| 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 |
|---|---|---|---|---|---|---|---|---|
| AH9.1 | AH9.1 | AH9.1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| AH9.4 | AH9.4 | AH9.4 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0198.1 | B0198.1 | tsp-20 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0198.3 | B0198.3a | B0198.3 | 1 | 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] |
| B0294.3 | B0294.3 | B0294.3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | This gene encodes a 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] |
| B0302.1 | B0302.1a.1 | kin-25 | 2 | 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 | 2 | 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 | 2 | 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] |
| B0310.3 | B0310.3 | B0310.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0310.5 | B0310.5 | ugt-46 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0395.1 | B0395.1 | nhx-1 | 1 | 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] |
| B0395.3 | B0395.3.1 | B0395.3 | 1 | 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 | 3 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0403.6 | B0403.6 | B0403.6 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0410.2 | B0410.2a | vang-1 | 1 | 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 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.1 | B0416.1 | B0416.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0416.4 | B0416.4 | B0416.4 | 2 | 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 | 2 | 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] |
| C01C10.3 | C01C10.3.1 | acl-12 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C01C10.3 | C01C10.3.2 | acl-12 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B4.1 | C02B4.1 | adt-1 | 2 | 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] |
| C02B8.1 | C02B8.1.1 | C02B8.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.1 | C02B8.1.2 | C02B8.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B8.4 | C02B8.4 | hlh-8 | 1 | 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] |
| C02C6.2 | C02C6.2a | olrn-1 | 2 | 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 | 2 | 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] |
| C02F12.8 | C02F12.8 | C02F12.8 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02H7.1 | C02H7.1 | dyf-11 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | dyf-11 encodes a conserved protein orthologous to the human microtubule-binding protein MIP-T3 and that contains a lysine-rich region and a C-terminal coiled-coil domain present in a number of intraflagellar transport (IFT) complex B proteins. DYF-11 activity is required continuously in sensory neurons for formation of medial and distal ciliary segments and thus, for normal sensory cilium morphology and function and chemotaxis. a dyf-11::gfp promoter fusion is expressed in all ciliated sensory neurons as well as in the AQR, PQR, ADE, and PDR neurons. a DYF-11::GFP protein fusion is detected throughout the cilium and appears to localize to IFT-B particles in a manner consistent with an early role in IFT-B particle assembly. dyf-11 expression in ciliated neurons is dependent upon the presence of the DAF-19 RFX transcription factor. [Source: WormBase] |
| C02H7.2 | C02H7.2 | npr-19 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03A3.1 | C03A3.1a | C03A3.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C03A3.1 | C03A3.1b | C03A3.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C03B1.12 | C03B1.12.1 | lmp-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C03B1.12 | C03B1.12.2 | lmp-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C03B1.14 | C03B1.14 | C03B1.14 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03B1.2 | C03B1.2 | C03B1.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C03B1.7 | C03B1.7 | C03B1.7 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C03B1.9 | C03B1.9 | C03B1.9 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03F11.2 | C03F11.2 | C03F11.2 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03F11.4 | C03F11.4.1 | C03F11.4 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03F11.4 | C03F11.4.2 | C03F11.4 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03F11.4 | C03F11.4.3 | C03F11.4 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C03G5.1 | C03G5.1.1 | sdha-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | sdha-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] |
| C03G5.1 | C03G5.1.2 | sdha-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | sdha-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] |
| C03H12.1 | C03H12.1 | C03H12.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04A11.1 | C04A11.1 | C04A11.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04A11.3 | C04A11.3 | gck-4 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04A11.4 | C04A11.4 | adm-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C04B4.5 | C04B4.5 | C04B4.5 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | C04B4.5 encodes a novel protein. [Source: WormBase] |
| C04C11.1 | C04C11.1a | C04C11.1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04C11.2 | C04C11.2.1 | arrd-25 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04C11.2 | C04C11.2.2 | arrd-25 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04E7.2 | C04E7.2 | sor-3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | sor-3 encodes a novel protein that contains an MBT (malignant brain tumor) domain related to the MBT domains found in the Sex comb on midleg (SCM) and Sfmbt Polycomb group proteins. during development, SOR-3 activity is required to specify the correct number of dopaminergic and serotonergic neurons in males, as well as for proper ray neuron axon guidance, distal tip cell migration, and normal body size. SOR-3 activity is necessary for maintaining repression of Hox gene expression, notably that of egl-5 in many head neurons. in regulating neurotransmitter phenotype, sor-3 functions together with sop-2, which also encodes a Polycomb group protein, and members of the TGF-beta signaling pathway. sor-3 and sop-2 also function together to regulate progression through larval development. a SOR-3::GFP reporter fusion is expressed ubiquitously throughout the life cycle and localizes to both the cytoplasm and the nucleus. [Source: WormBase] |
