Effect of high pH on the plasma membrane potential and conductance in Elodea densa.

Abstract

In leaves of Elodea densa the membrane potential measured in light equals the equilibrium potential of H+ on the morphological upper plasma membrane. The apoplastic pH on the upper side of the leaf is as high as 10.5-11.0, which indicates that alkaline pH induces an increased H+ permeability of the plasmalemma. To study this hypothesis in more detail we investigated the changes in membrane potential and conductance in response to alterations in the external pH from 7 (= control) to 9 or 11 under both light and dark conditions. Departing from the control pH 7 condition, in light and in dark the application of pH 9 resulted in a depolarization of the membrane potential to the Nernst potential of H+. In the light but not in the dark, this depolarization was followed by a repolarization to about -160 mV. The change to pH 9 induced, in light as well as in dark, an increase in membrane conductance. The application of pH 11, which caused a momentary hyper- or depolarization depending on the value at the time pH 11 was applied, brought the membrane potential to around -160 mV. The membrane conductance also increased, in comparison to its value at pH 7, as a result of the application of pH 11, irrespective of the light conditions.