Engineering subtilisin YaB: restriction of substrate specificity by the substitution of Gly124 and Gly151 with Ala.

The 3-D structure of subtilisin YaB was computer modelled using the structures of subtilisin BPN', subtilisin Carlsberg and thermitase as templates. Gly124 and Gly151 located on both sides of the waist of the S1 pocket were selected for site-directed mutagenesis based on the modelled structure. The mutated ale genes coding for the mutant subtilisin YaB were expressed in Bacillus subtilis DB104. All of the G124 and G151 series of mutants exhibited an increase of relative catalytic activity for elastin-orcein against casein and myofibrillar proteins. The S1 substrate specificity of G124A, G124V and G151A mutants were assessed using various carbobenzoxy-amino acid-nitrophenyl esters and succinyl-Ala-Ala-(Pro or Val)-(Ala, Phe or Leu)-p-nitroanilide [AA(P/V) (A/F/L)]. While G124A and G124V mutants hydrolyzed only Ala and Gly esters, G151A mutant hydrolyzed Ala, Leu and Gly esters. The G124A and G124V mutants did not hydrolyze AAPF and AAPL. However, these two mutants hydrolyzed AAPA and AAVA with kcat/Km values approximately 3-10-fold higher than those of the wild-type enzyme. The G151A mutant did not hydrolyze AAPF, but hydrolyzed AAPL, AAPA and AAVA with kcat/Km values approximately 1-4-fold higher than those of the wild-type enzyme. These results clearly indicate that the S1 substrate specificity of G124A and G124V mutants was restricted to Ala and Gly, and G151A mutant to Ala, Gly and Leu.