Monoclonal antibodies specific for the rod region can affect smooth muscle myosin's motor properties. Actin movement by phosphorylated myosin was inhibited by an antibody (LMM.4) which binds to the COOH-terminal end of the coiled-coil rod, a region thought to be involved in filament assembly. The actin-activated ATPase activity of the myosin-antibody LMM.4 complex was also reduced 10-fold at actin concentrations that gave maximal turnover rates with filamentous myosin. Metal-shadowing of the phosphorylated myosin-antibody complex at low ionic strength showed small bundles of parallel extended molecules, instead of filaments. Five other anti-rod antibodies had little or no effect on myosin's ability to act as a motor. This is the first demonstration that a muscle myosin's activity is affected by its state of assembly. A common theme that emerges from the studies on both muscle and non-muscle myosins is that assembly into a filamentous structure stimulates the activity of the individual myosin molecules.