无义介导的RNA降解——一种调控基因表达的开关和旋钮

Nonsense-mediated RNA decay--a switch and dial for regulating gene expression.

作者信息

Smith Jenna E, Baker Kristian E

机构信息

Center for RNA Molecular Biology, Case Western Reserve University, Cleveland, OH, USA.

出版信息

Bioessays. 2015 Jun;37(6):612-23. doi: 10.1002/bies.201500007. Epub 2015 Mar 27.

DOI:10.1002/bies.201500007

PMID:25820233

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4454373/

Abstract

Nonsense-mediated RNA decay (NMD) represents an established quality control checkpoint for gene expression that protects cells from consequences of gene mutations and errors during RNA biogenesis that lead to premature termination during translation. Characterization of NMD-sensitive transcriptomes has revealed, however, that NMD targets not only aberrant transcripts but also a broad array of mRNA isoforms expressed from many endogenous genes. NMD is thus emerging as a master regulator that drives both fine and coarse adjustments in steady-state RNA levels in the cell. Importantly, while NMD activity is subject to autoregulation as a means to maintain homeostasis, modulation of the pathway by external cues provides a means to reprogram gene expression and drive important biological processes. Finally, the unanticipated observation that transcripts predicted to lack protein-coding capacity are also sensitive to this translation-dependent surveillance mechanism implicates NMD in regulating RNA function in new and diverse ways.

摘要

无义介导的RNA衰变（NMD）是一种既定的基因表达质量控制检查点，可保护细胞免受基因突变以及RNA生物合成过程中导致翻译提前终止的错误所带来的影响。然而，对NMD敏感转录组的表征显示，NMD不仅靶向异常转录本，还靶向许多内源基因表达的多种mRNA异构体。因此，NMD正成为一种主要调节因子，驱动细胞内稳态RNA水平的精细和粗略调节。重要的是，虽然NMD活性作为维持体内平衡的一种手段受到自动调节，但外部信号对该途径的调节提供了一种重新编程基因表达并驱动重要生物学过程的手段。最后，一个意外的发现是，预计缺乏蛋白质编码能力的转录本也对这种依赖翻译的监测机制敏感，这表明NMD以新的、多样的方式参与调节RNA功能。

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