about
Sonic hedgehogGhrelinInterleukin 10Fibroblast growth factor 2Fibroblast growth factor 1SMAD family member 1Growth hormone secretagogue receptorBMP binding endothelial regulatorIntegrin subunit alpha 5Jumonji domain containing 8Kruppel like factor 43-phosphoinositide dependent protein kinase 1Delta like canonical Notch ligand 1Junctional cadherin 5 associatedPyruvate kinase M1/2High mobility group box 1High-mobility group box 1, isoform CRA_aGHRLS100 calcium binding protein A1Integrin alpha 5 (fibronectin receptor alpha)BMP-binding endothelial regulatorDelta like canonical Notch ligand 1Kruppel-like factor 4 (gut)High mobility group box 1Fibroblast growth factor 2Jumonji domain containing 8Junctional cadherin 5 associatedS100 calcium binding protein A1Tyrosine-protein kinase JAK13-phosphoinositide dependent protein kinase 1Vascular endothelial growth factor ADelta like canonical Notch ligand 1Interleukin 10Pyruvate kinase M1/2S100 calcium binding protein A13-phosphoinositide dependent protein kinase-1Fibroblast growth factor 1Ghrelin and obestatin prepropeptideFibroblast growth factor 2Sonic hedgehog signaling molecule
P682
Fibroblast growth factor 16 and 18 are expressed in human cardiovascular tissues and induce on endothelial cells migration but not proliferationMicroRNA-92a controls angiogenesis and functional recovery of ischemic tissues in miceMembers of the microRNA-17-92 cluster exhibit a cell-intrinsic antiangiogenic function in endothelial cellsA dominant-negative FGF1 mutant (the R50E mutant) suppresses tumorigenesis and angiogenesisMicroRNA-26a regulates pathological and physiological angiogenesis by targeting BMP/SMAD1 signalingMicroRNA-377 regulates mesenchymal stem cell-induced angiogenesis in ischemic hearts by targeting VEGFInhibition of miR-7 promotes angiogenesis in human umbilical vein endothelial cells by upregulating VEGF via KLF4.Bone morphogenetic protein 4 regulates microRNAs miR-494 and miR-126-5p in control of endothelial cell function in angiogenesisJMJD8 Regulates Angiogenic Sprouting and Cellular Metabolism by Interacting With Pyruvate Kinase M2 in Endothelial Cells.
P921
Q14860215-A693C21C-6813-4822-82BD-DE838FA1FF7BQ14864125-E398B517-2216-48CA-8DBB-FCFAE294358DQ14864467-48001873-0EA6-47CD-A421-F521E0830E87Q14866180-CAB32738-9D02-4C79-B5D4-FC0D3261D9BBQ14889337-ADE4DB2E-061E-485C-AEAC-0309554BC288Q14903821-AE9A0980-0A29-427B-9B24-E8EFEDC88F78Q14914303-37D57EED-053B-4551-A86E-3DE9BA50E2B8Q21106722-C73833A1-35EE-4488-BD5A-D43C48B89EDAQ21110097-6C910A25-ED27-4C10-96E0-FADA3F2B7CD4Q21113468-F5876D7A-658D-4B18-B99C-D84577CE6C15Q21114206-6B81D008-D2EC-4CF7-A9BA-35765A36CB00Q21114955-26728F23-CBAB-46EC-B646-FB9E79D3AE92Q21115804-4FDC67C2-B639-40AA-98A4-1892C2F45801Q21116083-F88C3BA7-F962-486D-B1B5-2CEE25AFB4B2Q21116651-3CF195EB-1BB5-40EA-AC76-0C01001BD04EQ21130552-F0A1D041-12CA-4F92-9F9E-2FCD4EFF6F09Q21136995-2B94A66A-4ECE-4F89-B291-CBA382E7D0B1Q21163357-A3257E8F-8A44-41A9-B2E3-08477B29952EQ21171227-9ADBC025-490E-41AC-98BF-D26E39530238Q21491044-6180925E-267C-4374-AD01-A3418D2C93C1Q21495426-29EDDD8C-D996-4563-87EF-AB343EFDB508Q21982911-F407792F-0637-44C9-97A8-BE2AD646B2F5Q21983400-E3F0A1F0-9C3F-453E-9E55-4DFFBBC5706BQ21984114-4E987F48-01C4-4557-97B9-F563FDDA6EEEQ21985348-9D9AD472-F207-4052-B120-C4296B8BE17CQ21985562-21DF4D30-A9A3-475A-A9B6-67E63F700B87Q21985562-9728900B-A891-46F0-A92B-AA3C90991BB3Q21985565-28BD275A-FA4A-43D8-8A66-4D282BA99D1EQ21986749-1EFE807A-88FB-471F-B42C-21B9DEA2A6C4Q21988191-CDE9AF74-BBCF-4849-97C6-1DED8C4E2C5CQ21989863-0A037331-96D2-44EC-9D7A-814770F54360Q21992409-2C7DA8FB-6D74-40D2-8B35-BECE5132A658Q28555976-33C4BEF4-2C24-4994-B087-87814674A0C6Q28557365-CB591265-9315-44B3-BB98-89283C328BDCQ28558102-86A5BF91-DD0D-49B3-9A19-5E69CB35E48FQ28558129-53C62E1B-F603-4E9D-9294-5864A27062ADQ28558548-C8F7341D-E043-44FE-950D-D17F47254E12Q28559432-96EF928B-B1D3-4DFB-8827-105C333146EFQ28560450-395D75D7-7240-438C-9D17-3ECA71D0D83DQ28560998-07924DD6-9FF3-4346-BFFD-D395268CB412
P682
Q24292720-4E92C456-3074-4078-B0F3-A54A80DCEC25Q28115423-CB7E9AE0-6B3A-4C85-8835-D0F1DA59894AQ28115799-92B0A1C4-4D7C-4F41-A9FD-3F134C5CCBAAQ28118161-910DEB35-A39F-4DE9-85C9-2B4D600A506EQ33799083-F51F8243-60D1-4676-8D92-C587F410674CQ34241026-21846A1B-5DEB-475D-97DE-FFF4B33283D3Q36081063-4F760F24-F801-44F3-A517-94130EEE72BAQ51118730-5CD2E646-977D-4E53-A383-F5FF96F13287Q51521373-0D0163DA-9E22-4427-9CDF-0EC567A432F9
P921
description
Any process that activates or ...... ent of sprouting angiogenesis.
@en
biologisch proces
@nl
name
positive regulation of sprouting angiogenesis
@en
type
label
positive regulation of sprouting angiogenesis
@en
altLabel
GO:1903672
@en
up regulation of sprouting angiogenesis
@en
up-regulation of sprouting angiogenesis
@en
upregulation of sprouting angiogenesis
@en
prefLabel
positive regulation of sprouting angiogenesis
@en
P2888
P686
GO:1903672