Abstract
Total current-voltage relations were analyzed on nine glyceroltreated surface fibers of frog sartorius muscles in tetrodotoxin-containing isotonic normal Ringer solution. The results indicate that delayed rectification occurs in the sarcolemma on large depolarization and that delayed rectification is only partially inactivated during 1sec of depolarization and not converted into anomalous rectification. The time to peak, the time course of inactivation and the potassium activation potential determined in glycerol-treated fibers were comparable to those analyzed previously in intact fibers. The value of the conductance increase during delayed rectification in glycerol-treated fibers appeared to be smaller than that in intact fibers.
