about
Phosphatase and tensin homologActivin A receptor, type II-like 1APODDual specificity phosphatase 22SRC proto-oncogene, non-receptor tyrosine kinaseMatrix metallopeptidase 14BCAS3 microtubule associated cell migration factorLDL receptor related protein 1Cytoplasmic linker associated protein 2Family with sequence similarity 107 member AIntegrin subunit beta 1 binding protein 1Pleckstrin homology like domain family B member 2Coronin 1CDLC1 Rho GTPase activating proteinRegulator of chromosome condensation 2Rho GTPase activating protein 6Regulator of chromosome condensation 2, isoform CRA_aDematin actin binding proteinCoronin, actin binding protein 1CDematin actin binding proteinCLIP associating protein 2Low density lipoprotein receptor-related protein 1Dual specificity phosphatase 22Rous sarcoma oncogeneBreast carcinoma amplified sequence 3Integrin beta 1 binding protein 1Matrix metallopeptidase 14 (membrane-inserted)Pleckstrin homology like domain, family B, member 2Regulator of chromosome condensation 2Rho GTPase activating protein 6Deleted in liver cancer 1Apolipoprotein DSRC proto-oncogene, non-receptor tyrosine kinaseActivin A receptor like type 1Matrix metallopeptidase 14Apolipoprotein DIntegrin subunit beta 1 binding protein 1Coronin 1CDual specificity phosphatase 22Phosphatase and tensin homolog
P682
Functional analysis of ARHGAP6, a novel GTPase-activating protein for RhoAThe SAM domain of the RhoGAP DLC1 binds EF1A1 to regulate cell migrationActivin receptor-like kinase 1 is implicated in the maturation phase of angiogenesisInhibition of cell migration, spreading, and focal adhesions by tumor suppressor PTEN
P921
Q14878408-BCF7BABC-1FC7-4D8C-B126-7BFD1A9AB009Q14914466-B505988E-5855-4883-B4C0-55EF1DD53782Q18247781-3B243C66-0DFD-4892-B98A-B8CD9DB70632Q21107235-0A190059-BCB6-415A-9BC5-F3A0D27F3F22Q21109354-2F0CE417-8C7F-416C-BE25-F240D3705D1EQ21109573-9B628890-824C-467D-AD9E-16678ABF9C96Q21109581-F2FA07AE-BE19-48DC-A346-AA09793A5405Q21111528-28D99101-6067-4900-AB12-C5F199A0F745Q21114173-F78FCA72-2B51-4D82-B627-6361AE538317Q21114419-83BE9E5C-8A43-4ED3-B667-934DF1AC8B2CQ21114501-EB3E919A-24D0-4B76-BB76-1BB2BB6453CEQ21114535-54F023C2-F69D-4583-815D-C6AC833A28F5Q21117287-921EB947-992F-4339-B47E-F4538D6FEE3FQ21120521-5758C5CF-B600-40F2-A969-E67E7248E1AEQ21135018-117FE10D-11E2-44FD-A53D-4D16E6B04E86Q21135388-783AAF47-96E4-49EA-9CD7-8136A5B97BC1Q21149288-860EAC4F-9933-4974-8421-E4488A85A68CQ21157260-217C6B3E-D80D-4C8C-B735-E87F17BC22C3Q21495503-17948DF8-29C1-49E5-A8CE-AC4F157912F6Q21497475-67514478-B231-4B61-9F73-C9B4C3C930DDQ21981270-0E175A09-6158-44FD-A87E-E058298F94DBQ21981326-5B6104F6-99DF-4D1F-964F-B10DEFFAE67CQ21984176-B81978B0-31B5-4F7B-B792-A2B6323ED7BEQ21984733-3DA7F7B5-71E6-47AB-AF1F-B293F4635851Q21984740-F152BAD4-8541-4916-A505-DE108F818930Q21985068-42AAF477-CA47-4B25-8206-020606858FA1Q21986132-66732A96-7F4B-4521-9F24-8CA50F42EF54Q21986646-7D342331-1304-4116-B1CE-6D398F9813DDQ21987471-39256DFA-C70C-4639-9288-AADA93C7D80AQ21990543-7A739233-97A2-4686-8F4C-447499D98F39Q21990562-F146988F-3A1F-4011-93D8-2D853DD67A28Q22676687-AE0DCF22-A4E9-42CA-8D59-127A78905206Q28558649-69F95AB2-F5FE-4249-B96C-5097AC3B9D62Q28560394-F195F5B9-D43D-4EEF-995A-C4B4FEDAFD97Q28561737-26C52E3C-AB71-4EE7-A92F-A1B40E9EA4AFQ28562841-A6DDDE62-CCBF-4B0A-86A9-977914F26B04Q29519863-85DD6F3F-8E5A-4B84-99B1-3AEA45893899Q29520755-8F1CDAFB-8790-4932-B0AF-4E77F9C8B7A5Q29523968-70C50DE2-D996-4D84-B6F7-A546233F56CFQ29525420-28327764-ADD7-47AD-91A1-06D60F861D36
P682
description
Any process that stops, preven ...... maturation of focal adhesions.
@en
biologisch proces
@nl
name
negative regulation of focal adhesion assembly
@en
type
label
negative regulation of focal adhesion assembly
@en
altLabel
GO:0051895
@en
down regulation of focal adhesion formation
@en
down-regulation of focal adhesion formation
@en
downregulation of focal adhesion formation
@en
prefLabel
negative regulation of focal adhesion assembly
@en
P279
P279
P2888
P686
GO:0051895