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R CLAY

Showing results (1-10 of 291) with videos related to

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Environmental Health Perspectives|May 26, 1999
Still moving toward environmental justiceR Clay
Environmental Health Perspectives|October 2, 1998
New tricks for an old assayR Clay
Journal of Neurophysiology|January 11, 2003
On the persistent sodium current in squid giant axonsJohn R Clay
Biophysical Journal|July 1, 1986
Potassium ion accumulation slows the closing rate of potassium channels in squid axonsJ R Clay
Journal of Neurophysiology|June 5, 2015
Novel description of ionic currents recorded with the action potential clamp technique: application to excitatory currents in suprachiasmatic nucleus neuronsJohn R Clay
Biophysical Journal|September 1, 1990
IK inactivation in squid axons is shifted along the voltage axis by changes in the intracellular pHJ R Clay
Progress in Biophysics and Molecular Biology|November 25, 2004
Axonal excitability revisitedJohn R Clay
Biophysical Journal|February 1, 1984
Potassium channel kinetics in squid axons with elevated levels of external potassium concentrationJ R Clay
Frontiers in Cellular Neuroscience|January 9, 2010
Determining k channel activation curves from k channel currents often requires the goldman-hodgkin-katz equationJohn R Clay
Physiological Reports|November 1, 2017
Novel description of the large conductance Ca<sup>2+</sup>-modulated K<sup>+</sup> channel current, BK, during an action potential from suprachiasmatic nucleus neuronsJohn R Clay
Pageof 30

Showing results (1-10 of 291) with videos related to

Sort By:
Pageof 30
Environmental Health Perspectives|May 26, 1999
Still moving toward environmental justiceR Clay
Environmental Health Perspectives|October 2, 1998
New tricks for an old assayR Clay
Journal of Neurophysiology|January 11, 2003
On the persistent sodium current in squid giant axonsJohn R Clay
Biophysical Journal|July 1, 1986
Potassium ion accumulation slows the closing rate of potassium channels in squid axonsJ R Clay
Journal of Neurophysiology|June 5, 2015
Novel description of ionic currents recorded with the action potential clamp technique: application to excitatory currents in suprachiasmatic nucleus neuronsJohn R Clay
Biophysical Journal|September 1, 1990
IK inactivation in squid axons is shifted along the voltage axis by changes in the intracellular pHJ R Clay
Progress in Biophysics and Molecular Biology|November 25, 2004
Axonal excitability revisitedJohn R Clay
Biophysical Journal|February 1, 1984
Potassium channel kinetics in squid axons with elevated levels of external potassium concentrationJ R Clay
Frontiers in Cellular Neuroscience|January 9, 2010
Determining k channel activation curves from k channel currents often requires the goldman-hodgkin-katz equationJohn R Clay
Physiological Reports|November 1, 2017
Novel description of the large conductance Ca<sup>2+</sup>-modulated K<sup>+</sup> channel current, BK, during an action potential from suprachiasmatic nucleus neuronsJohn R Clay
Pageof 30