Analysis of the regulatory domain of yeast plasma membrane H+‐ATPase by directed mutagenesis and intragenic suppression

Abstract

The yeast plasma membrane H⁺-ATPase is activated in vivo by glucose metabolism, and previous deletion analysis has shown the C-terminus of the enzyme to be involved in this regulation. Site-directed mutagenesis demonstrates that Arg⁹⁰⁹ and Thr⁹¹² at the C-terminus are important for the increase in V _max of the ATPase induced by glucose. Other changes in kinetic parameters induced by glucose are largely independent of these ammo acids. Arg⁹⁰⁹ and Thr⁹¹² form a potential phosphorylation site for calmodulin-dependent multiprotein kinase. A double mutation of Ser⁹¹¹ and Thr⁹¹² to Ala results in no cell growth in glucose medium and greatly reduced activation of the ATPase by glucose. Growth and activity are restored by a third mutation (Ala⁵⁴⁷ → Val) at the catalytic domain, providing genetic evidence for domain interaction.