Effects of inorganic nitrogen compounds on the activity and synthesis of nitrogenase in Gloeothece (Nägeli) sp. ATCC 27152

Addition of 2 mM nitrite or ammonium to aerobically incubated cultures of Gloeothece rapidly inhibited N₂ fixation (measured as acetylene reduction). In contrast, 2 mM nitrate inhibited N₂ fixation less rapidly and less extensively, and often temporarily stimulated nitrogenase activity. The inhibitory effects of both nitrate and ammonium could be prevented by addition of 3 mM L-methionine-DL-sulphoximine, suggesting that the true inhibitor of N₂ fixation was an assimilatory product of ammonium rather than either ammonium or nitrate itself. The inhibition of N₂ fixation by nitrite could not, however, be prevented by addition of L-methionine-DL- sulphoximine. On the other hand, nitrite (unlike nitrate and ammonium) did not inhibit N₂ fixation in cultures incubated under a gas phase lacking oxygen. These findings suggest that the mechanism whereby nitrite inhibits N₂ fixation in Gloeothece differs from that of either nitrate or ammonium. The inhibitory effect of nitrite on N₂ fixation did not involve reduction of nitrite to nitric oxide, though nitric oxide was a potent inhibitor of nitrogenase activity in Gloeothece . Nitrate and nitrite inhibited the synthesis of nitrogenase in Gloeothece , while ammonium not only inhibited nitrogenase synthesis but also stimulated degradation of the enzyme. In addition, all three compounds favoured the appearance of the Fe-protein of nitrogenase in its larger, presumed inactive, form.