Initial studies performed by our laboratory revealed how the peptide sequence can be designed to allow for the supramolecular assembly of individual peptides to form nano structures (like fibers, smarts and tubes) able to transport small molecules and/or charged ions. Under easily controllable conditions, regulated by interactions between the peptides and non-polar solvent, the nanofiber length can be extended, resulting in fibers entanglement and gel formation.
Design, synthesis and application of delivery systems based on self-assembling D,L-oligopeptides that are organized in ?-strand motif resulting in gel formation.
Fenude Emma
2020
Abstract
Initial studies performed by our laboratory revealed how the peptide sequence can be designed to allow for the supramolecular assembly of individual peptides to form nano structures (like fibers, smarts and tubes) able to transport small molecules and/or charged ions. Under easily controllable conditions, regulated by interactions between the peptides and non-polar solvent, the nanofiber length can be extended, resulting in fibers entanglement and gel formation.File in questo prodotto:
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