Abstract
Nicotinoprotein alcohol dehydrogenases are enzymes that contain non-dissociable NAD(P)(H) in the active site. The suitability of a nicotinoprotein alcohol dehydrogenase as coenzyme-independent alternative to classic alcohol dehydrogenases for enantioselective synthetic applications was studied. To this end the NADH-containing nicotinoprotein, np-ADH, from Rhodococcus erythropolis DSM 1069 was used as a model enzyme in different types of conversion: asymmetric synthesis, kinetic resolution and racemization. The enzyme was found to catalyze the asymmetric reduction of ketones using cheap reductants, such as ethanol, with high stereoselectivity, but the reaction was too slow to obtain good yields. Kinetic resolutions of racemic alcohols failed due to dismutation of the aldehyde that was used as cosubstrate. Racemization of a secondary alcohol via the corresponding ketone could not be achieved, which was due to an unidentified side reaction. This evaluation shows that, for developing biotransformations of industrial interest using nicotinoprotein alcohol dehydrogenases, the attention should be focused on enzymes with a higher reactivity towards prochiral ketones and secondary alcohols.
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