依赖吡咯喹啉醌的脱氢酶实现外消旋烯丙醇的一锅双酶对映收敛生物催化胺化反应。

PQQ-dependent Dehydrogenase Enables One-pot Bi-enzymatic Enantio-convergent Biocatalytic Amination of Racemic -Allylic Alcohols.

作者信息

Gandomkar Somayyeh, Rocha Raquel, Sorgenfrei Frieda A, Montero Lía Martínez, Fuchs Michael, Kroutil Wolfgang

机构信息

Institute of Chemistry University of Graz, NAWI Graz 8010 Graz Austria.

Austrian Centre of Industrial Biotechnology c/o University of Graz 8010 Graz Austria.

出版信息

ChemCatChem. 2021 Mar 5;13(5):1290-1293. doi: 10.1002/cctc.202001707. Epub 2020 Dec 22.

DOI:10.1002/cctc.202001707

PMID:33777250

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7986696/

Abstract

The asymmetric amination of secondary racemic allylic alcohols bears several challenges like the reactivity of the bi-functional substrate/product as well as of the α,β-unsaturated ketone intermediate in an oxidation-reductive amination sequence. Heading for a biocatalytic amination cascade with a minimal number of enzymes, an oxidation step was implemented relying on a single PQQ-dependent dehydrogenase with low enantioselectivity. This enzyme allowed the oxidation of both enantiomers at the expense of iron(III) as oxidant. The stereoselective amination of the α,β-unsaturated ketone intermediate was achieved with transaminases using 1-phenylethylamine as formal reducing agent as well as nitrogen source. Choosing an appropriate transaminase, either the ()- or ()-enantiomer was obtained in optically pure form (>98 % ). The enantio-convergent amination of the racemic allylic alcohols to one single allylic amine enantiomer was achieved in one pot in a sequential cascade.

摘要

二级外消旋烯丙醇的不对称胺化面临诸多挑战，比如双功能底物/产物以及氧化还原胺化序列中α,β-不饱和酮中间体的反应活性。为了实现使用最少数量的酶进行生物催化胺化级联反应，我们依靠一种对映选择性较低的单一PQQ依赖性脱氢酶实施了氧化步骤。该酶能够以铁(III)作为氧化剂氧化两种对映体。使用1-苯乙胺作为正式还原剂和氮源，通过转氨酶实现了α,β-不饱和酮中间体的立体选择性胺化。选择合适的转氨酶，可以以光学纯形式（>98%）获得(S)-或(R)-对映体。通过连续级联反应，在一锅反应中实现了外消旋烯丙醇向单一烯丙胺对映体的对映汇聚胺化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abf0/7986696/ea006ef70318/CCTC-13-1290-g002.jpg

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依赖吡咯喹啉醌的脱氢酶实现外消旋烯丙醇的一锅双酶对映收敛生物催化胺化反应。

PQQ-dependent Dehydrogenase Enables One-pot Bi-enzymatic Enantio-convergent Biocatalytic Amination of Racemic -Allylic Alcohols.

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