Adenine Nucleotide Levels, the Redox State of the NADP System, and Assimilatory Force in Nonaqueously Purified Mesophyll Chloroplasts from Maize Leaves under Different Light Intensities

Abstract

Recently, a nonaqueous fractionation method of obtaining highly purified mesophyll chloroplasts from maize leaves was established. This method is now used to determine adenine nucleotide levels, the redox states of the NADP system, Pi levels and dihydroxyacetone phosphate/3-phosphoglycerate ratios in mesophyll chloroplasts of Zea mays L. leaves under different light intensities. The sum of the ATP, ADP, and AMP levels was estimated to be 1.4 millimolar and the ATP/ADP ratio was 1 in the dark and 2.5 to 4 in the light. The adenine nucleotides were equilibrated by adenylate kinase. The total concentration of NADP(H) in the chloroplasts was 0.3 millimolar in the dark and 0.48 millimolar in the light. The ratio of NADPH/NADP was 0.1 to 0.18 in the dark and 0.23 to 0.48 in the light. The Pi level was estimated to be 20 millimolar in the dark and 10 to 17 millimolar in the light. The 3-phosphoglycerate reducing system was under thermodynamic equilibrium in the light. The calculated assimilatory forces were 8 per molar and 40 to 170 per molar in the dark and the light, respectively. There was no relationship between the degree of activation of pyruvate, Pi dikinase, and adenylate energy charge, or ATP/ADP ratio or ADP level under various light intensities. Only a weak relationship was found between the degree of activation of NADP-malate dehydrogenase and the NADPH/NADP ratio or NADP(H) level with increasing light intensity. A possible regulatory mechanism which is responsible for the regulation of activation of pyruvate,Pi dikinase and NADP-malate dehydrogenase is discussed.