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An Efficient Synthesis of the Bicyclic Darunavir Side Chain Using Chemoenzymatic Catalysis

18 January 2022, Version 2
Working Paper
This content is an early or alternative research output and has not been peer-reviewed by Cambridge University Press at the time of posting.

Abstract

Herein, we describe a chemoenzymatic synthesis of the bicyclic fragment of Darunavir. A ketoreductase was identified using metagenomic mining to catalyze a highly enantio- and diastereoselective dynamic kinetic resolution of a đť›˝-ketolactone. Subsequent lactone reduction with diisobutylaluminium hydride and phase transfer cyclization affords the bicyclic acetal fragment in 39% yield over four steps.

Keywords

darunavir
ketoreductase
biocatalysis
dynamic kinetic resolution

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Supporting Information - An Efficient Synthesis of the Bicyclic Darunavir Side Chain Using Chemoenzymatic Catalysis
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Additional details, experimental procedures, characterization data, spectra and GC/HPLC traces supplementing the manuscript entitled "An Efficient Synthesis of the Bicyclic Darunavir Side Chain Using Chemoenzymatic Catalysis"
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Now Published

An Efficient Synthesis of the Bicyclic Darunavir Side Chain Using Chemoenzymatic Catalysis [opens in a new tab]
Paul S. Riehl, Jesmine Lim, James D. Finnigan, Simon J. Charnock, Todd K. Hyster journal article
Organic Process Research & Development , Volume 26, Issue 7
Online publication date: Feb 18, 2022

Version History

Jan 18, 2022 Version 2

Version Notes

Updated with corrected spelling error

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The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv-2022-rv8qh-v2
D O I: 10.26434/chemrxiv-2022-rv8qh-v2 [opens in a new tab]

Funding

Bill and Melinda Gates Foundation

Author’s competing interest statement

The author(s) have declared they have no conflict of interest with regard to this content

Ethics

The author(s) have declared ethics committee/IRB approval is not relevant to this content

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