The In Situ Enzymatic Screening (ISES) Approach to Reaction Discovery and Catalyst Identification

Q3 Biochemistry, Genetics and Molecular Biology

Current protocols in chemical biology Pub Date : 2018-02-13 DOI:10.1002/cpch.30

Robert A. Swyka, David B. Berkowitz

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引用次数: 2

Abstract

The importance of discovering new chemical transformations and/or optimizing catalytic combinations has led to a flurry of activity in reaction screening. The in situ enzymatic screening (ISES) approach described here utilizes biological tools (enzymes/cofactors) to advance chemistry. The protocol interfaces an organic reaction layer with an adjacent aqueous layer containing reporting enzymes that act upon the organic reaction product, giving rise to a spectroscopic signal. ISES allows the experimentalist to rapidly glean information on the relative rates of a set of parallel organic/organometallic reactions under investigation, without the need to quench the reactions or draw aliquots. In certain cases, the real-time enzymatic readout also provides information on sense and magnitude of enantioselectivity and substrate specificity. This article contains protocols for single-well (relative rate) and double-well (relative rate/enantiomeric excess) ISES, in addition to a colorimetric ISES protocol and a miniaturized double-well procedure. © 2017 by John Wiley & Sons, Inc.

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原位酶筛选(ISES)方法用于反应发现和催化剂鉴定。

发现新的化学转化和/或优化催化组合的重要性导致了反应筛选中的一系列活动。本文描述的原位酶筛选（ISES）方法利用生物工具（酶/辅因子）来推进化学。该方案将有机反应层与相邻的水层连接，该水层含有作用于有机反应产物的报告酶，从而产生光谱信号。ISES允许实验者快速收集一组正在研究的平行有机/有机金属反应的相对速率信息，而无需骤冷反应或抽取等分试样。在某些情况下，实时酶读数还提供了关于对映选择性和底物特异性的意义和大小的信息。除了比色ISES方案和小型化双孔程序外，本文还包含单孔（相对速率）和双孔（相对比率/对映体过量）ISES方案。©2017 John Wiley&Sons，股份有限公司版权所有。

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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Current protocols in chemical biology Biochemistry, Genetics and Molecular Biology-Biophysics

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