ABSTRACT
Lemna minor has the potential to assimilate ammonia via either the glutamine or glutamate pathways. A 3-4 fold variation in the level of ferredoxindependent glutamate synthase may occur, when plants are grown on different nitrogen sources, but these changes show no simple relationship to changes in the endogenous pool of glutamate. High activities of glutamate synthase and glutamine synthetase at low ammonia availability suggests that these two enzymes function in the assimilation of low ammonia concentrations. Increasing ammonia availability leads to a reduction in level of glutamate synthase and glutamine synthetase and an increase in the level of glutamate dehydrogenase. Glutamine synthetase and glutamate dehydrogenase are subject to concurrent regulation, with glutamine rather than ammonia, exerting negative control on glutamine synthetase and positive control on glutamate dehydrogenase. The changes in the ratio of these two enzymes in response to the internal pool of glutamine could regulate the direction of the flow of ammonia into amino acids via the two alternative routes of assimilation.
ABSTRACT
The specific activity of glutamine synthetase (E.C. 6.3.1.2) of Lemna minor L. is markedly reduced when either ammonium ions or glutamine are present in the growth medium. Combinations of 5 mM ammonia and 5 mM glutamic acid or 5 mM ammonia and 5 mM glutamine as nitrogen source, lead to a 4-5 fold reduction of the maximum activity measurable on 5 mM γ-aminobutyric acid. Analyses of the soluble pool of nitrogen indicate that the reduction in enzyme level is associated with an increase in the pool of glutamine. There is an inverse correlation between the apparent rate of synthesis of glutamine synthetase and the intracellular concentration of glutamine, and this relationship suggests that the glutamine synthetase of Lemna minor is subject to end product repression by the endogenous pool of glutamine.
