基于界面活化的脂解酶分子生物印迹法

Interfacial activation-based molecular bioimprinting of lipolytic enzymes.

作者信息

Mingarro I, Abad C, Braco L

机构信息

Départament de Bioqumica i Biologia Molecular, Facultat de Ciències Biològiques, Universitat de València, Spain.

出版信息

Proc Natl Acad Sci U S A. 1995 Apr 11;92(8):3308-12. doi: 10.1073/pnas.92.8.3308.

DOI:10.1073/pnas.92.8.3308

PMID:7724558

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC42155/

Abstract

Interfacial activation-based molecular (bio)-imprinting (IAMI) has been developed to rationally improve the performance of lipolytic enzymes in nonaqueous environments. The strategy combinedly exploits (i) the known dramatic enhancement of the protein conformational rigidity in a water-restricted milieu and (ii) the reported conformational changes associated with the activation of these enzymes at lipid-water interfaces, which basically involves an increased substrate accessibility to the active site and/or an induction of a more competent catalytic machinery. Six model enzymes have been assayed in several model reactions in nonaqueous media. The results, rationalized in light of the present biochemical and structural knowledge, show that the IAMI approach represents a straightforward, versatile method to generate manageable, activated (kinetically trapped) forms of lipolytic enzymes, providing under optimal conditions nonaqueous rate enhancements of up to two orders of magnitude. It is also shown that imprintability of lipolytic enzymes depends not only on the nature of the enzyme but also on the "quality" of the interface used as the template.

摘要

基于界面活化的分子（生物）印迹技术（IAMI）已被开发出来，用于合理提高脂解酶在非水环境中的性能。该策略综合利用了（i）已知的在水受限环境中蛋白质构象刚性的显著增强，以及（ii）报道的与这些酶在脂质-水界面活化相关的构象变化，这主要涉及底物对活性位点的可及性增加和/或诱导更有效的催化机制。六种模型酶已在非水介质中的多个模型反应中进行了测定。根据目前的生化和结构知识进行合理化分析的结果表明，IAMI方法是一种直接、通用的方法，可生成可控的、活化（动力学捕获）形式的脂解酶，在最佳条件下可使非水反应速率提高多达两个数量级。研究还表明，脂解酶的可印迹性不仅取决于酶的性质，还取决于用作模板的界面的“质量”。

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