关于蛋白质折叠中焓和熵收敛温度的起源

On the origin of the enthalpy and entropy convergence temperatures in protein folding.

作者信息

Fu L, Freire E

机构信息

Department of Biology and Biophysics, Johns Hopkins University, Baltimore, MD 21218.

出版信息

Proc Natl Acad Sci U S A. 1992 Oct 1;89(19):9335-8. doi: 10.1073/pnas.89.19.9335.

DOI:10.1073/pnas.89.19.9335

PMID:1329094

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC50121/

Abstract

Temperature dependence of the thermodynamics of folding/unfolding for cytochrome c has been determined as a function of moderate [0-10% (vol/vol)] concentrations of methanol. Heat capacity change (delta Cp) for unfolding decreases with increased concentrations of methanol, consistent with a higher solvent hydrophobicity. For a given transition temperature, this effect results in higher experimental enthalpy (delta H) and entropy (delta S) changes with increased methanol concentrations. When the enthalpy or entropy data sets obtained at different methanol concentrations are plotted as a function of temperature, they are seen to converge and assume common values around 100 degrees C for delta H and 112 degrees C for delta S. These convergence temperatures are similar to those obtained for different proteins in aqueous solution when delta H and delta S are normalized with respect to number of residues. It has been previously hypothesized that these convergence temperatures correspond to the temperatures at which the hydrophobic contributions to delta H and delta S are zero; the results presented here agree with this viewpoint.

摘要

细胞色素c折叠/去折叠热力学的温度依赖性已被确定为甲醇中等浓度[0 - 10%（体积/体积）]的函数。随着甲醇浓度的增加，去折叠的热容变化（ΔCp）降低，这与更高的溶剂疏水性一致。对于给定的转变温度，这种效应导致随着甲醇浓度的增加，实验焓变（ΔH）和熵变（ΔS）更高。当将在不同甲醇浓度下获得的焓或熵数据集绘制为温度的函数时，可以看到它们会收敛，并在约100℃时对于ΔH和112℃时对于ΔS呈现共同的值。当ΔH和ΔS相对于残基数进行归一化时，这些收敛温度与在水溶液中不同蛋白质获得的温度相似。以前曾假设这些收敛温度对应于疏水对ΔH和ΔS的贡献为零的温度；这里给出的结果与这一观点一致。

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