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CYK-4/MgcRacGAP和ZEN-4/MKLP1协同组装形成中央纺锤体复合物。

Cooperative assembly of CYK-4/MgcRacGAP and ZEN-4/MKLP1 to form the centralspindlin complex.

作者信息

Pavicic-Kaltenbrunner Visnja, Mishima Masanori, Glotzer Michael

机构信息

Department of Molecular Genetics and Cell Biology, University of Chicago, Chicago, IL 60637, USA.

出版信息

Mol Biol Cell. 2007 Dec;18(12):4992-5003. doi: 10.1091/mbc.e07-05-0468. Epub 2007 Oct 17.

DOI:10.1091/mbc.e07-05-0468
PMID:17942600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2096608/
Abstract

Cytokinesis in metazoan cells requires a set of antiparallel microtubules that become bundled upon anaphase onset to form a structure known as the central spindle. Bundling of these microtubules requires a protein complex, centralspindlin, that consists of the CYK-4/MgcRacGAP Rho-family GTPase-activating protein and the ZEN-4/MKLP1 kinesin-6 motor protein. Centralspindlin, but not its individual subunits, is sufficient to bundle microtubules in vitro. Here, we present a biochemical and genetic dissection of centralspindlin. We show that each of the two subunits of centralspindlin dimerize via a parallel coiled coil. The two homodimers assemble into a high-affinity heterotetrameric complex by virtue of two low-affinity interactions. Conditional mutations in the regions that mediate complex assembly can be readily suppressed by numerous second site mutations in the interacting regions. This unexpected plasticity explains the lack of primary sequence conservation of the regions critical for this essential protein-protein interaction.

摘要

后生动物细胞中的胞质分裂需要一组反向平行的微管,这些微管在后期开始时聚集在一起形成一种称为中央纺锤体的结构。这些微管的聚集需要一种蛋白质复合物——中央纺锤体蛋白,它由CYK-4/MgcRacGAP Rho家族GTP酶激活蛋白和ZEN-4/MKLP1驱动蛋白6组成。中央纺锤体蛋白,而不是其单个亚基,在体外足以使微管聚集。在这里,我们对中央纺锤体蛋白进行了生化和遗传学剖析。我们表明,中央纺锤体蛋白的两个亚基中的每一个都通过平行卷曲螺旋形成二聚体。这两个同型二聚体通过两个低亲和力相互作用组装成一个高亲和力的异源四聚体复合物。介导复合物组装区域的条件突变可以很容易地被相互作用区域中的许多第二位点突变所抑制。这种意想不到的可塑性解释了对于这种必需的蛋白质-蛋白质相互作用至关重要的区域缺乏一级序列保守性的原因。

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