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Fta2是裂殖酵母着丝粒的一个必需成分,它与保守的Mal2蛋白密切相互作用。

Fta2, an essential fission yeast kinetochore component, interacts closely with the conserved Mal2 protein.

作者信息

Kerres Anne, Jakopec Visnja, Beuter Christoph, Karig Inga, Pöhlmann Jennifer, Pidoux Alison, Allshire Robin, Fleig Ursula

机构信息

Lehrstuhl für funktionelle Genomforschung der Mikroorganismen, Heinrich-Heine Universität, 40225 Düsseldorf, Germany.

出版信息

Mol Biol Cell. 2006 Oct;17(10):4167-78. doi: 10.1091/mbc.e06-04-0264. Epub 2006 Jul 19.

DOI:10.1091/mbc.e06-04-0264
PMID:16855021
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1635372/
Abstract

The fission yeast multiprotein-component Sim4 complex plays a fundamental role in the assembly of a functional kinetochore. It affects centromere association of the histone H3 variant CENP-A as well as kinetochore association of the DASH complex. Here, multicopy suppressor analysis of a mutant version of the Sim4 complex component Mal2 identified the essential Fta2 kinetochore protein, which is required for bipolar chromosome attachment. Kinetochore localization of Mal2 and Fta2 depends on each other, and overexpression of one protein can rescue the phenotype of the mutant version of the other protein. fta2 mal2 double mutants were inviable, implying that the two proteins have an overlapping function. This close interaction with Fta2 is not shared by other Sim4 complex components, indicating the existence of functional subgroups within this complex. The Sim4 complex seems to be assembled in a hierarchical way, because Fta2 is localized correctly in a sim4 mutant. However, Fta2 kinetochore localization is reduced in a spc7 mutant. Spc7, a suppressor of the EB1 family member Mal3, is part of the conserved Ndc80-MIND-Spc7 kinetochore complex.

摘要

裂殖酵母多蛋白组分Sim4复合物在功能性动粒的组装中起基本作用。它影响组蛋白H3变体CENP-A的着丝粒结合以及DASH复合物的动粒结合。在这里,对Sim4复合物组分Mal2的突变版本进行的多拷贝抑制子分析鉴定出了必需的Fta2动粒蛋白,它是双极染色体附着所必需的。Mal2和Fta2的动粒定位相互依赖,一种蛋白的过表达可以挽救另一种蛋白突变版本的表型。fta2 mal2双突变体无法存活,这意味着这两种蛋白具有重叠功能。与Fta2的这种紧密相互作用并非Sim4复合物的其他组分所共有,表明该复合物中存在功能亚组。Sim4复合物似乎是以分层方式组装的,因为Fta2在sim4突变体中定位正确。然而,在spc7突变体中Fta2的动粒定位减少。Spc7是EB1家族成员Mal3的抑制子,是保守的Ndc80-MIND-Spc7动粒复合物的一部分。

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