Solvent caging of internal motions in myoglobin at low temperaturesThis paper was originally presented as a poster at the Faraday Discussion 122 meeting.

PhysChemComm Pub Date : 2003-02-05 DOI:10.1039/b209839c
A. Tournier, Jiancong Xu, Jeremy C. Smith
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引用次数: 4

Abstract

Experimental and simulation studies have reported the presence of a transition in the internal dynamics of proteins at 220 K. This transition has been correlated with the onset of activity in several proteins. The role of the solvent in the dynamical transition has been the subject of increased attention. Here simulation techniques are used to distinguish dynamical features inherent to the protein energy landscape from those induced by the surrounding solvent. The present results indicate that the protein dynamical transition primarily affects the side-chains on the outer layers of the protein. Moreover, the results indicate that the solvent restrains protein motions at low temperatures.
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低温下肌红蛋白内部运动的溶剂笼化这篇论文最初是作为Faraday Discussion 122会议的海报发表的。
实验和模拟研究已经报道了蛋白质在220 K时内部动力学的转变。这种转变与几种蛋白质活性的开始有关。溶剂在动力学转变中的作用已引起越来越多的关注。在这里,模拟技术被用来区分蛋白质能量景观固有的动态特征和由周围溶剂引起的动态特征。目前的结果表明,蛋白质的动力学转变主要影响蛋白质外层的侧链。此外,结果表明,溶剂抑制蛋白质在低温下的运动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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