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I Parnas

Showing results (61-70 of 90) with videos related to

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The Journal of Physiology|October 1, 1979
Mechanisms involved in differential conduction of potentials at high frequency in a branching axonY Grossman, I Parnas, M E Spira
The Journal of Physiology|June 1, 1985
Dopaminergic modulation of neuromuscular transmission in the prawnM W Miller, H Parnas, I Parnas
Journal of Neurophysiology|July 1, 1976
Modulation of spike frequency by regions of special axonal geometry and by synaptic inputsM E Spira, Y Yarom, I Parnas
Neuroscience|November 2, 2010
A novel, extremely fast, feedback inhibition of glutamate release in the crayfish neuromuscular junctionY M Kupchik, H Parnas, I Parnas
The Journal of Physiology|November 3, 2001
Presynaptic M(2) muscarinic receptors are involved in controlling the kinetics of ACh release at the frog neuromuscular junctionI Slutsky, I Silman, I Parnas, et al.
The European Journal of Neuroscience|January 1, 1996
Glutamate depresses release by activating non-conventional glutamate receptors at crayfish nerve terminalsI Parnas, J Dudel, H Parnas, et al.
Pflugers Archiv : European Journal of Physiology|July 1, 1984
Excitability and depolarization-release characteristics of excitatory nerve terminals in a tail muscle of spiny lobsterJ Dudel, I Parnas, I Cohen, et al.
Journal of Neurophysiology|September 9, 2000
Novel mechanism for presynaptic inhibition: GABA(A) receptors affect the release machineryI Parnas, G Rashkovan, R Ravin, et al.
Trends in Neurosciences|February 1, 2000
Autoreceptors, membrane potential and the regulation of transmitter releaseH Parnas, L Segel, J Dudel, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|July 1, 1984
Strengthening of synaptic contacts of an excitatory axon on elimination of a second excitatory axon innervating the same targetI Parnas, J Dudel, I Cohen, et al.
Pageof 9

Showing results (61-70 of 90) with videos related to

Sort By:
Pageof 9
The Journal of Physiology|October 1, 1979
Mechanisms involved in differential conduction of potentials at high frequency in a branching axonY Grossman, I Parnas, M E Spira
The Journal of Physiology|June 1, 1985
Dopaminergic modulation of neuromuscular transmission in the prawnM W Miller, H Parnas, I Parnas
Journal of Neurophysiology|July 1, 1976
Modulation of spike frequency by regions of special axonal geometry and by synaptic inputsM E Spira, Y Yarom, I Parnas
Neuroscience|November 2, 2010
A novel, extremely fast, feedback inhibition of glutamate release in the crayfish neuromuscular junctionY M Kupchik, H Parnas, I Parnas
The Journal of Physiology|November 3, 2001
Presynaptic M(2) muscarinic receptors are involved in controlling the kinetics of ACh release at the frog neuromuscular junctionI Slutsky, I Silman, I Parnas, et al.
The European Journal of Neuroscience|January 1, 1996
Glutamate depresses release by activating non-conventional glutamate receptors at crayfish nerve terminalsI Parnas, J Dudel, H Parnas, et al.
Pflugers Archiv : European Journal of Physiology|July 1, 1984
Excitability and depolarization-release characteristics of excitatory nerve terminals in a tail muscle of spiny lobsterJ Dudel, I Parnas, I Cohen, et al.
Journal of Neurophysiology|September 9, 2000
Novel mechanism for presynaptic inhibition: GABA(A) receptors affect the release machineryI Parnas, G Rashkovan, R Ravin, et al.
Trends in Neurosciences|February 1, 2000
Autoreceptors, membrane potential and the regulation of transmitter releaseH Parnas, L Segel, J Dudel, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|July 1, 1984
Strengthening of synaptic contacts of an excitatory axon on elimination of a second excitatory axon innervating the same targetI Parnas, J Dudel, I Cohen, et al.
Pageof 9