Abstract
As minimalist versions of beta-structure, two-stranded beta-hairpins are commonly employed as platforms for assessing the interactions that stabilize beta-sheets in proteins. We have found that the presence of a 1,6-dihydro-3(2H)-pyridinone moiety (the "@-unit") as an amino acid replacement at the i - 1 or i + 4 positions relative to a beta-turn strongly stabilizes the hairpin conformation. Hybrids of this type bridge the gap between natural beta-hairpins and unnatural beta-sheets because the @-unit only replaces one residue in a peptide while stabilizing the hairpin conformation to a greater extent than a normal amino acid. In this report, we describe the synthesis of a variety of @-tide-templated hairpins and the NMR and CD characterization of their conformations in both polar and nonpolar solvents.
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