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修饰16S rRNA鸟嘌呤966位点的甲基转移酶:功能鉴定与三级结构

Methyltransferase that modifies guanine 966 of the 16 S rRNA: functional identification and tertiary structure.

作者信息

Lesnyak Dmitry V, Osipiuk Jerzy, Skarina Tatiana, Sergiev Petr V, Bogdanov Alexey A, Edwards Aled, Savchenko Alexei, Joachimiak Andrzej, Dontsova Olga A

机构信息

Department of Bioinformatics and Bioengineering, Moscow State University, Moscow 119992, Russia.

出版信息

J Biol Chem. 2007 Feb 23;282(8):5880-7. doi: 10.1074/jbc.M608214200. Epub 2006 Dec 21.

DOI:10.1074/jbc.M608214200
PMID:17189261
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2885967/
Abstract

N(2)-Methylguanine 966 is located in the loop of Escherichia coli 16 S rRNA helix 31, forming a part of the P-site tRNA-binding pocket. We found yhhF to be a gene encoding for m(2)G966 specific 16 S rRNA methyltransferase. Disruption of the yhhF gene by kanamycin resistance marker leads to a loss of modification at G966. The modification could be rescued by expression of recombinant protein from the plasmid carrying the yhhF gene. Moreover, purified m(2)G966 methyltransferase, in the presence of S-adenosylomethionine (AdoMet), is able to methylate 30 S ribosomal subunits that were purified from yhhF knock-out strain in vitro. The methylation is specific for G966 base of the 16 S rRNA. The m(2)G966 methyltransferase was crystallized, and its structure has been determined and refined to 2.05A(.) The structure closely resembles RsmC rRNA methyltransferase, specific for m(2)G1207 of the 16 S rRNA. Structural comparisons and analysis of the enzyme active site suggest modes for binding AdoMet and rRNA to m(2)G966 methyltransferase. Based on the experimental data and current nomenclature the protein expressed from the yhhF gene was renamed to RsmD. A model for interaction of RsmD with ribosome has been proposed.

摘要

N(2)-甲基鸟嘌呤966位于大肠杆菌16 S rRNA螺旋31的环中,构成P位点tRNA结合口袋的一部分。我们发现yhhF是一个编码m(2)G966特异性16 S rRNA甲基转移酶的基因。用卡那霉素抗性标记破坏yhhF基因会导致G966处的修饰缺失。通过携带yhhF基因的质粒表达重组蛋白可以挽救这种修饰。此外,纯化的m(2)G966甲基转移酶在S-腺苷甲硫氨酸(AdoMet)存在的情况下,能够在体外将从yhhF基因敲除菌株中纯化的30 S核糖体亚基甲基化。这种甲基化对16 S rRNA的G966碱基具有特异性。m(2)G966甲基转移酶已结晶,其结构已确定并精修至2.05埃。该结构与对16 S rRNA的m(2)G1207具有特异性的RsmC rRNA甲基转移酶非常相似。酶活性位点的结构比较和分析表明了AdoMet和rRNA与m(2)G966甲基转移酶结合的模式。根据实验数据和当前命名法,将yhhF基因表达的蛋白质重新命名为RsmD。已经提出了RsmD与核糖体相互作用的模型。

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