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脯氨酸基碳环连接酶催化乙醛对芳香醛的对映选择性羟醛加成反应。

Enantioselective Aldol Addition of Acetaldehyde to Aromatic Aldehydes Catalyzed by Proline-Based Carboligases.

作者信息

Saifuddin Mohammad, Guo Chao, Biewenga Lieuwe, Saravanan Thangavelu, Charnock Simon J, Poelarends Gerrit J

机构信息

Department of Chemical and Pharmaceutical Biology, Groningen Research Institute of Pharmacy, University of Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, The Netherlands.

Prozomix Ltd., Station Court, Haltwhistle, Northumberland NE49 9HN, U.K.

出版信息

ACS Catal. 2020 Feb 21;10(4):2522-2527. doi: 10.1021/acscatal.0c00039. Epub 2020 Jan 28.

DOI:10.1021/acscatal.0c00039
PMID:32117575
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7045556/
Abstract

Aromatic β-hydroxyaldehydes, 1,3-diols, and α,β-unsaturated aldehydes are valuable precursors to biologically active natural products and drug molecules. Herein we report the biocatalytic aldol condensation of acetaldehyde with various aromatic aldehydes to give a number of aromatic α,β-unsaturated aldehydes using a previously engineered variant of 4-oxalocrotonate tautomerase [4-OT(M45T/F50A)] as carboligase. Moreover, an efficient one-pot two-step chemoenzymatic route toward chiral aromatic 1,3-diols has been developed. This one-pot chemoenzymatic strategy successfully combined a highly enantioselective aldol addition step catalyzed by a proline-based carboligase [4-OT(M45T/F50A) or TAUT015] with a chemical reduction step to convert enzymatically prepared aromatic β-hydroxyaldehydes into the corresponding 1,3-diols with high optical purity (e.r. up to >99:1) and in good isolated yield (51-92%). These developed (chemo)enzymatic methodologies offer alternative synthetic choices to prepare a variety of important drug precursors.

摘要

芳香族β-羟基醛、1,3-二醇和α,β-不饱和醛是具有生物活性的天然产物和药物分子的重要前体。在此,我们报道了使用先前工程改造的4-草酰巴豆酸互变异构酶变体[4-OT(M45T/F50A)]作为羧化酶,将乙醛与各种芳香醛进行生物催化羟醛缩合反应,得到多种芳香族α,β-不饱和醛。此外,还开发了一种高效的一锅两步化学酶法合成手性芳香族1,3-二醇的路线。这种一锅法化学酶策略成功地将基于脯氨酸的羧化酶[4-OT(M45T/F50A)或TAUT015]催化的高对映选择性羟醛加成步骤与化学还原步骤相结合,将酶促制备的芳香族β-羟基醛转化为相应的1,3-二醇,具有高光学纯度(对映体过量高达>99:1)和良好的分离产率(51-92%)。这些已开发的(化学)酶法方法为制备各种重要的药物前体提供了替代合成选择。

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