解析编码RNA适应性的运动模式。

Resolving the motional modes that code for RNA adaptation.

作者信息

Zhang Qi, Sun Xiaoyan, Watt Eric D, Al-Hashimi Hashim M

机构信息

Department of Chemistry and Biophysics Research Division, University of Michigan, 930 North University Avenue, Ann Arbor, MI 48109, USA.

出版信息

Science. 2006 Feb 3;311(5761):653-6. doi: 10.1126/science.1119488.

DOI:10.1126/science.1119488

PMID:16456078

Abstract

Using a domain elongation strategy, we decoupled internal motions in RNA from overall rotational diffusion. This allowed us to site-specifically resolve a manifold of motional modes in two regulatory RNAs from HIV-1 with the use of nuclear magnetic resonance spin relaxation methods. Base and sugar librations vary on a picosecond time scale and occur within helical domains that move collectively at diffusion-limited nanosecond time scales. Pivot points are short, functionally important, and highly mobile internal loops. These spontaneous changes in RNA conformation correlate quantitatively with those that follow adaptive recognition of diverse targets. Thus, ligands may stabilize existing RNA conformations rather than inducing new ones.

摘要

通过一种结构域延伸策略，我们将RNA中的内部运动与整体旋转扩散解耦。这使我们能够利用核磁共振自旋弛豫方法，位点特异性地解析来自HIV-1的两种调控RNA中的多种运动模式。碱基和核糖的摆动在皮秒时间尺度上变化，发生在以扩散限制的纳秒时间尺度集体移动的螺旋结构域内。枢纽点是短的、功能重要且高度动态的内部环。RNA构象的这些自发变化与对不同靶标的适应性识别后的变化在数量上相关。因此，配体可能稳定现有的RNA构象，而不是诱导新的构象。

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解析编码RNA适应性的运动模式。

Resolving the motional modes that code for RNA adaptation.

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