Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Serotonin-gated chloride channel; Belongs to the ligand-gated ion channel (TC 1.A.9) family.

BH4_AAA_HYDROXYL_2 domain-containing protein.

Serotonin-gated chloride channel; Belongs to the ligand-gated ion channel (TC 1.A.9) family.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Osmotic avoidance abnormal protein 3; Kinesin motor protein which is required for the anterograde intraflagellar transport (IFT) along the middle segment of the sensory neuron cilia together with the kinesin II motor complex (composed of klp-11, klp-20 and kap-1) and on its own, is required for IFT along the distal segment. In addition, regulates the length of cilia. May have a role during neurogenesis and axonal transport.

Osm-6 protein.

Osm-6 protein.

Osmotic avoidance abnormal protein 3; Kinesin motor protein which is required for the anterograde intraflagellar transport (IFT) along the middle segment of the sensory neuron cilia together with the kinesin II motor complex (composed of klp-11, klp-20 and kap-1) and on its own, is required for IFT along the distal segment. In addition, regulates the length of cilia. May have a role during neurogenesis and axonal transport.

Osm-6 protein.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

BH4_AAA_HYDROXYL_2 domain-containing protein.

Serotonin-gated chloride channel; Belongs to the ligand-gated ion channel (TC 1.A.9) family.

BH4_AAA_HYDROXYL_2 domain-containing protein.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

BH4_AAA_HYDROXYL_2 domain-containing protein.

LIM/homeobox protein ttx-3; Required for specification of the AIA and AIY interneurons and the NSM neurons. Positively regulates the expression of a number of genes including ceh-23, kal-1, hen-1, ser-2, unc-17 and sra-11 in AIY interneurons and cat-4, flp-4, bas-1, ptps-1 and mgl-1 in NSM neurons. Also acts in an autoregulatory feedback loop to maintain its own expression. Plays a role in the thermotactic response, olfactory imprinting, regulation of longevity, control of dauer formation and axon outgrowth and pathfinding. Not required for normal chemosensory behavior.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Homeobox protein ceh-36; Mediates chemosensory function of ASE and AWC neurons. In ASE neurons, required to diversify the fate of the ASEL neurons from the ASER neurons. In cooperation with the transcription factor sox-2, required for the differentiation of AWC olfactory neurons. May regulate the expression of sox-2 in AWC olfactory neurons. Belongs to the paired homeobox family.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Transcription factor che-1; Transcription factor essential for the identity of ASE chemosensory neurons. Acts by activating expression of genes that are specific for ASE chemosensory neurons, such as seven-transmembrane receptors or guanylate cyclase. Also required to control the left/right asymmetry in ASE chemosensory neurons by regulating expression of genes such as cog-1 and ceh-36.

Rab-3-interacting molecule unc-10; Regulates the efficiency of a post-docking step of the release pathway. Acts after vesicle docking likely via regulating priming. May regulate the conformational changes in syntaxin. Binding of vesicles via rab-3[GTP] to Rim may signal the presence of a docked synaptic vesicle. Rim may then signal to unc-13 to change the conformation of syntaxin from the closed to the open state. Syntaxin could then engage synaptobrevin on the docked vesicle to form SNARE complexes and to prime the vesicle for release. Not required for the development or the structura [...]

Serotonin-gated chloride channel; Belongs to the ligand-gated ion channel (TC 1.A.9) family.