Ammonia exchange and photorespiration in chlamydomonas

Two hours after the addition of l-methionine-dl-sulfoximine to the cell suspension, glutamine synthetase activity was inhibited by more than 90% in air-grown Chlamydomonas reinhardii. Cells continued to take up NH₃ from the medium provided that the concentration of dissolved CO₂ was high (equilibrated with 4% CO₂ in air). This NH₃ uptake, about 30% of the control, is discussed in terms of glutamate dehydrogenase activity. Without CO₂, or with a low CO₂ level, a NH₃ excretion was observed, the rate of which depended on the actual concentration of the dissolved CO₂. Experiments with ¹⁵NH₃ demonstrated that no NH₃ uptake was masked by this excretion and inversely that no excretion occurred during the uptake in the conditions where it took place. Furthermore, the NH₃ excretion observed in the absence of CO₂ increased when O₂ concentration rose to 15% and was inhibited when 10 millimolar isonicotinic acid hydrazide was supplied to the algal suspension. Thus, NH₃ excretion in the presence of l-methionine-dl-sulfoximine seems to be related to a photorespiratory process inasmuch as it presents the same properties with regard to the O₂ and the isonicotinic acid hydrazide effects. These results favor the hypothesis that NH₃ produced in the medium originates from the glycine to serine reaction. On the other hand, partial inhibition (50%) of photosynthesis by l-methionine-dl-sulfoximine was attributed to uncoupling between electron transfer and photophosphorylation due to NH₃ accumulation into the cell.