酶的稳定性。

Journal of applied biochemistry Pub Date : 1985-02-01
M P Tombs
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引用次数: 0

摘要

酶可以通过共价和非共价结构的改变而失去活性。在前者中,蛋白酶的攻击和小活性分子(如氧)的修饰是重要的。构象稳定性可以通过热变性曲线的中点温度Tm来衡量,许多酶的体内周转与Tm有关。通过测量Tm和Cp,可以对展开过程中的H、T、S和G进行评估。强调了d(G)/dT的重要性,因为它可以用来评估最大稳定温度。氨基酸序列与δ Gmax之间没有简单的关系,突变的影响也不能准确预测。折叠的可逆性是稳定性的重要因素。Tm与胍展开中点浓度[G]1/2相关,是酶稳定性最有用的预测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stability of enzymes.

Enzymes can lose activity through covalent and noncovalent structure alterations. In the former, protease attack and modification by small active molecules such as oxygen are important. Conformational stability can be measured by Tm, the midpoint temperature of the thermal denaturation curve, and turnover in vivo of a number of enzymes correlates with Tm. Measurement of Tm and delta Cp leads to evaluation of delta H, T delta S, and delta G for the unfolding process. The importance of d(delta G)/dT is emphasized since it can be used to evaluate the temperature of maximum stability. There is no simple relationship between amino acid sequence and delta Gmax, nor can the effect of mutation be accurately forecast. Reversibility of folding is an important factor in stability. Tm correlates with [G]1/2, the midpoint guanidine unfolding concentration, and is the most useful predictive quantity for enzyme stability.

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