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Improving Biocatalytic Properties of an Azoreductase <i>via</i> the <i>N‐</i>Terminal Fusion of Formate Dehydrogenase

Anna Ngo, Fabian Peter Josef Schultes, Artur Maier, Simon Niklas Hermann Hadewig, Dirk Tischler

2022ChemBioChem17 citationsDOIOpen Access PDF

Abstract

Abstract Azoreductases require NAD(P)H to reduce azo dyes but the high cost of NAD(P)H limits its application. Formate dehydrogenase (FDH) allows NAD(P) + recycling and therefore, the fusion of these two biocatalysts seems promising. This study investigated the changes to the fusion protein involving azoreductase (AzoRo) of Rhodococcus opacus 1CP and FDH (FDH C23S and FDH C23SD195QY196H ) of Candida boidinii in different positions with His‐tag as the linker. The position affected enzyme activities as AzoRo activity decreased by 20‐fold when it is in the N ‐terminus of the fusion protein. FDH C23S +AzoRo was the most active construct and was further characterized. Enzymatic activities of FDH C23S +AzoRo decreased compared to parental enzymes but showed improved substrate scope – accepting bulkier dyes. Moreover, pH has an influence on the stability and activity of the fusion protein because at pH 6 (pH that is suboptimal for FDH), the dye reduction decreased to more than 50 % and this could be attributed to the impaired NADH supply for the AzoRo part.

Topics & Concepts

Formate dehydrogenaseNAD+ kinaseChemistrySubstrate (aquarium)Fusion proteinLinkerBiochemistryEnzymeFormateFusionCombinatorial chemistryProtein engineeringCofactorStereochemistryDehydrogenaseRecombinant DNABiologyCatalysisEcologyPhilosophyOperating systemGeneComputer scienceLinguisticsEnzyme-mediated dye degradationEnzyme Catalysis and ImmobilizationElectrochemical sensors and biosensors
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