Abstract
We report that squaric esters can serve as bifunctional reagents for selective peptide stapling reactions. Formation of the squaric amide staple occurs under mild conditions with amine-containing side chains. We show that short resin-bound peptides are readily stapled on solid phase and that stapling can occur at various relative positions along the peptide and with various amine tether lengths (e.g. Lysine, ornithine, etc). The squaric amide staples are stable to strong acid conditions used to cleave the stapled peptide from the resin and the stapled peptides show an increase in helicity as analyzed through circular dichroism.
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