodes a predicted member of the innexin family. expressed in 4-6 anterior neurons. [Source: WormBase]		gap junction, 	
F01E11.3	F01E11.3	F01E11.3 [Source:RefSeq_peptide;Acc:NP_509180]			
ugt-57	F01E11.1	UDP-GlucuronosylTransferase family member (ugt-57) [Source:RefSeq_peptide;Acc:NP_509182]	metabolic process, 		transferase activity, transferring hexosyl groups, 
tsp-16	F01E11.4	F01E11.4 [Source:RefSeq_peptide;Acc:NP_509183]		integral to membrane, 	
tyra-2	F01E11.5	Tyramine receptor tyra-2. [Source:Uniprot/SWISSPROT;Acc:Q19084]	proteolysis, G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	zinc ion binding, metallopeptidase activity, rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, 
cah-5	R173.1	cah-5 encodes a member of the carbonic anhydrase family. [Source: WormBase]	one-carbon compound metabolic process, 		zinc ion binding, carbonate dehydratase activity, 
flp-26	R173.4	FMRF-Like Peptide family member (flp-26) [Source:RefSeq_peptide;Acc:NP_741827]			
R173.3	R173.3	R173.3 [Source:RefSeq_peptide;Acc:NP_509187]			
ubc-17	B0403.2	Probable ubiquitin-conjugating enzyme protein 17. [Source:Uniprot/SWISSPROT;Acc:Q11076]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
B0403.5	B0403.5	B0403.5 [Source:RefSeq_peptide;Acc:NP_001024322]			
B0403.3	B0403.3	Uncharacterized protein B0403.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q11077]			
tag-320	B0403.4	Probable protein disulfide-isomerase A6 precursor (EC 5.3.4.1). [Source:Uniprot/SWISSPROT;Acc:Q11067]	cell redox homeostasis, growth, 		isomerase activity, 
B0403.6	B0403.6	B0403.6 [Source:RefSeq_peptide;Acc:NP_001024323]	blood coagulation, 	integral to membrane, 	
Y1B5A.1	Y1B5A.1	Y1B5A.1 [Source:RefSeq_peptide;Acc:NP_509192]			
C36B7.4	C36B7.4	C36B7.4 [Source:RefSeq_peptide;Acc:NP_509193]			
C36B7.5	C36B7.5	C36B7.5a [Source:RefSeq_peptide;Acc:NP_509194]			
C36B7.6	C36B7.6	C36B7.6 [Source:RefSeq_peptide;Acc:NP_509196]			
C36B7.3	C36B7.3	C36B7.3 [Source:RefSeq_peptide;Acc:NP_509197]			
C36B7.2	C36B7.2	C36B7.2 [Source:RefSeq_peptide;Acc:NP_509198]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C36B7.1	C36B7.1	C36B7.1 [Source:RefSeq_peptide;Acc:NP_509199]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
hen-1	C36B7.7	hen-1 encodes a secretory protein that contains a low-density lipoprotein receptor class A domain and affects integration of sensory stimuli and behavioral plasticity. expressed in pharyngeal muscles, the vulva, and is weakly expressed in a subset of neurons. [Source: WormBase]			
C36B7.8	C36B7.8	C36B7.8 [Source:RefSeq_peptide;Acc:NP_001033529]			
ist-1	C54D1.3	ist-1 encodes a pleckstrin homology (PH) and phosphotyrosine binding (PTB) domain-containing insulin receptor substrate (IRS) homolog that negatively regulates lifespan and dauer development. IST-1 potentiates insulin-like signaling, although it is not absolutely required for such signaling under most conditions. in addition to acting through the AGE-1/PI3K branch of the insulin-like signaling pathway, IST-1 may also function in a parallel pathway to activate downstream protein-kinase Bs encoded by akt-1 and akt-2. [Source: WormBase]			
clec-86	C54D1.2	C-type LECtin family member (clec-86) [Source:RefSeq_peptide;Acc:NP_509202]	immune response, 		sugar binding, 
alh-10	C54D1.4	ALdehyde deHydrogenase family member (alh-10) [Source:RefSeq_peptide;Acc:NP_509203]	metabolic process, 		oxidoreductase activity, 
lam-2	C54D1.5	lam-2 encodes a laminin gamma subunit. lam-2 activity is required for embryonic development and for regulation of muscle arm extension. loss of lam-2 function via large-scale RNAi screens results in embryonic, larval, and adult lethality, sterility, body morphology defects, and abnormal locomotion. [Source: WormBase]	cell adhesion, vesicle-mediated transport, embryonic development ending in birth or egg hatching, 	membrane, proteinaceous extracellular matrix, extracellular matrix, 	protein binding, 
C54D1.7	C54D1.7	C54D1.7 [Source:RefSeq_peptide;Acc:NP_741828]			
pgp-10	C54D1.1	pgp-10 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-10 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-10 activity via RNAi results in no obvious defects, the exact role of pgp-10 in C. elegans development and/or behavior is not yet known. pgp-10 promoter-gfp fusion proteins are expressed in larvae and adults in the intestine and hypodermis. [Source: WormBase]	transport, defense response, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
bar-1	C54D1.6	bar-1 encodes a beta-catenin. during C. elegans development, BAR-1 likely functions as a transcriptional coactivator whose activity is required for Q neuroblast migration, P12 cell fate specification, and P3.p through P8.p vulval cell fate specification at two different stages of development. in specifying vulval cell fates, bar-1 interacts with Wnt and MAPK signaling pathways to regulate proper expression of the LIN-39 homeodomain transcription factor, overexpresion of which can partially rescue the bar-1 mutant phenotype. in yeast two-hybrid assays, BAR-1 interacts strongly with the POP-1/TCF transcription factor, and when fused to the Gal4 DNA binding domain, BAR-1 can function in yeast as a transcriptional coactivator. during larval development, BAR-1 expression begins in P3.p through P8.p at the late L1 stage and then disappears from these cells by the mid-L3 stage. BAR-1 is also expressed in P12, in the seam cells, and in cells of the somatic gonad. BAR-1 subcellular localization, assessed using an integrated transgene, reveals localization to the cytoplasm, nucleus, and cell junctions. genetic mosaic analyses indicate that, in P4.p and in P12, bar-1 acts cell autonomously to specify cell fates. [Source: WormBase]	morphogenesis of an epithelium, 		
F43E12.t1	F43E12.t1				
F43E12.1	F43E12.1	F43E12.1 [Source:RefSeq_peptide;Acc:NP_001033549]			
C55B6.4	C55B6.4	C55B6.4 [Source:RefSeq_peptide;Acc:NP_509207]			
dnj-7	C55B6.2	This gene encodes a protein containing a DnaJ ('J') domain that is predicted to be mitochondrial. [Source: WormBase]			heat shock protein binding, 
C55B6.1	C55B6.1	C55B6.1a [Source:RefSeq_peptide;Acc:NP_001024503]	carbohydrate metabolic process, 		
C55B6.5	C55B6.5	C55B6.5 [Source:RefSeq_peptide;Acc:NP_509211]			protein kinase activity, 
ZK867.2	ZK867.2	ZK867.2 [Source:RefSeq_peptide;Acc:NP_509212]			
spp-22	ZK867.3	SaPosin-like Protein family member (spp-22) [Source:RefSeq_peptide;Acc:NP_001025004]			
syd-9	ZK867.1	SYnapse Defective family member (syd-9) [Source:RefSeq_peptide;Acc:NP_509214]	biological_process, 	intracellular, 	protein binding, zinc ion binding, nucleic acid binding, 
F46H5.3	F46H5.3	Probable arginine kinase F46H5.3 (EC 2.7.3.3) (AK). [Source:Uniprot/SWISSPROT;Acc:Q10454]			transferase activity, transferring phosphorus-containing groups, kinase activity, 
F46H5.7	F46H5.7	F46H5.7a [Source:RefSeq_peptide;Acc:NP_741829]			
F46H5.4	F46H5.4	F46H5.4 [Source:RefSeq_peptide;Acc:NP_509219]	methylation, 		GTP binding, methyltransferase activity, nucleic acid binding, guanyl-nucleotide exchange factor activity, GTPase binding, 
F46H5.5	F46H5.5	F46H5.5 [Source:RefSeq_peptide;Acc:NP_509220]			
lact-1	F46H5.8	F46H5.8 [Source:RefSeq_peptide;Acc:NP_509221]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
F46H5.2	F46H5.2	F46H5.2a [Source:RefSeq_peptide;Acc:NP_001024674]			
grd-7	F46H5.6	grd-7 encodes a hedgehog-like protein, with an N-terminal DUF271 domain, a central low-complexity proline-rich domain, and a C-terminal Ground (Grd) domain. GRD-7 is expressed in three to four posterior DA motor neurons of the ventral nerve cord. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-7 is weakly required for normal molting. GRD-7 is also required for normal growth to full size, cuticle adhesion, locomotion, and vulval morphogenesis. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	cell adhesion, G-protein coupled receptor protein signaling pathway, 	integral to membrane, actin cytoskeleton, 	structural molecule activity, rhodopsin-like receptor activity, structural constituent of cell wall, 
unc-10	T10A3.1	unc-10 encodes a protein with zinc-finger, Q/N-rich, PDZ, and C2 domains that is homologous to vertebrate Rim1, a presynaptic protein which binds, and effects the activity of, synaptic vesicle-associated GTP-Rab3. UNC-10 is required for normal locomotion and synaptic transmission, and localizes to a subdomain of presynaptic termini, where it probably acts to regulate the priming step of presynaptic vesicle fusion by promoting conformational changes in syntaxin. [Source: WormBase]	intracellular protein transport, locomotory behavior, 		protein binding, zinc ion binding, Rab GTPase binding, 
K03A1.2	K03A1.2	K03A1.2 [Source:RefSeq_peptide;Acc:NP_509227]	G-protein coupled receptor protein signaling pathway, phospholipid metabolic process, lipid catabolic process, nucleosome assembly, 	integral to membrane, nucleus, nucleosome, 	protein binding, DNA binding, calcium ion binding, phospholipase A2 activity, lutropin-choriogonadotropic hormone receptor activity, 
K03A1.4	K03A1.4	K03A1.4a [Source:RefSeq_peptide;Acc:NP_001041263]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
sur-5	K03A1.5	sur-5 encodes a protein with high similarity to H. sapiens Acetoacetyl-coenzyme A synthetase. sur-5 negatively regulates let-60 during vulval induction, based on genetic analysis, and genetically synergises with lin-45 with respect to larval death, uncoordinated movement and egg-laying defects. sur-5 is strongly expressed in most cells of C. elegans, including the VPCs and is localized primarily to the nucleus. [Source: WormBase]	metabolic process, 		catalytic activity, 
his-38	K03A1.6	his-38 encodes an H4 histone. by homology, HIS-38 is predicted to function as a nucleosome component required for packaging of DNA into chromatin. his-38 is a replication-dependent histone locus that does not reside in a cluster, but exists as a single histone locus on the X chromosome. [Source: WormBase]	nucleosome assembly, positive regulation of growth rate, 	nucleus, nucleosome, 	DNA binding, 
his-40	K03A1.1	his-40 is a predicted pseudogene whose partial translation products, in a given reading frame, display strong similarity to histones. large-scale RNAi screens targeting his-40 sequences in the hypersensitive rrf-3 background do result in embryonic and larval lethality, indicating that his-40 either has a real biological function or that there is cross-reactivity with mRNA from other histone genes in these experiments. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
T08A9.6	T08A9.6	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T08A9.5	T08A9.5	T08A9.5 [Source:RefSeq_peptide;Acc:NP_509233]			
T08A9.4	T08A9.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
spp-3	T08A9.7	SaPosin-like Protein family member (spp-3) [Source:RefSeq_peptide;Acc:NP_509235]	lipid metabolic process, sphingolipid metabolic process, 	lysosome, 	
spp-2	T08A9.12	spp-2 is orthologous to the human gene INTERFERON GAMMA RECEPTOR 2 (INTERFERON GAMMA TRANSDUCER 1) (IFNGR2. OMIM:147569), which when mutated leads to disease. [Source: WormBase]	sphingolipid metabolic process, 	lysosome, 	
spp-6	T08A9.10	spp-6 encodes a predicted transmembrane protein containing a saposin (B) domain that is a member of a saposin-like protein superfamily containing mammalian NK-lysin and granulysin and the protozoan amoebapores. SPP-6 is predicted to function as a lipid-binding protein that may possess pore-forming, cytotoxic activity. as loss of SPP-6 function via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of SPP-6 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	sphingolipid metabolic process, 	lysosome, 	
spp-4	T08A9.8	SaPosin-like Protein family member (spp-4) [Source:RefSeq_peptide;Acc:NP_509237]	sphingolipid metabolic process, 	lysosome, 	
spp-5	T08A9.9	spp-5 encodes a predicted transmembrane protein containing a saposin (B) domain that is a member of a saposin-like protein superfamily containing mammalian NK-lysin and granulysin and the protozoan amoebapores. SPP-5 is predicted to function as a lipid-binding protein that may possess pore-forming,cytotoxic activity. loss of SPP-5 function via RNA-mediated interference (RNAi) can result in larval lethality, suggesting that SPP-5 activity may be required for postembryonic development. [Source: WormBase]	sphingolipid metabolic process, growth, 	lysosome, 	
T08A9.13	T08A9.13	T08A9.13 [Source:RefSeq_peptide;Acc:NP_001033559]			
T08A9.t1	T08A9.t1				
sng-1	T08A9.3	Synaptogyrin homolog 1. [Source:Uniprot/SWISSPROT;Acc:O76735]	regulation of exocytosis, 	membrane, 	
T08A9.11	T08A9.11	T08A9.11 [Source:RefSeq_peptide;Acc:NP_741833]			
T08A9.2	T08A9.2	T08A9.2 [Source:RefSeq_peptide;Acc:NP_509240]			
T08A9.1	T08A9.1	T08A9.1 is orthologous to the human gene LIKELY ORTHOLOG OF MOUSE COILED COIL FORMING PROTEIN 1 (RB1CC1. OMIM:606837), which when mutated leads to disease. [Source: WormBase]			
C07D8.6	C07D8.6	C07D8.6 [Source:RefSeq_peptide;Acc:NP_509242]			oxidoreductase activity, 
C07D8.5	C07D8.5	C07D8.5 [Source:RefSeq_peptide;Acc:NP_509243]			oxidoreductase activity, 
C07D8.3	C07D8.3	C07D8.3 [Source:RefSeq_peptide;Acc:NP_509245]	embryonic development ending in birth or egg hatching, 		
C07D8.2	C07D8.2	C07D8.2 [Source:RefSeq_peptide;Acc:NP_509246]	embryonic development ending in birth or egg hatching, homoiothermy, response to freezing, 		ice binding, 
C56G3.2	C56G3.2	C56G3.2 [Source:RefSeq_peptide;Acc:NP_509247]			oxidoreductase activity, 
C56G3.1	C56G3.1	Probable G-protein coupled receptor C56G3.1. [Source:Uniprot/SWISSPROT;Acc:Q18904]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
C56G3.t1	C56G3.t1				
C10A4.6	C10A4.6	C10A4.6 [Source:RefSeq_peptide;Acc:NP_509249]			
C10A4.5	C10A4.5	C10A4.5 [Source:RefSeq_peptide;Acc:NP_509250]	immune response, antigen processing and presentation, 	membrane, 	
C10A4.4	C10A4.4	C10A4.4 [Source:RefSeq_peptide;Acc:NP_509251]			
C10A4.3	C10A4.3	C10A4.3 [Source:RefSeq_peptide;Acc:NP_509252]			
C10A4.2	C10A4.2	C10A4.2 [Source:RefSeq_peptide;Acc:NP_509253]			
C10A4.7	C10A4.7	C10A4.7 [Source:RefSeq_peptide;Acc:NP_509254]	positive regulation of multicellular organism growth, 		
C10A4.1	C10A4.1	C10A4.1 [Source:RefSeq_peptide;Acc:NP_509255]			protein dimerization activity, 
C10A4.9	C10A4.9				
C10A4.8	C10A4.8	C10A4.8 [Source:RefSeq_peptide;Acc:NP_509256]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
clc-2	C01C10.1	clc-2 encodes a claudin homolog, closely similar to CLC-1, that is required for normal cohesion of apical junctions in epithelia. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. CLC-2 maintains the impermeability ('barrier function') of epithelia, since clc-1(RNAi) animals have abnormal permeability of the hypodermis to dyes. clc-2 is expressed in hypodermal seam cells, with two diffuse lines of CLC-2 protein. [Source: WormBase]	biological_process, 	membrane, integral to membrane, tight junction, 	structural molecule activity, molecular_function, 
clc-5	C01C10.4	clc-5 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. CLC-5 is worm-specific, with obvious homologs only in C. elegans. CLC-5 has no obvious function in mass RNAi assays. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]	biological_process, 	membrane, integral to membrane, 	molecular_function, 
C01C10.2	C01C10.2	Uncharacterized protein C01C10.2. [Source:Uniprot/SWISSPROT;Acc:Q11086]			GTP binding, GTPase activity, 
acl-12	C01C10.3	Putative 1-acyl-sn-glycerol-3-phosphate acyltransferase acl-12 (EC 2.3.1.51) (1-AGP acyltransferase) (1-AGPAT) (Lysophosphatidic acid acyltransferase) (LPAAT). [Source:Uniprot/SWISSPROT;Acc:Q11087]	metabolic process, 		acyltransferase activity, 
sox-2	K08A8.2	The sox-2 gene encodes a homolog of human SRY, which when mutated leads to gonadal dysgenesis (OMIM:306100). [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, 	nucleus, chromatin, 	DNA binding, 
coh-1	K08A8.3	coh-1 encodes a RAD21 homolog that affects embryonic viability and is believed to affect cohesion of sister chromatids in somatic cells. expressed in the distal tip cells of the gonad, embryonic, and somatic cells [Source: WormBase]	embryonic development ending in birth or egg hatching, synaptonemal complex assembly, 	nuclear chromosome, 	
mek-1	K08A8.1	mek-1 encodes a MAP kinase kinase (MAPKK) that is involved in the stress response to heavy metals and starvation, and that has the highest homology to mammalian MKK7. [Source: WormBase]	protein amino acid phosphorylation, response to copper ion, response to starvation, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, serine-type endopeptidase inhibitor activity, 
F48E3.9	F48E3.9	F48E3.9 [Source:RefSeq_peptide;Acc:NP_509264]			
gly-12	F48E3.1	gly-12 encodes an experimentally verified UDP-N-acetylglucosamine alpha-3-D-mannoside beta-1,2-N-acetylglucosaminyltransferase I (GnT I), expressed throughout development in many cell types. gly-12 has no obvious function in vivo, since a deletion allele of gly-12 is phenotypically normal even as a double or triple mutant with gly-13 and gly-14. [Source: WormBase]	protein amino acid N-linked glycosylation, embryonic development ending in birth or egg hatching, 	Golgi membrane, 	alpha-1,3-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity, 
F48E3.2	F48E3.2	F48E3.2 [Source:RefSeq_peptide;Acc:NP_509266]	transport, carbohydrate transport, embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	transporter activity, sugar:hydrogen ion symporter activity, 
F48E3.4	F48E3.4	F48E3.4 [Source:RefSeq_peptide;Acc:NP_509267]	proteolysis, 		serine-type endopeptidase activity, 
F48E3.3	F48E3.3	F48E3.3 [Source:RefSeq_peptide;Acc:NP_509268]	protein amino acid glycosylation, 		UDP-glucose:glycoprotein glucosyltransferase activity, 
F48E3.6	F48E3.6	F48E3.6 [Source:RefSeq_peptide;Acc:NP_509269]			
lgc-11	F48E3.7	acr-22 encodes a predicted member of the nicotinic acetylcholine receptor nonalpha subunit family with highest similarity to human neuronal acetylcholine receptor alpha-9 subunit. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, 
F48E3.t1	F48E3.t1				
F48E3.8	F48E3.8	F48E3.8a [Source:RefSeq_peptide;Acc:NP_741840]	carbohydrate metabolic process, cell differentiation, 	membrane, 	serine-type endopeptidase inhibitor activity, hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, protease inhibitor activity, 
F46C8.3	F46C8.3	F46C8.3 [Source:RefSeq_peptide;Acc:NP_509272]			
ceh-14	F46C8.5	ceh-14 encodes a LIM homeodomain protein orthologous to Drosophila Lim3 and the vertebrate Lhx3 and Lhx4 proteins. ceh-14 is required for specification of the AFD thermosensory neurons and for normal thermotactic behavior. a ceh-14::GFP reporter fusion is expressed in head and tail neurons, including the AFD thermosensory neurons, during late embryonic, larval, and adult stages. Animals triply mutant for the LIM homeobox genes ceh-14, lin-11, and ttx-3 which are required for function of the AFD, AIZ, and AIY neurons, respectively, exhibit a basic cryophilic thermotaxis response suggesting that, in C. elegans, there is more than one pathway for integration of thermosensory input. [Source: WormBase]	regulation of transcription, DNA-dependent, thermosensory behavior, neuron differentiation, detection of temperature stimulus, 	nucleus, 	protein binding, zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
dpy-7	F46C8.6	dpy-7 encodes a cuticular collagen. DPY-7 functions as a structural constituent of the extracellular cuticle whose activity is required for normal cuticular morphology and hence, proper body form. [Source: WormBase]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, 	structural constituent of cuticle, 
F46C8.7	F46C8.7	F46C8.7 [Source:RefSeq_peptide;Acc:NP_509275]			iron ion binding, 
col-174	F46C8.2	COLlagen family member (col-174) [Source:RefSeq_peptide;Acc:NP_509276]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
F46C8.1	F46C8.1	F46C8.1 [Source:RefSeq_peptide;Acc:NP_509277]			
F46C8.8	F46C8.8	F46C8.8 [Source:RefSeq_peptide;Acc:NP_509278]			
PDB1.1	PDB1.1	PDB1.1b [Source:RefSeq_peptide;Acc:NP_001041277]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
F08C6.5	F08C6.5	F08C6.5 [Source:RefSeq_peptide;Acc:NP_509280]			
sto-1	F08C6.4	Stomatin-1. [Source:Uniprot/SWISSPROT;Acc:Q19200]	electron transport, response to oxidative stress, 	membrane, 	peroxidase activity, heme binding, 
tag-197	F08C6.3	Temporarily Assigned Gene name family member (tag-197) [Source:RefSeq_peptide;Acc:NP_509282]			nucleotide binding, protein binding, 
F08C6.6	F08C6.6	F08C6.6 [Source:RefSeq_peptide;Acc:NP_509283]			protein binding, 
unc-98	F08C6.7	unc-98 encodes a protein with four C2H2 zinc fingers and several possible nuclear localization and export sequences. UNC-98 is required for normal mobility, M-line structures, and dense body (Z-line analog) structures. UNC-98 binds UNC-97/PINCH, HUM-6, and MEP-1. UNC-98 is located in M-lines, muscle cell nuclei, and perhaps dense bodies. [Source: WormBase]	post-embryonic body morphogenesis, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
F08C6.2	F08C6.2	F08C6.2 encodes a lipid-activated CTP:phosphocholine cytidylyltransferase (CCT), with CCT activity in vitro. recombinant F08C6.2 enzyme is most activated by a 1:1 mixture of phosphatidylcholine:oleate vesicles. a inhibitory 21-residue segment (residues 246-266) is critical for specific activation of F08C6.2 by lipids, since deletion or mutation of this segment causes F08C6.2 to be constitutively active without its normal lipid substrate. F08C6.2 has no obvious function in mass RNAi assays. [Source: WormBase]	biosynthetic process, growth, 		catalytic activity, nucleotidyltransferase activity, 
adt-2	F08C6.1	ADAMTS family member (adt-2) [Source:RefSeq_peptide;Acc:NP_001024532]	proteolysis, positive regulation of multicellular organism growth, 		protein binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
C44E12.1	C44E12.1	C44E12.1 [Source:RefSeq_peptide;Acc:NP_509287]	proteolysis, 		metallopeptidase activity, hydrolase activity, protein dimerization activity, 
twk-17	C44E12.3	TWiK family of potassium channels family member (twk-17) [Source:RefSeq_peptide;Acc:NP_001024467]	potassium ion transport, 	membrane, 	potassium channel activity, 
F26A10.1	F26A10.1	F26A10.1 [Source:RefSeq_peptide;Acc:NP_509289]			
F26A10.2	F26A10.2	F26A10.2 encodes a protein with four zinc-finger domains and a glutamine/asparagine-rich domain, that is required for maintenance of the germline and for locomotion. F26A10.2(RNAi) animals are uncoordinated and have sterile progeny. [Source: WormBase]	locomotory behavior, 	intracellular, 	zinc ion binding, nucleic acid binding, 
F27D9.3	F27D9.3	F27D9.3 [Source:RefSeq_peptide;Acc:NP_509291]			
F27D9.4	F27D9.4	F27D9.4 [Source:RefSeq_peptide;Acc:NP_509292]			
pcca-1	F27D9.5	The F27D9.5 gene encodes an ortholog of the human gene PROPIONYL-COA CARBOXYLASE ALPHA SUBUNIT (PCCA), which when mutated leads to propionicaciduria, type I (OMIM:232000). [Source: WormBase]	metabolic process, fatty acid biosynthetic process, 	acetyl-CoA carboxylase complex, 	ATP binding, catalytic activity, ligase activity, biotin binding, carbamoyl-phosphate synthase activity, acetyl-CoA carboxylase activity, 
dhs-29	F27D9.6	DeHydrogenases, Short chain family member (dhs-29) [Source:RefSeq_peptide;Acc:NP_509294]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F27D9.7	F27D9.7	F27D9.7 [Source:RefSeq_peptide;Acc:NP_509295]	proteolysis, 		metalloendopeptidase activity, 
F27D9.2	F27D9.2	F27D9.2 [Source:RefSeq_peptide;Acc:NP_509296]	transport, 	membrane, integral to membrane, 	transporter activity, hydrogen:sugar symporter activity, 
stn-2	F27D9.8	SynTrophiN family member (stn-2) [Source:RefSeq_peptide;Acc:NP_001024610]			protein binding, 
F27D9.t1	F27D9.t1				
unc-18	F27D9.1	unc-18 encodes an ortholog of Saccharomyces cervisiae SEC1 that enables the docking of vesicles to synaptic regions before vesicle priming and fusion, and thus promotes synaptic vesicle exocytosis. UNC-18 may also inhibit excessive exocytosis. [Source: WormBase]	vesicle-mediated transport, vesicle docking during exocytosis, locomotory behavior, positive regulation of neurotransmitter secretion, 		
C53C9.2	C53C9.2	Uncharacterized protein C53C9.2. [Source:Uniprot/SWISSPROT;Acc:Q09936]	positive regulation of growth rate, 		
kvs-1	C53C9.3	kvs-1 encodes a voltage-gated, A-type potassium channel. kvs-1 is required for the normal function of several neurons and thus for normal forward locomotion, chemotaxis to select molecules, osmotic avoidance, and nose-touch. when expressed in tissue culture cells, KVS-1 exhibits potassium-selective channel activity that is altered by coexpression with C. elegans MPS-1, -2, -3, and -4, KCNE-like ancillary subunits, or a related human protein, hMiRP1. in addition, KVS-1 forms a functional complex with MPS-1 in the ASER neuron and activity of MPS-2, MPS-3, and KVS-1 coexpressed in culture suggests that these three proteins can form a functional ternary complex that genetic analyses indicate likely plays a role in regulating responsiveness to sodium. kvs-1 reporter fusions are expressed in sperm, the anal depressor muscle, the PDA motoneuron, ventral cord neurons, and several chemosensory neurons. [Source: WormBase]	ion transport, potassium ion transport, dicarboxylic acid transport, hyperosmotic response, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated potassium channel activity, sodium:dicarboxylate symporter activity, 
K09F5.4	K09F5.4	K09F5.4 [Source:RefSeq_peptide;Acc:NP_509302]			
K09F5.6	K09F5.6	K09F5.6 [Source:RefSeq_peptide;Acc:NP_001041272]			
spp-14	K09F5.3	SaPosin-like Protein family member (spp-14) [Source:RefSeq_peptide;Acc:NP_001041271]			
vit-1	K09F5.2	Vitellogenin-1 precursor. [Source:Uniprot/SWISSPROT;Acc:P55155]	lipid transport, 		lipid transporter activity, 
set-12	K09F5.5	K09F5.5 [Source:RefSeq_peptide;Acc:NP_509306]		nucleus, 	
K09F5.1	K09F5.1	K09F5.1 [Source:RefSeq_peptide;Acc:NP_509307]			
ref-2	C47C12.3	ref-2 is orthologous to the human gene ZINC FINGER PROTEIN OF CEREBELLUM ZIC2 (ZIC2. OMIM:603073), which when mutated leads to disease. [Source: WormBase]	organ morphogenesis, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
C47C12.2	C47C12.2	C47C12.2 [Source:RefSeq_peptide;Acc:NP_509309]			
C47C12.4	C47C12.4	C47C12.4 [Source:RefSeq_peptide;Acc:NP_509310]	protein transport, small GTPase mediated signal transduction, biological_process, 	intracellular, 	GTP binding, calcium ion binding, 
deg-1	C47C12.6	deg-1 encodes a putative ion channel for which altered function induces necrotic cell death of neurons required for mechanosensory behavior. expressed in the ASH, IL1, AVD, AVG, and PVC neurons in addition to some muscle cells. [Source: WormBase]	ion transport, sodium ion transport, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, 
ZK154.t1	ZK154.t1				
ZK154.t2	ZK154.t2				
ZK154.t5	ZK154.t5				
mec-7	ZK154.3	mec-7 encodes a beta-tubulin required for touch sensitivity along the body wall, and for normal levels of locomotor activity. it is strongly expressed in six touch receptor neurons, with weak expression in FLP, PVD, and BDU cells. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, mechanosensory behavior, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
ZK154.4	ZK154.4	ZK154.4 [Source:RefSeq_peptide;Acc:NP_509315]			
ZK154.1	ZK154.1	ZK154.1 [Source:RefSeq_peptide;Acc:NP_509314]			
ZK154.5	ZK154.5	ZK154.5 [Source:RefSeq_peptide;Acc:NP_509316]			
ZK154.6	ZK154.6	ZK154.6a [Source:RefSeq_peptide;Acc:NP_001024987]			
ZK154.t4	ZK154.t4				
ZK154.t3	ZK154.t3				
adm-4	ZK154.7	adm-4 encodes a member of the ADAM (disintegrin plus metalloprotease) family. ADM-4 is highly expressed in most post-embryonic tissues. [Source: WormBase]	proteolysis, biological_process, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
R03G5.5	R03G5.5	R03G5.5 [Source:RefSeq_peptide;Acc:NP_509319]	response to oxidative stress, 		glutathione peroxidase activity, 
R03G5.3	R03G5.3	R03G5.3 [Source:RefSeq_peptide;Acc:NP_509320]		membrane, 	
R03G5.7	R03G5.7	R03G5.7 [Source:RefSeq_peptide;Acc:NP_741847]			
R03G5.6	R03G5.6	R03G5.6 [Source:RefSeq_peptide;Acc:NP_509321]			
sek-1	R03G5.2	SEK-1 has MAPKK activity and belongs to the MAPKK family. SEK-1 can activate both JNK-1 and PMK-1 in the yeast Hog pathway. [Source: WormBase]	protein amino acid phosphorylation, innate immune response, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
eft-4	R03G5.1	eft-4 encodes a translation elongation factor 1-alpha homolog that is required for embryonic viability, fertility, and a normal postembryonic growth rate. eft-4 encodes at least one alternatively spliced coding sequence identical to that of eft-3. [Source: WormBase]	translational elongation, embryonic development ending in birth or egg hatching, positive regulation of growth rate, 	cytoplasm, 	GTP binding, GTPase activity, translation elongation factor activity, 
sul-3	C54D2.4	sul-3 is orthologous to the human gene ARYLSULFATASE B (ARSB. OMIM:253200), which when mutated leads to mucopolysaccharidosis type VI. [Source: WormBase]	metabolic process, 		sulfuric ester hydrolase activity, 
C54D2.2	C54D2.2	C54D2.2 [Source:RefSeq_peptide;Acc:NP_509325]			
C54D2.1	C54D2.1	C54D2.1 [Source:RefSeq_peptide;Acc:NP_509326]			
C54D2.6	C54D2.6	C54D2.6 [Source:RefSeq_peptide;Acc:NP_001076757]			
cca-1	C54D2.5	cca-1 encodes a calcium channel alpha subunit that is homologous to vertebrate T-type calcium channel alpha 1 subunits. CCA-1 is required for regulation of pharyngeal pumping, specifically for the efficient initiation of action potentials in the pharynx in response to excitatory inputs. a CCA-1::GFP fusion protein is expressed strongly in pharyngeal muscle as well as in many neurons, including particular subsets of neurons in the head, pharynx, ventral nerve cord, and anal ganglia. [Source: WormBase]	ion transport, calcium ion transport, neurotransmitter transport, regulation of pharyngeal pumping, 	membrane, integral to membrane, integral to plasma membrane, voltage-gated calcium channel complex, 	ion channel activity, voltage-gated calcium channel activity, neurotransmitter:sodium symporter activity, 
C39D10.8	C39D10.8	C39D10.8c [Source:RefSeq_peptide;Acc:NP_741849]			
C39D10.3	C39D10.3	C39D10.3a [Source:RefSeq_peptide;Acc:NP_001041226]	biosynthetic process, 		catalytic activity, nucleotidyltransferase activity, 
C39D10.2	C39D10.2	C39D10.2 [Source:RefSeq_peptide;Acc:NP_509330]			
C39D10.5	C39D10.5	C39D10.5 [Source:RefSeq_peptide;Acc:NP_509331]			
C39D10.6	C39D10.6	C39D10.6 [Source:RefSeq_peptide;Acc:NP_509332]		integral to membrane, 	
C39D10.t2	C39D10.t2				
C39D10.9	C39D10.9	C39D10.9 [Source:RefSeq_peptide;Acc:NP_741852]			
C39D10.11	C39D10.11	C39D10.11 [Source:RefSeq_peptide;Acc:NP_001024449]			
C39D10.t1	C39D10.t1				
C39D10.1	C39D10.1	C39D10.1 [Source:RefSeq_peptide;Acc:NP_509333]			
C39D10.7	C39D10.7	C39D10.7 encodes a large (1185-residue) protein with 11 chitin-binding peritrophin-A domains. C39D10.7 transcripts are enriched in hermaphrodites. like CEJ-1 and CPG-2, C39D10.7 might participate in eggshell synthesis and early embryonic development, and C39D10.7's multiple peritrophin-A domains might enable mechanical cross-linking of chitin. however, C39D10.7 alone has no visible function in mass RNAi assays. [Source: WormBase]	chitin metabolic process, 	extracellular region, 	protein binding, chitin binding, 
zig-4	C09C7.1	2 (Zwei) IG-domain protein family member (zig-4) [Source:RefSeq_peptide;Acc:NP_509335]	protein amino acid phosphorylation, neuron development, 		ATP binding, vascular endothelial growth factor receptor activity, 
zig-3	C14F5.2	2 (Zwei) IG-domain protein family member (zig-3) [Source:RefSeq_peptide;Acc:NP_509336]			
tnt-3	C14F5.3	tnt-3 is orthologous to the human gene TROPONIN T (TNNT2. OMIM:191045), which when mutated leads to disease. [Source: WormBase]			
C14F5.1	C14F5.1	NIP3 homolog (CeBNIP3). [Source:Uniprot/SWISSPROT;Acc:Q09969]			
sfxn-2	C14F5.4	C14F5.4 [Source:RefSeq_peptide;Acc:NP_509341]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
sem-5	C14F5.5	sem-5 encodes a Src homology (SH) domain 2 and 3-containing protein, orthologous to human GRB2 (OMIM:108355), that functions in multiple signaling pathways during development. these pathways include those regulating sex myoblast migration, muscle membrane extension, vulval induction, fluid balance, viability, and formation of the male tail. SEM-5 acts downstream of the LET-23 epidermal growth factor receptor to negatively regulate RAS-, MAP-, as well as IP-3-, mediated signal transduction. [Source: WormBase]	intracellular signaling cascade, negative regulation of multicellular organism growth, 		protein binding, 
F45E1.5	F45E1.5	F45E1.5 [Source:RefSeq_peptide;Acc:NP_509343]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
his-71	F45E1.6	his-71 encodes an H3 histone required for embryonic viability, body morphology, and larval viability. [Source: WormBase]	nucleosome assembly, embryonic development ending in birth or egg hatching, 	nucleus, nucleosome, 	DNA binding, 
F45E1.4	F45E1.4	F45E1.4 [Source:RefSeq_peptide;Acc:NP_509345]			
F45E1.3	F45E1.3	F45E1.3 [Source:RefSeq_peptide;Acc:NP_509346]	metabolic process, 		catalytic activity, 
sdpn-1	F45E1.7	SynDaPiN (synaptic dynamin binding protein) homolog family member (sdpn-1) [Source:RefSeq_peptide;Acc:NP_001024665]			protein binding, 
F45E1.2	F45E1.2	F45E1.2 [Source:RefSeq_peptide;Acc:NP_509348]			
F45E1.1	F45E1.1	F45E1.1 [Source:RefSeq_peptide;Acc:NP_509349]			
C34D10.2	C34D10.2	C34D10.2 [Source:RefSeq_peptide;Acc:NP_509350]			protein binding, zinc ion binding, nucleic acid binding, 
C34D10.1	C34D10.1	C34D10.1 [Source:RefSeq_peptide;Acc:NP_509351]			protein binding, structural molecule activity, 
C18A11.6	C18A11.6	C18A11.6 [Source:RefSeq_peptide;Acc:NP_509352]			
C18A11.t2	C18A11.t2				
C18A11.t1	C18A11.t1				
xol-1	C18A11.5	XO lethal protein 1. [Source:Uniprot/SWISSPROT;Acc:Q23229]	proteolysis, male sex determination, 	nucleus, 	ATP binding, subtilase activity, molecular_function, 
C18A11.4	C18A11.4	C18A11.4 [Source:RefSeq_peptide;Acc:NP_509354]	intracellular signaling cascade, 		
dim-1	C18A11.7	Disorganized muscle protein 1 (2D-page protein spot 8). [Source:Uniprot/SWISSPROT;Acc:Q18066]			protein binding, 
C18A11.3	C18A11.3	C18A11.3 [Source:RefSeq_peptide;Acc:NP_509356]			
C18A11.2	C18A11.2	C18A11.2 [Source:RefSeq_peptide;Acc:NP_509357]			
C18A11.1	C18A11.1	C18A11.1 [Source:RefSeq_peptide;Acc:NP_509358]			
C46F2.1	C46F2.1	C46F2.1 [Source:RefSeq_peptide;Acc:NP_509359]			
K07E3.4	K07E3.4	K07E3.4b [Source:RefSeq_peptide;Acc:NP_509360]	folic acid and derivative biosynthetic process, 		ATP binding, formate-tetrahydrofolate ligase activity, 
dao-3	K07E3.3	dao-3 encodes a protein containing tetrahydrofolate dehydrogenase/cyclohydrolase catalytic and NAD(P)-binding domains. by similarity to mammalian enzymes, DAO-3 is predicted to function in one-carbon unit metabolism and thus, in amino acid and nucleotide biosynthesis. dao-3 expression appears to be regulated by daf-2-mediated insulin signaling: microarray experiments suggest that it is upregulated in daf-2 mutant adults, while differential display and Northern analyses suggest that it is down-regulated. a dao-3 promoter gfp fusion is expressed in larvae in the hypodermis and in the nervous system, including tail neurons and phasmids. [Source: WormBase]	folic acid and derivative biosynthetic process, determination of adult life span, 		catalytic activity, 
vem-1	K07E3.8	VEMA (mammalian ventral midline antigen) related family member (vem-1) [Source:RefSeq_peptide;Acc:NP_001024769]			heme binding, transition metal ion binding, 
K07E3.7	K07E3.7	Probable cation-transporting ATPase K07E3.7 (EC 3.6.3.-). [Source:Uniprot/SWISSPROT;Acc:Q21286]	transport, metabolic process, cation transport, proton transport, 	membrane, integral to membrane, 	ATP binding, ATPase activity, catalytic activity, hydrolase activity, hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances, ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism, 
K07E3.2	K07E3.2	K07E3.2 [Source:RefSeq_peptide;Acc:NP_509365]			
K07E3.1	K07E3.1	K07E3.1 [Source:RefSeq_peptide;Acc:NP_509366]			
hlh-8	C02B8.4	The hlh-8 gene encodes a helix-loop-helix protein required for normal muscle development, and hence for normal defecation and egg-laying. [Source: WormBase]	regulation of transcription, oviposition, regulation of transcription from RNA polymerase II promoter, mesodermal cell fate specification, 	nucleus, 	transcription regulator activity, transcription activator activity, 
C02B8.5	C02B8.5	C02B8.5 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that C02B8.5 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C02B8.6	C02B8.6	Uncharacterized RING finger protein C02B8.6. [Source:Uniprot/SWISSPROT;Acc:Q11096]			protein binding, zinc ion binding, 
C02B8.7	C02B8.7	Uncharacterized protein C02B8.7. [Source:Uniprot/SWISSPROT;Acc:Q11097]			
C02B8.3	C02B8.3	Uncharacterized protein C02B8.3. [Source:Uniprot/SWISSPROT;Acc:Q11093]			
C02B8.2	C02B8.2	Uncharacterized protein C02B8.2. [Source:Uniprot/SWISSPROT;Acc:Q11092]			
C02B8.1	C02B8.1	Uncharacterized protein C02B8.1. [Source:Uniprot/SWISSPROT;Acc:Q11091]			
F22F1.t1	F22F1.t1				
F22F1.2	F22F1.2	F22F1.2 [Source:RefSeq_peptide;Acc:NP_509374]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F22F1.t9	F22F1.t9				
F22F1.t8	F22F1.t8				
F22F1.t2	F22F1.t2				
F22F1.t3	F22F1.t3				
F22F1.t4	F22F1.t4				
F22F1.t5	F22F1.t5				
F22F1.t6	F22F1.t6				
F22F1.t7	F22F1.t7				
hil-3	F22F1.1	Histone H1.3 (Histone H1-like protein 3). [Source:Uniprot/SWISSPROT;Acc:Q19743]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F22F1.3	F22F1.3	F22F1.3 [Source:RefSeq_peptide;Acc:NP_509376]	regulation of transcription, DNA-dependent, 		protein binding, transcription cofactor activity, 
C17H11.2	C17H11.2	C17H11.2 [Source:RefSeq_peptide;Acc:NP_509378]			
C17H11.1	C17H11.1	C17H11.1 [Source:RefSeq_peptide;Acc:NP_509379]	G-protein coupled receptor protein signaling pathway, DNA topological change, 	integral to membrane, chromosome, 	ATP binding, DNA binding, rhodopsin-like receptor activity, DNA topoisomerase (ATP-hydrolyzing) activity, 
C17H11.4	C17H11.4	C17H11.4 [Source:RefSeq_peptide;Acc:NP_509380]			
C17H11.5	C17H11.5	C17H11.5 [Source:RefSeq_peptide;Acc:NP_509381]			
C17H11.6	C17H11.6	C17H11.6c [Source:RefSeq_peptide;Acc:NP_001024416]			protein binding, zinc ion binding, 
cdd-1	C47D2.2	cdd-1 encodes a cytidine deaminase that contains a zinc-binding region. expressed in the intestine. [Source: WormBase]	cytidine metabolic process, 		zinc ion binding, hydrolase activity, cytidine deaminase activity, 
C47D2.1	C47D2.1	C47D2.1 [Source:RefSeq_peptide;Acc:NP_509385]			
K02A6.1	K02A6.1	K02A6.1 [Source:RefSeq_peptide;Acc:NP_509386]			
K02A6.2	K02A6.2	K02A6.2 [Source:RefSeq_peptide;Acc:NP_509387]			
K02A6.3	K02A6.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
