AbstractThe charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depending on the initial voltage. Here we show that in nonconducting W434F Shaker K+ channels, a large portion of this charge-voltage shift is apparent due to a dramatic slowing of the deactivation gating currents, IgD (with τ up to 80 ms), which develops with a time course of ∼1.8 s. This slowing in IgD adds up to the slowing due to pore opening and is absent in the presence of 4-aminopyridine, a compound that prevents the last gating step that leads to pore opening. A remaining 10–15 mV negative shift in the voltage dependence of both the kinetics and the charge movement persists independently of the depolarizing prepulse duration and remains i...
AbstractIn potassium-free solutions some types of K channels enter a long-lasting nonconducting or “...
AbstractVoltage-gated ion channels undergo slow inactivation during prolonged depolarizations. We in...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
AbstractThe charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depe...
The charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depending on...
We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...
Prolonged depolarization induces a slow inactivation process in some Ki channels. We have studied io...
Prolonged depolarization induces a slow inactivation process in some K+ channels. We have studied io...
Kv channels are voltage-dependent potassium pores that shape the action potential duration and are c...
Voltage-dependent potassium (Kv) channels provide the repolarizing power that shapes the action pote...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
Changes in holding potential (Vh), affect both gating charge (the Q(Vh) curve) and peak ionic curren...
Ion channels play a central role in setting gradients of ion concentration and electrostatic potenti...
In Shaker K(+) channel, the amino terminus deletion Delta6-46 removes fast inactivation (N-type) unm...
Fast inactivating Shaker H4 potassium channels and nonconducting pore mutant Shaker H4 W434F channel...
AbstractIn potassium-free solutions some types of K channels enter a long-lasting nonconducting or “...
AbstractVoltage-gated ion channels undergo slow inactivation during prolonged depolarizations. We in...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
AbstractThe charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depe...
The charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depending on...
We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...
Prolonged depolarization induces a slow inactivation process in some Ki channels. We have studied io...
Prolonged depolarization induces a slow inactivation process in some K+ channels. We have studied io...
Kv channels are voltage-dependent potassium pores that shape the action potential duration and are c...
Voltage-dependent potassium (Kv) channels provide the repolarizing power that shapes the action pote...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
Changes in holding potential (Vh), affect both gating charge (the Q(Vh) curve) and peak ionic curren...
Ion channels play a central role in setting gradients of ion concentration and electrostatic potenti...
In Shaker K(+) channel, the amino terminus deletion Delta6-46 removes fast inactivation (N-type) unm...
Fast inactivating Shaker H4 potassium channels and nonconducting pore mutant Shaker H4 W434F channel...
AbstractIn potassium-free solutions some types of K channels enter a long-lasting nonconducting or “...
AbstractVoltage-gated ion channels undergo slow inactivation during prolonged depolarizations. We in...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...