Mutational replacements of conserved amino acid residues in the alpha subunit change the catalytic properties of Escherichia coli F1-ATPase.

Four Escherichia coli mutants with defects in the alpha subunit of H+-ATPase (F0F1) (strain KF154, Pro-281----Leu; KF101 and KF131, Ala-285----Val; KF114, Arg-376----Cys) were isolated, and the kinetic properties of their F1-ATPases were studied. All the mutations so far identified are clustered in the two defined regions of the alpha subunit. With F1 of strain KF114, as with F1 of uncA401 (Ser-373----Phe; T. Noumi, M. Futai, and H. Kanazawa (1984) J. Biol. Chem. 259, 10076-10079), the rate of multisite hydrolysis of ATP was 4 X 10(-3)-fold lower than that with wild-type F1, suggesting that residues Ser-373 and Arg-376 or the regions in their vicinities are essential for positive catalytic cooperativity. With F1 from strain KF101, multisite hydrolysis was higher (about 40% of that of the wild type), but the F1 was unstable and showed defective interaction with the membrane sector (F0). The F1 from KF154 had lower multisite hydrolysis (about 10% of that of the wild type) but could support slow growth by oxidative phosphorylation.