翻译因子和RNA结合蛋白mRNA相互作用体支持更广泛的RNA调节子进行转录后控制。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-08-24 DOI:10.1016/j.jbc.2023.105195
Christopher J Kershaw, Michael G Nelson, Lydia M Castelli, Martin D Jennings, Jennifer Lui, David Talavera, Chris M Grant, Graham D Pavitt, Simon J Hubbard, Mark P Ashe
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引用次数: 0

摘要

翻译的调节为调节细胞蛋白质组提供了一种快速而直接的机制。在真核生物中,核糖体向信使核糖核酸募集的既定模型取决于一组保守的翻译起始因子。然而,与其他潜在的胞质命运相比,细胞如何协调和定义用于翻译的单个信使核糖核酸的选择,目前尚不清楚。我们之前已经发现单个信使核糖核酸和一系列翻译起始因子之间的相互作用存在显著差异。事实上,基于这些相互作用,信使核糖核酸可以分为不同的类别,为理解不同的翻译起始模式提供了一个框架。在这里,我们将这种方法扩展到包括参与形成信使核糖核酸细胞质命运的额外蛋白质的新的信使核糖核酸相互作用谱。这项工作定义了一组7个信使核糖核酸簇,基于它们与参与翻译和/或信使核糖核酸结合的12个因子的相互作用谱。信使核糖核酸簇具有共同的物理和功能特征,为相互作用谱提供了基本原理。此外,与来自大量RNA结合蛋白的mRNA相互作用谱的比较表明,在功能相关的mRNA的相互作用中存在明确的模式。因此,这项工作定义了可能协调功能相关蛋白质合成的全局细胞质信使核糖核酸结合模块。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Translation factor and RNA binding protein mRNA interactomes support broader RNA regulons for posttranscriptional control.

Translation factor and RNA binding protein mRNA interactomes support broader RNA regulons for posttranscriptional control.

Translation factor and RNA binding protein mRNA interactomes support broader RNA regulons for posttranscriptional control.

Translation factor and RNA binding protein mRNA interactomes support broader RNA regulons for posttranscriptional control.

The regulation of translation provides a rapid and direct mechanism to modulate the cellular proteome. In eukaryotes, an established model for the recruitment of ribosomes to mRNA depends upon a set of conserved translation initiation factors. Nevertheless, how cells orchestrate and define the selection of individual mRNAs for translation, as opposed to other potential cytosolic fates, is poorly understood. We have previously found significant variation in the interaction between individual mRNAs and an array of translation initiation factors. Indeed, mRNAs can be separated into different classes based upon these interactions to provide a framework for understanding different modes of translation initiation. Here, we extend this approach to include new mRNA interaction profiles for additional proteins involved in shaping the cytoplasmic fate of mRNAs. This work defines a set of seven mRNA clusters, based on their interaction profiles with 12 factors involved in translation and/or RNA binding. The mRNA clusters share both physical and functional characteristics to provide a rationale for the interaction profiles. Moreover, a comparison with mRNA interaction profiles from a host of RNA binding proteins suggests that there are defined patterns in the interactions of functionally related mRNAs. Therefore, this work defines global cytoplasmic mRNA binding modules that likely coordinate the synthesis of functionally related proteins.

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