苯甲醛裂解酶通过同时卡罗利吉化和动力学拆分催化的非对映选择性 C-C 键形成。

Benzaldehyde lyase-catalyzed diastereoselective C-C bond formation by simultaneous carboligation and kinetic resolution.

机构信息

Institut für Technische und Makromolekulare Chemie (ITMC), RWTH Aachen University, Worringerweg 1, 52074 Aachen, Germany.

出版信息

Org Biomol Chem. 2013 Mar 28;11(12):2000-4. doi: 10.1039/c2ob27344f.

DOI:10.1039/c2ob27344f

PMID:23280121

Abstract

Enzymes create chiral microenvironments that may simultaneously generate several stereogenic centers in the same catalytic cycle, broadening the possibilities of biocatalysis. Benzaldehyde lyase (BAL) affords highly diastereoselective α-hydroxy-ketones by simultaneously performing ligation and kinetic resolution of a racemic aldehyde. Thus, to the well-known enantioselective BAL-carboligation of aldehydes (C-C bond formation), another property, namely diastereoselectivity, is added in this paper for the first time.

摘要

酶可以创造手性微环境，在手性环境中，在同一个催化循环中可能会同时生成多个立体中心，从而拓宽生物催化的可能性。苯甲醛裂解酶 (BAL) 通过同时进行外消旋醛的连接和动力学拆分，生成高度非对映选择性的α-羟基酮。因此，本文首次在众所周知的 BAL-醛卡洛利吉反应（C-C 键形成）的对映选择性基础上，增加了另一个特性，即非对映选择性。

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苯甲醛裂解酶通过同时卡罗利吉化和动力学拆分催化的非对映选择性 C-C 键形成。

Benzaldehyde lyase-catalyzed diastereoselective C-C bond formation by simultaneous carboligation and kinetic resolution.

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