LAUSR

Peptide macrocycles are widely utilized in the development of high affinity ligands, including stapled α‐helices. The linear rigidity of a 1,3‐diynyl linkage provides an optimal distance (7 Å) between β‐carbons of the i,i+4 amino acid side chains, thus suggesting its utility in stabilizing α‐helical structures. Here, we report the development of an on‐resin strategy for an intramolecular Glaser reaction between two alkyne‐terminated side chains by using copper chloride, an essential bpy‐diol ligand, and diisopropylethylamine at room temperature. The efficiency of this ligation was illustrated by the synthesis of (i,i+4)‐, (i,i+5)‐, (i,i+6)‐, and (i,i+7)‐stapled BCL‐9 α‐helical peptides using the unnatural amino acid propargyl serine. Overall, this procedurally simple method relies on inexpensive and widely available reagents to generate low molecular weight 23‐, 26‐, 29‐, and 32‐membered peptide macrocycles.