Abstract: | The current/voltage {I/V) relations of the plasma membrane ofChara corallina cells are characteristic when the bathing mediumhas elevated (5-0 mM) concentrations of potassium Addition ofeither 0-5 mM femcyanide or 0-5 mM ferrocyanide usually induceda qualitatively similar increase in the leak current,with a concomitant increase in membrane conductance. Both redoxreactants failed for unknown reasons to affect the I/V profileof some of the cells tested In the sensitive cells, femcyanidewas unable to generate extra current over that found upon additionof ferrocyanide Because the feiTocyanide oxidation rate of thecells is only 10% of the femcyanide reduction rate, we concludethat both forms, fern- and ferrocyanide, affect the 'leak' conductanceindependent of the redox state of the reactants, i e ferrocyanidedoes not act indirectly via an oxidation to femcyanide Hence,under the experimental conditions, we were unable to detecta current that could be assigned to the operation of a transmembraneredox system Furthermore, the fern- and ferrocyanide inducedshift in the I/V profile only reversed slowly after withdrawalof the redox reactants. This suggests that the elicited currentis independent of the presence of an extracellular electronacceptor, i.e on the continuous operation of a proposed transmembraneredox system Key words: Current/voltage curves, transmembrane reductase, voltage clamp, femcyanide, ferrocyanide, Chara |