Claudia Nowak scite author profile

The cell-free biocatalytic production of fine chemicals by oxidoreductases has continuously grown over the past years. Since especially dehydrogenases depend on the stoichiometric use of nicotinamide pyridine cofactors, an integrated efficient recycling system is crucial to allow process operation under economic conditions. Lately, the variety of cofactors for biocatalysis was broadened by the utilization of totally synthetic and cheap biomimetics. Though, to date the regeneration has been limited to chemical or electrochemical methods. Here, we report an enzymatic recycling by the flavoprotein NADH-oxidase from Lactobacillus pentosus (LpNox). Since this enzyme has not been described before, we first characterized it in regard to its optimal reaction parameters. We found that the heterologously overexpressed enzyme only contained 13% FAD. In vitro loading of the enzyme with FAD, resulted in a higher specific activity towards its natural cofactor NADH as well as different nicotinamide derived biomimetics. Apart from the enzymatic recycling, which gives water as a by-product by transferring four electrons onto oxygen, unbound FAD can also catalyze the oxidation of biomimetic cofactors. Here a two electron process takes place yielding H2O2 instead. The enzymatic and chemical recycling was compared in regard to reaction kinetics for the natural and biomimetic cofactors. With LpNox and FAD, two recycling strategies for biomimetic cofactors are described with either water or hydrogen peroxide as by-product.

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Enzymatic Reduction of Nicotinamide Biomimetic Cofactors Using an Engineered Glucose Dehydrogenase: Providing a Regeneration System for Artificial Cofactors

Nowak

Pick

Lommes

et al. 2017

ACS Catal.

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The increasing demand for chiral compounds supports the development of enzymatic processes. Dehydrogenases are often the enzymes of choice due to their high enantioselectivity combined with broad substrate acceptance. However, their requirement on costly NAD(P)/H as cofactor has sparked interest in the development of biomimetic derivatives that are easy to synthesize and, therefore, less expensive. Until now, few reactions with biomimetics have been described and regeneration is limited to nonenzymatic means, which are not suitable for incorporation and in situ approaches. Herein, we describe a regeneration enzyme, glucose dehydrogenase from Sulfolobus solfataricus (SsGDH), and demonstrate its activity with different biomimetics with the structure nicotinamide ring-alkyl chain-phenyl ring. Subsequent enzyme engineering resulted in the double mutant SsGDH Ile192Thr/Val306Ile, which had a 10-fold higher activity with one of the biomimetics compared with the wild-type enzyme. Using this engineered variant in combination with an enoate reductase from Thermus scotoductus resulted in the first enzyme-coupled regeneration process for biomimetic cofactor without ribonucleotide or ribonucleotide analogue and full conversion of 10 mM 2-methylbut-2-enal with 1-phenethyl-1,4-dihydropyridine-3-carboxamide as cofactor.

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Biomimetic cofactors and methods for their recycling

Zachos

Nowak

Sieber

2019

Current Opinion in Chemical Biology

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Claudia Nowak

A water-forming NADH oxidase from Lactobacillus pentosus suitable for the regeneration of synthetic biomimetic cofactors

Enzymatic Reduction of Nicotinamide Biomimetic Cofactors Using an Engineered Glucose Dehydrogenase: Providing a Regeneration System for Artificial Cofactors

Biomimetic cofactors and methods for their recycling

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