核心组蛋白的全局分析揭示了染色体双向取向所需的核小体表面。

Global analysis of core histones reveals nucleosomal surfaces required for chromosome bi-orientation.

机构信息

Molecular Cell Biology Laboratory, Graduate School of Pharmaceutical Sciences, Tohoku University, Miyagi, Japan.

出版信息

EMBO J. 2011 Jul 19;30(16):3353-67. doi: 10.1038/emboj.2011.241.

DOI:10.1038/emboj.2011.241

PMID:21772248

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3160661/

Abstract

The attachment of sister kinetochores to microtubules from opposite spindle poles is essential for faithful chromosome segregation. Kinetochore assembly requires centromere-specific nucleosomes containing the histone H3 variant CenH3. However, the functional roles of the canonical histones (H2A, H2B, H3, and H4) in chromosome segregation remain elusive. Using a library of histone point mutants in Saccharomyces cerevisiae, 24 histone residues that conferred sensitivity to the microtubule-depolymerizing drugs thiabendazole (TBZ) and benomyl were identified. Twenty-three of these mutations were clustered at three spatially separated nucleosomal regions designated TBS-I, -II, and -III (TBZ/benomyl-sensitive regions I-III). Elevation of mono-polar attachment induced by prior nocodazole treatment was observed in H2A-I112A (TBS-I), H2A-E57A (TBS-II), and H4-L97A (TBS-III) cells. Severe impairment of the centromere localization of Sgo1, a key modulator of chromosome bi-orientation, occurred in H2A-I112A and H2A-E57A cells. In addition, the pericentromeric localization of Htz1, the histone H2A variant, was impaired in H4-L97A cells. These results suggest that the spatially separated nucleosomal regions, TBS-I and -II, are necessary for Sgo1-mediated chromosome bi-orientation and that TBS-III is required for Htz1 function.

摘要

姊妹动粒附着在来自纺锤体两极的微管上对于染色体的正确分离是必需的。动粒的组装需要含有组蛋白 H3 变体 CenH3 的着丝粒特异性核小体。然而，经典组蛋白（H2A、H2B、H3 和 H4）在染色体分离中的功能作用仍不清楚。在酿酒酵母中使用组蛋白点突变文库，鉴定出 24 个赋予对微管解聚药物噻苯达唑（TBZ）和苯并咪唑敏感性的组蛋白残基。这 23 个突变聚集在三个空间上分离的核小体区域，分别命名为 TBS-I、-II 和 -III（TBZ/苯并咪唑敏感区 I-III）。先用 nocodazole 处理来提高单极附着，观察到 H2A-I112A（TBS-I）、H2A-E57A（TBS-II）和 H4-L97A（TBS-III）细胞中出现这种情况。Sgo1 是染色体双定向的关键调节剂，其着丝粒定位在 H2A-I112A 和 H2A-E57A 细胞中严重受损。此外，Htz1，一种组蛋白 H2A 变体，在 H4-L97A 细胞中的着丝粒周围定位受到损害。这些结果表明，空间上分离的核小体区域 TBS-I 和 -II 对于 Sgo1 介导的染色体双定向是必需的，而 TBS-III 对于 Htz1 功能是必需的。

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