$H^+-ATPase$ located on plasma and vacuolar membranes play major roles in various cellular physiological processes. In order to investigate the physiological roles of $H^+-ATPase$, microsomes were prepared from tomato roots and the effects of various anions were measured on the activities of $H^+-ATPase$. $H^+-ATPase$ was inhibited by various anions. Citrate and phosphate were chosen to investigate detailed inhibitory mechanisms on $H^+-ATPase$ since they showed different levels of inhibition. Inhibitory effect of citrate was observed at the concentrations above 3 mM. When 20 mM citrate was added, the ATPase activity was decreased by 50-60%. However, the inhibitory effect of citrate was decreased by increasing the concentration of$Mg^{2+}$ The citrate-induced inhibited activity was recovered by the addition of $Mg^{2+}$ Addition of 7 mM $Mg^{2+}$ completely removed the inhibitory effect of citrate and the activity recovered to the level of the control experiment. These results imply that citrate chelates $Mg^{2+}$ and thus inhibits $H^+-ATPase$. Meanwhile, the inhibitory effect of phosphate was observed at the concentration above 3 mM and the activity was decreased by 50% in the presence of 30 mM phosphate. Further addition of $Mg^{2+}$ showed no recovery on the activity. These results imply that the inhibitory effect of phosphate is not dependent upon the concentration of $Mg^{2+}$.