Abstract:The reversible hydrogenase in vegetative cells of A. variabilis cultured on NH4+ or N-free medium was induced by sparging with N2 for 24 hours under light. Both anaerobic condition and illumination appear to be necessary for the induction of hydrogenase in this algae. The properties of the hydrogenase in cell-free extract obtained from the cells grown on two nitrogen sources are similar: (1) Both the enzymes are able to evolve H2 in the presence of reduced methyl viotogen as electron donor, and to uptake H2 in the presence of benzyl viologen as electron acceptor. (2) The enzymes posses the thermal stability and are stable to O2. (3) The optimum pH required for H2 evolution activity of the enzymes is 7.0–7 5. (4) The Km of the enzymes obtained from NH4+ grown cells and N-free grown cells is 300 mmol/l and 295 mmol/l, respectively. So the high Km measured here suggests that the enzymes in both cases function physiologically as H2 evolution. (5) The activities of both enzymes are inhibited by CO but are not affected by C2H2. The induced H2 evolution activity of the reversible hydrogenase in cells grown on NH4+ reached 1530 nmol H2/mg dry wt, h, which was 3 to 5 times higher than from cells grown on N-free medium. Our experiment results indicate that the appearance of heterocysts of A. variabilis cultured on N-free medium affects the synthesis of reversible hydrogenase and the regulation of its activity.