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Fabrication of Inorganic-Organic Hybrid Membrane with Ion-Channel Function

Research Project

Project/Area Number 17550140
Research Category

Grant-in-Aid for Scientific Research (C)

Allocation TypeSingle-year Grants
Section一般
Research Field Functional materials chemistry
Research InstitutionNational Institute of Advanced Industrial Science and Technology

Principal Investigator

TANAKA Mutsuo  National Institute of Advanced Industrial Science and Technology, Institute for Biological Resources and Functions, Senior Researcher (70344108)

Project Period (FY) 2005 – 2008
Project Status Completed (Fiscal Year 2007)
Budget Amount *help
¥3,800,000 (Direct Cost: ¥3,500,000、Indirect Cost: ¥300,000)
Fiscal Year 2007: ¥1,300,000 (Direct Cost: ¥1,000,000、Indirect Cost: ¥300,000)
Fiscal Year 2006: ¥1,400,000 (Direct Cost: ¥1,400,000)
Fiscal Year 2005: ¥1,100,000 (Direct Cost: ¥1,100,000)
KeywordsIon Channel / Ionophore / Crown Ether / Calix / Phospho Choline / クラウンエーテ / 無機多孔質膜 / リン脂質 / 非特異吸着抑制 / 無機-有機複合膜
Research Abstract

Ion-channel in cell membrane is known to work as signal transduction to contribute to biological maintenance of homeostasis. The function of ion-channel as a signal transducer is attractive not only in biology but also in material chemistry field because this function is useful for elements of sensing devices. However, its action mechanism is still ambiguous. In order to shed light on this mechanism, fabrication of an artificial membrane with ion-channel function was attempted in this work.
Artificial ionophores such as crown ether derivatives and calix derivatives were chosen as they have been reported to show ion-channel function with single molecule and structure modification of those ionophores are possible. Those properties must be of advantage to study the action mechanism. Various synthesis routes were examined in order to improve yields, and a relatively large-scale synthesis route was established.
We consider that the nature, similar to lipid bilayer membrane, is necessary for the artificial membrane to induce ion-channel function of an jonophore. Therefore, synthesis of membrane materials consisting of phospho choline, oligo ethylene glycol, and alkane thiol was examined for fabrication of the artificial membrane. The reaction of oligo ethylene glycol derivatives with choline in the presence of phosphoryl chloride afforded the desired membrane materials. It was found that the SAMs fabricated with the synthesized membrane materials show suppressive function for non-specific adsorption of proteins.
It is suggested that those membrane materials have a potential for biocompatible materials such as reconstituted membrane although fabrication of an artificial membrane with ion-channel function has not been reached.

Report

(5 results)
  • 2007 Annual Research Report   Final Research Report Summary
  • 2006 Annual Research Report
  • 2005 Annual Research Report
  • Products Report
  • Research Products

    (3 results)

All 2012 2008

All Presentation (2 results) Patent(Industrial Property Rights) (1 results)

  • [Presentation] ホスホコリン単分子膜の構築とそのタンパク質非特異吸着抑制機能に関する研究2008

    • Author(s)
      田中睦生、澤口隆博、佐藤縁、丹羽修
    • Organizer
      高分子学会第57回高分子討論会
    • Place of Presentation
      大阪市立大学
    • Year and Date
      2008-09-25
    • Description
      「研究成果報告書概要(和文)」より
    • Related Report
      2007 Final Research Report Summary
  • [Presentation] Studies on Fabrication of Phospho Choline SAMs and Their Suppressive Function for Non-Specific Adsorption of Protains2008

    • Author(s)
      Mutsuo Tanaka, Takahiro Sawaguchi, Yukari Sato, And Osamu Niwa
    • Organizer
      Polymer Symposium
    • Place of Presentation
      Osaka
    • Description
      「研究成果報告書概要(欧文)」より
    • Related Report
      2007 Final Research Report Summary
  • [Patent(Industrial Property Rights)] 生体関連物質計測バイス、人工臓器用表面修飾材料2012

    • Inventor(s)
      田中 睦生, 澤口 隆博, 佐藤 縁, 吉岡 恭子, 丹羽 修
    • Industrial Property Rights Holder
      独立行政法人産業技術総合研究所
    • Industrial Property Rights Type
      特許
    • Acquisition Date
      2012-11-30
    • Related Report
      Products Report

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Published: 2005-04-01   Modified: 2017-02-24  

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