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Metabolic interactions between organelles in photosynthetic tissue: a mitochondrial overview
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- By J.T. Wiskich, University of Adelaide, E. Meidan, University of Adelaide
- Edited by Alyson K. Tobin, University of Manchester
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- Book:
- Plant Organelles
- Published online:
- 05 December 2011
- Print publication:
- 15 October 1992, pp 1-20
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- Chapter
- Export citation
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Summary
The photosynthetic cell is particularly active when illuminated and interactions occur among chloroplasts, mitochondria, peroxisomes and the cytoplasm, which, although not an organelle, represents a separate cellular compartment. For one organelle to affect the metabolism of another there needs to be a transfer of metabolites so that the second organelle experiences a changed metabolite condition (e.g. substrate:product; NADH:NAD; ATP:ADP). This metabolite transfer may occur directly between organelles when their membranes are in contact or, indirectly, into the medium common to both, i.e. the cytoplasm. These metabolic interactions are dependent on metabolite transport across organelle membranes (Heldt & Flügge, 1987).
The phosphate translocator of chloroplasts can elevate the cytoplasmic concentrations of triose-P, ATP and reduced NAD. These compounds influence mitochondrial respiration by acting as substrates or as feedback inhibitors, producing adenylate or respiratory control. Metabolic control results from complex, multi-component interactions and is best understood with metabolic control analysis (Kacser, 1987).
Much has been written about the persistence of mitochondrial activity (tricarboxylic acid cycle turnover, electron flow and oxidative phosphorylation) in illuminated leaves. The comments have ranged from a complete shutdown of mitochondrial activity imposed by the high cytosolic ATP/ADP ratios in the light (Heber, 1974); maintenance of TCA cycle activity (Azcón-Bieto & Osmond, 1983); increased rates of oxygen uptake (Azcón-Bieto & Day, 1983; Stitt et al., 1985 – although not necessarily linked to ATP synthesis) to a dependence of photosynthetic activity on mitochondrial oxidative phosphorylation (Krömer et al., 1988). The current view is that mitochondrial activity, including oxidative phosphorylation, does persist in leaf cells during photosynthesis.