通过后处理分子动力学轨迹预测拥挤效应的方法：应用于HIV-1蛋白酶的构象动力学

Method to Predict Crowding Effects by Postprocessing Molecular Dynamics Trajectories: Application to the Flap Dynamics of HIV-1 Protease.

作者信息

Qin Sanbo, Minh David D L, McCammon J Andrew, Zhou Huan-Xiang

出版信息

J Phys Chem Lett. 2010 Jan 7;1(1):107-110. doi: 10.1021/jz900023w. Epub 2009 Nov 9.

DOI:10.1021/jz900023w

PMID:20228897

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2837415/

Abstract

The internal dynamics of proteins inside of cells may be affected by the crowded intracellular environments. Here, we test a novel approach to simulations of crowding, in which simulations in the absence of crowders are postprocessed to predict crowding effects, against the direct approach of simulations in the presence of crowders. The effects of crowding on the flap dynamics of HIV-1 protease predicted by the postprocessing approach are found to agree well with those calculated by the direct approach. The postprocessing approach presents distinct advantages over the direct approach in terms of accuracy and speed and is expected to have broad impact on atomistic simulations of macromolecular crowding.

摘要

细胞内蛋白质的内部动力学可能会受到细胞内拥挤环境的影响。在此，我们测试了一种模拟拥挤的新方法，即将无拥挤剂情况下的模拟进行后处理以预测拥挤效应，与有拥挤剂情况下的直接模拟方法进行对比。结果发现，通过后处理方法预测的拥挤对HIV-1蛋白酶瓣片动力学的影响与直接方法计算的结果非常吻合。后处理方法在准确性和速度方面相对于直接方法具有明显优势，预计将对大分子拥挤的原子模拟产生广泛影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/67cc/2837415/35c8576d5fc7/jz-2009-00023w_0002.jpg

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通过后处理分子动力学轨迹预测拥挤效应的方法：应用于HIV-1蛋白酶的构象动力学

Method to Predict Crowding Effects by Postprocessing Molecular Dynamics Trajectories: Application to the Flap Dynamics of HIV-1 Protease.

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