Preventing errors when estimating single channel properties from the analysis of current fluctuations.

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Preventing errors when estimating single channel properties from the analysis of current fluctuations.

S D Silberberg and K L Magleby

Department of Physiology and Biophysics R-430, University of Miami School of Medicine, Florida 33101-6430.

ABSTRACT

The conductance, number, and mean open time of ion channelscan be estimated from fluctuations in membrane current. To examinepotential errors associated with fluctuation analysis, we simulatedensemble currents and estimated single channel properties. Thenumber (N) and amplitude (i) of the underlying single channelswere estimated using nonstationary fluctuation analysis, whilemean open time was estimated using covariance and spectral analysis.Both excessive filtering and the analysis of segments of currentthat were too brief led to underestimates of i and overestimatesof N. Setting the low-pass cut-off frequency of the filter togreater than five times the inverse of the effective mean channelopen time (burst duration) and analyzing segments of currentthat were at least 80 times the effective mean channel opentime reduced the errors to < 2%. With excessive filtering,Butterworth filtering gave up to 10% less error in estimatingi and N than Bessel filtering. Estimates of mean open time obtainedfrom the time constant of decay of the covariance, tau obs,at low open probabilities (Po) were much less sensitive to filteringthan estimates of i and N. Extrapolating plots of tau obs versusmean current to the ordinate provided a method to estimate meanopen time from data obtained at higher Po, where tau obs nolonger represents mean open time. Bessel filtering gave theleast error when estimating tau obs from the decay of the covariancefunction, and Butterworth filtering gave the least error whenestimating tau obs from spectral density functions.

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