Alternative oxidase affects ascorbate metabolism in plants under high-light conditions: possible links between respiratory electron transport pathways in mitochondria.

Some aspects of the relationship between ascorbate (Asc) metabolism and the functioning of mitochondrial alternative oxidase (AOX) under moderately high light (MHL, 400 μmol m s) using mutant lines were studied. After 8 h of MHL in the antisense line (AS-12), decreasing the relative reduced Asc pool due to increased ascorbate peroxidase activity was accompanied by the accumulation of a pool of the other highly effective antioxidant - glutathione. In the vitamin C-deficient line (), expression and the Asc pool were expectedly low, and after 8 h of MHL, dehydroascorbate (DHA) content was increased, although slight activation of AOX and L-galacton-1,4-lactone dehydrogenase was detected. In the AOX-inhibited line after 8 h of MHL, both the DHA levels and cytochrome pathway capacity increased. Interestingly, the suppression of AOX in the AS-12 line had a negative effect on the ATP content, whereas the activation of AOX in the line improved the energy balance in MHL conditions. Possible mechanisms of interaction at the level of the ascorbate-glutathione hub and mitochondrial electron transport pathways, mediated through Asc synthesis, for the regulation of energy balance and Asc metabolism during plant adaptation to high light are discussed.