Thin slices were prepared from cerebella of 10-24 day old rats and examined with whole-cell patch-clamp methods. Depolarizing steps from holding potentials negative to -60 mV elicited an early transient outward current, identified as IA, and a late outward K+ current. Depolarizations from -50 mV failed to evoke any A current and gave only a slowly rising component similar to the delayed K+ current, which inactivated thereafter with a time constant of 2.5 s at -30 mV. The IA peaked in 1-2 ms, decayed following a double exponential with time constants of 8.1 and 53.2 ms at +20 mV and was half-inactivated at -82.5 mV. 4-AP 4 mM depressed both K+ currents showing little specificity between them, while TEA 20 mM selectively abolished only the delayed K+ current.
[Kinetic analysis of a transient potassium current in rat cerebellar granule cells in vitro]
BELLUZZI, Ottorino
1991
Abstract
Thin slices were prepared from cerebella of 10-24 day old rats and examined with whole-cell patch-clamp methods. Depolarizing steps from holding potentials negative to -60 mV elicited an early transient outward current, identified as IA, and a late outward K+ current. Depolarizations from -50 mV failed to evoke any A current and gave only a slowly rising component similar to the delayed K+ current, which inactivated thereafter with a time constant of 2.5 s at -30 mV. The IA peaked in 1-2 ms, decayed following a double exponential with time constants of 8.1 and 53.2 ms at +20 mV and was half-inactivated at -82.5 mV. 4-AP 4 mM depressed both K+ currents showing little specificity between them, while TEA 20 mM selectively abolished only the delayed K+ current.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.