Proline versus charge concept for protein stabilization against proteolytic attack.

Protein engineering Pub Date : 2003-12-01 DOI:10.1093/protein/gzg136

Yvonne Markert, Jens Köditz, Renate Ulbrich-Hofmann, Ulrich Arnold

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引用次数: 36

Abstract

The virtue of the so-called 'proline concept' and the 'charge concept' for stabilizing protease-susceptible regions of a protein structure was compared on bovine pancreatic ribonuclease A. Alanine 20 and serine 21, both of which are located in a loop that is susceptible to the unspecific proteases subtilisin Carlsberg, subtilisin BPN', proteinase K and elastase, were replaced with proline or lysine by site-directed mutagenesis. The rate constant of proteolysis was decreased by up to three orders of magnitude for the proline mutants depending on the site of the mutation and the protease used. In contrast, substitution by lysine increased the proteolytic resistance by only one order of magnitude characterizing the 'proline concept' as superior to the 'charge concept'. Although the four applied proteases are considered to be unspecific, the degree of stabilization of the ribonuclease molecule varied considerably, indicating the impact of individual differences in their substrate specificity on the proteolytic resistance and degradation pathway of the target protein.

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脯氨酸与电荷的概念，蛋白质稳定的蛋白质水解攻击。

在牛胰腺核糖核酸酶a上比较了所谓的“脯氨酸概念”和“电荷概念”在稳定蛋白质结构的蛋白酶敏感区域方面的优点。丙氨酸20和丝氨酸21都位于对非特异性蛋白酶如枯草杆菌(Carlsberg)、枯草杆菌(subtilisin BPN)、蛋白酶K和弹性酶敏感的环中，通过定点诱变被脯氨酸或赖氨酸取代。根据突变位点和所用蛋白酶的不同，脯氨酸突变体的蛋白水解速率常数降低了3个数量级。相比之下，赖氨酸替代只增加了一个数量级的蛋白水解抗性，这表明“脯氨酸概念”优于“电荷概念”。虽然这四种应用的蛋白酶被认为是非特异性的，但核糖核酸酶分子的稳定程度差异很大，这表明它们的底物特异性的个体差异对目标蛋白的蛋白水解抗性和降解途径的影响。

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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Protein engineering

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