Transcription attenuation in bacteria: theme and variations.

Briefings in functional genomics & proteomics Pub Date : 2009-11-01 Epub Date: 2009-08-03 DOI:10.1093/bfgp/elp025

Magali Naville, Daniel Gautheret

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引用次数: 63

Abstract

Premature termination of transcription, or attenuation, is an efficient RNA-based regulatory strategy that is commonly used in bacterial organisms. Attenuators are generally located in the 5' untranslated regions of genes or operons and combine a Rho-independent terminator, controlling transcription, with an RNA element that senses specific environmental signals. A striking diversity of sensing elements enable regulation of gene expression in response to multiple environmental conditions, including temperature changes, availability of small metabolites (such as ions, amino acids, nucleobases or vitamins), or availability of macromolecules such as tRNAs and regulatory proteins. The wide distribution of attenuators suggests an early emergence among bacteria. However, attenuators also display a great mobility and lability, illustrated by a multiplicity of recent horizontal transfers and duplications. For these reasons, attenuation systems are of high interest both from a fundamental evolutionary perspective and for possible biotechnological applications.

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细菌的转录衰减:主题和变异。

转录的过早终止或衰减是一种有效的基于rna的调控策略，通常用于细菌生物体。衰减子通常位于基因或操纵子的5'非翻译区，并将rho非依赖性终止子与感知特定环境信号的RNA元件结合起来，控制转录。敏感元件的惊人多样性使基因表达调控能够响应多种环境条件，包括温度变化，小代谢物(如离子，氨基酸，核碱基或维生素)的可用性，或大分子(如trna和调节蛋白)的可用性。衰减剂的广泛分布表明在细菌中很早就出现了。然而，衰减器也显示出很大的移动性和不稳定性，最近的水平转移和重复的多样性说明了这一点。由于这些原因，衰减系统从基本进化的角度和可能的生物技术应用方面都具有很高的兴趣。

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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Briefings in functional genomics & proteomics

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