Mechanistic Dissection of RNA-Binding Proteins in Regulated Gene Expression at Chromatin Levels.

Jia-Yu Chen, Do-Hwan Lim, Xiang-Dong Fu
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Abstract

Eukaryotic genomes are known to prevalently transcribe diverse classes of RNAs, virtually all of which, including nascent RNAs from protein-coding genes, are now recognized to have regulatory functions in gene expression, suggesting that RNAs are both the products and the regulators of gene expression. Their functions must enlist specific RNA-binding proteins (RBPs) to execute their regulatory activities, and recent evidence suggests that nearly all biochemically defined chromatin regions in the human genome, whether defined for gene activation or silencing, have the involvement of specific RBPs. Interestingly, the boundary between RNA- and DNA-binding proteins is also melting, as many DNA-binding proteins traditionally studied in the context of transcription are able to bind RNAs, some of which may simultaneously bind both DNA and RNA to facilitate network interactions in three-dimensional (3D) genome. In this review, we focus on RBPs that function at chromatin levels, with particular emphasis on their mechanisms of action in regulated gene expression, which is intended to facilitate future functional and mechanistic dissection of chromatin-associated RBPs.

从机制上剖析 RNA 结合蛋白在染色质水平上调控基因表达的作用。
众所周知,真核生物基因组普遍转录各种类型的 RNA,几乎所有这些 RNA(包括来自蛋白编码基因的新生 RNA)现在都被认为在基因表达中具有调控功能,这表明 RNA 既是基因表达的产物,也是基因表达的调控因子。它们的功能必须借助特定的 RNA 结合蛋白(RBPs)来执行,最近的证据表明,人类基因组中几乎所有生化定义的染色质区域,无论是基因激活还是沉默,都有特定 RBPs 的参与。有趣的是,RNA 结合蛋白和 DNA 结合蛋白之间的界限也在消融,因为许多传统上在转录背景下研究的 DNA 结合蛋白也能结合 RNA,其中一些可能同时结合 DNA 和 RNA,以促进三维(3D)基因组中的网络相互作用。在这篇综述中,我们将重点关注在染色质水平发挥作用的 RBPs,特别强调它们在调控基因表达中的作用机制,旨在促进未来对染色质相关 RBPs 的功能和机理进行剖析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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