Stimulation of potato tuber respiration by cold stress is associated with an increased capacity of both plant uncoupling mitochondrial protein (PUMP) and alternative oxidase

The CO₂ evolution of intact potato tubers (Solanum tuberosum, L., var. Bintje) was analyzed during a 10-day period of their warm (25 ± 2°C) or cold (5 ± 1°C) storage, to evaluate cold-stress effects on expression and activities of plant uncoupling mitochondrial protein (PUMP) and alternative oxidase (AOX). CO₂ evolution rates were analyzed at 20°C, to reflect their possible capacities. The 20°C CO₂ production declined from 13 to 8 mg kg^–1 h^–1 after 2 days of warm storage and then (after 3 to 7 days) decreased from 8 to 6.5 mg kg^–1 h^–1. In contrast, 20°C CO₂ evolution did not change after the first day of cold storage, increased up to 14.5 mg kg^–1 h^–1 after 2 days, and decreased to about 12 mg kg^–1 h^–1 after 3 to 7 days of cold storage. Cold storage increased PUMP expression as detected by Western blots and led to elevated capacities of both PUMP (44%) and CN-resistant AOX (10 times), but not the cytochrome pathway. Since we found that cold storage led to about the same mitochondrial respiration of 40 nmol O₂ min^–1 mg^–1 attributable to each of the respective proteins, we conclude that both AOX and PUMP equally contribute to adaptation of potato tubers to cold.