Rescaled range analysis applied to the study delayed rectifier potassium channel kinetics Original Research Article

The gating of ion channels has widely been modeled by assuming that the transitions between open and closed states are a memoryless process. Nevertheless, analysis of records of unitary current events suggests that the kinetic process presents long lags (antipersistent correlation). Here, using the patch-voltage clamp technique and the rescaled range method, activity of single-channel delayed rectifier K+ channels was studied. The experiment result showed that reversal potential was −73.3 mV in cell-attached mode. For the sequences of alternating open and shut time intervals, the Hurst coefficients were calculated for four different pipette potentials in rat dorsal root ganglion neurons. H=0.34169±0.00672 (n=4) for V=−30 mV; H=0.34632±0.0142 (n=3) for V=−40 mV; H=0.39237±0.0113 (n=4) for V=−50 mV; H=0.3954±0.0012 (n=4) for V=−60 mV. When the Hurst method was applied to the results from a simulated four-state Markovian model, it showed that it had different experimental data H coefficient, the distribution of the data values had no correlations between them, in particular, H=0.2531±0.00403 (n=50) for V=−40 mV. This indicates that open-dwell times and closed-dwell times are long lag (namely, antipersistent correlation) and do not change with the pipette potential applied to the patch.