热流变学复杂非线性Adam-Gibbs模型在水合蛋白质玻璃化转变至分子运动中的应用。

Application of the thermorheologically complex nonlinear Adam-Gibbs model for the glass transition to molecular motion in hydrated proteins.

作者信息

Hodge Ian M

机构信息

Department of Physics, Rochester Institute of Technology, New York, USA.

出版信息

Biophys J. 2006 Aug 1;91(3):993-5. doi: 10.1529/biophysj.106.080796. Epub 2006 May 5.

DOI:10.1529/biophysj.106.080796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1563767/

Abstract

The nonlinear thermorheologically complex Adam Gibbs (extended "Scherer-Hodge") model for the glass transition is applied to enthalpy relaxation data reported by Sartor, Mayer, and Johari for hydrated methemoglobin. A sensible range in values for the average localized activation energy is obtained (100-200 kJ mol(-1)). The standard deviation in the inferred Gaussian distribution of activation energies, computed from the reported KWW beta-parameter, is approximately 30% of the average, consistent with the suggestion that some relaxation processes in hydrated proteins have exceptionally low activation energies.

摘要

将用于玻璃化转变的非线性热流变复杂亚当·吉布斯（扩展的“谢勒 - 霍奇”）模型应用于萨托尔、迈耶和乔哈里报道的水合高铁血红蛋白的焓松弛数据。得到了平均局部活化能的合理取值范围（100 - 200 kJ mol⁻¹）。根据报道的柯西 - 威廉姆斯 - 瓦茨（KWW）β参数计算出的活化能推断高斯分布的标准偏差约为平均值的30%，这与水合蛋白质中的一些弛豫过程具有异常低的活化能这一观点一致。

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本文引用的文献

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Incorporation of nonlinear thermorheological complexity into the phenomenologies of structural relaxation.将非线性热流变复杂性纳入结构弛豫现象学中。

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