| C04E7.3 | C04E7.3 | C04E7.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C04F6.1 | C04F6.1 | vit-5 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C04F6.3 | C04F6.3.1 | cht-1 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C04F6.3 | C04F6.3.2 | cht-1 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C04F6.4 | C04F6.4a | unc-78 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C04F6.7 | C04F6.7 | C04F6.7 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C05D9.1 | C05D9.1.1 | snx-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05D9.1 | C05D9.1.2 | snx-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05D9.1 | C05D9.1.3 | snx-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05D9.4 | C05D9.4 | C05D9.4 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05E11.1 | C05E11.1.1 | lnp-1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | lnp-1 encodes a highly conserved protein of unknown function, orthologous to human LUNAPARK/KIAA1715 (OMIM:610236), that is required for normally short body length, normal locomotion, fat content, acetylcholine neurotransmission, localization of RAB-3 and SNB-1, and sensitivity to aldicarb. LNP-1 is expressed in muscles, hypodermal cells, and neurons. within neurons, LNP-1 is localized to cell bodies, neuritic processes and commissures, and requiring UNC-104 for localization outside of cell bodies. LNP-1 is likely to act presynaptically. LNP-1 contains two N-terminal predicted transmembrane sequences, and an atypical zinc finger domain (C2HC2). [Source: WormBase] |
| C05E11.7 | C05E11.7 | C05E11.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C05E7.4 | C05E7.4 | C05E7.4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05G5.2 | C05G5.2 | C05G5.2 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05G5.4 | C05G5.4.1 | C05G5.4 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05G5.4 | C05G5.4.2 | C05G5.4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C06E2.7 | C06E2.7 | ubc-22 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C07A12.3 | C07A12.3a | nhr-35 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C07B5.4 | C07B5.4a.1 | C07B5.4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C07B5.5 | C07B5.5 | nuc-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C08A9.3 | C08A9.3a | C08A9.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C08A9.3 | C08A9.3b | C08A9.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C09B8.3 | C09B8.3 | C09B8.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C09B8.5 | C09B8.5 | C09B8.5 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C09B8.6 | C09B8.6a | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.6 | C09B8.6b | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.6 | C09B8.6c.1 | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.6 | C09B8.6c.2 | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.6 | C09B8.6c.3 | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.6 | C09B8.6c.4 | hsp-25 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.7 | C09B8.7a.1 | pak-1 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.7 | C09B8.7a.2 | pak-1 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09E10.2 | C09E10.2a | dgk-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | dgk-1 encodes an ortholog of mammalian diacylglycerol kinase theta (DGKQ). dgk-1 activity functions downstream in a serotonin signaling pathway that regulates locomotion and synaptic transmission. in addition, dgk-1 activity negatively regulates egg laying. dgk-1 genetically interacts with the goa-1 and egl-30 signaling pathways. a GFP::DGK-1 reporter fusion protein is expressed in the excretory canals and in most neurons, including the ventral cord neurons. in neurons, GFP::DGK-1 localizes to axons and cell bodies. when expressed ectopically in HEK293 cells, DGK-1 exhibits DAG kinase activity. [Source: WormBase] |
| C09E10.2 | C09E10.2b | dgk-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | dgk-1 encodes an ortholog of mammalian diacylglycerol kinase theta (DGKQ). dgk-1 activity functions downstream in a serotonin signaling pathway that regulates locomotion and synaptic transmission. in addition, dgk-1 activity negatively regulates egg laying. dgk-1 genetically interacts with the goa-1 and egl-30 signaling pathways. a GFP::DGK-1 reporter fusion protein is expressed in the excretory canals and in most neurons, including the ventral cord neurons. in neurons, GFP::DGK-1 localizes to axons and cell bodies. when expressed ectopically in HEK293 cells, DGK-1 exhibits DAG kinase activity. [Source: WormBase] |
| C09E10.2 | C09E10.2c | dgk-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | dgk-1 encodes an ortholog of mammalian diacylglycerol kinase theta (DGKQ). dgk-1 activity functions downstream in a serotonin signaling pathway that regulates locomotion and synaptic transmission. in addition, dgk-1 activity negatively regulates egg laying. dgk-1 genetically interacts with the goa-1 and egl-30 signaling pathways. a GFP::DGK-1 reporter fusion protein is expressed in the excretory canals and in most neurons, including the ventral cord neurons. in neurons, GFP::DGK-1 localizes to axons and cell bodies. when expressed ectopically in HEK293 cells, DGK-1 exhibits DAG kinase activity. [Source: WormBase] |
| C09E10.2 | C09E10.2d | dgk-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | dgk-1 encodes an ortholog of mammalian diacylglycerol kinase theta (DGKQ). dgk-1 activity functions downstream in a serotonin signaling pathway that regulates locomotion and synaptic transmission. in addition, dgk-1 activity negatively regulates egg laying. dgk-1 genetically interacts with the goa-1 and egl-30 signaling pathways. a GFP::DGK-1 reporter fusion protein is expressed in the excretory canals and in most neurons, including the ventral cord neurons. in neurons, GFP::DGK-1 localizes to axons and cell bodies. when expressed ectopically in HEK293 cells, DGK-1 exhibits DAG kinase activity. [Source: WormBase] |
| C09E10.2 | C09E10.2e | dgk-1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | dgk-1 encodes an ortholog of mammalian diacylglycerol kinase theta (DGKQ). dgk-1 activity functions downstream in a serotonin signaling pathway that regulates locomotion and synaptic transmission. in addition, dgk-1 activity negatively regulates egg laying. dgk-1 genetically interacts with the goa-1 and egl-30 signaling pathways. a GFP::DGK-1 reporter fusion protein is expressed in the excretory canals and in most neurons, including the ventral cord neurons. in neurons, GFP::DGK-1 localizes to axons and cell bodies. when expressed ectopically in HEK293 cells, DGK-1 exhibits DAG kinase activity. [Source: WormBase] |
| C09F12.2 | C09F12.2 | C09F12.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C10A4.5 | C10A4.5 | C10A4.5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C10A4.6 | C10A4.6 | C10A4.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C10E2.3 | C10E2.3 | hda-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C10E2.6 | C10E2.6.1 | C10E2.6 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C10E2.6 | C10E2.6.2 | C10E2.6 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl |