posted on 2016-04-18, 00:00authored byMohamed
A. Elsawy, Andrew M. Smith, Nigel Hodson, Adam Squires, Aline F. Miller, Alberto Saiani
β-Sheet forming peptides have
attracted significant interest
for the design of hydrogels for biomedical applications. One of the
main challenges is the control and understanding of the correlations
between peptide molecular structure, the morphology, and topology
of the fiber and network formed as well as the macroscopic properties
of the hydrogel obtained. In this work, we have investigated the effect
that functionalizing these peptides through their hydrophobic face
has on their self-assembly and gelation. Our results show that the
modification of the hydrophobic face results in a partial loss of
the extended β-sheet conformation of the peptide and a significant
change in fiber morphology from straight to kinked. As a consequence,
the ability of these fibers to associate along their length and form
large bundles is reduced. These structural changes (fiber structure
and network topology) significantly affect the mechanical properties
of the hydrogels (shear modulus and elasticity).