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密度泛函紧束缚水平下β-环糊精在水溶液中的结构与动力学

Structure and dynamics of beta-cyclodextrin in aqueous solution at the density-functional tight binding level.

作者信息

Heine Thomas, Dos Santos Hélio F, Patchkovskii Serguei, Duarte Hélio A

机构信息

Physikalische Chemie, TU Dresden, D-01062 Dresden, Germany.

出版信息

J Phys Chem A. 2007 Jul 5;111(26):5648-54. doi: 10.1021/jp068988s. Epub 2007 Apr 3.

Abstract

Structure and dynamics of beta-cyclodextrin (beta-CyD), a prototype host for inclusion compounds of biological interest, is investigated by means of density-functional based tight-binding molecular dynamics (MD) simulations. The computational protocol is benchmarked against available experimental data and first-principles calculations. Solvent-solute interactions, including the diffusion into and dwell time of the solvent in the cavity of beta-CyD, are studied with a hybrid QM/MM method. Comparison of MD simulations of beta-CyD in the gas phase and in water shows that the solvent reduces the flexibility of the structure framework, while the terminal hydroxyl groups become more flexible and are embedded in a network of hydrogen bonds. Our 160 ps MD simulations, provide enough sampling to discuss the dynamics of the water inside the cavity. The dwell time of the encapsulated water molecule has a wide distribution with a peak at 70 fs. Surprisingly, despite only the 17% difference between the "top" and "bottom" opening area of the beta-CyD cone, 64% of the water molecules enter the cavity through the slightly bigger "bottom" aperture.

摘要

通过基于密度泛函的紧束缚分子动力学(MD)模拟,研究了β-环糊精(β-CyD)的结构与动力学,β-环糊精是一种具有生物学意义的包合物的原型主体。计算方法以现有的实验数据和第一性原理计算为基准进行了验证。采用混合量子力学/分子力学(QM/MM)方法研究了溶剂-溶质相互作用,包括溶剂在β-环糊精空腔内的扩散和停留时间。β-环糊精在气相和水中的MD模拟比较表明,溶剂降低了结构框架的灵活性,而末端羟基变得更加灵活,并嵌入氢键网络中。我们的160皮秒MD模拟提供了足够的采样来讨论空腔内水的动力学。被包封水分子的停留时间分布广泛,峰值出现在70飞秒处。令人惊讶的是,尽管β-环糊精圆锥体“顶部”和“底部”开口面积仅相差17%,但64%的水分子通过稍大的“底部”孔径进入空腔。

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