Single potassium channel of anomalous (inward) rectification in mollusk neurons

Currents passing through individual potassium channels with anomalous (inward) rectification were recorded at the neuronal membrane ofPlanorbarius corneus using the patch clamp technique. These currents could be detected, whether in "right side out" or "inside out" configurations in the presence of 50 mM potassium ions or one of the potassium channel blockers: tetraethylammonium (TEA), barium, or cesium (2–20 mM) on the external side of the membrane. Inward currents were observed in individual channels at potentials more negative than level of potassium equilibrium potential (Ek); conductance of these measured 81±12 pS (n=11). At more positive potentials than Ek, conductance fell to zero. Potassium channels with anomalous (inward) rectification inPlanorbarius corneus resemble equivalent channels in other cells in their kinetics: time scale of the open state may be described by a single exponential function. This would imply that the ionic channel has a single open state. Time scale of the closed state was biexponential, thus indicating the possible existence of two kinetically different nonconducting states of the potassium channel with anomalous (inward) rectification at the neuronal membrane ofPlanorbarius corneus.