THERMODYNAMIC PROFILES OF PENICILLIN-G HYDROLYSIS CATALYZED BY WILD-TYPE AND MET-]ALA168 MUTANT PENICILLIN ACYLASES FROM KLUYVERA-CITROPHILA

The Met-168 residue in penicillin acylase from Kluyvera citrophila was changed to Ala by oligonucleotide site-directed mutagenesis. The Ala-168 mutant exhibited different substrate specificity than wild-type and enhanced thermal stability. The thermodynamic profiles for penicillin G hydrolysis catalyzed by both enzymes were obtained from the temperature dependence of the steady-state kinetic parameters Km and kcat. The high values of enthalpy and entropy of activation determined for the binding of substrate suggest that an induced-fit-like mechanism takes place. The Met → Ala168 mutation unstabilizes the first transition-state (E··S≠) and the enzyme-substrate complex (ES) causing a decrease in association equilibrium and specificity constants in the enzyme. However, no change is observed in the acyl-enzyme formation. It is concluded that residue 168 is involved in the enzyme conformational rearrangements caused by the interaction of the acid moiety of the substrate at the active site. © 1990.