振动子系统分析:一种在简谐极限下探测自由能和相关性的方法。
Vibrational subsystem analysis: A method for probing free energies and correlations in the harmonic limit.
作者信息
Woodcock H Lee, Zheng Wenjun, Ghysels An, Shao Yihan, Kong Jing, Brooks Bernard R
机构信息
Laboratory of Computational Biology, National Heart Lung and Blood Institute, National Institutes of Health, Bethesda, Maryland 20892, USA.
出版信息
J Chem Phys. 2008 Dec 7;129(21):214109. doi: 10.1063/1.3013558.
Abstract
A new vibrational subsystem analysis (VSA) method is presented for coupling global motion to a local subsystem while including the inertial effects of the environment. The premise of the VSA method is a partitioning of a system into a smaller region of interest and a usually larger part referred to as environment. This method allows the investigation of local-global coupling, a more accurate estimation of vibrational free energy contribution for parts of a large system, and the elimination of the "tip effect" in elastic network model calculations. Additionally, the VSA method can be used as a probe of specific degrees of freedom that may contribute to free energy differences. The VSA approach can be employed in many ways, but it will likely be most useful for estimating activation free energies in QM/MM reaction path calculations. Four examples are presented to demonstrate the utility of this method.
摘要
提出了一种新的振动子系统分析(VSA)方法,用于将全局运动与局部子系统耦合,同时考虑环境的惯性效应。VSA方法的前提是将系统划分为一个较小的感兴趣区域和一个通常较大的部分,称为环境。该方法允许研究局部-全局耦合,更准确地估计大型系统各部分的振动自由能贡献,并消除弹性网络模型计算中的“末端效应”。此外,VSA方法可作为特定自由度的探针,这些自由度可能导致自由能差异。VSA方法可以有多种应用方式,但它可能在估计QM/MM反应路径计算中的活化自由能方面最有用。给出了四个例子来说明该方法的实用性。
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