芽殖酵母中一条环境应激感应通路对有丝分裂纺锤体解体的调控。

Regulation of mitotic spindle disassembly by an environmental stress-sensing pathway in budding yeast.

作者信息

Pigula Adrianne, Drubin David G, Barnes Georjana

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley, California 94720.

Department of Molecular and Cell Biology, University of California, Berkeley, California 94720

出版信息

Genetics. 2014 Nov;198(3):1043-57. doi: 10.1534/genetics.114.163238. Epub 2014 Sep 10.

DOI:10.1534/genetics.114.163238

PMID:25213170

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4224151/

Abstract

Timely spindle disassembly is essential for coordination of mitotic exit with cytokinesis. In the budding yeast Saccharomyces cerevisiae, the microtubule-associated protein She1 functions in one of at least three parallel pathways that promote spindle disassembly. She1 phosphorylation by the Aurora kinase Ipl1 facilitates a role for She1 in late anaphase, when She1 contributes to microtubule depolymerization and shrinkage of spindle halves. By examining the genetic interactions of known spindle disassembly genes, we identified three genes in the environmental stress-sensing HOG (high-osmolarity glycerol response) pathway, SHO1, PBS2, and HOG1, and found they are necessary for proper localization of She1 to the anaphase spindle and for proper spindle disassembly. HOG pathway mutants exhibited spindle disassembly defects, as well as mislocalization of anillin-related proteins Boi1 and Boi2 from the bud neck. Moreover, Boi2, but not Boi1, plays a role in spindle disassembly that places Boi2 in a pathway with Sho1, Pbs2, and Hog1. Together, our data identify a process by which cells monitor events at the spindle and bud neck and describe a novel role for the HOG pathway in mitotic signaling.

摘要

及时的纺锤体解体对于有丝分裂退出与胞质分裂的协调至关重要。在芽殖酵母酿酒酵母中，微管相关蛋白She1在至少三条促进纺锤体解体的平行途径之一中发挥作用。极光激酶Ipl1对She1的磷酸化促进了She1在后期的作用，此时She1有助于微管解聚和纺锤体两半的收缩。通过研究已知纺锤体解体基因的遗传相互作用，我们在环境应激感应HOG（高渗甘油反应）途径中鉴定出三个基因，即SHO1、PBS2和HOG1，并发现它们对于She1正确定位于后期纺锤体以及正确的纺锤体解体是必需的。HOG途径突变体表现出纺锤体解体缺陷，以及与膜收缩环相关蛋白Boi1和Boi2从芽颈处的错误定位。此外，Boi2而非Boi1在纺锤体解体中发挥作用，这使得Boi2与Sho1、Pbs2和Hog1处于同一途径。总之，我们的数据确定了细胞监测纺锤体和芽颈处事件的一个过程，并描述了HOG途径在有丝分裂信号传导中的新作用。

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