Modulating the activity of ion channels by blockers yields information on both the mode of drug action and on the biophysics of ion transport. Here we investigate the interplay between ions in the selectivity filter (SF) of K+ channels and the release kinetics of the blocker tetrapropylammonium in the model channel KcvNTS. A quantitative expression calculates blocker release rate constants directly from voltage-dependent ion occupation probabilities in the SF. The latter are obtained by a kinetic model of single-channel currents recorded in the absence of the blocker. The resulting model contains only two adjustable parameters of ion-blocker interaction and holds for both symmetric and asymmetric ionic conditions. This data-derived model is...
Potassium channels play critical roles in many physiological processes, providing a selective permea...
AbstractPotassium channels display a high conservation of sequence of the selectivity filter (SF), y...
AbstractHow K+ channels are able to conduct certain cations yet not others remains an important but ...
Modulating the activity of ion channels by blockers yields information on both the mode of drug acti...
Voltage-gated potassium (Kv) channels are multi-ion, single-file pores that regulate the transmembra...
Many potassium channels show voltage-dependent gating without a dedicated voltage sensor domain. Thi...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
Potassium channels are presumed to have two allosterically coupled gates, the activation gate and th...
The selectivity filter in potassium channels, a main component of the ion permeation pathway, config...
AbstractMolecular dynamics simulations of a bacterial potassium channel (KcsA) embedded in a phospho...
How K(+) channels are able to conduct certain cations yet not others remains an important but unreso...
SummaryThe selectivity filter of potassium channels is the structural element directly responsible f...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The chemical-physical basis for K+ permeation and selectivity in K+ channels has been the focus of a...
Potassium channels play critical roles in many physiological processes, providing a selective permea...
AbstractPotassium channels display a high conservation of sequence of the selectivity filter (SF), y...
AbstractHow K+ channels are able to conduct certain cations yet not others remains an important but ...
Modulating the activity of ion channels by blockers yields information on both the mode of drug acti...
Voltage-gated potassium (Kv) channels are multi-ion, single-file pores that regulate the transmembra...
Many potassium channels show voltage-dependent gating without a dedicated voltage sensor domain. Thi...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
Potassium channels are presumed to have two allosterically coupled gates, the activation gate and th...
The selectivity filter in potassium channels, a main component of the ion permeation pathway, config...
AbstractMolecular dynamics simulations of a bacterial potassium channel (KcsA) embedded in a phospho...
How K(+) channels are able to conduct certain cations yet not others remains an important but unreso...
SummaryThe selectivity filter of potassium channels is the structural element directly responsible f...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The chemical-physical basis for K+ permeation and selectivity in K+ channels has been the focus of a...
Potassium channels play critical roles in many physiological processes, providing a selective permea...
AbstractPotassium channels display a high conservation of sequence of the selectivity filter (SF), y...
AbstractHow K+ channels are able to conduct certain cations yet not others remains an important but ...