Inhibition of the phosphate transporter during isolation of intact chloroplasts from leaves of sunflower

Abstract

Chloroplasts isolated from spinach leaves by the mechanical method were intact and exhibited high rates of CO2-dependent oxygen evolution whereas chloroplasts isolated from sunflower leaves by the same technique were also intact but showed only low rates of oxygen evolution. The rate of uptake of orthophosphate (Pi) from the suspending medium with sunflower chloroplasts was less than 20% of that in spinach chloroplasts. The apparent Km for Pi transport was lower in sunflower chloroplasts but uptake was competitively inhibited by 3-phosphoglycerate in chloroplasts from both species. Uptake of malate (via the dicarboxylate transporter) and of ATP (via the adenine nucleotide transporter) was also reduced in sunflower chloroplasts compared to spinach chloroplasts. The endogenous Pi content and total exchangeable phosphate pool of sunflower chloroplasts were less than half that in spinach chloroplasts.Addition of a number of possible protective agents to the grinding medium failed to prevent the loss of photosynthetic activity during mechanical isolation of sunflower chloroplasts. Grinding mixtures of spinach and sunflower leaves together indicated that spinach chloroplasts were not inhibited by the sunflower leaf extract. Chloroplasts isolated from sunflower leaves via protoplasts had high rates of CO2-dependent oxygen evolution. The Vmax and Km for Pi uptake, endogenous Pi content and total exchangeable phosphate pool of chloroplasts isolated from sunflower protoplasts were all similar to spinach chloroplasts. It is concluded that inner envelope membrane proteins are damaged during mechanical isolation of sunflower chloroplasts. The decrease in activity of the phosphate transporter and loss of endogenous phosphate may contribute to the low rates of photosynthesis observed in chloroplasts isolated by the mechanical method from leaves of sunflower and possibly other species.