M60.4	M60.4	M60.4b [Source:RefSeq_peptide;Acc:NP_001024816]			
M60.2	M60.2	M60.2 [Source:RefSeq_peptide;Acc:NP_509391]	defense response, 		
kqt-2	M60.5	kqt-2 encodes one of three C. elegans KCNQ-like potassium channel subunits for which mutations in humans are associated with heredity diseases that affect epithelial cells, cardiac muscle and neurons. a KQT-2::GFP fusion protein is expressed exclusively in the intestine. [Source: WormBase]	ion transport, potassium ion transport, defecation, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, voltage-gated potassium channel activity, 
M60.6	M60.6	M60.6 [Source:RefSeq_peptide;Acc:NP_509393]			
M60.7	M60.7	M60.7 [Source:RefSeq_peptide;Acc:NP_509394]	intracellular signaling cascade, 		
F13B9.6	F13B9.6	F13B9.6 [Source:RefSeq_peptide;Acc:NP_509395]			
ksr-1	F13B9.5	Kinase Suppressor of activated Ras family member (ksr-1) [Source:RefSeq_peptide;Acc:NP_509396]	intracellular signaling cascade, protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
fis-2	F13B9.8	S. cerevisiae FIS1-related family member (fis-2) [Source:RefSeq_peptide;Acc:NP_001024560]			binding, 
F13B9.2	F13B9.2	F13B9.2 [Source:RefSeq_peptide;Acc:NP_509398]			
F13B9.1	F13B9.1	F13B9.1 encodes two proteins by alternative splicing which contain both an immunoglobulin/MHC-like domain and a glutamine/asparagine-rich domain. [Source: WormBase]			
R09F10.3	R09F10.3	R09F10.3 [Source:RefSeq_peptide;Acc:NP_509401]	embryonic development ending in birth or egg hatching, 		
ced-13	R09F10.9	ced-13 encodes a 98-residue protein with a single BH3 domain, whose overexpression promotes CED-3/4-dependent apoptosis. CED-13 binds the Bcl-2 ortholog CED-9, and ced-13 is transcriptionally activated by the p53 ortholog CEP-1, and the ced-13 promoter contains several potential p53-binding sites. ced-13 mutations are mostly indistinguishable from wild-type, but may enhance the abnormal response to germline irradiation seen for egl-1 mutations. peptides containing the BH3 domains of either CED-13 or EGL-1 can dissociate stable CED-4/CED-9 heterotetramers in vitro if CED-9 is wild-type, but not if CED-9 has a gain-of-function G169E mutation. [Source: WormBase]			
inx-5	R09F10.4	inx-5 encodes a predicted member of the innexin family. expressed in the embryonic hypodermis, developing vulva, seam cells, and spermatheca. [Source: WormBase]		gap junction, 	
R09F10.5	R09F10.5	R09F10.5 [Source:RefSeq_peptide;Acc:NP_509404]			
srh-13	R09F10.10				
srh-12	R09F10.11				
srh-11	R09F10.6	Serpentine Receptor, class H family member (srh-11) [Source:RefSeq_peptide;Acc:NP_509405]	embryonic development ending in birth or egg hatching, 		
pqn-57	R09F10.7	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, 
abu-9	R09F10.2	abu-9 encodes a transmembrane protein (identical to that predicted for the pqn-57 gene) with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-9 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum, and ABU-9 may help protect the organism from damage by improperly folded nascent protein. [Source: WormBase]			protein binding, 
R09F10.1	R09F10.1	R09F10.1 [Source:RefSeq_peptide;Acc:NP_509408]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
R09F10.8	R09F10.8	R09F10.8 [Source:RefSeq_peptide;Acc:NP_509409]	embryonic development ending in birth or egg hatching, 		
F55E10.4	F55E10.4	F55E10.4 [Source:RefSeq_peptide;Acc:NP_509411]			
F55E10.5	F55E10.5	F55E10.5 [Source:RefSeq_peptide;Acc:NP_509412]			
F55E10.2	F55E10.2	F55E10.2 [Source:RefSeq_peptide;Acc:NP_509413]			
F55E10.1	F55E10.1	F55E10.1 [Source:RefSeq_peptide;Acc:NP_509414]			
F55E10.6	F55E10.6	F55E10.6 [Source:RefSeq_peptide;Acc:NP_509415]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F55E10.7	F55E10.7	F55E10.7 [Source:RefSeq_peptide;Acc:NP_509416]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F40B5.2	F40B5.2	Uncharacterized protein F40B5.2. [Source:Uniprot/SWISSPROT;Acc:Q09320]			hydrolase activity, 
F40B5.3	F40B5.3	F40B5.3 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F40B5.3 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F40B5.1	F40B5.1	F40B5.1 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F40B5.1 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	neprilysin activity, 
F41D9.1	F41D9.1	F41D9.1 [Source:RefSeq_peptide;Acc:NP_509421]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
F41D9.t4	F41D9.t4				
F41D9.2	F41D9.2	F41D9.2 [Source:RefSeq_peptide;Acc:NP_509422]	histidine catabolic process, carbohydrate catabolic process, 		catalytic activity, dopamine beta-monooxygenase activity, carbohydrate binding, 
F41D9.t1	F41D9.t1				
F41D9.t2	F41D9.t2				
wrk-1	F41D9.3	Wrapper/Rega-1/Klingon homolog family member (wrk-1) [Source:RefSeq_peptide;Acc:NP_001024649]	protein amino acid phosphorylation, 		ATP binding, vascular endothelial growth factor receptor activity, 
sulp-3	F41D9.5	sulp-3 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-3 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a sulp-3::GFP transcriptional fusion is expressed exclusively in the pharyngeal muscles. [Source: WormBase]	transport, sulfate transport, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, 
F41D9.t3	F41D9.t3				
F08F1.t3	F08F1.t3				
F08F1.9	F08F1.9	F08F1.9 [Source:RefSeq_peptide;Acc:NP_509425]			
F08F1.4	F08F1.4	F08F1.4b [Source:RefSeq_peptide;Acc:NP_001024537]			
ced-8	F08F1.5	The ced-8 gene encodes a homolog of the human putative membrane transporter XK. ced-8 is required for apoptosis to occur with normal speed during embryonic development. [Source: WormBase]	programmed cell death, 		transporter activity, 
spp-13	F08F1.6	SaPosin-like Protein family member (spp-13) [Source:RefSeq_peptide;Acc:NP_509428]			
F08F1.t2	F08F1.t2				
tag-123	F08F1.7	Temporarily Assigned Gene name family member (tag-123) [Source:RefSeq_peptide;Acc:NP_509429]		integral to membrane, 	
F08F1.t1	F08F1.t1				
tth-1	F08F1.8	tth-1 encodes a thymosin beta ortholog that contains four functionally distinct thymosin beta repeats. in vitro, TTH-1 binds multiple actin monomers as well as filamentous actin suggesting that, as its homology predicts, TTH-1 plays a direct role in regulating actin polymerization and cytoskeletal organization in C. elegans. consistent with this, loss of tth-1 activity via a deletion mutation that removes upstream sequences results in animals with a dumpy morphology that are sterile as a result of maternal effect lethality associated with deformed oocytes containing abnormally distributed actin. tth-1 mRNA is present throughout development, while TTH-1 protein is detected in the adult gonad in the inside edges of the membranous structures surrounding germline nuclei, the cytoplasm and cortex of oocytes, early embryos at points of cell contact, the developing nerve ring, and then throughout the larval and adult body, with specific enrichment in the intestine and spermatheca. [Source: WormBase]	cytoskeleton organization and biogenesis, 	cytoplasm, 	actin binding, 
F08F1.3	F08F1.3	F08F1.3 [Source:RefSeq_peptide;Acc:NP_509431]			
kin-9	F08F1.1	kin-9 encodes a predicted protein tyrosine kinase. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F16F9.1	F16F9.1	F16F9.1 [Source:RefSeq_peptide;Acc:NP_509434]			
dpy-6	F16F9.2	dpy-6 encodes a novel, conserved protein. dpy-6 activity is required for normal body morphology. [Source: WormBase]	positive regulation of multicellular organism growth, 		
F16F9.3	F16F9.3	F16F9.3 [Source:RefSeq_peptide;Acc:NP_509436]			calcium ion binding, 
F16F9.t1	F16F9.t1				
F16F9.4	F16F9.4	F16F9.4 [Source:RefSeq_peptide;Acc:NP_509437]	metabolic process, 		hydrolase activity, 
mec-10	F16F9.5	The mec-10 gene encodes an amiloride-sensitive Na+ channel protein (degenerin) required to sense gentle mechanical stimuli (e.g. touch) along the body wall. it is paralogous to mec-4, which has similar function in vivo. [Source: WormBase]	ion transport, sodium ion transport, mechanosensory behavior, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, 
nhr-14	T01B10.4	Nuclear hormone receptor family member nhr-14. [Source:Uniprot/SWISSPROT;Acc:O02151]	blood coagulation, regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, steroid binding, tRNA-pseudouridine synthase activity, thrombin receptor activity, 
T01B10.5	T01B10.5	T01B10.5 [Source:RefSeq_peptide;Acc:NP_509440]			
grd-14	T01B10.2	grd-14 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-14 is required for normal growth to full size, locomotion, and vulval morphogenesis. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
grd-4	T01B10.1	grd-4 encodes a hedgehog-like protein, with an N-terminal signal sequence and a C-terminal Ground domain. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-4 is weakly required for normal molting. GRD-4 is also required for normal adult alae formation, growth to full size, and locomotion. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]			
H03E18.1	H03E18.1	H03E18.1 [Source:RefSeq_peptide;Acc:NP_509443]			
H03E18.2	H03E18.2	H03E18.2 [Source:RefSeq_peptide;Acc:NP_509444]			
flp-5	C03G5.7	flp-5 encodes a predicted FMRFamide-like peptide neurotransmitter that increases action potential frequency in the pharyngeal muscle when applied to the pharynx of dissected worms. expressed in the sensory neurons ASE and PVM. [Source: WormBase]	neuropeptide signaling pathway, 		
nspc-1	C03G5.8	Nematode Specific Peptide family, group C family member (nspc-1) [Source:RefSeq_peptide;Acc:NP_001024352]			
nspc-2	C03G5.9	Nematode Specific Peptide family, group C family member (nspc-6) [Source:RefSeq_peptide;Acc:NP_001024350]			
nspc-3	C03G5.10	Nematode Specific Peptide family, group C family member (nspc-3) [Source:RefSeq_peptide;Acc:NP_001024347]			
nspc-4	C03G5.11	Nematode Specific Peptide family, group C family member (nspc-4) [Source:RefSeq_peptide;Acc:NP_001024348]			
nspc-5	C03G5.12	Nematode Specific Peptide family, group C family member (nspc-6) [Source:RefSeq_peptide;Acc:NP_001024350]			
nspc-6	C03G5.13	Nematode Specific Peptide family, group C family member (nspc-6) [Source:RefSeq_peptide;Acc:NP_001024350]			
nspc-7	C03G5.2	Nematode Specific Peptide family, group C family member (nspc-7) [Source:RefSeq_peptide;Acc:NP_741862]			
sdha-1	C03G5.1	C03G5.1 is orthologous to the human gene SUCCINATE DEHYDROGENASE COMPLEX, SUBUNIT A, FLAVOPROTEIN (SDHA. OMIM:600857), which when mutated leads to complex II mitochondrial respiratory chain deficiency presenting as Leigh syndrome. [Source: WormBase]	tricarboxylic acid cycle, electron transport, post-embryonic body morphogenesis, 	mitochondrial inner membrane, 	oxidoreductase activity, FAD binding, oxidoreductase activity, acting on the CH-CH group of donors, succinate dehydrogenase (ubiquinone) activity, 
D2021.4	D2021.4	D2021.4a [Source:RefSeq_peptide;Acc:NP_001041236]			acyl-CoA thioesterase activity, 
D2021.8	D2021.8	D2021.8 [Source:RefSeq_peptide;Acc:NP_509448]			
tag-233	D2021.2	Temporarily Assigned Gene name family member (tag-233) [Source:RefSeq_peptide;Acc:NP_001024514]			zinc ion binding, 
utx-1	D2021.1	D2021.1 [Source:RefSeq_peptide;Acc:NP_509450]	embryonic development ending in birth or egg hatching, 		binding, 
tag-279	F18E9.5	Temporarily Assigned Gene name family member (tag-279) [Source:RefSeq_peptide;Acc:NP_509451]			
F18E9.6	F18E9.6	F18E9.6 [Source:RefSeq_peptide;Acc:NP_509453]			
F18E9.8	F18E9.8	F18E9.8 [Source:RefSeq_peptide;Acc:NP_001041247]	protein secretion, 	membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
F18E9.4	F18E9.4	F18E9.4 [Source:RefSeq_peptide;Acc:NP_509454]			
F18E9.3	F18E9.3	F18E9.3 [Source:RefSeq_peptide;Acc:NP_509455]			
nlp-7	F18E9.2	Neuropeptide-Like Protein family member (nlp-7) [Source:RefSeq_peptide;Acc:NP_509456]			
F18E9.7	F18E9.7	F18E9.7 [Source:RefSeq_peptide;Acc:NP_509457]			
F18E9.1	F18E9.1	F18E9.1 [Source:RefSeq_peptide;Acc:NP_509458]			
H35N09.2	H35N09.2	H35N09.2 [Source:RefSeq_peptide;Acc:NP_509459]			
H35N09.1	H35N09.1	H35N09.1 [Source:RefSeq_peptide;Acc:NP_509460]			
H35N09.t2	H35N09.t2				
H35N09.t1	H35N09.t1				
K01A12.4	K01A12.4	M02D8.6 [Source:RefSeq_peptide;Acc:NP_741863]			
K01A12.2	K01A12.2	Uncharacterized protein K01A12.2. [Source:Uniprot/SWISSPROT;Acc:Q10041]			
K01A12.3	K01A12.3	Probable G-protein coupled receptor K01A12.3. [Source:Uniprot/SWISSPROT;Acc:Q10042]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
K01A12.t1	K01A12.t1				
K01A12.t5	K01A12.t5				
K01A12.t4	K01A12.t4				
K01A12.t2	K01A12.t2				
K01A12.t3	K01A12.t3				
F12D9.t6	F12D9.t6				
F12D9.t1	F12D9.t1				
F12D9.t5	F12D9.t5				
F12D9.1	F12D9.1	F12D9.1a [Source:RefSeq_peptide;Acc:NP_001024555]			
F12D9.t4	F12D9.t4				
F12D9.t2	F12D9.t2				
F12D9.2	F12D9.2	F12D9.2 [Source:RefSeq_peptide;Acc:NP_509465]			
F12D9.t3	F12D9.t3				
rig-1	K09E2.4	neuRonal IGCAM family member (rig-1) [Source:RefSeq_peptide;Acc:NP_001024778]	biological_process, 		
K09E2.2	K09E2.2	K09E2.2 [Source:RefSeq_peptide;Acc:NP_509468]			
K09E2.3	K09E2.3	K09E2.3 [Source:RefSeq_peptide;Acc:NP_509467]			
K09E2.1	K09E2.1	K09E2.1 [Source:RefSeq_peptide;Acc:NP_509469]			
F53A9.5	F53A9.5	F53A9.5 [Source:RefSeq_peptide;Acc:NP_509470]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F53A9.4	F53A9.4	F53A9.4 [Source:RefSeq_peptide;Acc:NP_509471]			
F53A9.3	F53A9.3	F53A9.3 [Source:RefSeq_peptide;Acc:NP_509472]			
F53A9.2	F53A9.2	F53A9.2 [Source:RefSeq_peptide;Acc:NP_509473]	proteolysis, 		protein binding, zinc ion binding, metallopeptidase activity, 
F53A9.1	F53A9.1	F53A9.1 [Source:RefSeq_peptide;Acc:NP_509474]	proteolysis, 		protein binding, zinc ion binding, metallopeptidase activity, 
F53A9.6	F53A9.6	F53A9.6 [Source:RefSeq_peptide;Acc:NP_509475]			
F53A9.7	F53A9.7	F53A9.7 [Source:RefSeq_peptide;Acc:NP_509476]			
F53A9.8	F53A9.8	F53A9.8 [Source:RefSeq_peptide;Acc:NP_509477]			
F53A9.9	F53A9.9	Uncharacterized protein F53A9.9. [Source:Uniprot/SWISSPROT;Acc:P50439]			
tnt-2	F53A9.10	TropoNin T family member (tnt-2) [Source:RefSeq_peptide;Acc:NP_001024704]	intracellular signaling cascade, positive regulation of growth rate, 		
EGAP4.1	EGAP4.1	Uncharacterized protein EGAP4.1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19077]			
M02D8.6	M02D8.6	M02D8.6 [Source:RefSeq_peptide;Acc:NP_741863]			
M02D8.3	M02D8.3	M02D8.3 [Source:RefSeq_peptide;Acc:NP_509481]			
M02D8.2	M02D8.2	M02D8.2 [Source:RefSeq_peptide;Acc:NP_509482]			
M02D8.7	M02D8.7	M02D8.7 [Source:RefSeq_peptide;Acc:NP_001024800]			
M02D8.4	M02D8.4	M02D8.4b [Source:RefSeq_peptide;Acc:NP_741865]	metabolic process, asparagine biosynthetic process, 		protein binding, asparagine synthase (glutamine-hydrolyzing) activity, 
M02D8.5	M02D8.5	M02D8.5 [Source:RefSeq_peptide;Acc:NP_509484]			
M02D8.1	M02D8.1	M02D8.1 [Source:RefSeq_peptide;Acc:NP_509485]			protein binding, 
ZK721.4	ZK721.4	ZK721.4 [Source:RefSeq_peptide;Acc:NP_509486]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZK721.3	ZK721.3	ZK721.3 [Source:RefSeq_peptide;Acc:NP_509487]			
unc-27	ZK721.2	unc-27 encodes a troponin I isoform. unc-27 is required for coordinated motility and normal muscle morphology. structural analyses indicate that unc-27 is required for proper sarcomeric organization. unc-27/troponin I interacts with the body wall and pharynx types of troponin C. expression studies show that unc-27 is expressed in body wall, vulval and anal muscles. [Source: WormBase]	locomotion, 		protein binding, calmodulin binding, 
tag-130	ZK721.1	tag-130 encodes a predicted transmembrane protein. as loss of tag-130 activity via RNAi does not result in any abnormalities, the precise role of TAG-130 in C. elegans development and/or behavior is not yet known. however, TAG-130 is homologous to SID-1, a channel protein required for systemic RNA interference, and thus TAG-130 may be predicted to also function as a channel. a tag-130 reporter fusion is widely expressed in larval and adult stages and detected in such tissues as body wall muscle, hypodermis, intestine, pharynx, and the gonad. [Source: WormBase]			
R04E5.7	R04E5.7	R04E5.7 [Source:RefSeq_peptide;Acc:NP_509490]			
R04E5.t6	R04E5.t6				
R04E5.8	R04E5.8	R04E5.8a [Source:RefSeq_peptide;Acc:NP_001024832]	cell adhesion, 	actin cytoskeleton, 	structural molecule activity, 
R04E5.9	R04E5.9	R04E5.9 [Source:RefSeq_peptide;Acc:NP_509492]			
R04E5.2	R04E5.2	R04E5.2 encodes a predicted transmembrane protein orthologous to human ACDP1-ACDP4 and S. cerevisiae MAM3, and paralogous to C01H6.6, C33D12.2, C52D10.12, M02F4.3, and R13G10.4. by orthology with MAM3, R04E5.2 may participate in metal homoeostasis. R04E5.2, MAM3, and ACDP1-ACDP4 belong to a family of proteins (sharing an ACD domain) from bacteria, yeast, plants, and metazoa. murine Acdp1 is a plasma membrane protein. bacterial proteins containing the ACD domain include CorC from Salmonella typhimurium, which is involved in magnesium and cobalt efflux. R04E5.2 has no obvious function in RNAi assays. [Source: WormBase]			
R04E5.t5	R04E5.t5				
R04E5.t4	R04E5.t4				
R04E5.t1	R04E5.t1				
R04E5.t3	R04E5.t3				
R04E5.t2	R04E5.t2				
ifd-1	R04E5.10	ifd-1 encodes two isoforms of a nonessential intermediate filament protein. IFD-1 is predicted to function as a structural component of the cytoskeleton. IFD-1 has no obvious function in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural molecule activity, 
C28G1.5	C28G1.5	C28G1.5 [Source:RefSeq_peptide;Acc:NP_509495]			protein binding, zinc ion binding, 
C28G1.6	C28G1.6	C28G1.6 [Source:RefSeq_peptide;Acc:NP_741866]		intracellular, 	protein binding, zinc ion binding, 
C28G1.3	C28G1.3	Probable exocyst complex component 6 (Exocyst complex component Sec15). [Source:Uniprot/SWISSPROT;Acc:Q18286]	vesicle docking during exocytosis, 	exocyst, 	
C28G1.t1	C28G1.t1				
C28G1.2	C28G1.2	C28G1.2 [Source:RefSeq_peptide;Acc:NP_509497]			serine-type endopeptidase inhibitor activity, 
C28G1.t4	C28G1.t4				
ubc-23	C28G1.1	ubc-23 encodes a predicted conjugating enzyme (UBCs/E2s) of the ubiquitin-conjugation system. expressed in larvae and adults in cells around the pharynx and in intestinal cells. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
C28G1.t3	C28G1.t3				
C28G1.t2	C28G1.t2				
C28G1.4	C28G1.4	C28G1.4 [Source:RefSeq_peptide;Acc:NP_509499]		intracellular, 	zinc ion binding, nucleic acid binding, 
C06E2.5	C06E2.5	C06E2.5 [Source:RefSeq_peptide;Acc:NP_509500]			
C06E2.9	C06E2.9	C06E2.9 [Source:RefSeq_peptide;Acc:NP_001033524]			
ins-9	C06E2.8	ins-9 encodes an insulin-like peptide of the insulin superfamily of proteins (OMIM:176730, 147440). INS-9 is one of 38 insulin-like peptides in C. elegans and although INS-9 overexpression can result in low levels of embryonic and larval lethality, the precise role of INS-9 in C. elegans development is not yet clear. INS-9 is expressed exclusively in the amphid sensory neurons ASI and ASJ that regulate dauer arrest, but INS-9 overexpression does not enhance dauer arrest in a wild-type or daf-2 mutant background. [Source: WormBase]		extracellular region, 	hormone activity, 
ubc-22	C06E2.7	ubc-22 encodes an E2 ubiquitin-conjugating enzyme orthologous to Saccharomyces cerevisiae UBC8 and human UBC1/HIP2 (Huntingtin interacting protein 2, OMIM:602846) which are involved in regulating fructose-1,6-bisphosphatase and huntingtin catabolism, respectively. by homology, UBC-22 is likely required for covalent attachment of ubiquitin to select target proteins to facilitate their degradation. however, as loss of UBC-22 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of UBC-22 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
ubc-21	C06E2.3	Probable ubiquitin-conjugating enzyme E2 21 (EC 6.3.2.19) (Ubiquitin- protein ligase 21) (Ubiquitin carrier protein 21). [Source:Uniprot/SWISSPROT;Acc:P52484]	protein modification process, ubiquitin cycle, 		small conjugating protein ligase activity, 
C06E2.1	C06E2.1	C06E2.1 [Source:RefSeq_peptide;Acc:NP_509503]		intracellular, 	zinc ion binding, nucleic acid binding, 
C06E2.t1	C06E2.t1				
C06E2.2	C06E2.2	C06E2.2 [Source:RefSeq_peptide;Acc:NP_509504]			
C13E3.1	C13E3.1	C13E3.1 [Source:RefSeq_peptide;Acc:NP_741867]	proteolysis, 		cysteine-type endopeptidase activity, 
D1009.3	D1009.3	D1009.3b [Source:RefSeq_peptide;Acc:NP_001024509]	signal transduction, 		receptor binding, 
cyn-8	D1009.2	cyn-8 encodes a peptidyl-propyl cis-trans isomerase of the cyclophilin family. cyclophilins are implicated in protein folding, however the precise role of cyn-8 is not known. a CYN-8-fusion protein localises specifically to gut cell nuclei. [Source: WormBase]	protein folding, 		peptidyl-prolyl cis-trans isomerase activity, 
nlp-14	D1009.4	Neuropeptide-Like Protein family member (nlp-14) [Source:RefSeq_peptide;Acc:NP_509508]	transport, 	membrane, 	transporter activity, 
D1009.t1	D1009.t1				
D1009.1	D1009.1	D1009.1a [Source:RefSeq_peptide;Acc:NP_509509]	metabolic process, 		catalytic activity, 
dylt-2	D1009.5	DYnein Light chain (Tctex type] family member (dylt-2) [Source:RefSeq_peptide;Acc:NP_509511]			
D1009.t2	D1009.t2				
trk-1	D1073.1	trk-1 encodes a receptor tyrosine kinase that is most closely related to the vertebrate neurotrophin receptors. [Source: WormBase]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C48C5.t6	C48C5.t6				
D1073.t1	D1073.t1				
C48C5.t4	C48C5.t4				
C48C5.3	C48C5.3	C48C5.3 [Source:RefSeq_peptide;Acc:NP_509514]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C48C5.t3	C48C5.t3				
C48C5.t1	C48C5.t1				
C48C5.t2	C48C5.t2				
C48C5.1	C48C5.1	C48C5.1 [Source:RefSeq_peptide;Acc:NP_509515]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, purinergic nucleotide receptor activity, G-protein coupled, neuromedin U receptor activity, 
twk-18	C24A3.6	twk-18 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. TWK-18 was originally defined by gain-of-function mutations that result in embryonic lethality at the two-fold stage, locomotion defects, longer than normal body length, abnormal egg-laying, and temperature-sensitive paralysis. as loss of TWK-18 function via reversion or RNA-mediated interference does not result in any abnormalities, TWK-18 likely functions redundantly with other TWK channels. TWK-18 can function as an outwardly rectifying K+ channel, and is activated by temperature increases, thus making it a temperature-gated channel. TWK-18 is expressed in body wall muscle. [Source: WormBase]	transcription, potassium ion transport, locomotion, 	membrane, 	DNA binding, DNA-directed RNA polymerase activity, potassium channel activity, 
C24A3.4	C24A3.4	C24A3.4 [Source:RefSeq_peptide;Acc:NP_509517]	metabolic process, 		oxidoreductase activity, catalytic activity, 
C24A3.2	C24A3.2	C24A3.2b [Source:RefSeq_peptide;Acc:NP_509518]			protein binding, 
C24A3.1	C24A3.1	C24A3.1 [Source:RefSeq_peptide;Acc:NP_509521]			
C24A3.8	C24A3.8	C24A3.8 [Source:RefSeq_peptide;Acc:NP_509522]			
C24A3.9	C24A3.9	C24A3.9 [Source:RefSeq_peptide;Acc:NP_001033527]			
T25B6.4	T25B6.4	T25B6.4 [Source:RefSeq_peptide;Acc:NP_509523]			
T25B6.5	T25B6.5	T25B6.5 [Source:RefSeq_peptide;Acc:NP_509524]			
T25B6.6	T25B6.6	T25B6.6 [Source:RefSeq_peptide;Acc:NP_509525]	carbohydrate metabolic process, 		hydrolase activity, hydrolyzing O-glycosyl compounds, 
T25B6.t2	T25B6.t2				
T25B6.t1	T25B6.t1				
T25B6.3	T25B6.3	T25B6.3 [Source:RefSeq_peptide;Acc:NP_509526]			
snf-12	T25B6.7	Sodium:Neurotransmitter symporter Family family member (snf-12) [Source:RefSeq_peptide;Acc:NP_509527]	neurotransmitter transport, 	membrane, integral to plasma membrane, 	neurotransmitter:sodium symporter activity, 
T25B6.2	T25B6.2	T25B6.2 encodes two isoforms of a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. T25B6.2 is orthologous to Ac-mep-1, a gut luminal neprilysin which is specifically expressed in the adult life stage of Ancylostoma caninum hookworms, and whose protein product is localized to the microvilli of the gastrointestinal tract, suggesting a role in digestion. [Source: WormBase]	proteolysis, methylation, 	membrane, 	zinc ion binding, metallopeptidase activity, methyltransferase activity, nucleic acid binding, neprilysin activity, 
T25B6.1	T25B6.1	T25B6.1 [Source:RefSeq_peptide;Acc:NP_509529]			
F47E1.3	F47E1.3	F47E1.3 [Source:RefSeq_peptide;Acc:NP_509530]		intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
F47E1.2	F47E1.2	F47E1.2 [Source:RefSeq_peptide;Acc:NP_509531]	transport, 	membrane, 	transporter activity, 
F47E1.t3	F47E1.t3				
F47E1.4	F47E1.4	F47E1.4 [Source:RefSeq_peptide;Acc:NP_509532]	transport, embryonic development ending in birth or egg hatching, 	membrane, 	transporter activity, 
F47E1.1	F47E1.1	F47E1.1 [Source:RefSeq_peptide;Acc:NP_509533]			
F47E1.t2	F47E1.t2				
F47E1.t1	F47E1.t1				
F47E1.5	F47E1.5	F47E1.5 [Source:RefSeq_peptide;Acc:NP_001041253]			
H08J11.2	H08J11.2	H08J11.2 [Source:RefSeq_peptide;Acc:NP_509534]			
H08J11.t5	H08J11.t5				
H08J11.t1	H08J11.t1				
H08J11.t4	H08J11.t4				
H08J11.t2	H08J11.t2				
H08J11.t3	H08J11.t3				
ajm-1	C25A11.4	ajm-1 encodes a member of the apical junction molecule class that is required for correct elongation of the C. elegans embryo. AJM-1 contains a coiled-coil motif. AJM-1 binds DLG-1 in vitro, in yeast two-hybrid assays, and in vivo. AJM-1 is mislocalized in a dlg-1(RNAi) background. LET-413 is required for rapid confinement of DLG-1 and AJM-1 to a narrow apical region in C. elegans epithelia. CLC-1 colocalizes with AJM-1. vab-9 mutations enhance the adhesion defects of ajm-1 mutants. ajm-1 is expressed at the apical borders of all epithelia. [Source: WormBase]	embryonic development, positive regulation of growth rate, 		zinc ion binding, cytoskeletal protein binding, 
C25A11.2	C25A11.2	C25A11.2 [Source:RefSeq_peptide;Acc:NP_509539]	embryonic development ending in birth or egg hatching, 		protein binding, 
C25A11.1	C25A11.1	C25A11.1 [Source:RefSeq_peptide;Acc:NP_509540]			
B0563.6	B0563.6	Probable G-protein coupled receptor B0563.6. [Source:Uniprot/SWISSPROT;Acc:Q11082]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
B0563.5	B0563.5	Uncharacterized protein B0563.5. [Source:Uniprot/SWISSPROT;Acc:Q11081]			
tmbi-4	B0563.4	Putative protein tag-132. [Source:Uniprot/SWISSPROT;Acc:Q11080]			
B0563.7	B0563.7	Uncharacterized calcium-binding protein B0563.7. [Source:Uniprot/SWISSPROT;Acc:Q11083]	ciliary or flagellar motility, 	flagellin-based flagellum, 	calcium ion binding, 
tsp-11	B0563.2	B0563.2 [Source:RefSeq_peptide;Acc:NP_509546]		integral to membrane, 	
B0563.9	B0563.9	B0563.9 [Source:RefSeq_peptide;Acc:NP_001041212]			
B0563.1	B0563.1	Uncharacterized protein B0563.1. [Source:Uniprot/SWISSPROT;Acc:Q11078]			
B0563.8	B0563.8	Uncharacterized protein B0563.8. [Source:Uniprot/SWISSPROT;Acc:Q11084]			
Y81B9A.4	Y81B9A.4	Y81B9A.4 [Source:RefSeq_peptide;Acc:NP_001033574]			
Y81B9A.3	Y81B9A.3	Y81B9A.3 [Source:RefSeq_peptide;Acc:NP_509549]			
Y81B9A.2	Y81B9A.2	Y81B9A.2 [Source:RefSeq_peptide;Acc:NP_509550]			
Y81B9A.1	Y81B9A.1	Y81B9A.1 [Source:RefSeq_peptide;Acc:NP_509551]			
C35B8.4	C35B8.4	C35B8.4 [Source:RefSeq_peptide;Acc:NP_001041224]			
C35B8.3	C35B8.3	C35B8.3b [Source:RefSeq_peptide;Acc:NP_001024443]			
vav-1	C35B8.2	vav-1 encodes an ortholog of the Vav proto-oncogene, a complex protein with several domains, from N- to C-terminus: a calponin-like actin-binding domain. a RhoGEF/DH domain. a pleckstrin-like domain. a SH2 motif domain. and an SH3 domain. [Source: WormBase]	intracellular signaling cascade, regulation of Rho protein signal transduction, 	intracellular, phosphoinositide 3-kinase complex, 	phosphoinositide 3-kinase regulator activity, Rho guanyl-nucleotide exchange factor activity, guanyl-nucleotide exchange factor activity, 
col-175	C35B8.1	COLlagen family member (col-175) [Source:RefSeq_peptide;Acc:NP_509555]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
lgc-4	F18G5.4	Uncharacterized acetylcholine receptor-like protein F18G5.4 precursor. [Source:Uniprot/SWISSPROT;Acc:P54245]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
F18G5.t1	F18G5.t1				
F18G5.t2	F18G5.t2				
gpa-12	F18G5.3	gpa-12 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases. it is expressed in the pharynx and in the hypodermis. [Source: WormBase]	signal transduction, small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
pes-8	F18G5.2	pes-8 encodes a novel protein that contains a proline-rich region and a predicted transmembrane domain, but no otherwise recognizably conserved domains. pes-8 was identified in promoter trapping screens and based on large-scale RNA-mediated interference (RNAi) screens, appears to be required for egg laying, germline development, locomotion, and regulation of adult lifespan. a pes-8 reporter is expressed at the cell surfaces of the spermathecal valve cell, the uterine wall, the vulva, and the rectal epithelium. strong expression is also detected in the uterus during its development. PES-8 may be required for normal morphology of the openings of the spermathecal valve, the vulva, and the rectum, a hypothesis consistent with its expression pattern and RNAi phenotype. [Source: WormBase]	biological_process, 		
F18G5.5	F18G5.5	F18G5.5 [Source:RefSeq_peptide;Acc:NP_509559]			
F18G5.1	F18G5.1	F18G5.1 [Source:RefSeq_peptide;Acc:NP_509560]			
F18G5.6	F18G5.6	F18G5.6 [Source:RefSeq_peptide;Acc:NP_509561]			
B0416.5	B0416.5	Uncharacterized protein B0416.5. [Source:Uniprot/SWISSPROT;Acc:Q11073]	positive regulation of growth rate, 	membrane, 	GABA-B receptor activity, 
B0416.4	B0416.4	Uncharacterized RING finger protein B0416.4. [Source:Uniprot/SWISSPROT;Acc:Q11072]	intracellular signaling cascade, 		protein binding, zinc ion binding, 
B0416.3	B0416.3	Uncharacterized protein B0416.3. [Source:Uniprot/SWISSPROT;Acc:Q11071]			
gly-13	B0416.6	gly-13 encodes an experimentally verified UDP-N-acetylglucosamine alpha-3-D-mannoside beta-1,2-N-acetylglucosaminyltransferase I (GnT I), that is the primary GnT I enzyme in vivo, and that can act on unusual substrates. gly-13 is expressed throughout development in many cell types. gly-13 has no obvious function in vivo, since a deletion allele of gly-13 is phenotypically normal even as a double or triple mutant with gly-12 and gly-14. [Source: WormBase]	protein amino acid N-linked glycosylation, 	Golgi membrane, 	alpha-1,3-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity, 
B0416.7	B0416.7	Uncharacterized protein B0416.7. [Source:Uniprot/SWISSPROT;Acc:Q11074]			
B0416.2	B0416.2	Uncharacterized protein B0416.2 precursor. [Source:Uniprot/SWISSPROT;Acc:Q11070]			
B0416.1	B0416.1	TMC family membrane protein B0416.1. [Source:Uniprot/SWISSPROT;Acc:Q11069]		integral to membrane, 	
H29C22.1	H29C22.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2V8C8]			
F35G8.2	F35G8.2	F35G8.2 [Source:RefSeq_peptide;Acc:NP_001041248]			
F35G8.1	F35G8.1	F35G8.1 [Source:RefSeq_peptide;Acc:NP_509570]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, neuropeptide receptor activity, 
T20B5.2	T20B5.2	T20B5.2 [Source:RefSeq_peptide;Acc:NP_509571]			
apa-2	T20B5.1	apa-2 encodes an adaptin: specifically, it encodes an ortholog of the alpha subunit of adaptor protein complex 2 (AP-2). [Source: WormBase]	intracellular protein transport, protein complex assembly, vesicle-mediated transport, locomotory behavior, 	clathrin adaptor complex, membrane coat, 	protein transporter activity, protein binding, protein C-terminus binding, 
oga-1	T20B5.3	oga-1 encodes an ortholog of mammalian O-linked N-acetylglucosamine (O-GlcNAc)-selective N-acetyl-beta-D-glucosaminidase (O-GlcNAcase). a polymorphism of OGA-1's human ortholog MGEA5 is associated with type 2 diabetes, and OGA-1 appears to be required for fine-tuning of insulin signalling. oga-1(ok1207) mutants are viable and fertile but accumulate O-GlcNAc on nuclear pores and other proteins, while showing S/T-phosphorylation of proteins, increased GSK-3beta activity, excess glycogen and trehalose, and decreased lipid storage. oga-1(ok1207) mutations enhance the Daf-c phenotype of daf-2(e1370ts) alleles even under conditions where oga-1(ok1207) alone diminishes dauer formation. [Source: WormBase]			
flp-20	E01H11.3	flp-20 encodes two copies of a single FMRFamide-related short peptide neurotransmitter. the precise role of this peptide in C. elegans neurotransmission is not yet known. [Source: WormBase]			
E01H11.4	E01H11.4	E01H11.4 [Source:RefSeq_peptide;Acc:NP_001041238]			
pkc-2	E01H11.1	pkc-2 is orthologous to the human gene PROTEIN KINASE C ALPHA (AA 1-672) (PRKCA. OMIM:176960), which when mutated leads to disease. [Source: WormBase]	intracellular signaling cascade, transport, protein amino acid phosphorylation, 	membrane, synaptic vesicle, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, transporter activity, 
E01H11.t1	E01H11.t1				
C23F12.4	C23F12.4	C23F12.4 [Source:RefSeq_peptide;Acc:NP_509577]			
C23F12.3	C23F12.3	C23F12.3 [Source:RefSeq_peptide;Acc:NP_509578]			
flna-2	C23F12.2	C23F12.2 [Source:RefSeq_peptide;Acc:NP_509579]	locomotory behavior, 		
flna-1	C23F12.1	FiLamiN (actin binding protein) Alpha family member (flna-1) [Source:RefSeq_peptide;Acc:NP_509581]	morphogenesis of an epithelium, 	proteinaceous extracellular matrix, 	
B0272.4	B0272.4	Uncharacterized protein B0272.4. [Source:Uniprot/SWISSPROT;Acc:P41942]	metabolic process, 		protein binding, catalytic activity, 
B0272.3	B0272.3	Probable 3-hydroxyacyl-CoA dehydrogenase B0272.3 (EC 1.1.1.35). [Source:Uniprot/SWISSPROT;Acc:P41938]	potassium ion transport, fatty acid metabolic process, glycerol-3-phosphate metabolic process, 	glycerol-3-phosphate dehydrogenase complex, 	oxidoreductase activity, cation transmembrane transporter activity, glycerol-3-phosphate dehydrogenase (NAD+) activity, 
tbb-4	B0272.1	Tubulin beta-4 chain (Beta-4 tubulin). [Source:Uniprot/SWISSPROT;Acc:P41937]	microtubule-based process, microtubule-based movement, protein polymerization, embryonic development ending in birth or egg hatching, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
B0272.2	B0272.2	Probable Golgi SNAP receptor complex member 2. [Source:Uniprot/SWISSPROT;Acc:P41941]	intracellular protein transport, embryonic development ending in birth or egg hatching, 	membrane, 	protein binding, 
ZK899.1	ZK899.1	ZK899.1 [Source:RefSeq_peptide;Acc:NP_509587]			
ZK899.7	ZK899.7	ZK899.7 [Source:RefSeq_peptide;Acc:NP_509588]			
ZK899.2	ZK899.2	ZK899.2 [Source:RefSeq_peptide;Acc:NP_509589]	positive regulation of growth rate, 		
ZK899.3	ZK899.3	ZK899.3 [Source:RefSeq_peptide;Acc:NP_509590]			
tba-8	ZK899.4	tba-8 encodes a member of the alpha tubulin family with high similarity to the human tubulin alpha-6 chain. expressed in some neurons with occasional expression in the hypodermis. [Source: WormBase]	microtubule-based process, microtubule-based movement, protein polymerization, 	cytoplasm, microtubule, protein complex, 	GTP binding, GTPase activity, structural molecule activity, 
ZK899.5	ZK899.5	ZK899.5 [Source:RefSeq_peptide;Acc:NP_509592]			protein binding, calcium ion binding, 
ZK899.6	ZK899.6	ZK899.6 [Source:RefSeq_peptide;Acc:NP_509593]			
ZK899.t1	ZK899.t1				
gap-2	ZK899.8	gap-2 encodes a Ras GTPase-activating protein (RasGAP) that is orthologous to mammalian nGAP and synGAP (OMIM:606136, OMIM:603384, synGAP is essential for postnatal survival and neuronal development). by homology, GAP-2 is predicted to function as a negative regulator of Ras signaling by enhancing the intrinsically weak Ras GTPase activity. gap-2 loss-of-function mutations partially suppress the larval lethality of let-23 and let-60 loss-of-function mutations, supporting a role for gap-2 in negative regulation of Ras signaling in vivo. gap-2 can encode at least eight different isoforms that appear to be expressed in a wide variety of tissues including the vulva, gonad, pharynx, neurons, and blast/rectal cells of the tail. [Source: WormBase]	regulation of small GTPase mediated signal transduction, reproduction, negative regulation of Ras protein signal transduction, 	cytoplasm, intracellular, 	GTPase activator activity, Ras GTPase activator activity, 
C07B5.2	C07B5.2	C07B5.2 [Source:RefSeq_peptide;Acc:NP_509600]			
C07B5.6	C07B5.6	C07B5.6 [Source:RefSeq_peptide;Acc:NP_509601]			
C07B5.3	C07B5.3	C07B5.3 [Source:RefSeq_peptide;Acc:NP_509602]			
C07B5.4	C07B5.4	C07B5.4a [Source:RefSeq_peptide;Acc:NP_001024370]			
nuc-1	C07B5.5	The nuc-1 gene encodes a DNase II homolog similar to mammalian and Drosophila DNaseII enzymes and is required for DNA degradation during apoptosis as well as for degradation of dietary DNA during normal feeding. during apoptosis, NUC-1 functions in apoptotic cells at an intermediate stage of DNA degradation, after the killing step, but prior to cell-corpse engulfment. [Source: WormBase]	DNA metabolic process, determination of adult life span, 	intracellular, nucleus, 	deoxyribonuclease II activity, 
F49E2.5	F49E2.5	F49E2.5j [Source:RefSeq_peptide;Acc:NP_001024695]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
F49E2.t1	F49E2.t1				
F49E2.1	F49E2.1	F49E2.1 is orthologous to the human gene MOLYBDENUM COFACTOR SYNTHESIS-STEP 1 PROTEIN A-B SPLICE TYPE III (MOCS1. OMIM:603707), which when mutated leads to disease [Source: WormBase]	Mo-molybdopterin cofactor biosynthetic process, positive regulation of growth rate, 	molybdopterin synthase complex, 	4 iron, 4 sulfur cluster binding, metal ion binding, catalytic activity, iron-sulfur cluster binding, 
F49E2.2	F49E2.2	F49E2.2b [Source:RefSeq_peptide;Acc:NP_741877]			protein binding, 
F49E2.4	F49E2.4	F49E2.4 [Source:RefSeq_peptide;Acc:NP_509614]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
C11E4.1	C11E4.1	Glutathione peroxidase. [Source:Uniprot/SPTREMBL;Acc:Q93204]	response to oxidative stress, 		glutathione peroxidase activity, 
C11E4.2	C11E4.2	Glutathione peroxidase precursor (EC 1.11.1.9). [Source:Uniprot/SWISSPROT;Acc:Q95003]	response to oxidative stress, 		glutathione peroxidase activity, 
tag-263	C11E4.3	Temporarily Assigned Gene name family member (tag-263) [Source:RefSeq_peptide;Acc:NP_509617]	sodium ion transport, 	membrane, 	sodium channel activity, 
C11E4.4	C11E4.4	C11E4.4 [Source:RefSeq_peptide;Acc:NP_509618]	sodium ion transport, 	membrane, 	sodium channel activity, 
C11E4.6	C11E4.6	C11E4.6 [Source:RefSeq_peptide;Acc:NP_509620]	reproduction, 		protein binding, 
C11E4.7	C11E4.7	C11E4.7 [Source:RefSeq_peptide;Acc:NP_509621]			
C11E4.t1	C11E4.t1				
C11E4.8	C11E4.8	C11E4.8 [Source:RefSeq_peptide;Acc:NP_001024387]			
F34H10.1	F34H10.1	Probable ribosomal protein F34H10.1. [Source:Uniprot/SWISSPROT;Acc:Q09557]			
F34H10.2	F34H10.2	F34H10.2 [Source:RefSeq_peptide;Acc:NP_509623]			
F34H10.3	F34H10.3	F34H10.3 [Source:RefSeq_peptide;Acc:NP_509624]			
F34H10.5	F34H10.5	F34H10.5 [Source:RefSeq_peptide;Acc:NP_001024627]			
F34H10.t1	F34H10.t1				
F34H10.4	F34H10.4	Uncharacterized protein F34H10.4. [Source:Uniprot/SWISSPROT;Acc:Q09317]	electron transport, 	microsome, 	flavin-containing monooxygenase activity, 
T14B1.2	T14B1.2	T14B1.2 [Source:RefSeq_peptide;Acc:NP_509626]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
T14B1.1	T14B1.1	T14B1.1 [Source:RefSeq_peptide;Acc:NP_509627]			
