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M P Charlton

Showing results (1-10 of 74) with videos related to

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The Biological Bulletin|January 7, 2018
Distribution of Synaptic Specializations in the Frog Cardiac GanglionS Schroeter, M P Charlton
Annals of the New York Academy of Sciences|January 1, 1991
Frequency facilitation is not caused by residual ionized calcium at the frog neuromuscular junctionR Robitaille, M P Charlton
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|January 1, 1992
Presynaptic calcium signals and transmitter release are modulated by calcium-activated potassium channelsR Robitaille, M P Charlton
Glia|July 27, 1999
Non-myelin-forming perisynaptic schwann cells express protein zero and myelin-associated glycoproteinJ Georgiou, M P Charlton
Nature Neuroscience|November 26, 1999
Activity-dependent changes in partial VAMP complexes during neurotransmitter releaseS Y Hua, M P Charlton
Journal of Neuroscience Methods|January 1, 1988
Spatial control of membrane potential: a method for improved voltage clamping of the squid giant synapseM P Charlton, G J Augustine
The Journal of General Physiology|October 1, 1978
Facilitation of transmitter release at squid synapsesM P Charlton, G D Bittner
The Journal of Cell Biology|March 1, 1979
Transverse sarcomere splitting. A possible means of longitudinal growth in crab musclesS S Jahromi, M P Charlton
Journal of Neurophysiology|December 22, 1999
alpha-latrocrustatoxin increases neurotransmitter release by activating a calcium influx pathway at crayfish neuromuscular junctionD B Elrick, M P Charlton
The Journal of General Physiology|October 1, 1978
Presynaptic potentials and facilitation of transmitter release in the squid giant synapseM P Charlton, G D Bittner
Pageof 8

Showing results (1-10 of 74) with videos related to

Sort By:
Pageof 8
The Biological Bulletin|January 7, 2018
Distribution of Synaptic Specializations in the Frog Cardiac GanglionS Schroeter, M P Charlton
Annals of the New York Academy of Sciences|January 1, 1991
Frequency facilitation is not caused by residual ionized calcium at the frog neuromuscular junctionR Robitaille, M P Charlton
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|January 1, 1992
Presynaptic calcium signals and transmitter release are modulated by calcium-activated potassium channelsR Robitaille, M P Charlton
Glia|July 27, 1999
Non-myelin-forming perisynaptic schwann cells express protein zero and myelin-associated glycoproteinJ Georgiou, M P Charlton
Nature Neuroscience|November 26, 1999
Activity-dependent changes in partial VAMP complexes during neurotransmitter releaseS Y Hua, M P Charlton
Journal of Neuroscience Methods|January 1, 1988
Spatial control of membrane potential: a method for improved voltage clamping of the squid giant synapseM P Charlton, G J Augustine
The Journal of General Physiology|October 1, 1978
Facilitation of transmitter release at squid synapsesM P Charlton, G D Bittner
The Journal of Cell Biology|March 1, 1979
Transverse sarcomere splitting. A possible means of longitudinal growth in crab musclesS S Jahromi, M P Charlton
Journal of Neurophysiology|December 22, 1999
alpha-latrocrustatoxin increases neurotransmitter release by activating a calcium influx pathway at crayfish neuromuscular junctionD B Elrick, M P Charlton
The Journal of General Physiology|October 1, 1978
Presynaptic potentials and facilitation of transmitter release in the squid giant synapseM P Charlton, G D Bittner
Pageof 8