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通过对酿酒酵母 Rtf1 的突变分析鉴定组蛋白 H2B 泛素化在非编码 RNA 3'端形成中的作用。

Identification of a role for histone H2B ubiquitylation in noncoding RNA 3'-end formation through mutational analysis of Rtf1 in Saccharomyces cerevisiae.

机构信息

Department of Biological Sciences, University of Pittsburgh, Pittsburgh, Pennsylvania 15260, USA.

出版信息

Genetics. 2011 Jun;188(2):273-89. doi: 10.1534/genetics.111.128645. Epub 2011 Mar 24.

DOI:10.1534/genetics.111.128645
PMID:21441211
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3122317/
Abstract

The conserved eukaryotic Paf1 complex regulates RNA synthesis by RNA polymerase II at multiple levels, including transcript elongation, transcript termination, and chromatin modifications. To better understand the contributions of the Paf1 complex to transcriptional regulation, we generated mutations that alter conserved residues within the Rtf1 subunit of the Saccharomyces cerevisiae Paf1 complex. Importantly, single amino acid substitutions within a region of Rtf1 that is conserved from yeast to humans, which we termed the histone modification domain, resulted in the loss of histone H2B ubiquitylation and impaired histone H3 methylation. Phenotypic analysis of these mutations revealed additional defects in telomeric silencing, transcription elongation, and prevention of cryptic initiation. We also demonstrated that amino acid substitutions within the Rtf1 histone modification domain disrupt 3'-end formation of snoRNA transcripts and identify a previously uncharacterized regulatory role for the histone H2B K123 ubiquitylation mark in this process. Cumulatively, our results reveal functionally important residues in Rtf1, better define the roles of Rtf1 in transcription and histone modification, and provide strong genetic support for the participation of histone modification marks in the termination of noncoding RNAs.

摘要

保守的真核 Paf1 复合物通过 RNA 聚合酶 II 在多个水平上调节 RNA 合成,包括转录延伸、转录终止和染色质修饰。为了更好地理解 Paf1 复合物对转录调控的贡献,我们生成了突变,改变了酿酒酵母 Paf1 复合物的 Rtf1 亚基中的保守残基。重要的是,在 Rtf1 中一个从酵母到人类都保守的区域内的单个氨基酸取代,我们称之为组蛋白修饰域,导致组蛋白 H2B 泛素化的丧失和组蛋白 H3 甲基化的受损。这些突变的表型分析显示了端粒沉默、转录延伸和阻止隐匿起始的额外缺陷。我们还证明了 Rtf1 组蛋白修饰域内的氨基酸取代破坏了 snoRNA 转录物的 3'末端形成,并确定了组蛋白 H2B K123 泛素化标记在该过程中的先前未表征的调节作用。总之,我们的结果揭示了 Rtf1 中的功能重要残基,更好地定义了 Rtf1 在转录和组蛋白修饰中的作用,并为组蛋白修饰标记在非编码 RNA 终止中的参与提供了强有力的遗传支持。

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