AI Article Synopsis
- Aromatic residues in peptides significantly influence self-assembly through interactions such as π-π stacking and hydrophobic forces, but there is limited research on the effects of single aromatic amino acids in this process.
- This study examines how different aromatic amino acids affect the folding, self-assembly properties, and rheological behaviors of disulfide-rich peptides, revealing that these interactions play a key role in their critical aggregation concentration (CAC).
- Additionally, the biocompatibility of the resulting hydrogels is tested for potential use in 3D cell cultures, showing that the F1-ox hydrogel supports cell viability and nutrient exchange due to its porous structure.
Article Abstract
Aromatic residues in assembling peptides play a crucial role in driving peptide self-assembly through π-π stacking and hydrophobic interactions. Although various aromatic capping groups have been extensively studied, systematic investigations into the effects of single aromatic amino acids in assembling peptides remain limited. In this study, the influence of aromatic-aromatic interactions on disulfide-rich assembling peptides is systematically investigated by incorporating three different aromatic amino acids. Their folding propensity, self-assembling properties, and rheological behaviors are evaluated. These results indicate that different aromatic-aromatic interactions have a significant effect on self-assembly abilities, as determined by critical aggregation concentration (CAC) measurements. Furthermore, the biocompatibility of these hydrogels is assessed, and their potential for 3D cell culture is explored. The injectable F1-ox hydrogel demonstrate excellent biocompatibility for SHED and NIH3T3 cells and exhibit a porous structure that facilitates nutrient and cellular metabolic waste exchange. This work provides new insights into the molecular design of peptide-based biomaterials, with a focus on the impact of aromatic residues on disulfide-rich assembling peptides.
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| http://dx.doi.org/10.1002/smll.202407464 | DOI Listing |
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