<p>For comparison the Kv2.1 parameters are shown under “2<sup>nd</sup> component” when two components are obtained with the Kv2.1/Kv6.4 expression.</p
<p>See “Methods” for descriptions of parameters measured. τ-n and W-n represent the corresponding ti...
Voltage-activated proton (Hv1) channels are relatives of classical voltage-activated cation channels...
AbstractThe atomic models of the Kv1.2 potassium channel in the active and resting state, originally...
<p>(A) Representative ON-gating current recordings from Kv2.1 and Kv2.1/Kv6.4 channels. (B) Boltzman...
<p><b>A</b>, illustrates half-activation voltages (V<sub>50</sub>) of currents resulting from expres...
<p>The midpoints of inactivation (<i>V<sub>1/2</sub></i>) and slope factors (<i>k</i>) were obtained...
<p>(A) Representative ionic currents of Kv2.1 homotetramers (middle) and Kv2.1/Kv6.4 heterotetramers...
The electrically silent (KvS) members of the voltage-gated potassium (Kv) subfamilies Kv5, Kv6, Kv8,...
<p><b>A–F</b>, representative ionic currents elicited by whole-cell patch-clamp with the protocol sh...
<p>The various ionic currents incorporated in the ORd and TP06 models are tabulated above. The symbo...
<p>(A) Effect of 4−AP on Kv2.1/KvS heterotetramers. Application of 4−AP (colored traces) yielded dif...
<p>(A) Simulated AP. (B) Total inward current (dotted line), L- type Ca<sup>2+</sup> channel current...
<p>V<sub>50</sub> (half activation voltage) and z (equivalent gating charge) were derived from fitti...
<p>V<sub>1/2</sub>, midpoint of activation and inactivation; k, slope factor; n, number of cells. Va...
<p>V<sub>50</sub> (half activation voltage) and z (equivalent gating charge) were derived from fitti...
<p>See “Methods” for descriptions of parameters measured. τ-n and W-n represent the corresponding ti...
Voltage-activated proton (Hv1) channels are relatives of classical voltage-activated cation channels...
AbstractThe atomic models of the Kv1.2 potassium channel in the active and resting state, originally...
<p>(A) Representative ON-gating current recordings from Kv2.1 and Kv2.1/Kv6.4 channels. (B) Boltzman...
<p><b>A</b>, illustrates half-activation voltages (V<sub>50</sub>) of currents resulting from expres...
<p>The midpoints of inactivation (<i>V<sub>1/2</sub></i>) and slope factors (<i>k</i>) were obtained...
<p>(A) Representative ionic currents of Kv2.1 homotetramers (middle) and Kv2.1/Kv6.4 heterotetramers...
The electrically silent (KvS) members of the voltage-gated potassium (Kv) subfamilies Kv5, Kv6, Kv8,...
<p><b>A–F</b>, representative ionic currents elicited by whole-cell patch-clamp with the protocol sh...
<p>The various ionic currents incorporated in the ORd and TP06 models are tabulated above. The symbo...
<p>(A) Effect of 4−AP on Kv2.1/KvS heterotetramers. Application of 4−AP (colored traces) yielded dif...
<p>(A) Simulated AP. (B) Total inward current (dotted line), L- type Ca<sup>2+</sup> channel current...
<p>V<sub>50</sub> (half activation voltage) and z (equivalent gating charge) were derived from fitti...
<p>V<sub>1/2</sub>, midpoint of activation and inactivation; k, slope factor; n, number of cells. Va...
<p>V<sub>50</sub> (half activation voltage) and z (equivalent gating charge) were derived from fitti...
<p>See “Methods” for descriptions of parameters measured. τ-n and W-n represent the corresponding ti...
Voltage-activated proton (Hv1) channels are relatives of classical voltage-activated cation channels...
AbstractThe atomic models of the Kv1.2 potassium channel in the active and resting state, originally...
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