ifp-1	C43C3.1	ifp-1 encodes a nonessential intermediate filament protein. IFP-1 is predicted to function as a structural component of the cytoskeleton. IFP-1 has no obvious function in RNAi assays. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, structural molecule activity, 
C43C3.2	C43C3.2	Probable G-protein coupled receptor C43C3.2. [Source:Uniprot/SWISSPROT;Acc:Q09502]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
dyf-8	C43C3.3	dyf-8 encodes a protein predicted to form a cell-surface ligand with a zona pellucida domain. DYF-8 is required for permeability of amphid and phasmid neurons to external dyes, chemotaxis to ammonium chloride, avoidance of high osmotic stimuli, male mating, and dauer formation. [Source: WormBase]	peptide cross-linking, 		protein-glutamine gamma-glutamyltransferase activity, 
F15G9.1	F15G9.1	Uncharacterized protein F15G9.1. [Source:Uniprot/SWISSPROT;Acc:Q10033]			
F15G9.3	F15G9.3	Uncharacterized protein F15G9.3. [Source:Uniprot/SWISSPROT;Acc:Q10035]			
F15G9.6	F15G9.6	F15G9.6 [Source:RefSeq_peptide;Acc:NP_001024583]			
F15G9.2	F15G9.2	Uncharacterized protein F15G9.2. [Source:Uniprot/SWISSPROT;Acc:Q10034]			
him-4	F15G9.4	The him-4 gene encodes a large (5198-residue) extracellular protein, called 'hemicentin', that belongs to the immunoglobulin superfamily. [Source: WormBase]	protein amino acid phosphorylation, cell adhesion, morphogenesis of an epithelium, 	membrane, 	ATP binding, calcium ion binding, vascular endothelial growth factor receptor activity, enzyme inhibitor activity, 
F15G9.5	F15G9.5	Uncharacterized protein F15G9.5. [Source:Uniprot/SWISSPROT;Acc:Q10037]			
F15G9.t1	F15G9.t1				
F15G9.t2	F15G9.t2				
T09B9.1	T09B9.1	T09B9.1 [Source:RefSeq_peptide;Acc:NP_001024899]	metabolic process, 		hydrolase activity, 
T09B9.3	T09B9.3	Uncharacterized protein T09B9.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q10049]	glycerol metabolic process, 		glycerophosphodiester phosphodiesterase activity, 
T09B9.2	T09B9.2	T09B9.2 [Source:RefSeq_peptide;Acc:NP_509639]	transport, phosphate transport, 	integral to membrane, 	transporter activity, phosphate transmembrane transporter activity, 
T09B9.4	T09B9.4	T09B9.4 is orthologous to the human gene PUTATIVE CYTOSKELETAL PROTEIN (D10S170. OMIM:601985), which when mutated leads to disease. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		protein binding, 
T09B9.5	T09B9.5	Uncharacterized protein T09B9.5. [Source:Uniprot/SWISSPROT;Acc:Q09351]			
F36G3.1	F36G3.1	Uncharacterized protein F36G3.1. [Source:Uniprot/SWISSPROT;Acc:Q09560]			protein binding, oxidoreductase activity, transition metal ion binding, 
F36G3.2	F36G3.2	Uncharacterized protein F36G3.2. [Source:Uniprot/SWISSPROT;Acc:Q09318]	metabolic process, 		protein binding, N-acetyltransferase activity, 
F36G3.3	F36G3.3	F36G3.3 [Source:RefSeq_peptide;Acc:NP_001024633]			
F47A4.1	F47A4.1	F47A4.1a [Source:RefSeq_peptide;Acc:NP_741879]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
dpy-22	F47A4.2	dpy-22 encodes a broadly expressed protein, homologous to the human transcriptional mediator protein TRAP230, which is involved in WNT and RAS signaling, as well as in dosage compensation. DPY-22 has a C-terminal glutamine-rich domain that is dispensable for inhibition of RAS-dependent cell differentiation, but is required for inhibition of BAR-1-dependent gene expression. [Source: WormBase]	positive regulation of multicellular organism growth, 	proteinaceous extracellular matrix, 	
rrc-1	F47A4.3	F47A4.3a [Source:RefSeq_peptide;Acc:NP_001024683]	signal transduction, 	intracellular, 	
F47A4.t1	F47A4.t1				
F47A4.5	F47A4.5	F47A4.5 [Source:RefSeq_peptide;Acc:NP_509647]	transport, lipid metabolic process, 	outer membrane-bounded periplasmic space, 	transporter activity, 
vab-15	R07B1.1	The vab-15 gene encodes a msh-like homeobox gene that appears required for production of touch cell precursors, and that is orthologous to the human gene MSH HOMEO BOX HOMOLOG 1 (MSX1. OMIM:142983) which when mutated leads to disease. [Source: WormBase]	regulation of transcription, DNA-dependent, reproduction, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
lec-8	R07B1.10	Probable galaptin lec-8. [Source:Uniprot/SWISSPROT;Acc:Q09610]			sugar binding, 
lec-7	R07B1.2	Probable galaptin lec-7. [Source:Uniprot/SWISSPROT;Acc:Q09605]			sugar binding, 
R07B1.11	R07B1.11	R07B1.11 [Source:RefSeq_peptide;Acc:NP_001024836]			
R07B1.3	R07B1.3	Uncharacterized protein R07B1.3. [Source:Uniprot/SWISSPROT;Acc:Q09606]	cell adhesion, 	membrane, 	
gst-36	R07B1.4	Probable glutathione S-transferase gst-36 (EC 2.5.1.18) (GST class- sigma). [Source:Uniprot/SWISSPROT;Acc:Q09607]	metabolic process, 	cellular_component, 	protein binding, glutathione transferase activity, 
R07B1.5	R07B1.5	Uncharacterized protein R07B1.5 precursor. [Source:Uniprot/SWISSPROT;Acc:Q09419]			
R07B1.6	R07B1.6	Uncharacterized protein R07B1.6. [Source:Uniprot/SWISSPROT;Acc:Q09420]			
R07B1.7	R07B1.7	Uncharacterized protein R07B1.7. [Source:Uniprot/SWISSPROT;Acc:Q09421]			
R07B1.8	R07B1.8	Uncharacterized protein R07B1.8. [Source:Uniprot/SWISSPROT;Acc:Q09608]			GTP binding, 
glo-1	R07B1.12	glo-1 encodes a member of the Rab family of small GTPases that is similar to the vertebrate Rab32 and Rab38 proteins and Drosophila Rab-RP1/Lightoid. throughout development, glo-1 activity is required for biogenesis of the lysosome-related gut granules. in addition, glo-1 activity is required during embryonic development for normal body morphogenesis. in regulating gut granule formation, glo-1 acts downstream of apb-3 which encodes the AP-3 complex beta subunits. GLO-1 reporter fusions and antibodies indicate that GLO-1 is expressed in embryonic and adult intestinal cells, beginning at the E2 stage of intestinal development. within intestinal cells, GLO-1 colocalizes with lysosome-related gut granules. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, G-protein coupled receptor protein signaling pathway, DNA replication initiation, lysosome organization and biogenesis, 	intracellular, 	ATP binding, protein binding, GTP binding, GTPase activity, signal transducer activity, DNA binding, guanyl nucleotide binding, DNA-dependent ATPase activity, 
R07B1.9	R07B1.9	Uncharacterized protein R07B1.9. [Source:Uniprot/SWISSPROT;Acc:Q09609]			
mrp-4	F21G4.2	mrp-4 encodes a putative member of subfamily C of the ATP-binding cassette transporters. MRP-4 is required, redundantly with its paralog C10C6.5, for sperm to normally migrate towards a PUFA-based signal exuded by oocytes. hermaphrodites subjected to double C10C6.5(RNAi) mrp-4(RNAi) are infertile, both through aberrant loss of their own sperm and through failure of males to effectively inseminate them. in mammalian eicosanoid signalling, subfamily C ABC transporters are required for PUFA and eicosanoid transport. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, transporter activity, 
F21G4.1	F21G4.1	F21G4.1 [Source:RefSeq_peptide;Acc:NP_509659]	transport, cell surface receptor linked signal transduction, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, non-G-protein coupled 7TM receptor activity, sodium:dicarboxylate symporter activity, 
F21G4.3	F21G4.3	F21G4.3 [Source:RefSeq_peptide;Acc:NP_509660]			
F21G4.4	F21G4.4	F21G4.4 [Source:RefSeq_peptide;Acc:NP_509661]			protein binding, zinc ion binding, 
F21G4.5	F21G4.5	F21G4.5 [Source:RefSeq_peptide;Acc:NP_509662]			nucleic acid binding, 
F21G4.6	F21G4.6	F21G4.6 is orthologous to the human gene HUNTINGTIN (HD. OMIM:143100), which when mutated leads to disease. [Source: WormBase]			
C17G1.1	C17G1.1	C17G1.1 [Source:RefSeq_peptide;Acc:NP_509664]			
C17G1.2	C17G1.2	C17G1.2 [Source:RefSeq_peptide;Acc:NP_509665]			
ugt-23	C17G1.3	C17G1.3a [Source:RefSeq_peptide;Acc:NP_001076755]	metabolic process, carbohydrate metabolic process, lipid glycosylation, 		transferase activity, transferring hexosyl groups, carbohydrate binding, 
C17G1.4	C17G1.4	C17G1.4b [Source:RefSeq_peptide;Acc:NP_001024412]	proteolysis, 	membrane, 	protein binding, zinc ion binding, serine-type peptidase activity, 
C17G1.8	C17G1.8	C17G1.8 [Source:RefSeq_peptide;Acc:NP_001024415]		integral to membrane, 	
C17G1.5	C17G1.5	C17G1.5 [Source:RefSeq_peptide;Acc:NP_509668]			
nas-37	C17G1.6	nas-37 encodes a Astacin-class metalloprotease required for full ecdysis that is expressed in hypodermal cells 4 hours before each ecdysis. NAS-37 protein has an N-terminal signal sequence followed by an Astacin protease domain and three protein-binding domains (EGF-like, CUB, and thrombospondin). NAS-37 accumulates in anterior cuticle, being shed with it after ecdysis. nas-37 mutants fail to complete anterior ecdysis at each molt. nas-37(ox196) mutations alter an evolutionarily invariant histidine residue yet are phenotypically indistinguishable from null mutations, consistent with the hypothesis that NAS-37 encodes a functional protease. NAS-37 orthologs are found in other nematodes such as Brugia malayi. [Source: WormBase]	proteolysis, post-embryonic body morphogenesis, collagen and cuticulin-based cuticle development, 		metallopeptidase activity, astacin activity, 
C17G1.7	C17G1.7	C17G1.7 [Source:RefSeq_peptide;Acc:NP_509670]	metabolic process, cysteine biosynthetic process from serine, 		catalytic activity, pyridoxal phosphate binding, cysteine synthase activity, 
ZC506.1	ZC506.1	ZC506.1 [Source:RefSeq_peptide;Acc:NP_509671]		membrane, 	calcium ion binding, mannosyl-oligosaccharide 1,2-alpha-mannosidase activity, 
pssy-1	ZC506.3	PhosphatidylSerine SYnthase family member (pssy-1) [Source:RefSeq_peptide;Acc:NP_509673]	phosphatidylserine biosynthetic process, positive regulation of multicellular organism growth, 		
mgl-1	ZC506.4	mgl-1 encodes a Group II metabotropic glutamate receptor (OMIM:604099, loss-of-function mutations in mice are associated with defects in long-term depression). by homology, MGL-1 is predicted to function as a pre-synaptic G protein-coupled receptor that, in response to glutamate binding, inhibits adenylyl cyclase activity. loss of mgl-1 activity via large-scale RNAi screens indicates that, in C. elegans, MGL-1 is required for normal post-embryonic growth rates. an mgl-1::GFP reporter is expressed in interneurons, motor neurons, and pharyngeal neurons. [Source: WormBase]		membrane, 	G-protein coupled receptor activity, metabotropic glutamate, GABA-B-like receptor activity, 
F19C6.5	F19C6.5	Uncharacterized protein F19C6.5. [Source:Uniprot/SWISSPROT;Acc:Q09308]			
grk-1	F19C6.1	grk-1 encodes a serine/threonine protein kinase that is most closely related to G protein-coupled receptor (GPCR) kinases. [Source: WormBase]	protein amino acid phosphorylation, signal transduction, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, signal transducer activity, G-protein coupled receptor kinase activity, 
F19C6.2	F19C6.2	Uncharacterized protein F19C6.2. [Source:Uniprot/SWISSPROT;Acc:Q09307]			
F19C6.3	F19C6.3	F19C6.3 [Source:RefSeq_peptide;Acc:NP_509679]			calcium ion binding, 
F19C6.4	F19C6.4	F19C6.4 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F19C6.4 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, 	membrane, 	zinc ion binding, metallopeptidase activity, neprilysin activity, 
F42G10.1	F42G10.1	F42G10.1 encodes a neprilysin. neprilysins are thermolysin-like zinc metallopeptidases, found on the outer surface of animal cells, that negatively regulate small signalling peptides (e.g., enkephalin, tachykinin, insulin, and natriuretic peptides) by cleaving them. F42G10.1 has no clear orthologs in other organisms. [Source: WormBase]	proteolysis, biological_process, 	membrane, cellular_component, 	neprilysin activity, molecular_function, 
F42G10.t1	F42G10.t1				
mkk-4	F42G10.2	mkk-4 encodes a MAP (mitogen-activated protein) kinase kinase that is a member of the MKK4 family of MAPKK's. MKK-4 activity is required in presynaptic neurons, in a dose-dependent manner, for normal presynaptic development and morphology. in regulating presynaptic organization, MKK-4 acts upstream of PMK-3/MAPK and downstream of DLK-1/MAPKKK, whose levels are negatively regulated by the RPM-1 ubiquitin ligase. a functional MKK-4::GFP fusion protein is expressed in the cytoplasm of many neurons as well as in other cell types, including the pharyngeal muscles. [Source: WormBase]	protein amino acid phosphorylation, regulation of synapse organization and biogenesis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
VZC374L.1	VZC374L.1	VZC374L.1 [Source:RefSeq_peptide;Acc:NP_509683]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZC374.2	ZC374.2	ZC374.2 [Source:RefSeq_peptide;Acc:NP_509684]			
ZC374.1	ZC374.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q23265]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ZC373.1	ZC373.1	The ZC373.1 gene encodes an ortholog of the human gene CYSTATHIONINE-BETA-SYNTHASE (CBS), which when mutated leads to homocystinuria (OMIM:236200). [Source: WormBase]	metabolic process, electron transport, 		oxidoreductase activity, catalytic activity, pyridoxal phosphate binding, 
ZC373.2	ZC373.2	ZC373.2 [Source:RefSeq_peptide;Acc:NP_509687]			
ZC373.3	ZC373.3	ZC373.3 [Source:RefSeq_peptide;Acc:NP_509688]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZC373.4	ZC373.4	ZC373.4 [Source:RefSeq_peptide;Acc:NP_509689]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ZC373.5	ZC373.5	ZC373.5 [Source:RefSeq_peptide;Acc:NP_509690]	locomotory behavior, 		metal ion binding, 
dao-4	ZC373.6	Dauer or Aging adult Overexpression family member (dao-4) [Source:RefSeq_peptide;Acc:NP_509691]			
col-176	ZC373.7	COLlagen family member (col-176) [Source:RefSeq_peptide;Acc:NP_509692]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
W07E11.1	W07E11.1	W07E11.1 [Source:RefSeq_peptide;Acc:NP_509693]	metabolic process, electron transport, nitrogen compound metabolic process, glutamate biosynthetic process, embryonic development ending in birth or egg hatching, 		oxidoreductase activity, FAD binding, oxidoreductase activity, acting on the CH-NH2 group of donors, NAD or NADP as acceptor, glutamate synthase activity, 
W07E11.4	W07E11.4	W07E11.4 [Source:RefSeq_peptide;Acc:NP_001024947]			
flp-3	W07E11.2	flp-3 encodes nine copies of a GTMRFamide-containing peptide that is predicted to function as a neuropeptide that inhibits pharyngeal action potential in a manner similar to octopamine without having a significant effect on basal resting membrane potential. expressed in three pairs of neurons IL1D, OL1, URB. [Source: WormBase]	neuropeptide signaling pathway, 	extracellular region, 	hormone activity, 
flp-2	W07E11.3	flp-2 encodes a predicted FMRFamide-like peptide neurotransmitter. expressed in the pharyngeal neuron I5. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
unc-58	T06H11.1	unc-58 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. unc-58 was originally defined by gain-of-function (gf) mutations that result in paralysis and a shortened (dumpy) body morphology due to hypercontraction of body wall muscle. unc-58 gf mutations also result in constitutive egg-laying. as loss of UNC-58 function via reversion or RNA-mediated interference (RNAi) results in either no abnormalities or only a weakly uncoordinated phenotype, UNC-58 likely functions redudantly with other TWK channels to regulate locomotion and egg-laying. UNC-58 is expressed in motor neurons and interneurons. [Source: WormBase]	potassium ion transport, locomotion, 	membrane, cellular_component, 	potassium channel activity, 
T06H11.5	T06H11.5	T06H11.5 [Source:RefSeq_peptide;Acc:NP_001024887]			
T06H11.t1	T06H11.t1				
T06H11.2	T06H11.2	T06H11.2 [Source:RefSeq_peptide;Acc:NP_509699]			
T06H11.t2	T06H11.t2				
T06H11.t3	T06H11.t3				
moc-1	T06H11.4	moc-1 encodes an ortholog of human GEPHYRIN (GPHN. OMIM:603930), which when mutated leads to molybdenum cofactor (MoCo) deficiency. MOC-1 is also paralogous to LIN-46. [Source: WormBase]	Mo-molybdopterin cofactor biosynthetic process, 		
F09B9.1	F09B9.1	F09B9.1 [Source:RefSeq_peptide;Acc:NP_509701]			transferase activity, transferring groups other than amino-acyl groups, 
F09B9.t1	F09B9.t1				
unc-115	F09B9.2	unc-115 encodes a protein that binds actin filaments and that is required for RAS signalling and UNC-40/netrin activity during axon pathfinding. [Source: WormBase]	cytoskeleton organization and biogenesis, negative regulation of multicellular organism growth, 		zinc ion binding, actin binding, 
F09B9.t2	F09B9.t2				
F09B9.5	F09B9.5	F09B9.5 [Source:RefSeq_peptide;Acc:NP_001024544]		extracellular region, 	
erd-2	F09B9.3	erd-2 encodes a protein with homology to human ER lumen protein retaining receptor 1. [Source: WormBase]	protein retention in ER, 	integral to membrane, 	ER retention sequence binding, 
F09B9.4	F09B9.4	F09B9.4 [Source:RefSeq_peptide;Acc:NP_509704]			
C07A4.1	C07A4.1				nucleotide binding, nucleic acid binding, 
C07A4.2	C07A4.2	C07A4.2 [Source:RefSeq_peptide;Acc:NP_509706]		extracellular region, 	
C07A4.3	C07A4.3	C07A4.3 [Source:RefSeq_peptide;Acc:NP_509707]		extracellular region, 	
F21A10.1	F21A10.1	F21A10.1 [Source:RefSeq_peptide;Acc:NP_509708]			calcium ion binding, 
F21A10.2	F21A10.2	F21A10.2c [Source:RefSeq_peptide;Acc:NP_509709]			
F21A10.4	F21A10.4	F21A10.4 [Source:RefSeq_peptide;Acc:NP_509710]			
nucb-1	F44A6.1	F44A6.1 encodes two isoforms of a nucleobindin homolog that each contain a calcium-binding EF-hand domain and a glutamine/asparagine-rich domain. F44A6.1 is expressed in muscle (pharyngeal, body wall, and vulval), with weak expression in head and tail neurons and in (mainly posterior) intestinal cells. F44A6.1 has no obvious function in vivo, since it has no obvious phenotype when deleted or inactivated by RNAi (whether in a normal genetic background, or in goa-1 and egl-30 mutant backgrounds). [Source: WormBase]			calcium ion binding, 
sex-1	F44A6.2	sex-1 encodes a DNA-binding protein that is a member of the nuclear hormone receptor superfamily of transcriptional regulators. during embryonic development, SEX-1 functions as an X chromosome signal element that transmits the primary sex-determination signal by negatively regulating transcription of xol-1, a gene whose expression levels correlate with hermaphrodite or male development (low xol-1 levels result in hermaphrodite development, high xol-1, in that of males). in vivo, SEX-1 can associate with extrachromosomal arrays containing the xol-1 promoter, indicating that SEX-1's affect on xol-1 transcription is likely to be direct. SEX-1 localizes to nuclei from oogenesis through mid-embryogenesis, with highest levels of expression visible during early gastrulation (28-100-cell-stage). the SEX-1 expression pattern appears to be similar in hermaphrodites and males. [Source: WormBase]	regulation of transcription, DNA-dependent, embryonic development ending in birth or egg hatching, sex determination, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F44A6.3	F44A6.3	F44A6.3 [Source:RefSeq_peptide;Acc:NP_509715]			
F44A6.4	F44A6.4	F44A6.4 [Source:RefSeq_peptide;Acc:NP_509716]			
F44A6.5	F44A6.5	F44A6.5 [Source:RefSeq_peptide;Acc:NP_509717]			
C14H10.3	C14H10.3	C14H10.3 [Source:RefSeq_peptide;Acc:NP_509718]			carboxy-lyase activity, 
C14H10.1	C14H10.1	C14H10.1 [Source:RefSeq_peptide;Acc:NP_509719]	metal ion transport, 	membrane, 	metal ion transmembrane transporter activity, 
str-74	C14H10.4	Seven TM Receptor family member (str-74) [Source:RefSeq_peptide;Acc:NP_509720]			
C14H10.2	C14H10.2	C14H10.2a [Source:RefSeq_peptide;Acc:NP_001076753]			protein binding, 
C32A9.1	C32A9.1	C32A9.1 [Source:RefSeq_peptide;Acc:NP_509722]			
F41E7.2	F41E7.2	F41E7.2 [Source:RefSeq_peptide;Acc:NP_509723]	dicarboxylic acid transport, regulation of pH, 	membrane, integral to membrane, 	sodium:dicarboxylate symporter activity, solute:hydrogen antiporter activity, 
F41E7.1	F41E7.1	F41E7.1 [Source:RefSeq_peptide;Acc:NP_509724]	regulation of pH, morphogenesis of an epithelium, 	integral to membrane, 	solute:hydrogen antiporter activity, 
F41E7.3	F41E7.3	F41E7.3 [Source:RefSeq_peptide;Acc:NP_509725]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
fip-5	F41E7.4	F41E7.4 [Source:RefSeq_peptide;Acc:NP_509726]			nutrient reservoir activity, 
fipr-21	F41E7.5	F41E7.5 [Source:RefSeq_peptide;Acc:NP_509727]			
cnc-8	F41E7.8	CaeNaCin (Caenorhabditis bacteriocin) family member (cnc-8) [Source:RefSeq_peptide;Acc:NP_509728]			
F41E7.6	F41E7.6	F41E7.6 [Source:RefSeq_peptide;Acc:NP_509729]			acyltransferase activity, 
F41E7.7	F41E7.7	F41E7.7 [Source:RefSeq_peptide;Acc:NP_509730]			
F41E7.9	F41E7.9	F41E7.9 [Source:RefSeq_peptide;Acc:NP_001024652]	regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, 
R07E3.6	R07E3.6	R07E3.6 [Source:RefSeq_peptide;Acc:NP_509731]			
acl-5	R07E3.5	acl-5 encodes two phosphate acyltransferases. ACL-5 proteins are predicted to function in phospholipid biosynthesis, but as loss of acl-5 activity via large-scale RNAi experiments results in no obvious defects, the precise role of ACL-5 in C. elegans development and/or behavior is not yet known. acl-5 expression can be detected in body wall muscle and some unidentified cells in the head. [Source: WormBase]	metabolic process, 		acyltransferase activity, 
R07E3.4	R07E3.4	R07E3.4 [Source:RefSeq_peptide;Acc:NP_509733]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
cut-5	R07E3.3	R07E3.3 [Source:RefSeq_peptide;Acc:NP_509734]	positive regulation of multicellular organism growth, 		
R07E3.2	R07E3.2	R07E3.2 [Source:RefSeq_peptide;Acc:NP_509735]			
R07E3.1	R07E3.1	R07E3.1a [Source:RefSeq_peptide;Acc:NP_001041280]	proteolysis, 		cysteine-type peptidase activity, cysteine-type endopeptidase activity, 
R07E3.7	R07E3.7	R07E3.7 [Source:RefSeq_peptide;Acc:NP_509737]			protein binding, 
Y49A10A.1	Y49A10A.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q9XWW8]			
Y49A10A.2	Y49A10A.2	Y49A10A.2 [Source:RefSeq_peptide;Acc:NP_001076776]			
F46F6.1	F46F6.1	F46F6.1a [Source:RefSeq_peptide;Acc:NP_509739]			
dyf-6	F46F6.4	dyf-6 encodes several proteins that, while novel, contain orthologs in Drosophila and mammals. during development, dyf-6 activity is essential for establishing the normal dendritic length of the amphid and phasmid chemosensory neurons. a DYF-6::GFP reporter is expressed in amphid and phasmid neurons where it: 1) localizes to dendritic bodies and endings as well as to cell bodies, and 2) appears to undergo intraflagellar transport (IFT). DYF-6::GFP is also seen in hypodermal cells and in additional neurons, including inner labial neurons and a lateral neuron in the vicinity of PDE. genetic mosaic analyses indicate that dyf-6 functions autonomously at the level of the amphid dendritic bundle to regulate proper dendritic morphology. [Source: WormBase]			
F46F6.2	F46F6.2	F46F6.2 [Source:RefSeq_peptide;Acc:NP_509742]	protein amino acid phosphorylation, signal transduction, 	intracellular, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
gur-3	ZC504.5	gur-3 encodes a predicted seven-transmembrane protein related to the gustatory class of receptors in Drosophila. [Source: WormBase]			
ZC504.1	ZC504.1	ZC504.1 [Source:RefSeq_peptide;Acc:NP_509744]			serine-type endopeptidase inhibitor activity, 
acr-8	ZC504.2	acr-8 encodes an alpha subunit of nicotinic acetylcholine receptor (nAChR). ACR-8 falls into the 'ACR-8' class of nAChR subunits, which includes ACR-12 and ACR-13. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
ZC504.3	ZC504.3	ZC504.3 [Source:RefSeq_peptide;Acc:NP_509746]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, MAP kinase activity, 
mig-15	ZC504.4	The mig-15 gene encodes a Nck-interacting kinase (NIK) that is required to inhibit premature branching of commissures. [Source: WormBase]	protein amino acid phosphorylation, cell migration, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, small GTPase regulator activity, 
C39B10.3	C39B10.3	C39B10.3 [Source:RefSeq_peptide;Acc:NP_509750]			
C39B10.4	C39B10.4	C39B10.4 [Source:RefSeq_peptide;Acc:NP_509751]			
C39B10.5	C39B10.5	C39B10.5 [Source:RefSeq_peptide;Acc:NP_509752]			
C39B10.2	C39B10.2	C39B10.2 [Source:RefSeq_peptide;Acc:NP_509753]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, GABA-A receptor activity, 
C39B10.1	C39B10.1	C39B10.1 [Source:RefSeq_peptide;Acc:NP_509754]	G-protein coupled receptor protein signaling pathway, oviposition, 	integral to membrane, 	rhodopsin-like receptor activity, 
elt-4	C39B10.6	elt-4 encodes an unusually small (74-residue) GATA factor, that is expressed in embryonic gut and that may have a minor role in gut development. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
elt-2	C33D3.1	elt-2 encodes a GATA-type transcription factor most similar to the vertebrate GATA4-6 transcription factors required for cardiac and endoderm development (OMIM:601656, 600576). in C. elegans, ELT-2 is required redundantly with ELT-7 for initiating and maintaining terminal differentiation of the intestine. ELT-2 is expressed solely in the intestine, beginning embryonically at the 2E-cell stage and continuing in all intestinal cells throughout the life of the animal. in the regulatory hierarchy controlling endoderm development, ELT-2 lies downstream of the maternal regulators SKN-1 and POP-1 and the embryonic GATA factors MED-1/-2, and END-1/-3. in turn, ELT-2, along with ELT-7, likely regulates transcription of a number of intestine-specific terminal differentiation genes such as ges-1, ifb-2, pha-4, and the stress-induced mtl-2. ELT-2 also positively autoregulates, presumably to ensure maintenance of intestinal differentiation [Source: WormBase]	regulation of transcription, DNA-dependent, growth, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
C33D3.3	C33D3.3	C33D3.3 [Source:RefSeq_peptide;Acc:NP_509756]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
C33D3.4	C33D3.4	C33D3.4 [Source:RefSeq_peptide;Acc:NP_509757]			
C33D3.5	C33D3.5	C33D3.5 [Source:RefSeq_peptide;Acc:NP_741889]			
C33D3.2	C33D3.2				
vab-3	F14F3.1	vab-3 encodes a homeodomain protein that is the C. elegans Pax-6 orthologue. during development, vab-3 activity is required for proper patterning of anterior (head) hypodermal cells. vab-3 effects head development, in part, through positively regulating transcription of ceh-32, a Six/sine oculis class homeobox gene coexpressed with vab-3 in head hypodermis. [Source: WormBase]	regulation of transcription, DNA-dependent, multicellular organismal development, anterior/posterior pattern formation, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
F14F3.4	F14F3.4	F14F3.4 [Source:RefSeq_peptide;Acc:NP_001024573]			
tag-289	F14F3.3	Temporarily Assigned Gene name family member (tag-289) [Source:RefSeq_peptide;Acc:NP_509760]			
git-1	F14F3.2	GIT1 (mammalian G-protein-coupled receptor kinase InTeractor 1) homolog family member (git-1) [Source:RefSeq_peptide;Acc:NP_509761]	regulation of GTPase activity, 		
F14F3.5	F14F3.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A6ZJ57]			
F59F5.1	F59F5.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q21044]			secondary active monocarboxylate transmembrane transporter activity, 
F59F5.2	F59F5.2	Uncharacterized protein F59F5.2. [Source:Uniprot/SWISSPROT;Acc:Q21045]			
F59F5.8	F59F5.8	F59F5.8 [Source:RefSeq_peptide;Acc:NP_509764]			
F59F5.3	F59F5.3	F59F5.3 [Source:RefSeq_peptide;Acc:NP_509765]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F59F5.4	F59F5.4	F59F5.4 [Source:RefSeq_peptide;Acc:NP_509766]			
F59F5.5	F59F5.5	F59F5.5 (F59F5.5) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_077366]			
syd-2	F59F5.6	syd-2 encodes alpha-liprin, a member of the liprin family of proteins that interact with LAR (leukocyte common antigen related)-type receptor tyrosine phosphatases (RPTPs) to facilitate clustering of RPTPs to focal adhesions. SYD-2 is required for establishing normal presynaptic density, and is expressed in all neurons and muscles. SYD-2 is required cell autonomously in neurons for differentiation of presynaptic active zones, where SYD-2 is localized. [Source: WormBase]	signal transduction, muscle development, synapse organization and biogenesis, 	intracellular, 	protein binding, structural molecule activity, 
F59F5.7	F59F5.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q20949]			
F57C7.1	F57C7.1	F57C7.1a [Source:RefSeq_peptide;Acc:NP_509770]			
nhx-5	F57C7.2	nhx-5 encodes a sodium/proton exchanger expressed intracellularly in many neurons, as well as in the vulC cells of the vulva and the excretory cell. nhx-5 has no obvious phenotype in mass RNAi screens. NHX-5 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of vesicular sodium for an intracellular proton. the granular intracellular expression of NHX-5::GFP suggests association with some cytoplasmic organelle specifically required for neuronal function. [Source: WormBase]	sodium ion transport, regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
F57C7.4	F57C7.4	F57C7.4 [Source:RefSeq_peptide;Acc:NP_509774]			
sdn-1	F57C7.3	sdn-1 encodes a homolog of vertebrate syndecan-2, a type I transmembrane heparan sulfate proteoglycan. by homology, SDN-1 is predicted to play a role in cell-cell and cell-matrix adhesion. loss of sdn-1 activity via RNA-mediated interference (RNAi) indicates that SDN-1 is required for backward locomotion and for normal development of the egg-laying system, particularly gonadal and vulval structures. SDN-1 is expressed in a subset of neuronal cell bodies and their associated processes in the nerve ring, and also in select tail neurons. [Source: WormBase]		membrane, 	cytoskeletal protein binding, 
flp-19	M79.4	FMRF-Like Peptide family member (flp-19) [Source:RefSeq_peptide;Acc:NP_509776]			
abl-1	M79.1	abl-1 encodes, by alternative splicing, three isoforms of a Src homology (SH) 2 and 3 domain-containing non-receptor tyrosine kinase orthologous to human ABL1 (OMIM:189980, mutated in chronic myeloid leukemia) and ABL2 (OMIM:164690). ABL-1 inhibits germline apoptosis induced by radiation or by natural aging, but it has no effect on apoptosis induced by starvation or by chemical mutagens (ethylnitrosourea, ethylmethanesulfonate, cisplatin, etoposide), or on constitutive ('physiological') germline apoptosis. at the same time, ABL-1 is required for germline apoptosis induced by oxidative, osmotic or heat-shock stress, and is also required for pathogenesis by Shigella flexneri infecting the intestine. ABL-1-inhibited apoptosis is confined to a single gonad arm undergoing radiation, having no nonautonomous effect on the unirradiated arm. abl-1 is expressed in the germline, in most or all cells of early embryos, and in postembryonic pharynx, tail ganglia and ventral nerve cord. abl-1(ok171) mutants are hypersensitive to germline apoptosis and resistant to S. flexneri infection. both abl-1(ok171) phenotypes are phenocopied by c-ABL inhibitors such as STI-571 (Gleevec). ABL-1-inhibited apoptosis requires active CED-3 and EGL-1, inactive CED-9, and active AKT-1, CEP-1, CLK-1, HUS-1, and MRT-2. abl-1(ok171) has no effect on somatic apoptosis, and abl-1(ok171) mutants are generally normal. abl-1 transcripts are enriched in cultured unc-4::GFP neurons. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, negative regulation of apoptosis, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
M79.3	M79.3	M79.3 [Source:RefSeq_peptide;Acc:NP_509780]	metabolic process, 		acyltransferase activity, 
M79.2	M79.2	M79.2 [Source:RefSeq_peptide;Acc:NP_509781]			
daf-12	F11A1.3	daf-12 encodes a member of the steroid hormone receptor superfamily that affects dauer formation downstream of the TGF- and insulin signaling pathways, and affects gonad-dependent adult longevity together with DAF-16, chemosensory signal transduction, and distal tip cell migration and hypodermal and intestinal cell lineages during the L3 larval stage. expressed in the nucleus and in most cells. DAF-12 is homologous to human VITAMIN D RECEPTOR (VDR. OMIM:601769, mutated in vitamin D-resistant rickets. [Source: WormBase]	regulation of transcription, DNA-dependent, negative regulation of multicellular organism growth, regulation of development, heterochronic, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F11A1.2	F11A1.2	F11A1.2 [Source:RefSeq_peptide;Acc:NP_509783]			
F11A1.t2	F11A1.t2				
F11A1.t1	F11A1.t1				
F13E6.2	F13E6.2	F13E6.2 [Source:RefSeq_peptide;Acc:NP_509786]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, positive regulation of growth rate, 		ATP binding, nucleotide kinase activity, 
F13E6.1	F13E6.1	Uncharacterized protein F13E6.1. [Source:Uniprot/SWISSPROT;Acc:P55326]			protein binding, 
F13E6.3	F13E6.3	F13E6.3 [Source:RefSeq_peptide;Acc:NP_509788]			protein binding, zinc ion binding, oxidoreductase activity, 
F13E6.4	F13E6.4	F13E6.4 [Source:RefSeq_peptide;Acc:NP_509789]	hermaphrodite genitalia development, 		protein binding, 
F13E6.5	F13E6.5	F13E6.5 [Source:RefSeq_peptide;Acc:NP_509790]			
rhgf-1	F13E6.6	tag-118/F13E6.6 is orthologous to the human gene RHO GUANINE NUCLEOTIDE EXCHANGE FACTOR 12 (ARHGEF12. OMIM:604763), which, when fused to the MLL gene (OMIM:159555), leads to primary acute myeloid leukemia. [Source: WormBase]	intracellular signaling cascade, regulation of Rho protein signal transduction, embryonic development ending in birth or egg hatching, 	intracellular, 	protein binding, signal transducer activity, Rho guanyl-nucleotide exchange factor activity, 
T01C1.4	T01C1.4	T01C1.4 [Source:RefSeq_peptide;Acc:NP_741895]			
mbr-1	T01C1.2	honeybee MBlk-1 Related factor family member (mbr-1) [Source:RefSeq_peptide;Acc:NP_509794]		nucleus, 	DNA binding, 
T01C1.t1	T01C1.t1				
egl-36	R07A4.1	egl-36 encodes a Shaw-type voltage-gated potassium channel that regulates egg laying and defecation. expression of egl-36::gfp reporters is observed in several different cell types including muscle cells such as the uterine and vulval egg-laying muscles, sensory, motor and interneurons, and the distal tip cells of the gonad. when expressed in a heterologous system, EGL-36 exhibits channel activity. [Source: WormBase]	ion transport, potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	ion channel activity, protein binding, voltage-gated potassium channel activity, 
R07A4.2	R07A4.2	R07A4.2 [Source:RefSeq_peptide;Acc:NP_509796]			
R07A4.4	R07A4.4	R07A4.4 [Source:RefSeq_peptide;Acc:NP_509797]	protein amino acid phosphorylation, 		ATP binding, protein-tyrosine kinase activity, 
R07A4.3	R07A4.3	R07A4.3 [Source:RefSeq_peptide;Acc:NP_509798]			
sma-9	T05A10.1	sma-9 encodes, by alternative splicing, at least two large (~2000-residue) protein with at least three N-terminal involucrin domains, seven C-terminal zinc-finger domains, and a glutamine/asparagine-rich domain. SMA-9 is orthologous to human HIVEP1 (OMIM:194540), HIVEP2 (OMIM:143054), and HIVEP3 (OMIM:606649), and to Drosophila SCHNURRI (FBgn0003396). SMA-9 proteins are required for growth to normally large body size. [Source: WormBase]	positive regulation of multicellular organism growth, transforming growth factor beta receptor signaling pathway, 	intracellular, nucleus, 	protein binding, zinc ion binding, nucleic acid binding, 
clc-4	T05A10.2	clc-4 encodes a claudin homolog that may be required for normal cohesion of apical junctions in epithelia. CLC-4 is worm-specific, with obvious homologs only in C. elegans. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. [Source: WormBase]			
T05A10.3	T05A10.3	T05A10.3 [Source:RefSeq_peptide;Acc:NP_509801]	immune response, reproduction, antigen processing and presentation, 	membrane, 	
T05A10.5	T05A10.5	T05A10.5 [Source:RefSeq_peptide;Acc:NP_509802]		extracellular region, 	
T05A10.4	T05A10.4	T05A10.4 [Source:RefSeq_peptide;Acc:NP_509803]		extracellular region, 	calcium ion binding, 
T05A10.6	T05A10.6	T05A10.6 [Source:RefSeq_peptide;Acc:NP_509804]			
plc-1	F31B12.1	plc-1 encodes a predicted phospholipase C that affects fertility and possesses two functional domains not commonly seen in other phospholipases: a C-terminal Ras-associating domain with structural similarity to RalGDS and AF-6, and an N-terminal CDC25-like domain that possesses structural homology to guanine nucleotide exchange proteins for Ras. [Source: WormBase]	intracellular signaling cascade, signal transduction, small GTPase mediated signal transduction, lipid metabolic process, reproduction, 	intracellular, 	calcium ion binding, phosphoinositide phospholipase C activity, phospholipase C activity, guanyl-nucleotide exchange factor activity, 
F31B12.4	F31B12.4	F31B12.4 [Source:RefSeq_peptide;Acc:NP_001024620]			
frm-9	F31B12.3	frm-9 encodes a B41/ERM (ezrin/radixin/moesin) domain containing protein. [Source: WormBase]		cytoskeleton, 	
F31B12.2	F31B12.2	F31B12.2 [Source:RefSeq_peptide;Acc:NP_509807]			
F31B12.t1	F31B12.t1				
C05A9.3	C05A9.3	C05A9.3 [Source:RefSeq_peptide;Acc:NP_509808]			
C05A9.2	C05A9.2	C05A9.2 [Source:RefSeq_peptide;Acc:NP_509809]			
pgp-5	C05A9.1	pgp-5 encodes a transmembrane protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. by homology, PGP-5 is predicted to function as an ATP-dependent efflux pump that protects C. elegans by exporting exogenous toxins. however, as loss of pgp-5 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of PGP-5 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pgp-8	T21E8.3	pgp-8 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-8 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-8 activity via RNAi results in no obvious defects, the precise role of PGP-8 in C. elegans development and/or behavior is not yet known. pgp-8 promoter-gfp fusion proteins are expressed in adult head neurons. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pgp-7	T21E8.2	pgp-7 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-7 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-7 activity via RNAi results in no obvious defects, the precise role of PGP-7 in C. elegans development and/or behavior is not yet known. pgp-7 promoter-gfp fusion proteins are expressed in the rays of the adult male tail. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pgp-6	T21E8.1	pgp-6 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-6 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-6 activity via RNAi results in no obvious defects, the precise role of PGP-6 in C. elegans development and/or behavior is not yet known. pgp-6 promoter-gfp fusion proteins are expressed larvae and adults in the amphids, pharynx, intestine, and other unidentified cells in the head. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
T21E8.4	T21E8.4	T21E8.4 [Source:RefSeq_peptide;Acc:NP_509814]			
T21E8.5	T21E8.5	T21E8.5 [Source:RefSeq_peptide;Acc:NP_509815]			
F47B10.6	F47B10.6	F47B10.6 [Source:RefSeq_peptide;Acc:NP_509816]			
F47B10.5	F47B10.5	F47B10.5 [Source:RefSeq_peptide;Acc:NP_509817]			
F47B10.4	F47B10.4	F47B10.4 [Source:RefSeq_peptide;Acc:NP_509818]			
F47B10.3	F47B10.3	F47B10.3 (F47B10.3) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_077418]			
