Paul R. LePlae scite author profile

A major frontier in foldamer research is creation of unnatural oligomers that adopt discrete tertiary structures; at present, only biopolymers are known to fold into such compact conformations. We report an initial step toward helix-bundle tertiary structure in the beta-peptide realm by showing that a 10-residue beta-peptide designed to adopt an amphiphilic helical conformation forms small soluble aggregates in water. Sedimentation equilibrium data indicate that the aggregated state falls in the tetramer-hexamer size range. [structure: see text]

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An Efficient Route to Either Enantiomer oftrans-2-Aminocyclopentanecarboxylic Acid

LePlae

Umezawa

Lee

et al. 2001

J. Org. Chem.

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Tolerance of Acyclic Residues in the β-Peptide 12-Helix: Access to Diverse Side-Chain Arrays for Biological Applications

et al. 2002

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Oligomeric backbones with well-defined conformational propensities can serve as scaffolds for displaying sets of functional groups in specific three-dimensional arrangements. beta-Peptides are particularly interesting in this regard because several distinct secondary structures can be induced by appropriate choice of beta-amino acid substitution pattern.3 The beta-peptide 12-helix (defined by 12-membered ring C=O(i)- -H-N(i + 3) hydrogen bonds) is of particular interest because this helix resembles the alpha-helix. To date 12-helices have been observed in beta-peptides comprised exclusively of residues containing a five-membered ring constraint. Here we show that 12-helical propensity is maintained when some cyclic beta-amino acid residues are replaced with more flexible acyclic residues. This result is important because use of acyclic residues greatly facilitates introduction of diverse side chains at specific sites along the 12-helix. We demonstrate the utility of this advance in the context of antibiotic design.

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Stereoselective Synthesis of 3-Substituted 2-Aminocyclopentanecarboxylic Acid Derivatives and Their Incorporation into Short 12-Helical β-Peptides That Fold in Water

et al. 2002

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A stereoselective synthetic route is reported for the introduction of side chains at the 3-position of trans-2-aminocyclopentanecarboxylic acid (ACPC). Ring opening of the aziridine 2-benzyloxymethyl-6-azabicyclo[3.1.0]hexane with selected nucleophiles occurs in a regioselective manner and provides ACPC precursors with functional groups at the 3-position, trans to the 2-amino group. Oligomers composed of the 3-substituted ACPC residues maintain the 12-helical conformation displayed by the nonsubstituted analogues, as shown by their similar circular dichroism signatures. The added diversity of the new residues provides good dispersion of NMR signals, allowing the assignment of nearly all the NOE signals of a selected hexamer in aqueous solution. The NOEs between protons on nonadjacent residues are characteristic of the 12-helix. 3-Substituted ACPC residues allow one to arrange specific functional groups in a geometrically defined fashion, which should facilitate the design of beta-peptides for biological applications.

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An Efficient Route to Either Enantiomer of Orthogonally Protectedtrans-3-Aminopyrrolidine-4-carboxylic Acid

et al. 2001

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Paul R. LePlae

Toward β-Peptide Tertiary Structure: Self-Association of an Amphiphilic 14-Helix in Aqueous Solution

An Efficient Route to Either Enantiomer oftrans-2-Aminocyclopentanecarboxylic Acid

Tolerance of Acyclic Residues in the β-Peptide 12-Helix: Access to Diverse Side-Chain Arrays for Biological Applications

Stereoselective Synthesis of 3-Substituted 2-Aminocyclopentanecarboxylic Acid Derivatives and Their Incorporation into Short 12-Helical β-Peptides That Fold in Water

An Efficient Route to Either Enantiomer of Orthogonally Protectedtrans-3-Aminopyrrolidine-4-carboxylic Acid

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