核糖体在 tRNA 校对步骤中的结构重排。

Structural rearrangements of the ribosome at the tRNA proofreading step.

机构信息

Département de Biologie et de Génomique Structurales, Institut de Génétique et de Biologie Moléculaire et Cellulaire, Illkirch, France.

出版信息

Nat Struct Mol Biol. 2010 Sep;17(9):1072-8. doi: 10.1038/nsmb.1880. Epub 2010 Aug 8.

DOI:10.1038/nsmb.1880

PMID:20694005

Abstract

Discrimination of tRNA on the ribosome occurs in two consecutive steps: initial selection and proofreading. Here we propose a proofreading mechanism based on comparison of crystal structures of the 70S ribosome with an empty A site or with the A site occupied by uncharged cognate or near-cognate tRNA. We observe that ribosomal proteins S13, S19, L16, L25, L27 and L31 are actively involved in the proofreading of tRNA. We suggest that proofreading begins with the monitoring of the entire anticodon loop of tRNA by nucleotides from 16S rRNA (helices 18 and 44) of the small subunit and 23S rRNA (helix 69) of the large subunit with involvement of magnesium ions. Subsequently, the elbow region is scanned by rRNA (helices 38 and 89) and proteins from the large subunit determining whether to accommodate the acceptor end of tRNA in the peptidyl transferase center or not.

摘要

核糖体上的 tRNA 识别分为两个连续的步骤：初始选择和校对。在此，我们提出了一种基于比较 70S 核糖体的晶体结构与空 A 位或带有不带电荷的对应或近对应 tRNA 的 A 位的校对机制。我们观察到核糖体蛋白 S13、S19、L16、L25、L27 和 L31 积极参与 tRNA 的校对。我们认为，校对始于小亚基的 16S rRNA（螺旋 18 和 44）和大亚基的 23S rRNA（螺旋 69）的核苷酸对 tRNA 整个反密码子环的监测，涉及镁离子。随后，通过 rRNA（螺旋 38 和 89）和来自大亚基的蛋白质扫描 elbow 区域，以确定是否将 tRNA 的接受末端容纳在肽基转移酶中心中。

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Visualization of the hybrid state of tRNA binding promoted by spontaneous ratcheting of the ribosome.

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核糖体在 tRNA 校对步骤中的结构重排。

Structural rearrangements of the ribosome at the tRNA proofreading step.

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