还原胺化
化学
亚胺
胺气处理
生物催化
胺化
立体选择性
酮
催化作用
组合化学
甲胺
辅因子
有机化学
酶
反应机理
作者
Zaira Maugeri,Dörte Rother
标识
DOI:10.1016/j.jbiotec.2017.05.015
摘要
The asymmetric reductive amination of ketones represents an elegant and convenient way to obtain chiral amines. Recently, several examples have been reported in which isolated imine reductases (IREDs) have been used for this type of reaction leading to promising results. In this work we focus on the applicability of whole cell biocatalysts (recombinant E. coli cells heterologously overexpressing an IRED) to simplify its preparation and to cut on catalyst production costs. Thirteen IREDs were screened towards six different ketones, using methylamine as amine donor. The targeted amines were formed with low to very high conversions and good to excellent stereoselectivity, depending on both, the ketone amine pair used for the reaction, as well as the applied IRED. It was further proven that a micro-aqueous reaction environment was applicable showing similar activity trends for the various reductive aminations but predominantly reduced conversions. A preparative scale experiment in a buffered environment was conducted leading to 93% conversion and 99% stereoselectivity of the product (1S,3R)-N,3-dimethylcyclohexylamine. As the whole cells intrinsic glucose dehydrogenase could be used for cofactor regeneration, no enzyme addition had to be applied, making this biocatalyst formulation particularly cost efficient.
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