F47B10.2	F47B10.2	F47B10.2 is orthologous to the human gene HISTIDASE (HAL. OMIM:235800), which when mutated leads to disease. [Source: WormBase]	biosynthetic process, histidine catabolic process, 	cytoplasm, 	protein binding, catalytic activity, histidine ammonia-lyase activity, ammonia ligase activity, 
F47B10.1	F47B10.1	Probable succinyl-CoA ligase [ADP-forming] beta-chain, mitochondrial precursor (EC 6.2.1.5) (Succinyl-CoA synthetase, betaA chain) (SCS- betaA) (ATP-specific succinyl-CoA synthetase subunit beta). [Source:Uniprot/SWISSPROT;Acc:P53588]	metabolic process, 		catalytic activity, 
acbp-3	F47B10.7	Acyl-CoA-binding protein homolog 3 (ACBP-3). [Source:Uniprot/SWISSPROT;Acc:Q20507]			acyl-CoA binding, 
F47B10.8	F47B10.8	F47B10.8 [Source:RefSeq_peptide;Acc:NP_509823]			
F47B10.9	F47B10.9	F47B10.9 [Source:RefSeq_peptide;Acc:NP_509824]			
T21B6.5	T21B6.5	T21B6.5 [Source:RefSeq_peptide;Acc:NP_509825]			
dgn-1	T21B6.1	DystroGlycaN family member (dgn-1) [Source:RefSeq_peptide;Acc:NP_509826]	cell adhesion, negative regulation of locomotion, 		protein binding, calcium ion binding, 
T21B6.4	T21B6.4	T21B6.4 [Source:RefSeq_peptide;Acc:NP_509827]			
T21B6.2	T21B6.2	T21B6.2 [Source:RefSeq_peptide;Acc:NP_509828]			acid phosphatase activity, 
T21B6.3	T21B6.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			protein binding, 
K09C8.7	K09C8.7	K09C8.7 [Source:RefSeq_peptide;Acc:NP_001024776]			
pbo-4	K09C8.1	pbo-4 encodes a sodium/proton exchanger (also known as nhx-7), with a potential Ca[2+]/calmodulin binding domain in its C-terminal cytosolic region that could mediate calcium signaling. PBO-4 is expressed in the basolateral membrane of posterior intestinal cells. PBO-4 is required for normal posterior body muscle contraction (pBoc) during the defecation cycle. PBO-4 is thought to prevent intracellular acidification by catalysing the electroneutral exchange of extracellular sodium for an intracellular proton. specifically, PBO-4 may enable intercellular signals from intestinal cells (by secreting protons which then might activate PBO-5 in adjacent muscle cells). [Source: WormBase]	sodium ion transport, regulation of pH, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
nlp-19	K09C8.6	Neuropeptide-Like Protein family member (nlp-19) [Source:RefSeq_peptide;Acc:NP_741898]			
K09C8.2	K09C8.2	K09C8.2 [Source:RefSeq_peptide;Acc:NP_509831]			
nas-10	K09C8.3	Zinc metalloproteinase nas-10 (EC 3.4.24.21) (Nematode astacin 10). [Source:Uniprot/SWISSPROT;Acc:Q21388]	proteolysis, 		metallopeptidase activity, astacin activity, 
K09C8.t1	K09C8.t1				
lge-1	K09C8.4	LARGE (mouse dystroglycan glycosylation) homolog family member (lge-1) [Source:RefSeq_peptide;Acc:NP_509833]	carbohydrate biosynthetic process, 		transferase activity, transferring hexosyl groups, 
K09C8.8	K09C8.8	K09C8.8 [Source:RefSeq_peptide;Acc:NP_001024777]			
pxn-2	K09C8.5	K09C8.5 [Source:RefSeq_peptide;Acc:NP_509834]	electron transport, response to oxidative stress, 		protein binding, peroxidase activity, heme binding, 
ver-4	F59F3.5	VEGF (vascular endothelial growth factor) Receptor family member (ver-4) [Source:RefSeq_peptide;Acc:NP_509835]	protein amino acid phosphorylation, positive regulation of locomotion, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ver-3	F59F3.1	VEGF (vascular endothelial growth factor) Receptor family member (ver-3) [Source:RefSeq_peptide;Acc:NP_509836]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F59F3.6	F59F3.6	F59F3.6 [Source:RefSeq_peptide;Acc:NP_741899]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, 
col-177	F59F3.2	F59F3.2 [Source:RefSeq_peptide;Acc:NP_509837]	phosphate transport, locomotory behavior, 	cytoplasm, 	
F59F3.4	F59F3.4	F59F3.4 [Source:RefSeq_peptide;Acc:NP_509838]	sodium ion transport, 	membrane, 	sodium channel activity, 
F58A3.5	F58A3.5	F58A3.5 [Source:RefSeq_peptide;Acc:NP_509839]	metabolic process, 		oxidoreductase activity, 
F58A3.4	F58A3.4	F58A3.4 [Source:RefSeq_peptide;Acc:NP_509840]			structural molecule activity, 
F58A3.3	F58A3.3	F58A3.3 [Source:RefSeq_peptide;Acc:NP_509841]			
egl-15	F58A3.2	egl-15 encodes an FGF-like receptor tyrosine kinase orthologous to human FGFR1 (OMIM:136350, which when mutated leads to Pfeiffer syndrome). EGL-15 is required for several processes including fluid balance and sex myoblast migration, which is essential for proper development of the egg-laying system, and is required to phosphorylate SAX-7, which inhibits the colocalization of SAX-7 with the ankyrin UNC-44. EGL-15 activators may include the FGF-like signalling molecules EGL-17 and LET-756. negative regulators include CLR-1, a receptor protein-tyrosine phosphatase. [Source: WormBase]	protein amino acid phosphorylation, oviposition, fibroblast growth factor receptor signaling pathway, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
ldb-1	F58A3.1	ldb-1 encodes an Ldb/NLI/Clim member of the nuclear LIM binding protein family that affects coordinated locomotion, vulval development, mechanosensation, and growth of larvae and is required for transcriptional activation of mec-2. can interact with MEC-3 to activate transcription using yeast two-hybrid assays and is expressed in all neurons, vulval cells, gonadal sheath cells, and in some body muscle cells. [Source: WormBase]	regulation of transcription, DNA-dependent, multicellular organismal development, locomotory behavior, locomotion, 	nucleus, 	DNA binding, transcription cofactor activity, ligand-dependent nuclear receptor activity, 
C09F12.3	C09F12.3	C09F12.3 [Source:RefSeq_peptide;Acc:NP_001024385]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
clc-1	C09F12.1	clc-1 encodes a claudin homolog, closely similar to CLC-2, that is required for normal cohesion of apical junctions in epithelia. claudins are integral membrane proteins with four transmembrane sequences that are found in mammalian tight junctions (TJs), induce TJs when transgenically expressed in cells normally lacking them, and can mediate the specific conductance of of specific ions (e.g., magnesium or calcium) through TJs while blocking the flow of water. CLC-1 maintains the impermeability ('barrier function') of epithelia, since clc-1(RNAi) animals have abnormal permeability of the pharynx to dyes. clc-1 is expressed in spermatheca, pharynx, intestine, hypodermis, the excretory-secretory system, and the cell-cell junctions of the vulva. in pharyngeal cells, CLC-1 colocalizes with AJM-1 in long thin lines, parallel to the pharyngeal axis and lining the lumenal surface, that appear to correspond with apical intercellular junctions. [Source: WormBase]			
C09F12.2	C09F12.2	C09F12.2 [Source:RefSeq_peptide;Acc:NP_509848]			
W04G3.8	W04G3.8	W04G3.8 [Source:RefSeq_peptide;Acc:NP_509849]	biological_process, 		
W04G3.1	W04G3.1	W04G3.1 [Source:RefSeq_peptide;Acc:NP_509850]			
W04G3.2	W04G3.2	W04G3.2 [Source:RefSeq_peptide;Acc:NP_509851]	post-embryonic body morphogenesis, 		
W04G3.3	W04G3.3	W04G3.3 [Source:RefSeq_peptide;Acc:NP_509852]	locomotory behavior, 		
apt-9	W04G3.4	apt-9 gene encodes an ortholog of GGA (Golgi-localizing, gamma-adaptin ear homology, ARF-binding protein), which contains a domain paralogous to the gamma-adaptin subunits of adaptor protein complexes. based on structural similarity, APT-9 may beinvolved in the formation of intracellular transport vesicles. [Source: WormBase]	intracellular protein transport, protein secretion, 	intracellular, 	
W04G3.5	W04G3.5	W04G3.5 [Source:RefSeq_peptide;Acc:NP_509854]	nucleotide biosynthetic process, nucleoside metabolic process, 		magnesium ion binding, ribose phosphate diphosphokinase activity, 
W04G3.12	W04G3.12	W04G3.12 [Source:RefSeq_peptide;Acc:NP_001033567]			electron carrier activity, 
W04G3.10	W04G3.10	W04G3.10 [Source:RefSeq_peptide;Acc:NP_001024938]			
sulp-7	W04G3.6	sulp-7 encodes one of eight C. elegans members of the sulfate permease family of anion transporters. by homology, SULP-7 is predicted to function as an anion transporter that regulates cellular pH and volume via transmembrane movement of electrolytes and fluids. a sulp-7::GFP transcriptional fusion is widely expressed in body wall, pharyngeal, and vulval muscles, head and body hypodermal cells, and the intestine. [Source: WormBase]	transport, sulfate transport, 	membrane, integral to membrane, 	transporter activity, secondary active sulfate transmembrane transporter activity, GABA-B receptor activity, 
W04G3.7	W04G3.7	W04G3.7 [Source:RefSeq_peptide;Acc:NP_509856]			
W04G3.11	W04G3.11	W04G3.11 [Source:RefSeq_peptide;Acc:NP_001024939]			
W02H3.t1	W02H3.t1				
W02H3.2	W02H3.2				
W02H3.1	W02H3.1	W02H3.1 [Source:RefSeq_peptide;Acc:NP_509858]			
R08B4.4	R08B4.4	R08B4.4 [Source:RefSeq_peptide;Acc:NP_741900]			
grd-1	R08B4.1	grd-1 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Ground domain, an extended region of low-complexity sequence, and a Hint/Hog domain. GRD-1 is expressed in rectal cells. the Hint/Hog domain is predicted to cut GRD-1 into two halves and then covalently link cholesterol to the C-terminus of the Ground domain. the Ground domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. GRD-1 is weakly required for normal molting. GRD-1 is also required for normal growth to full size, cuticle adhesion, and male tail development. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, intein-mediated protein splicing, homoiothermy, response to freezing, 		peptidase activity, ice binding, 
R08B4.5	R08B4.5	R08B4.5 [Source:RefSeq_peptide;Acc:NP_001024845]	protein folding, 		unfolded protein binding, 
R08B4.3	R08B4.3	R08B4.3 [Source:RefSeq_peptide;Acc:NP_509859]			
alr-1	R08B4.2	AristaLess (Drosophila homeodomain) Related family member (alr-1) [Source:RefSeq_peptide;Acc:NP_509860]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C05C9.3	C05C9.3	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
C05C9.2	C05C9.2	C05C9.2 [Source:RefSeq_peptide;Acc:NP_509862]			
C05C9.1	C05C9.1	C05C9.1 [Source:RefSeq_peptide;Acc:NP_509863]			lipid binding, 
C05C9.t2	C05C9.t2				
C05C9.t1	C05C9.t1				
F13D2.1	F13D2.1	F13D2.1 [Source:RefSeq_peptide;Acc:NP_509864]			
F13D2.2	F13D2.2	F13D2.2 [Source:RefSeq_peptide;Acc:NP_509865]	G-protein coupled receptor protein signaling pathway, biological_process, 	integral to membrane, 	rhodopsin-like receptor activity, 
F13D2.3	F13D2.3	F13D2.3 [Source:RefSeq_peptide;Acc:NP_509866]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F13D2.4	F13D2.4	F13D2.4 [Source:RefSeq_peptide;Acc:NP_509867]			
C34F6.1	C34F6.1	C34F6.1 [Source:RefSeq_peptide;Acc:NP_509868]	chromosome segregation, 		serine-type endopeptidase inhibitor activity, 
col-178	C34F6.2	C34F6.2 [Source:RefSeq_peptide;Acc:NP_509869]	phosphate transport, 	cytoplasm, 	
col-179	C34F6.3	C34F6.3 [Source:RefSeq_peptide;Acc:NP_509870]	phosphate transport, G-protein coupled receptor protein signaling pathway, defense response, 	integral to membrane, cytoplasm, 	cholecystokinin receptor activity, 
C34F6.11	C34F6.11	C34F6.11 [Source:RefSeq_peptide;Acc:NP_001024441]	defense response, 		
hst-2	C34F6.4	Heparan sulfate 2-O-sulfotransferase hst-2 (EC 2.8.2.-) (Heparan sulfotransferase 2) (HS2ST1 homolog). [Source:Uniprot/SWISSPROT;Acc:O17645]	cell migration, 		
C34F6.6	C34F6.6	C34F6.6 [Source:RefSeq_peptide;Acc:NP_509872]			
C34F6.5	C34F6.5	C34F6.5 [Source:RefSeq_peptide;Acc:NP_509873]			
C34F6.7	C34F6.7	C34F6.7 [Source:RefSeq_peptide;Acc:NP_509874]			
C34F6.8	C34F6.8	C34F6.8 [Source:RefSeq_peptide;Acc:NP_509875]	metabolic process, 		oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NADP+) activity, 
C34F6.9	C34F6.9	C34F6.9 [Source:RefSeq_peptide;Acc:NP_509876]	ubiquitin-dependent protein catabolic process, 		protein binding, ubiquitin thiolesterase activity, 
C34F6.10	C34F6.10	C34F6.10 [Source:RefSeq_peptide;Acc:NP_509877]			
C03A3.t1	C03A3.t1				
C03A3.1	C03A3.1	C03A3.1b [Source:RefSeq_peptide;Acc:NP_001024344]			
C03A3.2	C03A3.2	Transmembrane protein 104 homolog. [Source:Uniprot/SWISSPROT;Acc:Q17598]			
C03A3.3	C03A3.3	C03A3.3 [Source:RefSeq_peptide;Acc:NP_509880]			hydrolase activity, 
ifa-1	F38B2.1	IFA-1 encodes an essential intermediate filament protein that is coexpressed with the essential IF protein IFB-1. IFA-1 is required for survival past the L1 larva stage, and a normal intestine. IFA-1 forms heteropolymeric intermediate filaments in vitro with an equimolar mixture of IFB-1. IFA-1 is predicted to function as a structural component of the cytoskeleton, and is required for larval development and normal intestinal morphology. ifa-1 is expressed in amphid sensory neurons, in tail neurons and other unidentified neurons, some pharyngeal muscles, the pharyngeal-intestinal valve, the vulva, and the rectum. [Source: WormBase]	regulation of transcription, DNA-dependent, biological_process, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, structural molecule activity, 
F38B2.2	F38B2.2	F38B2.2 [Source:RefSeq_peptide;Acc:NP_509882]			
F38B2.3	F38B2.3	F38B2.3 [Source:RefSeq_peptide;Acc:NP_509883]			
F38B2.4	F38B2.4	F38B2.4 is orthologous to the human gene ADENYLATE KINASE 1 (AK1. OMIM:103000), which when mutated leads to hemolytic anemia. [Source: WormBase]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, ATP metabolic process, 	cytoplasm, 	ATP binding, GTP binding, GTPase activity, nucleotide kinase activity, adenylate kinase activity, shikimate kinase activity, 
inx-2	F08G12.10	Innexin-2 (Protein opu-2). [Source:Uniprot/SWISSPROT;Acc:Q9U3K5]		gap junction, 	
F08G12.2	F08G12.2	F08G12.2 [Source:RefSeq_peptide;Acc:NP_509886]			protein binding, 
F08G12.3	F08G12.3	F08G12.3 [Source:RefSeq_peptide;Acc:NP_509887]			
F08G12.1	F08G12.1	F08G12.1 [Source:RefSeq_peptide;Acc:NP_509888]	protein transport, small GTPase mediated signal transduction, 	intracellular, 	GTP binding, 
vhl-1	F08G12.4	vhl-1 is orthologous to the mammalian tumor suppressor gene Von Hippel-Landau syndrome (VHL. OMIM:193300), which is part of a ubiquitylation complex targetting proteins for proteasomal degradation. [Source: WormBase]	protein ubiquitination, growth, 		
F08G12.5	F08G12.5	F08G12.5 [Source:RefSeq_peptide;Acc:NP_509890]			protein binding, zinc ion binding, 
F08G12.11	F08G12.11	F08G12.11 [Source:RefSeq_peptide;Acc:NP_001024539]			
F08G12.8	F08G12.8	F08G12.8 [Source:RefSeq_peptide;Acc:NP_509892]			
nhr-33	ZK455.6	Nuclear Hormone Receptor family member (nhr-33) [Source:RefSeq_peptide;Acc:NP_509893]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
asm-2	ZK455.4	asm-2 encodes a protein similar to human acid sphingomyelinase (ASM) or sphingomyelin phosphodiesterase 1. the ASM-2 protein has a putative secretory signal peptide at the N-terminus, saposin-like and proline-rich domains and putative N-linked glycosylation sites. asm-2 shows phosphodiesterase activity when expressed in COS-7 cells. like mammalian ASM, asm-2 is probably both intracellular and secreted. northern blot analysis indicates that asm-2 is expressed during post-embryonic development as compared to asm-1 which is expressed at higher levels in the embryo. human ASM is implicated in Niemann-Pick disease type B (OMIM:607608). [Source: WormBase]	sphingomyelin catabolic process, lipid metabolic process, ceramide biosynthetic process, 	extracellular region, 	sphingomyelin phosphodiesterase activity, hydrolase activity, 
ZK455.5	ZK455.5	ZK455.5 [Source:RefSeq_peptide;Acc:NP_509895]			
ZK455.3	ZK455.3	ZK455.3 [Source:RefSeq_peptide;Acc:NP_509896]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, galanin receptor activity, purinergic nucleotide receptor activity, G-protein coupled, bombesin receptor activity, somatostatin receptor activity, 
gcy-9	ZK455.2	Guanylyl CYclase family member (gcy-9) [Source:RefSeq_peptide;Acc:NP_509897]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 	membrane, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, peptide receptor activity, G-protein coupled, GABA-B receptor activity, 
aco-1	ZK455.1	aco-1 encodes an aconitase that is homologous to mammalian iron regulatory protein-1 (IRP1). aco-1 activity is required for normal brood sizes and, under iron stress conditions, for normal lifespan and L4-to-adult growth rates. ACO-1 physically interacts with GEX-3. like IRP1, ACO-1 has aconitase activity and is post-translationally regulated by iron, but, unlike IRP1, it lacks RNA-binding activity. ACO-1 is predicted to be mitochondrial, and its mRNA levels appear to decrease in response to iron treatment. [Source: WormBase]	metabolic process, 		aconitate hydratase activity, 4 iron, 4 sulfur cluster binding, protein binding, 
oct-2	ZK455.8	Organic Cation Transporter family member (oct-2) [Source:RefSeq_peptide;Acc:NP_509899]	transport, dicarboxylic acid transport, 	membrane, integral to membrane, 	transporter activity, sodium:dicarboxylate symporter activity, 
pgp-3	ZK455.7	pgp-3 encodes a transmembrane protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. with PGP-1, PGP-3 is required for defense against the pathogenic Pseudomonas aeruginosa strain PA14, and may facilitate ATP-dependent efflux of the toxic phenazine compounds produced by the bacteria. PGP-3 is also required for resistance to colchicine and chloroquine. PGP-3 is expressed in the apical membranes of the excretory cell and the intestinal cells. loss of pgp-3 activity via large-scale RNAi screens does not result in any obvious abnormalities. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pgp-4	F42E11.1	pgp-4 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-4 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-4 activity via deletion mutations or RNAi results in no obvious defects, the precise role of PGP-4 in C. elegans development and/or behavior is not yet known. pgp-4 promoter-gfp fusion proteins are expressed in the larval excretory cell. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
F42E11.2	F42E11.2	F42E11.2c [Source:RefSeq_peptide;Acc:NP_741904]			
F42E11.3	F42E11.3	F42E11.3 [Source:RefSeq_peptide;Acc:NP_509905]			
tni-1	F42E11.4	tni-1 encodes a member of the troponin family that affects body morphology, locomotion, egg laying, and epithelial morphogenesis in a large-scale RNAi analysis. [Source: WormBase]	morphogenesis of an epithelium, 		protein binding, 
F08B12.1	F08B12.1	F08B12.1 is orthologous to the human gene AC133-2 ANTIGEN (PROML1. OMIM:604365), which when mutated leads to disease. [Source: WormBase]		integral to membrane, 	
prx-12	F08B12.2	Putative peroxisome assembly protein 12 (Peroxin-12). [Source:Uniprot/SWISSPROT;Acc:Q19189]	peroxisome organization and biogenesis, growth, 	peroxisomal membrane, 	protein binding, zinc ion binding, 
slo-2	F08B12.3	slo-2 encodes a high-conductance potassium channel. by homology, SLO-2 is predicted to play a role in regulating cellular excitability, however loss of slo-2 activity via large-scale RNAi screens does not result in any obvious abnormalities. when expressed in Xenopus oocytes, SLO-2 exhibits a synergistic dependence on both calcium and chloride. in addition, expression of a dominant negative SLO-2 mutant can interfere with activity of SLO-1, an additional high-conductance potassium channel, suggesting that the two channels can form functional heteromultimers. a SLO-2::GFP fusion protein is expression in body-wall, vulval, and pharyngeal-intestinal valve muscles, nerve ring processes, and some motor neurons in the ventral nerve cord in a pattern that largely overlaps that of SLO-1. [Source: WormBase]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	voltage-gated potassium channel activity, calcium-activated potassium channel activity, 
F08B12.5	F08B12.5	F08B12.5 [Source:RefSeq_peptide;Acc:NP_001024531]			
F08B12.4	F08B12.4	Uncharacterized protein F08B12.4. [Source:Uniprot/SWISSPROT;Acc:Q19191]			
pek-1	F46C3.1	pek-1 encodes a predicted transmembrane protein kinase orthologous to human eukaryotic translation initiation factor 2-alpha kinase 3 (EIF2AK3, OMIM:604032), which when mutated leads to Wolcott-Rallison syndrome. PEK-1 is strongly expressed in intestinal cells and is required for the unfolded protein response (UPR) that counteracts cellular stress induced by accumulation of unfolded proteins in the endoplasmic reticulum (ER). PEK-1 may function in the endoplasmic reticulum to phosphorylate eIF2alpha and inhibit protein synthesis in response to endogenous ER stress. [Source: WormBase]	protein amino acid phosphorylation, electron transport, nematode larval development, positive regulation of transcription of target genes involved in unfolded protein response, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F46C3.2	F46C3.2	F46C3.2 [Source:RefSeq_peptide;Acc:NP_509913]			
F46C3.6	F46C3.6	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPK5]			
hum-4	F46C3.3	hum-4 encodes a class XII myosin, an unconventional myosin. [Source: WormBase]		cytoskeleton, myosin complex, 	ATP binding, motor activity, 
F46C3.5	F46C3.5				
F46C3.4	F46C3.4				
F48C5.1	F48C5.1	F48C5.1 [Source:RefSeq_peptide;Acc:NP_509915]			
F48C5.2	F48C5.2	F48C5.2 [Source:RefSeq_peptide;Acc:NP_001024687]	blood coagulation, proteolysis, 	extracellular region, 	serine-type endopeptidase activity, 
lin-14	T25C12.1	lin-14 encodes a novel protein whose activity is required for specifying the division timings of a specific group of cells during postembryonic development. lin-14 loss-of-function mutations result in the premature appearance of later larval lineages, while gain-of-function mutations result in reiteration of L1 larval stages lineages. in addition, lin-14 acts as a positive regulator of AVM, PVM, and FLP touch cell development. in regulating developmental timing, lin-14 acts, in part, by positively regulating the activity of lin-28, which encodes a cytoplasmic protein also required for proper developmental timing. at hatching, LIN-14 is detected in the nuclei of blast cells and neurons. later, from the late L1 to adult stages, LIN-14 levels are negatively regulated by translational repression mediated by lin-4, a 22-nt small temporal RNA (stRNA) that is complementary to sequences in the lin-14 3' UTR. [Source: WormBase]	biological_process, regulation of development, heterochronic, neuron development, 		
spp-9	T25C12.2	SaPosin-like Protein family member (spp-9) [Source:RefSeq_peptide;Acc:NP_509918]			
spp-21	T25C12.4	SaPosin-like Protein family member (spp-21) [Source:RefSeq_peptide;Acc:NP_001024927]			
T25C12.3	T25C12.3	T25C12.3 [Source:RefSeq_peptide;Acc:NP_509919]			sugar binding, 
F29G6.1	F29G6.1	F29G6.1 [Source:RefSeq_peptide;Acc:NP_509920]	embryonic development ending in birth or egg hatching, 		serine-type endopeptidase inhibitor activity, 
F29G6.2	F29G6.2	F29G6.2 [Source:RefSeq_peptide;Acc:NP_509921]			protein binding, 
F29G6.3	F29G6.3	F29G6.3c [Source:RefSeq_peptide;Acc:NP_001024614]	biological_process, 		protein binding, 
sdc-2	C35C5.1	The sdc-2 gene encodes a protein that represses transcription of X chromosomes to achieve dosage compensation, and that also represses the male sex-determination gene her-1 to elicit hermaphrodite differentiation. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	proteinaceous extracellular matrix, 	
C35C5.8	C35C5.8	C35C5.8a [Source:RefSeq_peptide;Acc:NP_509925]			
C35C5.9	C35C5.9	C35C5.9 [Source:RefSeq_peptide;Acc:NP_509927]			
C35C5.2	C35C5.2	C35C5.2 [Source:RefSeq_peptide;Acc:NP_509928]	proteolysis, 		peptidase activity, 
C35C5.11	C35C5.11	C35C5.11 [Source:RefSeq_peptide;Acc:NP_001024446]	proteolysis, 		peptidase activity, 
C35C5.3	C35C5.3	Putative selT-like protein C35C5.3 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9U3N5]	cell redox homeostasis, 		selenium binding, 
mig-2	C35C5.4	mig-2 encodes a member of the Rho family of GTP-binding proteins that affects the migration of Q neuroblasts, HSN cells, and CAN cells as well as axon outgrowth and guidance. it is expressed in early embryos and expressed in adults in the vulva, distal tip cells of the gonad, and the sex myoblasts and their descendants. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, potassium ion transport, cell migration, 	intracellular, 	protein binding, GTP binding, GTPase activity, cation transmembrane transporter activity, 
C35C5.10	C35C5.10	C35C5.10 [Source:RefSeq_peptide;Acc:NP_001024445]			
lev-8	C35C5.5	lev-8 encodes a novel nicotinic acetylcholine receptor (nAChR) alpha subunit that is a member of the ACR-8 group of nAChR subunits. LEV-8 activity is required for normal rates of pharyngeal pumping and for fully wild-type responses (increased egg laying and body wall muscle contraction) to the nAChR agonist and antihelmintic levamisole. expression of a LEV-8::GFP reporter construct begins at the L1 larval stage and is detected in neurons, body wall and uterine muscle cells, and socket cells of the IL and OL mechanosensory neurons. expression in body wall muscles is strongest in the anterior, consistent with increased levamisole resistance of head, or anterior, muscles seen in lev-8 mutant animals. [Source: WormBase]	transport, ion transport, immune response, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, tumor necrosis factor receptor binding, 
C35C5.6	C35C5.6	C35C5.6 [Source:RefSeq_peptide;Acc:NP_509933]			
frm-3	H05G16.1	frm-3 encodes a protein containing a FERM domain (Band 4.1 family). expressed in a few cells in the head. [Source: WormBase]		cytoplasm, cytoskeleton, extrinsic to membrane, 	cytoskeletal protein binding, 
F52D10.6	F52D10.6	F52D10.6 [Source:RefSeq_peptide;Acc:NP_509935]	regulation of Rho protein signal transduction, positive regulation of growth rate, 	intracellular, 	Rho guanyl-nucleotide exchange factor activity, 
abts-2	F52D10.1	The F52D10.1 gene encodes a protein that is homologous to the Arabidopsis and Saccharomyces boron exporters, BOR1 and YNL275w, and similar to the to the human BOR1/YNL275w ortholog, BTS1. like BOR1 and YNL275w, F52D10.1 protein might act to export borate ions. [Source: WormBase]	anion transport, 	membrane, integral to membrane, 	anion exchanger activity, inorganic anion exchanger activity, 
F52D10.2	F52D10.2	F52D10.2 [Source:RefSeq_peptide;Acc:NP_509937]			
ftt-2	F52D10.3	14-3-3-like protein 2. [Source:Uniprot/SWISSPROT;Acc:Q20655]			protein binding, protein domain specific binding, 
F52D10.4	F52D10.4	F52D10.4 [Source:RefSeq_peptide;Acc:NP_509940]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sto-3	F52D10.5	Stomatin-3. [Source:Uniprot/SWISSPROT;Acc:Q20657]		membrane, 	
twk-44	Y71H9A.1	TWiK family of potassium channels family member (twk-44) [Source:RefSeq_peptide;Acc:NP_509942]	potassium ion transport, 	membrane, 	potassium channel activity, 
sto-6	Y71H9A.2	STOmatin family member (sto-6) [Source:RefSeq_peptide;Acc:NP_509943]		membrane, 	
sto-4	Y71H9A.3	Stomatin-4. [Source:Uniprot/SWISSPROT;Acc:Q22165]		membrane, 	
T04F8.t1	T04F8.t1				
T04F8.8	T04F8.8	T04F8.8 [Source:RefSeq_peptide;Acc:NP_509945]	cell adhesion, regulation of transcription, DNA-dependent, 	nucleus, actin cytoskeleton, 	transcription factor activity, structural molecule activity, 
T04F8.4	T04F8.4	T04F8.4 [Source:RefSeq_peptide;Acc:NP_509946]			
T04F8.2	T04F8.2	T04F8.2 [Source:RefSeq_peptide;Acc:NP_509947]			
T04F8.3	T04F8.3	T04F8.3 [Source:RefSeq_peptide;Acc:NP_509948]			
sfxn-1.5	T04F8.1	T04F8.1 [Source:RefSeq_peptide;Acc:NP_509949]	cation transport, 	membrane, 	cation transmembrane transporter activity, 
T04F8.6	T04F8.6	T04F8.6 [Source:RefSeq_peptide;Acc:NP_509950]			protein binding, calcium ion binding, 
T04F8.9	T04F8.9	T04F8.9 [Source:RefSeq_peptide;Acc:NP_001024876]			nutrient reservoir activity, 
T04F8.7	T04F8.7	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q22166]			
hnd-1	C44C10.8	hnd-1 encodes a Hand bHLH transcription factor required for normal viability, gonadogenesis, and posterior body morphology. HND-1 is required for the formation of both somatic gonadal precursors and primordial germ cells, but not for later gonadogenesis. HND-1 is expressed embryogenesis in embryonic mesodermal precursor cells generating (mostly) body wall muscle, in somatic gonad precursor cells, and in some unidentified head cells. the primary defect in hnd-1 mutants may be, nonautonomously, in mesodermal precursor cells. somatic gonad precursor cells are normally generated in hnd-1 mutants, but not maintained. [Source: WormBase]	regulation of transcription, post-embryonic body morphogenesis, 	nucleus, 	transcription regulator activity, 
C44C10.7	C44C10.7	C44C10.7 [Source:RefSeq_peptide;Acc:NP_509953]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C44C10.10	C44C10.10	C44C10.10 [Source:RefSeq_peptide;Acc:NP_509954]			GTPase activity, 
C44C10.5	C44C10.5	C44C10.5 [Source:RefSeq_peptide;Acc:NP_509955]			
C44C10.4	C44C10.4	C44C10.4 [Source:RefSeq_peptide;Acc:NP_509956]	DNA metabolic process, 	chromosome, 	ATP binding, 
C44C10.12	C44C10.12	C44C10.12 [Source:RefSeq_peptide;Acc:NP_001024461]			
C44C10.6	C44C10.6	C44C10.6 [Source:RefSeq_peptide;Acc:NP_509957]			
C44C10.3	C44C10.3	C44C10.3 [Source:RefSeq_peptide;Acc:NP_509958]	transport, 	integral to membrane, 	transporter activity, 
cyp-29A1	C44C10.2				
C44C10.11	C44C10.11	C44C10.11 [Source:RefSeq_peptide;Acc:NP_001024460]			
col-180	C44C10.1	C44C10.1 [Source:RefSeq_peptide;Acc:NP_509960]	phosphate transport, positive regulation of growth rate, 	cytoplasm, 	structural constituent of cuticle, 
C44C10.9	C44C10.9	C44C10.9 [Source:RefSeq_peptide;Acc:NP_509961]			
D1053.4	D1053.4	D1053.4 [Source:RefSeq_peptide;Acc:NP_001024513]			
gst-42	D1053.1	gst-42 is orthologous to the human gene GLUTATHIONE TRANSFERASE ZETA-1 (also known as MALEYLACETOACETATE ISOMERASE. GSTZ1. OMIM:603758), which when mutated is thought to lead to a variety of type I tyrosinemia. [Source: WormBase]	aromatic amino acid family metabolic process, chloride transport, 	membrane, cytoplasm, 	protein binding, catalytic activity, voltage-gated chloride channel activity, identical protein binding, 
D1053.2	D1053.2	D1053.2 [Source:RefSeq_peptide;Acc:NP_509963]			
D1053.3	D1053.3	D1053.3 [Source:RefSeq_peptide;Acc:NP_509964]	DNA replication initiation, 		ATP binding, DNA binding, DNA-dependent ATPase activity, 
nspa-9	C40H5.1	Nematode Specific Peptide family/group A family member (nspa-9) [Source:RefSeq_peptide;Acc:NP_509965]			
C40H5.7	C40H5.7	C40H5.7 [Source:RefSeq_peptide;Acc:NP_509966]			
C40H5.2	C40H5.2	C40H5.2 [Source:RefSeq_peptide;Acc:NP_509967]			
C40H5.t1	C40H5.t1				
C40H5.3	C40H5.3	C40H5.3 [Source:RefSeq_peptide;Acc:NP_509968]			
lact-7	C40H5.4	C40H5.4 [Source:RefSeq_peptide;Acc:NP_509969]	beta-lactam antibiotic catabolic process, response to antibiotic, 		beta-lactamase activity, 
ttx-3	C40H5.5	ttx-3 encodes a LIM homeodomain protein required for functions of the interneuron AIY, including thermosensory behavior and olfactory learning. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, dauer larval development, olfactory learning, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
C40H5.6	C40H5.6		embryonic development ending in birth or egg hatching, 		
C40H5.8	C40H5.8		embryonic development ending in birth or egg hatching, 		
Y102F5A.1	Y102F5A.1	Y102F5A.1 [Source:RefSeq_peptide;Acc:NP_509972]			
rsd-3	C34E11.1	RNAi Spreading Defective (see also sid) family member (rsd-3) [Source:RefSeq_peptide;Acc:NP_509973]			
C34E11.4	C34E11.4	C34E11.4 [Source:RefSeq_peptide;Acc:NP_001024440]			
C34E11.2	C34E11.2	C34E11.2 [Source:RefSeq_peptide;Acc:NP_509974]	regulation of transcription, DNA-dependent, 	intracellular, 	
C34E11.t1	C34E11.t1				
tag-241	C34E11.3	Temporarily Assigned Gene name family member (tag-241) [Source:RefSeq_peptide;Acc:NP_509975]	signal transduction, regulation of transcription, DNA-dependent, 	intracellular, nucleus, 	nucleotide binding, protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
taf-7.1	F54F7.1	The taf-7.1 gene encodes an ortholog of mammalian TATA-binding protein associated factor TAF7L (TAFIIQ, OMIM:300314) that in mice exhibits testis-specific expression. TAF-7 function in C. elegans is not yet known, as taf-7 inactivation by RNA interference does not result in any obvious developmental defects. [Source: WormBase]	regulation of transcription, 	transcription factor TFIID complex, 	transcription factor activity, general RNA polymerase II transcription factor activity, 
F54F7.2	F54F7.2	F54F7.2 [Source:RefSeq_peptide;Acc:NP_509977]			
F54F7.9	F54F7.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPK6]			
F54F7.3	F54F7.3	F54F7.3 [Source:RefSeq_peptide;Acc:NP_509978]			
xtr-1	F54F7.4	xtr-1 encodes a protein with similarity to TRA-2A and TRA-2B in a region known as the MX region, hypothesized to be a protein-protein interaction domain involved in negatively regulating tra-2 activity in the germ line. [Source: WormBase]			
F54F7.8	F54F7.8	F54F7.8 [Source:RefSeq_peptide;Acc:NP_001024710]			
mes-1	F54F7.5	The mes-1 gene encodes a receptor tyrosine kinase-like protein that is required for unequal cell divisions in the early embryonic germline. during embryonic cell divisions, mes-1 is involved in positioning of the early mitotic spindle and of associated P granules. [Source: WormBase]	protein amino acid phosphorylation, gamete generation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F54F7.6	F54F7.6	F54F7.6 [Source:RefSeq_peptide;Acc:NP_509980]			
F54F7.7	F54F7.7	F54F7.7 [Source:RefSeq_peptide;Acc:NP_509981]			
F54F7.t2	F54F7.t2				
F54F7.t1	F54F7.t1				
Y62H9A.1	Y62H9A.1	Y62H9A.1 [Source:RefSeq_peptide;Acc:NP_509982]			
Y62H9A.2	Y62H9A.2	Y62H9A.2 [Source:RefSeq_peptide;Acc:NP_509983]			
Y62H9A.3	Y62H9A.3	Y62H9A.3 [Source:RefSeq_peptide;Acc:NP_509984]			nutrient reservoir activity, 
Y62H9A.4	Y62H9A.4	Y62H9A.4 [Source:RefSeq_peptide;Acc:NP_509985]			
Y62H9A.5	Y62H9A.5	Y62H9A.5 [Source:RefSeq_peptide;Acc:NP_509986]			
Y62H9A.6	Y62H9A.6	Y62H9A.6 [Source:RefSeq_peptide;Acc:NP_509987]			
Y62H9A.7	Y62H9A.7	Y62H9A.7 [Source:RefSeq_peptide;Acc:NP_509988]			
Y62H9A.8	Y62H9A.8	Y62H9A.8 [Source:RefSeq_peptide;Acc:NP_509989]			
Y62H9A.9	Y62H9A.9	Y62H9A.9 [Source:RefSeq_peptide;Acc:NP_509990]			
Y62H9A.10	Y62H9A.10	Y62H9A.10 [Source:RefSeq_peptide;Acc:NP_509991]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
Y62H9A.11	Y62H9A.11	Y62H9A.11 [Source:RefSeq_peptide;Acc:NP_509992]			
Y62H9A.15	Y62H9A.15	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A2VA01]			
Y62H9A.12	Y62H9A.12	Y62H9A.12 [Source:RefSeq_peptide;Acc:NP_509993]			
Y62H9A.13	Y62H9A.13	Y62H9A.13 [Source:RefSeq_peptide;Acc:NP_509994]			
Y62H9A.14	Y62H9A.14	Y62H9A.14 [Source:RefSeq_peptide;Acc:NP_509995]			
F55G7.1	F55G7.1	F55G7.1 [Source:RefSeq_peptide;Acc:NP_509996]			
F55G7.4	F55G7.4				
F55G7.2	F55G7.2	F55G7.2 [Source:RefSeq_peptide;Acc:NP_509997]			
F55G7.t1	F55G7.t1				
F55G7.t2	F55G7.t2				
F55G7.3	F55G7.3	F55G7.3 [Source:RefSeq_peptide;Acc:NP_509998]			
nfya-1	T08D10.1	Temporarily Assigned Gene name family member (tag-295) [Source:RefSeq_peptide;Acc:NP_509999]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, 
T08D10.2	T08D10.2	T08D10.2 encodes an ortholog of the human histone demethylase LSD1 (KIAA0601), and a paralog of C. elegans SPR-5. similar histone demethylase homologs are found in human, mouse, Drosophila, fission yeast, and Arabidopsis. T08D10.2 is predicted to demethylate histone H3 lysine 4 residues and act as a transcriptional corepressor. [Source: WormBase]	electron transport, 		oxidoreductase activity, monooxygenase activity, 
T08D10.4	T08D10.4	T08D10.4 [Source:RefSeq_peptide;Acc:NP_001024898]			
T08D10.3	T08D10.3	T08D10.3 [Source:RefSeq_peptide;Acc:NP_510001]			
C49F5.8	C49F5.8	C49F5.8 [Source:RefSeq_peptide;Acc:NP_741907]			
C49F5.9	C49F5.9				
sams-1	C49F5.1	Probable S-adenosylmethionine synthetase 1 (EC 2.5.1.6) (Methionine adenosyltransferase) (AdoMet synthetase). [Source:Uniprot/SWISSPROT;Acc:O17680]	one-carbon compound metabolic process, biological_process, 		ATP binding, methionine adenosyltransferase activity, 
set-6	C49F5.2	C49F5.2 [Source:RefSeq_peptide;Acc:NP_510003]		nucleus, 	
nhr-167	C49F5.4	Nuclear hormone receptor family member nhr-167. [Source:Uniprot/SWISSPROT;Acc:O17683]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C49F5.3	C49F5.3	C49F5.3 [Source:RefSeq_peptide;Acc:NP_510005]			
C49F5.5	C49F5.5	C49F5.5 [Source:RefSeq_peptide;Acc:NP_510006]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription cofactor activity, 
C49F5.6	C49F5.6	C49F5.6 [Source:RefSeq_peptide;Acc:NP_510007]			
C49F5.t1	C49F5.t1				
C49F5.7	C49F5.7	C49F5.7 [Source:RefSeq_peptide;Acc:NP_510008]			
sma-5	W06B3.2	sma-5 encodes a serine/threonine kinase homologous to the mammalian MAP kinase MAPK7/ERK5 (OMIM:602521, required for development of extraembryonic vasculature and embryonic cardiovasculature). SMA-5 is required for normal body size morphogenesis, growth rates, and intestinal granule distribution, and for regulating the size of the intestine, body wall muscle, and hypodermis, as well as the number of intestinal nuclei. SMA-5 is expressed in the intestine and in hypodermal seam cells. [Source: WormBase]	protein amino acid phosphorylation, positive regulation of multicellular organism growth, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
W06B3.1	W06B3.1	W06B3.1 [Source:RefSeq_peptide;Acc:NP_510010]	biosynthetic process, 		catalytic activity, nucleotidyltransferase activity, 
ucr-2.1	VW06B3R.1	Ubiquinol-Cytochrome c oxidoReductase complex family member (ucr-2.1) [Source:RefSeq_peptide;Acc:NP_510011]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
B0198.2	B0198.2	B0198.2 [Source:RefSeq_peptide;Acc:NP_510013]			
tsp-20	B0198.1	B0198.1 [Source:RefSeq_peptide;Acc:NP_510014]		integral to membrane, 	
B0198.3	B0198.3	B0198.3 [Source:RefSeq_peptide;Acc:NP_510015]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
lgc-23	C15A7.1	C15A7.1 [Source:RefSeq_peptide;Acc:NP_510016]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
lgc-24	C15A7.4	Putative uncharacterized protein lgc-24. [Source:Uniprot/SPTREMBL;Acc:A5JYS3]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
C15A7.2	C15A7.2	C15A7.2 [Source:RefSeq_peptide;Acc:NP_510017]			
W03G11.4	W03G11.4	W03G11.4 [Source:RefSeq_peptide;Acc:NP_510019]			
W03G11.3	W03G11.3	Putative alpha-L-fucosidase precursor (EC 3.2.1.51) (Alpha-L-fucoside fucohydrolase). [Source:Uniprot/SWISSPROT;Acc:P49713]	carbohydrate metabolic process, 		alpha-L-fucosidase activity, 
col-181	W03G11.1	col-181 is homologous to the human gene PRO ALPHA 1(I) COLLAGEN (COL1A1. OMIM:120150), which when mutated leads to osteogenesis imperfecta. [Source: WormBase]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
W03G11.t1	W03G11.t1				
W03G11.2	W03G11.2	W03G11.2 [Source:RefSeq_peptide;Acc:NP_510022]		membrane, 	
lgc-13	T01H10.1	T01H10.1 [Source:RefSeq_peptide;Acc:NP_510023]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, GABA-A receptor activity, 
lgc-14	T01H10.2	T01H10.2 [Source:RefSeq_peptide;Acc:NP_510024]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, GABA-A receptor activity, 
lgc-15	T01H10.3	T01H10.3 [Source:RefSeq_peptide;Acc:NP_510025]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, GABA-A receptor activity, 
T01H10.4	T01H10.4				
lgc-16	T01H10.5	T01H10.5 [Source:RefSeq_peptide;Acc:NP_510027]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
