about
Wiskott-Aldrich syndromeStathmin 1FERM domain containing 7Coronin 2BCytoplasmic linker associated protein 2Cytoplasmic linker associated protein 1Pleckstrin homology like domain family B member 2WASP family member 2ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1Protein phosphatase 1 regulatory subunit 9ADLC1 Rho GTPase activating proteinTransmembrane protein with EGF like and two follistatin like domains 2Sphingosine-1-phosphate receptor 1Tumor associated calcium signal transducer 2Profilin 1Rho GTPase-activating protein 28Rho GTPase activating protein 6Inositol polyphosphate-5-phosphatase KMyocilinCoronin, actin binding protein, 2BWAS protein family, member 2ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1CLIP associating protein 1CLIP associating protein 2Hepatocyte growth factor receptorFERM domain containing 7Profilin 1Inositol polyphosphate 5-phosphatase KKN motif and ankyrin repeat domains 4KN motif and ankyrin repeat domains 2KN motif and ankyrin repeat domains 3Pleckstrin homology like domain, family B, member 2Sphingosine-1-phosphate receptor 1MyocilinRho GTPase activating protein 6Deleted in liver cancer 1Transmembrane protein with EGF-like and two follistatin-like domains 2Rho GTPase activating protein 28Tumor-associated calcium signal transducer 2Protein phosphatase 1, regulatory subunit 9A
P682
ARAP1: a point of convergence for Arf and Rho signalingRho GTPase and cAMP/protein kinase A signaling mediates myocilin-induced alterations in cultured human trabecular meshwork cellsStructure and control of the actin regulatory WAVE complexThe TMEFF2 tumor suppressor modulates integrin expression, RhoA activation and migration of prostate cancer cells
P921
Q14863973-6143126A-0604-4809-9E42-72A6487B2F76Q14878179-5723341E-BB61-4E5C-AA3A-6FA20A53DA4AQ21107495-C1CEF61F-139C-4E2E-911B-632C1019F5EFQ21111595-521EB7B1-1990-4DD5-819C-067CF3CBBEB0Q21114173-25621BC7-9DDE-4248-ABBE-0B495BB742C3Q21114179-BD9F85EC-A904-4EAB-A81B-B362BCCDD29FQ21114535-D5A27672-67FC-4524-AAA0-F3F51B713125Q21115482-07FA6637-AFDB-4ABB-BD22-0020DC61A660Q21116703-2D339E01-73D0-4DFE-8C26-2D3783F645F3Q21120111-39696B54-6E87-499E-80EC-003F4BB44B53Q21120521-56028BA1-4197-4761-9C94-2D6FEB479D8EQ21125330-1EC012BB-DFE8-48CE-BD3B-567555F65153Q21126214-611BB24C-9CEA-4F56-8890-1ECE64D9B40CQ21132952-B7D374C3-7518-4CB6-9664-E05683088A8BQ21134471-6714F390-2106-4BDC-9163-D79D73269777Q21135383-4C845E43-667B-4BCF-B66E-46BD0738B7EDQ21135383-EBA4A41D-3A48-4039-9415-75D50A1E27BBQ21135388-60665498-4FBA-48BD-8C26-91ABEF981848Q21149177-8135D419-1320-4BD2-9D16-C7CEBF513526Q21149177-B795F564-E4AF-43AE-BE0C-9B972B9E37EDQ21150920-9FE2F7E7-B4E6-4A4A-BB35-8C429E862E06Q21495490-FD1D0E40-20C8-4EBB-84DD-411D76500268Q21497828-3FE15977-B91D-4913-A66A-9AD8FF8848ABQ21979838-85B36761-779C-4F06-9B80-9276C4EA9A67Q21981268-1093C78F-6B09-4A64-AB3E-277F8978B2F1Q21981270-248AA6D4-EA2C-4A42-81AB-EB94A0752FFFQ21981691-BD5E87EE-E9F1-43F4-8A68-04335645185CQ21984474-A7624599-F0EF-4C72-A128-370DAD5A3163Q21985027-9ABAFC74-4FCD-4C9F-996B-9EFFEE1C0DFBQ21985536-3A1F4900-7391-4AEB-BF73-999BC2126494Q21985536-B2F177EF-B4EA-4954-8833-327D4C579A93Q21985594-EDB0B031-68D8-4769-9CA1-33A014598B39Q21985598-7A2018A7-CAF3-478F-92E7-26EB87999B0AQ21985599-071FEA43-10A3-40E9-B6A8-EA5ABF7371DDQ21986646-27276D0C-D810-4D24-956A-DD3AB086FC82Q21988024-84A93955-89D7-4E67-B5E9-23EC4F88075DQ21989791-937577F9-58E2-4774-B6C9-5AEF402B2CCEQ21990543-06C3E850-02F0-4571-B7CC-9AAC15FB4C02Q21990562-DB182251-5067-4B8F-9FCE-614606F7061EQ21990694-30089C9F-9EAA-4578-9D1F-E61F6A280F50
P682
description
Any process that stops, preven ...... proteins found in fibroblasts.
@en
biologisch proces
@nl
name
negative regulation of stress fiber assembly
@en
type
label
negative regulation of stress fiber assembly
@en
altLabel
GO:0051497
@en
down-regulation of stress fiber formation
@en
prefLabel
negative regulation of stress fiber assembly
@en
P2888
P686
GO:0051497