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mRNA 切割/多聚腺苷酸化复合物中 Ysh1 内切核酸酶的泛素介导降解调控。

Regulation of the Ysh1 endonuclease of the mRNA cleavage/polyadenylation complex by ubiquitin-mediated degradation.

机构信息

Department of Developmental, Molecular, and Chemical Biology and Tufts School of Graduate Biomedical Science, Tufts University School of Medicine, Boston, MA, USA.

Computational Biology and Bioinformatics Core, Mount Desert Island Biological Laboratory, Bar Harbor, ME, USA.

出版信息

RNA Biol. 2020 May;17(5):689-702. doi: 10.1080/15476286.2020.1724717. Epub 2020 Feb 12.

DOI:10.1080/15476286.2020.1724717
PMID:32009536
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7237158/
Abstract

Mutation of the essential yeast protein Ipa1 has previously been demonstrated to cause defects in pre-mRNA 3' end processing and growth, but the mechanism underlying these defects was not clear. In this study, we show that the mutation causes a striking depletion of Ysh1, the evolutionarily conserved endonuclease subunit of the 19-subunit mRNA Cleavage/Polyadenylation (C/P) complex, but does not decrease other C/P subunits. overexpression rescues both the growth and 3' end processing defects of the mutant. mRNA level is unchanged in cells, and proteasome inactivation prevents Ysh1 loss and causes accumulation of ubiquitinated Ysh1. Ysh1 ubiquitination is mediated by the Ubc4 ubiquitin-conjugating enzyme and Mpe1, which in addition to its function in C/P, is also a RING ubiquitin ligase. In summary, Ipa1 affects mRNA processing by controlling the availability of the C/P endonuclease and may represent a regulatory mechanism that could be rapidly deployed to facilitate reprogramming of cellular responses.

摘要

先前的研究表明,酵母必需蛋白 Ipa1 的突变会导致前体 mRNA 3' 端加工和生长缺陷,但这些缺陷的机制尚不清楚。在这项研究中,我们表明该突变导致进化上保守的 19 亚基 mRNA 切割/多聚腺苷酸化(C/P)复合物的内切酶亚基 Ysh1 的明显耗竭,但不会减少其他 C/P 亚基。过表达可挽救突变体的生长和 3' 端加工缺陷。在 细胞中,mRNA 水平不变,蛋白酶体失活可防止 Ysh1 丢失并导致泛素化 Ysh1 的积累。Ysh1 的泛素化由 Ubc4 泛素连接酶和 Mpe1 介导,除了在 C/P 中的功能外,Mpe1 还是一种 RING 泛素连接酶。总之,Ipa1 通过控制 C/P 内切酶的可用性来影响 mRNA 加工,它可能代表一种可快速部署的调节机制,以促进细胞反应的重新编程。

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本文引用的文献

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The APT complex is involved in non-coding RNA transcription and is distinct from CPF.APT 复合物参与非编码 RNA 转录,且与 CPF 不同。
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