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The Effect of Light on the Tricarboxylic Acid Cycle in Green Leaves

III. A Comparison between Some C₃ and C₄ Plants

^a Department of Environmental Biology, Research School of Biological Sciences, Australian National University, Canberra, A. C. T., Plant Physiology Unit, Commonwealth Scientific and Industrial Research Organization, Division of Food Research, and School of Biological Sciences, Macquarie University, North Ryde 2113, Sydney, Australia

The chlorophyll-based specific activity of cytochrome oxidase and three exclusively mitochondrial enzymes of the tricarboxylic acid cycle showed little variation between leaves of C₃ and C₄ plants or between mesophyll and bundle sheath cells of Atriplex spongiosa and Sorghum bicolor. However, a large, light-dependent transfer of label from intermediates of the tricarboxylic acid cycle to photosynthetic products was a feature of leaves of C₄ plants. This light-dependent transfer of label was barely detectable in leaves of C₃ plants and in leaves of F₁ and F₃ hybrids of Atriplex rosea (C₄) and Atriplex patula spp hastata (C₃). The light-dependent transfer of label to photosynthetic products in leaves of C₄ plants was inhibited by the tricarboxylic acid cycle inhibitors malonate and fluoroacetate. The requirement for continued tricarboxylic acid cycle activity was also indicated in experiments with specifically labeled succinate-¹⁴C. These experiments, together with the distribution of ¹⁴C in glucose prepared from sucrose-¹⁴C formed during the metabolism of succinate-2,3-¹⁴C, confirmed that the photosynthetic metabolism of malate and aspartate derived from the tricarboxylic acid cycle, and not the refixation of respiratory CO₂, was the main path of carbon from the cycle to photosynthesis.