| Abstract: | We have investigated the regulation of the activity and synthesis of the glutamine synthetase (l-glutamate:ammonia ligase (ADP-forming), EC (6.3.1.2) of Azotobacter vinelandii. Synthesis of the enzyme was not repressed by NH+4 and/or a number of amino acids in the growth medium; however, biosynthetic activity was rapidly lost through adenylylation in response to ammonium ion. The enzyme could be prepared as a 'relaxed, divalent-cation-free form which was catalytically inactive. The 'taut', active form could be restored with 1-5 mM Mg2+, Mn2+, Ca2+ or CO2+ and taut-vs.-relaxed difference spectra unique to each divalent cation were generated. Mg2+ and CO2+ each supported biosynthetic catalysis, but with different substrate Km and Vmax values. L-Alanine, glycine and L-aspartate were the most potent of several inhibitors of the biosynthetic and the gamma-glutamyl transferase activities; only aspartate and AMP behaved differentially toward glutamine synthetase adenylylation state: the more highly adenylylated enzyme was more severely affected. Any two of alanine, glycine or AMP showed cumulative inhibition, while the inhibitory effects of groups of three effectors were not cumulative. The Co2+-supported biosynthetic activity of Al vinelandii glutamine synthetase was markedly less sensitive to inhibition my glycine and alanine and was stimulated up to 50% by 1-10 mM aspartate. |