lgc-17	T01H10.6	T01H10.6 [Source:RefSeq_peptide;Acc:NP_510028]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
lgc-18	T01H10.7	T01H10.7 [Source:RefSeq_peptide;Acc:NP_510029]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, 
T01H10.8	T01H10.8	T01H10.8 [Source:RefSeq_peptide;Acc:NP_510030]	regulation of transcription, DNA-dependent, 	proteinaceous extracellular matrix, nucleus, 	transcription factor activity, steroid hormone receptor activity, 
M153.3	M153.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q21546]			
M153.5	M153.5	M153.3 (M153.3) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_077630]			
M153.1	M153.1	M153.1 [Source:RefSeq_peptide;Acc:NP_510032]	electron transport, proline biosynthetic process, glycerol-3-phosphate catabolic process, 	cytoplasm, 	NAD binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, pyrroline-5-carboxylate reductase activity, 
M153.4	M153.4	M153.4 [Source:RefSeq_peptide;Acc:NP_001024808]			
M153.2	M153.2	M153.2 [Source:RefSeq_peptide;Acc:NP_510033]			
F57G12.2	F57G12.2	F57G12.2 [Source:RefSeq_peptide;Acc:NP_510034]			protein binding, 
F57G12.t1	F57G12.t1				
F57G12.t2	F57G12.t2				
F57G12.1	F57G12.1	F57G12.1 [Source:RefSeq_peptide;Acc:NP_510035]			
cab-1	C23H4.1	Novel protein which has a C-terminal motif weakly homologous to mouse NPDC-1 and is involved in syaptic regulation. it is expressed in various neurons including ventral cord and tail ganglion neurons. it physically interacts with AEX-3, which is a guanine nucleotide exchange factor for the Rab3 GTPase. [Source: WormBase]	vesicle-mediated transport, synaptic transmission, 	membrane, integral to membrane, 	protein binding, molecular_function, 
C23H4.8	C23H4.8	C23H4.8 [Source:RefSeq_peptide;Acc:NP_001024423]			
C23H4.2	C23H4.2	C23H4.2 [Source:RefSeq_peptide;Acc:NP_510037]			catalytic activity, 
C23H4.7	C23H4.7	C23H4.7 [Source:RefSeq_peptide;Acc:NP_741910]			catalytic activity, 
C23H4.3	C23H4.3	C23H4.3 [Source:RefSeq_peptide;Acc:NP_510038]			
C23H4.4	C23H4.4	C23H4.4 [Source:RefSeq_peptide;Acc:NP_510039]	dTDP biosynthetic process, dTTP biosynthetic process, 		ATP binding, catalytic activity, thymidylate kinase activity, 
C23H4.6	C23H4.6	C23H4.6 [Source:RefSeq_peptide;Acc:NP_510041]	DNA metabolic process, 	chromosome, 	ATP binding, 
E01G6.3	E01G6.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:O17592]			
E01G6.2	E01G6.2	E01G6.2 [Source:RefSeq_peptide;Acc:NP_510043]			
E01G6.1	E01G6.1	E01G6.1 [Source:RefSeq_peptide;Acc:NP_510044]			serine-type endopeptidase inhibitor activity, 
H19J13.1	H19J13.1	H19J13.1 [Source:RefSeq_peptide;Acc:NP_510045]			
H19J13.2	H19J13.2	H19J13.2 [Source:RefSeq_peptide;Acc:NP_001024739]			
C04B4.6	C04B4.6	C04B4.6 [Source:RefSeq_peptide;Acc:NP_510046]			
C04B4.1	C04B4.1	C04B4.1 [Source:RefSeq_peptide;Acc:NP_510047]			
C04B4.2	C04B4.2	C04B4.2 [Source:RefSeq_peptide;Acc:NP_510048]	metabolic process, 		calcium ion binding, triose-phosphate isomerase activity, 
C04B4.3	C04B4.3	C04B4.3 [Source:RefSeq_peptide;Acc:NP_510049]	lipid catabolic process, 		lipase activity, 
C04B4.5	C04B4.5	C04B4.5 [Source:RefSeq_peptide;Acc:NP_510050]			
C04B4.4	C04B4.4	C04B4.4 [Source:RefSeq_peptide;Acc:NP_510051]			
W06D11.1	W06D11.1	W06D11.1 [Source:RefSeq_peptide;Acc:NP_510052]			
W06D11.2	W06D11.2	W06D11.2 [Source:RefSeq_peptide;Acc:NP_510053]			
W06D11.3	W06D11.3	W06D11.3 [Source:RefSeq_peptide;Acc:NP_510054]	embryonic development ending in birth or egg hatching, 		
W06D11.5	W06D11.5	W06D11.5 [Source:RefSeq_peptide;Acc:NP_510055]			
W06D11.4	W06D11.4	W06D11.4 [Source:RefSeq_peptide;Acc:NP_510056]			
F17A2.3	F17A2.3	F17A2.3 [Source:RefSeq_peptide;Acc:NP_510057]			protein binding, zinc ion binding, 
F17A2.4	F17A2.4	F17A2.4 [Source:RefSeq_peptide;Acc:NP_510058]			
xtr-2	F17A2.1	xtr-2 encodes a protein with similarity to TRA-2A and TRA-2B in a region known as the MX region, hypothesized to be a protein-protein interaction domain involved in negatively regulating tra-2 activity in the germ line. [Source: WormBase]			
ceh-40	F17A2.5	ceh-40 encodes one of two C. elegans homeodomain proteins homologous to Extradenticle (Exd/Pbx). ceh-40 genetically interacts with ceh-20 and unc-62 during embryonic development: while loss of ceh-40 activity alone results in no significant embryonic lethality, loss of ceh-40 and ceh-20, or ceh-40, ceh-20, and unc-62, results in incompletely penetrant embryonic lethality. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, 
F17A2.13	F17A2.13	F17A2.13 [Source:RefSeq_peptide;Acc:NP_510061]			
srd-40	F17A2.12	Serpentine receptor class delta-40 (Protein srd-40). [Source:Uniprot/SWISSPROT;Acc:Q19509]			
srd-41	F17A2.6	Serpentine receptor class delta-41 (Protein srd-41). [Source:Uniprot/SWISSPROT;Acc:O17821]			
srd-45	F17A2.7	Serpentine receptor class delta-45 (Protein srd-45). [Source:Uniprot/SWISSPROT;Acc:Q19505]			
srd-46	F17A2.10	Serpentine receptor class delta-46 (Protein srd-46). [Source:Uniprot/SWISSPROT;Acc:Q19508]			
srd-47	F17A2.11	Serpentine receptor class delta-47 (Protein srd-47). [Source:Uniprot/SWISSPROT;Acc:Q19507]			
srd-48	F17A2.9	Serpentine receptor class delta-48 (Protein srd-48). [Source:Uniprot/SWISSPROT;Acc:O17822]			
F17A2.t1	F17A2.t1				
srd-44	F17A2.8	Serpentine receptor class delta-44 (Protein srd-44). [Source:Uniprot/SWISSPROT;Acc:O17823]			
zig-2	F42F12.2	2 (Zwei) IG-domain protein family member (zig-2) [Source:RefSeq_peptide;Acc:NP_510069]	protein amino acid phosphorylation, 		ATP binding, vascular endothelial growth factor receptor activity, 
nspc-8	F42F12.12				
nspc-9	F42F12.1	Nematode Specific Peptide family, group C family member (nspc-9) [Source:RefSeq_peptide;Acc:NP_510070]			
nspc-10	F42F12.9	Nematode Specific Peptide family, group C family member (nspc-10) [Source:RefSeq_peptide;Acc:NP_872250]			
F42F12.11	F42F12.11	F42F12.11 [Source:RefSeq_peptide;Acc:NP_001024658]			
F42F12.t1	F42F12.t1				
F42F12.3	F42F12.3	F42F12.3 [Source:RefSeq_peptide;Acc:NP_510071]		integral to membrane, 	protein binding, 
F42F12.4	F42F12.4	F42F12.4 [Source:RefSeq_peptide;Acc:NP_510072]			
nspc-11	F42F12.13				
nspc-12	F42F12.10	Nematode Specific Peptide family, group C family member (nspc-15) [Source:RefSeq_peptide;Acc:NP_510074]			
nspc-13	F42F12.6	Nematode Specific Peptide family, group C family member (nspc-14) [Source:RefSeq_peptide;Acc:NP_872249]			
nspc-14	F42F12.7	Nematode Specific Peptide family, group C family member (nspc-14) [Source:RefSeq_peptide;Acc:NP_872249]			
nspc-15	F42F12.8	Nematode Specific Peptide family, group C family member (nspc-15) [Source:RefSeq_peptide;Acc:NP_510074]			
F19H6.6	F19H6.6	F19H6.6 [Source:RefSeq_peptide;Acc:NP_510075]			
F19H6.5	F19H6.5	F19H6.5 [Source:RefSeq_peptide;Acc:NP_510076]			
F19H6.4	F19H6.4	F19H6.4 [Source:RefSeq_peptide;Acc:NP_510077]	embryonic development ending in birth or egg hatching, 	integral to membrane, 	
F19H6.t1	F19H6.t1				
F19H6.3	F19H6.3	F19H6.3 [Source:RefSeq_peptide;Acc:NP_510078]			iron ion binding, oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen, 
F19H6.2	F19H6.2	F19H6.2 [Source:RefSeq_peptide;Acc:NP_510079]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
F19H6.7	F19H6.7	F19H6.7 [Source:RefSeq_peptide;Acc:NP_001024592]			
nekl-3	F19H6.1	F19H6.1 [Source:RefSeq_peptide;Acc:NP_510080]	protein amino acid phosphorylation, locomotory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F17E5.2	F17E5.2	Probable calcium-binding mitochondrial carrier F17E5.2. [Source:Uniprot/SWISSPROT;Acc:Q19529]	transport, pathogenesis, mitochondrial transport, 	membrane, mitochondrion, extracellular region, mitochondrial inner membrane, 	transporter activity, binding, calcium ion binding, 
lin-2	F17E5.1	lin-2 encodes a protein belonging to the membrane associated guanylate kinase (MAGUK) family, with several domains (L27, PDZ, SH3, and guanylate kinase) thought to assemble specific multiprotein complexes in particular regions of the cell. in vivo, LIN-2 is required for the correct localization of LET-23 (and, presumably, other membrane proteins) to specific regions of the plasma membrane. [Source: WormBase]	protein amino acid phosphorylation, oviposition, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
T24D3.2	T24D3.2	T24D3.2 [Source:RefSeq_peptide;Acc:NP_001024925]			
med-1	T24D3.1	The med-1 gene encodes a GATA-type transcription factor that is an immediate target of maternal SKN-1, and that participates in specifying the mesendoderm. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
T18D3.8	T18D3.8	T18D3.8 [Source:RefSeq_peptide;Acc:NP_510085]			
T18D3.7	T18D3.7	Uncharacterized protein T18D3.7. [Source:Uniprot/SWISSPROT;Acc:Q22544]	regulation of transcription, DNA-dependent, 		protein binding, transcription factor activity, 
T18D3.6	T18D3.6	T18D3.6 [Source:RefSeq_peptide;Acc:NP_510087]			
T18D3.9	T18D3.9	Mpv17-like protein. [Source:Uniprot/SWISSPROT;Acc:Q7YWV6]	regulation of transcription, 	integral to membrane, 	transcription regulator activity, 
T18D3.1	T18D3.1	T18D3.1 [Source:RefSeq_peptide;Acc:NP_510088]	signal transduction, 	protein phosphatase type 2A complex, 	protein phosphatase type 2A regulator activity, 
T18D3.t1	T18D3.t1				
odr-7	T18D3.2	odr-7 encodes an olfactory-specific member of the nuclear receptor superfamily that affects chemotaxis to some volatile odorants and the cell fate of the AWA olfactory neurons. ODR-7 is expressed in the AWA neurons. in specifying the identity of the AWA neurons, ODR-7 appears to lie upstream of odr-10, which encodes a seven transmembrane domain olfactory receptor that is required for the response to diacetyl, an odorant detected by the AWA neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, positive chemotaxis, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, ligand-dependent nuclear receptor activity, 
T18D3.5	T18D3.5	T18D3.5 [Source:RefSeq_peptide;Acc:NP_510090]			
T18D3.3	T18D3.3	T18D3.3 [Source:RefSeq_peptide;Acc:NP_510091]	transport, cation transport, 	membrane, 	transporter activity, protein binding, cation transmembrane transporter activity, 
myo-2	T18D3.4	myo-2 encodes a muscle-type specific myosin heavy chain isoform. myo-2 is expressed in pharyngeal muscle. [Source: WormBase]	proteolysis, 	myosin complex, 	ATP binding, subtilase activity, motor activity, 
F45E6.1	F45E6.1	F45E6.1 [Source:RefSeq_peptide;Acc:NP_510093]	transport, 	membrane, 	transporter activity, 
atf-6	F45E6.2	atf-6 is an ortholog of mammalian ATF6alpha, a proximal sensor required for the unfolded protein response (UPR) in the endoplasmic reticulum (ER). ATF6alpha is a transmembrane protein, with a bZIP transcription factor domain in its cytosolic amino terminus that is released and activated by proteolytic cleavage upon ER stress. either ire-1 or xbp-1 deletions are synthetically lethal with atf-6 or pek-1 deletions, producing arrest in L2 larvae. RNAi of Y56A3A.2 (a S2P protease homolog) is synthetically lethal with ire-1(RNAi), consistent with the hypothesis that Y56A3A.2 cleaves ATF-6. atf-6 regulates few genes that are transcriptionally induced by UPR, but regulates roughly one-quarter of genes that require UPR constitutively. pdr-1 transcripts are strongly upregulated in a atf-6(ok551) mutant background, but atf-6(ok551).pdr-1(lg103) double mutants have a grossly normal phenotype . atf-6 is dispensable for proper localization of GLR-1 glutamate receptors. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
F45E6.3	F45E6.3	F45E6.3 [Source:RefSeq_peptide;Acc:NP_510095]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
F45E6.4	F45E6.4	F45E6.4 [Source:RefSeq_peptide;Acc:NP_510096]	lipid catabolic process, 		lipase activity, 
sdz-19	F45E6.6	SKN-1 Dependent Zygotic transcript family member (sdz-19) [Source:RefSeq_peptide;Acc:NP_510097]			
scd-1	H20J18.1	scd-1 encodes a novel protein with several regions that are extremely glutamine (Q) rich, interspersed with other residues (usually alanine). SCD-1 affects signalling by proteins in the DAF-7/transforming growth factor (TGF)-beta pathway (DAF-1, DAF-8, and DAF-14), and the Q-rich regions of SCD-1 protein may mediate epigenetic changes of stably heritable tertiary conformation. [Source: WormBase]	cell-matrix adhesion, 	cytoskeleton, 	
C16D6.1	C16D6.1	C16D6.1 [Source:RefSeq_peptide;Acc:NP_510099]			
C16D6.3	C16D6.3	C16D6.3 [Source:RefSeq_peptide;Acc:NP_510100]			
C16D6.2	C16D6.2	C16D6.2 [Source:RefSeq_peptide;Acc:NP_510101]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, galanin receptor activity, 
R01H5.t1	R01H5.t1				
T24D5.1	T24D5.1	T24D5.1 [Source:RefSeq_peptide;Acc:NP_510102]			
T24D5.3	T24D5.3	T24D5.3 [Source:RefSeq_peptide;Acc:NP_510103]			
T24D5.2	T24D5.2	T24D5.2 [Source:RefSeq_peptide;Acc:NP_510104]			
T24D5.4	T24D5.4	T24D5.4 [Source:RefSeq_peptide;Acc:NP_510105]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, 
T24D5.5	T24D5.5	T24D5.5 [Source:RefSeq_peptide;Acc:NP_510106]			
T24D5.6	T24D5.6	T24D5.6 [Source:RefSeq_peptide;Acc:NP_001024926]			
R09A8.1	R09A8.1	R09A8.1 [Source:RefSeq_peptide;Acc:NP_510107]			
R09A8.2	R09A8.2	R09A8.2 [Source:RefSeq_peptide;Acc:NP_510108]			
tag-147	R09A8.3	Temporarily Assigned Gene name family member (tag-147) [Source:RefSeq_peptide;Acc:NP_510109]	superoxide metabolic process, 		protein binding, metal ion binding, superoxide dismutase activity, 
col-182	R09A8.4	COLlagen family member (col-182) [Source:RefSeq_peptide;Acc:NP_510110]	phosphate transport, 	cytoplasm, 	
R09A8.5	R09A8.5	R09A8.5 [Source:RefSeq_peptide;Acc:NP_510111]			
H36L18.1	H36L18.1	H36L18.1 [Source:RefSeq_peptide;Acc:NP_510112]	proteolysis, 	proteinaceous extracellular matrix, 	metal ion binding, zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, catalytic activity, 
H36L18.2	H36L18.2	H36L18.2 [Source:RefSeq_peptide;Acc:NP_510113]			
C02B4.3	C02B4.3	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q17590]			
C02B4.t1	C02B4.t1				
C02B4.4	C02B4.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A5JYR5]			
nhr-17	C02B4.2	nhr-17 encodes a member of the superfamily of nuclear receptors, which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C02B4.t2	C02B4.t2				
adt-1	C02B4.1	The adt-1 gene encodes a metalloproteinase with disintegrin-like and metalloproteinase with thrombospondin type I motifs (ADAMTS) that is required for male tail morphogenesis. [Source: WormBase]	proteolysis, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
ugt-50	T07C5.1	Putative UDP-glucuronosyltransferase ugt-50 precursor (EC 2.4.1.17) (UDPGT 50). [Source:Uniprot/SWISSPROT;Acc:Q22295]	metabolic process, 		transferase activity, transferring hexosyl groups, 
nhr-26	T07C5.5	Nuclear Hormone Receptor family member (nhr-26) [Source:RefSeq_peptide;Acc:NP_510119]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
nhr-215	T07C5.4	Nuclear Hormone Receptor family member (nhr-215) [Source:RefSeq_peptide;Acc:NP_510120]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-214	T07C5.3	Nuclear Hormone Receptor family member (nhr-214) [Source:RefSeq_peptide;Acc:NP_510121]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-272	T07C5.2	Nuclear Hormone Receptor family member (nhr-272) [Source:RefSeq_peptide;Acc:NP_510122]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
nhr-27	F16H9.2	Nuclear Hormone Receptor family member (nhr-27) [Source:RefSeq_peptide;Acc:NP_510123]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, 
rgs-2	F16H9.1	rgs-2 encodes a regulator of G protein signaling. by homology, RGS-2 is predicted to function as a GTPase-activating protein for heterotrimeric G-protein alpha-subunits, and in vitro RGS-2 can stimulate the GTPase activity of purified GOA-1. in vivo, rgs-2 appears to function redundantly with rgs-1 to regulate egg-laying behavior when animals are refed following starvation. rgs-2 is expressed in pharyngeal and uterine muscles and in a subset of neurons, including neurons in the ventral cord and head- and tail-ganglia. [Source: WormBase]			signal transducer activity, 
pgp-12	F22E10.1	pgp-12 encodes a transmembrane protein that is a member of the P-glycoprotein subclass of ATP-binding cassette (ABC) transporters. although loss of pgp-12 function via mutation or RNAi results in no obvious defects, pgp-12 promoter fusion constructs reveal expression in the excretory cell, consistent with a role for pgp-12 in metabolite transporter activity. pgp-12 expression is regulated by the DCP-66 transcription factor which binds the pgp-12 Ex-1 promoter element in yeast one-hybrid and EMSA experiments. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pgp-13	F22E10.2	pgp-13 encodes a member of the ABC transporter family with high similarity to the vertebrate MDR (multidrug resistance) family. PGP-13 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-13 activity via large-scale RNAi screens does not result in any obvious defects, the precise role of pgp-13 in C. elegans development and/or behavior is not yet known. pgp-13 promoter-gfp fusion proteins are expressed in larvae and adults in the posterior intestine and the amphids. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, uridine kinase activity, 
pgp-14	F22E10.3	pgp-14 encodes a member of the ABC transporter family with high similarity to the vertebrate MDR (multidrug resistance) family. PGP-14 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-14 activity via large-scale RNAi screens does not result in any obvious defects, the precise role of pgp-14 in C. elegans development and/or behavior is not yet known. pgp-14 promoter-gfp fusion proteins are expressed in larvae and adults in the anterior pharynx. [Source: WormBase]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, uridine kinase activity, 
pgp-15	F22E10.4	pgp-15 encodes an ATP-binding protein that is a member of the P-glycoprotein subclass of the ATP-binding cassette (ABC) transporter superfamily. PGP-15 is predicted to function as a transmembrane protein that couples energy to transport of various molecules across membranes, but as loss of pgp-15 activity via large-scale RNAi screens does not result in any obvious defects, the precise role of pgp-15 in C. elegans development and/or behavior is not yet known. pgp-15 promoter-gfp fusion proteins are expressed in head and tail neurons. [Source: WormBase]			
F22E10.5	F22E10.5	F22E10.5 [Source:RefSeq_peptide;Acc:NP_510130]	phospholipid biosynthetic process, 	membrane, 	phosphotransferase activity, for other substituted phosphate groups, 
T22H6.1	T22H6.1	T22H6.1 [Source:RefSeq_peptide;Acc:NP_510131]			
T22H6.2	T22H6.2	Probable delta-1-pyrroline-5-carboxylate synthetase (P5CS) [Includes: Glutamate 5-kinase (EC 2.7.2.11) (Gamma-glutamyl kinase) (GK); Gamma- glutamyl phosphate reductase (GPR) (EC 1.2.1.41) (Glutamate-5- semialdehyde dehydrogenase) (Glutamyl-gamma-semialde [Source:Uniprot/SWISSPROT;Acc:P54889]	proline biosynthetic process, amino acid biosynthetic process, arginine metabolic process, positive regulation of growth rate, 	cytoplasm, 	glutamate-5-semialdehyde dehydrogenase activity, catalytic activity, glutamate 5-kinase activity, carbamate kinase activity, 
str-124	T22H6.3	Seven TM Receptor family member (str-124) [Source:RefSeq_peptide;Acc:NP_510134]			
str-123	T22H6.4	Seven TM Receptor family member (str-123) [Source:RefSeq_peptide;Acc:NP_510135]			
abf-5	T22H6.5	The abf-5 gene encodes a homolog of the antibacterial factor ASABF from Ascaris suum. [Source: WormBase]			
abf-6	T22H6.7	abf-6 encodes a homolog of the antibacterial factor ASABF from Ascaris suum. ABF-6 may play a role in innate immunity, though at present the only evidence for its having an antimicrobial humoral function is its sequence similarity. [Source: WormBase]			
gei-3	T22H6.6	gei-3 encodes a member of the high mobility group (HMG) protein family. interacts with GEX-3 in yeast two-hybrid assays. [Source: WormBase]	regulation of transcription, DNA-dependent, 		DNA binding, 
C52G5.2	C52G5.2	C52G5.2 [Source:RefSeq_peptide;Acc:NP_510139]			
C52G5.t1	C52G5.t1				
C52G5.3	C52G5.3	C52G5.3 [Source:RefSeq_peptide;Acc:NP_001024485]			
chd-3	T14G8.1	chd-3 encodes a PHD-finger SNF2 family member containing a chromo domain and a C-terminal helicase domain that affects Notch-dependent vulval development. expressed in virtually all embryonic cells and in many larval nuclei. [Source: WormBase]	intracellular signaling cascade, chromatin assembly or disassembly, chromatin remodeling, negative regulation of vulval development, 	nucleus, chromatin, histone deacetylase complex, 	ATP binding, protein binding, zinc ion binding, DNA binding, nucleic acid binding, helicase activity, chromatin binding, ATP-dependent helicase activity, 
T14G8.t1	T14G8.t1				
T14G8.2	T14G8.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
T14G8.3	T14G8.3	T14G8.3 encodes an ortholog of hypoxia-upregulated vertebrate proteins such as human HYOU1. T14G8.3, its C. elegans paralog T24H7.2, and HYOU1 are ER resident hsp70 family molecular chaperone homologs. the grp (glucose regulated protein) 170 family is a collection of related large hsp70 chaperones confined to the ER. members of this family are present in all eukaryotes, participating in a wide range of cellular functions. [Source: WormBase]			ATP binding, 
T14G8.4	T14G8.4	T14G8.4 [Source:RefSeq_peptide;Acc:NP_510143]			
bcat-1	K02A4.1	bcat-1 encodes a branched-chain amino acid aminotransferase that, by homology, is predicted to catalyze the first reaction in the catabolism of essential branched-chain amino acids such as leucine, isoleucine, and valine. in C. elegans, large-scale RNA-mediated interference (RNAi) screens indicate that bcat-1 activity is required for embryonic and larval development. [Source: WormBase]	metabolic process, branched chain family amino acid metabolic process, embryonic development ending in birth or egg hatching, 		catalytic activity, branched-chain-amino-acid transaminase activity, 
gpc-1	K02A4.2	The gpc-1 gene encodes a heterotrimeric guanine nucleotide-binding protein gamma subunit, expressed specifically in sensory neurons, that is involved in taste adaptation. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, sensory perception of taste, 	heterotrimeric G-protein complex, 	signal transducer activity, 
K02A4.t1	K02A4.t1				
K02A4.t2	K02A4.t2				
pqn-18	C34E7.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
C34E7.5	C34E7.5				
C34E7.3	C34E7.3	C34E7.3 [Source:RefSeq_peptide;Acc:NP_510148]			
C34E7.4	C34E7.4	C34E7.4 [Source:RefSeq_peptide;Acc:NP_510149]	positive regulation of multicellular organism growth, 		
C05E7.t1	C05E7.t1				
C05E7.t2	C05E7.t2				
C05E7.2	C05E7.2	C05E7.2 [Source:RefSeq_peptide;Acc:NP_510150]			
C05E7.1	C05E7.1	C05E7.1 [Source:RefSeq_peptide;Acc:NP_001024361]			
C05E7.t3	C05E7.t3				
C05E7.3	C05E7.3	C05E7.3 [Source:RefSeq_peptide;Acc:NP_510153]			
C05E7.4	C05E7.4	C05E7.4 [Source:RefSeq_peptide;Acc:NP_510154]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
ppk-3	VF11C1L.1	PIP Kinase family member (ppk-3) [Source:RefSeq_peptide;Acc:NP_510155]	phosphatidylinositol metabolic process, 		zinc ion binding, phosphatidylinositol phosphate kinase activity, 
F11C1.4	F11C1.4	F11C1.4 [Source:RefSeq_peptide;Acc:NP_510156]			
F11C1.3	F11C1.3	F11C1.3 [Source:RefSeq_peptide;Acc:NP_510157]	cell adhesion, 	membrane, viral capsid, 	structural molecule activity, 
F11C1.2	F11C1.2	F11C1.2 [Source:RefSeq_peptide;Acc:NP_510158]			
F11C1.1	F11C1.1	F11C1.1 [Source:RefSeq_peptide;Acc:NP_510159]			
F11C1.7	F11C1.7				
F11C1.5	F11C1.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q19346]	proteolysis, translation, G-protein coupled receptor protein signaling pathway, 	intracellular, ribosome, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, signal transducer activity, serine-type endopeptidase activity, guanyl nucleotide binding, structural constituent of ribosome, ATP-dependent peptidase activity, 
nhr-25	F11C1.6	nhr-25 encodes a nuclear hormone receptor orthologous to Drosophila Ftz-F1. NHR-25 is required for embryogenesis, molting, vulval and gonadal development, and hypodermal expression of acn-1. nhr-25 is expressed in gonads and loaded into embryos as a maternal transcript. nhr-25 is zygotically expressed in progeny of the E cell, and then in hypodermis and gut. the role of NHR-25 in molting may be evolutionarily conserved between nematodes and arthopods. [Source: WormBase]	regulation of transcription, DNA-dependent, oviposition, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
C53C7.1	C53C7.1	C53C7.1b [Source:RefSeq_peptide;Acc:NP_001024488]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
C53C7.t3	C53C7.t3				
C53C7.t2	C53C7.t2				
C53C7.t1	C53C7.t1				
C53C7.3	C53C7.3	C53C7.3 [Source:RefSeq_peptide;Acc:NP_510165]			protein binding, 
C53C7.4	C53C7.4				
K03A11.1	K03A11.1	K03A11.1 [Source:RefSeq_peptide;Acc:NP_510166]			
K03A11.6	K03A11.6				
K03A11.5	K03A11.5	K03A11.5 [Source:RefSeq_peptide;Acc:NP_510167]			
cpx-2	K03A11.2	ComPleXin (synaptic protein) homolog family member (cpx-2) [Source:RefSeq_peptide;Acc:NP_510168]	neurotransmitter transport, 		syntaxin binding, 
ceh-28	K03A11.3	A homeobox protein of the NK-2 family. it is expressed in a single pharyngeal neuron, M4. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
K03A11.4	K03A11.4	K03A11.4 [Source:RefSeq_peptide;Acc:NP_510170]			
str-10	R03G8.5	Seven TM Receptor family member (str-10) [Source:RefSeq_peptide;Acc:NP_510171]			
R03G8.1	R03G8.1				
R03G8.3	R03G8.3	R03G8.3 [Source:RefSeq_peptide;Acc:NP_510174]			
R03G8.6	R03G8.6	R03G8.6 [Source:RefSeq_peptide;Acc:NP_510175]	proteolysis, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
R03G8.4	R03G8.4	R03G8.4 [Source:RefSeq_peptide;Acc:NP_510176]	proteolysis, 		zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
F17H10.1	F17H10.1	F17H10.1 [Source:RefSeq_peptide;Acc:NP_510177]	embryonic development ending in birth or egg hatching, 		
F17H10.2	F17H10.2	F17H10.2a [Source:RefSeq_peptide;Acc:NP_001041245]			
F17H10.3	F17H10.3	PX domain-containing protein F17H10.3. [Source:Uniprot/SWISSPROT;Acc:Q19532]	cell communication, 		protein binding, phosphoinositide binding, 
F17H10.t1	F17H10.t1				
F17H10.4	F17H10.4	F17H10.4 [Source:RefSeq_peptide;Acc:NP_510180]			
F09A5.1	F09A5.1	F09A5.1 [Source:RefSeq_peptide;Acc:NP_510181]	transport, 	integral to membrane, 	transporter activity, 
F09A5.2	F09A5.2	Putative tyrosine-protein kinase F09A5.2 (EC 2.7.10.1). [Source:Uniprot/SWISSPROT;Acc:Q19238]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F09A5.9	F09A5.9	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPK9]			
F09A5.3	F09A5.3	F09A5.3 [Source:RefSeq_peptide;Acc:NP_510183]			
F09A5.4	F09A5.4	F09A5.4c [Source:RefSeq_peptide;Acc:NP_510184]			
nlp-3	F48C11.3	nlp-3 encodes a neuropeptide-like protein of the GFxGF family with similarity to orcokinins, highly conserved peptides native to crustaceans that enhance hindgut contractions. NLP-3 is expressed in neurons in the head, pharynx, and vulva, and in the intestine. the precise role of NLP-3 in nervous system function and development is not yet clear. [Source: WormBase]			
cwp-5	F48C11.2	Coexpressed With Polycystins family member (cwp-5) [Source:RefSeq_peptide;Acc:NP_510188]			sugar binding, 
gpa-6	F48C11.1	gpa-6 encodes a member of the G protein alpha subunit family of heterotrimeric GTPases that affects response to water-soluble odorants. it is expressed in AWA amphid neurons, the PHB sensory cell, and (at low levels) in ASI amphid neurons. [Source: WormBase]	small GTPase mediated signal transduction, G-protein coupled receptor protein signaling pathway, 	intracellular, 	GTP binding, signal transducer activity, guanyl nucleotide binding, 
unc-9	R12H7.1	unc-9 encodes an innexin, an integral transmembrane channel protein that is a structural component of invertebrate gap junctions. UNC-9 is required for normal forward locomotion and egg-laying and also plays a role in the response to antihelminthics and volatile anesthetics. UNC-9 may form a functional pair with UNC-7, another C. elegans innexin, as mutations in unc-7 result in defects nearly identical to those in unc-9 mutant animals. [Source: WormBase]		gap junction, 	
R12H7.4	R12H7.4	R12H7.4 [Source:RefSeq_peptide;Acc:NP_510190]			
asp-4	R12H7.2	asp-4 encodes an aspartyl protease homolog that is required, in parallel with ASP-3 but downstream of CLP-1 and TRA-3, for degenerative (necrotic-like) cell death in neurons induced by mutations such as mec-4(d), deg-3(d), or gsa-1(gf). [Source: WormBase]	proteolysis, cell death, 	lysosome, 	pepsin A activity, aspartic-type endopeptidase activity, 
skr-20	R12H7.5	The skr-20 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-20(RNAi) animals are at least superficially normal. [Source: WormBase]			
skr-19	R12H7.3	The skr-19 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-19(RNAi) animals are at least superficially normal. [Source: WormBase]			
skr-21	K08H2.1	The skr-21 gene encodes a homolog of Skp1 in S. cerevisiae that has no known function in vivo, since skr-21(RNAi) animals are at least superficially normal. [Source: WormBase]			
K08H2.9	K08H2.9	K08H2.9 [Source:RefSeq_peptide;Acc:NP_001024774]			
K08H2.2	K08H2.2	K08H2.2 [Source:RefSeq_peptide;Acc:NP_510195]			
K08H2.3	K08H2.3	K08H2.3 [Source:RefSeq_peptide;Acc:NP_510196]			
K08H2.4	K08H2.4	K08H2.4 [Source:RefSeq_peptide;Acc:NP_510197]			
K08H2.5	K08H2.5	K08H2.5 [Source:RefSeq_peptide;Acc:NP_510198]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
hpl-1	K08H2.6	hpl-1 encodes one of two C. elegans heterochromatin protein 1 (HP1) homologs. loss of hpl-1 activity alone results in no obvious defects, but animals doubly mutant for hpl-1 and hpl-2 have defects in larval, somatic gonad and germline development. in addition, hpl-1 functions redundantly with hpl-2 and lin-13 in vulval development. rescuing HPL-1::GFP fusion proteins are expressed in nuclei throughout the life cycle, beginning at approximately the 50-cell stage of embryogenesis and continuing through larval and adult stages. expression is observed in most, but not all, cells and is particularly strong in head and tail hypodermal and neuronal nuclei. in nuclei, HPL-1::GFP is seen in foci that do not significantly overlap with those of HPL-2. [Source: WormBase]	chromatin assembly or disassembly, reproduction, gonad development, 	nucleus, chromatin, 	protein binding, chromatin binding, 
K08H2.7	K08H2.7	K08H2.7 [Source:RefSeq_peptide;Acc:NP_510200]			
nhr-32	K08H2.8	Nuclear Hormone Receptor family member (nhr-32) [Source:RefSeq_peptide;Acc:NP_510201]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
K08H2.t1	K08H2.t1				
K09A11.1	K09A11.1	K09A11.1 [Source:RefSeq_peptide;Acc:NP_510202]		intracellular, 	protein binding, zinc ion binding, DNA binding, nucleic acid binding, protein dimerization activity, 
K09A11.t1	K09A11.t1				
cyp-14A1	K09A11.2	CYtochrome P450 family member (cyp-14A1) [Source:RefSeq_peptide;Acc:NP_510203]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-14A2	K09A11.3	CYtochrome P450 family member (cyp-14A2) [Source:RefSeq_peptide;Acc:NP_510204]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
cyp-14A3	K09A11.4	CYtochrome P450 family member (cyp-14A3) [Source:RefSeq_peptide;Acc:NP_510205]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
K09A11.5	K09A11.5	K09A11.5 [Source:RefSeq_peptide;Acc:NP_510206]			protein binding, zinc ion binding, 
cyp-14A4	R04D3.1	CYtochrome P450 family member (cyp-14A4) [Source:RefSeq_peptide;Acc:NP_510207]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
R04D3.t5	R04D3.t5				
R04D3.t4	R04D3.t4				
R04D3.2	R04D3.2	R04D3.2 [Source:RefSeq_peptide;Acc:NP_510208]			
R04D3.4	R04D3.4	R04D3.4 [Source:RefSeq_peptide;Acc:NP_510209]			
R04D3.3	R04D3.3	R04D3.3 [Source:RefSeq_peptide;Acc:NP_510210]			
srd-38	R04D3.12	Serpentine Receptor, class D (delta) family member (srd-38) [Source:RefSeq_peptide;Acc:NP_510211]			
R04D3.t1	R04D3.t1				
srd-36	R04D3.6	Serpentine Receptor, class D (delta) family member (srd-36) [Source:RefSeq_peptide;Acc:NP_510212]			
srd-37	R04D3.11				
srd-39	R04D3.8	Serpentine Receptor, class D (delta) family member (srd-39) [Source:RefSeq_peptide;Acc:NP_510213]			
srd-42	R04D3.7	Serpentine Receptor, class D (delta) family member (srd-42) [Source:RefSeq_peptide;Acc:NP_510214]			
srd-43	R04D3.9	Serpentine Receptor, class D (delta) family member (srd-43) [Source:RefSeq_peptide;Acc:NP_510215]			
R04D3.t2	R04D3.t2				
srxa-8	R04D3.10	Serpentine Receptor, class XA family member (srxa-8) [Source:RefSeq_peptide;Acc:NP_510216]			
R04D3.t3	R04D3.t3				
F46G10.1	F46G10.1	F46G10.1 [Source:RefSeq_peptide;Acc:NP_510217]	potassium ion transport, 	membrane, voltage-gated potassium channel complex, 	protein binding, voltage-gated potassium channel activity, 
F46G10.2	F46G10.2	F46G10.2 [Source:RefSeq_peptide;Acc:NP_510218]			
sir-2.2	F46G10.7	sir-2.2 encodes a member of the conserved SIR2-like family of proteins that function in chromatin organization and remodeling. SIR-2.2 may play a role in genomic stability and protecing the genome against mutations, as loss of SIR-2.2 function via RNA-mediated interference (RNAi) results in an increased level of spontaneous mutagenesis. [Source: WormBase]	DNA repair, regulation of transcription, DNA-dependent, chromatin silencing, 	chromatin silencing complex, 	DNA binding, 
sir-2.3	F46G10.3	F46G10.3 [Source:RefSeq_peptide;Acc:NP_510220]	regulation of transcription, DNA-dependent, chromatin silencing, 	chromatin silencing complex, 	DNA binding, 
F46G10.4	F46G10.4	F46G10.4 [Source:RefSeq_peptide;Acc:NP_510221]	lipid metabolic process, 		triacylglycerol lipase activity, 
ptr-24	F46G10.5	ptr-24 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-24 has no known function in vivo. [Source: WormBase]	embryonic development ending in birth or egg hatching, 	membrane, integral to membrane, 	hedgehog receptor activity, 
mxl-3	F46G10.6	MaX-Like family member (mxl-3) [Source:RefSeq_peptide;Acc:NP_510223]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	transcription regulator activity, transcription factor activity, 
C49F8.1	C49F8.1	C49F8.1 [Source:RefSeq_peptide;Acc:NP_510224]			
C49F8.2	C49F8.2	C49F8.2 [Source:RefSeq_peptide;Acc:NP_510225]			secondary active monocarboxylate transmembrane transporter activity, 
C49F8.3	C49F8.3	C49F8.3 [Source:RefSeq_peptide;Acc:NP_510226]			
F02C12.4	F02C12.4	F02C12.4 [Source:RefSeq_peptide;Acc:NP_510227]		membrane, 	
F02C12.3	F02C12.3	F02C12.3 [Source:RefSeq_peptide;Acc:NP_510228]			
F02C12.2	F02C12.2	F02C12.2 [Source:RefSeq_peptide;Acc:NP_510229]	metabolic process, electron transport, enterobactin biosynthetic process, 		oxidoreductase activity, alcohol dehydrogenase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
F02C12.1	F02C12.1	F02C12.1 [Source:RefSeq_peptide;Acc:NP_510230]			zinc ion binding, 
cyp-13B1	F02C12.5	Putative cytochrome P450 cyp-13B1 (EC 1.14.-.-). [Source:Uniprot/SWISSPROT;Acc:O17624]	electron transport, 	cellular_component, 	iron ion binding, oxidoreductase activity, monooxygenase activity, heme binding, 
C29F7.8	C29F7.8				
C29F7.1	C29F7.1	C29F7.1 [Source:RefSeq_peptide;Acc:NP_510234]			
C29F7.t3	C29F7.t3				
C29F7.2	C29F7.2	C29F7.2 [Source:RefSeq_peptide;Acc:NP_510235]			
C29F7.3	C29F7.3	C29F7.3 [Source:RefSeq_peptide;Acc:NP_510236]	nucleobase, nucleoside, nucleotide and nucleic acid metabolic process, 		ATP binding, uridine kinase activity, nucleotide kinase activity, phosphotransferase activity, phosphate group as acceptor, 
fkh-3	C29F7.4	fkh-3 encodes one of 15 C. elegans forkhead transcription factors. loss of fkh-3 activity via RNAi, either singly or in combination with the closely related fkh-4 and fkh-5 genes, results in no obvious abnormalities, suggesting functional redundancy with other genes. an FKH-3 reporter fusion is expressed in most, but not all, cells of the early embryo from the 20- to the 200-cell stage. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
fkh-4	C29F7.5	fkh-4 encodes a member of the forkhead domain transcription factor family. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C29F7.t1	C29F7.t1				
C29F7.6	C29F7.6	C29F7.6 [Source:RefSeq_peptide;Acc:NP_510239]			
C29F7.7	C29F7.7	C29F7.7 [Source:RefSeq_peptide;Acc:NP_510240]			
C29F7.t2	C29F7.t2				
F02D10.t3	F02D10.t3				
set-8	F02D10.7	F02D10.7 [Source:RefSeq_peptide;Acc:NP_510241]	DNA repair, 	nucleus, 	protein binding, zinc ion binding, 
F02D10.t1	F02D10.t1				
F02D10.t2	F02D10.t2				
F02D10.6	F02D10.6	F02D10.6 [Source:RefSeq_peptide;Acc:NP_510242]	embryonic development ending in birth or egg hatching, 		
flr-1	F02D10.5	flr-1 encodes an ion channel that belongs to the DEG/ENaC sodium channel superfamily. flr-1 activity is essential for normal defecation rhythm, growth rates, expulsion, and dauer larvae formation. a rescuing FLR-1::GFP reporter is expressed in the intestine from embryonic to adult stages where it localizes to the membranes facing the inner lumen as well as to part of the lateral membrane between intestinal cells. [Source: WormBase]	sodium ion transport, positive regulation of growth rate, 	membrane, 	sodium channel activity, 
F02D10.4	F02D10.4	F02D10.4 [Source:RefSeq_peptide;Acc:NP_510244]			
F02D10.3	F02D10.3	F02D10.3 [Source:RefSeq_peptide;Acc:NP_510245]			
F02D10.2	F02D10.2	F02D10.2 [Source:RefSeq_peptide;Acc:NP_510246]			
col-183	F02D10.1	COLlagen family member (col-183) [Source:RefSeq_peptide;Acc:NP_510247]	phosphate transport, positive regulation of multicellular organism growth, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
col-184	F15A2.1	F15A2.1 [Source:RefSeq_peptide;Acc:NP_510248]	phosphate transport, potassium ion transport, embryonic development ending in birth or egg hatching, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, voltage-gated potassium channel activity, 
tre-4	F15A2.2	TREhalase family member (tre-4) [Source:RefSeq_peptide;Acc:NP_510249]	trehalose metabolic process, 	endoplasmic reticulum, 	alpha,alpha-trehalase activity, 
efn-3	F15A2.5	efn-3 encodes a potential GPI-modified ephrin that is, with EFN-2, is required for normal epidermal organization in the male tail. EFN-3, along with EFN-1 and EFN-2, activates the VAB-1 tyrosine kinase in vivo and binds it in vitro, and has a minor role in embryonic epiboly. [Source: WormBase]		membrane, 	
srd-50	F15A2.4	Serpentine receptor class delta-50 (Protein srd-50). [Source:Uniprot/SWISSPROT;Acc:Q19474]			
srd-51	F15A2.3	Serpentine receptor class delta-51 (Protein srd-51). [Source:Uniprot/SWISSPROT;Acc:Q19473]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
sad-1	F15A2.6	sad-1 encodes a novel serine/threonine protein kinase. SAD-1 activity is required for several aspects of presynaptic development, including termination of axon outgrowth and presynaptic vesicle clustering, in GABAergic motor neurons and the ASI amphid chemosensory neuron. in addition, overexpression studies suggest that SAD-1 may also play a role in regulating axonal-dendritic polarity. SAD-1 is expressed in the nervous system, where it localizes asymmetrically to the synapse-rich regions of axons. [Source: WormBase]	protein amino acid phosphorylation, proteolysis, synaptic vesicle transport, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, zinc ion binding, metallopeptidase activity, 
