CAPACITIES OF PEA-CHLOROPLASTS TO CATALYZE THE OXIDATIVE PENTOSE-PHOSPHATE PATHWAY AND GLYCOLYSIS

The aim of this work was to measure the capacities of pea (Pisum sativum) shoot chloroplasts to catalyse the oxidative pentose phosphate pathway and glycolysis. Of the total activities in the unfractionated homogenates, appreciable proportions of those of glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, and phosphofructokinase, and smaller but significant proportions of those of phosphopyruvate hydratase and pyruvate kinase were recovered in crude preparations of chloroplasts, and co-purified with intact chloroplasts on sucrose gradients. The activities in the chloroplasts showed considerable latency that was closely correlated with chloroplast integrity. Phosphoglyceromutase activity in the above preparations of chloroplasts did not exceed that expected from cytoplasmic contamination. The mass-action ratio for phosphoglyceromutase in illuminated isolated chloroplasts differed markedly from the enzyme's equilibrium constant. Isolated chloroplasts converted 2-phosphoglycerate to pyruvate. The enzyme activities of the chloroplasts were compared with the rates of respiration and starch breakdown in pea leaves in the dark. It is concluded that in the dark chloroplasts could metabolize all the products of starch breakdown and catalyse much of the respiration of pea shoots via the oxidative pentose phosphate pathway and/or glycolysis as far as 3-phosphoglycerate. It is suggested that pea shoot chloroplasts lack phosphoglyceromutase but contain some phosphopyruvate hydratase and pyruvate kinase. © 1979.