利用参考相互作用位点模型近似研究生物大分子构象柔性的液体理论

IF 1.5 Q2 PHYSICS, MULTIDISCIPLINARY
Physics Pub Date : 2023-12-13 DOI:10.3390/physics5040073
Alexey Danilkovich, Dmitry Tikhonov
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引用次数: 0

摘要

流体理论用于修改参考相互作用位点模型(RISM)近似的积分方程。对其在生物大分子溶解研究中的适用性进行了评估。与传统的 RISM 应用不同,新的积分方程包含一个只需计算一次的分子内相关矩阵。这样,我们就可以省去重复求解 RISM 方程的工作,以及耗时的对分子轨迹上每个时间点的数值进行平均的工作。这种新方法可以评估溶解分子的构象瞬变,同时考虑溶解的影响。我们估算了催产素(一种肽类激素)的自由能,以及使用传统 RISM 和新型 RISM 平均矩阵(RISM-AM)方法计算的自组装离子肽复合物的自由能。使用 RISM-AM 计算的催产素自由能显示,统计误差不超过 RISM 方程中溶液的标准平均值所产生的误差。尽管使用带有伦纳德-琼斯斥力校正的 RISM-AM 计算离子肽自组装的结果有些模糊,但这种方法仍可用于快速分子动力学分析。由于所需的计算能力至少可以降低两个数量级,因此中矩阵 RISM 确实是研究大分子构象以及相应溶解效应的一种非常适用的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theory of Liquids for Studying the Conformational Flexibility of Biomolecules with Reference Interaction Site Model Approximation
The theory of fluids is used to modify the integral equations of the reference interaction site model (RISM) approximation. Its applicability to the study of biomolecules solvation is evaluated. Unlike traditional RISM applications, the new integral equation contains an intramolecular correlation matrix that only needs to be calculated once. This allows us to bypass the effort of repeatedly solving RISM equations and the time-consuming averaging of values obtained for each time point of a molecular trajectory. The new approach allows for the assessment of the conformational transience of dissolved molecules while taking into account the effects of solvation. The free energy of oxytocin, which is a peptide hormone, as well as self-assembled ionic peptide complexes calculated using both the traditional RISM and the new RISM with average matrix (RISM-AM) approach are estimated. The free energy of oxytocin calculated using RISM-AM shows that the statistical error does not exceed the error obtained by standard averaging of solutions in the RISM equation. Despite the somewhat ambiguous results obtained for ionic peptide self-assembly using RISM-AM with Lennard–Jones repulsion correction, this method can still be considered applicable for fast molecular dynamics analysis. Since the required computational power can be reduced by at least two orders of magnitude, the medium-matrix RISM is indeed a highly applicable tool for studying macromolecular conformations as well as corresponding solvation effects.
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来源期刊
Physics
Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
6.20%
发文量
0
审稿时长
10 weeks
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