| Gene ID | Transcript ID | Common Gene Name | # of miRNA targets for specified miRNAs | Chromosome | Strand Direction | Transcript Link to view miRNA target predictions | Gene Link | Description |
|---|---|---|---|---|---|---|---|---|
| 6R55.2 | 6R55.2 | 6R55.2 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.10 | AC8.10 | AC8.10 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.11 | AC8.11 | AC8.11 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.12 | AC8.12 | AC8.12 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.3 | AC8.3 | AC8.3 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.4 | AC8.4 | AC8.4 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AC8.7 | AC8.7 | AC8.7 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| AH9.1 | AH9.1 | AH9.1 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AH9.2 | AH9.2 | crn-4 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AH9.4 | AH9.4 | AH9.4 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AH9.6 | AH9.6 | AH9.6 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | AH9.6 encodes a novel protein that contains two predicted transmembrane domains and that is conserved in other nematode species. [Source: WormBase] |
| B0198.1 | B0198.1 | tsp-20 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0198.2 | B0198.2a | B0198.2 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0198.2 | B0198.2b | B0198.2 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0198.3 | B0198.3a | B0198.3 | 11 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0272.1 | B0272.1 | tbb-4 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0272.2 | B0272.2 | memb-1 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0272.3 | B0272.3.1 | B0272.3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | B0272.3 encodes a 3-hydroxyacyl-CoA dehydrogenase. by homology, the product of B0272.3 is predicted to function in mitochondrial fatty acid metabolism by catalyzing the NAD+-dependent oxidation of short-chain hydroxyacyl CoAs. large-scale expression studies indicate that B0272.3 is widely expressed. [Source: WormBase] |
| B0272.3 | B0272.3.2 | B0272.3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | B0272.3 encodes a 3-hydroxyacyl-CoA dehydrogenase. by homology, the product of B0272.3 is predicted to function in mitochondrial fatty acid metabolism by catalyzing the NAD+-dependent oxidation of short-chain hydroxyacyl CoAs. large-scale expression studies indicate that B0272.3 is widely expressed. [Source: WormBase] |
| B0272.4 | B0272.4 | B0272.4 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0294.1 | B0294.1 | B0294.1 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0302.1 | B0302.1a.1 | kin-25 | 11 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | kin-25 encodes a nonreceptor tyrosine kinase that is a member of the Ack subfamily of cytoplasmic tyrosine kinases. [Source: WormBase] |
| B0302.1 | B0302.1a.2 | kin-25 | 10 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | kin-25 encodes a nonreceptor tyrosine kinase that is a member of the Ack subfamily of cytoplasmic tyrosine kinases. [Source: WormBase] |
| B0302.1 | B0302.1b | kin-25 | 9 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | kin-25 encodes a nonreceptor tyrosine kinase that is a member of the Ack subfamily of cytoplasmic tyrosine kinases. [Source: WormBase] |
| B0302.5 | B0302.5 | B0302.5 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0310.1 | B0310.1b | B0310.1 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | B0310.1 encodes a nematode-specific transmembrane protein. loss of B0310.1 activity via RNAi results in reduced fat content in wild-type and tub-1 mutant animals, suggesting that B0301.1 plays a role in lipid metabolism. [Source: WormBase] |
| B0310.2 | B0310.2.1 | B0310.2 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0310.2 | B0310.2.2 | B0310.2 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0310.3 | B0310.3 | B0310.3 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0310.5 | B0310.5 | ugt-46 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0344.2 | B0344.2 | wrt-9 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| B0395.1 | B0395.1 | nhx-1 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| B0395.2 | B0395.2 | mboa-1 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | mboa-1 encodes a putative acyl-Coenzyme A:cholesterol ('sterol') O-acyltransferase, orthologous to human SOAT1 (OMIM:102642). MBOA-1 is required for normal locomotion and normally long lifespan in mass RNAi assays. mboa-1 is expressed in the seam cells and nervous systems of larvae and adults, and in the adult reproductive system. [Source: WormBase] |
