Abstract

The role of ammonium in the regulation of nitrite uptake in Chlamydomonas reinhardtii has been investigated under conditions that prevented ammonium assimilation. Prolonged carbon-starvation or inhibition of glutamine synthesis with l-methionine- dl-sulfoximine partially relieved ammonium inhibition of nitrite uptake. However, nitrite uptake was inhibited in both methionine sulfoximine-treated and carbon-starved cells preincubated with ammonium, the inhibition extent in the two cases being directly dependent on the ammonium concentration in the preincubation media. Methionine sulfoximine treatment caused an increase of intracellular ammonium levels. When methionine sulfoximine-treated cells were transferred to ammonium media there existed a linear correlation between intracellular and extracellular ammonium concentration. Addition of methionine sulfoximine to cells with their nitrite uptake system inhibited by ammonium counteracted the effect of ammonium and restored nitrite uptake rate. These results strongly suggest that ammonium itself and a (some) product(s) of its metabolism must act together to block completely nitrite uptake by C. reinhardtii cells. Partial inhibition of nitrite uptake by methylammonium, a structural analogue of ammonium incapable of being used for cell nutrition, supports the above conclusion.

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