Effect of temperature on growth, proton extrusion and membrane potential in maize (Zea mays L.) coleoptile segments

Abstract

The effects of temperature (5–45°C) on endogenous growth, growth in the presence of either indoleacetic acid (IAA) or fusicoccin (FC), and proton extrusion in maize coleoptile segments were studied. In addition, membrane potential changes at some temperatures were also determined. It was found that in this model system endogenous growth exhibits a clear maximum at 30°C, whereas growth in the presence of IAA and FC shows the maximum value in the range 30–35°C and 35–40°C, respectively. Simultaneous measurements of growth and external medium pH indicated that FC at stressful temperatures was not only much more active in the stimulation of growth, but was also more effective in acidifying the external medium than IAA. Also the addition of either IAA or FC to the bathing medium at 30 and 40°C did not change the kinetic characteristic of membrane potential changes observed for both substances at 25°C. However, the increased temperature significantly decreased IAA and FC-induced membrane hyperpolarization. IAA in the incubation medium, at 10°C, brought about additional membrane depolarization (apart from the one induced by low temperature). In contrast to IAA, FC at 10°C caused gradual repolarization of membrane potential, which correlated with both FC-induced growth and FC-induced proton extrusion. A plausible interpretation for temperature-induced changes in growth of maize coleoptile segments is that, at least in part, these changes were mediated via a PM H+-ATPase activity.