Abstract
Effects of cold exposure in vivo and treatment with laurate, carboxyatractylate, atractylate, nucleotides, and BSA in vitro on potato tuber mitochondria have been studied. Cold exposure of tubers for 48–96 h resulted in some uncoupling that could be reversed completely by BSA and partially by ADP, ATP, UDP, carboxyatractylate, and atractylate. UDP was less effective than ADP and ATP, and atractylate was less effective than carboxyatractylate. The recoupling effects of nucleotides were absent when the nucleotides were added after carboxyatractylate. GDP, UDP, and CDP did not recouple mitochondria from either the control or the cold-exposed tubers. This indicates that the cold-induced fatty acid-mediated uncoupling in potato tuber mitochondria is partially due to the operation of the ATP/ADP antiporter. As to the plant uncoupling protein, its contribution to the uncoupling in tuber is negligible or, under the conditions used, somehow desensitized to nucleotides.
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