Abstract

Abstract. Treatment with weak acids (butyrate, isobutyrate, trimethylacetate, DMO) at a concentration of I mol m −3 in apical maize root segments induced a rapid, marked hyperpolarization ( ca. 30 mV) of the transmembrane electrical potential, stable for at least 30 min. With butyrate, this effect increased with the increase of butyrate concentration in the medium, reaching a value of ca. 75 mV at a concentration of 5 mol m −3 . Both the butyrate uptake and the hyperpolarization were roughly proportional to the pH‐regulated, undissociated/dissociated acid ratio in the medium. The butyrate‐induced hyperpolarization was reduced progressively, but was still present when K + concentration in the medium was raised from 1 to 10 mol m −3 . The hyperpolarization was accompanied by a significant increase of K + uptake, and was almost completely suppressed by the presence of the protonophore carbonylcyanid‐ p ‐trichlorometoxy‐phenylhydrazone (CCCP) and strongly reduced by erytrosin B, an inhibitor of some animal ATPases and of a K + ‐activated, DCCD‐ and vanadate‐sensitive Mg 2+ ‐ATPase from plant microsomes. The hyperpolarization effect of butyrate was additive to that of fusicoccin at low, but not at high (5 mol m −3 ), concentrations of the weak acid. These results suggest that the intracellular pH regulates the activity of the electrogenic proton pump at the plasmalemma.