| 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 |
|---|---|---|---|---|---|---|---|---|
| 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 | |
| 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] |
| B0302.2 | B0302.2 | B0302.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0302.5 | B0302.5 | B0302.5 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| B0410.2 | B0410.2b | 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] |
| B0416.1 | B0416.1 | B0416.1 | 2 | 23 X | Forward | 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 | |
| B0563.4 | B0563.4.1 | tmbi-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.4 | B0563.4.2 | tmbi-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| B0563.7 | B0563.7 | B0563.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02B4.1 | C02B4.1 | adt-1 | 7 | 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] |
| C02B8.5 | C02B8.5 | C02B8.5 | 1 | 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 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02F12.7 | C02F12.7 | tag-278 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C02H7.3 | C02H7.3a | aex-3 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | aex-3 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] |
| 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 | |
| C03A3.2 | C03A3.2.1 | C03A3.2 | 1 | 23 X | Forward | 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 | |
| C03F11.3 | C03F11.3 | scav-1 | 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] |
| C04A11.3 | C04A11.3 | gck-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04A11.4 | C04A11.4 | adm-2 | 2 | 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] |
| C04A11.5 | C04A11.5.1 | C04A11.5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04A11.5 | C04A11.5.2 | C04A11.5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04B4.2 | C04B4.2 | C04B4.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C04B4.3 | C04B4.3 | lips-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| 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 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C05A9.1 | C05A9.1a | pgp-5 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C05A9.1 | C05A9.1b | pgp-5 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C05C9.1 | C05C9.1 | C05C9.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C05D9.2 | C05D9.2.1 | lmp-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | lmp-2 encodes a transmembrane protein that is one of two C. elegans LAMP (lysosomal associated membrane glycoprotein) homologs. [Source: WormBase] |
| C05D9.2 | C05D9.2.2 | lmp-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | lmp-2 encodes a transmembrane protein that is one of two C. elegans LAMP (lysosomal associated membrane glycoprotein) homologs. [Source: WormBase] |
| C05D9.2 | C05D9.2.3 | lmp-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | lmp-2 encodes a transmembrane protein that is one of two C. elegans LAMP (lysosomal associated membrane glycoprotein) homologs. [Source: WormBase] |
| C05D9.5 | C05D9.5 | ife-4 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | The ife-4 gene encodes a member of the Initiation Factor 4E (eIF4E) family. [Source: WormBase] |
| C05E11.4 | C05E11.4 | amt-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C05E7.2 | C05E7.2 | C05E7.2 | 2 | 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 | |
| C06G1.1 | C06G1.1b | C06G1.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C06G1.6 | C06G1.6 | C06G1.6 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A12.1 | C07A12.1a | ham-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C07A12.1 | C07A12.1b | ham-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C07A12.1 | C07A12.1c | ham-2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C07A12.7 | C07A12.7a.1 | C07A12.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A12.7 | C07A12.7a.2 | C07A12.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A12.7 | C07A12.7b | C07A12.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A12.7 | C07A12.7c.1 | C07A12.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A12.7 | C07A12.7c.2 | C07A12.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C07A4.2 | C07A4.2 | C07A4.2 | 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] |
| C09B8.1 | C09B8.1 | ipp-5 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09B8.5 | C09B8.5 | C09B8.5 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C09B8.7 | C09B8.7a.1 | pak-1 | 1 | 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 | 1 | 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 | 2 | 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 | 2 | 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 | 2 | 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] |
| C09F12.1 | C09F12.1.1 | clc-1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C09F12.1 | C09F12.1.2 | clc-1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C10A4.8 | C10A4.8 | mnm-2 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C10E2.3 | C10E2.3 | hda-4 | 2 | 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] |
| C11E4.1 | C11E4.1 | C11E4.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C11E4.6 | C11E4.6.1 | C11E4.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C11E4.6 | C11E4.6.2 | C11E4.6 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C11G10.1 | C11G10.1 | C11G10.1 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C11G6.3 | C11G6.3 | C11G6.3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | C11G6.3 encodes a plant homeodomain-containing protein that is related to the ING (Inhibitor of Growth) family of proteins that function in regulation of gene expression and are candidate tumor suppressors. [Source: WormBase] |
| C11H1.2 | C11H1.2 | C11H1.2 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C11H1.3 | C11H1.3 | C11H1.3 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C11H1.9 | C11H1.9a | C11H1.9 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C11H1.9 | C11H1.9b | C11H1.9 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C12D12.1 | C12D12.1a | C12D12.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C12D12.1 | C12D12.1b | C12D12.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C12D12.1 | C12D12.1c | C12D12.1 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C13E3.1 | C13E3.1 | C13E3.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14A11.3 | C14A11.3a | cgef-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14A11.3 | C14A11.3b | cgef-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14A11.3 | C14A11.3c | cgef-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14F11.1 | C14F11.1a | C14F11.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14F11.1 | C14F11.1b.1 | C14F11.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14F11.1 | C14F11.1b.2 | C14F11.1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C14F11.7 | C14F11.7 | C14F11.7 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C15A7.1 | C15A7.1 | lgc-23 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C15A7.4 | C15A7.4 | lgc-24 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C15B12.4 | C15B12.4 | C15B12.4 | 1 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C15B12.7 | C15B12.7b | cdf-1 | 3 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C15H9.1 | C15H9.1 | nnt-1 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | nnt-1 encodes a proton-pumping nicotinamide nucleotide transhydrogenase predicted to be mitochondrial. [Source: WormBase] |
| C15H9.5 | C15H9.5.1 | C15H9.5 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C15H9.5 | C15H9.5.2 | C15H9.5 | 2 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C16B8.1 | C16B8.1.1 | lin-18 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C16B8.1 | C16B8.1.2 | lin-18 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | 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] |
| C16D6.2 | C16D6.2 | C16D6.2 | 2 | 23 X | Reverse | View as cDNA map | View as Table | Internal | Ensembl | |
| C16D6.3 | C16D6.3 | C16D6.3 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl | |
| C16E9.2 | C16E9.2a | C16E9.2 | 1 | 23 X | Forward | View as cDNA map | View as Table | Internal | Ensembl |