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DNA Origami Gatekeepers for Solid-State Nanopores

Wei, Ruoshan ; Martin, Thomas G. ; Rant, Ulrich ; Dietz, Hendrik

Angewandte Chemie (International ed.), 2012-05, Vol.51 (20), p.4864-4867 [Periódico revisado por pares]

Weinheim: WILEY-VCH Verlag

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  • Título:
    DNA Origami Gatekeepers for Solid-State Nanopores
  • Autor: Wei, Ruoshan ; Martin, Thomas G. ; Rant, Ulrich ; Dietz, Hendrik
  • Assuntos: Apertures ; Covering ; Deoxyribonucleic acid ; Detection ; Devices ; DNA - chemistry ; DNA self-assembly ; DNA structures ; DNA, Single-Stranded - chemistry ; Membranes ; Nanopores ; Nanostructure ; Nanostructures - chemistry ; nanotechnology ; Nucleic Acid Conformation ; Porosity ; single-molecule studies
  • É parte de: Angewandte Chemie (International ed.), 2012-05, Vol.51 (20), p.4864-4867
  • Notas: ArticleID:ANIE201200688
    This work was supported by the German Excellence Initiative through grants from the Nano Initiative Munich and from the Center for Integrated Protein Science Munich, by the Collaborative Research Center SFB 863 of the German Research Society (DFG), the TUM Institute for Advanced Study, and a European Research Council Starting Grant to HD. R.W. was supported by the TUM Graduate School's Faculty Graduate Center of Physics. Discussions with Friedrich Simmel, Michael Mayer, Daniel Branton, and George Church are gratefully acknowledged.
    istex:4C7F86A962B47437D01F038CE55D5E35BA3BDCED
    German Research Society (DFG)
    ark:/67375/WNG-H635TZ46-P
    These authors contributed equally to this work.
    This work was supported by the German Excellence Initiative through grants from the Nano Initiative Munich and from the Center for Integrated Protein Science Munich, by the Collaborative Research Center SFB 863 of the German Research Society (DFG), the TUM Institute for Advanced Study, and a European Research Council Starting Grant to HD. R.W. was supported by the TUM Graduate School’s Faculty Graduate Center of Physics. Discussions with Friedrich Simmel, Michael Mayer, Daniel Branton, and George Church are gratefully acknowledged.
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  • Descrição: DNA has it covered: DNA origami gatekeeper nanoplates convert nanopores in solid‐state membranes into versatile devices for label‐free macromolecular sensing applications. The custom apertures in the nanoplates can be chemically addressed for sequence‐specific detection of DNA.
  • Editor: Weinheim: WILEY-VCH Verlag
  • Idioma: Inglês
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