about
Cell division cycle 42Elongation factorSignal-recognition-particle GTPaseTubulin GTPaseADP-ribosylation factor 6GTP cyclohydrolase 1Harvey rat sarcoma virus oncogeneMethylmalonyl-Coenzyme A mutaseGTP cyclohydrolase 1Cell division cycle 42Ras homolog family member BRac family small GTPase 1Leucine-rich repeat kinase 2Ras homolog family member AMitofusin 2ADP ribosylation factor like GTPase 3ADP ribosylation factor like GTPase 4DADP ribosylation factor like GTPase 4CADP ribosylation factor like GTPase 8AADP ribosylation factor like GTPase 6ADP ribosylation factor like GTPase 8BGTP dependent ribosome recycling factor mitochondrial 2Dynamin 1 likeDevelopmentally regulated GTP binding protein 2Ras homolog family member UG protein subunit alpha 13G protein subunit alpha qGuanine nucleotide-binding protein G(s) subunit alpha isoforms XLasTubulin beta 2B class IIbTransmembrane protein 250RAB5C, member RAS oncogene familyRAB21, member RAS oncogene familyRAB22A, member RAS oncogene familyDynamin 3G protein subunit gamma 12G protein subunit alpha transducin 3G protein subunit alpha zG protein subunit alpha transducin 2G protein nucleolar 1 (putative)RAP1B, member of RAS oncogene family
P680
The linkage of Kennedy's neuron disease to ARA24, the first identified androgen receptor polyglutamine region-associated coactivatorChromosomal localization of genes encoding guanine nucleotide-binding protein subunits in mouse and humanIdentification of the monomeric G-protein, Rhes, as an efaroxan-regulated protein in the pancreatic beta-cellCrystallographic evidence for substrate-assisted GTP hydrolysis by a small GTP binding proteinIsolation and characterization of the human gene for ADP-ribosylation factor 3, a 20-kDa guanine nucleotide-binding protein activator of cholera toxinStructural basis for Rab11-mediated recruitment of FIP3 to recycling endosomesStructural basis for Rab11-dependent membrane recruitment of a family of Rab11-interacting protein 3 (FIP3)/Arfophilin-1Mechanism of activation of the Caenorhabditis elegans ras homologue let-60 by a novel, temperature-sensitive, gain-of-function mutationThe product of the rap2 gene, member of the ras superfamily. Biochemical characterization and site-directed mutagenesisRUTBC1 protein, a Rab9A effector that activates GTP hydrolysis by Rab32 and Rab33B proteinsRAB GTPases expressed in human melanoma cellsGTP binding and hydrolysis by the signal recognition particle during initiation of protein translocationMolecular identification of ADP-ribosylation factor mRNAs and their expression in mammalian cellsCharacterization of a GTPase-activating protein that stimulates GTP hydrolysis by both ADP-ribosylation factor (ARF) and ARF-like proteins. Comparison to the ARD1 gap domainInvited review: MnmE, a GTPase that drives a complex tRNA modification reaction.Disordered TPPP/p25 binds GTP and displays Mg2+-dependent GTPase activitySmall GTPases
P921
