一般真核 RNA 降解因子的转录组图谱。

Transcriptome maps of general eukaryotic RNA degradation factors.

机构信息

Quantitative and Computational Biology, Max-Planck-Institute for Biophysical Chemistry, Göttingen, Germany.

Department of Molecular Biology, Max-Planck-Institute for Biophysical Chemistry, Göttingen, Germany.

出版信息

Elife. 2019 May 28;8:e47040. doi: 10.7554/eLife.47040.

DOI:10.7554/eLife.47040

PMID:31135339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6570525/

Abstract

RNA degradation pathways enable RNA processing, the regulation of RNA levels, and the surveillance of aberrant or poorly functional RNAs in cells. Here we provide transcriptome-wide RNA-binding profiles of 30 general RNA degradation factors in the yeast . The profiles reveal the distribution of degradation factors between different RNA classes. They are consistent with the canonical degradation pathway for closed-loop forming mRNAs after deadenylation. Modeling based on mRNA half-lives suggests that most degradation factors bind intact mRNAs, whereas decapping factors are recruited only for mRNA degradation, consistent with decapping being a rate-limiting step. Decapping factors preferentially bind mRNAs with non-optimal codons, consistent with rapid degradation of inefficiently translated mRNAs. Global analysis suggests that the nuclear surveillance machinery, including the complexes Nrd1/Nab3 and TRAMP4, targets aberrant nuclear RNAs and processes snoRNAs.

摘要

RNA 降解途径使 RNA 能够进行加工，调节 RNA 水平，并在细胞中监测异常或功能不良的 RNA。在这里，我们提供了在酵母中 30 种通用 RNA 降解因子的转录组范围的 RNA 结合谱。这些图谱揭示了降解因子在不同 RNA 类别之间的分布。它们与封闭环形成 mRNA 在去腺苷酸化后进行经典降解途径一致。基于 mRNA 半衰期的建模表明，大多数降解因子与完整的 mRNA 结合，而脱帽因子仅在 mRNA 降解时被招募，这与脱帽是限速步骤一致。脱帽因子优先与非最佳密码子的 mRNA 结合，这与快速降解翻译效率低的 mRNA 一致。全面分析表明，包括 Nrd1/Nab3 和 TRAMP4 复合物在内的核监督机制靶向异常核 RNA 并加工 snoRNA。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/df41/6570525/009245725841/elife-47040-fig1.jpg

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一般真核 RNA 降解因子的转录组图谱。

Transcriptome maps of general eukaryotic RNA degradation factors.

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