Abstract: | Heterocyst-free (NH4+-grown) cultures of the cyanobacterium Anabaena variabilis produce a hydrogenase which is reversibly inhibited by light and O2. White or red light at an intensity of 5,000 lx inhibited greater than 95% of the activity. Oxygen at concentrations as low as 0.5% inhibited more than 85% of the hydrogenase in the vegetative cells of CO2-NH4+-grown cultures. The vegatative cell hydrogenase is also sensitive to strong oxidants like ferricyanide. In the presence of strong reductants like S2O4(2-), hydrogenase activity was not inhibited by light. However, hydrogenase activity in the heterocysts was insensitive to both light (greater than 5,000 lx) and O2 (10%). Heterocysts and light-insensitive hydrogenase activity appear simultaneously during differentiation of the vegetative cells into heterocysts (an NH4+-grown culture transferred to NH4+-free, N2-containing medium). This light-insensitive hydrogenase activity was detected several hours before the induction of nitrogenase activity. These results suggest a mode of regulation of hydrogenase in the vegetative cells of A. variabilis that is similar to "redox control" of hydrogenase and other "anaerobic" proteins in enteric bacteria like Escherichia coli. |