The stochastic behavior of single ion channels is most often described as an aggregated continuous-time Markov process with discrete states. For ligand-gated channels each state can represent a different conformation of the channel protein or a different number of bound ligands. Single-channel recordings show only whether the channel is open or shut: states of equal conductance are aggregated, so transitions between them have to be inferred indirectly. The requirement to filter noise from the raw signal further complicates the modeling process, as it limits the time resolution of the data. The consequence of the reduced bandwidth is that openings or shuttings that are shorter than the resolution cannot be observed; these are known as missed...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
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...
Ion channels regulate the concentrations of ions within cells. By stochastically opening and closing...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Ion channels are proteins that are located in the membranes of cells and are capable of conducting i...
Interpretation of currents recorded from single ion channels in cellular membranes or lipid bilayers...
This paper extends Hodgson's methods to the more familiar and physically realistic class of hid...
AbstractContinuous-time Markov models have been considered the best representation for the stochasti...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
The gating kinetics of single-ion channels are generally modeled in terms of Markov processes with r...
Many ion channels spontaneously switch between different levels of activity. Although this behaviour...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
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...
Ion channels regulate the concentrations of ions within cells. By stochastically opening and closing...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Ion channels are proteins that are located in the membranes of cells and are capable of conducting i...
Interpretation of currents recorded from single ion channels in cellular membranes or lipid bilayers...
This paper extends Hodgson's methods to the more familiar and physically realistic class of hid...
AbstractContinuous-time Markov models have been considered the best representation for the stochasti...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
The gating kinetics of single-ion channels are generally modeled in terms of Markov processes with r...
Many ion channels spontaneously switch between different levels of activity. Although this behaviour...
A statistical comparison is presented of Markov and fractal models of ion channel gating. The analys...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
Markov models of ion channel dynamics have evolved as experimental advances have improved our unders...