C4 Photosynthesis: Light-dependent CO2 Fixation by Mesophyll Cells, Protoplasts, and Protoplast Extracts of Digitaria sanguinalis

Abstract

Mesophyll cells, protoplasts, and protoplast extracts of Digitaria sanguinalis were used for comparative studies of light-dependent CO(2) fixation. CO(2) fixation was low without the addition of organic substrates. Pyruvate, oxaloacetate, and 3-phosphoglycerate induced relatively low rates (10 to 90 mumoles/mg chlorophyll.hr) of CO(2) fixation when added separately. However, a highly synergistic relationship was found between pyruvate + oxaloacetate and pyruvate + 3-phosphoglycerate for inducing light-dependent CO(2) fixation in the mesophyll preparations. Highest rates of CO(2) fixation were obtained with protoplast extracts. Pyruvate, in combination with oxaloacetate or 3-phosphoglycerate induced light-dependent rates from 150 to 380 mumoles of CO(2) fixed/mg chlorophyll.hr which are equivalent to or exceed reported rates of whole leaf photosynthesis in C(4) species. Concentrations of various substrates required to give half-maximum velocities of CO(2) fixation were determined, with the protoplast extracts generally saturating at the lowest substrate concentrations. Chloroplasts separated from protoplast extracts showed little capacity for CO(2) fixation. The results suggest that CO(2) fixation in C(4) mesophyll cells is dependent on chloroplasts and extrachloroplastic phosphoenolpyruvate carboxylase.The stimulation of pyruvate-induced CO(2) fixation by oxaloacetate and 3-phosphoglycerate is thought to be due to induction of noncyclic electron transport which generates ATP for the conversion of pyruvate to phosphoenolpyruvate by pyruvate Pi dikinase. The primary products of the substrate-induced CO(2) fixation were oxaloacetate and malate, which provides further evidence for carbon fixation through the beta-carboxylation pathway. High rates of light-dependent CO(2) fixation with a significant percentage of (14)C fixed into malate suggest an efficient operation of both photosystems I and II.The substrate inductions are discussed with respect to the proposed role of the mesophyll cell in C(4) photosynthesis, and schemes suggesting the stoichiometry of energy requirements for photosynthetic carbon metabolism in C(4) mesophyll cells are presented.