Inactivation of Salmonella phosphoribosylpyrophosphate synthetase by specific chemical modification of a lysine residue.

Phosphoribosylpyrophosphate synthetase from Salmonella typhimurium contains nine lysine residues per subunit and can be inactivated by reagents specific for this amino acid. Pyridoxal-P reversibly inhibited the enzyme by about 70% by forming a Schiff base derivative with lysine. Reduction with NaBH₄ made this inactivation irreversible. Kinetic experiments indicated that the failure to inactivate the enzyme completely in a single treatment with pyridoxal-P reflects a reversible equilibrium between inactive Schiff base and a noncovalent complex. Modification of one lysine residue per subunit correlated with apparently total loss of activity. The rate of inactivation of the enzyme was decreased fourfold by saturating concentrations of ATP and was decreased at least 20-fold by formation of a quaternary complex of the enzyme with Mg²⁺, α,β-methylene ATP, and ribose-5-P. Trinitrobenzenesulfonate also irreversibly inactivated the enzyme, but this reagent was less specific in that the loss of activity corresponded to the modification of four to five lysine residues. These results suggest that an essential lysine is near the active site of Phosphoribosylpyrophosphate synthetase.