用于天然产物大麦芽碱可持续连续合成的联合化学酶策略

Combined chemoenzymatic strategy for sustainable continuous synthesis of the natural product hordenine.

作者信息

Gianolio Stefania, Roura Padrosa David, Paradisi Francesca

机构信息

Department of Chemistry, Biochemistry and Pharmacology, University of Bern Freistrasse 3 Bern Switzerland

出版信息

Green Chem. 2022 Oct 12;24(21):8434-8440. doi: 10.1039/d2gc02767d. eCollection 2022 Oct 31.

DOI:10.1039/d2gc02767d

PMID:36353210

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9621339/

Abstract

To improve sustainability, safety and cost-efficiency of synthetic methodologies, biocatalysis can be a helpful ally. In this work, a novel chemoenzymatic stategy ensures the rapid synthesis of hordenine, a valuable phenolic phytochemical under mild working conditions. In a two-step cascade, the immobilized tyrosine decarboxylase from (TDC) is here coupled with the chemical reductive amination of tyramine. Starting from the abundant and cost-effective amino acid l-tyrosine, the complete conversion to hordenine is achieved in less than 5 minutes residence time in a fully-automated continuous flow system. Compared to the metal-catalyzed ,-dimethylation of tyramine, this biocatalytic approach reduces the process environmental impact and improves its STY to 2.68 g L h.

摘要

为提高合成方法的可持续性、安全性和成本效益，生物催化可以成为一个有用的助力。在这项工作中，一种新型化学酶策略确保了在温和的工作条件下快速合成大麦碱，一种有价值的酚类植物化学物质。在两步级联反应中，固定化的来自[具体来源未提及]的酪氨酸脱羧酶（TDC）与酪胺的化学还原胺化反应相结合。从丰富且经济高效的氨基酸L-酪氨酸开始，在全自动连续流动系统中，停留时间不到5分钟即可实现完全转化为大麦碱。与金属催化的酪胺N,N-二甲基化相比，这种生物催化方法减少了该过程对环境的影响，并将其时空产率提高到2.68 g L⁻¹ h⁻¹。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b53d/9621339/af0b2d935ff3/d2gc02767d-f1.jpg

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用于天然产物大麦芽碱可持续连续合成的联合化学酶策略

Combined chemoenzymatic strategy for sustainable continuous synthesis of the natural product hordenine.

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