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[摘要]:A carbonyl reductase from Sporobolomyces salmonicolor reduced para-substituted acetophenones with low enantioselectivity Enzyme-substrate docking studies revealed that residues M242 and Q245 were in close proximity to the para-substituent of acetophenones in the substrate binding site Site-saturation mutagenesis of M242 or Q245, and double mutation of M242 and Q245 were performed in order to enhance the enzyme's enantioselectivity toward the reduction of para-substituted acetophenones Three Q245 mutants were obtained, which inverted the enantiopreference of product alcohols from (R)- to (S)-configuration with high ee values (Org Lett 2008, 10, 525-528) Four M242 mutant enzymes also showed greater preference for the formation of (S)-enantiomeric alcohols than the wild-type enzyme, but to a much less extent than Q245 mutants M242/Q245 double variations not only greatly affect the enantiomeric purity of the product alcohols, but also invert the enantiopreference, demonstrating that these residues play a critical role in determining the enantioselectivity of these ketone reductions The kinetic parameters of these mutant enzymes indicated that residues 242 and 245 also exert an effect on the catalytic activity of this carbonyl reductase Highly enantioselective mutant carbonyl reductases were created by site-saturation mutagenesis, among which the one bearing double mutations, M242L/Q245P, showed the highest enantioselectivity that catalyzed the reduction of the tested para-substituted acetophenones to give (S)-enantiomeric products in >= 99% ee with only one exception of p-fluoroacetophenone (92% ee) |
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