利用二维核超豪瑟效应光谱验证CHARMM27对核酸的力场

生物物理化学(英文) Pub Date : 2013-05-24 DOI:10.4236/JBPC.2013.42008

Kirill Zinovjev, E. Liepinsh

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引用次数: 5

摘要

核磁共振波谱学为验证分子动力学模拟提供了一种强有力的方法，因为它提供了溶液中分子结构和动力学的信息。我们利用CHARMM27对4个回文寡核苷酸的电场进行了10 ns的动力学模拟，并利用全松弛矩阵形式将结果与实验noesi数据进行了比较。四种分子的理论与实验数据的相关系数在0.82 ~ 0.98之间，证实了所选力场的高质量，为识别力场缺陷提供了有效依据。因此，我们观察到对脱氧核糖构象平衡的不满意处理，这导致了在MD轨迹中能量有利的C3'-末端构象的过度代表。我们开发的基于NMR noesi光谱数据的力场验证方法适用于广泛的分子体系和合适的力场。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Validation of the CHARMM27 force field for nucleic acids using 2D nuclear overhauser effect spectroscopy

Nuclear magnetic resonance spectroscopy offers a powerful method for validation of molecular dynamics simulations as it provides information on the molecular structure and dynamics in solution. We performed 10 ns MD simulations using the CHARMM27 force field of four palindromic oligonucleotides and compared the results with experimental NOESY data using the full relaxation matrix formalism. The correlation coefficients between theoretical and experimental data for the four molecular species under study ranged from 0.82 to 0.98 confirming the high quality of the selected force field and providing a valid basis for the identification of force field imperfections. Hence, we observed an unsatisfactory treatment of deoxyribose conformational equilibrium, which resulted in the overrepresentation of the energetically favorable C3'-endo conformation in the MD trajectory. Our developed approach for force field validation based on NMR NOESY spectral data is applicable to a wide range of molecular systems and appropriate force fields.

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生物物理化学(英文)

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144