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Identification and Characterization of a Novel Bacterial ATP-Sensitive K+ Channel
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Research Support, Non-U.S. Gov't
Identification and Characterization of a Novel Bacterial ATP-Sensitive K+ Channel
Seung Bum Choi 1, Jong-Uk Kim 2, Hyun Joo 3, Churl K. Min 1
Journal of Microbiology 2010;48(3):325-330
DOI: https://doi.org/10.1007/s12275-010-9231-9
Published online: June 23, 2010
1Department of Biological Sciences, Ajou University, Suwon 443-749, Republic of Korea, 2Department of Molecular Science and Technology, Ajou University, Suwon 443-749, Republic of Korea, 3Department of Molecular Physiology and Biophysics, College of Medicine, Inje University, Busan 614-735, Republic of Korea1Department of Biological Sciences, Ajou University, Suwon 443-749, Republic of Korea, 2Department of Molecular Science and Technology, Ajou University, Suwon 443-749, Republic of Korea, 3Department of Molecular Physiology and Biophysics, College of Medicine, Inje University, Busan 614-735, Republic of Korea
Corresponding author:  Churl K. Min , Tel: +82-31-219-2621, 
Received: 31 July 2009   • Accepted: 22 December 2009
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Five bacterial species that are most likely to have putative prokaryotic inward rectifier K+ (Kir) channels were selected by in silico sequence homology and membrane topology analyses with respect to the number of transmembrane domains (TMs) and the presence of K+ selectivity filter and/or ATP binding sites in reference to rabbit heart inward rectifier K+ channel (Kir6.2). A dot blot assay with genomic DNAs when probed with whole rabbit Kir6.2 cDNA further supported the in silico analysis by exhibiting a stronger hybridization in species with putative Kir’s compared to one without a Kir. Among them, Chromobacterium violaceum gave rise to a putative Kir channel gene, which was PCR-cloned into the bacterial expression vector pET30b(+), and its expression was induced in Escherichia coli and confirmed by gel purification and immunoblotting. On the other hand, this putative bacterial Kir channel was functionally expressed inXenopus oocytes and its channel activity was measured electrophysiologically by using two electrode voltage clamping (TEVC). Results revealed a K+ current with characteristics similar to those of the ATP-sensitive K+ (K-ATP) channel. Collectively, cloning and functional characterization of bacterial ion channels could be greatly facilitated by combining the in silico analysis and heterologous expression in Xenopus oocytes.

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    Identification and Characterization of a Novel Bacterial ATP-Sensitive K+ Channel
    J. Microbiol. 2010;48(3):325-330.   Published online June 23, 2010
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