Studies on the perfused plasmalemma ofChara corallina: I. Current-voltage curves: ATP and potassium dependence

Summary The electrical properties of theChara cell membrane have been studied using a perfusion method based on that of Williamson, R.E. 1975.J. Cell Sci. 17655. The vacuole, tonoplast, and inner cytoplasm are removed by a brief rapid perfusion. Electrical properties of the plasmalemma indicate that it remains intact after this perfusion.The membrane potential difference after perfusion and with no ATP was close to the potassium equilibrium potential; the current-voltage characteristic had a slope that was time- and voltage-dependent, indicating that the steady-state potassium conductance increased with depolarization. At –125 mV the membrane conductance of the plasmalemma depended on K⁺]₀. This dependence was inhibited by perfusing with 2.0mm ATP or by clamping at a more negative membrane potential. The addition of ATP to the perfusion medium of unclamped cells caused a hyperpolarization ofca. 50 mV, presumably by activating the proton pump. In clamped cells, perfusion with ATP caused currents ofca. 20 mA m^–2, whose magnitude depended on pH₀. ATP induced membrane conductance changes which were variable. 2.0mm ADP inhibited the proton pump. The intersection points of current-voltage characteristics can set limits on the stalling potential; the resulting stoichiometry of the proton pump appears to be 1.5–2.0 H⁺ per ATP.