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Nature
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May 14, 1992
Law of mass action
L Segel, J J Tyson
Bulletin of Mathematical Biology
|
September 22, 2007
Theory of fast neurotransmitter release control based on voltage-dependent interaction between autoreceptors and proteins of the exocytotic machinery
K Yusim, H Parnas, L Segel
Journal of Theoretical Biology
|
April 21, 1986
A new method for determining co-operativity in neurotransmitter release
H Parnas, I Parnas, L Segel
Biological Cybernetics
|
January 1, 1995
Modulated excitability: a new way to obtain bursting neurons
E Sivan, L Segel, H Parnas
Journal of Theoretical Biology
|
October 7, 1997
"First step" negative feedback accounts for inhibition of fast neurotransmitter release
R Khanin, H Parnas, L Segel
Biophysical Journal
|
September 1, 1994
Diffusion cannot govern the discharge of neurotransmitter in fast synapses
R Khanin, H Parnas, L Segel
Biophysical Journal
|
February 1, 1997
A mechanism for discharge of charged excitatory neurotransmitter
R Khanin, H Parnas, L Segel
Journal of Theoretical Biology
|
May 22, 1990
Release kinetics as a tool to describe drug effects on neurotransmitter release
C Lustig, H Parnas, L Segel
Journal of Theoretical Biology
|
September 15, 1998
The diffusion of molecules in axonal plasma membranes: the sites of insertion of new membrane molecules and their distribution along the axon surface
R Khanin, L Segel, A H Futerman
Biophysical Journal
|
April 1, 1996
Neurotransmitter discharge and postsynaptic rise times
R Khanin, L Segel, H Parnas, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 15) with videos related to
Sort By:
Page
of 2
Nature
|
May 14, 1992
Law of mass action
L Segel, J J Tyson
Bulletin of Mathematical Biology
|
September 22, 2007
Theory of fast neurotransmitter release control based on voltage-dependent interaction between autoreceptors and proteins of the exocytotic machinery
K Yusim, H Parnas, L Segel
Journal of Theoretical Biology
|
April 21, 1986
A new method for determining co-operativity in neurotransmitter release
H Parnas, I Parnas, L Segel
Biological Cybernetics
|
January 1, 1995
Modulated excitability: a new way to obtain bursting neurons
E Sivan, L Segel, H Parnas
Journal of Theoretical Biology
|
October 7, 1997
"First step" negative feedback accounts for inhibition of fast neurotransmitter release
R Khanin, H Parnas, L Segel
Biophysical Journal
|
September 1, 1994
Diffusion cannot govern the discharge of neurotransmitter in fast synapses
R Khanin, H Parnas, L Segel
Biophysical Journal
|
February 1, 1997
A mechanism for discharge of charged excitatory neurotransmitter
R Khanin, H Parnas, L Segel
Journal of Theoretical Biology
|
May 22, 1990
Release kinetics as a tool to describe drug effects on neurotransmitter release
C Lustig, H Parnas, L Segel
Journal of Theoretical Biology
|
September 15, 1998
The diffusion of molecules in axonal plasma membranes: the sites of insertion of new membrane molecules and their distribution along the axon surface
R Khanin, L Segel, A H Futerman
Biophysical Journal
|
April 1, 1996
Neurotransmitter discharge and postsynaptic rise times
R Khanin, L Segel, H Parnas, et al.
Page
of 2