An Improved Method for Determining the Ionic Conductance and Capacitance of the Membrane of Chara corallina

The assumption of a single exponential change for the voltageresponse caused by a square current of subthreshold intensityis not necessarily an adequate explanation of the situationin the Chara membrane. By improving the speed of electronicsfor current clamping and the accuracy of data simulation, itwas found that an additional process, which can be generallysimulated with another exponential function, was superimposedon the voltage response. Such an additional exponential processmay be partly atributed to the response of the tonoplast, ifthe internal potential measuring microelectrode is in the vacuole.However, this additional process still remained in the voltageresponse of the plasmalemma of the Chara internode when thetonoplast and a large amount of endoplasm were removed by internalperfusion with an glycol ether diaminetetraacetic acid solution.The additional exponential component arose from the change ofthe electromotive force of the single membrane during applicationof the test current pulse. The increase of the conductance of the plasmalemma alone waslarge during excitation, while that of the elecrostatic capacitancewas negligible. On the other hand, the conductance and capacitancewhich reflect an additional exponential ionic process duringthe test pulse both increased greatly around the peak of excitation.This rise is the main reason for an apparent large increaseof membrane capacitance which was deduced from a simple approximationof the membrane with a single time constant model. (Received January 6, 1982; Accepted June 23, 1982)