Nonuniform Response in the Squid Axon Membrane Under ‘Voltage-Clamp’

¹ From the Laboratory of Neurophysiology, National Institute of Neurological Diseases and Blindness, National Institutes of Health, Bethesda, Maryland

By cooling a portion of the squid giant axon at a time, it was shown that the repetitive membrane currents observed under the so-called voltage-clamp conditions derived from the main portion of the ‘clamped’ axon membrane and not from the lateral unclamped portion. An improvement of the guard system by the use of the method of ‘double voltage-clamp’ also supported this conclusion. Using a microelectrode introduced through the axon surface, it was found that, when the clamping level was between 20 and 35 mv, some part of the membrane became fully active while other parts remained at rest. In this range of membrane depolarization, the active area was found to increase with increasing depolarization. It was stressed that spatial nonuniformity of the squid axon membrane has to be taken into consideration in the interpretation of the results of so-called voltage-clamp experiments.

This article has been cited by other articles:

				K. FRANK, M. G. F. FUORTES, and P. G. NELSON Voltage Clamp of Motoneuron Soma Science, July 3, 1959; 130(3366): 38 - 39. [Abstract] [PDF]