We present here a maximal likelihood algorithm for estimating single-channel kinetic parameters from idealized patch-clamp data. The algorithm takes into account missed events caused by limited time resolution of the recording system. Assuming a fixed dead time, we derive an explicit expression for the corrected transition rate matrix by generalizing the theory of Roux and Sauve (1985, Biophys. J. 48:149–158) to the case of multiple conductance levels. We use a variable metric optimizer with analytical derivatives for rapidly maximizing the likelihood. The algorithm is applicable to data containing substates and multiple identical or nonidentical channels. It allows multiple data sets obtained under different experimental conditions, e.g., ...
Quantitative ion channel model evaluation requires the estimation of voltage dependent rate constant...
Important kinetic information of voltage-operated ion channels can be obtained by estimating the ope...
Single-channel current seems to be one of the most obvious characteristics of ion transport. But in ...
The maximum-likelihood technique for the direct estimation of rate constants from the measured patch...
AbstractA method is presented for rapidly extracting single-channel transition rate constants from p...
This paper describes a theory of the kinetic analysis of patch-clamp data. We assume that channel ga...
The limited responsiveness of single-channel recording systems results in some brief events not bein...
Interpretation of currents recorded from single ion channels in cellular membranes or lipid bilayers...
The process underlying the opening and closing of ionic channels in biological or artificial lipid m...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
Novel protocols for whole-cell patch clamp current recordings have the potential to uniquely identif...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
Channel openings are shown as upward steps. (B) plot of the closed dwell-time distribution for 10 s...
To obtain the open or closed time interval distributions of patch clamp signals, several workers hav...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Quantitative ion channel model evaluation requires the estimation of voltage dependent rate constant...
Important kinetic information of voltage-operated ion channels can be obtained by estimating the ope...
Single-channel current seems to be one of the most obvious characteristics of ion transport. But in ...
The maximum-likelihood technique for the direct estimation of rate constants from the measured patch...
AbstractA method is presented for rapidly extracting single-channel transition rate constants from p...
This paper describes a theory of the kinetic analysis of patch-clamp data. We assume that channel ga...
The limited responsiveness of single-channel recording systems results in some brief events not bein...
Interpretation of currents recorded from single ion channels in cellular membranes or lipid bilayers...
The process underlying the opening and closing of ionic channels in biological or artificial lipid m...
AbstractFor single channel recordings, the maximum likelihood estimation (MLE) of kinetic rates and ...
Novel protocols for whole-cell patch clamp current recordings have the potential to uniquely identif...
AbstractWe describe a maximum likelihood method for direct estimation of rate constants from macrosc...
Channel openings are shown as upward steps. (B) plot of the closed dwell-time distribution for 10 s...
To obtain the open or closed time interval distributions of patch clamp signals, several workers hav...
AbstractPatch-clamp recording provides an unprecedented means for study of detailed kinetics of ion ...
Quantitative ion channel model evaluation requires the estimation of voltage dependent rate constant...
Important kinetic information of voltage-operated ion channels can be obtained by estimating the ope...
Single-channel current seems to be one of the most obvious characteristics of ion transport. But in ...