嗜热栖热菌23S rRNA保守螺旋69中的突变，这些突变影响卷曲霉素抗性，但不影响转录后修饰。

Mutations in conserved helix 69 of 23S rRNA of Thermus thermophilus that affect capreomycin resistance but not posttranscriptional modifications.

作者信息

Monshupanee Tanakarn, Gregory Steven T, Douthwaite Stephen, Chungjatupornchai Wipa, Dahlberg Albert E

机构信息

Department of Molecular Biology, Cell Biology and Biochemistry, Brown University, Providence, RI 02912, USA.

出版信息

J Bacteriol. 2008 Dec;190(23):7754-61. doi: 10.1128/JB.00984-08. Epub 2008 Sep 19.

DOI:10.1128/JB.00984-08

PMID:18805973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2583624/

Abstract

Translocation during the elongation phase of protein synthesis involves the relative movement of the 30S and 50S ribosomal subunits. This movement is the target of tuberactinomycin antibiotics. Here, we describe the isolation and characterization of mutants of Thermus thermophilus selected for resistance to the tuberactinomycin antibiotic capreomycin. Two base substitutions, A1913U and mU1915G, and a single base deletion, DeltamU1915, were identified in helix 69 of 23S rRNA, a structural element that forms part of an interribosomal subunit bridge with the decoding center of 16S rRNA, the site of previously reported capreomycin resistance base substitutions. Capreomycin resistance in other bacteria has been shown to result from inactivation of the TlyA methyltransferase which 2'-O methylates C1920 of 23S rRNA. Inactivation of the tlyA gene in T. thermophilus does not affect its sensitivity to capreomycin. Finally, none of the mutations in helix 69 interferes with methylation at C1920 or with pseudouridylation at positions 1911 and 1917. We conclude that the resistance phenotype is a consequence of structural changes introduced by the mutations.

摘要

蛋白质合成延伸阶段的转位涉及30S和50S核糖体亚基的相对移动。这种移动是结核放线菌素类抗生素的作用靶点。在此，我们描述了嗜热栖热菌对结核放线菌素类抗生素卷曲霉素耐药的突变体的分离和特性。在23S rRNA的69螺旋中鉴定出两个碱基替换，A1913U和mU1915G，以及一个单碱基缺失，DeltamU1915，69螺旋是一个结构元件，它与16S rRNA的解码中心形成核糖体亚基间桥的一部分，该位点是先前报道的卷曲霉素耐药碱基替换位点。在其他细菌中，卷曲霉素耐药性已被证明是由TlyA甲基转移酶失活导致的，该酶使23S rRNA的C1920发生2'-O甲基化。嗜热栖热菌中tlyA基因的失活并不影响其对卷曲霉素的敏感性。最后，69螺旋中的突变均不干扰C1920处的甲基化或1911和1917位点处的假尿苷化。我们得出结论，耐药表型是由这些突变引入的结构变化导致的。

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本文引用的文献

rRNA modifications in an intersubunit bridge of the ribosome strongly affect both ribosome biogenesis and activity.核糖体亚基间桥中的rRNA修饰对核糖体生物合成和活性均有强烈影响。

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Pseudouridylation of helix 69 of 23S rRNA is necessary for an effective translation termination.23S rRNA螺旋69位的假尿苷化对于有效的翻译终止是必要的。

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Selection for intragenic suppressors of lethal 23S rRNA mutations in Escherichia coli identifies residues important for ribosome assembly and function.对大肠杆菌中致死性23S rRNA突变的基因内抑制子进行筛选，确定了对核糖体组装和功能重要的残基。

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