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\begin{table}[hb!]  \begin{center}  \begin{threeparttable}  \begin{tabular}{@{}rccccc@{}}  \multicolumn{1}{l}{} & {\bf \it DmCa\textsubscript{v}3} & {\bf \it RatCa\textsubscript{v}3.1} & {\bf \it Ca\textsubscript{v}3.1} & {\bf \it Ca\textsubscript{v}3.2} & {\bf \it Ca\textsubscript{v}3.3} \\  \multicolumn{1}{l}{{\bf Activation}} & {\bf \it } & {\bf \it } & {\bf \it } & {\bf \it } & {\bf \it } \\ \midrule \addlinespace 
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$\tau$\textsubscript{act} (ms) & 2.2 $\pm$ 0.2 (10) & 1.1 $\pm$ 0.2 (5) & {\bf 1.4 $\pm$ 0.1\cite{park:2004aa}} & 3.2 $\pm$ 0.1\cite{demers-giroux:2013aa} & 22.8 $\pm$ 1.5\cite{park:2004aa} \\ \addlinespace  $\tau$\textsubscript{inact} (ms) & 23.4 $\pm$ 1.4 (6) & 9.7 $\pm$ 0.9 (5) & 7.2 $\pm$ 0.4\cite{park:2004aa} & {\bf 11.6 $\pm$ 0.2\cite{demers-giroux:2013aa}} & 97.0 $\pm$ 3.8\cite{park:2004aa} \\ \addlinespace \addlinespace  \multicolumn{1}{l}{{\bf Deactivation kinetics (\textminus100 mV)}} & & & & & \\ \midrule \addlinespace  $\tau$\textsubscript{deact} (ms) & 0.93 $\pm$ 0.14 (6)\tnote{a} (6)\footnotemark{a}  & NA & 2.6 $\pm$ 0.2\tnote{a}\textsuperscript{,}\tnote{b}\cite{chemin:2002aa} 0.2\footnotemark{a}\textsuperscript{,}\footnotemark{b}\cite{chemin:2002aa}  & 3.6 $\pm$ 0.4\tnote{a}\textsuperscript{,}\tnote{b}\cite{chemin:2002aa} 0.4\footnotemark{a}\textsuperscript{,}\footnotemark{b}\cite{chemin:2002aa}  & {\bf 1.12 $\pm$ 0.1\tnote{a}\textsuperscript{,}\tnote{b}\cite{chemin:2002aa}} 0.1\footnotemark{a}\textsuperscript{,}\footnotemark{b}\cite{chemin:2002aa}}  \\ \addlinespace \multicolumn{1}{l}{{\bf Conductance}} & & & & & \\ \midrule \addlinespace  I\textsubscript{Ca}/I\textsubscript{Ba} & 0.7 (6) & 1.6 (3) & 1.5\cite{shcheglovitov:2007aa} & 0.8\cite{shcheglovitov:2007aa} & {\bf 0.7\cite{shcheglovitov:2007aa}} \\ \addlinespace \addlinespace  \multicolumn{1}{l}{{\bf Pharmacology}} & & & & & \\ \midrule \addlinespace  Ni\textsuperscript{2+} (IC\textsubscript{50} $\mu$M) & 5.1 (6-12)} & 276.5 (5-6) & 167 $\pm$ 15\tnote{c}\cite{lee:1999ab} 15\footnotemark{c}\cite{lee:1999ab}  & {\bf 5.7 $\pm$ 0.3\tnote{c}\cite{lee:1999ab}} 0.3\footnotemark{c}\cite{lee:1999ab}}  & 87 $\pm$ 7\tnote{c}\cite{lee:1999ab} 7\footnotemark{c}\cite{lee:1999ab}  \\ \addlinespace \end{tabular}  \begin{tablenotes}  \begin{flushleft} \item[\textsuperscript{a}] Recorded \footnotetext{a}{Recorded  in HEK-293 cells  \item[\textsuperscript{b}] 2 cells}  \footnotetext{b}{2  mM Ca\textsuperscript{2+} instead of 10 mM Ba\textsuperscript{2+} as charge carrier  \item[\textsuperscript{c}] \textminus30 carrier}  \footnotetext{c}{\textminus30  mV as repolarizing potential potential}  \end{flushleft}\end{tablenotes}  \end{threeparttable}  \end{center}  \newline  \caption{{\bf Comparison of the biophysical properties of DmCa\textsubscript{v}3 and mammalian T-type calcium channels} \newline