In vivo regulation of glutamine synthetase by ammonium in the cyanobacterium Anabaena L-31

Abstract

In cell-free preparations of NH₄⁺-grown cultures of the cyanobacterium Anabaena L-31 the glutamine synthetase activity is only half as much as in N₂-grown cultures. Using a procedure which enables quantitative purification of the enzyme to homogeneity it has been shown that the decrease in the enzyme activity is caused by NH₄⁺-mediated repression. Glutamine synthetase activity in both N₂-grown and NH₄⁺-grown Anabaena remains stable for more than 24 h in the presence of chloramphenicol suggesting low enzyme turnover and an enzyme half-life greater than the generation time (16-18 h) of the cyanobacterium. In N₂-grown cultures, a drastic decrease in the enzyme activity by exogenous NH₄⁺ can be discerned when fresh protein synthesis is prevented by chloramphenicol. The enzyme purified from such cultures has K_m values for NH₄⁺, glutamate Mg²⁺, and ATP similar to those observed for the enzyme from N₂- and NH₄⁺-grown Anabaena, but shows depression in V for all the substrates, leading to drastic decrease in specific activity. The modified enzyme also shows a sharper thermal denaturation profile. These results indicate that NH₄⁺-mediated modification to a less active form may be a means of regulation of glutamine synthetase in N₂-fixing cultures of Anabaena.