氨甲环酸A通过稳定mRNA与核糖体的相互作用来抑制翻译。

Amicoumacin a inhibits translation by stabilizing mRNA interaction with the ribosome.

作者信息

Polikanov Yury S, Osterman Ilya A, Szal Teresa, Tashlitsky Vadim N, Serebryakova Marina V, Kusochek Pavel, Bulkley David, Malanicheva Irina A, Efimenko Tatyana A, Efremenkova Olga V, Konevega Andrey L, Shaw Karen J, Bogdanov Alexey A, Rodnina Marina V, Dontsova Olga A, Mankin Alexander S, Steitz Thomas A, Sergiev Petr V

机构信息

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT 06520, USA; Howard Hughes Medical Institute, Yale University, New Haven, CT 06520, USA.

Lomonosov Moscow State University, Department of Chemistry and A.N. Belozersky Institute of Physico-Chemical Biology, 119992 Moscow, Russia.

出版信息

Mol Cell. 2014 Nov 20;56(4):531-40. doi: 10.1016/j.molcel.2014.09.020. Epub 2014 Oct 9.

DOI:10.1016/j.molcel.2014.09.020

PMID:25306919

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4253140/

Abstract

We demonstrate that the antibiotic amicoumacin A (AMI) is a potent inhibitor of protein synthesis. Resistance mutations in helix 24 of the 16S rRNA mapped the AMI binding site to the small ribosomal subunit. The crystal structure of bacterial ribosome in complex with AMI solved at 2.4 Å resolution revealed that the antibiotic makes contacts with universally conserved nucleotides of 16S rRNA in the E site and the mRNA backbone. Simultaneous interactions of AMI with 16S rRNA and mRNA and the in vivo experimental evidence suggest that it may inhibit the progression of the ribosome along mRNA. Consistent with this proposal, binding of AMI interferes with translocation in vitro. The inhibitory action of AMI can be partly compensated by mutations in the translation elongation factor G.

摘要

我们证明抗生素阿米卡星A（AMI）是一种有效的蛋白质合成抑制剂。16S rRNA第24螺旋中的耐药突变将AMI结合位点定位到小核糖体亚基。以2.4Å分辨率解析的与AMI复合的细菌核糖体晶体结构表明，该抗生素与E位点的16S rRNA普遍保守核苷酸以及mRNA主链发生接触。AMI与16S rRNA和mRNA的同时相互作用以及体内实验证据表明，它可能抑制核糖体沿mRNA的移动。与该提议一致，AMI的结合会干扰体外转位。AMI的抑制作用可通过翻译延伸因子G中的突变得到部分补偿。

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