Among the many methods available for accessing conformationally diverse cyclic peptides, the derivatization of macrocyclic iminopeptides has remained notably underexplored. Now, a relevant complexity-generating method expands the repertoire of synthetic strategies exploiting the reactivity of an imino bond embedded in the cyclic peptide skeleton. Here we highlight a recent report describing the on-resin construction of a new family of macrocyclic peptide/natural product-inspired hybrids, namely "PepNats", by derivatization of cyclic iminopeptides through 1,3-cycloaddition reactions. A proof-of-concept with PepNats bearing peptide sequences that mimic protein hot loops demonstrated the potential of this strategy to create novel macrocyclic peptide ligands capable of modulating protein-protein interactions.
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Macrocyclic Iminopeptides Diversify To Better Target Proteins.
ChemMedChem
July 2020
Faculty of Chemistry, University of Havana, Zapata y G, Havana, 10400, Cuba.
Among the many methods available for accessing conformationally diverse cyclic peptides, the derivatization of macrocyclic iminopeptides has remained notably underexplored. Now, a relevant complexity-generating method expands the repertoire of synthetic strategies exploiting the reactivity of an imino bond embedded in the cyclic peptide skeleton. Here we highlight a recent report describing the on-resin construction of a new family of macrocyclic peptide/natural product-inspired hybrids, namely "PepNats", by derivatization of cyclic iminopeptides through 1,3-cycloaddition reactions.
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