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TOGp是XMAP215/Dis1的人类同源物,对于中心体完整性、纺锤体极组织和双极纺锤体组装是必需的。

TOGp, the human homolog of XMAP215/Dis1, is required for centrosome integrity, spindle pole organization, and bipolar spindle assembly.

作者信息

Cassimeris Lynne, Morabito Justin

机构信息

Department of Biological Sciences, Lehigh University, Bethlehem, Pennsylvania 18015, USA.

出版信息

Mol Biol Cell. 2004 Apr;15(4):1580-90. doi: 10.1091/mbc.e03-07-0544. Epub 2004 Jan 12.

DOI:10.1091/mbc.e03-07-0544
PMID:14718566
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC379257/
Abstract

The XMAP215/Dis1 MAP family is thought to regulate microtubule plus-end assembly in part by antagonizing the catastrophe-promoting function of kin I kinesins, yet XMAP215/Dis1 proteins localize to centrosomes. We probed the mitotic function of TOGp (human homolog of XMAP215/Dis1) using siRNA. Cells lacking TOGp assembled multipolar spindles, confirming results of Gergely et al. (2003. Genes Dev. 17, 336-341). Eg5 motor activity was necessary to maintain the multipolar morphology. Depletion of TOGp decreased microtubule length and density in the spindle by approximately 20%. Depletion of MCAK, a kin I kinesin, increased MT lengths and density by approximately 20%, but did not disrupt spindle morphology. Mitotic cells lacking both TOGp and MCAK formed bipolar and monopolar spindles, indicating that TOGp and MCAK contribute to spindle bipolarity, without major effects on MT stability. TOGp localized to centrosomes in the absence of MTs and depletion of TOGp resulted in centrosome fragmentation. TOGp depletion also disrupted MT minus-end focus at the spindle poles, detected by localizations of NuMA and the p150 component of dynactin. The major functions of TOGp during mitosis are to focus MT minus ends at spindle poles, maintain centrosome integrity, and contribute to spindle bipolarity.

摘要

XMAP215/Dis1微管相关蛋白(MAP)家族被认为部分通过拮抗驱动蛋白I类驱动蛋白促进微管解聚的功能来调节微管正端组装,然而XMAP215/Dis1蛋白定位于中心体。我们使用小干扰RNA(siRNA)探究了TOGp(XMAP215/Dis1的人类同源物)的有丝分裂功能。缺乏TOGp的细胞组装形成多极纺锤体,这证实了杰尔盖利等人(2003年。《基因与发育》17卷,336 - 341页)的研究结果。驱动蛋白Eg5的活性对于维持多极形态是必需的。TOGp的缺失使纺锤体中的微管长度和密度降低了约20%。驱动蛋白I类驱动蛋白MCAK的缺失使微管长度和密度增加了约20%,但并未破坏纺锤体形态。同时缺乏TOGp和MCAK的有丝分裂细胞形成了双极和单极纺锤体,这表明TOGp和MCAK有助于纺锤体的双极性,而对微管稳定性没有重大影响。在没有微管的情况下,TOGp定位于中心体,并且TOGp的缺失导致中心体碎片化。通过核膜蛋白(NuMA)和动力蛋白激活蛋白(dynactin)的p150亚基的定位检测发现,TOGp的缺失还破坏了纺锤体两极的微管负端聚集。TOGp在有丝分裂过程中的主要功能是使微管负端聚集在纺锤体两极、维持中心体完整性以及有助于纺锤体双极性。

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The XMAP215 homologue Stu2 at yeast spindle pole bodies regulates microtubule dynamics and anchorage.酵母纺锤体极体中的XMAP215同源物Stu2调节微管动力学和锚定。
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