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通过磷酸骨架振动激发探测RNA熔解时水合模式的变化

Change of Hydration Patterns upon RNA Melting Probed by Excitations of Phosphate Backbone Vibrations.

作者信息

Kundu Achintya, Schauss Jakob, Fingerhut Benjamin P, Elsaesser Thomas

机构信息

Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie, Berlin 12489, Germany.

出版信息

J Phys Chem B. 2020 Mar 19;124(11):2132-2138. doi: 10.1021/acs.jpcb.0c01474. Epub 2020 Mar 11.

DOI:10.1021/acs.jpcb.0c01474
PMID:32101008
Abstract

The water hydration shell has a decisive impact on the structural and functional properties of RNA. Changes of the RNA structure upon melting and in biochemical processes are accompanied by a change of hydration patterns, a process that is barely characterized. To discern hydration geometries around the backbone phosphate groups of an RNA double helix at the molecular level, we combine two-dimensional infrared spectroscopy of phosphate vibrations with theoretical simulations. There are three distinct coexisting hydration motifs of the RNA A-helix: an ordered chain-like arrangement of water molecules with links between neighboring phosphate groups, separate local hydration shells of up to six water molecules, and hydrated phosphate/counterion contact pairs. RNA disordering upon melting is connected with a transition from predominantly ordered water structures to local hydration shells around phosphate units. Structural fluctuations are dominated by librational water motions occurring on a 300 fs time scale, without exchange between hydration motifs.

摘要

水合壳层对RNA的结构和功能特性具有决定性影响。RNA在解链和生化过程中结构的变化伴随着水合模式的改变,而这一过程几乎未得到充分表征。为了在分子水平上识别RNA双螺旋主链磷酸基团周围的水合几何结构,我们将磷酸振动的二维红外光谱与理论模拟相结合。RNA A-螺旋存在三种不同的共存水合基序:相邻磷酸基团之间通过水分子形成有序链状排列、多达六个水分子形成的独立局部水合壳层以及水合磷酸/抗衡离子接触对。解链时RNA的无序化与从主要有序的水结构向磷酸单元周围局部水合壳层的转变有关。结构波动主要由300飞秒时间尺度上发生的水分子摆动运动主导,水合基序之间无交换。

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