Inward and outward rectifying potassium currents inSaccharomyces cerevisiae mediated by endogenous and heterelogously expressed ion channels |
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| Authors: | A. Bertl J. A. Anderson C. L. Slayman H. Sentenac R. F. Gaber |
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| Affiliation: | (1) Department of Cellular and Molecular Physiology, Yale University, 06510 New Haven, CT, USA;(2) Department of Biochemistry, Molecular Biology and Cell Biology, Northwestern University, 60206 Evanston, IL, USA;(3) Present address: Glaxo Institute for Molecular Biology, 1228 Planles-Quates, Geneva, Switzerland;(4) Biochimie et Physiologie Vegetale, ENSA-M/INRA/CNRS URA 573, 34060 Montpellier cedex 1, France |
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| Abstract: | Disruption of genes encoding endogenous transport proteins inSaccharomyces cerevisiae has facilitated the recent cloning, by functional expression, of cDNAs encoding K+ channels and amino acid transporters from the plantArabidopsis thaliana [1–4]. In the present study, we demonstrate in whole-cell patch clamp experiments that the inability oftrk1Δtrk2Δ mutants ofS. cerevisiae to grow on submillimolar K+ correlates with the lack of K+ inward currents, which are present in wild-type cells, and that transformation of thetrk1Δtrk2Δ double-deletion mutant withKAT1 fromArabidopsis thaliana restores this phenotype by encoding a plasma membrane protein that allows large K+ inward currents. Similar K+ inward currents are induced by transformation of atrk1 mutant withAKT1 fromA. thaliana. This work was supported by a grant from theForschungsgemeinschaft (A.B.), TheU.S. Department of Energy (c.L.S.), The U.S. National Science Foundation (R.F.G.) Lisboa, Portugal. |
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