Purification and characterization of a mutant ATP phosphoribosyltransferase hypersensitive to histidine feedback inhibition

A mutant form of ATP phosphoribosyltranferase (EC 2.4.2.17), hisG1708 c, which results in abnormally slow growth of Salmonella typhimurium at 20 °C was purified to homogeneity and kinetic and chemical behavior were characterized. Initial velocity steady-state substrate kinetics of wild-type and mutant enzymes at 37 °C were consistent with sequential kinetics and demonstrated that standard assay concentrations of substrates were sufficient to substantially saturate both enzymes. Nearly time-independent inhibition by histidine at 37 °C could be obtained only after incubation in the presence of product and histidine. Studies at 37 °C showed that the mutant enzyme is 24 times more sensitive to histidine than the wild type in a negatively cooperative manner instead of the positively cooperative manner seen for wild type. Pure mutant enzyme exhibits two major electrophoretic species of native enzyme. Although one less cysteine is titratable in native mutant enzyme, the amino acid compositions of mutant and wild-type enzymes are similar. Histidine produces an ultraviolet difference spectrum in mutant enzyme closely resembling that produced in wild type. Binding of histidyl-tRNA to mutant enzyme is substantially inhibited by histidine. It is concluded that the hisG1708 c mutation alters some conformational processes coupled to the histidine binding site while not affecting others.