Further examination of seventeen mutations in Escherichia coli F1-ATPase beta-subunit.

Seventeen mutations in beta-subunit of Escherichia coli F1-ATPase which had previously been characterized in strain AN1272 (Mu-induced mutant) were expressed in strain JP17 (beta-subunit gene deletion). Six showed unchanged behavior, namely: C137Y; G142D; G146S; G207D; Y297F; and Y354F. Five failed to assemble F1F0 correctly, namely: G149I; G154I; G149I,G154I; G223D; and P403S,G415D. Six assembled F1F0 correctly, but with membrane ATPase lower than in AN1272, namely: K155Q; K155E; E181Q; E192Q; D242N; and D242V. AN1272 was shown to unexpectedly produce a small amount of wild-type beta-subunit; F1-ATPase activities reported previously in AN1272 were referable to hybrid enzymes containing both mutant and wild-type beta-subunits. Purified F1 was obtained from K155Q; K155E; E181Q; E192Q; and D242N mutants in JP17. Vmax ATPase values were lower, and unisite catalysis rate and equilibrium constants were perturbed to greater extent, than in AN1272. However, general patterns of perturbation revealed by difference energy diagrams were similar to those seen previously, and the new data correlated well in linear free energy relationships for reaction steps of unisite catalysis. Correlation between multisite and unisite ATPase activity was seen in the new enzymes. Overall, the data give strong support to previously proposed mechanisms of unisite catalysis, steady-state catalysis, and energy coupling in F1-ATPases (Al-Shawi, M. K., Parsonage, D. and Senior, A. E. (1990) J. Biol. Chem. 265, 4402-4410). The K155Q, K155E, D242N, and E181Q mutations caused 5000-fold, 4000-fold, 1800-fold, and 700-fold decrease, respectively, in Vmax ATPase, implying possibly direct roles for these residues in catalysis. Experiments with the D242N mutant suggested a role for residue beta D242 in catalytic site Mg2+ binding.