Automated Parallel Recordings of Topologically Identified Single Ion Channels

Although ion channels are attractive targets for drug discovery, the systematic screening of ion channel-targeted drugs remains challenging. To facilitate automated single ion-channel recordings for the analysis of drug interactions with the intra- and extracellular domain, we have developed a paral...

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Veröffentlicht in:	Scientific reports 2013-06, Vol.3 (1), p.1995, Article 1995
Hauptverfasser:	Kawano, Ryuji, Tsuji, Yutaro, Sato, Koji, Osaki, Toshihisa, Kamiya, Koki, Hirano, Minako, Ide, Toru, Miki, Norihisa, Takeuchi, Shoji
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Sprache:	eng
Schlagworte:	631/1647/1453/2207 631/1647/2163 631/1647/2196/2197 631/1647/277 Automation Cell membranes Channel gating Channel opening Data processing Drug discovery Drug screening Humanities and Social Sciences Humans Ion channels Ions Large-Conductance Calcium-Activated Potassium Channels - physiology Lipid Bilayers multidisciplinary Probability Science Spiders β-Amyloid
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container_start_page	1995
container_title	Scientific reports
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creator	Kawano, Ryuji Tsuji, Yutaro Sato, Koji Osaki, Toshihisa Kamiya, Koki Hirano, Minako Ide, Toru Miki, Norihisa Takeuchi, Shoji
description	Although ion channels are attractive targets for drug discovery, the systematic screening of ion channel-targeted drugs remains challenging. To facilitate automated single ion-channel recordings for the analysis of drug interactions with the intra- and extracellular domain, we have developed a parallel recording methodology using artificial cell membranes. The use of stable lipid bilayer formation in droplet chamber arrays facilitated automated, parallel, single-channel recording from reconstituted native and mutated ion channels. Using this system, several types of ion channels, including mutated forms, were characterised by determining the protein orientation. In addition, we provide evidence that both intra- and extracellular amyloid-beta fragments directly inhibit the channel open probability of the hBK channel. This automated methodology provides a high-throughput drug screening system for the targeting of ion channels and a data-intensive analysis technique for studying ion channel gating mechanisms.
doi_str_mv	10.1038/srep01995
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subjects	631/1647/1453/2207 631/1647/2163 631/1647/2196/2197 631/1647/277 Automation Cell membranes Channel gating Channel opening Data processing Drug discovery Drug screening Humanities and Social Sciences Humans Ion channels Ions Large-Conductance Calcium-Activated Potassium Channels - physiology Lipid Bilayers multidisciplinary Probability Science Spiders β-Amyloid
title	Automated Parallel Recordings of Topologically Identified Single Ion Channels
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