A novel approach to the evaluation of hydrophobicity of food proteins

Nahrung-food Pub Date : 1998-08-01 DOI:10.1002/(SICI)1521-3803(199808)42:03/04<179::AID-FOOD179>3.3.CO;2-2

A. N. Danilenko, V. T. Dianova, E. E. Braudo, T. Henning, Ralf Mothes, K. Schwenke

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引用次数: 6

Abstract

Different approaches used in the determination of surface hydrophobicity of proteins based on measurements of their partial heat capacity are discussed. They include the determination of the hydration heat capacity of a protein both in the unfolded and the native state and the determination of the increase in accessible to the solvent non-polar surface at the denaturation. The hydration heat capacity of a protein characterizes its net surface hydrophobicity or hydrophobic-hydrophilic balance. There was evaluated surface hydrophobicity of faba bean legumin and the product of its limited proteolysis with trypsin - legumin-T. It is shown that legumin-T in the native state has a higher hydration heat capacity and, hence, highcr net surfacc hydrophobicity than legumin, whereas hydration heat capacity of both proteins in the unfolded state does not differ significantly. The denaturation of legumin is accompanied by a grcater increase in accessible to the solvent non-polar surface than the denaturation of legumin-T. This differencc predetermines the higher conformational stability of legumin-T at temperatures below 310K compared to legumin.

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评价食品蛋白疏水性的新方法

不同的方法用于测定表面疏水性的蛋白质基于测量他们的部分热容进行了讨论。它们包括蛋白质在未折叠状态和天然状态下的水化热容的测定，以及变性时溶剂非极性表面可及性的增加的测定。蛋白质的水合热容表征其净表面疏水性或疏水-亲水性平衡。对蚕豆豆素及其与胰蛋白酶-豆素- t有限蛋白水解产物的表面疏水性进行了评价。结果表明，天然状态下的豆科蛋白t比豆科蛋白具有更高的水合热容，因此具有更高的净表面疏水性，而两种蛋白在未折叠状态下的水合热容没有显著差异。豆豆变性时，其溶剂非极性表面的可及性比豆豆- t变性时明显增加。这种差异预先决定了豆科蛋白- t在低于310K的温度下比豆科蛋白具有更高的构象稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nahrung-food

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