F15A2.7	F15A2.7	F15A2.7 [Source:RefSeq_peptide;Acc:NP_510254]			
H06A10.1	H06A10.1	H06A10.1 [Source:RefSeq_peptide;Acc:NP_510255]			
col-185	H06A10.2	COLlagen family member (col-185) [Source:RefSeq_peptide;Acc:NP_001024734]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
H06A10.t1	H06A10.t1				
cdk-4	F18H3.5	cdk-4 encodes two isoforms of a cyclin-dependent serine/threonine protein kinase orthologous to human CDK4 and CDK6 (OMIM:123829 and OMIM:603368, mutated in cutanous malignant melanoma) which complex with D-type cyclins to regulate progression through the G1 phase of the cell cycle. CDK-4 activity is essential for G1 progression in postembryonic blast cells and as a result, cdk-4 mutant animals generally arrest during larval stages. the lethality generated by cdk mutations, also seen in animals doubly mutant for cdk-4 and cyd-1, a C. elegans D-type cyclin, can be suppressed by mutations in lin-35/Rb suggesting that, as in other organisms, LIN-35/Rb may be a major target of CDK-4/CYD-1 kinase activity. CDK-4 expression is first detected in neuronal and hypodermal lineages during mid-to-late embryogenesis, with postembryonic expression detected in hypodermal seam cells, cells of the P lineage which will give rise to ventral cord neurons, and cells of the somatic gonad, the vulva, and the intestine. [Source: WormBase]	protein amino acid phosphorylation, biological_process, G1 phase of mitotic cell cycle, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F18H3.1	F18H3.1	F18H3.1 [Source:RefSeq_peptide;Acc:NP_510258]			
pab-2	F18H3.3	pab-2 encodes a polyadenylate-binding protein 1 homolog with high similarity to human PABP 1. [Source: WormBase]			nucleotide binding, RNA binding, nucleic acid binding, 
F18H3.4	F18H3.4	F18H3.4 [Source:RefSeq_peptide;Acc:NP_510261]			
acr-12	R01E6.4	acr-12 encodes a nicotinic acetylcholine receptor (nAChR) alpha subunit that is a member of the ACR-8-like group of C. elegans nAChR subunits. as an nAChR subunit, ACR-12 is predicted to mediate fast excitatory neurotransmission, however loss of acr-12 activity via mutation or RNAi results in no obvious defects. ACR-12 copurifies with UNC-29 and LEV-1, suggesting that ACR-12 can form receptors with these two non-alpha AChR subunits. an ACR-12::GFP fusion protein is expressed exclusively in ventral cord motor neurons, including the D neurons. in vivo, ACR-12 colocalizes with some, but not all, UNC-38-containing postsynaptic receptor clusters, suggesting that ACR-12 contributes to only a subset of these receptor clusters. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
R01E6.5	R01E6.5	R01E6.5 [Source:RefSeq_peptide;Acc:NP_510263]			
cah-4	R01E6.3	cah-4 encodes a carbonic anhydrase homolog, which is rather divergent from other such homologs in C. elegans (with at most 38% identity to any other carbonic anhydrase, in or out of C. elegans). it is individually dispensable for viability and for grossly normal postembryonic morphology, and thus may have a more subtle biological function than the basic cytoprotective functions expected for carbonic anhydrases. [Source: WormBase]	one-carbon compound metabolic process, post-embryonic body morphogenesis, 		zinc ion binding, carbonate dehydratase activity, 
odr-1	R01E6.1	odr-1 encodes a putative guanylyl cyclase. odr-1 activity is required for normal responses to all AWC-sensed odorants. ODR-1 is expressed in chemosensory neurons including AWC, where it localizes to the flattened ciliated endings. [Source: WormBase]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, olfactory learning, olfactory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
R01E6.6	R01E6.6	R01E6.6 [Source:RefSeq_peptide;Acc:NP_510267]			
R01E6.2	R01E6.2	R01E6.2 [Source:RefSeq_peptide;Acc:NP_510268]			
R01E6.7	R01E6.7	R01E6.7 [Source:RefSeq_peptide;Acc:NP_510269]			
F54B11.11	F54B11.11	F54B11.11 [Source:RefSeq_peptide;Acc:NP_510270]			
F54B11.10	F54B11.10	F54B11.10 [Source:RefSeq_peptide;Acc:NP_510271]			
unc-84	F54B11.3	unc-84 encodes a transmembrane protein that contains a SUN domain with homology to S. pombe Sad1 and affects nuclear migration and anchoring of various cell types together with UNC-83 and ANC-1, thereby affecting coordinated locomotion, vulval formation, and egg laying. UNC-84 is localized to the nuclear envelope and requires LMN-1 for this localization, and it is expressed in the nuclear envelope of essentially all adult and embryonic cells. [Source: WormBase]	regulation of cell migration, embryonic development ending in birth or egg hatching, nuclear migration, 		protein binding, 
col-9	F54B11.1	col-9 encodes a collagen protein. [Source: WormBase]	phosphate transport, immune response, 	membrane, cytoplasm, 	tumor necrosis factor receptor binding, 
col-44	F54B11.2	col-44 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, post-embryonic body morphogenesis, 	cytoplasm, 	structural constituent of cuticle, 
F54B11.4	F54B11.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q20740]			
F54B11.5	F54B11.5	F54B11.5 [Source:RefSeq_peptide;Acc:NP_510276]			protein binding, zinc ion binding, 
bra-1	F54B11.6	The bra-1 gene encodes a homolog of the human BMP receptor-associated molecule (BRAM1) that negatively regulates the DAF-1/DAF-7/DAF-14 TGF-beta signalling pathway. [Source: WormBase]	negative regulation of transforming growth factor beta receptor signaling pathway, 		protein binding, zinc ion binding, 
F54B11.7	F54B11.7	F54B11.7 [Source:RefSeq_peptide;Acc:NP_510278]			protein binding, 
F54B11.8	F54B11.8	F54B11.8 [Source:RefSeq_peptide;Acc:NP_510279]			
F54B11.9	F54B11.9	F54B11.9 [Source:RefSeq_peptide;Acc:NP_510280]			
Y12A6A.2	Y12A6A.2	Y12A6A.2 [Source:RefSeq_peptide;Acc:NP_510281]			
Y12A6A.1	Y12A6A.1	Y12A6A.1 [Source:RefSeq_peptide;Acc:NP_510282]			
nlg-1	C40C9.5	Neuroligin-1 precursor. [Source:Uniprot/SWISSPROT;Acc:Q9XTG1]			
twk-20	C40C9.1	TWiK family of potassium channels family member (twk-20) [Source:RefSeq_peptide;Acc:NP_510284]	potassium ion transport, 	membrane, 	voltage-gated potassium channel activity, potassium channel activity, 
acr-9	C40C9.2	acr-9 encodes a predicted member of the alpha subunit family of nicotinic acetylcholine receptors. [Source: WormBase]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
C40C9.3	C40C9.3	C40C9.3 [Source:RefSeq_peptide;Acc:NP_510286]			
C40C9.4	C40C9.4	C40C9.4 [Source:RefSeq_peptide;Acc:NP_510287]			
C40C9.t1	C40C9.t1				
C40C9.t2	C40C9.t2				
C04A11.1	C04A11.1	C04A11.1 [Source:RefSeq_peptide;Acc:NP_510288]			
C04A11.5	C04A11.5	C04A11.5 [Source:RefSeq_peptide;Acc:NP_001024354]			
C04A11.t1	C04A11.t1				
C04A11.2	C04A11.2	C04A11.2 [Source:RefSeq_peptide;Acc:NP_510289]			
gck-4	C04A11.3	Germinal Center Kinase family member (gck-4) [Source:RefSeq_peptide;Acc:NP_510290]	protein amino acid phosphorylation, locomotory behavior, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
adm-2	C04A11.4	adm-2 encodes a protein containing a snake venom disintegrin-domain and a metalloprotease-like domain (i.e., a protein of the ADAM family). like ADM-1, ADM-2 is homologous to a mammalian sperm glycoprotein (PH-30/fertilin) implicated in sperm-egg fusion, and ADM-2 might thus be a fusogenic protein mediating the merging of plasma membranes during development. [Source: WormBase]	proteolysis, 		zinc ion binding, metallopeptidase activity, metalloendopeptidase activity, 
K02D3.1	K02D3.1	K02D3.1 [Source:RefSeq_peptide;Acc:NP_510292]			
K02D3.2	K02D3.2	K02D3.2 [Source:RefSeq_peptide;Acc:NP_510293]			protein binding, 
K11E4.t1	K11E4.t1				
K11E4.1	K11E4.1	K11E4.1 [Source:RefSeq_peptide;Acc:NP_510294]	lipid metabolic process, 		catalytic activity, triacylglycerol lipase activity, 
K11E4.t2	K11E4.t2				
K11E4.t3	K11E4.t3				
K11E4.2	K11E4.2	K11E4.2 [Source:RefSeq_peptide;Acc:NP_510295]	intracellular signaling cascade, 		
K11E4.3	K11E4.3	The K11E4.3 gene encodes one of five paraoxonase-like proteins. it is homologous to the human PARAOXONASE 1 gene (PON1, OMIM:168820), which in some allelic forms is associated with susceptibility to coronary artery disease. [Source: WormBase]			arylesterase activity, 
pix-1	K11E4.4	PIX (PAK (p21-activated kinase) Interacting eXchange factor) homolog family member (pix-1) [Source:RefSeq_peptide;Acc:NP_510297]	regulation of Rho protein signal transduction, 	membrane, intracellular, 	Rho guanyl-nucleotide exchange factor activity, GABA-B receptor activity, 
K11E4.t4	K11E4.t4				
K11E4.t5	K11E4.t5				
K11E4.t6	K11E4.t6				
nhr-71	K11E4.5	Nuclear hormone receptor family member nhr-71. [Source:Uniprot/SWISSPROT;Acc:Q9GTD4]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
aakb-1	F55F3.1	AMP-Activated Kinase Beta subunit family member (aakb-1) [Source:RefSeq_peptide;Acc:NP_510298]			
F55F3.2	F55F3.2	F55F3.2b [Source:RefSeq_peptide;Acc:NP_741921]			cholinesterase activity, 
F55F3.3	F55F3.3	Probable sodium/potassium-transporting ATPase subunit beta-2 (Sodium/potassium-dependent ATPase beta subunit 2). [Source:Uniprot/SWISSPROT;Acc:Q9XUY5]	sodium ion transport, potassium ion transport, 	membrane, 	sodium:potassium-exchanging ATPase activity, 
F55F3.t1	F55F3.t1				
F55F3.t2	F55F3.t2				
F55F3.4	F55F3.4	F55F3.4 [Source:RefSeq_peptide;Acc:NP_510301]			
ZK1086.3	ZK1086.3	ZK1086.3 [Source:RefSeq_peptide;Acc:NP_510302]			
ZK1086.2	ZK1086.2	ZK1086.2 [Source:RefSeq_peptide;Acc:NP_510303]			
obr-3	ZK1086.1	ZK1086.1 encodes two isoforms of a protein with an N-terminal pleckstrin domain and a C-terminal oxysterol-binding domain. ZK1086.1 has orthologs in Drosophila (CG5077) and humans (OSBPL8. OMIM:606736). ZK1086.1 binds the BMP receptor associated molecule (BRAM) proteins BRA-1 and BRA-2. ZK1086.1 is expressed in pharyngeal muscle, hypodermis, and several neurons. ZK1086.1 is required for normally large body size, and the small body phenotype of ZK1086.1(RNAi) animals is consistent with ZK1086.1 participating in TGF-beta signalling. [Source: WormBase]	steroid metabolic process, 		
twk-23	F19D8.1	twk-23 encodes one of 44 C. elegans TWK (two-P domain K+) potassium channel subunits that contain two pore-forming domains and four transmembrane domains. the precise role of TWK-23 in C. elegans development and/or behavior is not yet known, however TWK-23 may function redundantly with other TWK channels. TWK-23 is expressed in neurons, muscle, the posterior intestine, and diffusely in many other tissues. [Source: WormBase]	potassium ion transport, 	membrane, 	potassium channel activity, 
F19D8.2	F19D8.2	F19D8.2 [Source:RefSeq_peptide;Acc:NP_510306]			
M03B6.1	M03B6.1	M03B6.1 [Source:RefSeq_peptide;Acc:NP_510307]			
M03B6.5	M03B6.5	M03B6.5 [Source:RefSeq_peptide;Acc:NP_001024802]			
M03B6.2	M03B6.2	M03B6.2 [Source:RefSeq_peptide;Acc:NP_510308]	transport, 	membrane, integral to membrane, 	transporter activity, GABA-B receptor activity, 
M03B6.4	M03B6.4	M03B6.4 [Source:RefSeq_peptide;Acc:NP_510309]			
M03B6.3	M03B6.3	M03B6.3 [Source:RefSeq_peptide;Acc:NP_510310]			
T21H8.1	T21H8.1	T21H8.1 encodes the C. elegans ortholog of human beta-liprin, a coiled-coil domain-containing protein that interacts with alpha-liprin, a transmembrane protein-tyrosine phosphatase-interacting protein. as loss of T21H8.1 activity via large-scale RNAi results in no obvious abnormalities, the precise role of T21H8.1 in C. elegans development and/or behavior is not yet known. however, by virtue of its similarity to human beta-liprin, the protein product of T21H8.1 is predicted to function as part of a protein complex that localizes to focal adhesions and regulates cell-extracellular matrix interactions. a T21H8.1 promoter::GFP fusion construct directs expression in pharyngeal and body wall muscles, and in regions adjacent to the dorsal and ventral nerve cords. expression in the pharynx is particularly strong in the posterior bulb. [Source: WormBase]			
T21H8.5	T21H8.5	T21H8.5 [Source:RefSeq_peptide;Acc:NP_510312]			
T21H8.t1	T21H8.t1				
sra-37	T21H8.2	Serpentine Receptor, class A (alpha) family member (sra-37) [Source:RefSeq_peptide;Acc:NP_510313]	sensory perception of chemical stimulus, 	integral to membrane, 	transmembrane receptor activity, 
sra-38	T21H8.3	Serpentine Receptor, class A (alpha) family member (sra-38) [Source:RefSeq_peptide;Acc:NP_510314]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
sra-39	T21H8.4	Serpentine receptor class alpha-39 (Protein sra-39). [Source:Uniprot/SWISSPROT;Acc:O62420]	sensory perception of chemical stimulus, 	membrane, integral to membrane, 	transmembrane receptor activity, 
Y26E6A.3	Y26E6A.3	Y26E6A.3 [Source:RefSeq_peptide;Acc:NP_001024956]			
Y26E6A.2	Y26E6A.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			calcium ion binding, 
Y26E6A.1	Y26E6A.1	Y26E6A.1 [Source:RefSeq_peptide;Acc:NP_510317]	DNA repair, carbohydrate metabolic process, 		DNA binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 
K02B9.2	K02B9.2	K02B9.2 [Source:RefSeq_peptide;Acc:NP_510318]			protein binding, 
K02B9.1	K02B9.1	K02B9.1 [Source:RefSeq_peptide;Acc:NP_510319]			
K02B9.3	K02B9.3	K02B9.3a [Source:RefSeq_peptide;Acc:NP_001041262]			
elt-3	K02B9.4	The elt-3 gene encodes a GATA transcription factor expressed in the embryonic hypodermis. specifically, it is expressed in expressed in all of the major hypodermal cells except the lateral seam cells. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
alg-1	F48F7.1	A homolog of rde-1 that is involved in RNA interference and affects developmental timing along with alg-2 and dcr-1 by regulating expression of the lin-4 and let-7 small temporal RNAs. [Source: WormBase]	embryonic development, locomotory behavior, 		
syn-2	F48F7.2	Putative syntaxin-2. [Source:Uniprot/SWISSPROT;Acc:Q20574]	intracellular protein transport, vesicle-mediated transport, synaptic vesicle docking during exocytosis, 	membrane, integral to membrane, 	protein transporter activity, protein binding, 
F48F7.3	F48F7.3	F48F7.3 [Source:RefSeq_peptide;Acc:NP_510324]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
pqn-39	F48F7.4	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
F48F7.5	F48F7.5	F48F7.5 [Source:RefSeq_peptide;Acc:NP_510326]	DNA repair, 	intracellular, 	zinc ion binding, DNA binding, nucleic acid binding, 
F48F7.6	F48F7.6	F48F7.6 [Source:RefSeq_peptide;Acc:NP_510327]			
F48F7.7	F48F7.7	F48F7.7 [Source:RefSeq_peptide;Acc:NP_510328]			protein binding, 
F48F7.8	F48F7.8	F48F7.8 [Source:RefSeq_peptide;Acc:NP_001024692]			
C31E10.1	C31E10.1	C31E10.1 [Source:RefSeq_peptide;Acc:NP_510330]	rRNA processing, 		
C31E10.3	C31E10.3	C31E10.3 [Source:RefSeq_peptide;Acc:NP_510331]		membrane, 	
C31E10.4	C31E10.4	C31E10.4 [Source:RefSeq_peptide;Acc:NP_510332]			
C31E10.5	C31E10.5	C31E10.5 [Source:RefSeq_peptide;Acc:NP_510333]			
C31E10.6	C31E10.6	C31E10.6 [Source:RefSeq_peptide;Acc:NP_510334]			
C31E10.7	C31E10.7	C31E10.7 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:10230) (CYB5. OMIM:250790), which when mutated leads to disease. [Source: WormBase]	positive regulation of growth rate, 		heme binding, transition metal ion binding, 
C31E10.8	C31E10.8	C31E10.8 [Source:RefSeq_peptide;Acc:NP_510336]	protein amino acid phosphorylation, transmembrane receptor protein tyrosine kinase signaling pathway, regulation of Rab GTPase activity, 	membrane, intracellular, 	ATP binding, transmembrane receptor protein tyrosine kinase activity, Rab GTPase activator activity, 
C31E10.t1	C31E10.t1				
C04C11.t1	C04C11.t1				
C04C11.1	C04C11.1	C04C11.1a [Source:RefSeq_peptide;Acc:NP_001024355]		extracellular region, 	protein binding, 
C04C11.2	C04C11.2	C04C11.2 [Source:RefSeq_peptide;Acc:NP_510338]			
dyc-1	C33G3.1	dyc-1 encodes a homolog of murine CAPON, a protein associated with neuronal nitric oxide synthase that regulates its interactions with PSD95. DYC-1 is expressed in muscle, and is required for a dystrophin-related function in muscle. [Source: WormBase]	positive regulation of locomotion, regulation of oviposition, muscle maintenance, 	dystrophin-associated glycoprotein complex, 	protein binding, nitric-oxide synthase regulator activity, 
C33G3.t1	C33G3.t1				
C33G3.t3	C33G3.t3				
C33G3.t2	C33G3.t2				
lgc-21	C33G3.3	C33G3.3 [Source:RefSeq_peptide;Acc:NP_510341]	transport, 	membrane, 	extracellular ligand-gated ion channel activity, 
C33G3.4	C33G3.4	C33G3.4 is orthologous to the human gene BETA-MANNOSIDASE (MANBA. OMIM:248510), which when mutated leads to disease. [Source: WormBase]	transport, carbohydrate metabolic process, 		transporter activity, binding, hydrolase activity, hydrolyzing O-glycosyl compounds, 
C33G3.5	C33G3.5	C33G3.5 [Source:RefSeq_peptide;Acc:NP_510343]			
C33G3.6	C33G3.6	C33G3.6 [Source:RefSeq_peptide;Acc:NP_510344]			protein binding, 
F16B12.1	F16B12.1	F16B12.1 [Source:RefSeq_peptide;Acc:NP_510345]			
dsl-4	F16B12.2	dsl-4 encodes a putative secreted protein with a single DSL domain and three EGF domains in series, somewhat like Delta/LAG-2. unlike the nematode-specific family of Delta/LAG-2-like proteins (including DSL-1, -2, -3, -5, -6, and -7), DSL-4 is evolutionarily divergent, with perhaps a distant affinity to APX-1, ARG-1, and LAG-2. [Source: WormBase]	cell communication, 	membrane, 	calcium ion binding, 
F16B12.4	F16B12.4	F16B12.4 [Source:RefSeq_peptide;Acc:NP_510347]			
F16B12.5	F16B12.5	F16B12.5 [Source:RefSeq_peptide;Acc:NP_510348]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
F16B12.6	F16B12.6	F16B12.6 [Source:RefSeq_peptide;Acc:NP_510349]			protein binding, 
F16B12.7	F16B12.7	F16B12.7 [Source:RefSeq_peptide;Acc:NP_510350]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
nhr-281	F16B12.8	Nuclear Hormone Receptor family member (nhr-281) [Source:RefSeq_peptide;Acc:NP_510351]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
F28H6.t1	F28H6.t1				
F28H6.7	F28H6.7	F28H6.7 [Source:RefSeq_peptide;Acc:NP_510352]			
F28H6.6	F28H6.6	F28H6.6 [Source:RefSeq_peptide;Acc:NP_510353]			
F28H6.4	F28H6.4	F28H6.4 [Source:RefSeq_peptide;Acc:NP_510354]			
F28H6.8	F28H6.8	F28H6.8 [Source:RefSeq_peptide;Acc:NP_001024613]			
F28H6.t2	F28H6.t2				
F28H6.t7	F28H6.t7				
F28H6.t3	F28H6.t3				
F28H6.t6	F28H6.t6				
F28H6.t4	F28H6.t4				
F28H6.t5	F28H6.t5				
nkat-1	F28H6.3	nkat-1 encodes kynurenine aminotransferase III, an ortholog of mammalian KAT3. nkat-1(RNAi) animals have no obvious phenotype. [Source: WormBase]	biosynthetic process, 		pyridoxal phosphate binding, 1-aminocyclopropane-1-carboxylate synthase activity, transferase activity, transferring nitrogenous groups, 
F28H6.2	F28H6.2	F28H6.2 [Source:RefSeq_peptide;Acc:NP_510356]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
akt-2	F28H6.1	akt-2 encodes a homolog of the serine/threonine kinase Akt/PKB, AKT-2, that is required for progression through the dauer stage of development and for the negative regulation of adult lifespan. inactivation of akt-2 causes animals to arrest constitutively at the dauer stage, while having an increased life span. widely expressed, AKT-2 is activated by the phospholipid products of phosphoinositide 3-kinase AGE-1/PI3K and by PDK-1, a homolog of vertebrate 3-phosphoinositide-dependent kinase-1 (PDK-1) Normal akt-2 (and akt-1) activity is required for excess pdk-1 activity to suppress the dauer-arrest phenotype of age-1, indicating that the 3-phosphoinositide-dependent kinase-1 homolog PDK-1 transduces signals from AGE-1 to AKT-2 (and AKT-1). conversely, the akt-2 loss-of-function phenotype is suppressed by daf-16 null mutations, indicating that the Fork head transcription factor DAF-16 is downstream of AKT-2 (and AKT-1), and that AKT-1 and AKT-2 act primarily to antagonize DAF-16. [Source: WormBase]	protein amino acid phosphorylation, dauer larval development, insulin receptor signaling pathway, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
R03E1.4	R03E1.4	R03E1.4 [Source:RefSeq_peptide;Acc:NP_001024824]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
lgc-25	R03E1.3	Putative uncharacterized protein lgc-25. [Source:Uniprot/SPTREMBL;Acc:Q9XTY8]	transport, cytochrome complex assembly, ion transport, heme transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, heme transporter activity, 
R03E1.t2	R03E1.t2				
R03E1.t1	R03E1.t1				
R03E1.2	R03E1.2	R03E1.2 [Source:RefSeq_peptide;Acc:NP_510360]	growth, 	integral to membrane, 	receptor activity, 
sym-4	R03E1.1	SYnthetic lethal with Mec family member (sym-4) [Source:RefSeq_peptide;Acc:NP_510361]	positive regulation of growth rate, 		
C37E2.1	C37E2.1	Probable isocitrate dehydrogenase [NAD] subunit beta, mitochondrial precursor (EC 1.1.1.41) (Isocitric dehydrogenase) (NAD(+)-specific ICDH). [Source:Uniprot/SWISSPROT;Acc:Q93353]	metabolic process, tricarboxylic acid cycle, 	mitochondrion, 	protein binding, oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor, isocitrate dehydrogenase (NAD+) activity, 
C37E2.2	C37E2.2	C37E2.2a [Source:RefSeq_peptide;Acc:NP_001024448]		integral to membrane, 	
C37E2.3	C37E2.3	C37E2.3 [Source:RefSeq_peptide;Acc:NP_510364]	protein secretion, 	membrane, integral to membrane, 	P-P-bond-hydrolysis-driven protein transmembrane transporter activity, 
ceh-36	C37E2.4	ceh-36 encodes a paired-like homeodomain transcription factor that is one of three orthodenticle (OTD)-like homeodomain proteins in C. elegans (the others being ttx-1 and ceh-37). CEH-36 is required broadly for specification of the AWC olfactory neuron and also for establishing the left-right asymmetry of the ASEL and ASER gustatory neurons. in addition, CEH-36 is sufficient to specify the AFD thermosensory neuron fate in some cell types. CEH-36 is expressed in the AWC and ASE chemosensory neurons. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
ceh-37	C37E2.5	ceh-37 encodes one of three C. elegans proteins with an OTX-like homeodomain. however, CEH-37 lacks other domains found in OTX proteins, and the CEH-37 homeodomain is predicted to resemble the Myb domain of telomere-binding proteins. CEH-37 binds the telomeric sequence 'TTAGGC' if it is repeated at least 1.5 times, and is mainly localized to the telomere in vivo. ceh-37 mutants have a weak increase in chromosomal nondisjunction. CEH-37 is involved in specifying some aspects of the AWB olfactory neuron fate, such as expression of an AWB-specific odorant receptor and a LIM-class homeodomain protein, LIM-4. CEH-37 is expressed broadly in the early embryo, while in larvae and adults it is expressed solely in the excretory cell. [Source: WormBase]	regulation of transcription, DNA-dependent, cell fate specification, telomere maintenance, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
K06G5.1	K06G5.1	K06G5.1a [Source:RefSeq_peptide;Acc:NP_001024765]			
K06G5.3	K06G5.3	K06G5.3 [Source:RefSeq_peptide;Acc:NP_510368]			
cyp-13B2	K06G5.2	CYtochrome P450 family member (cyp-13B2) [Source:RefSeq_peptide;Acc:NP_510369]	electron transport, 		iron ion binding, monooxygenase activity, heme binding, 
K06G5.t1	K06G5.t1				
srg-36	K04C1.6	Serpentine Receptor, class G (gamma) family member (srg-36) [Source:RefSeq_peptide;Acc:NP_510370]	signal transduction, cell surface receptor linked signal transduction, 	membrane, 	non-G-protein coupled 7TM receptor activity, transmembrane receptor activity, 
srg-37	K04C1.1	Serpentine Receptor, class G (gamma) family member (srg-37) [Source:RefSeq_peptide;Acc:NP_510371]	signal transduction, 	membrane, 	transmembrane receptor activity, 
K04C1.2	K04C1.2	K04C1.2b [Source:RefSeq_peptide;Acc:NP_510372]			
K04C1.3	K04C1.3	K04C1.3 [Source:RefSeq_peptide;Acc:NP_510374]	regulation of transcription, DNA-dependent, 	intracellular, nucleus, 	zinc ion binding, transcription factor activity, sequence-specific DNA binding, 
K04C1.4	K04C1.4	K04C1.4 [Source:RefSeq_peptide;Acc:NP_510375]			calcium ion binding, 
K04C1.5	K04C1.5	K04C1.5 [Source:RefSeq_peptide;Acc:NP_510376]	protein amino acid phosphorylation, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
E02H4.6	E02H4.6	E02H4.6 [Source:RefSeq_peptide;Acc:NP_510377]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
E02H4.5	E02H4.5	E02H4.5 [Source:RefSeq_peptide;Acc:NP_510378]			
E02H4.4	E02H4.4	Uncharacterized protein E02H4.4 precursor. [Source:Uniprot/SWISSPROT;Acc:Q19040]			
del-1	E02H4.1	del-1 encodes an ion channel protein of the DEG/ENaC (degenerin/epithelial Na+ channel) family. like other members of the degenerin family, DEL-1 is predicted to function as a sensory mechanotransduction channel, however detailed analysis of the DEL-1 mutant phenotype has not yet been reported. DEL-1 is expressed postembryonically in the VA and VB motor neurons and in the FLP sensory neurons. the DEL-1 expression pattern overlaps that of UNC-8, an additional C. elegans degenerin involved in movement control, with which DEL-1 may coassemble to form mechanically activated cation channels. [Source: WormBase]	ion transport, sodium ion transport, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, enzyme inhibitor activity, 
E02H4.2	E02H4.2	E02H4.2 [Source:RefSeq_peptide;Acc:NP_510381]			
tag-172	E02H4.3	Temporarily Assigned Gene name family member (tag-172) [Source:RefSeq_peptide;Acc:NP_741927]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C11H1.8	C11H1.8	C11H1.8 [Source:RefSeq_peptide;Acc:NP_741929]			
C11H1.5	C11H1.5	C11H1.5 [Source:RefSeq_peptide;Acc:NP_510387]			
C11H1.2	C11H1.2	C11H1.2 [Source:RefSeq_peptide;Acc:NP_510384]			
C11H1.3	C11H1.3	C11H1.3 [Source:RefSeq_peptide;Acc:NP_510385]	biological_process, 		protein binding, zinc ion binding, 
prx-1	C11H1.4	prx-1 encodes a predicted peroxin, a subfamily 2 member of the AAA (ATPases Associated with diverse cellular Activities) family that affects growth in one large-scale RNAi screen. expressed in intestinal cells throughout development. [Source: WormBase]	peroxisome organization and biogenesis, 	peroxisome, 	ATP binding, nucleotide binding, nucleoside-triphosphatase activity, protein binding, 
C11H1.9	C11H1.9	C11H1.9b [Source:RefSeq_peptide;Acc:NP_001024392]	transport, 	integral to membrane, 	
C11H1.7	C11H1.7	C11H1.7 [Source:RefSeq_peptide;Acc:NP_510389]		endoplasmic reticulum, 	
sel-7	K04G11.2	sel-7 encodes a novel protein with two predicted PEST sequences that is conserved in the related nematode C. briggsae and several parasitic nematodes, but has no known homologs in other organisms. sel-7 was identified in screens for suppressors of dominant lin-12 mutations that result in vulvaless and egg-laying defective animals. although loss of SEL-7 function via mutation or RNAi results in no obvious defects in a wild-type background, genetic studies suggests that SEL-7 acts downstream of LIN-12/Notch to positively regulate LIN-12 signaling, perhaps by regulating the activity or formation of the LAG-1, LIN-12(intra), SEL-8 nuclear complex. in vitro, SEL-7 self-associates and also interacts with TIR-1 (F13B10.1B), a protein that contains sterile alpha and Toll interleukin receptor motifs, and MDT-29 (K08E3.8), a glutamine-rich protein similar to mediator complex subunits, however the functional significance of these interactions is not yet known. a SEL-7::GFP translational fusion reveals expression in the nuclei of several cell types, including vulval precursor cells and those of the developing gonad. [Source: WormBase]	positive regulation of Notch signaling pathway, 		
K04G11.1	K04G11.1	K04G11.1 [Source:RefSeq_peptide;Acc:NP_510391]			
K04G11.3	K04G11.3	K04G11.3 [Source:RefSeq_peptide;Acc:NP_510393]			
K04G11.4	K04G11.4	Uncharacterized WD repeat protein K04G11.4. [Source:Uniprot/SWISSPROT;Acc:Q93847]			
irk-3	K04G11.5	Inward Rectifying K (potassium) channel family member (irk-3) [Source:RefSeq_peptide;Acc:NP_510395]			inward rectifier potassium channel activity, 
Y60A9A.1	Y60A9A.1	Y60A9A.1 [Source:RefSeq_peptide;Acc:NP_001024963]			binding, 
Y60A9.2	Y60A9.2				
Y60A9.3	Y60A9.3	Y60A9.3 [Source:RefSeq_peptide;Acc:NP_510397]			zinc ion binding, nucleic acid binding, 
Y60A9.1	Y60A9.1	Y60A9.1 [Source:RefSeq_peptide;Acc:NP_510398]			
T14C1.2	T14C1.2	T14C1.2 [Source:RefSeq_peptide;Acc:NP_510399]			
T14C1.1	T14C1.1	T14C1.1 encodes a homolog of the functionally active Fmrf Receptor (FR. CG2114) of D. melanogaster. it is thus possible that T14C1.1 is a receptor for one of the FMRF-like neurotransmitters in C. elegans (e.g., FLP-1 through FLP-12). [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
fbxa-179	T14C1.3	Putative uncharacterized protein fbxa-179. [Source:Uniprot/SPTREMBL;Acc:A3RMT8]			
F23D12.10	F23D12.10	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3RMT9]			
F23D12.2	F23D12.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
fipr-3	F23D12.6	F23D12.6 [Source:RefSeq_peptide;Acc:NP_872256]			
F23D12.1	F23D12.1	F23D12.1 [Source:RefSeq_peptide;Acc:NP_510402]			
F23D12.8	F23D12.8	F23D12.8 [Source:RefSeq_peptide;Acc:NP_001024602]			
F23D12.9	F23D12.9				
F23D12.t2	F23D12.t2				
F23D12.t1	F23D12.t1				
F23D12.3	F23D12.3	F23D12.3 [Source:RefSeq_peptide;Acc:NP_510403]			
F23D12.4	F23D12.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
F23D12.5	F23D12.5	F23D12.5 [Source:RefSeq_peptide;Acc:NP_510405]			
F23D12.7	F23D12.7	F23D12.7 [Source:RefSeq_peptide;Acc:NP_001024601]			
Y66C5A.1	Y66C5A.1	Y66C5A.1 [Source:RefSeq_peptide;Acc:NP_001024964]			
Y66C5A.2	Y66C5A.2	Y66C5A.2 [Source:RefSeq_peptide;Acc:NP_001024965]			
M163.6	M163.6	M163.6 [Source:RefSeq_peptide;Acc:NP_510406]			
M163.7	M163.7	M163.7 [Source:RefSeq_peptide;Acc:NP_510407]			
M163.9	M163.9	M163.9 [Source:RefSeq_peptide;Acc:NP_001024813]			
M163.10	M163.10	M163.10 [Source:RefSeq_peptide;Acc:NP_001024809]			
M163.5	M163.5	M163.5 [Source:RefSeq_peptide;Acc:NP_510408]			
NR_003488.1	M163.13	M163.13, snoRNA [Source:RefSeq_dna;Acc:NR_003488]			
M163.15	M163.15				
M163.12	M163.12				
NR_003489.1	M163.14	M163.14, snoRNA [Source:RefSeq_dna;Acc:NR_003489]			
M163.t2	M163.t2				
M163.11	M163.11	M163.11 [Source:RefSeq_peptide;Acc:NP_001024810]			
gfi-3	M163.4	gfi-3 is also known as apc-5, encoding a distant homolog of the human anaphase promoting complex subunit APC5, but is most closely related to its C. elegans paralog Y66D12A.17. gfi-3(RNAi) animals are generally unable to progress through meiotic divisions. initially they produce reduced numbers of viable embryos mixed with inviable embryos, but then show severe germline maintenance defects and become sterile. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		
M163.8	M163.8	M163.8 [Source:RefSeq_peptide;Acc:NP_001024812]			
M163.t1	M163.t1				
his-24	M163.3	The his-24 gene encodes a histone H1 isoform (H1.1) that is essential for chromatin silencing and germline development. [Source: WormBase]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
M163.2	M163.2			intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
M163.1	M163.1	M163.1 [Source:RefSeq_peptide;Acc:NP_510412]			
fbxa-141	D1025.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]	translation, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, aminoacyl-tRNA ligase activity, 
D1025.2	D1025.2	D1025.2 [Source:RefSeq_peptide;Acc:NP_510414]	glycine catabolic process, 	glycine cleavage complex, 	
D1025.10	D1025.10	D1025.10 [Source:RefSeq_peptide;Acc:NP_001024510]	regulation of transcription, DNA-dependent, 		iron ion binding, transcription factor activity, 
D1025.1	D1025.1	D1025.1 [Source:RefSeq_peptide;Acc:NP_510415]			
nspc-16	D1025.6	Nematode Specific Peptide family, group C family member (nspc-20) [Source:RefSeq_peptide;Acc:NP_510417]			
nspc-17	D1025.8	Nematode Specific Peptide family, group C family member (nspc-19) [Source:RefSeq_peptide;Acc:NP_001024512]			
nspc-18	D1025.7	Nematode Specific Peptide family, group C family member (nspc-18) [Source:RefSeq_peptide;Acc:NP_741930]			
nspc-19	D1025.9	Nematode Specific Peptide family, group C family member (nspc-19) [Source:RefSeq_peptide;Acc:NP_001024512]			
nspc-20	D1025.4	Nematode Specific Peptide family, group C family member (nspc-20) [Source:RefSeq_peptide;Acc:NP_510417]			
T24C2.5	T24C2.5	T24C2.5 [Source:RefSeq_peptide;Acc:NP_510418]			
fbxa-81	T24C2.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
T24C2.3	T24C2.3	T24C2.3 [Source:RefSeq_peptide;Acc:NP_510420]			
T24C2.2	T24C2.2	T24C2.2 [Source:RefSeq_peptide;Acc:NP_510421]	embryonic development ending in birth or egg hatching, 		
ram-5	T24C2.1	ram-5 encodes a novel transmembrane protein. during male tail development, ram-5 activity is required in ray structural cells for proper sensory ray morphogenesis. a RAM-5::GFP fusion protein is expressed in all of the ray structural cells of the male tail, as well as additional sensory support cells in both hermaphrodites and males, including those of the inner labial sensilla as well as the ADE, PDE, and phasmid socket cells. [Source: WormBase]	tail tip morphogenesis, 		
nhr-3	H01A20.1	nhr-3 encodes a member of the superfamily of nuclear receptors which is one of the most abundant class of transcriptional regulators. nuclear receptors have a well conserved DNA binding domain and a less conserved C-terminal ligand binding domain. nhr-3 has been identified and characterised as a gene affected by ethanol exposure in a microarray analysis of all C. elegans ORFs. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, response to ethanol, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
H01A20.2	H01A20.2	H01A20.2 [Source:RefSeq_peptide;Acc:NP_001024732]			
C44H4.1	C44H4.1	C44H4.1 [Source:RefSeq_peptide;Acc:NP_510424]			protein binding, 
sym-5	C44H4.2	sym-5 encodes a predicted transmembrane protein that contains 13 contiguous leucine-rich repeats (LRRs) and that is similar to SYM-1, a secreted protein involved in muscle attachment. sym-5 activity appears to be required for embryogenesis and functionally overlaps with that of sym-1 and mec-8 in affecting muscle attachment. in addition, loss of sym-5 activity via RNA-mediated interference (RNAi) in a hypersensitized strain indicates that SYM-5 may also be required for locomotion, body morphology, and normal rates of postembryonic growth. [Source: WormBase]	embryonic development ending in birth or egg hatching, positive regulation of multicellular organism growth, 		protein binding, 
sym-1	C44H4.3	sym-1 encodes a protein containing 15 contiguous leucine-rich repeats (LRRs) that functionally overlaps with sym-5 and interacts with mec-8 with respect to embryonic viability and attachment of body muscle to the extracellular cuticle. expression begins at the time of embryonic elongation and SYM-1 is secreted from the apical hypodermal surface of the embryo [Source: WormBase]			protein binding, 
C44H4.4	C44H4.4	C44H4.4 [Source:RefSeq_peptide;Acc:NP_510427]			
tap-1	C44H4.5	TAK1 kinase/MOM-4 binding Protein family member (tap-1) [Source:RefSeq_peptide;Acc:NP_510428]			protein binding, catalytic activity, protein phosphatase type 2C activity, 
C44H4.8	C44H4.8	C44H4.8 [Source:RefSeq_peptide;Acc:NP_741931]			
C44H4.6	C44H4.6	C44H4.6 [Source:RefSeq_peptide;Acc:NP_510429]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
eor-2	C44H4.7	eor-2 encodes an unfamiliar protein, similar to CG17233 in Drosophila and KIAA1205 in H. sapiens, required for signal transduction by both RAS and Wnt pathways in both excretory system development and P12 fate specification. [Source: WormBase]	cell fate specification, Ras protein signal transduction, 		molecular_function, 
rbc-1	F54E4.1	rbc-1 encodes an ortholog of S. cerevisiae RAV1. like RAV1, RBC-1 may be required for the reassociation of vacuolar proton-translocating ATPase (V-ATPase) after temporary glucose starvation. [Source: WormBase]		proteinaceous extracellular matrix, 	
F54E4.2	F54E4.2	F54E4.2 [Source:RefSeq_peptide;Acc:NP_510432]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F54E4.3	F54E4.3	F54E4.3 [Source:RefSeq_peptide;Acc:NP_510433]			
F54E4.4	F54E4.4	F54E4.4 [Source:RefSeq_peptide;Acc:NP_510434]			
syg-2	C26G2.1	syg-2 encodes a transmembrane protein that is a member of the immunoglobulin superfamily of proteins. during larval development, SYG-2 activity is required in vulval epithelial cells for proper synaptic specificity of the HSNL neuron. in regulating synapse formation, SYG-2 acts as a guidepost protein for the SYG-1 receptor that interacts with SYG-2 and acts within HSNL to regulate synaptic specificity. a SYG-2::GFP fusion protein is expressed in the primary vulval cell lineages beginning at the L3 larval stage, with expression increasing during the L4 stage and finally disappearing by adulthood. in embryos, SYG-2::GFP expression is detected in some head neurons and body wall muscles, the latter of which also express the reporter during the L1 and L2 larval stages. [Source: WormBase]	synapse organization and biogenesis, 		
C26G2.2	C26G2.2	C26G2.2 [Source:RefSeq_peptide;Acc:NP_510436]			protein binding, 
slt-1	F40E10.4	slt-1 encodes the sole C. elegans homolog of Drosophila Split, a secreted extracellular protein containing leucine-rich and EGF-like repeats that functions as a ligand for the Robo receptor. during C. elegans larval development, slt-1 acts via the SAX-3/Robo receptor, and in parallel with UNC-6/Netrin, to direct ventral axon guidance and guidance at the midline. during embryonic development, slt-1 also functions to regulate anterior-posterior migrations of the CAN neurons. slt-1::gfp reporters are initially expressed at high levels in the anterior part of the embryo, with more moderate levels seen in dorsal tail muscles and lower levels seen in cells in the center of the body. in L1 larvae, slt-1::gfp is expressed in both dorsal and ventral muscles, with higher levels seen in dorsal muscle cells. slt-1::gfp is also expressed in a number of additional cells including some neurons, pharyngeal cells, and the anal sphincter muscle. [Source: WormBase]			protein binding, calcium ion binding, 
C26G2.t1	C26G2.t1				
csq-1	F40E10.3	CalSeQuestrin family member (csq-1) [Source:RefSeq_peptide;Acc:NP_510438]			calcium ion binding, 
sox-3	F40E10.2	SOX (mammalian SRY box) family member (sox-3) [Source:RefSeq_peptide;Acc:NP_510439]	regulation of transcription, DNA-dependent, 	nucleus, chromatin, 	DNA binding, 
hch-1	F40E10.1	hch-1 encodes a member of the zinc-dependent metalloprotease family that contains an epidermal growth factor-like domain, a CUB domain, and a TSP1 domain and affects hatching and QL neuroblast migration. [Source: WormBase]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
F40E10.5	F40E10.5	F40E10.5 [Source:RefSeq_peptide;Acc:NP_510441]			
F40E10.6	F40E10.6	F40E10.6 [Source:RefSeq_peptide;Acc:NP_510442]			
tag-53	F33C8.1	tag-53 encodes a protein with high similarity to human Attractin, and affects fertility and locomotion. [Source: WormBase]	multicellular organismal development, reproduction, 	membrane, 	calcium ion binding, receptor activity, 
F33C8.2	F33C8.2	F33C8.2 [Source:RefSeq_peptide;Acc:NP_510444]			catalytic activity, 
