Site-specific mutagenesis of dihydrofolate reductase from Escherichia coli

Two site-specific mutations of dihydrofolate reductase from Escherichiu coli based on the x-ray crystallographic structure were constructed. The first mutation (His-45 + Gln) is aimed at assessing the interaction between the imidazole moiety and the pyrophosphate backbone of NADPH. The second (Thr-113 + Val) is part of a hydrogen bonding network that contacts the dihydrofolate substrate and may be involved in proton delivery to the N5-C6 imine undergoing reduction. The first mutation was shown to alter both the association and dissociation rate constants for the cofactor so that the dissociation constant was increased 6-40-fold. A corresponding but smaller (fourfold) effect was noted in VIK but not in V compared to the wild-type enzyme. The second was demonstrated to increase the dissociation rate constant for methotrexate 20-30-fold, and presumably dihydrofolate also, with a corresponding 20-30-fold increase in the dissociation constant. In this case an identical effect was noted on V/K but not in V relative to the native enzyme. Thus, in both mutant enzymes the decrease in binding has not been translated into a loss of catalytic efficiency.