Differential temperature dependencies of antioxidative enzymes in two contrasting species: Fagus sylvatica and Coleus blumei

In order to characterise the sensitivity of antioxidative systems to temperature-induced oxidative stress, two species (Coleus blumei and Fagus sylvatica, L.) representative of environments with contrasting temperature characteristics have been exposed to low or high temperatures of 10 or 35 °C, respectively. Beech leaves were harvested in light and darkness. Coleus leaves were separated into green and white leaf tissue. The thermal dependencies of the activities of protective enzymes and chlorophyll fluorescence over a temperature range from 10 to 35 °C were determined. Ascorbate peroxidase activities were activated at low temperatures in vitro and, thereby, may provide an instantaneous protection against H₂O₂ accumulation which is faster than de novo synthesis. Monodehydroascorbate radical reductase was apparently not involved in short-term acclimation to low or high temperature. After short-term acclimation to low temperature, glutathione reductase and glutathione were more diminished in Coleus than in beech. Both species contained higher concentrations of ascorbate and glutathione at high temperatures than at low temperatures whereas glutathione reductase activity increased. Ascorbate peroxidase activity from Coleus leaves, though detectable under standard assay conditions (25 °C), failed at 35 °C in vitro. The results suggest that the higher temperature susceptibility of Coleus than that of beech was associated with a differential loss in glutathione reductase/glutathione at low temperature and an inhibition of ascorbate peroxidase at high temperature. Since the thermal dependencies of antioxidative enzymes were significantly affected by the preceding environmental conditions, the relative enzymatic activities determined under standard assay conditions may not be representative of enzymatic activities in foliage exposed to varying environmental temperatures.