核糖体A位点的U2552甲基化是翻译准确性的负调节因子。

U2552 methylation at the ribosomal A-site is a negative modulator of translational accuracy.

作者信息

Widerak Magdalena, Kern Renée, Malki Abderrahim, Richarme Gilbert

机构信息

Molecules de Stress Institut Jacques Monod, Université Paris 7, 2, Place Jussieu, 75005 Paris, France.

出版信息

Gene. 2005 Feb 28;347(1):109-14. doi: 10.1016/j.gene.2004.12.025.

DOI:10.1016/j.gene.2004.12.025

PMID:15715963

Abstract

We have recently identified RrmJ, the first encoded protein of the rrmJ-ftsH heat shock operon, as being the Um(2552) methyltransferase of 23S rRNA, and reported that rrmJ-deficient strains exhibit growth defects, reduced translation rates and reduced stability of 70S ribosomes. U2552 is an ubiquitously methylated residue. It belongs to the A loop of 23S RNA which is an essential component of the ribosome peptidyltransferase centre and interacts directly with aminoacyl(A)-site tRNA. In the present study, we show that a lack of U2552 methylation, obtained in rrmJ-deficient mutants, results in a decrease in programmed +1 and -1 translational frameshifing and a decrease in readthrough of UAA and UGA stop codons. The increased translational accuracy of rrmJ-deficient strains suggests that the interaction between aminoacyl-tRNA and U2552 is important for selection of the correct tRNA at the ribosomal A site, and supports the idea that translational accuracy in vivo is optimal rather than maximal, thus pointing to the participation of recoding events in the normal cell physiology.

摘要

我们最近鉴定出RrmJ，它是rrmJ-ftsH热休克操纵子的首个编码蛋白，是23S rRNA的Um(2552)甲基转移酶，并报道rrmJ缺陷型菌株表现出生长缺陷、翻译速率降低以及70S核糖体稳定性降低。U2552是一个普遍存在甲基化的残基。它属于23S RNA的A环，而A环是核糖体肽基转移酶中心的重要组成部分，并且直接与氨酰基（A）位点的tRNA相互作用。在本研究中，我们表明，rrmJ缺陷型突变体中U2552甲基化的缺失导致程序性+1和-1翻译移码减少，以及UAA和UGA终止密码子通读减少。rrmJ缺陷型菌株翻译准确性的提高表明氨酰基-tRNA与U2552之间的相互作用对于在核糖体A位点选择正确的tRNA很重要，并支持体内翻译准确性是最佳而非最大的观点，从而表明重编码事件参与正常细胞生理过程。

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核糖体A位点的U2552甲基化是翻译准确性的负调节因子。

U2552 methylation at the ribosomal A-site is a negative modulator of translational accuracy.

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