将生物催化与高能流动反应相结合用于合成氨基甲酸盐和β-氨基酸衍生物。

Coupling biocatalysis with high-energy flow reactions for the synthesis of carbamates and β-amino acid derivatives.

作者信息

Leslie Alexander, Moody Thomas S, Smyth Megan, Wharry Scott, Baumann Marcus

机构信息

School of Chemistry, University College Dublin, D04 N2E2, Ireland.

Almac Group Ltd., Craigavon BT63 5QD, United Kingdom.

出版信息

Beilstein J Org Chem. 2021 Feb 4;17:379-384. doi: 10.3762/bjoc.17.33. eCollection 2021.

DOI:10.3762/bjoc.17.33

PMID:33828617

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7871027/

Abstract

A continuous flow process is presented that couples a Curtius rearrangement step with a biocatalytic impurity tagging strategy to produce a series of valuable Cbz-carbamate products. Immobilized CALB was exploited as a robust hydrolase to transform residual benzyl alcohol into easily separable benzyl butyrate. The resulting telescoped flow process was effectively applied across a series of acid substrates rendering the desired carbamate structures in high yield and purity. The derivatization of these products via complementary flow-based Michael addition reactions furthermore demonstrated the creation of β-amino acid species. This strategy thus highlights the applicability of this work towards the creation of important chemical building blocks for the pharmaceutical and speciality chemical industries.

摘要

本文介绍了一种连续流动过程，该过程将库尔提斯重排步骤与生物催化杂质标记策略相结合，以生产一系列有价值的苄氧羰基 - 氨基甲酸酯产物。固定化的南极假丝酵母脂肪酶B（CALB）被用作一种强大的水解酶，将残留的苯甲醇转化为易于分离的丁酸苄酯。所得的串联流动过程有效地应用于一系列酸性底物，以高收率和纯度得到所需的氨基甲酸酯结构。此外，通过基于流动的互补迈克尔加成反应对这些产物进行衍生化，证明了β - 氨基酸物种的生成。因此，该策略突出了这项工作在为制药和特种化学品行业创造重要化学结构单元方面的适用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/139b/7871027/177719c271cd/Beilstein_J_Org_Chem-17-379-g003.jpg

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将生物催化与高能流动反应相结合用于合成氨基甲酸盐和β-氨基酸衍生物。

Coupling biocatalysis with high-energy flow reactions for the synthesis of carbamates and β-amino acid derivatives.

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