由脱帽引发的RNA降解在很大程度上独立于初始的去腺苷酸化过程。

RNA degradation triggered by decapping is largely independent of initial deadenylation.

作者信息

Audebert Léna, Feuerbach Frank, Zedan Mostafa, Schürch Alexandra P, Decourty Laurence, Namane Abdelkader, Permal Emmanuelle, Weis Karsten, Badis Gwenaël, Saveanu Cosmin

机构信息

Institut Pasteur, Université Paris Cité, CNRS UMR3525, Genetics of Macromolecular Interactions, F-75015, Paris, France.

Sorbonne Université, Collège doctoral, F75005, Paris, France.

出版信息

EMBO J. 2024 Dec;43(24):6496-6524. doi: 10.1038/s44318-024-00250-x. Epub 2024 Sep 25.

DOI:10.1038/s44318-024-00250-x

PMID:39322754

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11649920/

Abstract

RNA stability, important for eukaryotic gene expression, is thought to depend on deadenylation rates, with shortened poly(A) tails triggering decapping and 5' to 3' degradation. In contrast to this view, recent large-scale studies indicate that the most unstable mRNAs have, on average, long poly(A) tails. To clarify the role of deadenylation in mRNA decay, we first modeled mRNA poly(A) tail kinetics and mRNA stability in yeast. Independent of deadenylation rates, differences in mRNA decapping rates alone were sufficient to explain current large-scale results. To test the hypothesis that deadenylation and decapping are uncoupled, we used rapid depletion of decapping and deadenylation enzymes and measured changes in mRNA levels, poly(A) length and stability, both transcriptome-wide and with individual reporters. These experiments revealed that perturbations in poly(A) tail length did not correlate with variations in mRNA stability. Thus, while deadenylation may be critical for specific regulatory mechanisms, our results suggest that for most yeast mRNAs, it is not critical for mRNA decapping and degradation.

摘要

RNA稳定性对真核基因表达至关重要，其被认为取决于去腺苷酸化速率，聚腺苷酸（poly(A)）尾巴缩短会引发脱帽和5'至3'降解。与这一观点相反，最近的大规模研究表明，最不稳定的mRNA平均而言具有较长的poly(A)尾巴。为了阐明去腺苷酸化在mRNA衰变中的作用，我们首先对酵母中的mRNA poly(A)尾巴动力学和mRNA稳定性进行了建模。独立于去腺苷酸化速率，仅mRNA脱帽速率的差异就足以解释当前的大规模研究结果。为了检验去腺苷酸化和脱帽是解偶联的这一假设，我们使用快速消耗脱帽和去腺苷酸化酶的方法，并在全转录组范围以及使用单个报告基因的情况下测量了mRNA水平、poly(A)长度和稳定性的变化。这些实验表明，poly(A)尾巴长度的扰动与mRNA稳定性的变化不相关。因此，虽然去腺苷酸化可能对特定的调控机制至关重要，但我们的结果表明，对于大多数酵母mRNA而言，它对mRNA脱帽和降解并不关键。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2c5e/11649920/c9cdfae2c6e1/44318_2024_250_Fig1_HTML.jpg

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由脱帽引发的RNA降解在很大程度上独立于初始的去腺苷酸化过程。

RNA degradation triggered by decapping is largely independent of initial deadenylation.

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