| B0395.3 | B0395.3.1 | B0395.3 | 6 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | B0395.3 is orthologous to the human gene CHOLINE ACETYLTRANSFERASE ISOFORM R (CHAT. OMIM:118490), which when mutated leads to disease. [Source: WormBase] |
| B0395.3 | B0395.3.2 | B0395.3 | 5 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | B0395.3 is orthologous to the human gene CHOLINE ACETYLTRANSFERASE ISOFORM R (CHAT. OMIM:118490), which when mutated leads to disease. [Source: WormBase] |
| B0403.2 | B0403.2 | ubc-17 | 8 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0403.3 | B0403.3 | B0403.3 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0403.4 | B0403.4 | tag-320 | 5 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0403.5 | B0403.5 | B0403.5 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0403.6 | B0403.6 | B0403.6 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0410.1 | B0410.1 | B0410.1 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0410.2 | B0410.2a | vang-1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| B0410.2 | B0410.2b | vang-1 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| B0410.3 | B0410.3 | B0410.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.1 | B0416.1 | B0416.1 | 12 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.2 | B0416.2 | B0416.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.3 | B0416.3 | B0416.3 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.5 | B0416.5a | B0416.5 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.5 | B0416.5b | B0416.5 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.6 | B0416.6 | gly-13 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| B0416.7 | B0416.7a | B0416.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.7 | B0416.7b | B0416.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.10 | B0563.10 | B0563.10 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.1 | B0563.1 | B0563.1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.2 | B0563.2 | tsp-11 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.4 | B0563.4.1 | tmbi-4 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.4 | B0563.4.2 | tmbi-4 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.5 | B0563.5 | B0563.5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.6 | B0563.6a | B0563.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.6 | B0563.6b.1 | B0563.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.6 | B0563.6b.2 | B0563.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.6 | B0563.6c | B0563.6 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.7 | B0563.7 | B0563.7 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.8 | B0563.8 | B0563.8 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.1 | C01C10.1 | clc-2 | 6 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C01C10.2 | C01C10.2a | C01C10.2 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.2 | C01C10.2b | C01C10.2 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.3 | C01C10.3.1 | acl-12 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.3 | C01C10.3.2 | acl-12 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.4 | C01C10.4 | clc-5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C01C4.2 | C01C4.2 | C01C4.2 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C4.3 | C01C4.3b | C01C4.3 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | C01C4.3 encodes a serine/threonine protein kinase. [Source: WormBase] |
| C02B4.1 | C02B4.1 | adt-1 | 9 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02B4.2 | C02B4.2 | nhr-17 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02B4.3 | C02B4.3 | C02B4.3 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.1 | C02B8.1.1 | C02B8.1 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.1 | C02B8.1.2 | C02B8.1 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.2 | C02B8.2 | fbxc-38 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.3 | C02B8.3 | C02B8.3 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.4 | C02B8.4 | hlh-8 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02B8.5 | C02B8.5 | C02B8.5 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02B8.6 | C02B8.6 | C02B8.6 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02C6.1 | C02C6.1a | dyn-1 | 14 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | dyn-1 encodes the C. elegans ortholog of the dynamin GTPase. dyn-1 activity is required for endocytosis, synaptic vesicle recycling, cytokinesis, and the CED-1 pathway that regulates engulfment and degradation of apoptotic cells. mutations in dyn-1 affect locomotion, egg-laying, defecation, and embryonic development, indicating that dyn-1's endocytic function is required for a number of diverse processes. dyn-1 reporter fusion constructs are expressed in motor neurons, intestinal cells, and pharyngeal muscle. [Source: WormBase] |
