The bound adenine nucleotides of purified bovine mitochondrial ATP synthase.

Abstract

The experiments in this study were directed towards defining the nucleotide content of purified beef-heart mitochondrial F1F0 ATP synthase during binding and hydrolysis of ATP. The purified, soluble synthase as prepared contained 2 mol ATP and 2 mol ADP/mol enzyme. Three of these four nucleotides were exchangeable on incubation with radiolabelled MgATP. Passage of the ATP synthase through a column of Sephadex G-50 readily removed 1 mol ADP/mol. The remaining bound nucleotides were not displaced by incubation with 1 mM GTP or 5 mM sodium sulfite, the latter an activator of the ATPase activity of the synthase. Incubation of the synthase with 250 microM MgATP in the presence of 3 mM sodium azide, an inhibitor of the ATPase, resulted in the transitory formation of a form of the enzyme in which 5-6 nucleotide-binding sites were loaded with ATP and/or ADP, thus showing that the ATP synthase, like the soluble F1 ATPase, contained a minimum of six nucleotide-binding sites. The presence of an ATP-regenerating system during incubation with MgATP resulted in the loading of 5-6 sites to yield a form of the enzyme containing 3-4 mol ATP and 2 mol ADP/mol synthase even after passage through a centrifuged column. Following hydrolysis of the medium MgATP, the enzyme reached a stable form containing 2 mol ATP and 2 mol ADP/mol synthase. Like the form of the enzyme originally prepared, 1 mol ADP/mol synthase was readily released. However, this ADP remained bound to the synthase in the presence of GTP if azide was present. These results are discussed in the context of current ideas about nucleotide-binding sites on the F1 ATPase portion of the F1F0 ATP synthase. It is concluded that the properties of the sites on the F1F0 synthase show some differences from those on the F1 ATPase.