Channel-mediated K+ flux in barley aleurone protoplasts

Gibberellic acid (GA₃) stimulates K⁺ efflux from the barley (Hordeum vulgare L. cv. Himalaya) aleurone. We investigated the mechanism of K⁺ flux across the plasma membrane of aleurone protoplasts using patch-clamp techniques. Potassium-ion currents, measured over the entire surface of the protoplast plasma membrane, were induced when the electrochemical gradient for K⁺ was inward (into the cytoplasm). The magnitude and voltage-dependence of this inward current were the same in protoplasts treated with GA₃ and in control protoplasts (no GA₃). Inward currents activated by negative shifts in the membrane potential (E_M) from the Nernst potential for K⁺ (E_K) showed membrane conductance to be a function of the electrochemical gradient (i.e. E_M-E_K). Single-channel influx currents of K⁺ were recorded in small patches of the plasma membrane. These channels had a single-channel conductance of 5–10 pS with 100 mM K⁺ on the inside and 10 mM K⁺ on the outside of the plasma membrane. Single-channel currents, like whole-cell currents, were the same in protoplasts treated with GA₃ and control protoplasts. Voltage-gated efflux currents were found only in protoplasts tha thad been incubated without GA₃. We conclude that K⁺ influx in the aleurone is mediated by channels and these membrane proteins are not greatly effected by GA₃.Abbreviations and symbols F_K Nernst potential for K⁺ - E_M membrane potential - E_rev reversal potential - GA₃ gibberellic acid - K_i concentration of K⁺ inside the cell - K_o concentration of K⁺ outside the cell - R gas constant - S conductance (siemens) - T temperature (^oK) - _i ionic activity coefficient for internal (cytoplasmic) solution - _o ionic activity coefficient for external medium