定向进化中的新策略控制蛋白质的选择性和稳定性:以有机催化酶为例。

M T Reetz
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引用次数: 0

摘要

功能酶作为有机反应催化剂的定向进化已成为蛋白质工程的一种有力方法。这包括作者开创的对映体选择性酶的定向进化。近年来,不对称催化这一新领域的挑战已经转移到解决比以前更有效地探测蛋白质序列空间的问题。迭代饱和诱变(ISM)是解决这一关键问题的一种方法。本章综述了ISM的概念及其在控制酶对映体选择性和热稳定性方面的应用,特别是那些具有有机催化机制的酶。说明性的例子包括脂肪酶、baeyer - villigerase和环氧化物水解酶的定向进化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Controlling the selectivity and stability of proteins by new strategies in directed evolution: the case of organocatalytic enzymes.

The directed evolution of functional enzymes as catalysts in organic reactions has emerged as a powerful method of protein engineering. This includes the directed evolution of enantioselective enzymes as pioneered by the author. In recent years the challenges in this new area of asymmetric catalysis has shifted to solving the problem of probing protein sequence space more efficiently than before. Iterative saturation mutagenesis (ISM) is one way of addressing this crucial question. This chapter reviews the concept of ISM and its application in controlling the enantioselectivity and thermostability of enzymes, specifically those that have an organocatalytic mechanism. Illustrative examples include the directed evolution of lipases, Baeyer-Villigerases and epoxide hydrolases.

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