Ketopantoic acid reductase of Pseudomonas maltophilia 845. Purification, characterization, and role in pantothenate biosynthesis.

Ketopantoic acid reductase (EC 1.1.1.169), an enzyme that catalyzes the formation of D-(-)-pantoic acid from ketopantoic acid, was purified 6,000-fold to apparent homogeneity with a 35% overall recovery from Pseudomonas maltophilia 845 and then crystallized. The relative molecular mass of the native enzyme, as estimated by the sedimentation equilibrium method, is 87,000 +/- 5,000, and the subunit molecular mass is 30,500. The enzyme shows high specificity for ketopantoic acid as a substrate (Km = 400 microM, Vm = 1,310 units/mg of protein) and NADPH as a coenzyme (Km = 31.8 microM). Only 2-keto-3-hydroxyisovalerate (Km = 8.55 mM, Vm = 35.8 units/mg) was reduced among a variety of other carbonyl compounds tested. The reaction is reversible (Km for D-(-)-pantoic acid = 52.1 mM), although the reaction equilibrium greatly favors the direction of D-(-)-pantoic acid formation. That the enzyme is responsible for the synthesis of D-(-)-pantoic acid necessary for the biosynthesis of pantothenic acid in P. maltophilia 845 is indicated by the observations that only this enzyme is missing in D-(-)-pantoate (or pantothenate)-requiring mutants derived from P. maltophilia 845 among several enzymes (i.e. ketopantoyl lactone reductase (EC 1.1.1.168) and acetohydroxy acid isomeroreductase (EC 1.1.1.86], which may be concerned in the formation of D-(-)-pantoic acid, assayed, whereas it is present in substantial amounts in the parent strain and in spontaneous revertants of the mutants.