Add to ORKGCa2+ currents recorded from Xenopus oocytes expressing only the alpha1C pore-forming subunit of the cardiac Ca2+ channel show Ca2+-dependent inactivation with a single exponential decay. This current-dependent inactivation is not detected for inward Ba2+ currents in external Ba2+. Facilitation of pore opening speeds up the Ca2+-dependent inactivation process and makes evident an initial fast rate of decay. Facilitation can be achieved by (a) coexpression of the beta2a subunit with the alpha1C subunit, or (b) addition of saturating Bay K 8644 (-) concentration to alpha1C channels. The addition of Bay K 8644 (-) to alpha1Cbeta2a channels makes both rates of inactivation faster. All these maneuvers do not induce inactivation in Ba2+ currents i...
AbstractThe molecular basis for inactivation in CaV2.3 (α1E) channels was studied after expression o...
AbstractThe stably expressed Ca2+ channel α1C-a and α1C-b subunit were used to investigate the molec...
AbstractCalcium-dependent inactivation has been described as a negative feedback mechanism for regul...
Ca2+ currents recorded from Xenopus oocytes expressing only the alpha1C pore-forming subunit of the ...
The alpha 1 subunit of cardiac Ca2+ channel, expressed alone or coexpressed with the corresponding b...
The alpha 1 subunit of cardiac Ca2+ channel, expressed alone or coexpressed with the corresponding b...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
AbstractCalcium-dependent inactivation has been described as a negative feedback mechanism for regul...
AbstractThe loci for inactivation in calcium channel proteins are unknown. Mechanisms for inactivati...
AbstractThe class A Ca2+ channel αl subunit (αlA) was expressed in Xenopus oocytes alone or in combi...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
AbstractCa2+ channel auxiliary β subunits have been shown to modulate voltage-dependent inactivation...
AbstractWe examined the effects of calcium channel β subunits upon the recovery from inactivation of...
AbstractTo investigate the mechanisms that increase ionic currents when Ca2+ channels’ α1 subunits a...
The "shell" model for Ca2(+)-inactivation of Ca2+ channels is based on the accumulation of Ca2+ in a...
AbstractThe molecular basis for inactivation in CaV2.3 (α1E) channels was studied after expression o...
AbstractThe stably expressed Ca2+ channel α1C-a and α1C-b subunit were used to investigate the molec...
AbstractCalcium-dependent inactivation has been described as a negative feedback mechanism for regul...
Ca2+ currents recorded from Xenopus oocytes expressing only the alpha1C pore-forming subunit of the ...
The alpha 1 subunit of cardiac Ca2+ channel, expressed alone or coexpressed with the corresponding b...
The alpha 1 subunit of cardiac Ca2+ channel, expressed alone or coexpressed with the corresponding b...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
AbstractCalcium-dependent inactivation has been described as a negative feedback mechanism for regul...
AbstractThe loci for inactivation in calcium channel proteins are unknown. Mechanisms for inactivati...
AbstractThe class A Ca2+ channel αl subunit (αlA) was expressed in Xenopus oocytes alone or in combi...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
AbstractCa2+ channel auxiliary β subunits have been shown to modulate voltage-dependent inactivation...
AbstractWe examined the effects of calcium channel β subunits upon the recovery from inactivation of...
AbstractTo investigate the mechanisms that increase ionic currents when Ca2+ channels’ α1 subunits a...
The "shell" model for Ca2(+)-inactivation of Ca2+ channels is based on the accumulation of Ca2+ in a...
AbstractThe molecular basis for inactivation in CaV2.3 (α1E) channels was studied after expression o...
AbstractThe stably expressed Ca2+ channel α1C-a and α1C-b subunit were used to investigate the molec...
AbstractCalcium-dependent inactivation has been described as a negative feedback mechanism for regul...