| C02C6.1 | C02C6.1b | dyn-1 | 15 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | dyn-1 encodes the C. elegans ortholog of the dynamin GTPase. dyn-1 activity is required for endocytosis, synaptic vesicle recycling, cytokinesis, and the CED-1 pathway that regulates engulfment and degradation of apoptotic cells. mutations in dyn-1 affect locomotion, egg-laying, defecation, and embryonic development, indicating that dyn-1's endocytic function is required for a number of diverse processes. dyn-1 reporter fusion constructs are expressed in motor neurons, intestinal cells, and pharyngeal muscle. [Source: WormBase] |
| C02C6.2 | C02C6.2a | olrn-1 | 8 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | olrn-1 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. OLRN-1 is orthologous to Drosophila melanogaster RAW and Schistosoma japonicum SJCHGC05616. while OLRN-1 has orthologs in nematodes, trematodes, and arthropods, its has no obvious chordate homologs. OLRN-6 is expressed in many pharyngeal neurons and some head neurons, but is required solely in the AWC[ON] neuron for butanone enhancement. OLRN-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, OLRN-6 is predicted to inhibit JNK-1 signalling, which may in turn allow the asymmetrical AWC[ON] fate to emerge. [Source: WormBase] |
| C02C6.2 | C02C6.2b | olrn-1 | 7 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | olrn-1 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. OLRN-1 is orthologous to Drosophila melanogaster RAW and Schistosoma japonicum SJCHGC05616. while OLRN-1 has orthologs in nematodes, trematodes, and arthropods, its has no obvious chordate homologs. OLRN-6 is expressed in many pharyngeal neurons and some head neurons, but is required solely in the AWC[ON] neuron for butanone enhancement. OLRN-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, OLRN-6 is predicted to inhibit JNK-1 signalling, which may in turn allow the asymmetrical AWC[ON] fate to emerge. [Source: WormBase] |
| C02C6.3 | C02C6.3a | C02C6.3 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02C6.3 | C02C6.3b | C02C6.3 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02D4.1 | C02D4.1 | jud-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | jud-4 encodes an unfamiliar protein, putatively secreted, that is required both for normal sensitivity to ethanol and for survival after freezing and thawing. JUD-4 is expressed in hypodermis and vulval muscles. JUD-4 is orthologous to Brugia malayi Bm1_40315, but lacks obvious orthologies to non-nematode proteins. JUD-4's C-terminal domain has possible similarity to F40E10.5, and to proteins such as human HOMER1. jud-4(ys18) mutants show delayed sensitivity to ethanol levels that rapidly paralyze normal worms, but do not survive freezing and rethawing as does wild-type. JUD-4 has no obvious function in mass RNAi assays. [Source: WormBase] |
| C02D4.2 | C02D4.2a | ser-2 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02D4.2 | C02D4.2b | ser-2 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02D4.2 | C02D4.2e | ser-2 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02D4.2 | C02D4.2f | ser-2 | 4 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C02F12.10 | C02F12.10 | C02F12.10 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | C02F12.10 encodes a homeobox protein of uncertain affinity, but with some similarity to vertebrate Hox3 proteins and the D. melanogster homeobox protein ROUGH. C02F12.10 is expressed in a single tail neuron of hermaphrodites from late embryo to adult stages, as well as in a uterus cell separate from the vulva (perhaps in the spermetheca). C02F12.10 has no obvious function in mass RNAi assays. [Source: WormBase] |
| C02F12.1 | C02F12.1a | tsp-17 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02F12.1 | C02F12.1b | tsp-17 | 4 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02F12.3 | C02F12.3.1 | C02F12.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02F12.4 | C02F12.4 | tag-52 | 7 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02F12.5 | C02F12.5 | C02F12.5 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | C02F12.5 encodes a putatively secreted protein with a Kunitz/bovine pancreatic trypsin inhibitor domain. C02F12.5 has no obvious function in mass RNAi assays. [Source: WormBase] |
| C02F12.7 | C02F12.7 | tag-278 | 6 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl |