Inward Rectifying K+ Channels in the Plasma Membrane of Arabidopsis thaliana

Abstract

Ion channels in the plasma membrane of protoplasts isolated from cultured cells of Arabidopsis thaliana were studied by means of the patch-clamp technique applied in the whole-cell configuration. In some protoplasts, depolarizing pulses and, in other protoplasts, hyperpolarizing pulses elicited time-dependent currents; both kinds of current were only rarely observed in the same protoplast. The hyperpolarization-activated inward rectifying currents, the focus of this paper, appeared to be due to the relatively slow opening of channels (activation time constant = 150 to 300 milliseconds), which closed at positive potentials. The reversal potential of this current, measured in the presence of different ion concentrations (symmetrical or asymmetrical K(+) and Cl(-) or gluconate), was always close to the electrochemical equilibrium potential of K(+). The currents were inhibited by 10 millimolar tetraethylammonium, a K(+) channel blocker. These data show that the hyperpolarization-activated currents flow through K(+) channels, which can provide a pathway for the passive diffusion of K(+) down its electrochemical gradient.