Merging Gold(I) Catalysis with Amine Transaminases in Cascade Catalysis: Chemoenzymatic Transformation of Propargylic Alcohols into Enantioenriched Allylic Amines

The compatibility between gold(I) catalysts and amine transaminases has been explored to transform racemic propargylic alcohols into enantioenriched allylic amines in a straightforward and selective manner. The synthetic approach consists of a gold(I)‐catalysed Meyer‐Schuster rearrangement of a seri...

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Published in:Advanced synthesis & catalysis 2022-11, Vol.364 (22), p.3856-3866
Main Authors: González‐Granda, Sergio, Tzouras, Nikolaos V., Nolan, Steven P., Lavandera, Iván, Gotor‐Fernández, Vicente
Format: Article
Language:English
Subjects:
Alcohols
Amines
Aqueous solutions
Catalysis
Catalysts
Chiral amines
Enantiomers
Gold
Gold catalysis
Ketones
Meyer-Schuster rearrangement
N-Heterocyclic carbene
Stereoselectivity
Transaminases
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cited_by cdi_FETCH-LOGICAL-c3577-98e93e9f6773a0b8589a7b563fc3819eb55aaa974646ae59cc01d9a2c538fa943
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container_issue 22
container_start_page 3856
container_title Advanced synthesis & catalysis
container_volume 364
creator González‐Granda, Sergio
Tzouras, Nikolaos V.
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Gotor‐Fernández, Vicente
description The compatibility between gold(I) catalysts and amine transaminases has been explored to transform racemic propargylic alcohols into enantioenriched allylic amines in a straightforward and selective manner. The synthetic approach consists of a gold(I)‐catalysed Meyer‐Schuster rearrangement of a series of 2‐arylpent‐3‐yn‐2‐ols and a subsequent stereoselective enzyme‐catalysed transamination of the resulting α,β‐unsaturated prochiral ketones. The design of cascade processes involving sequential or concurrent approaches has been studied in our search for ideal reaction conditions to produce the desired amines. Thus, the N‐heterocyclic carbene complex [1,3‐bis(2,6‐diisopropylphenyl)imidazol‐2‐ylidene]‐[bis(trifluoromethanesulfonyl)‐imide]gold(I) ([Au(IPr)(NTf2)] (A) in aqueous medium was found to be an ideal catalyst, while selective, made‐in‐house and commercial amine transaminases permitted the asymmetric synthesis of both (E)‐4‐arylpent‐3‐en‐2‐amine enantiomers in good isolated yields (53–84%) and excellent stereoselectivities (97 to >99% enantiomeric excess).
doi_str_mv 10.1002/adsc.202200777
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subjects Alcohols
Amines
Aqueous solutions
Catalysis
Catalysts
Chiral amines
Enantiomers
Gold
Gold catalysis
Ketones
Meyer-Schuster rearrangement
N-Heterocyclic carbene
Stereoselectivity
Transaminases
title Merging Gold(I) Catalysis with Amine Transaminases in Cascade Catalysis: Chemoenzymatic Transformation of Propargylic Alcohols into Enantioenriched Allylic Amines
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