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R Werman

Showing results (31-40 of 47) with videos related to

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Brain Research|August 22, 1983
Mediobasal hypothalamic neurons are excited by the iontophoretic application of sodiumI Mandelbrod, S Feldman, R Werman
Brain Research|August 10, 1981
Modification of responses to sensory and hippocampal stimuli in neurons of the rat mediobasal hypothalamus in the presence of iontophoretically applied cortisolI Mandelbrod, S Feldman, R Werman
The Journal of Physiology|October 1, 1988
Electrophysiology of degenerating neurones in the vagal motor nucleus of the guinea-pig following axotomyR Laiwand, R Werman, Y Yarom
Brain Research|November 15, 1974
Inhibition of firing is the primary effect of microelectrophoresis of cortisol to units in the rat tuberal hypothalamusI Mandelbrod, S Feldman, R Werman
Journal of Neurophysiology|May 1, 1979
Voltage sensitivity of small, focal transient potassium depolarizations in snail neurons: relevance for diagnosis of chemical synaptic activityP Rudomin, E Stefani, R Werman
Brain Research|April 30, 1976
Penicillin decreases chloride conductance in crustacean muscle: a model for the epileptic neuronB Hochner, M E Spira, R Werman
The Journal of Physiology|October 1, 1992
An analysis of the long-lasting after-hyperpolarization of guinea-pig vagal motoneuronesS D Hocherman, R Werman, Y Yarom
The Journal of Physiology|January 1, 1980
Post-synaptic conductance increase associated with presynaptic inhibition in cat lumbar motoneuronesP L Carlen, R Werman, Y Yaari
Brain Research|November 26, 1976
Diamide acts intracellularly to enhance transmitter release: the differential permeation of diamide, DIP, DIP+1 and DIP+2 across the nerve terminal membraneP L Carlen, E M Kosower, R Werman
Brain Research|November 26, 1976
The thiol-oxidizing agent diamide increases transmitter release by decreasing calcium requirements for neuromuscular transmission in the frogP L Carlen, E M Kosower, R Werman
Pageof 5

Showing results (31-40 of 47) with videos related to

Sort By:
Pageof 5
Brain Research|August 22, 1983
Mediobasal hypothalamic neurons are excited by the iontophoretic application of sodiumI Mandelbrod, S Feldman, R Werman
Brain Research|August 10, 1981
Modification of responses to sensory and hippocampal stimuli in neurons of the rat mediobasal hypothalamus in the presence of iontophoretically applied cortisolI Mandelbrod, S Feldman, R Werman
The Journal of Physiology|October 1, 1988
Electrophysiology of degenerating neurones in the vagal motor nucleus of the guinea-pig following axotomyR Laiwand, R Werman, Y Yarom
Brain Research|November 15, 1974
Inhibition of firing is the primary effect of microelectrophoresis of cortisol to units in the rat tuberal hypothalamusI Mandelbrod, S Feldman, R Werman
Journal of Neurophysiology|May 1, 1979
Voltage sensitivity of small, focal transient potassium depolarizations in snail neurons: relevance for diagnosis of chemical synaptic activityP Rudomin, E Stefani, R Werman
Brain Research|April 30, 1976
Penicillin decreases chloride conductance in crustacean muscle: a model for the epileptic neuronB Hochner, M E Spira, R Werman
The Journal of Physiology|October 1, 1992
An analysis of the long-lasting after-hyperpolarization of guinea-pig vagal motoneuronesS D Hocherman, R Werman, Y Yarom
The Journal of Physiology|January 1, 1980
Post-synaptic conductance increase associated with presynaptic inhibition in cat lumbar motoneuronesP L Carlen, R Werman, Y Yaari
Brain Research|November 26, 1976
Diamide acts intracellularly to enhance transmitter release: the differential permeation of diamide, DIP, DIP+1 and DIP+2 across the nerve terminal membraneP L Carlen, E M Kosower, R Werman
Brain Research|November 26, 1976
The thiol-oxidizing agent diamide increases transmitter release by decreasing calcium requirements for neuromuscular transmission in the frogP L Carlen, E M Kosower, R Werman
Pageof 5