1359144-20-9Relevant articles and documents
Positional screening and NMR structure determination of side-chain-to-side-chain cyclized β3-peptides
Vaz, Esther,Dames, Sonja A.,Geyer, Matthias,Brunsveld, Luc
supporting information; experimental part, p. 1365 - 1373 (2012/04/10)
Many β-peptides fold in a 14-helical secondary structure in organic solvents, but similar 14-helix formation in water requires additional stabilizing elements. Especially the 14-helix stabilization of short β-peptides in aqueous solution is critical, due to the limited freedom for incorporating stabilizing elements. Here we show how a single lactam bridge, connecting two β-amino acid side-chains, can lead to high 14-helix character in short β3-peptides in water. A comparative study, using CD and NMR spectroscopy and structure calculations, revealed the strong 14-helix inducing power of a side-chain-to-side-chain cyclization and its optimal position on the β3-peptide scaffold with respect to pH and ionic strength effects. The lactam bridge is ideally incorporated in the N-terminal region of the β3-peptide, where it limits the conformational flexibility of the peptide backbone. The lactam bridge induces a 14-helical conformation in methanol and water to a similar extent. Based on the presented first high resolution NMR 3D structure of a lactam bridged β3-peptide, the fold shows a large degree of high order, both in the backbone and in the side-chains, leading to a highly compact and stable folded structure.