Immobilised Alcohol Dehydrogenase and Ene‐Reductase Work in Concert to Reduce Cyclohex‐2‐enone in Bulk Organic Solvent

Abstract

Enone reduction by ene reductase (ERED) has not been reported yet in bulk organic media probably due to expected challenges with the cofactor recycling using a second enzyme and the exchange of the NAD(P)‐cofactor between the two enzymes. Herein, the combination of an ERED from Zymomonas mobilis (NCR‐ERED) and Thermoanaerobacter ethanolicus alcohol dehydrogenase (TeSADH) has been found as an efficient biocatalytic redox system for the reduction of cyclohex‐2‐enone into cyclohexanol in bulk organic solvents. Both enzymes were successfully immobilised on three EziG supports, finding Coral as the most promising carrier for both of them. The highest enzymatic activities were found in hydrophobic solvents such as toluene and isooctane. It was observed that the control of water content and post‐immobilisation treatments enabled retention of enzyme activity. Both enzymes were co‐immobilised on the same bead together with NADP+, leading to the production of a self‐sufficient catalytic system, although the external supplementation of the nicotinamide cofactor was necessary for an efficient enzyme reuse. In this case, no ERED activity loss was detected after two additional cycles, while the ADH experienced less than 20% activity loss upon reuse.