Radiation-induced translational control of gene expression.

Translation (Austin, Tex.) Pub Date : 2016-12-01 eCollection Date: 2017-01-01 DOI:10.1080/21690731.2016.1265703

Amy Wahba, Stacey L Lehman, Philip J Tofilon

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Abstract

Radiation-induced gene expression has long been hypothesized to protect against cell death. Defining this process would provide not only insight into the mechanisms mediating cell survival after radiation exposure, but also a novel source of targets for radiosensitization. However, whereas the radiation-induced gene expression profiles using total cellular mRNA have been generated for cell lines as well as normal tissues, with few exception, the changes in mRNA do not correlate with changes in the corresponding protein. The traditional approach to profiling gene expression, i.e., using total cellular RNA, does not take into account posttranscriptional regulation. In this review, we describe the use of gene expression profiling of polysome-bound RNA to establish that radiation modifies gene expression via translational control. Because changes in polysome-bound mRNA correlate with changes in protein, analysis of the translational profiles provides a unique data set for investigating the mechanisms mediating cellular radioresponse.

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辐射诱导的基因表达转化控制。

长期以来，人们一直假设辐射诱导的基因表达可防止细胞死亡。对这一过程进行定义，不仅可以深入了解辐射照射后细胞存活的机制，还能为放射增敏提供新的靶点。然而，虽然利用细胞总 mRNA 生成了细胞系和正常组织的辐射诱导基因表达谱，但除少数例外，mRNA 的变化与相应蛋白质的变化并不相关。传统的基因表达谱分析方法，即使用细胞总 RNA，没有考虑转录后调控。在这篇综述中，我们介绍了利用多聚体结合 RNA 的基因表达谱分析来确定辐射是通过翻译控制来改变基因表达的。由于多聚体结合的 mRNA 的变化与蛋白质的变化相关，因此对翻译曲线的分析为研究细胞放射反应的机制提供了独特的数据集。

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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Translation (Austin, Tex.)

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