AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion channel model. Our approach is appropriate for energy landscapes that can be characterized by a network of well-defined activation pathways with barriers. To illustrate, we represented the gating apparatus of a channel subunit by an interacting pair of charged gating particles. Each particle underwent spatial diffusion along a bistable potential of mean force, with electrostatic forces coupling the two trajectories. After a step in membrane potential, relaxation of the smaller barrier charge led to a time-dependent reduction in the activation barrier of the principal gate charge. The resulting gating current exhibited a rising phase similar to ...
Activation gating in voltage-gated potassium channels involves multiple closed-closed transitions p...
AbstractRecently, the structure of the Shaker channel Kv1.2 has been determined at a 2.9-Å resolutio...
The gating mechanism of transmembrane ion channels is crucial for understanding how these proteins c...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
AbstractKramers’ diffusion theory of reaction rates in the condensed phase is considered as an alter...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...
Potassium channels are presumed to have two allosterically coupled gates, the activation gate and th...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
AbstractA high-resolution crystal structure of KvAP, an archeabacterial voltage-gated potassium (Kv)...
Voltage-gated potassium channels are membrane proteins that regulate the ???ow of K+ ions across the...
Potassium channels are transmembrane proteins that facilitate the passive and selective flux of K+ i...
Single ion channel currents can only provide indirect information on channel molecular events (excep...
Ion channels play a central role in setting gradients of ion concentration and electrostatic potenti...
AbstractMost potassium channels are tetramers of four homologous polypeptides (subunits). During cha...
Activation gating in voltage-gated potassium channels involves multiple closed-closed transitions p...
AbstractRecently, the structure of the Shaker channel Kv1.2 has been determined at a 2.9-Å resolutio...
The gating mechanism of transmembrane ion channels is crucial for understanding how these proteins c...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
AbstractKramers’ diffusion theory of reaction rates in the condensed phase is considered as an alter...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...
Potassium channels are presumed to have two allosterically coupled gates, the activation gate and th...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
AbstractA high-resolution crystal structure of KvAP, an archeabacterial voltage-gated potassium (Kv)...
Voltage-gated potassium channels are membrane proteins that regulate the ???ow of K+ ions across the...
Potassium channels are transmembrane proteins that facilitate the passive and selective flux of K+ i...
Single ion channel currents can only provide indirect information on channel molecular events (excep...
Ion channels play a central role in setting gradients of ion concentration and electrostatic potenti...
AbstractMost potassium channels are tetramers of four homologous polypeptides (subunits). During cha...
Activation gating in voltage-gated potassium channels involves multiple closed-closed transitions p...
AbstractRecently, the structure of the Shaker channel Kv1.2 has been determined at a 2.9-Å resolutio...
The gating mechanism of transmembrane ion channels is crucial for understanding how these proteins c...