Rab11-FIP3 and FIP4 interact with Arf6 and the exocyst to control membrane traffic in cytokinesis.
about
G protein-coupled receptors participate in cytokinesisRab11-FIP3 is critical for the structural integrity of the endosomal recycling compartmentStructural basis for Rab11-dependent membrane recruitment of a family of Rab11-interacting protein 3 (FIP3)/Arfophilin-1Structural basis for Arf6-MKLP1 complex formation on the Flemming body responsible for cytokinesis.Sequential Cyk-4 binding to ECT2 and FIP3 regulates cleavage furrow ingression and abscission during cytokinesis.ARF6 GTPase protects the post-mitotic midbody from 14-3-3-mediated disintegrationRab10 associates with primary cilia and the exocyst complex in renal epithelial cells.Distinct roles of RalA and RalB in the progression of cytokinesis are supported by distinct RalGEFs.Cooperation of MICAL-L1, syndapin2, and phosphatidic acid in tubular recycling endosome biogenesisThe ESCRT complexesPathways and mechanisms of endocytic recyclingNo strings attached: the ESCRT machinery in viral budding and cytokinesisCep55, a microtubule-bundling protein, associates with centralspindlin to control the midbody integrity and cell abscission during cytokinesisIdentification of Rab11 as a small GTPase binding protein for the Evi5 oncogeneSynaptic Function of Rab11Fip5: Selective Requirement for Hippocampal Long-Term DepressionThe Exocyst Complex in Health and DiseaseRecycling Endosomes and Viral InfectionThe Exocyst at a GlanceESCRT function in cytokinesis: location, dynamics and regulation by mitotic kinasesThe Evi5 family in cellular physiology and pathologyProfiling of the mammalian mitotic spindle proteome reveals an ER protein, OSTD-1, as being necessary for cell division and ER morphologyExocyst-Dependent Membrane Addition Is Required for Anaphase Cell Elongation and Cytokinesis in DrosophilaRoles of the TRAPP-II Complex and the Exocyst in Membrane Deposition during Fission Yeast CytokinesisA rapid, membrane-dependent pathway directs furrow formation through RalA in the early Drosophila embryo.Novel functions for the endocytic regulatory proteins MICAL-L1 and EHD1 in mitosis.Structural Basis and Mechanism of Autoregulation in 3-Phosphoinositide-Dependent Grp1 Family Arf GTPase Exchange FactorsStructure of Rab11-FIP3-Rabin8 reveals simultaneous binding of FIP3 and Rabin8 effectors to Rab11Arf GTPase-activating protein ASAP1 interacts with Rab11 effector FIP3 and regulates pericentrosomal localization of transferrin receptor-positive recycling endosomeCiliary targeting motif VxPx directs assembly of a trafficking module through Arf4.Rab11A-controlled assembly of the inner membrane complex is required for completion of apicomplexan cytokinesisThe Arf GAP ASAP1 provides a platform to regulate Arf4- and Rab11-Rab8-mediated ciliary receptor targeting.Conversion of midbodies into germ cell intercellular bridgesThe Arf and Rab11 effector FIP3 acts synergistically with ASAP1 to direct Rabin8 in ciliary receptor targetingRal-Arf6 crosstalk regulates Ral dependent exocyst trafficking and anchorage independent growth signallingFIP3-endosome-dependent formation of the secondary ingression mediates ESCRT-III recruitment during cytokinesis.Myosin VI is required for targeted membrane transport during cytokinesis.Rab11 is required for membrane trafficking and actomyosin ring constriction in meiotic cytokinesis of Drosophila malesNuf, a Rab11 effector, maintains cytokinetic furrow integrity by promoting local actin polymerization.RACK-1 directs dynactin-dependent RAB-11 endosomal recycling during mitosis in Caenorhabditis elegansNested genes CDA12 and CDA13 encode proteins associated with membrane trafficking in the ciliate Tetrahymena thermophila.
P2860
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P248
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P2860
Rab11-FIP3 and FIP4 interact with Arf6 and the exocyst to control membrane traffic in cytokinesis.
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Rab11-FIP3 and FIP4 interact w ...... embrane traffic in cytokinesis
@nl
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@ast
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en-gb
type
label
Rab11-FIP3 and FIP4 interact w ...... embrane traffic in cytokinesis
@nl
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@ast
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en-gb
prefLabel
Rab11-FIP3 and FIP4 interact w ...... embrane traffic in cytokinesis
@nl
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@ast
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en-gb
P2093
P2860
P50
P921
P3181
P356
P1433
P1476
Rab11-FIP3 and FIP4 interact w ...... mbrane traffic in cytokinesis.
@en
P2093
Andrew B Fielding
Eric Schonteich
Gayle Wilson
Gilles R X Hickson
Gwyn W Gould
Johanne Matheson
Rytis Prekeris
Sweta Srivastava
P2860
P304
P3181
P356
10.1038/SJ.EMBOJ.7600803
P407
P577
2005-09-08T00:00:00Z