细胞质内含子保留、功能、剪接与哨兵RNA假说
Cytoplasmic intron retention, function, splicing, and the sentinel RNA hypothesis.
作者信息
Buckley Peter T, Khaladkar Mugdha, Kim Junhyong, Eberwine James
机构信息
Department of Pharmacology, Perelman School of Medicine and the School of Arts and Sciences, University of Pennsylvania, Philadelphia, PA, USA.
出版信息
Wiley Interdiscip Rev RNA. 2014 Mar-Apr;5(2):223-30. doi: 10.1002/wrna.1203. Epub 2013 Nov 4.
Abstract
Cytoplasmic splicing represents a newly emerging level of transcriptional regulation adding to the molecular diversity of mammalian cells. As examples of this noncanonical form of transcript processing are discovered, the evidence of its importance to normal cellular function grows. Work from a number of groups using a variety of cell types is steadily identifying a large number of transcripts (and soon to be even larger as genome-wide analyses of retained introns across a number of cellular phenotypes are currently underway) that undergo some level of regulated endogenous extranuclear splicing as part of their normal biosynthetic pathway. Here, we review the existing data covering cytoplasmic retained intron sequences and suggest that such sequences may be a component of 'sentinel RNA' that serves to generate transcript variants within the cytoplasm as well as a source for RNA-based secondary messages.
摘要
细胞质剪接代表了一种新出现的转录调控水平,它增加了哺乳动物细胞的分子多样性。随着这种非经典转录本加工形式的例子被发现,其对正常细胞功能重要性的证据也在增加。许多研究小组使用多种细胞类型进行的工作正在稳步识别大量转录本(随着目前对多种细胞表型中保留内含子的全基因组分析正在进行,这个数量很快还会更多),这些转录本在其正常生物合成途径中会经历一定程度的受调控的内源性核外剪接。在这里,我们回顾了涵盖细胞质保留内含子序列的现有数据,并提出这些序列可能是“哨兵RNA”的一个组成部分,它有助于在细胞质中产生转录本变体,也是基于RNA的二级信息的来源。
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本文引用的文献
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