Tyrosine bioconjugation with hypervalent iodine

Hypervalent iodine reagents have recently emerged as powerful tools for late-stage peptide and protein functionalization. Herein we report a tyrosine bioconjugation methodology for the introduction of hypervalent iodine onto biomolecules under physiological conditions. Tyrosine residues were engaged in a selective addition onto the alkynyl bond of ethynylbenziodoxolones (EBX), resulting in stable vinylbenziodoxolones (VBX) bioconjugates. The methodology was successfully applied to peptides and proteins and tolerated all other nucleophilic residues, with the exception of cysteine. The generated VBX were further functionalized by palladium-catalyzed cross-coupling and azide-alkyne cycloaddition reactions. The method could be successfully used to modify bioactive natural products and native streptavidin to enable thiol-mediated cellular uptake.

Automated summary

The study presents a novel tyrosine bioconjugation methodology that introduces hypervalent iodine onto biomolecules under physiological conditions, providing a powerful tool for late-stage peptide and protein functionalization. This approach not only successfully applied to peptides and proteins but also enabled the modification of bioactive natural products and streptavidin.