AbstractHidden Markov modeling (HMM) provides an effective approach for modeling single channel kinetics. Standard HMM is based on Baum's reestimation. As applied to single channel currents, the algorithm has the inability to optimize the rate constants directly. We present here an alternative approach by considering the problem as a general optimization problem. The quasi-Newton method is used for searching the likelihood surface. The analytical derivatives of the likelihood function are derived, thereby maximizing the efficiency of the optimization. Because the rate constants are optimized directly, the approach has advantages such as the allowance for model constraints and the ability to simultaneously fit multiple data sets obtained at ...
Ion channels are proteins that are located in the membranes of cells and are capable of conducting i...
The stochastic behavior of single ion channels is most often described as an aggregated continuous-t...
Hidden Markov models (HMMs) provide an excellent analysis of recordings with very poor signal/noise ...
AbstractHidden Markov modeling (HMM) provides an effective approach for modeling single channel kine...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
AbstractHidden Markov modeling (HMM) can be applied to extract single channel kinetics at signal-to-...
AbstractSingle-channel recordings provide unprecedented resolutions on kinetics of conformational ch...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Hidden Markov modelshave been used in the study of singlechannel recordings of ion channel currents ...
Hidden Markov models have been used in the study of singlechannel recordings of ion channel currents...
AbstractHidden Markov models (HMMs) provide an excellent analysis of recordings with very poor signa...
This paper extends Hodgson's methods to the more familiar and physically realistic class of hid...
The process underlying the opening and closing of ionic channels in biological or artificial lipid m...
Ion channels are proteins that are located in the membranes of cells and are capable of conducting i...
The stochastic behavior of single ion channels is most often described as an aggregated continuous-t...
Hidden Markov models (HMMs) provide an excellent analysis of recordings with very poor signal/noise ...
AbstractHidden Markov modeling (HMM) provides an effective approach for modeling single channel kine...
AbstractHidden Markov models have recently been used to model single ion channel currents as recorde...
AbstractHidden Markov modeling (HMM) can be applied to extract single channel kinetics at signal-to-...
AbstractSingle-channel recordings provide unprecedented resolutions on kinetics of conformational ch...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Hidden Markov modelshave been used in the study of singlechannel recordings of ion channel currents ...
Hidden Markov models have been used in the study of singlechannel recordings of ion channel currents...
AbstractHidden Markov models (HMMs) provide an excellent analysis of recordings with very poor signa...
This paper extends Hodgson's methods to the more familiar and physically realistic class of hid...
The process underlying the opening and closing of ionic channels in biological or artificial lipid m...
Ion channels are proteins that are located in the membranes of cells and are capable of conducting i...
The stochastic behavior of single ion channels is most often described as an aggregated continuous-t...
Hidden Markov models (HMMs) provide an excellent analysis of recordings with very poor signal/noise ...