Peptide Recognition: Encapsulation and α‐Helical Folding of a Nine‐Residue Peptide within a Hydrophobic Dimeric Capsule of a Bowl‐Shaped Host

Abstract

A dimeric capsule of coordination bowl 1 encapsulated a nine‐residue peptide (Trp‐Ala‐Glu‐Ala‐Ala‐Ala‐Glu‐Ala‐Trp; 2) within the large hydrophobic cavity in water, and stabilized the α‐helical conformation of bound 2. An NMR titration experiment revealed that monomeric bowl 1 recognized two Trp residues at the both terminals of 2 through 1/2=1:1 to 2:1 complexation. The 1:1 and 2:1 species exist in equilibrium even in the presence of excess 1. It was found that the formation of the 2:1 complex, in which two bowls of 1 wrapped the whole of 2, became dominant by the addition of NaNO₃ due to the fact that the enhanced ion strength increased the hydrophobic interaction between Trp residues and the cavity of 1. The α‐helical conformation of 2 within the dimeric capsule of 1 was elucidated from detailed NOESY analysis.