Photorespiratory ammonium assimilation in chloroplasts of Chlamydomonas reinhardtii

The effect of CO₂ concentration on the rate of photorespiratory ammonium excretion and on glutamine synthetase (GS) and carbonic anhydrase (CA) isoenzymes activities has been studied in Chlamydomonas reinhardtii cw-15 mutant (lacking cell wall) and in the high CO₂-requiring double mutant cia-3/cw-15 (lacking cell wall and chloroplastic carbonic anhydrase). In cw-15 cells, both the extracellular (CA_ext) and chloroplastic (CA_chl) CA activities increased after transferring cells from media bubbled with 5% CO₂ in air (v/v, high-C_i cells) to 0.03% CO₂ (low-C_i cells), whereas in cia-3/cw-15 cells only the CA_ext was induced after adaptation to low-C_i conditions and the CA_chl activity was negligible. During adaptation to low-C_i conditions in the presence of 1 mM of l-methionine-D,L-sulfoximine (MSX), a specific inhibitor of GS activity, both mutant strains excreted photorespiratory ammonium into nitrogen free medium. In addition, the ammonium excretion rate by cw-15 in the presence of MSX was lower in cells grown and kept at 5% CO₂ than in high-C_i cells adapted to 0.03% CO₂. The double mutant cia-3/cw-15 excreted photorespiratory ammonium at a higher rate than did cw-15. Total GS activity (GS-1 plus GS-2) increased during adaptation to 0.03% CO₂ in both strains of C. reinhardtii. However, only the activity GS-2, which is located in the chloroplast, increased during the adaptation to low CO₂, whereas the cytosolic GS-1 levels remained similar in high and low-C_i cells. We conclude that: (1) cia-3/cw-15 cells lack chloroplastic CA activity; (2) in C. reinhardtii photorespiratory ammonium is refixed in the chloroplasts through the GS-2/GOGAT cycle; and (3) chloroplastic GS-2 concentration changes in response to the variation of environmental CO₂ concentration.