The "shell" model for Ca2(+)-inactivation of Ca2+ channels is based on the accumulation of Ca2+ in a macroscopic shell beneath the plasma membrane. The shell is filled by Ca2+ entering through open channels, with the elevated Ca2+ concentration inactivating both open and closed channels at a rate determined by how fast the shell is filled. In cells with low channel density, the high concentration Ca2+ "shell" degenerates into a collection of nonoverlapping "domains" localized near open channels. These domains form rapidly when channels open and disappear rapidly when channels close. We use this idea to develop a "domain" model for Ca2(+)-inactivation of Ca2+ channels. In this model the kinetics of formation of an inactivated state resulting...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
The "shell" model for Ca2(+)-inactivation of Ca2+ channels is based on the accumulation of Ca2+ in a...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
The domain model of Ca2+ inactivation of Ca2+ channels, which has been used to explain rapid inactiv...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
We present a population density and moment-based description of stochastic domain calcium-mediated i...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
We present a population density and moment-based description of stochastic domain calcium-mediated i...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
The domain model of Ca2+ inactivation of Ca2+ channels, which has been used to explain rapid inactiv...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...
The "shell" model for Ca2(+)-inactivation of Ca2+ channels is based on the accumulation of Ca2+ in a...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
The domain model of Ca2+ inactivation of Ca2+ channels, which has been used to explain rapid inactiv...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
We present a minimal whole cell model of stochastic domain Ca mediated inactivation of low-density L...
We present a population density and moment-based description of stochastic domain calcium-mediated i...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
We present a population density and moment-based description of stochastic domain calcium-mediated i...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
Intracellular Ca2+ can inhibit the activity of voltage-gated Ca channels by modulating the rate of c...
The domain model of Ca2+ inactivation of Ca2+ channels, which has been used to explain rapid inactiv...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
Computer-assisted modeling of calcium influx through voltage-activated membrane channels predicted t...
The patch-clamp technique was used to characterize the mechanism of Ca2+-induced inactivation of car...