生物分子水合作用的理论描述。A-DNA的应用。

Basic life sciences Pub Date : 1996-01-01 DOI:10.1007/978-1-4615-5847-7_26

A E Garcia, G Hummer, D M Soumpasis

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引用次数: 5

摘要

生物分子周围水分子的局部密度是利用均势力(PMF)展开计算得到的水中极性溶剂的两点和三点相关函数来构建的。作为一个简单的近似，生物分子中所有极性基团(包括带电基团)的水合作用都用散装水中的水合作用来表示，除了排除的体积效应外，非极性基团对水合作用的影响被忽略。通过分子动力学模拟计算了对和三重态相关函数。我们给出了具有[d(CG)5]2和[d(C5G5)]2序列的理想A-DNA分子结构水合作用的计算。我们发现这种方法可以准确地再现定向DNA纤维在中子衍射实验中观察到的A-DNA的水合模式(P. Langan et al.)。j . Biomol。结构体。医学杂志，10,489(1992))。

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Theoretical description of biomolecular hydration. Application to A-DNA.

The local density of water molecules around a biomolecule is constructed from calculated two- and three-points correlation functions of polar solvents in water using a Potential-of-Mean-Force (PMF) expansion. As a simple approximation, the hydration of all polar (including charged) groups in a biomolecule is represented by the hydration of water oxygen in bulk water, and the effect of non-polar groups on hydration are neglected, except for excluded volume effects. Pair and triplet correlation functions are calculated by molecular dynamics simulations. We present calculations of the structural hydration for ideal A-DNA molecules with sequences [d(CG)5]2 and [d(C5G5)]2. We find that this method can accurately reproduce the hydration patterns of A-DNA observed in neutron diffraction experiments on oriented DNA fibers (P. Langan et al. J. Biomol. Struct. Dyn., 10, 489 (1992)).

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Basic life sciences

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