Add to ORKGLarge conductance calcium- and voltage-sensitive K+ (MaxiK) channels share properties of voltage- and ligand-gated ion channels. In voltage-gated channels, membrane depolarization promotes the displacement of charged residues contained in the voltage sensor (S4 region) inducing gating currents and pore opening. In MaxiK channels, both voltage and micromolar internal Ca2+ favor pore opening. We demonstrate the presence of voltage sensor rearrangements with voltage (gating currents) whose movement and associated pare opening is triggered by voltage and facilitated by micromolar internal Ca2+ concentration. In contrast to other voltage-gated channels, in MaxiK channels there is charge movement at potentials where the pore is open and the total...
Voltage-gated ion channels play a central role in the generation of action potentials in the nervous...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...
Large conductance calcium- and voltage-sensitive K+ (MaxiK) channels share properties of voltage- an...
Large conductance calcium- and voltage-sensitive K+ (MaxiK) channels share properties of voltage-and...
Tuned calcium entry through voltage-gated calcium channels is a key requirement for many cellular fu...
Calcium channel family members activate at different membrane potentials, which enables tissue speci...
AbstractVoltage-dependent gating in K+ channels results from the mechanical coupling of voltage sens...
We investigated the role of individual charged residues of the S4 region of a MaxiK channel (hSlo) i...
AbstractThe study and characterization of unliganded openings is of central significance for the elu...
We investigated the role of individual charged residues of the S4 region of a MaxiK channel (hSlo) i...
Two-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with an outw...
SummaryTwo-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with ...
Two-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with an outw...
© 2018 National Academy of Sciences. All Rights Reserved. The voltage-gated proton (Hv1) channel, a ...
Voltage-gated ion channels play a central role in the generation of action potentials in the nervous...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...
Large conductance calcium- and voltage-sensitive K+ (MaxiK) channels share properties of voltage- an...
Large conductance calcium- and voltage-sensitive K+ (MaxiK) channels share properties of voltage-and...
Tuned calcium entry through voltage-gated calcium channels is a key requirement for many cellular fu...
Calcium channel family members activate at different membrane potentials, which enables tissue speci...
AbstractVoltage-dependent gating in K+ channels results from the mechanical coupling of voltage sens...
We investigated the role of individual charged residues of the S4 region of a MaxiK channel (hSlo) i...
AbstractThe study and characterization of unliganded openings is of central significance for the elu...
We investigated the role of individual charged residues of the S4 region of a MaxiK channel (hSlo) i...
Two-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with an outw...
SummaryTwo-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with ...
Two-pore domain (K2P) K+ channels are major regulators of excitability that endow cells with an outw...
© 2018 National Academy of Sciences. All Rights Reserved. The voltage-gated proton (Hv1) channel, a ...
Voltage-gated ion channels play a central role in the generation of action potentials in the nervous...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...
Voltage-gated ion channels have a paramount importance in many physiological processes such as cell-...