Abstract
A robust, practical, and sustainable isomerization-suppressed peptide bond formation via acyl sulfonamide, a twisted amide, is disclosed. Tosyl isocyanate and pentafluorobenzyl bromide were applied in combination to activate the peptide C-terminus, which then reacted with an amine to yield an elongated peptide with high stereochemical purity. Careful analysis of NMR spectra of the active intermediate revealed the presence of an intramolecular hydrogen bond, suggesting that the hydrogen bond suppressed Cα-epimerization during amidation. The isomerization suppression by the intramolecular hydrogen bond is expected to be effective even under high dilution conditions, making the present method a powerful tool for the synthesis of complex macrocyclic peptides. In addition to peptide synthesis, the developed synthetic entry to twisted amides can be applied to the investigation of transition metal-catalyzed N-C bond activation. Moreover, the application to the N-C bond activation returned insight into peptide synthesis, leading to the use of sulfonamide as a protecting group of carboxylic acid that can be orthogonally removed in the presence of other conventional protecting groups.
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