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dc.contributor.authorKishi, Koichiro E.en
dc.contributor.authorKim, Yoon Seoken
dc.contributor.authorFukuda, Masahiroen
dc.contributor.authorInoue, Masatoshien
dc.contributor.authorKusakizako, Tsukasaen
dc.contributor.authorWang, Peter Y.en
dc.contributor.authorRamakrishnan, Charuen
dc.contributor.authorByrne, Eamon F.X.en
dc.contributor.authorThadhani, Elinaen
dc.contributor.authorPaggi, Joseph M.en
dc.contributor.authorMatsui, Toshiki E.en
dc.contributor.authorYamashita, Keitaroen
dc.contributor.authorNagata, Takashien
dc.contributor.authorKonno, Masaeen
dc.contributor.authorQuirin, Seanen
dc.contributor.authorLo, Maisieen
dc.contributor.authorBenster, Tyleren
dc.contributor.authorUemura, Tomokoen
dc.contributor.authorLiu, Kehongen
dc.contributor.authorShibata, Mikihiroen
dc.contributor.authorNomura, Norimichien
dc.contributor.authorIwata, Soen
dc.contributor.authorNureki, Osamuen
dc.contributor.authorDror, Ron O.en
dc.contributor.authorInoue, Keiichien
dc.contributor.authorDeisseroth, Karlen
dc.contributor.authorKato, Hideaki E.en
dc.contributor.alternative岸, 孝一郎ja
dc.contributor.alternative福田, 昌弘ja
dc.contributor.alternative井上, 昌俊ja
dc.contributor.alternative草木迫, 司ja
dc.contributor.alternative松井, 俊貴ja
dc.contributor.alternative永田, 崇ja
dc.contributor.alternative今野, 雅恵ja
dc.contributor.alternative植村, 智子ja
dc.contributor.alternative劉, 紅ja
dc.contributor.alternative柴田, 幹大ja
dc.contributor.alternative野村, 紀通ja
dc.contributor.alternative岩田, 想ja
dc.contributor.alternative濡木, 理ja
dc.contributor.alternative井上, 圭一ja
dc.contributor.alternative加藤, 英明ja
dc.date.accessioned2022-02-18T08:56:56Z-
dc.date.available2022-02-18T08:56:56Z-
dc.date.issued2022-02-
dc.identifier.urihttp://hdl.handle.net/2433/267986-
dc.description新規光駆動型イオンチャネルの構造解明と高性能分子ツールの創出 --神経科学に光を当てる--. 京都大学プレスリリース. 2022-02-03.ja
dc.description.abstractChRmine, a recently discovered pump-like cation-conducting channelrhodopsin, exhibits puzzling properties (large photocurrents, red-shifted spectrum, and extreme light sensitivity) that have created new opportunities in optogenetics. ChRmine and its homologs function as ion channels but, by primary sequence, more closely resemble ion pump rhodopsins; mechanisms for passive channel conduction in this family have remained mysterious. Here, we present the 2.0 Å resolution cryo-EM structure of ChRmine, revealing architectural features atypical for channelrhodopsins: trimeric assembly, a short transmembrane-helix 3, a twisting extracellular-loop 1, large vestibules within the monomer, and an opening at the trimer interface. We applied this structure to design three proteins (rsChRmine and hsChRmine, conferring further red-shifted and high-speed properties, respectively, and frChRmine, combining faster and more red-shifted performance) suitable for fundamental neuroscience opportunities. These results illuminate the conduction and gating of pump-like channelrhodopsins and point the way toward further structure-guided creation of channelrhodopsins for applications across biology.en
dc.language.isoeng-
dc.publisherElsevier BVen
dc.publisherCell Pressen
dc.rights© 2022 The Author(s). Published by Elsevier Inc.en
dc.rightsThis is an open access article under the Creative Commons Attribution 4.0 International license.en
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/-
dc.subjectchannelrhodopsinen
dc.subjectoptogeneticsen
dc.subjectmicrobial opsinen
dc.subjectall-opticalen
dc.subjectChRmineen
dc.subjectcryo-EMen
dc.subjectstructure-guided engineeringen
dc.subjectpump-like channelrhodopsinen
dc.subjectPLCRen
dc.titleStructural basis for channel conduction in the pump-like channelrhodopsin ChRmineen
dc.typejournal article-
dc.type.niitypeJournal Article-
dc.identifier.jtitleCellen
dc.identifier.volume185-
dc.identifier.issue4-
dc.identifier.spage672-
dc.identifier.epage689-
dc.relation.doi10.1016/j.cell.2022.01.007-
dc.textversionpublisher-
dc.identifier.artnume23-
dc.addressKomaba Institute for Science, The University of Tokyoen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressKomaba Institute for Science, The University of Tokyoen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressDepartment of Biological Sciences, Graduate School of Science, The University of Tokyoen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressCNC Program, Stanford Universityen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressDepartment of Bioengineering, Stanford University; Department of Computer Science, Stanford Universityen
dc.addressDepartment of Computer Science, Stanford Universityen
dc.addressKomaba Institute for Science, The University of Tokyoen
dc.addressMRC Laboratory of Molecular Biology, Cambridge Biomedical Campusen
dc.addressInstitute for Solid State Physics, The University of Tokyo; PRESTO, Japan Science and Technology Agencyen
dc.addressInstitute for Solid State Physics, The University of Tokyo; PRESTO, Japan Science and Technology Agencyen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressDepartment of Bioengineering, Stanford Universityen
dc.addressDepartment of Cell Biology, Graduate School of Medicine, Kyoto Universityen
dc.addressDepartment of Cell Biology, Graduate School of Medicine, Kyoto Universityen
dc.addressWPI Nano Life Science Institute (WPI-NanoLSI), Kanazawa University; High-Speed AFM for Biological Application Unit, Institute for Frontier Science Initiative, Kanazawa Universityen
dc.addressDepartment of Cell Biology, Graduate School of Medicine, Kyoto Universityen
dc.addressDepartment of Cell Biology, Graduate School of Medicine, Kyoto University; RIKEN SPring-8 Centeren
dc.addressDepartment of Biological Sciences, Graduate School of Science, The University of Tokyoen
dc.addressDepartment of Computer Science, Stanford University; Institute for Computational and Mathematical Engineering, Stanford Universityen
dc.addressInstitute for Solid State Physics, The University of Tokyoen
dc.addressDepartment of Bioengineering, Stanford University; CNC Program, Stanford University; Howard Hughes Medical Institute, Stanford University; Department of Psychiatry and Behavioral Sciences, Stanford University,en
dc.addressKomaba Institute for Science, The University of Tokyo; Department of Biological Sciences, Graduate School of Science, The University of Tokyo; PRESTO, Japan Science and Technology Agency; FOREST, Japan Science and Technology Agencyen
dc.identifier.pmid35114111-
dc.relation.urlhttps://www.kyoto-u.ac.jp/ja/research-news/2022-02-03-
dcterms.accessRightsopen access-
datacite.awardNumber20K21383-
datacite.awardNumber21H01875-
datacite.awardNumber21H05142-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-20K21383/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21H01875/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PLANNED-21H05142/-
dc.identifier.pissn0092-8674-
dc.identifier.eissn1097-4172-
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.awardTitle超高精度光神経操作に向けたナトリウム選択的オプトジェネティクスツールの創製ja
jpcoar.awardTitle微生物型ロドプシンをモデル系とした、タンパク質の多様な機能発現の根本原理の解明ja
jpcoar.awardTitle死と生の認識におけるオキシトシン神経修飾を可視化する新規センサー開発ja
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