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Metal-free functionalization of tyrosine residues in short peptides and study of the morphological alterations.

Santanu KarmakarGenji SukumarSeelam PrasanthkumarBabli K JhaPrathama S MainkarKiranmai NayaniSrivari Chandrasekhar
Published in: Chemical communications (Cambridge, England) (2024)
An efficient functionalization of tyrosine residues in phenolic regions is achieved under metal-free conditions. The strategy involves the conversion of a tyrosine residue to 4-amino phenylalanine or 4-amino-3-methoxy phenylalanine in short peptides through a controlled oxidative dearomatization. This transformation is achieved in one pot with good yields and excellent regioselectivity. Consequently, the self-assembly of the peptide compounds has been studied at the nanoscopic level before and after functionalization. The results suggest that the peptide derivatives comprising amide groups promote intermolecular H-bonding interactions and the difference in -OH and -NH 2 functional groups is found to be responsible for the morphological changes. Morphological transitions from 1D nanowires to 2D nanosheets were observed during functional group modification.
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