Redox modulation of a phosphatase from Anacystis nidulans

Abstract

Ascorbic acid (AA) increased the phosphatase activity (pH 6.8) in 10,000 g supernatants from Anacystis nidulans. The enzyme activated by AA was deactivated by dehydroascorbic acid (DHAA). The modulation by AA/DHAA of phosphatase activity in Anacystis appears to be specific; a number of other redox compounds, known to modulate other enzymes, had no effect on the Anacystis phosphatase. A purified phosphatase preparation from Anacystis was also deactivated by DHAA. In contrast, the purified enzyme was not activated by AA, suggesting that a factor mediating the effect of AA was lost during purification. Another factor was found to protect the purified phosphatase against deactivation by DHAA. The enzyme was characterized as a phosphatase with a broad substrate specificity, an apparent molecular weight of 19,000, and a pH optimum of 6.0-7.0. Dialysis of the enzyme preparation against EDTA abolished the phosphatase activity which could be restored by Zn(2+) ions and partially restored by Co(2+) ions. Crude extracts also contained a latent enzyme, the phosphatase activity of which could be detected in the presence of Co(2+) ions only. Zn(2+) ions did not activate this enzymatically inactive protein. The Co(2+)-dependent phosphatase had an apparent mol. wt. of 40,000, a broad substrate specificity, and an alkaline pH-optimum. Infection of Anacystis cultures by cyanophage AS-1 resulted in a decrease in phosphatase activity. The enzyme present in 10,000 g supernatants from infected cells could not be modulated by the AA/DHAA system.