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Self-assembly and structure of flagellin-polyelectrolyte composite layers: Polyelectrolyte induced flagellar filament formation during the alternating deposition process

Farkas, Enikő and Patkó, Dániel and Nguyen Quoc, Khánh and Tóth, Eszter and Vonderviszt, Ferenc and Horváth, Róbert (2016) Self-assembly and structure of flagellin-polyelectrolyte composite layers: Polyelectrolyte induced flagellar filament formation during the alternating deposition process. RSC Advances, 6 (95). pp. 92159-92167. ISSN 2046-2069

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Abstract

The simple and cost-effective bottom-up fabrication of complex functionalized nanostructures is extensively researched today. Here, the alternating deposition of the negatively charged protein flagellin and a positively charged polyelectrolyte is studied. The multilayer buildup was followed in situ using Optical Waveguide Lightmode Spectroscopy (OWLS) revealing the deposited surface mass density in real time during the alternating deposition process. The nanostructure of the assembled films was investigated by Atomic Force Microscopy (AFM) measurements. When flagellin was applied in its natural filamentous form no distinct multilayer buildup was observed, the filaments assembled mainly into bundles. In contrast, when thermally treated filament solution or pure flagellin monomer solution was used a systematic linearly growing buildup was seen, and thick, relatively smooth films were fabricated. AFM investigations revealed that the polycation induced assembly of flagellin monomers into nanofilaments during the deposition process. Both the filament formation and the multilayer buildup were completely absent when a truncated flagellin variant-missing the disordered terminal regions-was applied. Since these regions are necessary for filament formation, we conclude that the linearly growing nature of the layer is a clear consequence of filament formation. Therefore, this study first reveals a new type of linearly growing polyelectrolyte multilayer buildup mechanism, when one of the components induces the self-assembly of the oppositely charged component, creating a complex, stable and smooth filamentous nanostructured coating. These composite films can find diverse applications in nanotechnology and in biomedical sciences since the variable D3 domain of flagellin subunits can be easily modified to express enzymatic, fluorescent or molecular binding properties on the surfaces of the filaments. © 2016 The Royal Society of Chemistry.

Item Type: Article
Additional Information:
Uncontrolled Keywords: Composite films; Polyelectrolyte multilayer; optical waveguide lightmode spectroscopy; Nanostructured coatings; Molecular binding properties; Functionalized nanostructures; Flagellar filaments; Diverse applications; BOTTOM-UP FABRICATION; Self assembly; Polyelectrolytes; Optical multilayers; Nanostructures; Nanocomposite films; MULTILAYERS; MONOMERS; FILM GROWTH; DEPOSITION; Cost effectiveness; binding energy; atomic force microscopy
Subjects: Q Science / természettudomány > QD Chemistry / kémia
SWORD Depositor: MTMT SWORD
Depositing User: MTMT SWORD
Date Deposited: 08 Nov 2016 12:28
Last Modified: 08 Nov 2016 12:28
URI: http://real.mtak.hu/id/eprint/42282

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