分子模拟下外力作用下的蛋白质折叠动力学

Protein folding kinetics under force from molecular simulation.

作者信息

Best Robert B, Hummer Gerhard

机构信息

Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892-0520, USA.

出版信息

J Am Chem Soc. 2008 Mar 26;130(12):3706-7. doi: 10.1021/ja0762691. Epub 2008 Feb 29.

DOI:10.1021/ja0762691

PMID:18307341

Abstract

Despite a large number of studies on the mechanical unfolding of proteins, there are still relatively few successful attempts to refold proteins in the presence of a stretching force. We explore refolding kinetics under force using simulations of a coarse-grained model of ubiquitin. The effects of force on the folding kinetics can be fitted by a one-dimensional Kramers theory of diffusive barrier crossing, resulting in physically meaningful parameters for the height and location of the folding activation barrier. By comparing parameters obtained from pulling in different directions, we find that the unfolded state plays a dominant role in the refolding kinetics. Our findings explain why refolding becomes very slow at even moderate pulling forces and suggest how it could be practically observed in experiments at higher forces.

摘要

尽管对蛋白质的机械展开已有大量研究，但在存在拉伸力的情况下成功使蛋白质重新折叠的尝试仍相对较少。我们使用泛素的粗粒度模型模拟来探索在力作用下的重新折叠动力学。力对折叠动力学的影响可以用扩散势垒穿越的一维克莱默斯理论来拟合，从而得到折叠活化势垒高度和位置的具有物理意义的参数。通过比较从不同方向拉伸获得的参数，我们发现未折叠状态在重新折叠动力学中起主导作用。我们的研究结果解释了为什么即使在适度的拉伸力下重新折叠也会变得非常缓慢，并提出了如何在更高力的实验中实际观察到它的方法。

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Protein folding kinetics under force from molecular simulation.分子模拟下外力作用下的蛋白质折叠动力学

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分子模拟下外力作用下的蛋白质折叠动力学

Protein folding kinetics under force from molecular simulation.

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