The KinI kinesin Kif2a is required for bipolar spindle assembly through a functional relationship with MCAK
about
CLASP1, astrin and Kif2b form a molecular switch that regulates kinetochore-microtubule dynamics to promote mitotic progression and fidelityFunctional analysis of human microtubule-based motor proteins, the kinesins and dyneins, in mitosis/cytokinesis using RNA interferenceDDA3 recruits microtubule depolymerase Kif2a to spindle poles and controls spindle dynamics and mitotic chromosome movementGenome stability is ensured by temporal control of kinetochore-microtubule dynamicsDrosophila CLASP is required for the incorporation of microtubule subunits into fluxing kinetochore fibresMCAK associates with the tips of polymerizing microtubulesThe kinesin-13 proteins Kif2a, Kif2b, and Kif2c/MCAK have distinct roles during mitosis in human cells.Functional importance of the anaphase-promoting complex-Cdh1-mediated degradation of TMAP/CKAP2 in regulation of spindle function and cytokinesis.NEDD1-dependent recruitment of the gamma-tubulin ring complex to the centrosome is necessary for centriole duplication and spindle assemblyDynein/dynactin regulate metaphase spindle length by targeting depolymerizing activities to spindle poles.A second tubulin binding site on the kinesin-13 motor head domain is important during mitosisTPX2 phosphorylation maintains metaphase spindle length by regulating microtubule flux.Structure of the Kinesin13-Microtubule Ring ComplexThe crystal structure and biochemical characterization of Kif15: a bifunctional molecular motor involved in bipolar spindle formation and neuronal developmentFunctional characterisation and drug target validation of a mitotic kinesin-13 in Trypanosoma bruceiγ-Tubulin Ring Complexes and EB1 play antagonistic roles in microtubule dynamics and spindle positioningThe expanded Kinesin-13 repertoire of trypanosomes contains only one mitotic Kinesin indicating multiple extra-nuclear rolesRole of a novel coiled-coil domain-containing protein CCDC69 in regulating central spindle assembly.Kif2a depletion generates chromosome segregation and pole coalescence defects in animal caps and inhibits gastrulation of the Xenopus embryo.ICIS and Aurora B coregulate the microtubule depolymerase Kif2aIntracellular proadrenomedullin-derived peptides decorate the microtubules and contribute to cytoskeleton function.Deciphering protein function during mitosis in PtK cells using RNAi.Prophase microtubule arrays undergo flux-like behavior in mammalian cellsKinesin-13s form rings around microtubulesRegional variation of microtubule flux reveals microtubule organization in the metaphase meiotic spindle.Motor-independent targeting of CLASPs to kinetochores by CENP-E promotes microtubule turnover and poleward flux.Molecular control of kinetochore-microtubule dynamics and chromosome oscillationsKif18B interacts with EB1 and controls astral microtubule length during mitosis.The microtubule-binding protein Cep170 promotes the targeting of the kinesin-13 depolymerase Kif2b to the mitotic spindle.Kinetochore-microtubule stability governs the metaphase requirement for Eg5.Oxidative stress decreases microtubule growth and stability in ventricular myocytesPhosphorylation of SKAP by GSK3β ensures chromosome segregation by a temporal inhibition of Kif2b activity.Ras regulates kinesin 13 family members to control cell migration pathways in transformed human bronchial epithelial cells.Proliferation of aneuploid human cells is limited by a p53-dependent mechanism.Targeting of integrin beta1 and kinesin 2alpha by microRNA 183How kinesin motor proteins drive mitotic spindle function: Lessons from molecular assays.Abnormal kinetochore-generated pulling forces from expressing a N-terminally modified Hec1.KIF2A silencing inhibits the proliferation and migration of breast cancer cells and correlates with unfavorable prognosis in breast cancer.Ras transformation uncouples the kinesin-coordinated cellular nutrient responseKinesins at a glance
P2860
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P2860
The KinI kinesin Kif2a is required for bipolar spindle assembly through a functional relationship with MCAK
description
2004 nî lūn-bûn
@nan
2004 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@ast
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@en
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@nl
type
label
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@ast
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@en
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@nl
prefLabel
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@ast
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@en
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@nl
P2860
P3181
P356
P1476
The KinI kinesin Kif2a is requ ...... ctional relationship with MCAK
@en
P2093
Duane A Compton
Neil J Ganem
P2860
P3181
P356
10.1083/JCB.200404012
P407
P577
2004-08-16T00:00:00Z