tsp-8	F33C8.3	tsp-8 is orthologous to the human gene KANGAI 1 (SUPPRESSION OF TUMORIGENICITY 6, PROSTATE. CD82 ANTIGEN (R2 LEUKOCYTE ANTIGEN, ANTIGEN DETECTED BY MONOCLONAL AND ANTIBODY IA4)) (KAI1. OMIM:600623), which when mutated leads to disease. [Source: WormBase]	visual perception, 	integral to membrane, 	
F33C8.4	F33C8.4	F33C8.4 [Source:RefSeq_peptide;Acc:NP_510446]			
C05G5.1	C05G5.1	C05G5.1 [Source:RefSeq_peptide;Acc:NP_510447]			transporter activity, 
C05G5.2	C05G5.2	C05G5.2 [Source:RefSeq_peptide;Acc:NP_510448]			
C05G5.3	C05G5.3	C05G5.3 [Source:RefSeq_peptide;Acc:NP_510449]			
C05G5.4	C05G5.4	Probable succinyl-CoA ligase [GDP-forming] subunit alpha, mitochondrial precursor (EC 6.2.1.4) (Succinyl-CoA synthetase subunit alpha) (SCS-alpha). [Source:Uniprot/SWISSPROT;Acc:P53596]	metabolic process, 		catalytic activity, 
C05G5.5	C05G5.5	C05G5.5 [Source:RefSeq_peptide;Acc:NP_510451]			
Y16B4A.2	Y16B4A.2	Y16B4A.2 [Source:RefSeq_peptide;Acc:NP_510452]	proteolysis, 		serine carboxypeptidase activity, 
unc-3	Y16B4A.1	The unc-3 gene encodes a protein with homology to immunoglobulin (Ig) domain-containing transcription factors such as OLF-1 or SU(H). [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, locomotory behavior, dauer larval development, 	nucleus, 	transcription regulator activity, DNA binding, 
F42D1.2	F42D1.2	F42D1.2 [Source:RefSeq_peptide;Acc:NP_510454]	biosynthetic process, amino acid and derivative metabolic process, aromatic amino acid family metabolic process, 		protein binding, pyridoxal phosphate binding, transaminase activity, 1-aminocyclopropane-1-carboxylate synthase activity, transferase activity, transferring nitrogenous groups, tyrosine transaminase activity, 
F42D1.3	F42D1.3	F42D1.3 [Source:RefSeq_peptide;Acc:NP_510455]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F42D1.t1	F42D1.t1				
F42D1.4	F42D1.4	F42D1.4 [Source:RefSeq_peptide;Acc:NP_001024656]			
atf-5	T04C10.4	atf-5 encodes a homolog of the mammalian bZIP transcription factors ATF4 and ATF5, analogous to GCN4 in S. cerevisiae. like like ATF4 and GCN4, atf-5 has an extensive 5' UTR with one 37-residue uORF. ATF4 is poorly translated in unstressed cells but well-translated during ER stress, amino acid starvation, or arsenite treatment. possibly atf-5 is also translationally regulated in a way similar to ATF4. [Source: WormBase]	regulation of transcription, regulation of transcription, DNA-dependent, 	nucleus, 	DNA binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, 
T04C10.3	T04C10.3	T04C10.3 [Source:RefSeq_peptide;Acc:NP_510457]			
epn-1	T04C10.2	EPsiN (endocytic protein) homolog family member (epn-1) [Source:RefSeq_peptide;Acc:NP_510458]	positive regulation of growth rate, 		protein binding, 
mbk-1	T04C10.1	mbk-1 encodes a putative dual-specificity kinase (predicted to have both serine/threonine and tyrosine substrates) that is orthologous to Drosophila MINIBRAIN and mammalian DYRK1A/MnbK and that has a glutamine/asparagine-rich domain. MBK-1 is found in most or all nuclei, is dispensable for viability, and perturbs olfaction in AWC when overexpressed. [Source: WormBase]	protein amino acid phosphorylation, keratinization, 	cytoplasm, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
dpf-2	C27C12.7	Dipeptidyl peptidase family member 2 (EC 3.4.14.-). [Source:Uniprot/SWISSPROT;Acc:Q18253]	proteolysis, 	membrane, 	serine-type peptidase activity, prolyl oligopeptidase activity, dipeptidyl-peptidase IV activity, 
egrh-1	C27C12.2	C27C12.2 is orthologous to the human gene BA436D10.3 (EARLY GROWTH RESPONSE 2 (KROX-20 (DROSOPHILA) HOMOLOG)) (EGR2. OMIM:129010), which when mutated leads to disease. [Source: WormBase]		intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
tag-324	C27C12.5	Temporarily Assigned Gene name family member (tag-324) [Source:RefSeq_peptide;Acc:NP_510463]	sodium ion transport, 	membrane, 	sodium channel activity, 
C27C12.1	C27C12.1	C27C12.1 [Source:RefSeq_peptide;Acc:NP_510464]			
C27C12.4	C27C12.4	C27C12.4 [Source:RefSeq_peptide;Acc:NP_510465]			
dmd-4	C27C12.6	DM (Doublesex/MAB-3) Domain family member (dmd-4) [Source:RefSeq_peptide;Acc:NP_510466]	regulation of transcription, DNA-dependent, sex differentiation, 	nucleus, 	DNA binding, transcription factor activity, 
C27C12.3	C27C12.3	C27C12.3 [Source:RefSeq_peptide;Acc:NP_510467]			
F31F6.1	F31F6.1	F31F6.1 [Source:RefSeq_peptide;Acc:NP_510468]			
F31F6.2	F31F6.2	F31F6.2 [Source:RefSeq_peptide;Acc:NP_510469]			
F31F6.3	F31F6.3	F31F6.3 [Source:RefSeq_peptide;Acc:NP_510470]			
F31F6.8	F31F6.8	F31F6.8 [Source:RefSeq_peptide;Acc:NP_001024623]			
flp-8	F31F6.4	flp-8 encodes three copies of a FMRFamide-related short peptide neurotransmitter. although the FLP-8 peptide can increase pharyngeal action potential frequency, loss of FLP-8 function does not result in a mutant phenotype, suggesting that FLP-8 may function redundantly with other FMRFamide-like peptides in the nervous system. FLP-8 expression is detected in embryos and larval stages, but not in adults. FLP-8 is expressed in the sensory neurons ASEL/R, URXL/R, and PVM. [Source: WormBase]	neuropeptide signaling pathway, 		
daf-6	F31F6.5	daf-6 is required for an unidentified function of the nonneuronal amphidial sheath cells that promotes correct morphology of both the amphid and the outer labial sensilla. daf-6 mutants disrupt the joining of the amphid sheath and socket cells to form the receptor channel, and display defects in several distinct functions including formation of dauer larvae, chemotaxis, osmotic avoidance, male mating, negative regulation of lifespan, negative regulation of ASJ's axonal growth late in development, and dye uptake by amphids and phasmids. daf-6 has recently been reported to be identical to the coding sequence ptr-7/F31F6.5, but this assertion has not yet been verified by transgenic rescue. [Source: WormBase]	regulation of insulin receptor signaling pathway, 	membrane, integral to membrane, 	hedgehog receptor activity, 
nac-1	F31F6.6	nac-1 encodes a low-affinity sodium-coupled dicarboxylate transporter homologous to INDY in D. melanogaster and to mammalian NaDC1 and NaDC3. nac-1 has no obvious function in either mass or individual RNAi assays. nac-1 is expressed in the intestine, in larvae and adults. [Source: WormBase]	sodium ion transport, 	membrane, 	transporter activity, 
F31F6.7	F31F6.7	F31F6.7 [Source:RefSeq_peptide;Acc:NP_510474]	lipid catabolic process, 		lipase activity, 
hex-5	Y70D2A.2	hex-5 encodes a beta-N-acetylhexosaminidase. [Source: WormBase]			beta-N-acetylhexosaminidase activity, 
Y70D2A.1	Y70D2A.1	Y70D2A.1 [Source:RefSeq_peptide;Acc:NP_510476]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F14F4.1	F14F4.1	F14F4.1 [Source:RefSeq_peptide;Acc:NP_510477]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, vasopressin receptor activity, purinergic nucleotide receptor activity, G-protein coupled, 
mrp-5	F14F4.3	The mrp-5 gene encodes a homolog of the human gene CFTR, which when mutated leads to cystic fibrosis (OMIM:219700). [Source: WormBase]	transport, positive regulation of growth rate, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
pag-3	F45B8.4	pag-3 encodes a C2H2 zinc-finger protein orthologous to Drosophila SENSELESS, and to human GFI1 (OMIM:600871, mutated in neutropenia) and GFI1B (OMIM:604383). pag-3 is expressed in neurons (touch receptors, BDU interneurons, ventral cord motor neurons, and others). PAG-3 is required to repress the touch neuron-specific genes mec-4 and mec-7 in BDU neurons, but since this repression does not occur in touch neurons (which also have PAG-3), PAG-3 may require another protein or proteins for repression (such as PRK-1 or PRK-2, the C. elegans orthologs of human PIM-1). PAG-3 is also needed for normal neuroblast lineages in the ventral nerve cord, and for normal locomotion. pag-3 mutants have a reverse kinker uncoordinated phenotype, and occasional axonal guidance errors in the PLM and BDU neurons. PAG-3's similarity to GFI1 and GFIB falls mainly within residues 159-261, but within these residues (which overlap PAG-3's five zinc-finger domains in residues 126-265) the amino acid identity is 87%. pag-3 transcript quantities are doubled in pag-3 mutants, suggesting that PAG-3 inhibits its own gene. [Source: WormBase]	negative regulation of apoptosis, 	intracellular, nucleus, 	zinc ion binding, DNA binding, nucleic acid binding, 
F45B8.3	F45B8.3	F45B8.3 [Source:RefSeq_peptide;Acc:NP_510481]			protein binding, 
rgs-10	F45B8.2	Regulator of G-protein signaling rgs-10. [Source:Uniprot/SWISSPROT;Acc:O45523]	embryonic development ending in birth or egg hatching, 		signal transducer activity, 
rgs-11	F45B8.1	Regulator of G-protein signaling rgs-11. [Source:Uniprot/SWISSPROT;Acc:O45524]			signal transducer activity, 
F20D1.1	F20D1.1	F20D1.1 [Source:RefSeq_peptide;Acc:NP_510484]			protein binding, 
F20D1.2	F20D1.2	F20D1.2 [Source:RefSeq_peptide;Acc:NP_510485]	regulation of Rab GTPase activity, embryonic development ending in birth or egg hatching, 	intracellular, 	Rab GTPase activator activity, 
F20D1.3	F20D1.3	F20D1.3 [Source:RefSeq_peptide;Acc:NP_510486]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	purinergic nucleotide receptor activity, G-protein coupled, 
tag-299	F20D1.10	Temporarily Assigned Gene name family member (tag-299) [Source:RefSeq_peptide;Acc:NP_510487]			
arl-7	F20D1.5	arl-7 is a predicted pseudogene related to the ADP-ribosylation factor (ARF) gene family. [Source: WormBase]			
F20D1.4	F20D1.4	F20D1.4 [Source:RefSeq_peptide;Acc:NP_510489]			
rbg-1	F20D1.6	Rab3 GTPase-activating protein catalytic subunit (Rab3 GTPase- activating protein 1). [Source:Uniprot/SWISSPROT;Acc:Q93538]	regulation of GTPase activity, 	soluble fraction, 	Rab GTPase binding, Rab GTPase activator activity, 
F20D1.7	F20D1.7	F20D1.7 [Source:RefSeq_peptide;Acc:NP_510491]			protein binding, 
F20D1.8	F20D1.8	F20D1.8 [Source:RefSeq_peptide;Acc:NP_510492]			
F20D1.9	F20D1.9	F20D1.9 [Source:RefSeq_peptide;Acc:NP_510493]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
C18B12.6	C18B12.6	C18B12.6 [Source:RefSeq_peptide;Acc:NP_510494]			
C18B12.1	C18B12.1	C18B12.1 [Source:RefSeq_peptide;Acc:NP_510495]			
C18B12.2	C18B12.2	C18B12.2 encodes a G-protein-coupled receptor (GPCR) that is a member of the secretin family (also known as family B or family 2) of GPCRs. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	membrane, integral to membrane, 	G-protein coupled receptor activity, neuropeptide Y receptor activity, 
dsc-1	C18B12.3	Defecation Suppressor of Clk-1 family member (dsc-1) [Source:RefSeq_peptide;Acc:NP_510497]	regulation of transcription, DNA-dependent, defecation, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
C18B12.4	C18B12.4	C18B12.4 [Source:RefSeq_peptide;Acc:NP_510498]			protein binding, zinc ion binding, 
fbxa-97	C18B12.5	F-box A protein family member (fbxa-97) [Source:RefSeq_peptide;Acc:NP_510499]			
H03G16.6	H03G16.6	H03G16.6 [Source:RefSeq_peptide;Acc:NP_001024733]			
H03G16.1	H03G16.1	H03G16.1 [Source:RefSeq_peptide;Acc:NP_510500]			
H03G16.5	H03G16.5	H03G16.5 [Source:RefSeq_peptide;Acc:NP_510501]			
fbxa-96	H03G16.4	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
H03G16.3	H03G16.3				
H03G16.2	H03G16.2	H03G16.2 [Source:RefSeq_peptide;Acc:NP_510504]		membrane, 	
H40L08.3	H40L08.3	H40L08.3 [Source:RefSeq_peptide;Acc:NP_510505]			
H40L08.2	H40L08.2				
H40L08.1	H40L08.1	H40L08.1 [Source:RefSeq_peptide;Acc:NP_510506]			
F09B12.5	F09B12.5	F09B12.5 [Source:RefSeq_peptide;Acc:NP_510507]			
flr-4	F09B12.6	flr-4 encodes a predicted Ser/Thr protein kinase that affects sensitivity to fluoride ion, growth, defecation cycle periods, dauer formation. expressed in the intestine, the AUA neurons, the pharyngeal isthmus, and in the excretory canal in larval stages. [Source: WormBase]	protein amino acid phosphorylation, defecation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F09B12.3	F09B12.3	LAMA-like protein F09B12.3 precursor. [Source:Uniprot/SWISSPROT;Acc:O62146]			
F09B12.2	F09B12.2	F09B12.2 [Source:RefSeq_peptide;Acc:NP_510510]			zinc ion binding, 
mlt-9	F09B12.1	MoLTing defective family member (mlt-9) [Source:RefSeq_peptide;Acc:NP_510512]	biological_process, 	membrane, 	
R07D5.2	R07D5.2	R07D5.2 [Source:RefSeq_peptide;Acc:NP_510514]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
unc-7	R07D5.1	unc-7 encodes an innexin required for gap junction formation in invertebrates. UNC-7 is also required for normal locomotion, egg-laying, inhibition of feeding by tapping, avermectin sensitivity, and ivermectin sensitivity, as well as for the antagonism of UNC-79 and UNC-80 activity by volatile anesthetics. unc-7 is genetically required, and transcribed in, neurons rather than muscle cells, from larval stages L1 through L4. homologs of UNC-7 include Drosophila OGRE and SHAKING-B, as well as 24 C. elegans paralogs (including EAT-5, UNC-9, and INX-1 through INX-20). UNC-7 genetically interacts with UNC-124, and unc-7 mutants are phenotypically similar to unc-9 and unc-124 mutants. UNC-7 genetically interacts with AVR-14 and GLC-1 in the response to ivermectin. [Source: WormBase]	locomotion, regulation of pharyngeal pumping, gap junction assembly, 	integral to membrane, gap junction, 	
C11G10.2	C11G10.2	C11G10.2 [Source:RefSeq_peptide;Acc:NP_510516]			
C11G10.t1	C11G10.t1				
C11G10.1	C11G10.1	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q17903]			
T10B10.8	T10B10.8	T10B10.8 (T10B10.8) mRNA, complete cds [Source:RefSeq_dna;Acc:NM_078117]	carbohydrate biosynthetic process, 		transferase activity, transferring hexosyl groups, 
T10B10.9	T10B10.9	T10B10.9 [Source:RefSeq_peptide;Acc:NP_510519]			
ocr-3	T10B10.7	ocr-3 encodes a predicted TRPV channel (transient receptor potential cation channel, subfamily V) containing six membrane-spanning regions, cytoplasmic ankyrin repeats, and a long, unconserved cytoplasmic tail that is related to the mammalian TRPV1 cation channel (OMIM:602076) activated by capsaicin and other noxious stimuli. although the precise role of OCR-3 in C. elegans development and/or behavior is not yet known, OCR-3 expression is detected solely in the rectal gland cells and occasionally the glial socket cells of the head, suggesting that OCR-3 may function in sensory signal transduction in these cell types. [Source: WormBase]	ion transport, 	membrane, 	ion channel activity, 
ucr-2.2	T10B10.2	Ubiquinol-Cytochrome c oxidoReductase complex family member (ucr-2.2) [Source:RefSeq_peptide;Acc:NP_510521]	proteolysis, 		zinc ion binding, metalloendopeptidase activity, 
col-41	T10B10.1	col-41 encodes a cuticle collagen. [Source: WormBase]	phosphate transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, cytoplasm, 	structural constituent of cuticle, rhodopsin-like receptor activity, nutrient reservoir activity, 
T10B10.3	T10B10.3	T10B10.3 [Source:RefSeq_peptide;Acc:NP_510523]			
T10B10.4	T10B10.4	T10B10.4a [Source:RefSeq_peptide;Acc:NP_001024902]			
phat-6	T10B10.6	T10B10.6 [Source:RefSeq_peptide;Acc:NP_510525]			
T10B10.5	T10B10.5	T10B10.5 [Source:RefSeq_peptide;Acc:NP_510526]			
T10B10.t2	T10B10.t2				
T10B10.t1	T10B10.t1				
H03A11.1	H03A11.1	H03A11.1 encodes an FAM20 ortholog. murine FAM20A is a secreted protein expressed in hematopoietic cells. [Source: WormBase]			
H03A11.2	H03A11.2	H03A11.2 [Source:RefSeq_peptide;Acc:NP_510528]			
F39B1.1	F39B1.1	F39B1.1 [Source:RefSeq_peptide;Acc:NP_510529]	cell communication, phosphoinositide phosphorylation, phosphoinositide-mediated signaling, 	phosphoinositide 3-kinase complex, 	protein binding, phosphotransferase activity, alcohol group as acceptor, 1-phosphatidylinositol-3-kinase activity, inositol or phosphatidylinositol kinase activity, phosphoinositide binding, 
F39B1.t1	F39B1.t1				
F39B1.t2	F39B1.t2				
F46F2.t1	F46F2.t1				
F46F2.1	F46F2.1				
F46F2.4	F46F2.4	F46F2.4 [Source:RefSeq_peptide;Acc:NP_510531]			
F46F2.3	F46F2.3	F46F2.3 [Source:RefSeq_peptide;Acc:NP_510532]	embryonic development ending in birth or egg hatching, 		nutrient reservoir activity, 
F46F2.5	F46F2.5	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:Q7YX10]			
kin-20	F46F2.2	Casein kinase I isoform delta (EC 2.7.11.1) (Protein kinase 20). [Source:Uniprot/SWISSPROT;Acc:Q20471]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
C02D4.1	C02D4.1				
ser-2	C02D4.2	ser-2 encodes at least four tyramine 7-transmembrane domain receptors (GPCRs), by alternative splicing from three different promoters, that have distinct but partially overlapping expression patterns. ser-2 has at least three alternative promoters that drive SER-2 expression in a set of sensory, inter- and motor neurons (e.g., AIY, AIZ, and RIA) adding up to ~10% of all neurons in the nervous system, as well as pharyngeal cells and head muscles. the deletion ser-2(pk1397) has no obvious mutant phenotype. LIM-4 is required for SER-2 expression, and MAB-23 is required for SER-2 expression at normally high levels. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, octopamine/tyramine signaling pathway, 	membrane, integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, muscarinic acetylcholine receptor activity, neuropeptide Y receptor activity, octopamine receptor activity, tyramine receptor activity, adrenoceptor activity, 
C02D4.t1	C02D4.t1				
nhr-91	Y15E3A.1	nhr-91 encodes a conserved nuclear receptor that is orthologous to members of the NR6 subfamily of nuclear receptors that includes Drosophila HR4 and human germ cell nuclear factor (GCNF, OMIM:600281, human and mouse GCNF are expressed primarily in the testis). by homology, NHR-91 is predicted to function as a transcription factor that may activate or repress transcription in response to a hormonal signal. however, as loss of nhr-91 activity via RNAi does not result in any obvious abnormalities, the precise role of NHR-91 in C. elegans development and/or behavior is not yet known. nhr-91 is expressed in anterior neurons, seam cells, excretory cells, the spermatheca, and the developing vulva. [Source: WormBase]	regulation of transcription, DNA-dependent, positive regulation of growth rate, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
Y15E3A.2	Y15E3A.2	Y15E3A.2 [Source:RefSeq_peptide;Acc:NP_510537]	oxygen transport, 		iron ion binding, heme binding, oxygen binding, 
Y15E3A.3	Y15E3A.3	Y15E3A.3 [Source:RefSeq_peptide;Acc:NP_510538]			
Y15E3A.4	Y15E3A.4	Y15E3A.4 [Source:RefSeq_peptide;Acc:NP_510539]	transport, 	integral to membrane, 	transporter activity, 
Y15E3A.5	Y15E3A.5	Y15E3A.5 [Source:RefSeq_peptide;Acc:NP_741937]			protein binding, 
C33A11.1	C33A11.1	C33A11.1 [Source:RefSeq_peptide;Acc:NP_510540]			
C33A11.2	C33A11.2	C33A11.2 [Source:RefSeq_peptide;Acc:NP_510541]			
C33A11.t1	C33A11.t1				
tag-97	C33A11.4	C33A11.4 [Source:RefSeq_peptide;Acc:NP_510542]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
psa-3	F39D8.2	Phasmid Socket Absent family member (psa-3) [Source:RefSeq_peptide;Acc:NP_001076765]			
pqn-36	F39D8.1	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
F39D8.3	F39D8.3	F39D8.3 [Source:RefSeq_peptide;Acc:NP_510548]			
nas-13	F39D8.4	Zinc metalloproteinase nas-13 precursor (EC 3.4.24.21) (Nematode astacin 13). [Source:Uniprot/SWISSPROT;Acc:Q20191]	proteolysis, 		zinc ion binding, metallopeptidase activity, astacin activity, 
R03A10.1	R03A10.1	R03A10.1 [Source:RefSeq_peptide;Acc:NP_510550]			
flp-32	R03A10.2	FMRF-Like Peptide family member (flp-32) [Source:RefSeq_peptide;Acc:NP_510551]			
R03A10.3	R03A10.3	Molybdenum cofactor sulfurase (EC 4.4.-.-) (MoCo sulfurase) (MOS). [Source:Uniprot/SWISSPROT;Acc:Q21657]	metabolic process, molybdopterin cofactor metabolic process, 		catalytic activity, pyridoxal phosphate binding, transaminase activity, molybdenum ion binding, Mo-molybdopterin cofactor sulfurase activity, 
nkat-3	R03A10.4	Nematode Kynurenine AminoTransferase family member (nkat-3) [Source:RefSeq_peptide;Acc:NP_001024822]	biosynthetic process, 		pyridoxal phosphate binding, 1-aminocyclopropane-1-carboxylate synthase activity, transferase activity, transferring nitrogenous groups, 
R03A10.5	R03A10.5	R03A10.5 [Source:RefSeq_peptide;Acc:NP_510554]	transport, 	integral to membrane, 	
R03A10.6	R03A10.6	R03A10.6 [Source:RefSeq_peptide;Acc:NP_510555]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
C46E1.1	C46E1.1	C46E1.1 [Source:RefSeq_peptide;Acc:NP_510556]			
C46E1.3	C46E1.3	C46E1.3 [Source:RefSeq_peptide;Acc:NP_001024474]			
gcy-36	C46E1.2	gcy-36 encodes a predicted soluble guanylate cyclase that genetically interacts with npr-1 with respect to feeding behavior. expressed in AQR, PQR, and URX3. [Source: WormBase]	intracellular signaling cascade, cyclic nucleotide biosynthetic process, cGMP biosynthetic process, feeding behavior, 		phosphorus-oxygen lyase activity, heme binding, guanylate cyclase activity, 
H13N06.2	H13N06.2	H13N06.2 [Source:RefSeq_peptide;Acc:NP_510558]			
gob-1	H13N06.3	gob-1 encodes an experimentally confirmed trehalose-6-phosphatase, which belongs to the HAD-like hydrolase superfamily. heat-shock induction of transgenic ELT-2 causes ectopic expression of gob-1. gob-1 first has ELT-2-dependent expression in the 8E cell stage of embryonic intestine, but later is expressed more widely. gob-1 mutants are lethal as early larvae, at least partly because of their intestines being constricted by the end of embryonic development, but some gob-1 mutants die even with an open intestine. strong loss-of-function mutations in two trehalose-6-phosphate synthases (tps-1 and tps-2) completely suppress gob-1 lethality, indicating that gob-1 mutant lethality is due to a toxic accumulation of trehalose-6-phosphate. [Source: WormBase]	positive regulation of growth rate, 		
H13N06.4	H13N06.4	H13N06.4 is orthologous to the human gene UNKNOWN (PROTEIN FOR MGC:12715) (SUOX. OMIM:602216), which when mutated leads to disease. [Source: WormBase]	electron transport, locomotory behavior, 		oxidoreductase activity, heme binding, transition metal ion binding, molybdenum ion binding, 
tbh-1	H13N06.6	tbh-1 is orthologous to the human gene DOPAMINE BETA-HYDROXYLASE (DOPAMINE BETA-MONOOXYGENASE) (DBH. OMIM:223360), which when mutated leads to disease. [Source: WormBase]	histidine catabolic process, catecholamine metabolic process, 		monooxygenase activity, copper ion binding, dopamine beta-monooxygenase activity, 
H13N06.7	H13N06.7	H13N06.7 [Source:RefSeq_peptide;Acc:NP_001024737]			
tag-148	H13N06.5	Putative Ke4-like protein tag-148. [Source:Uniprot/SWISSPROT;Acc:Q9XTQ7]	metal ion transport, 	membrane, 	protein binding, metal ion transmembrane transporter activity, 
eat-20	H30A04.1	eat-20 encodes a paralog of the C. elegans and Drosophila genes crb-1 and crumbs, expressed in pharynx, head neurons, hypodermis, and developing embryos. [Source: WormBase]	hermaphrodite genitalia development, 		calcium ion binding, 
olrn-1	C02C6.2	nsy-6 encodes, by alternative splicing, two isoforms of a transmembrane protein required for differentiation of the AWC[ON] neuron, expression of str-2 in AWC[ON], adaptation to benzaldehyde, chemotaxis to butanone, and enhancement of chemotaxis to butanone by the presence of food. NSY-6 is orthologous to Drosophila melanogaster RAW and Schistosoma japonicum SJCHGC05616. while NSY-6 has orthologs in nematodes, trematodes, and arthropods, its has no obvious chordate homologs. NSY-6 is expressed in many pharyngeal neurons and some head neurons, but is required solely in the AWC[ON] neuron for butanone enhancement. NSY-6's function in butanone enhancement is both serotonin- and dopamine-independent, and appears to also act in chemotactic enhancement of 2,3-pentanedione and isoamyl alcohol. by orthology with RAW, NSY-6 is predicted to inhibit JNK-1 signalling, which may in turn allow the asymmetrical AWC[ON] fate to emerge. [Source: WormBase]			
C02C6.3	C02C6.3	C02C6.3a [Source:RefSeq_peptide;Acc:NP_001041213]			protein binding, 
dyn-1	C02C6.1	Dynamin (EC 3.6.5.5). [Source:Uniprot/SWISSPROT;Acc:P39055]	endocytosis, G-protein coupled receptor protein signaling pathway, embryonic development ending in birth or egg hatching, 	integral to membrane, 	GTP binding, GTPase activity, rhodopsin-like receptor activity, 
K09A9.6	K09A9.6	K09A9.6 [Source:RefSeq_peptide;Acc:NP_510568]	cell adhesion, peptidyl-amino acid modification, ossification, 	integral to endoplasmic reticulum membrane, 	peptide-aspartate beta-dioxygenase activity, 
gas-1	K09A9.5	The gas-1 gene encodes a 49 kDa subunit of mitochondrial complex I that is required for oxidative phosphorylation, resistance to volatile anesthetics, fecundity, and normal lifespan. gas-1 is expressed in the nematode neuromuscular system. its subcellular distribution appears to be mitochondrial. drug effects on mutants versus wild-type indicate that gas-1 functions at least partially through presynaptic effects. gas-1 mutants have strongly reduced Complex I-dependent metabolism in mitochondria, while Complex II-dependent metabolism is conversely increased in mutants. gas-1 mitochondria look structurally normal. [Source: WormBase]	electron transport, mitochondrial electron transport, NADH to ubiquinone, growth, 		NAD binding, electron carrier activity, oxidoreductase activity, acting on NADH or NADPH, 
K09A9.4	K09A9.4	K09A9.4 [Source:RefSeq_peptide;Acc:NP_510570]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
ent-2	K09A9.3	Equilibrative Nucleoside Transporter family member (ent-2) [Source:RefSeq_peptide;Acc:NP_510571]	transport, morphogenesis of an epithelium, 	membrane, 	nucleoside transmembrane transporter activity, 
rab-14	K09A9.2	rab-14 encodes a member of the Rab GTPase family. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
K09A9.1	K09A9.1	K09A9.1 [Source:RefSeq_peptide;Acc:NP_510573]	protein amino acid phosphorylation, positive regulation of growth rate, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
K09E9.3	K09E9.3	K09E9.3 [Source:RefSeq_peptide;Acc:NP_510574]			
erv-46	K09E9.2	yeast ERV (ER to Golgi transport Vesicle protein) homolog family member (erv-46) [Source:RefSeq_peptide;Acc:NP_510575]			
NR_003487.1	K09E9.5	K09E9.5, snoRNA [Source:RefSeq_dna;Acc:NR_003487]			
K09E9.1	K09E9.1	K09E9.1 [Source:RefSeq_peptide;Acc:NP_510576]	transport, 	integral to membrane, 	transporter activity, 
K09E9.4	K09E9.4	K09E9.4 [Source:RefSeq_peptide;Acc:NP_001024780]			cAMP-dependent protein kinase inhibitor activity, 
H08J19.1	H08J19.1	H08J19.1 [Source:RefSeq_peptide;Acc:NP_510577]			
F59D12.5	F59D12.5	F59D12.5 [Source:RefSeq_peptide;Acc:NP_510578]			
F59D12.3	F59D12.3	F59D12.3 [Source:RefSeq_peptide;Acc:NP_510579]			
F59D12.1	F59D12.1	F59D12.1 [Source:RefSeq_peptide;Acc:NP_510580]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F59D12.2	F59D12.2	F59D12.2 [Source:RefSeq_peptide;Acc:NP_510581]			
gpn-1	F59D12.4	gpn-1 encodes a glypican, a heparan sulfate proteoglycan anchored to the cell membrane by a GPI linkage, that is orthologous to Drosophila Dally-like (Dlp) and mammalian glypicans (OMIM:312870, mutated in Simpson-Golabi-Behmel overgrowth syndrome). by homology, GPN-1 is predicted to function as a cell surface protein that regulates intercellular signaling, perhaps within the context of cell division and growth regulation. however, as loss of gpn-1 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of GPN-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	transport, 	proteinaceous extracellular matrix, 	
C03H12.1	C03H12.1	C03H12.1 [Source:RefSeq_peptide;Acc:NP_510583]			
ZK662.2	ZK662.2	ZK662.2 [Source:RefSeq_peptide;Acc:NP_510584]			
nhr-48	ZK662.3	nhr-48 encodes a nuclear receptor that, along with daf-12 and nhr-8, comprise the C. elegans members of a conserved nuclear receptor subfamily that includes Drosophila HR96 and the vertebrate vitamin D, PXR, and CAR proteins. an nhr-48::gfp reporter is expressed in the pharyngeal gland in larvae and adults and in the spermatheca beginning in L4. weak hypodermal expression is also seen in some transgenic lines. [Source: WormBase]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, thyroid hormone receptor activity, 
ZK662.6	ZK662.6				
ZK662.5	ZK662.5	ZK662.5 [Source:RefSeq_peptide;Acc:NP_510586]			
lin-15B	ZK662.4	lin-15B encodes a novel protein that contains a THAP domain, a zinc-coordinating, site-specific DNA-binding domain. lin-15B was first identified as a class B synMuv gene that acts redundantly with lin-15A to negatively regulate the outcome of Ras signaling during vulval cell fate specification. subsequently, lin-15B has been shown to also negatively regulate progression through the G1 phase of the cell cycle and RNA-mediated interference (RNAi). [Source: WormBase]	embryonic development ending in birth or egg hatching, negative regulation of vulval development, negative regulation of Ras protein signal transduction, 	cellular_component, 	nucleic acid binding, molecular_function, 
lin-15A	ZK678.1	lin-15A encodes a novel, hydrophilic protein. LIN-15A activity is required non-cell autonomously to negatively regulate vulval development. genetic analysis indicates that lin-15A, a class A synMuv gene, functions upstream of the LET-23 receptor tyrosine and redundantly with class B synMuv genes, such as lin-15B and lin-35 Rb and class C synMuv genes such as trr-1 and mys-1. although the lin-15A expression pattern is not yet known, genetic mosaic analysis suggests that, in regulating vulval induction, LIN-15A functions outside of the six vulval precursor cells P(3-8).p, likely acting instead in the surrounding hypodermal tissue. [Source: WormBase]	growth, negative regulation of vulval development, 	cellular_component, 	molecular_function, 
srg-64	ZK678.6	Serpentine Receptor, class G (gamma) family member (srg-64) [Source:RefSeq_peptide;Acc:NP_510589]	signal transduction, 	membrane, 	transmembrane receptor activity, 
ZK678.t1	ZK678.t1				
nhr-255	ZK678.2	Nuclear Hormone Receptor family member (nhr-255) [Source:RefSeq_peptide;Acc:NP_510590]	regulation of transcription, DNA-dependent, 	nucleus, 	zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
srxa-9	ZK678.4	Serpentine Receptor, class XA family member (srxa-9) [Source:RefSeq_peptide;Acc:NP_510592]			
ZK678.t5	ZK678.t5				
ZK678.t2	ZK678.t2				
ZK678.t4	ZK678.t4				
ZK678.3	ZK678.3	ZK678.3 [Source:RefSeq_peptide;Acc:NP_510591]			
ZK678.t3	ZK678.t3				
wrt-4	ZK678.5	wrt-4 encodes a hedgehog-like protein, with (from N- to C-terminus) a signal sequence, a Wart domain, an short region of low-complexity sequence, and a Hint/Hog domain. WRT-4 is expressed strongly in hypodermal syncytia hyp6-hyp10 from 3-fold embryos to adults. the Hint/Hog domain is predicted to cut WRT-4 into two halves and then covalently link cholesterol to the C-terminus of the Wart domain. the Wart domain is predicted to form a cysteine-crosslinked protein involved in intercellular signalling, and it has subtle similarity to the N-terminal Hedge domain of HEDGEHOG proteins. WRT-4 is weakly required for normal molting. WRT-4 is also required for normal adult alae formation, growth to full size, locomotion, and male tail development. all of these requirements may reflect common defects in cholesterol-dependent hedgehog-like signalling or in vesicle trafficking. [Source: WormBase]	proteolysis, cell communication, multicellular organismal development, G-protein coupled receptor protein signaling pathway, intein-mediated protein splicing, embryonic development ending in birth or egg hatching, cell-cell signaling, segment polarity determination, protein autoprocessing, 	integral to membrane, extracellular region, plasma membrane, 	rhodopsin-like receptor activity, peptidase activity, molecular_function, 
bus-17	ZK678.8	bus-17 encodes a putative GT13 glycosyltransferase whose homologs include human B3GALT2 (OMIM:603018) and C. elegans BRE-5. BUS-17 is required for bacterial infection, as well as for cuticle integrity, long-term survival, and traction during movement. specifically, bus-17 is needed both for colonization by Microbacterium nematophilum (and the tail-swelling response to M. nematophilum infection) and for attachment of Yersinia pseudotuberculosis biofilms. bus-17 is also needed for normal cuticle antigens. BUS-17 is predicted to have an N-terminal signal sequence and a moderately conserved active site. bus-17 and bus-3 function together in vivo, since bus-17(e2695)/+ sometimes shows nonallelic noncomplementation with bus-3(e2696)/+. bus-17 males are sometimes wild-type if their fathers were wild-type. [Source: WormBase]	protein amino acid glycosylation, 	membrane, 	galactosyltransferase activity, 
Y7A5A.1	Y7A5A.1	Y7A5A.1 [Source:RefSeq_peptide;Acc:NP_510594]	electron transport, 		oxidoreductase activity, FAD binding, 
Y7A5A.t5	Y7A5A.t5				
Y7A5A.2	Y7A5A.2	Y7A5A.2 [Source:RefSeq_peptide;Acc:NP_510595]			protein binding, 
Y7A5A.t4	Y7A5A.t4				
Y7A5A.t1	Y7A5A.t1				
Y7A5A.3	Y7A5A.3	Y7A5A.3 [Source:RefSeq_peptide;Acc:NP_510597]			
Y7A5A.5	Y7A5A.5	Y7A5A.5 [Source:RefSeq_peptide;Acc:NP_510598]			
Y7A5A.10	Y7A5A.10	Y7A5A.10 [Source:RefSeq_peptide;Acc:NP_001024967]			
Y7A5A.t3	Y7A5A.t3				
Y7A5A.t2	Y7A5A.t2				
Y7A5A.6	Y7A5A.6	Y7A5A.6 [Source:RefSeq_peptide;Acc:NP_510599]			
Y7A5A.7	Y7A5A.7	Y7A5A.7 [Source:RefSeq_peptide;Acc:NP_510600]			
Y7A5A.11	Y7A5A.11	Y7A5A.11 [Source:RefSeq_peptide;Acc:NP_001024968]			
Y7A5A.8	Y7A5A.8	Y7A5A.8 [Source:RefSeq_peptide;Acc:NP_510601]			
Y7A5A.9	Y7A5A.9	Y7A5A.9 [Source:RefSeq_peptide;Acc:NP_510602]			
F59F4.1	F59F4.1	F59F4.1 [Source:RefSeq_peptide;Acc:NP_510603]	metabolic process, electron transport, fatty acid beta-oxidation, 	peroxisome, 	acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, acyl-CoA oxidase activity, 
F59F4.2	F59F4.2	F59F4.2 [Source:RefSeq_peptide;Acc:NP_510604]			protein binding, 
F59F4.3	F59F4.3	F59F4.3 [Source:RefSeq_peptide;Acc:NP_510605]	cell adhesion, ossification, 		
acl-1	F59F4.4	acl-1 encodes a 1-acyl-sn-glycerol-3-phosphate acyltransferase. ACL-1 is predicted to be a membrane protein that plays a role in phospholipid biosynthesis, but as loss of acl-1 activity via large-scale RNAi experiments results in no obvious defects, the precise role of ACL-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	metabolic process, phospholipid biosynthetic process, 	membrane, 	acyltransferase activity, 1-acylglycerol-3-phosphate O-acyltransferase activity, 
F53H4.6	F53H4.6				ATP binding, DNA binding, nucleic acid binding, helicase activity, 
F53H4.2	F53H4.2	F53H4.2 [Source:RefSeq_peptide;Acc:NP_510608]			sugar binding, 
csb-1	F53H4.1	csb-1 is orthologous to human gene ERCC6 (OMIM:133530, mutated in Cockayne syndrome). CSB-1 is required for embryonic viability, and represses UV-induced apoptosis in germ cells. [Source: WormBase]	phosphate metabolic process, embryonic development ending in birth or egg hatching, 	cytoplasm, 	ATP binding, DNA binding, nucleic acid binding, helicase activity, magnesium ion binding, inorganic diphosphatase activity, 
F53H4.4	F53H4.4	F53H4.4 [Source:RefSeq_peptide;Acc:NP_510609]			
F53H4.5	F53H4.5	F53H4.5 [Source:RefSeq_peptide;Acc:NP_510610]		nucleus, 	binding, DNA binding, 
F53H4.3	F53H4.3	F53H4.3 [Source:RefSeq_peptide;Acc:NP_510611]			
F31B9.1	F31B9.1	F31B9.1 [Source:RefSeq_peptide;Acc:NP_510612]	metal ion transport, G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	metal ion binding, rhodopsin-like receptor activity, purinergic nucleotide receptor activity, G-protein coupled, 
F31B9.4	F31B9.4	F31B9.4 [Source:RefSeq_peptide;Acc:NP_001024621]			
F31B9.2	F31B9.2	F31B9.2 [Source:RefSeq_peptide;Acc:NP_510613]			
F31B9.3	F31B9.3	F31B9.3 [Source:RefSeq_peptide;Acc:NP_510614]			
E03G2.1	E03G2.1	E03G2.1 [Source:RefSeq_peptide;Acc:NP_510615]			
mrp-3	E03G2.2	Putative uncharacterized protein mrp-3. [Source:Uniprot/SPTREMBL;Acc:Q19048]	transport, 	integral to membrane, 	ATP binding, ATPase activity, nucleotide binding, nucleoside-triphosphatase activity, ATPase activity, coupled to transmembrane movement of substances, 
mec-5	E03G2.3	mec-5 encodes a collagen unique in the number of Gly-X-Y repeats and in the composition of amino acids surrounding these repeats. MEC-5 is required for normal mechanosensory response to gentle touch and for the proper functioning of the touch receptor neurons. mec-5 interacts genetically with mec-4 and mec-10 which encode degenerins (ion channels) expressed in the touch neurons, mec-9, which encodes a protein containing EGF-like and Kunitz/protease inhibitor domains secreted by the touch neurons, and mec-12, which encodes an alpha-tubulin expressed in the touch neurons. these genetic interactions suggest that MEC-5 may play a role in anchoring the degenerin complex to the extracellular matrix. MEC-5 is produced and secreted by hypodermal cells. [Source: WormBase]	phosphate transport, mechanosensory behavior, 	cytoplasm, proteinaceous extracellular matrix, 	extracellular matrix structural constituent, 
col-186	E03G2.4	COLlagen family member (col-186) [Source:RefSeq_peptide;Acc:NP_510617]	phosphate transport, 	cytoplasm, proteinaceous extracellular matrix, 	structural constituent of cuticle, extracellular matrix structural constituent, 
C09G1.5	C09G1.5	C09G1.5 [Source:RefSeq_peptide;Acc:NP_001024386]			
pqn-11	C09G1.1	PQN-11 encodes an unfamiliar protein with a glutamine/asparagine-rich domain that is dispensable for viability and gross morphology. [Source: WormBase]			protein binding, 
C09G1.2	C09G1.2	C09G1.2 [Source:RefSeq_peptide;Acc:NP_510619]			
C09G1.3	C09G1.3	C09G1.3 [Source:RefSeq_peptide;Acc:NP_510620]			
C09G1.4	C09G1.4	Uncharacterized protein C09G1.4. [Source:Uniprot/SWISSPROT;Acc:Q17865]			protein binding, 
VB0395L.1	VB0395L.1	VB0395L.1 [Source:RefSeq_peptide;Acc:NP_001024932]			zinc ion binding, metallopeptidase activity, membrane alanyl aminopeptidase activity, 
nhx-1	B0395.1	nhx-1 encodes a sodium/proton exchanger expressed intracellularly within hypodermal and muscle cells. NHX-1 is required for embryonic viability, and is thought to prevent intracellular acidification by catalysing the electroneutral exchange of vesicular sodium for an intracellular proton. [Source: WormBase]	sodium ion transport, regulation of pH, embryonic development ending in birth or egg hatching, 	integral to membrane, 	solute:hydrogen antiporter activity, sodium:hydrogen antiporter activity, 
B0395.2	B0395.2	B0395.2 [Source:RefSeq_peptide;Acc:NP_510623]	locomotory behavior, 		
B0395.3	B0395.3	B0395.3 is orthologous to the human gene CHOLINE ACETYLTRANSFERASE ISOFORM R (CHAT. OMIM:118490), which when mutated leads to disease. [Source: WormBase]	chemotaxis, G-protein coupled receptor protein signaling pathway, locomotory behavior, 	integral to membrane, 	acyltransferase activity, C3a anaphylatoxin receptor activity, 
B0395.t1	B0395.t1				
T27A8.1	T27A8.1	T27A8.1 encodes a putative metallocarboxypeptidase orthologous to human AEBP1 (OMIM:602981) and carboxypeptidase D, E, M, N, X2, and Z precursors. T27A8.1 and its human orthologs, along with other proteins, comprise an M14B peptidase subfamily. T27A8.1 has no obvious function in mass RNAi assays. [Source: WormBase]	proteolysis, 		zinc ion binding, carboxypeptidase A activity, 