Q1198053-807CC2FB-E7CB-48B0-B135-FC80DF5E9D67Q1198053-AA7F2EFE-0596-4B68-903D-C77683E74FC6Q126252-73da1ea2-414d-d641-2bcf-09608067cd13Q13359601-6070288e-4926-903a-9f9d-172ca14dd171Q13359602-C04D0E8F-D5A8-43B4-93E6-CFA6CE5302EAQ14865056-2F350F3F-77B4-4060-8D14-FDEF9E80AA89Q14865056-639280D8-3148-485B-9407-AD3C0A9BBBE1Q1487359-B9CAB9B1-7C9D-42D9-8875-A48B45345AA9Q14884142-9243FAB2-0421-49C6-B8B2-02DDF6A58ABDQ14884142-B61F909C-5DD3-4C5D-B408-4DE657B26B5AQ14905195-8D0601DB-0BCA-46ED-974B-162BDDD00A89Q14916170-C7E942FC-00F4-4B67-8794-81F865FBF887Q15311709-4BDCCA40-4C93-4F8D-91E0-9FA99FD25A29Q15311709-B75788B9-92F5-4B78-8EB7-18C4B5BA7DDDQ15322151-5E90EB66-FF45-4B90-BACB-E4F641EEEEB0Q15322151-EDD21DED-A2B5-4AAF-A457-00CC54ADE8F9Q15325768-6A1B8A81-DBAF-49A9-BA21-42C4F130361BQ15325768-87A0E423-7A50-4D42-8418-905BB0BA71BAQ15331171-E6AF5CC5-6287-4165-BF0F-BCB9EBDA1FB1Q15331521-24793CFA-85EB-4C92-B86C-4B6F99E9AFD7Q15331521-D43C6092-3F87-4D12-A66B-6CBC8B161BD0Q15334427-BE756D24-080A-4A38-87A7-DFA03C6FD6D4Q21097423-1BD57996-B65E-493C-86BA-08FD60147D9BQ21097424-D93E1F0D-626D-4141-8179-90D60B9A18C9Q21097427-A7FFC221-999E-4C95-A64D-D97E005E3274Q21097452-F01875EA-5993-4787-8E88-20CA37D8B59DQ21097464-4D4C82D7-BA2A-4BFD-B154-2D869871229FQ21097465-EF2D2BF0-9A6B-4787-B76F-C65E3C39023AQ21100412-E94A7F72-64E1-4DA3-8FE5-FB014C41904EQ21101107-1552428E-A6FB-4F87-8967-6BB1B90F2E01Q21101107-9603D40F-6EE6-4319-B2C2-401838ECC937Q21101151-F965FF4B-0E4C-4D54-B189-B737A0DB10C1Q21101287-89BF5835-E6CE-4495-9EDA-6D3173AD1A6FQ21101952-135D12F4-13E4-4644-BA36-847D748B952BQ21102036-099F5A61-F480-4474-9530-3B7AC54EE14BQ21102036-3DE54465-F326-47C7-B477-6311BAD5FFB2Q21102044-7EC46BDC-7505-4CC2-9F5B-9888C5799A05Q21102151-802CA837-F8A1-499C-B311-72F12B64CFCDQ21102326-38C617DC-651C-4589-B380-822118BBF5B9Q21102668-5EE0E312-75D5-4953-A232-F916043BA1AE
P680
Q22010240-C7BE67FC-FDC1-445F-94ED-F5F83E90F0F6Q24293764-9BA850D0-3AA1-45BA-B659-1BDE367E8D31Q24295155-2CB7B15D-49B7-4E3A-AF73-243868F90A0EQ24300229-CA59D4DD-4BCB-4D72-BB95-85CEF719A20BQ24303314-95F3D376-D4DC-4704-9B6F-C915327640A6Q24305088-B6AF50DB-6335-4AA6-95B8-6F731FAD1CA6Q24306419-CEAC89B6-2370-4645-9975-FA7997B091A3Q24308974-5E434DA9-0A35-432C-9641-F0D297F66ED6Q24314197-D824B211-808F-4745-80B9-41212B1B884AQ24318649-23FF6E70-7489-4AF3-A005-2BB401145405Q24319167-EA418FF9-822E-47AC-85D3-99D9049FC422Q24320288-CCE99FD1-1E99-4D7D-AD57-3F0FB4DE19EBQ24321333-A9943AD4-9E58-46A6-A33C-41E414DC0FB2Q24322053-EA310534-5296-48A7-8C7C-CD29A5597EDEQ38718641-E735748C-FA63-4AAF-AA6A-196A9AA597CDQ83400654-2F43B089-D26B-4E79-90A0-931C253EFC64Q89272170-1863FDD6-5051-4D7C-AAF8-F55077C9C6A5
P921
description
Catalysis of the reaction: GTP + H2O = GDP + phosphate.
@en
Katalyse der Reaktion: GTP + H2O = GDP + Phosphat.
@de
biologisch proces
@nl
name
GTPase activity
@en
GTPase-Aktivität
@de
GTPase-aktivitet
@nn
type
label
GTPase activity
@en
GTPase-Aktivität
@de
GTPase-aktivitet
@nn
altLabel
GO:0003924
@en
GTPaseaktivität
@de
prefLabel
GTPase activity
@en
GTPase-Aktivität
@de
GTPase-aktivitet
@nn
P2888
P686
GO:0003924