核糖体动力学:从原子结构建模到低温电子显微镜图的见解。

Kakoli Mitra, Joachim Frank
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引用次数: 137

摘要

随着高分辨率组件x射线结构的出现和逐步改进的拟合算法,单粒子冷冻电子显微镜(cryo-EM)是在现象学和越来越多的分子水平上研究大分子机器动力学的首选方法。Cryo-EM揭示了核糖体在翻译的四个步骤中的结构:起始,延伸,终止和再循环。对核糖体准原子细节的低温电镜重建的解释揭示了核糖体不仅使用RNA催化化学反应,而且作为远距离信号转导的手段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ribosome dynamics: insights from atomic structure modeling into cryo-electron microscopy maps.

Single-particle cryo-electron microscopy (cryo-EM) is the method of choice for studying the dynamics of macromolecular machines both at a phenomenological and, increasingly, at the molecular level, with the advent of high-resolution component X-ray structures and of progressively improving fitting algorithms. Cryo-EM has shed light on the structure of the ribosome during the four steps of translation: initiation, elongation, termination, and recycling. Interpretation of cryo-EM reconstructions of the ribosome in quasi-atomic detail reveals a picture in which the ribosome uses RNA not only to catalyze chemical reactions, but also as a means for signal transduction over large distances.

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