T27A8.2	T27A8.2	T27A8.2 [Source:RefSeq_peptide;Acc:NP_510626]	regulation of transcription, DNA-dependent, 	nucleus, 	transcription factor activity, sequence-specific DNA binding, 
T27A8.3	T27A8.3	Putative uncharacterized protein T27A8.3. [Source:Uniprot/SWISSPROT;Acc:P50581]	proteolysis, 		metalloexopeptidase activity, methionyl aminopeptidase activity, 
T27A8.5	T27A8.5	T27A8.5 [Source:RefSeq_peptide;Acc:NP_510628]			
T27A8.4	T27A8.4	T27A8.4 [Source:RefSeq_peptide;Acc:NP_510629]			
col-187	C30F2.1	C30F2.1 [Source:RefSeq_peptide;Acc:NP_510630]	phosphate transport, 	cytoplasm, 	structural constituent of cuticle, 
C30F2.4	C30F2.4	C30F2.4 [Source:RefSeq_peptide;Acc:NP_001024435]			
C30F2.2	C30F2.2	C30F2.2 [Source:RefSeq_peptide;Acc:NP_510631]			protein binding, zinc ion binding, 
C30F2.3	C30F2.3	C30F2.3 [Source:RefSeq_peptide;Acc:NP_510632]			
C30F2.5	C30F2.5	C30F2.5 [Source:RefSeq_peptide;Acc:NP_001024436]			
ZK1073.2	ZK1073.2	ZK1073.2 [Source:RefSeq_peptide;Acc:NP_510633]			protein binding, 
ZK1073.1	ZK1073.1	Uncharacterized protein ZK1073.1. [Source:Uniprot/SWISSPROT;Acc:O02485]	cell differentiation, 		
F09C8.2	F09C8.2	F09C8.2 [Source:RefSeq_peptide;Acc:NP_510635]			
F09C8.1	F09C8.1	F09C8.1 [Source:RefSeq_peptide;Acc:NP_510636]	lipid metabolic process, 		hydrolase activity, acting on ester bonds, 
R11.2	R11.2	R11.2 [Source:RefSeq_peptide;Acc:NP_510637]			
R11.1	R11.1	R11.1 [Source:RefSeq_peptide;Acc:NP_510638]	transport, 	membrane, mitochondrial inner membrane, 	transporter activity, binding, 
R11.3	R11.3	R11.3 [Source:RefSeq_peptide;Acc:NP_510639]			
R11.t4	R11.t4				
R11.t3	R11.t3				
R11.t2	R11.t2				
R11.t1	R11.t1				
R11.4	R11.4	R11.4 [Source:RefSeq_peptide;Acc:NP_510640]			
F23A7.4	F23A7.4	F23A7.4 [Source:RefSeq_peptide;Acc:NP_510641]			
F23A7.8	F23A7.8	F23A7.8 [Source:RefSeq_peptide;Acc:NP_001033542]			
F23A7.2	F23A7.2				
F23A7.1	F23A7.1	F23A7.1 [Source:RefSeq_peptide;Acc:NP_510642]			
F23A7.t1	F23A7.t1				
F23A7.3	F23A7.3	F23A7.3 [Source:RefSeq_peptide;Acc:NP_510643]			
F23A7.5	F23A7.5	F23A7.5 [Source:RefSeq_peptide;Acc:NP_510644]			
F23A7.7	F23A7.7	F23A7.7 [Source:RefSeq_peptide;Acc:NP_001024600]			
F23A7.6	F23A7.6				
W10G6.1	W10G6.1	W10G6.1 [Source:RefSeq_peptide;Acc:NP_510646]			
sgk-1	W10G6.2	Serum- and Glucocorticoid- inducible kinase homolog family member (sgk-1) [Source:RefSeq_peptide;Acc:NP_001041298]	protein amino acid phosphorylation, cell communication, embryonic development ending in birth or egg hatching, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, phosphoinositide binding, 
mua-6	W10G6.3	mua-6 encodes an essential intermediate filament protein (MUA-6/IFA-2) that is coexpressed with the essential IF protein IFB-1. MUA-6 is required for hypodermal integrity and for lasting attachment of muscles to the body wall. MUA-6 is also required for normal positioning of excretory canals and muscles. MUA-6 forms heteropolymeric intermediate filaments in vitro with an equimolar mixture of IFB-1. mua-6 is transcribed from L1 larval to adult stages. MUA-6 resides in main body hypodermal desmosomes, but not in seam cells. [Source: WormBase]	biological_process, 		protein binding, structural molecule activity, 
ifa-3	F52E10.5	ifa-3 encodes an essential intermediate filament protein that is coexpressed with the essential IF protein IFB-1. IFA-3 is required for survival past early larval stages, correct positioning of excretory canals and body muscles, attachment of cuticle to hypodermis, and locomotion. IFA-3 forms heteropolymeric intermediate filaments in vitro with an equimolar mixture of IFB-1. IFA-3 is expressed in embryonic and larval, but not adult, hypodermis. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		structural molecule activity, 
F52E10.t5	F52E10.t5				
F52E10.t1	F52E10.t1				
F52E10.t2	F52E10.t2				
sdc-1	F52E10.1	sdc-1 encodes a zinc-finger protein of the C2H2-type that affects egg laying and vulval development, and hermaphrodite sex determination. expressed at highest levels in embryos and in adults. [Source: WormBase]	dosage compensation, by hypoactivation of X chromosome, 	intracellular, 	zinc ion binding, transcription regulator activity, nucleic acid binding, 
F52E10.2	F52E10.2	F52E10.2 [Source:RefSeq_peptide;Acc:NP_510651]			
F52E10.3	F52E10.3	F52E10.3 [Source:RefSeq_peptide;Acc:NP_510652]			
F52E10.t4	F52E10.t4				
F52E10.t3	F52E10.t3				
F52E10.4	F52E10.4	F52E10.4 [Source:RefSeq_peptide;Acc:NP_510653]			
T01B4.t1	T01B4.t1				
T01B4.t2	T01B4.t2				
T01B4.t3	T01B4.t3				
T01B4.t4	T01B4.t4				
twk-21	T01B4.1	TWiK family of potassium channels family member (twk-21) [Source:RefSeq_peptide;Acc:NP_510654]	potassium ion transport, 	membrane, 	potassium channel activity, 
twk-22	T01B4.2	TWiK family of potassium channels family member (twk-22) [Source:RefSeq_peptide;Acc:NP_510655]	potassium ion transport, 	membrane, 	potassium channel activity, 
T01B4.3	T01B4.3	T01B4.3 [Source:RefSeq_peptide;Acc:NP_001024867]			
C11G6.2	C11G6.2	C11G6.2 [Source:RefSeq_peptide;Acc:NP_510656]			nucleotide binding, nucleoside-triphosphatase activity, 
taf-3	C11G6.1	taf-3 encodes the C. elegans ortholog of mammalian TAF3(TAFII140), a component of the RNA polymerase II TFIID transcription complex. TAF-3 contains a histone fold-like domain in its N-terminus and by homology, is predicted to function in transcriptional regulation. however, as loss of taf-3 activity via large-scale RNAi screens does not result in any obvious abnormalities, the precise role of taf-3 in C. elegans development and/or behavior is not yet known. [Source: WormBase]			
C11G6.3	C11G6.3	C11G6.3 [Source:RefSeq_peptide;Acc:NP_510658]	intracellular signaling cascade, multicellular organismal development, 	nucleus, 	protein binding, zinc ion binding, DNA binding, transcription factor activity, 
nhr-28	C11G6.4	Nuclear hormone receptor family member nhr-28. [Source:Uniprot/SWISSPROT;Acc:Q17905]	regulation of transcription, DNA-dependent, 	nucleus, 	protein binding, zinc ion binding, DNA binding, calcium ion binding, transcription factor activity, sequence-specific DNA binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
ace-1	W09B12.1	ace-1 encodes a class A acetylcholinesterase that functions redundantly with ACE-2 with respect to total class A acetylcholinesterase activity, and that genetically interacts with ace-2 and ace-3. ace-1 is expressed in the body wall muscle, sphincter muscle, head neurons, a few pharyngeal muscle cells, and the diagonal and spicule muscles of the male. [Source: WormBase]	regulation of locomotion, acetylcholine catabolic process, 		cholinesterase activity, 
sur-7	F01G12.2	SUppressor of activated let-60 Ras family member (sur-7) [Source:RefSeq_peptide;Acc:NP_741942]	positive regulation of growth rate, 		
F01G12.t1	F01G12.t1				
let-2	F01G12.5	let-2 encodes an alpha-2 type IV collagen, probably most closely equivalent to the human gene COL4A2 (OMIM:120090) on the basis of biological function. LET-2 is required for embryonic development and is a component of the basement membrane between muscle and hypodermis. LET-2 interacts with UNC-105, a mechanosensory ion channel of the degenerin ion channel superfamily that is expressed in muscle and required for normal growth, muscle contraction, and muscle organization. [Source: WormBase]	phosphate transport, cellular component organization and biogenesis, embryonic development ending in birth or egg hatching, growth, 	cytoplasm, proteinaceous extracellular matrix, collagen, collagen type IV, 	extracellular matrix structural constituent, extracellular matrix structural constituent conferring tensile strength, 
F01G12.1	F01G12.1	F01G12.1 [Source:RefSeq_peptide;Acc:NP_510665]	copper ion transport, 	integral to membrane, 	copper ion transmembrane transporter activity, 
F01G12.6	F01G12.6	F01G12.6 [Source:RefSeq_peptide;Acc:NP_510666]			protein binding, 
T24D11.1	T24D11.1	T24D11.1 [Source:RefSeq_peptide;Acc:NP_510667]	regulation of Rab GTPase activity, 	intracellular, 	Rab GTPase activator activity, 
F38E9.6	F38E9.6	F38E9.6 [Source:RefSeq_peptide;Acc:NP_510668]			
F38E9.t1	F38E9.t1				
F38E9.5	F38E9.5	F38E9.5 [Source:RefSeq_peptide;Acc:NP_510669]		intracellular, 	actin binding, 
F38E9.4	F38E9.4	F38E9.4 [Source:RefSeq_peptide;Acc:NP_510670]			
nas-39	F38E9.2	Zinc metalloproteinase nas-39 precursor (EC 3.4.24.21) (Nematode astacin 39). [Source:Uniprot/SWISSPROT;Acc:Q20176]	proteolysis, 		zinc ion binding, metallopeptidase activity, calcium ion binding, astacin activity, 
F38E9.t2	F38E9.t2				
F38E9.1	F38E9.1	F38E9.1 [Source:RefSeq_peptide;Acc:NP_510673]			protein binding, 
cah-3	K05G3.3	cah-3 encodes a putative carbonic anhydrase, closely similar to its paralog CAH-5. cah-3 is expressed in intestine and head (including neurons) of L3 larvae through adults, and its transcription is moderately stimulated by DBL-1 and SMA-2. CAH-3 is bound by CKU-80 in two-hybrid assays, but has no obvious function in mass RNAi assays. [Source: WormBase]	one-carbon compound metabolic process, 		zinc ion binding, carbonate dehydratase activity, 
K05G3.2	K05G3.2	K05G3.2 [Source:RefSeq_peptide;Acc:NP_510675]			
K05G3.1	K05G3.1	K05G3.1 [Source:RefSeq_peptide;Acc:NP_510676]		intracellular, 	nucleic acid binding, 3'-5' exonuclease activity, 
K05G3.t1	K05G3.t1				
T25D1.3	T25D1.3	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
T25D1.2	T25D1.2	T25D1.2 [Source:RefSeq_peptide;Acc:NP_510678]			
T25D1.1	T25D1.1	T25D1.1 [Source:RefSeq_peptide;Acc:NP_510679]			
T25D1.t1	T25D1.t1				
T25D1.t2	T25D1.t2				
T27B1.t1	T27B1.t1				
T27B1.2	T27B1.2	T27B1.2 [Source:RefSeq_peptide;Acc:NP_510680]	embryonic development ending in birth or egg hatching, 	intracellular, nucleus, 	zinc ion binding, nucleic acid binding, 
osm-1	T27B1.1	osm-1 encodes a WD- and WAA-repeat containing protein that is the C. elegans ortholog of intraflagellar transport (IFT) complex B component IFT172. OSM-1 is a presumptive cargo molecule for kinesin-II, and OSM-1 is required, along with OSM-6, for the proper assembly of the middle segments of sensory cilia. osm-1 may act in a pathway with avr-14 to affect resistance to ivermectin-induced cessation of pumping, and mutants are defective in avoidance of solutions of high osmotic strength. an OSM-1::GFP fusion protein is expressed in amphid and phasmid chemosensory neurons where it undergoes both anterograde and retrograde intraflagellar transport. [Source: WormBase]			
K08B5.2	K08B5.2	K08B5.2 [Source:RefSeq_peptide;Acc:NP_510682]			
K08B5.t1	K08B5.t1				
K08B5.1	K08B5.1	K08B5.1 [Source:RefSeq_peptide;Acc:NP_510683]			
K08B5.t2	K08B5.t2				
ser-1	F59C12.2	ser-1 encodes a putative ortholog of mammalian 5-HT2 metabotropic serotonin receptors. SER-1 is required in both vulval muscle and neurons for the stimulation of egg-laying by serotonin (5-HT), but is completely dispensable for stimulation by the uptake inhibitor fluoxetine, and mostly dispensable for stimulation by the tricyclic antidepressant imipramine. SER-1 and SER-7 are redundantly required for normal egg-laying. SER-1 is required for normal turning during male mating, and ser-1 mutants show reduced male tail curling in exogenous 5-HT, but ser-1 males retain mating ability in the laboratory. SER-1 is weakly required for pharyngeal pumping. SER-1 is expressed in diverse neurons (head, nerve ring, vulval, ventral cord motoneurons, tail, and many others), in diverse muscles (pharyngeal, vulval, and male-specific diagonal), and in uterine cells. stimulation of heterologously expressed SER-1 induces a rise in free intracellular calcium. SER-1 has low affinity for 5-HT, and a mixture of pharmacological similarities to mammalian 5-HT1 and 5-HT2 receptors. SER-1 is stimulated by alpha-methyl-5HT, and probably antagonized by methiotheptin. SER-1 is coexpressed with MPZ-1, has a PDZ binding motif (ETFL) that aids its signalling, and binds PDZ domain 10 of MPZ-1 in vitro. SER-1's stimulation of egg-laying is impeded by mpz-1(RNAi), if and only if SER-1's ETFL motif is intact. mod-1.ser-1 double mutants subtly overbend their bodies while moving backward. [Source: WormBase]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	dopamine receptor activity, rhodopsin-like receptor activity, 
F59C12.t1	F59C12.t1				
F59C12.t3	F59C12.t3				
cdh-9	F59C12.1	cdh-9 encodes a member of the cadherin superfamily of transmembrane glycoproteins that mediate homophilic cell-cell adhesion. as loss of CDH-9 activity via RNA-mediated interference (RNAi) does not result in any abnormalities, the precise role of CDH-9 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	homophilic cell adhesion, 	membrane, 	calcium ion binding, 
F59C12.4	F59C12.4	Putative uncharacterized protein. [Source:Uniprot/SPTREMBL;Acc:A3FPJ0]			
F59C12.3	F59C12.3	F59C12.3 [Source:RefSeq_peptide;Acc:NP_510686]			protein binding, 
F59C12.t2	F59C12.t2				
ain-1	C06G1.4	ain-1 encodes an unfamiliar protein synergistically required, with LIN-31, for the normal timing of vulval differentiation, independently of LET-60/RAS, and parallel to or downstream of LIN-14/LIN-28/HBL-1. AIN-1 is expressed in cytoplasmic foci (that are probably P bodies) in several tissues, including vulval precursor cells and neurons. AIN-1 coimmunoprecipitates with DCR-1 and ALG-1, also binds ALG-1 in vitro, and does not require DNA or RNA for its binding. in vivo, AIN-1 targets ALG-1 to cytoplasmic foci, in which it colocalizes with DCAP-2. AIN-1 is likely to be a RISC component, since anti-AIN-1 antibodies precipitate 29 different miRNAs, including mir-2, mir-52, mir-58, mir-71, mir-77, and mir-239a. ain-1(ku322) mutants are essentially wild-type, except for sporadically gapped alae and excess seam cell nuclei arising from retarded seam cell fusion. more prominently, ain-1(ku322) suppresses the multivulva phenotype of lin-31(n1053) mutations, while strongly enhancing lin-31(n1053)'s egg-laying defect. the cellular basis of lin-31(n1053).ain-1(ku322) phenotypes is a delay in vulval development in L4 larvae not seen with either mutation alone. ain-1(ku322) has no effect on let-60(n1046) or lin-3(e1275) mutations. ain-1(ku322) suppresses the precocious vulval development of lin-14(RNAi), lin-28 mutants, and hbl-1(RNAi). alg-1 or alg-1 ain-1 mutant alae resemble ain-1 alae, indicating that ALG-1 and AIN-1 act in a common genetic pathway. AIN-1 is homologous to Brugia malayi 14748.m00068, 14052.m00191, and 14963.m01790, and paralogous to C. elegans B0041.2. AIN-1 and its nematode homologs have weak similarity to human TNRC6A (GW182. OMIM:610739) and Drosophila GAWKY. [Source: WormBase]	locomotory behavior, 		
C06G1.t4	C06G1.t4				
C06G1.t3	C06G1.t3				
C06G1.t2	C06G1.t2				
C06G1.2	C06G1.2	C06G1.2 [Source:RefSeq_peptide;Acc:NP_510688]			
C06G1.1	C06G1.1	C06G1.1 [Source:RefSeq_peptide;Acc:NP_510689]	negative regulation of multicellular organism growth, 		lipid binding, 
C06G1.t1	C06G1.t1				
C06G1.5	C06G1.5	C06G1.5 [Source:RefSeq_peptide;Acc:NP_510690]			calcium ion binding, 
F43B10.1	F43B10.1	F43B10.1 [Source:RefSeq_peptide;Acc:NP_510691]			
tag-343	F43B10.2	Temporarily Assigned Gene name family member (tag-343) [Source:RefSeq_peptide;Acc:NP_001041251]	cell adhesion, locomotory behavior, 	actin cytoskeleton, 	structural molecule activity, 
F22H10.3	F22H10.3	F22H10.3 [Source:RefSeq_peptide;Acc:NP_510693]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	protein binding, rhodopsin-like receptor activity, 
F22H10.2	F22H10.2	F22H10.2 [Source:RefSeq_peptide;Acc:NP_510694]			
F22H10.4	F22H10.4	F22H10.4 [Source:RefSeq_peptide;Acc:NP_510695]			
F22H10.5	F22H10.5	F22H10.5 [Source:RefSeq_peptide;Acc:NP_510696]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
F22H10.6	F22H10.6	F22H10.6 [Source:RefSeq_peptide;Acc:NP_510697]			
F22H10.t1	F22H10.t1				
F22H10.1	F22H10.1	F22H10.1 [Source:RefSeq_peptide;Acc:NP_510698]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein serine/threonine kinase activity, 
T21F2.1	T21F2.1	T21F2.1a [Source:RefSeq_peptide;Acc:NP_741945]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, ion channel activity, GABA-A receptor activity, 
hda-4	C10E2.3	hda-4 encodes a class II histone deacetylase that contains a putative MEF-2 DNA binding domain, a nuclear localization signal domain, and a single catalytic domain and may affect locomotion, body morphology, and growth. interacts with MEF-2 in in vitro assays and is expressed in body-wall muscle, neurons, and hypodermal seam cells [Source: WormBase]	locomotory behavior, 		
C10E2.2	C10E2.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			zinc ion binding, 
C10E2.4	C10E2.4	C10E2.4 [Source:RefSeq_peptide;Acc:NP_510702]			
C10E2.5	C10E2.5	C10E2.5 [Source:RefSeq_peptide;Acc:NP_510703]			
C10E2.1	C10E2.1	C10E2.1 [Source:RefSeq_peptide;Acc:NP_510704]			
C10E2.6	C10E2.6	C10E2.6 [Source:RefSeq_peptide;Acc:NP_510705]	transport, glycolysis, 	integral to membrane, 	ATP binding, transporter activity, hexokinase activity, 
T01C8.3	T01C8.3	T01C8.3 [Source:RefSeq_peptide;Acc:NP_510706]			
T01C8.2	T01C8.2	T01C8.2 [Source:RefSeq_peptide;Acc:NP_510707]			
T01C8.4	T01C8.4	T01C8.4 [Source:RefSeq_peptide;Acc:NP_510708]	amino acid metabolic process, biosynthetic process, 		catalytic activity, pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, 
T01C8.5	T01C8.5	Probable aspartate aminotransferase, cytoplasmic (EC 2.6.1.1) (Transaminase A) (Glutamate oxaloacetate transaminase 1). [Source:Uniprot/SWISSPROT;Acc:Q22067]	amino acid metabolic process, biosynthetic process, positive regulation of growth rate, 		catalytic activity, pyridoxal phosphate binding, transaminase activity, transferase activity, transferring nitrogenous groups, 
aak-2	T01C8.1	aak-2 encodes one of two C. elegans homologs of the catalytic alpha subunit of AMP-activated protein kinases (AMPKs). in C. elegans, aak-2 functions downstream of stressors and energy level signals, as well as daf-2-mediated insulin signaling, to positively regulate adult lifespan. in addition, genetic analysis with daf-16 mutants indicates that, in regulating lifespan, AAK-2 likely acts in parallel with DAF-16. aak-2 activity is also required for dauer formation of daf-2 mutant animals at high temperature, in a manner that does not appear to be dependent upon the AMP:ATP ratio. in the germline, aak-2 functions downstream of daf-2 and daf-7, and in parallel to par-4 and aak-1, to negatively regulate germline proliferation during dauer development. in vitro, AAK-2 exhibits AMP-enhanced kinase activity against a known AMPK substrate. [Source: WormBase]	protein amino acid phosphorylation, determination of adult life span, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, protein binding, 
mec-4	T01C8.7	mec-4 encodes an amiloride-sensitive Na+ channel protein (degenerin) required to sense gentle mechanical stimuli (e.g. touch) along the body wall. MEC-4 is paralogous to, and coexpressed with, MEC-10, in all six touch cell neurons where they form a heteromeric mechanotransduction channel. [Source: WormBase]	ion transport, sodium ion transport, response to mechanical stimulus, 	membrane, integral to membrane, 	ion channel activity, sodium channel activity, amiloride-sensitive sodium channel activity, 
cas-1	F41G4.2	cas-1 encodes the C. elegans homologue of the adenylyl cyclase-associated protein 1 (CAP1). as loss of cas-1 activity via large-scale RNAi screens results in no obvious defects, the precise role of cas-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	regulation of adenylate cyclase activity, 	membrane, 	adenylate cyclase binding, 
sto-5	F41G4.3	STOmatin family member (sto-5) [Source:RefSeq_peptide;Acc:NP_001024653]		membrane, 	
F41G4.4	F41G4.4	F41G4.4 [Source:RefSeq_peptide;Acc:NP_510716]			
F41G4.5	F41G4.5	F41G4.5 [Source:RefSeq_peptide;Acc:NP_510717]			nucleic acid binding, 
F41G4.7	F41G4.7	F41G4.7 [Source:RefSeq_peptide;Acc:NP_510719]			
F41G4.1	F41G4.1	F41G4.1 [Source:RefSeq_peptide;Acc:NP_510720]			protein binding, 
F41G4.8	F41G4.8	F41G4.8 [Source:RefSeq_peptide;Acc:NP_510721]			
T20F7.5	T20F7.5	T20F7.5 [Source:RefSeq_peptide;Acc:NP_510723]			
T20F7.3	T20F7.3	T20F7.3 [Source:RefSeq_peptide;Acc:NP_510724]			inositol trisphosphate 3-kinase activity, 
T20F7.6	T20F7.6	T20F7.6 [Source:RefSeq_peptide;Acc:NP_510725]			
T20F7.1	T20F7.1	T20F7.1 [Source:RefSeq_peptide;Acc:NP_510727]		intracellular, 	zinc ion binding, nucleic acid binding, 
T20F7.7	T20F7.7	T20F7.7 [Source:RefSeq_peptide;Acc:NP_510728]	metabolic process, 		catalytic activity, 
Y13C8A.1	Y13C8A.1	Y13C8A.1 [Source:RefSeq_peptide;Acc:NP_510729]			
Y13C8A.2	Y13C8A.2	Y13C8A.2 [Source:RefSeq_peptide;Acc:NP_001024952]			
F39F10.3	F39F10.3	F39F10.3 [Source:RefSeq_peptide;Acc:NP_510730]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F39F10.2	F39F10.2	F39F10.2 [Source:RefSeq_peptide;Acc:NP_510731]	protein amino acid phosphorylation, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, 
F39F10.4	F39F10.4	F39F10.4 [Source:RefSeq_peptide;Acc:NP_510732]			
F39F10.5	F39F10.5	F39F10.5 [Source:RefSeq_peptide;Acc:NP_510734]			
C30E1.7	C30E1.7	C30E1.7 [Source:RefSeq_peptide;Acc:NP_510735]			
C30E1.6	C30E1.6	C30E1.6 [Source:RefSeq_peptide;Acc:NP_510736]			
C30E1.8	C30E1.8	C30E1.8 [Source:RefSeq_peptide;Acc:NP_510737]			
fbxb-114	C30E1.5	F-box B protein family member (fbxb-114) [Source:RefSeq_peptide;Acc:NP_510738]			
C30E1.4	C30E1.4	C30E1.4 [Source:RefSeq_peptide;Acc:NP_510739]			
C30E1.3	C30E1.3	C30E1.3 [Source:RefSeq_peptide;Acc:NP_510740]			
C30E1.2	C30E1.2	C30E1.2 [Source:RefSeq_peptide;Acc:NP_510741]			
C30E1.t1	C30E1.t1				
F52G3.3	F52G3.3	F52G3.3 [Source:RefSeq_peptide;Acc:NP_510742]			
F52G3.4	F52G3.4	F52G3.4 [Source:RefSeq_peptide;Acc:NP_510743]			
F52G3.1	F52G3.1	F52G3.1 [Source:RefSeq_peptide;Acc:NP_510744]			
F52G3.5	F52G3.5	F52G3.5 [Source:RefSeq_peptide;Acc:NP_510745]			
K02H8.1	K02H8.1	Muscleblind-like protein. [Source:Uniprot/SWISSPROT;Acc:Q94250]	biological_process, 	nucleus, 	zinc ion binding, nucleic acid binding, 
F35B3.3	F35B3.3	F35B3.3 [Source:RefSeq_peptide;Acc:NP_510747]			
F35B3.1	F35B3.1	F35B3.1 [Source:RefSeq_peptide;Acc:NP_510749]	ubiquitin-dependent protein catabolic process, 		ubiquitin thiolesterase activity, 
F35B3.4	F35B3.4	F35B3.4 [Source:RefSeq_peptide;Acc:NP_510750]		extracellular region, 	protein binding, 
pqn-34	F35B3.5	The protein product of this gene is predicted to contain a glutamine/asparagine (Q/N)-rich ('prion') domain, by the algorithm of Michelitsch and Weissman (as of the WS77 release of WormBase, i.e., in wormpep77). [Source: WormBase]			
F35B3.7	F35B3.7	F35B3.7 [Source:RefSeq_peptide;Acc:NP_510753]			
C30G4.2	C30G4.2	C30G4.2 [Source:RefSeq_peptide;Acc:NP_510754]			protein binding, 
gcy-11	C30G4.3	Guanylyl CYclase family member (gcy-11) [Source:RefSeq_peptide;Acc:NP_510755]	intracellular signaling cascade, protein amino acid phosphorylation, cyclic nucleotide biosynthetic process, 		protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, phosphorus-oxygen lyase activity, 
C30G4.7	C30G4.7	C30G4.7 [Source:RefSeq_peptide;Acc:NP_510756]	regulation of transcription, DNA-dependent, 		transcription factor activity, 
C30G4.4	C30G4.4	C30G4.4b [Source:RefSeq_peptide;Acc:NP_001024438]			
C30G4.5	C30G4.5	C30G4.5 [Source:RefSeq_peptide;Acc:NP_510759]			
C30G4.6	C30G4.6	C30G4.6 [Source:RefSeq_peptide;Acc:NP_510760]		membrane, 	
C08A9.10	C08A9.10	C08A9.10 [Source:RefSeq_peptide;Acc:NP_001041218]			
C08A9.11	C08A9.11				
C08A9.2	C08A9.2				
C08A9.3	C08A9.3	C08A9.3 [Source:RefSeq_peptide;Acc:NP_510761]			
sod-3	C08A9.1	sod-3 encodes a iron/manganese superoxide dismutase, predicted to be mitochondrial, that might defend against oxidative stress and promote normal lifespan. sod-3 mRNA levels are diminished by mutation of daf-16, and heterologously expressed SOD-3 in E. coli protects against methyl viologen-induced oxidative stress. [Source: WormBase]	superoxide metabolic process, determination of adult life span, 		metal ion binding, superoxide dismutase activity, 
C08A9.6	C08A9.6	C08A9.6 [Source:RefSeq_peptide;Acc:NP_510765]			
sdz-2	C08A9.7	SKN-1 Dependent Zygotic transcript family member (sdz-2) [Source:RefSeq_peptide;Acc:NP_510766]			
C08A9.8	C08A9.8	C08A9.8 [Source:RefSeq_peptide;Acc:NP_510767]			
C08A9.9	C08A9.9	C08A9.9 [Source:RefSeq_peptide;Acc:NP_510768]			
K09E3.5	K09E3.5	K09E3.5 [Source:RefSeq_peptide;Acc:NP_510769]			
K09E3.6	K09E3.6	K09E3.6 [Source:RefSeq_peptide;Acc:NP_510770]			
K09E3.2	K09E3.2	K09E3.2 [Source:RefSeq_peptide;Acc:NP_510772]			
K09E3.4	K09E3.4	K09E3.4 [Source:RefSeq_peptide;Acc:NP_510773]			
K09E3.1	K09E3.1	K09E3.1 [Source:RefSeq_peptide;Acc:NP_510774]	embryonic development ending in birth or egg hatching, 		
K09E3.7	K09E3.7	K09E3.7 [Source:RefSeq_peptide;Acc:NP_510775]			
T23C6.3	T23C6.3	T23C6.3 [Source:RefSeq_peptide;Acc:NP_510776]			
T23C6.4	T23C6.4	T23C6.4 [Source:RefSeq_peptide;Acc:NP_510777]			
mdt-1.2	T23C6.1	MeDiaTor family member (mdt-1.2) [Source:RefSeq_peptide;Acc:NP_510778]			
T23C6.5	T23C6.5	T23C6.5 [Source:RefSeq_peptide;Acc:NP_510779]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	protein binding, transcription factor activity, sequence-specific DNA binding, protein dimerization activity, rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
B0302.4	B0302.4	Uncharacterized protein B0302.4. [Source:Uniprot/SWISSPROT;Acc:Q10927]			
B0302.2	B0302.2	Uncharacterized protein B0302.2. [Source:Uniprot/SWISSPROT;Acc:Q10926]			
kin-25	B0302.1	kin-25 encodes a nonreceptor tyrosine kinase that is a member of the Ack subfamily of cytoplasmic tyrosine kinases. [Source: WormBase]	protein amino acid phosphorylation, cell-matrix adhesion, threonine metabolic process, 	cytoskeleton, 	protein kinase activity, ATP binding, protein-tyrosine kinase activity, protein serine/threonine kinase activity, homoserine kinase activity, 
B0302.5	B0302.5	Uncharacterized protein B0302.5. [Source:Uniprot/SWISSPROT;Acc:Q10928]			
T08G2.2	T08G2.2	T08G2.2 [Source:RefSeq_peptide;Acc:NP_510787]			
T08G2.3	T08G2.3	T08G2.3 is orthologous to the human gene ACYL-CoA DEHYDROGENASE, MEDIUM-CHAIN (ACADM. OMIM:607008), which when mutated leads to MCAD deficiency. [Source: WormBase]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
T25G12.5	T25G12.5	T25G12.5 [Source:RefSeq_peptide;Acc:NP_510789]	metabolic process, electron transport, 		acyl-CoA dehydrogenase activity, oxidoreductase activity, acting on the CH-CH group of donors, 
rab-6.2	T25G12.4	rab-6.2 encodes a small, monomeric Rab GTPase that is most closely related to the Drosophila Rab6 and mammalian Rab6a GTPases. by homology, RAB-6.2 is predicted to function as a membrane-associated GTPase required for intracellular vesicular trafficking and for regulation of endo- and exocytosis. however, as loss of rab-6.2 function via RNA-mediated interference (RNAi) does not result in any obvious abnormalities, the precise role of RAB-6.2 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	signal transduction, protein transport, small GTPase mediated signal transduction, intracellular protein transport, nucleocytoplasmic transport, 	intracellular, 	protein binding, GTP binding, GTPase activity, 
T25G12.6	T25G12.6	T25G12.6 [Source:RefSeq_peptide;Acc:NP_510791]			
dhs-30	T25G12.7	dhs-30 encodes a member of the short-chain dehydrogenases/reductases family (SDR) homologous to HSD, which when mutated leads to cortisol 11-beta ketoreductase deficiency (OMIM:218030). [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T25G12.3	T25G12.3	T25G12.3 [Source:RefSeq_peptide;Acc:NP_510792]			
T25G12.11	T25G12.11	T25G12.11 [Source:RefSeq_peptide;Acc:NP_741948]			
T25G12.2	T25G12.2	The T25G12.2 gene encodes a homolog of the human gene HSD, which when mutated leads to cortisol 11-beta ketoreductase deficiency (OMIM:218030). T25G12.2 protein is predicted to be mitochondrial with 68% accuracy. [Source: WormBase]	metabolic process, enterobactin biosynthetic process, 		oxidoreductase activity, 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase activity, 
T25G12.1	T25G12.1	T25G12.1 [Source:RefSeq_peptide;Acc:NP_510796]			
Y40C7B.4	Y40C7B.4	Y40C7B.4 [Source:RefSeq_peptide;Acc:NP_510798]			
Y40C7B.3	Y40C7B.3	Y40C7B.3 [Source:RefSeq_peptide;Acc:NP_510800]			
Y40C7B.1	Y40C7B.1	Y40C7B.1 [Source:RefSeq_peptide;Acc:NP_510801]			
Y40C7B.5	Y40C7B.5	Y40C7B.5 [Source:RefSeq_peptide;Acc:NP_510802]			
C33E10.6	C33E10.6	C33E10.6 [Source:RefSeq_peptide;Acc:NP_510803]			
C33E10.5	C33E10.5	C33E10.5 [Source:RefSeq_peptide;Acc:NP_510804]	glycolysis, embryonic development ending in birth or egg hatching, 		NAD binding, glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity, 
C33E10.4	C33E10.4				
C33E10.3	C33E10.3				
C33E10.7	C33E10.7				
C33E10.8	C33E10.8	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. [Source: WormBase]			
C33E10.9	C33E10.9				
C33E10.10	C33E10.10	C33E10.10 [Source:RefSeq_peptide;Acc:NP_510806]	metabolic process, 		protein binding, oxidoreductase activity, 
fbxa-120	C33E10.2	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. this gene's encoded protein also contains an FTH/DUF38 motif, which may also mediate protein-protein interaction. [Source: WormBase]			
C33E10.1	C33E10.1	This gene encodes a protein containing an F-box, a motif predicted to mediate protein-protein interactions either with homologs of yeast Skp-1p or with other proteins. its encoded protein also contains a Pfam-B45 motif of presently unknown function. [Source: WormBase]			
C53C11.4	C53C11.4	C53C11.4 [Source:RefSeq_peptide;Acc:NP_510809]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	
ptr-5	C53C11.3	ptr-5 encodes a nematode-specific member of the sterol sensing domain (SSD) proteins, distantly paralogous to Drosophila PATCHED (PTC) and human PTCH (OMIM:601309, mutated in basal cell nevus syndrome). PTR-5 is weakly required for normal molting from L4 to adult stages. PTR-5 is also required for normal growth to full size and locomotion. PTR-5 is expressed in head and tail neurons, and in ventral nerve cord. [Source: WormBase]		membrane, integral to membrane, 	hedgehog receptor activity, 
C53C11.5	C53C11.5	C53C11.5 [Source:RefSeq_peptide;Acc:NP_001041230]			
C53C11.2	C53C11.2	C53C11.2 [Source:RefSeq_peptide;Acc:NP_510811]			
C53C11.1	C53C11.1	C53C11.1 [Source:RefSeq_peptide;Acc:NP_510812]			
F10D7.1	F10D7.1	F10D7.1 [Source:RefSeq_peptide;Acc:NP_510813]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F10D7.2	F10D7.2	F10D7.2 [Source:RefSeq_peptide;Acc:NP_510814]	transport, 	integral to membrane, 	transporter activity, 
F10D7.3	F10D7.3	Uncharacterized monothiol glutaredoxin F10D7.3. [Source:Uniprot/SWISSPROT;Acc:Q19297]	electron transport, cell redox homeostasis, 		electron carrier activity, protein disulfide oxidoreductase activity, 
F10D7.4	F10D7.4	F10D7.4 [Source:RefSeq_peptide;Acc:NP_510816]			
F10D7.5	F10D7.5	F10D7.5 encodes an ortholog of Drosophila NEURALIZED, and thus may participate in GLP-1/LIN-12 signalling. the promoter or 5' protein-coding regions of F10D7.5 are bound by DAF-16 in vivo, and F10D7.5 expression drops by roughly one-half in daf-16(mu86) mutants. [Source: WormBase]	carbohydrate metabolic process, biological_process, 		protein binding, zinc ion binding, alpha-galactosidase activity, 
vap-1	F11C7.3	Venom-Allergen-like Protein family member (vap-1) [Source:RefSeq_peptide;Acc:NP_001024553]		extracellular region, 	
F11C7.2	F11C7.2	F11C7.2 [Source:RefSeq_peptide;Acc:NP_510821]			
F11C7.7	F11C7.7	F11C7.7 [Source:RefSeq_peptide;Acc:NP_741952]			
F11C7.6	F11C7.6	F11C7.6a [Source:RefSeq_peptide;Acc:NP_001041240]			
crb-1	F11C7.4	crb-1 encodes a homolog of Drosophila CRUMBS that affects dauer formation and feeding behavior. CRB-1 can bind cyclic AMP-response element (CRE) sites and be phosphorylated by PKA in vitro, and is expressed immediately apical to the zonula adherens in embryos and then ubiquitously later during development and in adults. CRB-1 is homologous to human CRB1 (OMIM:604210, mutated in retinitis pigmentosa 12 or Leber congenital amaurosis). [Source: WormBase]	translation, transcription, tRNA aminoacylation for protein translation, 	cytoplasm, 	ATP binding, nucleotide binding, DNA binding, DNA-directed RNA polymerase activity, calcium ion binding, aminoacyl-tRNA ligase activity, 
osm-11	F11C7.5	F11C7.5 [Source:RefSeq_peptide;Acc:NP_510823]	positive regulation of growth rate, 		
lgc-3	F11C7.1	F11C7.1 [Source:RefSeq_peptide;Acc:NP_510824]	transport, ion transport, 	membrane, integral to membrane, postsynaptic membrane, 	extracellular ligand-gated ion channel activity, neurotransmitter receptor activity, nicotinic acetylcholine-activated cation-selective channel activity, ion channel activity, 
C36E6.1	C36E6.1	C36E6.1 encodes two proteins by alternative splicing, belonging to an ancient family of single-stranded nucleic acid-binding proteins, that are predicted to regulate gene expression through binding either mRNA or (locally) single-stranded DNA. they are most likely to specifically bind one or more discrete mRNAs and regulate their spatial localization or alternative splicing. [Source: WormBase]			RNA binding, 
C36E6.8	C36E6.8	C36E6.8 [Source:RefSeq_peptide;Acc:NP_001041225]			
C36E6.2	C36E6.2	C36E6.2 [Source:RefSeq_peptide;Acc:NP_510827]			
mlc-2	C36E6.5	mlc-2 encodes, along with mlc-1 and mlc-4, one of three C. elegans regulatory myosin light chains. MLC-2 is predicted to function as a regulator of myosin ATPase activity, and genetic studies indicate that MLC-2 is nearly essential in hermaphrodites for normal pharyngeal muscle function, but redundant with MLC-1, with which it is nearly identical, for proper bodywall muscle development. accordingly, loss of mlc-2 activity eventually results in larval lethality, as animals are not able to feed properly. mlc-2 mRNA is expressed in bodywall, pharyngeal, and vulval muscles. [Source: WormBase]	nematode larval development, oviposition, regulation of pharyngeal pumping, 		protein binding, calcium ion binding, 
mlc-1	C36E6.3	mlc-1 encodes a muscle regulatory myosin light chain that is nearly identical to MLC-2 and functions redundantly with MLC-2 in the body-wall and in pharyngeal muscle to affect L1 larval viability, elongation, and pharyngeal and body-wall muscle development, and also affects locomotion and growth. expressed in the body-wall muscles, pharyngeal muscles, and vulval muscles. [Source: WormBase]	nematode larval development, locomotory behavior, 		calcium ion binding, 
ZK54.1	ZK54.1	ZK54.1b [Source:RefSeq_peptide;Acc:NP_001041301]	transport, 	integral to membrane, 	transporter activity, 
ZK54.3	ZK54.3	ZK54.3 [Source:RefSeq_peptide;Acc:NP_741954]			
tps-1	ZK54.2	Trehalose 6-Phosphate Synthase family member (tps-1) [Source:RefSeq_peptide;Acc:NP_001041303]	trehalose biosynthetic process, 		catalytic activity, 
R106.1	R106.1	R106.1 [Source:RefSeq_peptide;Acc:NP_510832]			
R106.2	R106.2	R106.2 [Source:RefSeq_peptide;Acc:NP_510833]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, neuropeptide Y receptor activity, 
nhr-1	R09G11.2	nhr-1 encodes a member of the nuclear receptor superfamily. phylogenetic analyses indicate that NHR-1 is a divergent nuclear receptor that likely arose from expansion and diversification of the HNF4 (NR2A) subgroup in C. elegans. nhr-1 reporter gene expression is detected in hypodermal cells from the 3-fold stage of embryogenesis until adulthood, but as loss of nhr-1 activity via mutation or large-scale RNAi screens does not result in any obvious abnormalities, the precise role of NHR-1 in C. elegans development and/or behavior is not yet known. [Source: WormBase]	electron transport, regulation of transcription, DNA-dependent, aerobic respiration, 	integral to membrane, nucleus, 	iron ion binding, zinc ion binding, DNA binding, transcription factor activity, sequence-specific DNA binding, heme binding, steroid hormone receptor activity, ligand-dependent nuclear receptor activity, 
sup-10	R09G11.1	Putative potassium channel regulatory protein sup-10 precursor (Suppressor of unc-93 protein 10). [Source:Uniprot/SWISSPROT;Acc:Q17374]	regulation of muscle contraction, regulation of potassium ion transport, 	integral to plasma membrane, 	potassium channel regulator activity, 
F31A3.3	F31A3.3	F31A3.3 [Source:RefSeq_peptide;Acc:NP_510836]			
hlh-29	F31A3.4	Helix Loop Helix family member (hlh-29) [Source:RefSeq_peptide;Acc:NP_510837]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
hlh-28	F31A3.2	Helix Loop Helix family member (hlh-28) [Source:RefSeq_peptide;Acc:NP_510838]	regulation of transcription, 	nucleus, 	transcription regulator activity, 
abu-3	F31A3.1	abu-3 encodes a transmembrane protein with a predicted signal sequence, a glutamine/asparagine-rich domain and multiple cysteine-rich repeats (DUF139). abu-3 expression is induced by blockage of the unfolded-protein response in the endoplasmic reticulum (ER), and ABU-3 may function within the ER to protect the organism from damage by improperly folded nascent protein. abu-3 expression is enhanced in ER-stressed animals in which the unfolded protein response (UPR) is blocked by mutations in xbp-1, a bZIP transcription factor. [Source: WormBase]			nutrient reservoir activity, 
F31A3.5	F31A3.5	F31A3.5 [Source:RefSeq_peptide;Acc:NP_510840]			
F39B3.2	F39B3.2	F39B3.2 [Source:RefSeq_peptide;Acc:NP_510842]	G-protein coupled receptor protein signaling pathway, 	integral to membrane, 	rhodopsin-like receptor activity, 
F39B3.3	F39B3.3	Uncharacterized protein K02A2.6. [Source:Uniprot/SWISSPROT;Acc:Q09575]			
lec-9	C16H3.2	lec-9 encodes a predicted lectin that affects embryonic viability. [Source: WormBase]	embryonic development ending in birth or egg hatching, 		sugar binding, 
C16H3.3	C16H3.3	C16H3.3a [Source:RefSeq_peptide;Acc:NP_001024409]	nucleosome assembly, 	nucleus, nucleosome, 	DNA binding, 
C16H3.t1	C16H3.t1				
C16H3.t2	C16H3.t2				
C16H3.1	C16H3.1	C16H3.1 [Source:RefSeq_peptide;Acc:NP_510846]			calcium ion binding, 
H18N23.2	H18N23.2	H18N23.2c [Source:RefSeq_peptide;Acc:NP_001024738]	embryonic development ending in birth or egg hatching, 		
T23E7.5	T23E7.5	T23E7.5 [Source:RefSeq_peptide;Acc:NP_001041291]			
nlp-6	T23E7.4	Neuropeptide-Like Protein family member (nlp-6) [Source:RefSeq_peptide;Acc:NP_510850]			
T23E7.2	T23E7.2	T23E7.2b [Source:RefSeq_peptide;Acc:NP_510854]	regulation of transcription, DNA-dependent, G-protein coupled receptor protein signaling pathway, 	integral to membrane, nucleus, 	DNA binding, ligand-dependent nuclear receptor activity, histamine receptor activity, 
T23E7.6	T23E7.6	T23E7.6 [Source:RefSeq_peptide;Acc:NP_001041292]			
cgt-2	F20B4.6	Ceramide Glucosyl Transferase family member (cgt-2) [Source:RefSeq_peptide;Acc:NP_510857]			
F20B4.2	F20B4.2	F20B4.2 [Source:RefSeq_peptide;Acc:NP_510858]			
F20B4.3	F20B4.3	F20B4.3 [Source:RefSeq_peptide;Acc:NP_510859]			
F20B4.4	F20B4.4	F20B4.4 [Source:RefSeq_peptide;Acc:NP_510860]			
H11L12.1	H11L12.1	H11L12.1 [Source:RefSeq_peptide;Acc:NP_510861]			
6R55.2	6R55.2	6R55.2 [Source:RefSeq_peptide;Acc:NP_510863]			
cTel55X.1	cTel55X.1	6R55.1a [Source:RefSeq_peptide;Acc:NP_510865]		integral to membrane, 	
