T
Toru Ide
Researcher at Okayama University
Publications - 72
Citations - 1786
Toru Ide is an academic researcher from Okayama University. The author has contributed to research in topics: Lipid bilayer & Ion channel. The author has an hindex of 17, co-authored 65 publications receiving 1610 citations. Previous affiliations of Toru Ide include Osaka University & National Presto Industries.
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Journal ArticleDOI
Electrophysiological study of a novel large pore formed by Bax and the voltage-dependent anion channel that is permeable to cytochrome c
TL;DR: Electrophysiological data provide direct evidence that VDAC forms a novel large pore together with Bax, and show ion selectivity and voltage-dependent modulation of their activity, which were previously unknown.
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Uncovering the protein translocon at the chloroplast inner envelope membrane.
Shingo Kikuchi,Jocelyn Bédard,Minako Hirano,Yoshino Hirabayashi,Maya Oishi,Midori Imai,Mai Takase,Toru Ide,Masato Nakai +8 more
TL;DR: Thorough in vitro biochemical and in vivo genetic experimentation suggest that the isolated translocon contains both nuclear- and organellar-encoded components, which are likely to be central to protein translocation across the inner envelope membrane.
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GPHR is a novel anion channel critical for acidification and functions of the Golgi apparatus.
Yusuke Maeda,Yusuke Maeda,Toru Ide,Masato Koike,Masato Koike,Yasuo Uchiyama,Yasuo Uchiyama,Taroh Kinoshita +7 more
TL;DR: A novel Golgi-resident multi-transmembrane protein, named Golgi pH regulator (GPHR), was identified as being responsible for the mutant cells that exhibited delayed protein transport, impaired glycosylation and Golgi disorganization and exhibited a voltage-dependent anion-channel activity that may function in counterion conductance.
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An artificial lipid bilayer formed on an agarose-coated glass for simultaneous electrical and optical measurement of single ion channels.
Toru Ide,Toshio Yanagida +1 more
TL;DR: The present technique for simultaneous measurement of electrical and spectroscopic parameters of single-channel activities is developed and bright spots were observed moving rather slowly in the membrane, simultaneously with the alametithin-channel current.
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Automated Parallel Recordings of Topologically Identified Single Ion Channels
Ryuji Kawano,Yutaro Tsuji,Koji Sato,Toshihisa Osaki,Koki Kamiya,Minako Hirano,Toru Ide,Norihisa Miki,Shoji Takeuchi +8 more
TL;DR: 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.