about
Cell division cycle 42Cell division cycle 42FYVE, RhoGEF and PH domain containing 1Dynamin 3FYVE, RhoGEF and PH domain containing 3FYVE, RhoGEF and PH domain containing 5FYVE, RhoGEF and PH domain containing 6FYVE, RhoGEF and PH domain containing 2FYVE, RhoGEF and PH domain containing 4Integrin subunit alpha 6RAB17, member RAS oncogene familySLIT-ROBO Rho GTPase activating protein 2Protein phosphatase 1 regulatory subunit 9BSphingosine-1-phosphate receptor 2V-set and transmembrane domain containing 5SH3 domain binding protein 1Spermatogenesis associated 13Tweety family member 1RAB17, member RAS oncogene family, isoform CRA_aRho guanine nucleotide exchange factor 4Dynamin 3Neurexin IRho guanine nucleotide exchange factor (GEF) 4EzrinIntegrin alpha 6SH3-domain binding protein 1Integrin beta 4FYVE, RhoGEF and PH domain-containing protein 3Protein phosphatase 1, regulatory subunit 9BSpermatogenesis associated 13Sphingosine-1-phosphate receptor 2SLIT-ROBO Rho GTPase activating protein 2RAB17, member RAS oncogene familyV-set and transmembrane domain containing 5Tweety family member 1EzrinTweety family member 1Sphingosine-1-phosphate receptor 2SLIT-ROBO Rho GTPase activating protein 2Cell division cycle 42
P682
The faciogenital dysplasia gene product FGD1 functions as a Cdc42Hs-specific guanine-nucleotide exchange factorIdentification and characterization of Asef2, a guanine-nucleotide exchange factor specific for Rac1 and Cdc42Asef2 and Neurabin2 cooperatively regulate actin cytoskeletal organization and are involved in HGF-induced cell migrationAsef2 functions as a Cdc42 exchange factor and is stimulated by the release of an autoinhibitory module from a concealed C-terminal activation elementFilopodia: molecular architecture and cellular functionsThe making of filopodia.
P921
Q1198053-4DBF7B9A-1353-44A1-8F94-239B7014A5D7Q15311709-4C6FA245-9C53-4A82-A9B2-5CF4544ABD78Q15311772-01B1C7DD-380C-466E-B440-56C91984FC14Q21102750-67BA9F77-44EA-43B2-8057-0FC0B793E648Q21106101-2E9DA520-896F-49C6-8642-73043038CB90Q21106102-00F8298E-EE41-4DC4-9ADC-92CEF428525BQ21106103-FE02C2FD-6B35-4E4D-A315-98AEA08A9637Q21106104-891F9E3E-912C-43B0-82E4-28B670C45F8FQ21106108-7C3EF9E5-5423-4628-BA6C-01BEAB4B96BDQ21107772-D264EF9E-CE33-4A3D-883C-36103F41489BQ21110701-B9AB11EE-373B-4197-9951-F86D2DE0B98CQ21111371-72A0EED3-4C2D-490C-9D58-AD356D6F36E1Q21120110-D9A32F2D-E55D-4059-83FD-95E1210CAFFAQ21121466-78CA38FA-8127-471F-96A8-FDAE192D02F0Q21125695-C1C948C5-6889-4826-AF54-2F2FED96A63DQ21131609-CC9AF2DD-85E7-410E-A578-4115384FE009Q21135680-4462B4A9-589A-4877-86C2-3CEA8B191179Q21135847-38EFD5CE-E5FF-454D-A357-8469FC67D6B7Q21149614-F52B0CDA-7CE9-4D6E-8417-9AF20A8EB733Q21202931-BD1E81F4-42BB-43FC-98CD-89D410002264Q21493875-279A5550-8D3B-453C-84B3-981A751C586AQ21493875-A6596E4A-2CC7-4F77-AE7C-98D9D613642AQ21494945-2F0925A0-DB22-41F6-8CA8-288889B328ACQ21496084-96F4AF11-C8CB-4146-B792-533EF7407CA3Q21496347-D5F62A3B-2AFC-44E0-8132-339F67F81F46Q21498660-AD630973-F598-4E2A-9235-28CB7F5E4BEFQ21982641-676DCB12-BEDC-4CA8-AE65-FD5DEDF9D843Q21982641-99343454-BA2B-4BC0-9552-7973CFBFB475Q21983359-94325A79-5774-4470-A2D6-710F221866F9Q21984243-71435225-A404-41C4-869E-79A4DEBA0D88Q21985869-99FBF0B8-8AC0-4B55-BBE7-815C60C35047Q21987517-BFE4F6C9-EC04-4396-BA1D-484A3CCABC64Q21988026-80D69969-16B7-41D1-9CBE-52BE7F855CC8Q21988026-B7C1FBC0-EED0-4A94-8661-71C3F1D1F1DAQ21988171-9AD4B349-68B9-4144-B835-F638D8E0FE40Q21989968-091BE38F-9488-455D-BAA8-B4DDFBEC2576Q21990795-B52AFFB9-CBFB-4D54-8E27-0710361F689BQ21991918-86BF0774-F109-4E61-872D-DDDCCEC62E9FQ22679669-DE8FCA76-953D-42A6-8940-CD106A00F2EEQ28556443-7370914E-6AE6-45FA-8341-1AB1E506DFC5
P682
description
The assembly of a filopodium, ...... eba, or an axonal growth cone.
@en
biologisch proces
@nl
name
filopodium assembly
@en
type
label
filopodium assembly
@en
altLabel
GO:0046847
@en
prefLabel
filopodium assembly
@en
P2888
P686
GO:0046847