A shared domain between a spindle assembly checkpoint protein and Ypt/Rab-specific GTPase-activators.
about
Discovery of Novel DENN Proteins: Implications for the Evolution of Eukaryotic Intracellular Membrane Structures and Human DiseaseCharacterization of GAPCenA, a GTPase activating protein for Rab6, part of which associates with the centrosomeIdentification of EPI64, a TBC/rabGAP domain-containing microvillar protein that binds to the first PDZ domain of EBP50 and E3KARPNovel rab GAP-like protein, CIP85, interacts with connexin43 and induces its degradationThe TRE17 oncogene encodes a component of a novel effector pathway for Rho GTPases Cdc42 and Rac1 and stimulates actin remodelingThe TBC (Tre-2/Bub2/Cdc16) domain protein TRE17 regulates plasma membrane-endosomal trafficking through activation of Arf6.RUTBC1 protein, a Rab9A effector that activates GTP hydrolysis by Rab32 and Rab33B proteinsThe Tre2 (USP6) oncogene is a hominoid-specific geneEPI64 regulates microvillar subdomains and structureCrystal structure of the GAP domain of Gyp1p: first insights into interaction with Ypt/Rab proteinsSynthetic genetic array analysis of the PtdIns 4-kinase Pik1p identifies components in a Golgi-specific Ypt31/rab-GTPase signaling pathway.Significance of GTP hydrolysis in Ypt1p-regulated endoplasmic reticulum to Golgi transport revealed by the analysis of two novel Ypt1-GAPs.Asymmetry of the budding yeast Tem1 GTPase at spindle poles is required for spindle positioning but not for mitotic exit.Interaction of the Saccharomyces cerevisiae cortical actin patch protein Rvs167p with proteins involved in ER to Golgi vesicle traffickingRegulation of cell polarity by interactions of Msb3 and Msb4 with Cdc42 and polarisome components.Different levels of Bfa1/Bub2 GAP activity are required to prevent mitotic exit of budding yeast depending on the type of perturbationsMsb4p, a protein involved in Cdc42p-dependent organization of the actin cytoskeleton, is a Ypt/Rab-specific GAP.Two new members of a family of Ypt/Rab GTPase activating proteins. Promiscuity of substrate recognition.Rab GAP cascade regulates dynamics of Ypt6 in the Golgi trafficControl of mitotic exit in budding yeast. In vitro regulation of Tem1 GTPase by Bub2 and Bfa1.Yeast rab GTPase-activating protein Gyp1p localizes to the Golgi apparatus and is a negative regulator of Ypt1p.Disappearance of the budding yeast Bub2-Bfa1 complex from the mother-bound spindle pole contributes to mitotic exitRUTBC2 protein, a Rab9A effector and GTPase-activating protein for Rab36The Eps8 protein coordinates EGF receptor signalling through Rac and trafficking through Rab5Spatiotemporal inhibition of innate immunity signaling by the Tbc1d23 RAB-GAP.TBC1D13 is a RAB35 specific GAP that plays an important role in GLUT4 trafficking in adipocytesThe RabGAP proteins Gyp5p and Gyl1p recruit the BAR domain protein Rvs167p for polarized exocytosis.Cell cycle arrest in cdc20 mutants of Saccharomyces cerevisiae is independent of Ndc10p and kinetochore function but requires a subset of spindle checkpoint genes.A role for the Rab6A' GTPase in the inactivation of the Mad2-spindle checkpoint.Primary structure and biochemical characterization of yeast GTPase-activating proteins with substrate preference for the transport GTPase Ypt7p.High-confidence mapping of chemical compounds and protein complexes reveals novel aspects of chemical stress response in yeast.Monoclonal antibodies against the connexin43-interacting protein CIP85Evolution of Tre-2/Bub2/Cdc16 (TBC) Rab GTPase-activating proteinsA New Member of the TBC1D15 Family from Chiloscyllium plagiosum: Rab GTPase-Activating Protein Based on Rab7 as a Substrate.Rab GEFs and GAPs.Biochemical characterization of Gyp6p, a Ypt/Rab-specific GTPase-activating protein from yeast.Coupling spindle position with mitotic exit in budding yeast: The multifaceted role of the small GTPase Tem1.Identification of a Sec4p GTPase-activating protein (GAP) as a novel member of a Rab GAP family.Sister chromatid separation and chromosome re-duplication are regulated by different mechanisms in response to spindle damage.In Vitro Analysis of Tem1 GTPase Activity and Regulation by the Bfa1/Bub2 GAP.
