溶剂化作用：如何通过分配和溶剂化实验获得微观能量。

Solvation: how to obtain microscopic energies from partitioning and solvation experiments.

作者信息

Chan H S, Dill K A

机构信息

Department of Pharmaceutical Chemistry, University of California San Francisco 94143-1204, USA.

出版信息

Annu Rev Biophys Biomol Struct. 1997;26:425-59. doi: 10.1146/annurev.biophys.26.1.425.

DOI:10.1146/annurev.biophys.26.1.425

PMID:9241426

Abstract

Oil-water partitioning, solubilities, and vapor pressure experiments on small-molecule compounds are often used as models to obtain energies for biomolecular modeling. For example, measured partition coefficients, K, are often inserted into the formula -RT in K to obtain quantities thought to represent microscopic contact interaction free energies. We review evidence here that this procedure does not always give microscopically meaningful free energies. Some partitioning processes, particularly involving polymeric solvents such as octanol or hexadecane, are governed not only by translational entropies and contact interactions, but also by free energies resulting from changes in the conformations of the polymer chains upon solute insertion. The Flory-Huggins theory is more suitable for these situations than is the classical approach. We discuss the physical bases for both approaches.

摘要

小分子化合物的油水分配、溶解度和蒸气压实验常被用作模型，以获取用于生物分子建模的能量。例如，测得的分配系数K通常被代入公式-RTlnK中，以获得被认为代表微观接触相互作用自由能的量。我们在此回顾证据，表明该过程并不总是能给出具有微观意义的自由能。一些分配过程，特别是涉及诸如辛醇或十六烷等聚合物溶剂的过程，不仅受平移熵和接触相互作用的支配，还受溶质插入后聚合物链构象变化所产生的自由能的支配。对于这些情况，弗洛里-哈金斯理论比经典方法更适用。我们讨论了这两种方法的物理基础。

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溶剂化作用：如何通过分配和溶剂化实验获得微观能量。

Solvation: how to obtain microscopic energies from partitioning and solvation experiments.

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