Many ion channels spontaneously switch between different levels of activity. Although this behaviour known as modal gating has been observed for a long time it is currently not well understood. Despite the fact that appropriately representing activity changes is essential for accurately capturing time course data from ion channels, systematic approaches for modelling modal gating are currently not available. In this paper, we develop a modular approach for building such a model in an iterative process. First, stochastic switching between modes and stochastic opening and closing within modes are represented in separate aggregated Markov models. Second, the continuous-time hierarchical Markov model, a new modelling framework proposed here, th...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
A Summary: Mathematical models of the cardiac cell have started to include markovian representations...
Many ion channels spontaneously switch between different levels of activity. Although this behaviour...
Ion channels regulate the concentrations of ions within cells. By stochastically opening and closing...
The gating kinetics of single-ion channels are generally modeled in terms of Markov processes with r...
Markov models of ion channel dynamics have evolved as experimental advances have improved our unders...
We consider the Bayesian analysis of mechanistic models describing the dynamic behavior of ligand-ga...
The stochastic behavior of single ion channels is most often described as an aggregated continuous-t...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
In this work, we propose a methodology based on Monte Carlo Markov chains to explore the parameter s...
Ion channels are membrane proteins that open and close at random and play a vital role in the electr...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
Ion channels are membrane proteins that open and close at random and play a vital role in the electr...
Previously, we described a model which treats ion channel gating as a discrete diffusion problem. In...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
A Summary: Mathematical models of the cardiac cell have started to include markovian representations...
Many ion channels spontaneously switch between different levels of activity. Although this behaviour...
Ion channels regulate the concentrations of ions within cells. By stochastically opening and closing...
The gating kinetics of single-ion channels are generally modeled in terms of Markov processes with r...
Markov models of ion channel dynamics have evolved as experimental advances have improved our unders...
We consider the Bayesian analysis of mechanistic models describing the dynamic behavior of ligand-ga...
The stochastic behavior of single ion channels is most often described as an aggregated continuous-t...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
In this work, we propose a methodology based on Monte Carlo Markov chains to explore the parameter s...
Ion channels are membrane proteins that open and close at random and play a vital role in the electr...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
Ion channels are membrane proteins that open and close at random and play a vital role in the electr...
Previously, we described a model which treats ion channel gating as a discrete diffusion problem. In...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
A Summary: Mathematical models of the cardiac cell have started to include markovian representations...