In contrast to previous studies, a new fluorescent method was used to accurately determine the Ca(2+) concentration in test solutions used to activate skinned rat cardiac cells. This method used the calcium green-2 fluorescent indicator, which is shown to change its fluorescence over the Ca(2+) range responsible for Ca(2+) activation of force and ATPase. The dissociation constant (K(d)) of calcium green-2 for Ca(2+) was determined for three different Mg(2+) concentrations in solutions similar to those used in the experiment. Increasing Mg(2+) concentration from 1.0 to 8.0 mM had no significant effect on the Ca(2+) sensitivity of either force or actomyosin ATPase activity, in contrast to previous reported studies on force. The ATPase activity was activated at lower Ca(2+) concentration than the force. The ratio (ATPase/force) is proportional to the dissociation rate of force-generating myosin cross bridges and decreased during Ca(2+) activation. These findings are consistent with the hypothesis that cardiac muscle contraction is activated by a single Ca(2+)-specific binding site on troponin C.