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XB-ART-20160
Plant J 1995 Feb 01;72:321-32. doi: 10.1046/j.1365-313x.1995.7020321.x.
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Expression of a cloned plant K+ channel in Xenopus oocytes: analysis of macroscopic currents.

Véry AA , Gaymard F , Bosseux C , Sentenac H , Thibaud JB .


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The open reading frame from the Arabidopsis thaliana KAT1 cDNA was cloned in a transcription plasmid between the 3' and 5' untranslated regions of a beta-globin cDNA from Xenopus oocyte. The polyadenylated transcripts resulting from in vitro transcription gave rise to high levels of expression of KAT1 channel when injected in Xenopus oocytes. Upon hyperpolarization, a slow activating current could be recorded, inwardly- or outwardly-directed, depending on K+ external concentration. Predictions of the voltage-gated channel theory were shown to fit the data well. The equivalent gating charge and the half-activation potential ranged around 2 and -145 mV, respectively. KAT1 gating characteristics did not depend on K+ external concentration nor on external pH in the 5.0-7.5 range. KAT1 conductance was, however, increased (40%) when external pH was decreased from 6.5 to 5.0. The apparent affinity constant of KAT1 for K+ lay in the range 15-30 mM, at external pH 7.4. As for many K+ channels of animal cells, external caesium caused a voltage-dependent blockage of inward (but not outward) KAT1 current, whereas tetraethylammonium caused a voltage-independent block of both inward and outward KAT1 currents. In conclusion, high levels of expression made it possible to carry out the first quantitative analysis of KAT1 macroscopic currents. KAT1 channel was shown to display features similar to those of as yet uncloned inward-rectifying voltage-gated channels described in both plant cells (namely guard cells) and animal cells.

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Species referenced: Xenopus laevis
Genes referenced: kyat1