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Stephen C Cannon

Showing results (21-30 of 59) with videos related to

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The Journal of General Physiology|June 27, 2007
A Na+ channel mutation linked to hypokalemic periodic paralysis exposes a proton-selective gating poreArie F Struyk, Stephen C Cannon
Muscle & Nerve|November 28, 2007
Paradoxical depolarization of BA2+- treated muscle exposed to low extracellular K+: insights into resting potential abnormalities in hypokalemic paralysisArie F Struyk, Stephen C Cannon
The Journal of General Physiology|October 3, 2002
Slow inactivation does not block the aqueous accessibility to the outer pore of voltage-gated Na channelsArie F Struyk, Stephen C Cannon
The Journal of Clinical Investigation|December 30, 2009
Sodium channels gone wild: resurgent current from neuronal and muscle channelopathiesStephen C Cannon, Bruce P Bean
Brain : a Journal of Neurology|October 22, 2013
Beneficial effects of bumetanide in a CaV1.1-R528H mouse model of hypokalaemic periodic paralysisFenfen Wu, Wentao Mi, Stephen C Cannon
The Journal of General Physiology|August 31, 2021
Gating pore currents occur in CaV1.1 domain III mutants associated with HypoPPFenfen Wu, Marbella Quinonez, Stephen C Cannon
Neurology|February 22, 2013
Bumetanide prevents transient decreases in muscle force in murine hypokalemic periodic paralysisFenfen Wu, Wentao Mi, Stephen C Cannon
The Journal of General Physiology|July 16, 2014
Disrupted coupling of gating charge displacement to Na+ current activation for DIIS4 mutations in hypokalemic periodic paralysisWentao Mi, Volodymyr Rybalchenko, Stephen C Cannon
Pflugers Archiv : European Journal of Physiology|October 23, 2008
Slow inactivation of the NaV1.4 sodium channel in mammalian cells is impeded by co-expression of the beta1 subunitJadon Webb, Fen-fen Wu, Stephen C Cannon
The Journal of General Physiology|July 20, 2019
A four-electrode method to study dynamics of ion activity and transport in skeletal muscle fibersJudith A Heiny, Stephen C Cannon, Marino DiFranco
Pageof 6

Showing results (21-30 of 59) with videos related to

Sort By:
Pageof 6
The Journal of General Physiology|June 27, 2007
A Na+ channel mutation linked to hypokalemic periodic paralysis exposes a proton-selective gating poreArie F Struyk, Stephen C Cannon
Muscle & Nerve|November 28, 2007
Paradoxical depolarization of BA2+- treated muscle exposed to low extracellular K+: insights into resting potential abnormalities in hypokalemic paralysisArie F Struyk, Stephen C Cannon
The Journal of General Physiology|October 3, 2002
Slow inactivation does not block the aqueous accessibility to the outer pore of voltage-gated Na channelsArie F Struyk, Stephen C Cannon
The Journal of Clinical Investigation|December 30, 2009
Sodium channels gone wild: resurgent current from neuronal and muscle channelopathiesStephen C Cannon, Bruce P Bean
Brain : a Journal of Neurology|October 22, 2013
Beneficial effects of bumetanide in a CaV1.1-R528H mouse model of hypokalaemic periodic paralysisFenfen Wu, Wentao Mi, Stephen C Cannon
The Journal of General Physiology|August 31, 2021
Gating pore currents occur in CaV1.1 domain III mutants associated with HypoPPFenfen Wu, Marbella Quinonez, Stephen C Cannon
Neurology|February 22, 2013
Bumetanide prevents transient decreases in muscle force in murine hypokalemic periodic paralysisFenfen Wu, Wentao Mi, Stephen C Cannon
The Journal of General Physiology|July 16, 2014
Disrupted coupling of gating charge displacement to Na+ current activation for DIIS4 mutations in hypokalemic periodic paralysisWentao Mi, Volodymyr Rybalchenko, Stephen C Cannon
Pflugers Archiv : European Journal of Physiology|October 23, 2008
Slow inactivation of the NaV1.4 sodium channel in mammalian cells is impeded by co-expression of the beta1 subunitJadon Webb, Fen-fen Wu, Stephen C Cannon
The Journal of General Physiology|July 20, 2019
A four-electrode method to study dynamics of ion activity and transport in skeletal muscle fibersJudith A Heiny, Stephen C Cannon, Marino DiFranco
Pageof 6