PATCH-CLAMP ANALYSIS OF THE DOMINANT PLASMA-MEMBRANE K+ CHANNEL IN ROOT CELL PROTOPLASTS OF PLANTAGO-MEDIA L - ITS SIGNIFICANCE FOR THE P-STATE AND K-STATE

Ion channels in the plasma membrane of root cell protoplasts of Plantago media L. were studied with the patch clamp technique in the cell-attached patch and outside-out patch configuration. An outward rectifying potassium channel was dominantly present in the plasma membrane. It appears responsible for the diffusional part, dominated by the K+ diffusion potential, of the cell membrane potential, in vivo. This channel is activated at potentials near to and more positive than the K+ diffusion potential. The dependence of this ion channel on K+ activity and voltage has been characterized. The current-voltage relationships of the open channel at various K+ concentrations are described by a four-state model. The membrane potential of intact protoplasts appears either dominated by the K+ diffusion potential, the protoplast is then said to be in the K state, or by the pump potential generated by the plasma membrane-bound proton pump/H+ ATPase, the P state. An experimental procedure is described to determine in cell-attached patch mode the state of the protoplast, either K or P state.