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Evidence for Cyclic Photophosphorylation during ¹⁴CO₂ Fixation in Intact Chloroplasts

Studies with Antimycin A, Nitrite, and Oxaloacetate

Department of Environmental Biology, Research School of Biological Sciences, Australian National University, P. O. Box 475, Canberra City, Australia

This study examines the effect of antimycin A and nitrite on ¹⁴CO₂ fixation in intact chloroplasts isolated from spinach (Spinacia oleracea L.) leaves. Antimycin A (2 micromolar) strongly inhibited CO₂ fixation but did not appear to inhibit or uncouple linear electron transport in intact chloroplasts. The addition of small quantities (40-100 micromolar) of nitrite or oxaloacetate, but not NH₄Cl, in the presence of antimycin A restored photosynthesis. Antimycin A inhibition, and the subsequent restoration of photosynthetic activities by nitrite or oxaloacetate, was observed over a wide range of CO₂ concentration, light intensity, and temperature. High O₂ concentration (up to 240 micromolar) did not appear to influence the extent of the inhibition by antimycin A, nor the subsequent restoration of photosynthetic activity by nitrite or oxaloacetate. Studies of O₂ exchanges during photosynthesis in cells and chloroplasts indicated that 2 micromolar antimycin A stimulated O₂ uptake by about 25% while net O₂ evolution was inhibited by 76%. O₂ uptake in chloroplasts in the presence of 2 micromolar antimycin A was 67% of total O₂ evolution. These results suggest that only a small proportion of the O₂ uptake measured was directly linked to ATP generation. The above evidence indicates that cyclic photophosphorylation is the predominant energy-balancing reaction during photosynthesis in intact chloroplasts. On the other hand, pseudocyclic O₂ uptake appears to play only a minimal role.

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