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The Journal of Neuroscience, April 4, 2007, ():

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T-Type and L-Type Ca²⁺ Conductances Define and Encode the Bimodal Firing Pattern of Vestibulocerebellar Unipolar Brush Cells
J. Neurosci. Diana et al. 27: 3823

Supplemental Data

Files in this Data Supplement:

• supplemental material - Supplementary Figure. Voltage-dependence of FINC kinetics. A Dependence of the inactivation decay time constant on the membrane potential. Time constants were obtained by fitting monoexponentially the decay phase of FINC. B Dependence of the 20 % - 80 % rise time on the membrane potential. In the inset, enlarged sample traces corresponding to the indicated voltage steps are shown for one UBC. Note the crossing pattern of the currents during activation, which is produced by the acceleration of the rise times with increased test membrane potentials. Inset bars are 300 pA and 4 ms. C Deactivation becomes slower as the membrane potential is depolarized. Following the deinactivating pulse, the membrane potential was stepped to -40 mV for 3 ms, then back to the test potential, where deactivation was examined.

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