在EF4介导的反向易位过程中核糖体上揭示的一种新的tRNA中间体。

A new tRNA intermediate revealed on the ribosome during EF4-mediated back-translocation.

作者信息

Connell Sean R, Topf Maya, Qin Yan, Wilson Daniel N, Mielke Thorsten, Fucini Paola, Nierhaus Knud H, Spahn Christian M T

机构信息

Institut für Medizinische Physik und Biophysik, Charite-Universitätsmedizin Berlin, Ziegelstrasse 5-9, 10117-Berlin, Germany.

出版信息

Nat Struct Mol Biol. 2008 Sep;15(9):910-5. doi: 10.1038/nsmb.1469.

DOI:10.1038/nsmb.1469

PMID:19172743

Abstract

EF4 (LepA) is an almost universally conserved translational GTPase in eubacteria. It seems to be essential under environmental stress conditions and has previously been shown to back-translocate the tRNAs on the ribosome, thereby reverting the canonical translocation reaction. In the current work, EF4 was directly visualized in the process of back-translocating tRNAs by single-particle cryo-EM. Using flexible fitting methods, we built a model of ribosome-bound EF4 based on the cryo-EM map and a recently published unbound EF4 X-ray structure. The cryo-EM map establishes EF4 as a noncanonical elongation factor that interacts not only with the elongating ribosome, but also with the back-translocated tRNA in the A-site region, which is present in a previously unseen, intermediate state and deviates markedly from the position of a canonical A-tRNA. Our results, therefore, provide insight into the underlying structural principles governing back-translocation.

摘要

EF4（LepA）是真细菌中一种几乎普遍保守的翻译GTP酶。在环境应激条件下它似乎是必不可少的，并且先前已被证明能使核糖体上的tRNA反向移位，从而逆转经典的移位反应。在当前的工作中，通过单颗粒冷冻电镜直接观察到了EF4使tRNA反向移位的过程。使用灵活拟合方法，我们基于冷冻电镜图谱和最近发表的游离EF4的X射线结构构建了核糖体结合型EF4的模型。冷冻电镜图谱证实EF4是一种非经典延伸因子，它不仅与延伸中的核糖体相互作用，还与A位点区域反向移位的tRNA相互作用，该tRNA处于先前未见的中间状态，且明显偏离经典A位tRNA的位置。因此，我们的结果为控制反向移位的潜在结构原理提供了见解。

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在EF4介导的反向易位过程中核糖体上揭示的一种新的tRNA中间体。

A new tRNA intermediate revealed on the ribosome during EF4-mediated back-translocation.

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