QuickView for EDNRA (gene)
- Gene Symbol:
- EDNRA
Homo sapiens - Full name:
- endothelin receptor type A
- Synonyms:
- ET-A, ETA, ETA-R, ETAR, ETRA, MFDA, hET-AR, endothelin-1 receptor, G protein-coupled receptor, endothelin receptor subtype A, endothelin-1-specific receptor
- Genomic Location:
- Chr 4: 148621575-148685555
- Description:
-
This gene encodes the receptor for endothelin-1, a peptide that plays a role in potent and long-lasting vasoconstriction. This receptor associates with guanine-nucleotide-binding (G) proteins, and this coupling activates a phosphatidylinositol-calcium second messenger system. Polymorphisms in this gene have been linked to migraine headache resistan...
- Orthologs:
- Mus musculus , Rattus norvegicus , Macaca mulatta , Danio rerio , Bos taurus , Gallus gallus , Canis lupus familiaris , Pan troglodytes
- External Links:
- Entrez Gene
- Transcription Factor
Binding Sites:
- miRNA binding sites
(Source: TargetScan):
- Cytogenetic Map:
-
4q31.22-q31.23
GO Molecular Function
phospholipase activity | transmembrane signaling receptor activity | G-protein coupled receptor activity | hydrolase activity | catalytic activity | signaling receptor activity | endothelin receptor activity | hydrolase activity, acting on ester bonds | lipase activity | protein binding | phosphoric diester hydrolase activity | phosphoric ester hydrolase activity | phosphatidylinositol phospholipase C activity | peptide receptor activity | G-protein coupled peptide receptor activity | phospholipase C activity
GO Biological Process
respiratory gaseous exchange | regulation of blood vessel diameter | regulation of localization | morphogenesis of an epithelium | vascular smooth muscle contraction | establishment of localization | cell differentiation | nervous system development | cellular chemical homeostasis | tonic smooth muscle contraction | mesenchyme development | blood vessel morphogenesis | artery smooth muscle contraction | cellular process | localization | cellular homeostasis | epithelial tube morphogenesis | response to hypoxia | positive regulation of catalytic activity | activation of phospholipase C activity | tissue development | autonomic nervous system development | regulation of cellular process | regulation of cytosolic calcium ion concentration | epithelium development | smooth muscle contraction | calcium ion homeostasis | adenylate cyclase-inhibiting G-protein coupled receptor signaling pathway | head development | G-protein coupled receptor activity | muscle contraction | branching involved in blood vessel morphogenesis | response to stimulus | vasculature development | mesenchymal cell development | regulation of blood vessel size | response to stress | monosaccharide transmembrane transport | tube morphogenesis | cardiovascular system development | positive regulation of lipase activity | blood circulation | G-protein coupled receptor signaling pathway | embryo development | metal ion homeostasis | blood vessel development | negative regulation of blood vessel diameter | positive regulation of phospholipase C activity | system development | response to oxygen levels | multicellular organism development | adenylate cyclase-modulating G-protein coupled receptor signaling pathway | regulation of catalytic activity | organic substance transport | regulation of blood pressure | cellular ion homeostasis | enteric nervous system development | positive regulation of cytosolic calcium ion concentration | endothelin receptor activity | hexose transmembrane transport | positive regulation of hydrolase activity | stem cell differentiation | cell proliferation | endothelin receptor signaling pathway | vasoconstriction | angiogenesis | regulation of phospholipase activity | cation homeostasis | chordate embryonic development | cellular cation homeostasis | cell communication | heart development | cellular calcium ion homeostasis | homeostatic process | embryo development ending in birth or egg hatching | regulation of tube size | carbohydrate transport | regulation of phospholipase C activity | carbohydrate transmembrane transport | positive regulation of molecular function | activation of adenylate cyclase activity | tissue morphogenesis | branching morphogenesis of an epithelial tube | anatomical structure development | mesenchymal cell differentiation | regulation of tube diameter | chemical homeostasis | regulation of glucose transmembrane transport | animal organ development | ion homeostasis | positive regulation of phospholipase activity | glucose transmembrane transport | stem cell development | morphogenesis of a branching epithelium | anatomical structure formation involved in morphogenesis | G-protein coupled receptor signaling pathway, coupled to cyclic nucleotide second messenger | transmembrane transport | signaling | G-protein coupled peptide receptor activity | cell development | morphogenesis of a branching structure | anatomical structure morphogenesis | developmental process | tube development | regulation of transport | neural crest cell differentiation | cellular metal ion homeostasis | in utero embryonic development | circulatory system development | divalent inorganic cation homeostasis | neural crest cell development | muscle system process | signal transduction | multicellular organismal process
GO Cellular Component
integral component of membrane | cell | intrinsic component of membrane | plasma membrane | integral component of plasma membrane | cell periphery | membrane | intrinsic component of plasma membrane
