热展开模拟过程中天然涨落的选择性激发：以马心细胞色素c为例进行研究。

Selective excitation of native fluctuations during thermal unfolding simulations: horse heart cytochrome c as a case study.

作者信息

Roccatano Danilo, Daidone Isabella, Ceruso Marc-Antoine, Bossa Cecilia, Nola Alfredo Di

机构信息

Dipartimento di Chimica, Ingegneria Chimica e Materiali Università degli studi, 67010 L'Aquila, Italy.

出版信息

Biophys J. 2003 Mar;84(3):1876-83. doi: 10.1016/S0006-3495(03)74995-9.

DOI:10.1016/S0006-3495(03)74995-9

PMID:12609889

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1302756/

Abstract

The effect of temperature on the activation of native fluctuation motions during molecular dynamics unfolding simulations of horse heart cytochrome c has been studied. Essential dynamics analysis has been used to analyze the preferred directions of motion along the unfolding trajectories obtained by high temperature simulations. The results of this study have evidenced a clear correlation between the directions of the deformation motions that occur in the first stage of the unfolding process and few specific essential motions characterizing the 300 K dynamics of the protein. In particular, one of those collective motions, involved in the fluctuation of a loop region, is specifically excited in the thermal denaturation process, becoming progressively dominant during the first 500 ps of the unfolding simulations. As further evidence, the essential dynamics sampling performed along this collective motion has shown a tendency of the protein to promptly unfold. According to these results, the mechanism of thermal induced denaturation process involves the selective excitation of one or few specific equilibrium collective motions.

摘要

研究了温度对马心细胞色素c分子动力学去折叠模拟过程中天然涨落运动激活的影响。利用主成分动力学分析来分析沿着高温模拟获得的去折叠轨迹的优先运动方向。该研究结果证明，在去折叠过程第一阶段发生的变形运动方向与表征蛋白质300K动力学的少数特定主成分运动之间存在明显的相关性。特别地，参与环区域涨落的那些集体运动之一，在热变性过程中被特异性激发，在去折叠模拟的前500皮秒内逐渐占主导地位。作为进一步的证据，沿着这种集体运动进行的主成分动力学采样表明蛋白质有迅速去折叠的趋势。根据这些结果，热诱导变性过程的机制涉及一个或几个特定平衡集体运动的选择性激发。

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