Enhanced stiffness of silk-like fibers by loop formation in the corona leads to stronger gels

Autor:	Rombouts, Wolf H., Domeradzka, Natalia E., Werten, Marc W.T., Leermakers, Frans A.M., de Vries, Renko J., de Wolf, Frits A., van der Gucht, Jasper
Jazyk:	angličtina
Rok vydání:	2016
Předmět:	BBP Bioconversion rheology self-assembly fibers Physical Chemistry and Soft Matter hydrogels VLAG protein polymers
Zdroj:	Biopolymers (2016) Biopolymers, 795-801 STARTPAGE=795;ENDPAGE=801;ISSN=00063525;TITLE=Biopolymers
ISSN:	0006-3525
Popis:	We study the self-assembly of protein polymers consisting of a silk-like block flanked by two hydrophilic blocks, with a cysteine residue attached to the C-terminal end. The silk blocks self-assemble to form fibers while the hydrophilic blocks form a stabilizing corona. Entanglement of the fibers leads to the formation of hydrogels. Under oxidizing conditions the cysteine residues form disulfide bridges, effectively connecting two corona chains at their ends to form a loop. We find that this leads to a significant increase in the elastic modulus of the gels. Using atomic force microscopy, we show that this stiffening is due to an increase of the persistence length of the fibers. Self-consistent-field calculations indicate a slight decrease of the lateral pressure in the corona upon loop formation. We argue that this small decrease in the repulsive interactions affects the stacking of the silk-like blocks in the core, resulting in a more rigid fiber.
Databáze:	OpenAIRE
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