Nonlinear dependence on actin of acto-heavy meromyosin 18O exchange and ATPase rate at low actin concentrations.

Hydrolysis of highly enriched [gamma-18O]ATP in unlabeled water by acto-heavy meromyosin at low actin concentration was found to be heterogeneous in that significant amounts of both the species containing 0 or 3 18O-labeled oxygens/phosphate were formed. Detailed quantitative comparison with theoretical distributions over a wide range of actin concentrations, however, indicated that the pathway which catalyzed ATP hydrolysis with a low extent of exchange only made a significant contribution at a low actin concentration and did not represent a major fraction of the total hydrolysis seen at higher actin concentrations. This low exchange component was also detected in the dependence on actin of the steady state ATPase. At low actin the steady state ATPase rate increased more rapidly as a function of actin concentration than predicted by the Km and Vmax for actin activation observed at moderate to high actin levels. This extra ATP hydrolysis at low actin correlates with that predicted for the low exchange pathway both with respect to the fraction of the ATP hydrolyzed and to its dependence on the actin concentration.