Mutagenesis of Met-151 and Thr-153 to Alanine in Thermoanaerobacter ethanolicus Secondary Alcohol Dehydrogenase Changes Substrate Specificity for Acetophenones

Publication date: Available online 23 June 2017 Source:Enzyme and Microbial Technology Author(s): Christopher M. Nealon, Chang Sup Kim, Amos K. Dwamena, Robert S. Phillips Secondary alcohol dehydrogenase (SADH) from Thermoanaerobacter ethanolicus reduces ketones to chiral alcohols, and generally obeys Prelog's Rule, with binding pockets for large and small alkyl substituents, giving (S)-alcohols. We have previously shown that mutations in both the large and small pockets can alter both substrate specificity and stereoselectivity. In the present work, Met-151 and Thr-153, residues located in the small pocket, were mutated to alanine. The M151A mutant SADH shows significantly lower activity and lower stereoselectivity for reduction of aliphatic ketones than wild-type SADH. Furthermore, M151A showed non-linear kinetics for reduction of acetone. T153A SADH shows lower activity but similar stereoselectivity for ketone reduction compared to wild-type SADH. The I86A/M151A/C295A and I86A/T153A/C295A triple mutant SADH show altered specificity for reduction of substituted acetophenones. These results confirm that these mutations are useful to combine with I86A/C295A SADH to expand the small pocket of SADH and broaden the substrate specificity. Graphical abstract
Source: Enzyme and Microbial Technology - Category: Biotechnology Source Type: research