从模拟的力诱导解链过程中重建势能函数。
Reconstructing potential energy functions from simulated force-induced unbinding processes.
作者信息
Balsera M, Stepaniants S, Izrailev S, Oono Y, Schulten K
机构信息
Beckman Institute and Department of Physics, University of Illinois, Urbana 61801, USA.
出版信息
Biophys J. 1997 Sep;73(3):1281-7. doi: 10.1016/S0006-3495(97)78161-X.
Abstract
One-dimensional stochastic models demonstrate that molecular dynamics simulations of a few nanoseconds can be used to reconstruct the essential features of the binding potential of macromolecules. This can be accomplished by inducing the unbinding with the help of external forces applied to the molecules, and discounting the irreversible work performed on the system by these forces. The fluctuation-dissipation theorem sets a fundamental limit on the precision with which the binding potential can be reconstructed by this method. The uncertainty in the resulting potential is linearly proportional to the irreversible component of work performed on the system during the simulation. These results provide an a priori estimate of the energy barriers observable in molecular dynamics simulations.
摘要
一维随机模型表明,几纳秒的分子动力学模拟可用于重建大分子结合势的基本特征。这可以通过在施加于分子的外力帮助下诱导解离,并减去这些力对系统所做的不可逆功来实现。涨落耗散定理为通过该方法重建结合势的精度设定了基本限制。所得势的不确定性与模拟过程中对系统所做的不可逆功的分量成正比。这些结果为先验估计分子动力学模拟中可观察到的能垒提供了依据。
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