中间体基质在胞质分裂中的作用：哺乳动物动力蛋白CHO1的RNA干扰和基因拯救分析

Role of the midbody matrix in cytokinesis: RNAi and genetic rescue analysis of the mammalian motor protein CHO1.

作者信息

Matuliene Jurgita, Kuriyama Ryoko

机构信息

Department of Genetics, Cell Biology and Development, University of Minnesota, Minneapolis, Minnesota 55455, USA.

出版信息

Mol Biol Cell. 2004 Jul;15(7):3083-94. doi: 10.1091/mbc.e03-12-0888. Epub 2004 Apr 9.

DOI:10.1091/mbc.e03-12-0888

PMID:15075367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC452566/

Abstract

CHO1 is a kinesin-like motor protein essential for cytokinesis in mammalian cells. To analyze how CHO1 functions, we established RNAi and genetic rescue assays. CHO1-depleted cells reached a late stage of cytokinesis but fused back to form binucleate cells because of the absence of the midbody matrix in the middle of the intercellular bridge. Expression of exogenous CHO1 restored the formation of the midbody matrix and rescued cytokinesis in siRNA-treated cells. By analyzing phenotypes rescued with different constructs, it was shown that both motor and stalk domains function in midbody formation, whereas the tail is essential for completion of cytokinesis after the midbody matrix has formed. During the terminal stage of cytokinesis, different subregions of the tail play distinctive roles in stabilizing the midbody matrix and maintaining an association between the midbody and cell cortex. These results demonstrate that CHO1 consists of functionally differentiated subregions that act in concert to ensure complete cell separation.

摘要

CHO1是一种类似驱动蛋白的运动蛋白，对哺乳动物细胞的胞质分裂至关重要。为了分析CHO1的功能，我们建立了RNA干扰和基因拯救实验。CHO1缺失的细胞进入胞质分裂后期，但由于细胞间桥中间没有中体基质，又融合回双核细胞。外源性CHO1的表达恢复了中体基质的形成，并拯救了经小干扰RNA处理细胞的胞质分裂。通过分析用不同构建体拯救的表型，结果表明，运动结构域和柄结构域在中体形成中发挥作用，而尾部对于中体基质形成后的胞质分裂完成至关重要。在胞质分裂的末期，尾部的不同亚区域在稳定中体基质以及维持中体与细胞皮层之间的联系中发挥着独特作用。这些结果表明，CHO1由功能分化的亚区域组成，这些亚区域协同作用以确保细胞完全分离。

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