Regulation of the Pi-ATP exchange and hydrolytic reactions in F0-F1 reconstituted liposomes.

The regulation of ATP hydrolysis and Pi-ATP exchange reactions by ATP, ADP, Mg2+, and phosphate was studied in liposomes containing F0-F1 obtained from bovine heart submitochondrial particles by solubilization with lauryl dimethylamino oxide as described previously (Dreyfus, G., Celis, H., and Ramirez, J. (1984) Anal. Biochem. 142, 215-220). A simultaneous analysis of ATP hydrolysis and the Pi-ATP exchange reactions showed that the ratio of hydrolysis/exchange is close to one when the ATP concentration is in the lower micromolar range. In this preparation ADP stimulates the Pi-ATP exchange reaction and depresses ATP hydrolysis. The exchange reaction is almost abolished when ADP is removed from the medium by an ATP-regenerating system. Mg2+ in millimolar concentrations stimulates Pi-ATP exchange, and at the same time decreases ATP hydrolysis; accordingly, the hydrolysis/exchange ratio depends on the concentration of Mg2+. Inorganic phosphate also controls this ratio, a lower ratio being observed at high phosphate concentrations. The Pi-ATP exchange reaction, but not ATP hydrolysis, depends on the concentration of medium phosphate. These results indicate that the kinetic characteristics of this F0-F1 preparation are modified by Mg2+, ATP, and phosphate.