textjournal article
Enhanced Mechanical Rigidity of Hydrogels Formed from Enantiomeric Peptide Assemblies
Abstract
Chirality can be used as a design tool to control the mechanical rigidity of hydrogels formed from self-assembling peptides. Hydrogels prepared from enantiomeric mixtures of self-assembling β-hairpins show nonadditive, synergistic, enhancement in material rigidity compared to gels prepared from either pure enantiomer, with the racemic hydrogel showing the greatest effect. CD spectroscopy, TEM, and AFM indicate that this enhancement is defined by nanoscale interactions between enantiomers in the self-assembled state- Text
- Journal contribution
- Biophysics
- Biochemistry
- Molecular Biology
- Pharmacology
- Biotechnology
- Immunology
- Chemical Sciences not elsewhere classified
- Physical Sciences not elsewhere classified
- racemic hydrogel
- nanoscale interactions
- hairpin
- enhancement
- material rigidity
- TEM
- nonadditive
- enantiomeric mixtures
- design tool
- AFM
- peptide
- CD spectroscopy
- Enantiomeric Peptide AssembliesChirality
- Enhanced Mechanical Rigidity
- Hydrogel
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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