AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of atomic motion in voltage-gated ion channels such as the Shaker-type KV channels, a multiscale physical model is constructed from the experimentally well-characterized voltage-sensor (VS) domains coupled to a hydrophobic gate. The four VS domains are described by a continuum electrostatic model under voltage-clamp conditions, the control of ion flow by the gate domain is described by a vapor-lock mechanism, and the simple coupling principle is informed by known experimental results and trial-and-error. The configurational energy computed for each element is used to produce a total Hamiltonian that is a function of applied voltage, VS positions, ...
Voltage-gated Kv channels play fundamental roles in many biological processes, such as the generatio...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
AbstractKramers’ diffusion theory of reaction rates in the condensed phase is considered as an alter...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
To understand gating events with a time-base many orders of magnitude slower than that of atomic mot...
A multiscale physical model of Shaker-type Kv channels is used to span from atomic-scale interaction...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
AbstractThe S4 transmembrane domain of the family of voltage-gated ion channels is generally thought...
Voltage-gated potassium (Kv) channels are ubiquitous transmembrane proteins involved in electric sig...
AbstractA high-resolution crystal structure of KvAP, an archeabacterial voltage-gated potassium (Kv)...
AbstractVoltage-gated potassium (Kv) channels, such as Kv1.2, are involved in the generation and pro...
AbstractThe charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depe...
AbstractIn the preceding, accompanying article, we present models of the structure and voltage-depen...
Voltage-gated ion channels play fundamental roles in neural excitability and thus dysfunctional chan...
Les canaux ioniques voltage-dépendants (CIVD) sont des protéines transmembranaires ubiquitaires impl...
Voltage-gated Kv channels play fundamental roles in many biological processes, such as the generatio...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
AbstractKramers’ diffusion theory of reaction rates in the condensed phase is considered as an alter...
AbstractTo understand gating events with a time-base many orders-of-magnitude slower than that of at...
To understand gating events with a time-base many orders of magnitude slower than that of atomic mot...
A multiscale physical model of Shaker-type Kv channels is used to span from atomic-scale interaction...
AbstractWe have developed a method for rapidly computing gating currents from a multiparticle ion ch...
AbstractThe S4 transmembrane domain of the family of voltage-gated ion channels is generally thought...
Voltage-gated potassium (Kv) channels are ubiquitous transmembrane proteins involved in electric sig...
AbstractA high-resolution crystal structure of KvAP, an archeabacterial voltage-gated potassium (Kv)...
AbstractVoltage-gated potassium (Kv) channels, such as Kv1.2, are involved in the generation and pro...
AbstractThe charge versus voltage relation of voltage-sensor domains shifts in the voltage axis depe...
AbstractIn the preceding, accompanying article, we present models of the structure and voltage-depen...
Voltage-gated ion channels play fundamental roles in neural excitability and thus dysfunctional chan...
Les canaux ioniques voltage-dépendants (CIVD) sont des protéines transmembranaires ubiquitaires impl...
Voltage-gated Kv channels play fundamental roles in many biological processes, such as the generatio...
Steady-state and kinetic properties of gating currents of the Shaker K+ channels were studied in cha...
AbstractKramers’ diffusion theory of reaction rates in the condensed phase is considered as an alter...