node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
adt-1 | col-99 | C02B4.1.1 | F29C4.8j.1 | A disintegrin and metalloproteinase with thrombospondin motifs adt-1; Plays a role in ray morphogenesis in the male tail, probably by remodeling the extracellular matrix (ECM) in the cuticle. | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | 0.767 |
chil-14 | col-99 | R09B5.12a.1 | F29C4.8j.1 | CHItinase-Like. | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | 0.692 |
col-99 | adt-1 | F29C4.8j.1 | C02B4.1.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | A disintegrin and metalloproteinase with thrombospondin motifs adt-1; Plays a role in ray morphogenesis in the male tail, probably by remodeling the extracellular matrix (ECM) in the cuticle. | 0.767 |
col-99 | chil-14 | F29C4.8j.1 | R09B5.12a.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | CHItinase-Like. | 0.692 |
col-99 | ddr-1 | F29C4.8j.1 | C25F6.4.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | 0.771 |
col-99 | ddr-2 | F29C4.8j.1 | F11D5.3a.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Discoidin domain-containing receptor tyrosine kinase B; Tyrosine-protein kinase receptor which, together with ddr-1, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. Acts upstream of the adapter shc-1, and the tyrosine kinase receptors svh-1 and svh-2 to regulate axon regeneration following injury in D-type motor neurons. May mediate axon regeneration in association with the collagen emb-9. | 0.709 |
col-99 | emb-9 | F29C4.8j.1 | K04H4.1a.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Collagen alpha-1(IV) chain; Collagen type IV is specific for basement membranes (Probable). Required to restrict presynaptic growth at the neuromuscular junctions (NMJ) in late larval stage and in adult motor neurons. May play a role in axon regeneration in embryos following injury in D-type motor neurons. | 0.828 |
col-99 | epi-1 | F29C4.8j.1 | K08C7.3f.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Laminin-like protein epi-1; During the formation of neuromuscular junctions at the larval stage, negatively regulates membrane protrusion from body wall muscles, probably downstream of the integrin complex formed by pat-2 and pat-3. | 0.703 |
col-99 | kpc-1 | F29C4.8j.1 | F11A6.1a.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Furin-like protease kpc-1; Furin-like protease which cleaves proproteins at the RX(K/R)R consensus motif. During neuronal development, regulates the formation and extension of dendrite branches and cellular positioning of various type of neurons. Promotes the formation, extension and self-avoidance of dendritic branches of PVD and FLP mechanosensory neurons. In PVD neurons, regulates plasma membrane levels of branching receptor dma-1 by targeting it to late endosomes and thus promotes normal dendrite branching and dendrite self-avoidance. Also controls dendrite extension in AIY and D-t [...] | 0.671 |
col-99 | nas-39 | F29C4.8j.1 | F38E9.2.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Zinc metalloproteinase nas-39; Metalloprotease. | 0.771 |
col-99 | pat-3 | F29C4.8j.1 | ZK1058.2.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | Integrin beta pat-3; Integrin alpha ina-1/beta pat-3 is a receptor for laminin. Integrin alpha pat-2/beta pat-3 recognizes the sequence R-G-D in its ligands (Probable). Plays a role in cell migration, morphogenesis and probably in cell-cell interactions. During gonad morphogenesis, involved in distal tip cell (DTC)-mediated guidance of gonad elongation, in maintaining their sharp tapering morphology and in their migration. Component of an integrin containing attachment complex, which is required for muscle development and maintenance. Involved in the assembly of dense bodies and M line [...] | 0.624 |
col-99 | vab-10 | F29C4.8j.1 | ZK1151.1l.1 | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | GAR domain-containing protein. | 0.574 |
ddr-1 | col-99 | C25F6.4.1 | F29C4.8j.1 | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | 0.771 |
ddr-1 | ddr-2 | C25F6.4.1 | F11D5.3a.1 | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | Discoidin domain-containing receptor tyrosine kinase B; Tyrosine-protein kinase receptor which, together with ddr-1, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. Acts upstream of the adapter shc-1, and the tyrosine kinase receptors svh-1 and svh-2 to regulate axon regeneration following injury in D-type motor neurons. May mediate axon regeneration in association with the collagen emb-9. | 0.423 |
ddr-1 | emb-9 | C25F6.4.1 | K04H4.1a.1 | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | Collagen alpha-1(IV) chain; Collagen type IV is specific for basement membranes (Probable). Required to restrict presynaptic growth at the neuromuscular junctions (NMJ) in late larval stage and in adult motor neurons. May play a role in axon regeneration in embryos following injury in D-type motor neurons. | 0.687 |
ddr-1 | epi-1 | C25F6.4.1 | K08C7.3f.1 | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | Laminin-like protein epi-1; During the formation of neuromuscular junctions at the larval stage, negatively regulates membrane protrusion from body wall muscles, probably downstream of the integrin complex formed by pat-2 and pat-3. | 0.457 |
ddr-2 | col-99 | F11D5.3a.1 | F29C4.8j.1 | Discoidin domain-containing receptor tyrosine kinase B; Tyrosine-protein kinase receptor which, together with ddr-1, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. Acts upstream of the adapter shc-1, and the tyrosine kinase receptors svh-1 and svh-2 to regulate axon regeneration following injury in D-type motor neurons. May mediate axon regeneration in association with the collagen emb-9. | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | 0.709 |
ddr-2 | ddr-1 | F11D5.3a.1 | C25F6.4.1 | Discoidin domain-containing receptor tyrosine kinase B; Tyrosine-protein kinase receptor which, together with ddr-1, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. Acts upstream of the adapter shc-1, and the tyrosine kinase receptors svh-1 and svh-2 to regulate axon regeneration following injury in D-type motor neurons. May mediate axon regeneration in association with the collagen emb-9. | Discoidin domain-containing receptor A; Receptor which, together with svh-4, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. May play a role in axon regeneration following injury in D-type motor neurons ; Belongs to the protein kinase superfamily. Tyr protein kinase family. Insulin receptor subfamily. | 0.423 |
ddr-2 | emb-9 | F11D5.3a.1 | K04H4.1a.1 | Discoidin domain-containing receptor tyrosine kinase B; Tyrosine-protein kinase receptor which, together with ddr-1, is involved in axon guidance to establish the tracts for the ventral and dorsal nerve cords during nervous system development. Acts upstream of the adapter shc-1, and the tyrosine kinase receptors svh-1 and svh-2 to regulate axon regeneration following injury in D-type motor neurons. May mediate axon regeneration in association with the collagen emb-9. | Collagen alpha-1(IV) chain; Collagen type IV is specific for basement membranes (Probable). Required to restrict presynaptic growth at the neuromuscular junctions (NMJ) in late larval stage and in adult motor neurons. May play a role in axon regeneration in embryos following injury in D-type motor neurons. | 0.687 |
emb-9 | col-99 | K04H4.1a.1 | F29C4.8j.1 | Collagen alpha-1(IV) chain; Collagen type IV is specific for basement membranes (Probable). Required to restrict presynaptic growth at the neuromuscular junctions (NMJ) in late larval stage and in adult motor neurons. May play a role in axon regeneration in embryos following injury in D-type motor neurons. | Putative cuticle collagen 99; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment (By similarity). | 0.828 |