Polypeptide Nanoribbon Hydrogels Assembled through Multiple Supramolecular Interactions

Polypeptide Nanoribbon Hydrogels Assembled through Multiple Supramolecular Interactions

We investigated the formation of nanoribbon hydrogels in a mixed system of zinc ions, bis(ligand)s, and triblock peptide copolymers. Using a combination of experimental techniques: dynamic light scattering, cryo-transmission electron microscopy, small-angle X-ray scattering and circular dichroism, w...

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Veröffentlicht in:Langmuir 2009-11, Vol.25 (22), p.12899-12908
Hauptverfasser: Yan, Yun, de Keizer, Arie, Martens, Aernout A, Oliveira, Cristiano Luis Pinto, Pedersen, Jan Skov, de Wolf, Frits A, Drechsler, Markus, Cohen Stuart, Martien A, Besseling, Nicolaas A. M
Format: Artikel
Sprache:eng
Schlagworte:
block-copolymer micelles
Chemistry
circular-dichroism
coacervate core micelles
Colloidal gels. Colloidal sols
Colloidal state and disperse state
Colloids: Surfactants and Self-Assembly, Dispersions, Emulsions, Foams
concentrated colloidal suspensions
coordination polymers
diblock copolymer
Exact sciences and technology
General and physical chemistry
Hydrogels - chemistry
metal-ions
Models, Chemical
Nanostructures - chemistry
Nanotechnology
Peptides - chemistry
proteins
small-angle scattering
Surface physical chemistry
transition
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Zusammenfassung:We investigated the formation of nanoribbon hydrogels in a mixed system of zinc ions, bis(ligand)s, and triblock peptide copolymers. Using a combination of experimental techniques: dynamic light scattering, cryo-transmission electron microscopy, small-angle X-ray scattering and circular dichroism, we arrived at a model for the formation of nanoribbon hydrogels in which well-defined nanoribbons are formed out of multiple supramolecular interactions: (1) metal coordination that yields supramolecular polyelectrolytes; (2) electrostatic complexation between the supramolecular polyelectrolytes and the oppositely charged blocks of the peptide copolymers; (3) hydrogen bond and (4) hydrophobic interactions that support the secondary and ternary structure of the ribbons; (5) van der Waals interactions that enable bundling of the ribbons.
ISSN:0743-7463
1520-5827
DOI:10.1021/la901834v