Genetic Engineering of Biomolecular Scaffolds for the Fabrication of Organic and Metallic Nanowires
Identifieur interne : 002717 ( Main/Exploration ); précédent : 002716; suivant : 002718Genetic Engineering of Biomolecular Scaffolds for the Fabrication of Organic and Metallic Nanowires
Auteurs : Nili Ostrov [États-Unis] ; Ehud Gazit [Israël]Source :
- Angewandte Chemie [ 0044-8249 ] ; 2010-04-12.
English descriptors
- Teeft :
- Angew, Biotinylated, Chem, Coating efficiency, Filament, Ftsz, Ftsz filaments, Ftsz gene, Ftsz monomers, Hybrid wires, Inorganic materials, Inorganic particles, Magnetic beads, Monomer, Nano lett, Nickel ions, Novel materials, Peptide, Peptide motifs, Protein fibers, Scale bars, Schematic illustration, Silver particles, Specific binding, Verlag gmbh, Weinheim angew.
Abstract
Auf natürlichem Weg zu Nanodrähten: Die spontane Selbstorganisation des bakteriellen Zellwandproteins FtsZ brachte Metallnanopartikel in die für den Aufbau eines Nanodrahts erforderliche Anordnung (siehe Schema). Durch genetische Fusion jedes Monomers mit einem geeigneten kurzen Protein können nicht nur Nanopartikel, sondern auch andere anorganische Partikel und biologische Moleküle spezifisch gebunden werden.
Url:
DOI: 10.1002/ange.200906831
Affiliations:
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<front><div type="abstract" xml:lang="de">Auf natürlichem Weg zu Nanodrähten: Die spontane Selbstorganisation des bakteriellen Zellwandproteins FtsZ brachte Metallnanopartikel in die für den Aufbau eines Nanodrahts erforderliche Anordnung (siehe Schema). Durch genetische Fusion jedes Monomers mit einem geeigneten kurzen Protein können nicht nur Nanopartikel, sondern auch andere anorganische Partikel und biologische Moleküle spezifisch gebunden werden.</div>
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