Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase

A process concept for the asymmetric biocatalytic reduction of heterocyclic imines addressing the efficiency of the reaction as well as downstream-processing steps was studied by utilizing a "heterogenized aqueous phase", which contains the needed enzymes and cofactor within a superabsorber (polyacrylate) network, for the biotransformation. The immobilized biocatalytic system, which comprises an imine reductase (IRED), NADPH and an alcohol dehydrogenase for cofactor-recycling, enables to run the reaction in pure organic medium. Thus, instead of an extractive work-up as typical solution for biotransformations in aqueous medium, which, however, can be tedious due formation of emulsions, this type of IRED-catalyzed process leads to a simplified work-up consisting only of a decantation of the liquid organic reaction medium with the product from the heterogenized aqueous biocatalyst system. Exemplified for the (R)-enantioselective reduction of 1-methyl-3,4-dihydroisoquinoline by the IRED of Streptomyces viridochromogenes as a model reaction, a process was developed leading to 98 % conversion, 88 % yield and >99 % ee at a substrate concentration of 40 mM.

Stichworte

biocatalysis; bioprocess development; imine reductases; reduction; superabsorber

Erscheinungsjahr

2023

Zeitschriftentitel

European Journal of Organic Chemistry

Urheberrecht / Lizenzen

Creative Commons Namensnennung 4.0 International Public License (CC-BY 4.0)

ISSN

1434-193X

eISSN

1099-0690

Page URI

https://pub.uni-bielefeld.de/record/2984075

Zitieren

Nastke A, Gröger H. Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase. European Journal of Organic Chemistry. 2023.

Nastke, A., & Gröger, H. (2023). Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase. European Journal of Organic Chemistry. https://doi.org/10.1002/ejoc.202300158

Nastke, Alina, and Gröger, Harald. 2023. “Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase”. European Journal of Organic Chemistry.

Nastke, A., and Gröger, H. (2023). Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase. European Journal of Organic Chemistry.

Nastke, A., & Gröger, H., 2023. Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase. European Journal of Organic Chemistry.

A. Nastke and H. Gröger, “Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase”, European Journal of Organic Chemistry, 2023.

Nastke, A., Gröger, H.: Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase. European Journal of Organic Chemistry. (2023).

Nastke, Alina, and Gröger, Harald. “Biotransformations with Imine Reductases: Design of a Practical Process Avoiding an Extractive Work-Up by Entrapment of Water and Enzymes in an Immobilized Phase”. European Journal of Organic Chemistry (2023).

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