一种缺乏 P 体组装能力的 mRNA 脱帽突变体限制了渗透压胁迫下 mRNA 的稳定。

An mRNA decapping mutant deficient in P body assembly limits mRNA stabilization in response to osmotic stress.

机构信息

Department of Molecular Biology, Umeå University, SE-901 87, Umeå, Sweden.

出版信息

Sci Rep. 2017 Mar 14;7:44395. doi: 10.1038/srep44395.

DOI:10.1038/srep44395

PMID:28290514

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5349606/

Abstract

Yeast is exposed to changing environmental conditions and must adapt its genetic program to provide a homeostatic intracellular environment. An important stress for yeast in the wild is high osmolarity. A key response to this stress is increased mRNA stability primarily by the inhibition of deadenylation. We previously demonstrated that mutations in decapping activators (edc3∆ lsm4∆C), which result in defects in P body assembly, can destabilize mRNA under unstressed conditions. We wished to examine whether mRNA would be destabilized in the edc3∆ lsm4∆C mutant as compared to the wild-type in response to osmotic stress, when P bodies are intense and numerous. Our results show that the edc3∆ lsm4∆C mutant limits the mRNA stability in response to osmotic stress, while the magnitude of stabilization was similar as compared to the wild-type. The reduced mRNA stability in the edc3∆ lsm4∆C mutant was correlated with a shorter PGK1 poly(A) tail. Similarly, the MFA2 mRNA was more rapidly deadenylated as well as significantly stabilized in the ccr4∆ deadenylation mutant in the edc3∆ lsm4∆C background. These results suggest a role for these decapping factors in stabilizing mRNA and may implicate P bodies as sites of reduced mRNA degradation.

摘要

酵母暴露于不断变化的环境条件下，必须适应其遗传程序，以提供一个稳定的细胞内环境。对于野生酵母来说，一个重要的压力是高渗透压。对此压力的一个关键反应是增加 mRNA 的稳定性，主要通过抑制脱腺苷酸化来实现。我们之前的研究表明，脱帽激活因子（edc3∆ lsm4∆C）的突变会导致 P 体组装缺陷，从而在未受应激的条件下使 mRNA 不稳定。我们希望研究在 edc3∆ lsm4∆C 突变体中，与野生型相比，在应对渗透胁迫时，P 体强烈且数量众多时，mRNA 是否会不稳定。我们的结果表明，edc3∆ lsm4∆C 突变体限制了 mRNA 在应对渗透胁迫时的稳定性，而稳定化的幅度与野生型相似。edc3∆ lsm4∆C 突变体中 mRNA 稳定性降低与 PGK1 多聚（A）尾变短有关。同样，在 edc3∆ lsm4∆C 背景下，MFA2 mRNA 在 ccr4∆ 脱腺苷酸化突变体中的脱腺苷酸化速度更快，并且稳定性显著提高。这些结果表明这些脱帽因子在稳定 mRNA 中发挥作用，并可能暗示 P 体是降低 mRNA 降解的部位。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2230/5349606/7062876efc1c/srep44395-f1.jpg

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一种缺乏 P 体组装能力的 mRNA 脱帽突变体限制了渗透压胁迫下 mRNA 的稳定。

An mRNA decapping mutant deficient in P body assembly limits mRNA stabilization in response to osmotic stress.

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