REGULATION OF THE INTERACTION BETWEEN ACTIN AND MYOSIN SUBFRAGMENT-1 - EVIDENCE FOR 3 STATES OF THE THIN FILAMENT

Equilibrium titrations and kinetic experiments were used to define the cooperative binding of myosin subfragment 1 (Sl) to actin-troponin-tr opomyosin. Both types of experiment require an equilibrium between two states of the thin filament in which one state (the off state) binds Sl less readily than the other. Equilibrium titrations are compatible with >95% of the actin7.Tn-Tm units being in the off state in the abse nce of calcium and 80% in the off state in the presence of calcium. Ki netic binding data suggest that the presence of calcium switches the t hin filament from 70% in the off state to <5%. The two experiments, th erefore, define quite different populations of the off states. We prop ose a three-state model of the thin filament. A ''blocked state'' whic h is unable to bind Sl, a ''closed state'' which can only bind Sl rela tively weakly and an ''open state'' in which the Sl can both bind and undergo an isomerization to a more strongly bound rigor-like conformat ion. The equilibrium between the three states is calcium-dependent; K( B) = [closed]/[blocked] = 0.3 and greater-than-or-equal-to 16 and K(T) = [open]/[closed] = 0.09 and 0.25 in the absence and presence of calc ium, respectively. This model can account for both types of experiment al data.