P2860
Q21131245-183C9C26-82D3-429C-876D-22871F4919F4Q22009386-1B2E30DD-FADC-4437-8F0B-D3FE097D1DB0Q24291083-4D4B4824-3EEB-4D62-AAA9-E1667211EABBQ24294859-0E557294-1558-41AC-A637-E8F71E12A8DCQ24296635-1B071DA6-0A2A-4F8F-84E1-B9D9157B40BAQ24309600-5A9F0F5D-D58C-48E1-ABB2-FFF184B1AA1BQ24318649-ACD4A06D-17AA-4CF3-AB70-C9F784DAE921Q24554200-C1E65376-3769-4E09-8B4F-8AD5CB8CED04Q24682601-209621E5-06D8-41F5-8D07-306653DBD1AFQ27627255-502636A3-C781-48E5-81B8-3BC4FF40E637Q27930258-1805FD4D-9152-4ED9-BE0D-C3C8122B72A1Q27930315-6C1C05C1-170E-4FD5-9146-469FDA6FD973Q27930339-5AFC03B6-7018-4121-8BD1-90EFA2A20B7BQ27930589-006E54EF-2072-4017-A16F-5886665E8493Q27933158-99EFC678-7F6B-4487-832D-B14E10E28864Q27933936-9AA44573-905C-477C-A42B-A11D359D7892Q27934251-F2B537C9-B0C5-4FEA-8790-DD39B4EDF064Q27934729-90D0CF9F-9F6D-4751-9B45-BDA143FD7D86Q27935395-D0AFE5B9-36ED-419C-AD12-747AF7F83006Q27935476-258B81B3-94D9-426D-AF24-0057F6827208Q27935673-C3763695-6B5A-49E8-8664-9674970B914BQ27939256-43AF4586-33DC-48C2-B84E-CFDC138EA362Q28118044-C34ACF14-54C6-4522-907C-7FBC41DEE607Q28138959-CDF12E9C-25B0-47A8-9CE1-8ACDD2B75E7DQ28511163-C7C08D75-1713-4C45-8F97-F6F774679478Q28975624-A01F419D-AE3E-4C13-88E8-94CEB0C59FE2Q30155553-B11FA0C6-B01E-4E0E-986D-EC97E169CC49Q30446001-CB8F8D2F-663C-4150-A220-62701586C6B6Q30476876-47F5A073-6BDD-4C69-BD4F-9E1DA06DF6F2Q30656982-32D9729E-9314-4FDF-B74A-A8DDCA6D0A54Q33519955-64736121-AE9B-4CBA-9ACB-2E076D42DDDCQ33900166-E5E3D8BD-D5A5-43DD-8BA7-A4C721F21B47Q34332649-BDD5619E-01D9-4A6B-92C0-EA3C6DFA8B97Q35634173-2EDB0C27-1CBA-48FC-8098-575F3492CBADQ37751479-DB2C5B51-B713-4D0B-A321-F90D16D8342BQ38302561-DBAEBCB2-540F-48E9-AF95-17E80267ED2BQ41864478-9CEF72A7-8A4C-439F-A9FF-5A4BCCA851F0Q42671869-61AEF953-CA57-4194-A9EB-FDA041173057Q42673791-A4F8FD72-D514-49BB-916C-BE73437722A5Q48507312-BFFD4E4C-222E-4F45-B5D9-FE2B72A7CA2E
P2860
A shared domain between a spindle assembly checkpoint protein and Ypt/Rab-specific GTPase-activators.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
A shared domain between a spin ...... ab-specific GTPase-activators.
@en
A shared domain between a spin ...... ab-specific GTPase-activators.
@nl
type
label
A shared domain between a spin ...... ab-specific GTPase-activators.
@en
A shared domain between a spin ...... ab-specific GTPase-activators.
@nl
prefLabel
A shared domain between a spin ...... ab-specific GTPase-activators.
@en
A shared domain between a spin ...... ab-specific GTPase-activators.
@nl
P1476
A shared domain between a spin ...... ab-specific GTPase-activators.
@en
P2093
Neuwald AF
P304
P356
10.1016/S0968-0004(97)01073-6
P577
1997-07-01T00:00:00Z