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International Review of Neurobiology
|
January 1, 1990
On the contribution of mathematical models to the understanding of neurotransmitter release
H Parnas, I Parnas, L A Segel
Bulletin of Mathematical Biology
|
December 6, 2001
One-vesicle hypothesis for neurotransmitter release: a possible molecular mechanism
K Yusim, H Parnas, L A Segel
The Journal of Physiology
|
June 1, 1985
Dopaminergic modulation of neuromuscular transmission in the prawn
M W Miller, H Parnas, I Parnas
Biophysical Journal
|
May 1, 1989
Sequential model to describe the nicotinic synaptic current
H Parnas, M Flashner, M E Spira
Journal of Theoretical Biology
|
May 21, 1986
On the quantal hypothesis of neurotransmitter release: an explanation for the calcium dependence of the binomial parameters
C Lustig, H Parnas, L A Segel
Neuroscience
|
November 2, 2010
A novel, extremely fast, feedback inhibition of glutamate release in the crayfish neuromuscular junction
Y 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 junction
I Slutsky, I Silman, I Parnas, et al.
Biological Cybernetics
|
January 1, 1993
A basic biophysical model for bursting neurons
E Av-Ron, H Parnas, L A Segel
The European Journal of Neuroscience
|
January 1, 1996
Glutamate depresses release by activating non-conventional glutamate receptors at crayfish nerve terminals
I Parnas, J Dudel, H Parnas, et al.
The European Journal of Neuroscience
|
April 1, 1996
Open channel block by physostigmine and procaine in embryonic-like nicotinic receptors of mouse muscle
J Bufler, C Franke, H Parnas, et al.
Page
of 10
Search research articles
Search
Showing results (61-70 of 94) with videos related to
Sort By:
Page
of 10
International Review of Neurobiology
|
January 1, 1990
On the contribution of mathematical models to the understanding of neurotransmitter release
H Parnas, I Parnas, L A Segel
Bulletin of Mathematical Biology
|
December 6, 2001
One-vesicle hypothesis for neurotransmitter release: a possible molecular mechanism
K Yusim, H Parnas, L A Segel
The Journal of Physiology
|
June 1, 1985
Dopaminergic modulation of neuromuscular transmission in the prawn
M W Miller, H Parnas, I Parnas
Biophysical Journal
|
May 1, 1989
Sequential model to describe the nicotinic synaptic current
H Parnas, M Flashner, M E Spira
Journal of Theoretical Biology
|
May 21, 1986
On the quantal hypothesis of neurotransmitter release: an explanation for the calcium dependence of the binomial parameters
C Lustig, H Parnas, L A Segel
Neuroscience
|
November 2, 2010
A novel, extremely fast, feedback inhibition of glutamate release in the crayfish neuromuscular junction
Y 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 junction
I Slutsky, I Silman, I Parnas, et al.
Biological Cybernetics
|
January 1, 1993
A basic biophysical model for bursting neurons
E Av-Ron, H Parnas, L A Segel
The European Journal of Neuroscience
|
January 1, 1996
Glutamate depresses release by activating non-conventional glutamate receptors at crayfish nerve terminals
I Parnas, J Dudel, H Parnas, et al.
The European Journal of Neuroscience
|
April 1, 1996
Open channel block by physostigmine and procaine in embryonic-like nicotinic receptors of mouse muscle
J Bufler, C Franke, H Parnas, et al.
Page
of 10