<p>Steady-state inactivation parameters of Ca<sub>V</sub>3.3, Ca<sub>V</sub>1.2 and chimeric channels.</p
<p><b>A)</b> 100 ms long pre-pulse to -20 mV inactivates Ca<sup>2+</sup> current that peaks at –20 m...
<p>(A–C) I136V, I848T, and V1316A mutant channels (open circles) produce a significant depolarizing ...
<p><b><i>A</i></b>, representative recordings of Ca<sup>2+</sup> currents illustrating the recovery ...
<p>Activation parameters of Ca<sub>V</sub>3.3, Ca<sub>V</sub>1.2 and chimeric channels.</p
<p><b><i>A</i></b>, families of currents recorded at -30 mV from Ca<sub>V</sub>3.3 (upper traces) or...
<p><b>A,</b> steady-state activation (<i>d</i><sub><i>∞</i></sub>) and voltage-dependent inactivatio...
<p>A, To examine the voltage-dependence of steady-state fast inactivation a series of 500ms steps fr...
<p><b><i>A</i></b>, representative tail currents for Ca<sub>V</sub>3.3, IIS4C, IIIS4C and Ca<sub>V</...
<p>Activation and steady-state inactivation parameters were calculated by data fitting to Boltzmann ...
<p>In Gα<sub>i2</sub><sup>−/−</sup> cardiomyocytes V<sub>0.5</sub> of the steady-state inactivation ...
<p><i>ρ</i> represents the postulated number of gates, <i>m</i><sub>∞</sub> is the steady-state acti...
<p>A) Isochronal one second inactivation relationship “i”. Mean data points (n = 13) fit to a single...
<p><b><i>(a)</i></b> Comparison of inactivation time course in NvShak1, NvShak4 and NvShak5 currents...
<p>(A–D) Steady-state fast inactivation curves of wild type and I136V, I848T, V1316A mutant channels...
<p>(<b>A</b>) Representative families of rNa<sub>V</sub>1.4<sub>F1698I</sub> activation currents co-...
<p><b>A)</b> 100 ms long pre-pulse to -20 mV inactivates Ca<sup>2+</sup> current that peaks at –20 m...
<p>(A–C) I136V, I848T, and V1316A mutant channels (open circles) produce a significant depolarizing ...
<p><b><i>A</i></b>, representative recordings of Ca<sup>2+</sup> currents illustrating the recovery ...
<p>Activation parameters of Ca<sub>V</sub>3.3, Ca<sub>V</sub>1.2 and chimeric channels.</p
<p><b><i>A</i></b>, families of currents recorded at -30 mV from Ca<sub>V</sub>3.3 (upper traces) or...
<p><b>A,</b> steady-state activation (<i>d</i><sub><i>∞</i></sub>) and voltage-dependent inactivatio...
<p>A, To examine the voltage-dependence of steady-state fast inactivation a series of 500ms steps fr...
<p><b><i>A</i></b>, representative tail currents for Ca<sub>V</sub>3.3, IIS4C, IIIS4C and Ca<sub>V</...
<p>Activation and steady-state inactivation parameters were calculated by data fitting to Boltzmann ...
<p>In Gα<sub>i2</sub><sup>−/−</sup> cardiomyocytes V<sub>0.5</sub> of the steady-state inactivation ...
<p><i>ρ</i> represents the postulated number of gates, <i>m</i><sub>∞</sub> is the steady-state acti...
<p>A) Isochronal one second inactivation relationship “i”. Mean data points (n = 13) fit to a single...
<p><b><i>(a)</i></b> Comparison of inactivation time course in NvShak1, NvShak4 and NvShak5 currents...
<p>(A–D) Steady-state fast inactivation curves of wild type and I136V, I848T, V1316A mutant channels...
<p>(<b>A</b>) Representative families of rNa<sub>V</sub>1.4<sub>F1698I</sub> activation currents co-...
<p><b>A)</b> 100 ms long pre-pulse to -20 mV inactivates Ca<sup>2+</sup> current that peaks at –20 m...
<p>(A–C) I136V, I848T, and V1316A mutant channels (open circles) produce a significant depolarizing ...
<p><b><i>A</i></b>, representative recordings of Ca<sup>2+</sup> currents illustrating the recovery ...
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