Conformational characteristics of alternating stereo‐co‐oligopeptides of D‐ and L‐norleucine: influence of an <i>N</i>‐methyl group

Schoch, Emma Fenude; Römer, D.; Lorenzi, Gian Paolo

doi:10.1111/j.1399-3011.1994.tb00398.x

Cited by 9 publications

(1 citation statement)

References 24 publications

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“…Several studies have indicated that the ion-conducting transmembrane channels formed by gramicidin A in lipid bilayer originated througha dimerization process, and Urry [1] has proposed that the channels are helical dimers consisting of two single stranded β-helices (6,3 residues per turn) connected head-to-head (formyl-end-to-formyl-end). Urry's proposal is consistent with a number of experimental observations, and the ability of single-and double-stranded β-helices to give head-to-head dimers has been demonstrated either with gramicidin A [1,2] as with synthetic N-formyl oligopeptides [3][4]. A previous work on elastin fragments has clearly revealed the presence of type I and type II β-turns.…”

Section: Introductionsupporting

confidence: 78%

Study Of B-Sheet Helix Interactions Based On ConformationalProperties Of Synthetic D,L-Alternating Decapeptides

Fenude¹

2018

Proceedings of the 35th European Peptide Symposium

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De novo peptide design is based on the ability to construct peptide sequences with predictable folding patterns. Helices and β-sheet have been the focus of considerable synthetic attentionin attempts to assemble mimics for helical bundles and all β-motifs. In contrast, strategies for construction of β-sheet helix have been less widely explored. The β-sheet helical architecture is constructed from polypeptides that are coiled into a large helix, formed by stacks of β-sheets separated by loops. β-Sheet helices are present in the fibrous form of transyretin, that play an important role in bovine spongiform encephalopathy (BSE) and form the crucial structural elements in insect antifreeze proteins. We report on synthetic analogues able to form β-sheet helices and on the structural comparison with β-helices formed by D,L-alternating peptides.

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Section: Introductionsupporting

confidence: 78%

Study Of B-Sheet Helix Interactions Based On ConformationalProperties Of Synthetic D,L-Alternating Decapeptides

Fenude¹

2018

Proceedings of the 35th European Peptide Symposium

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Solution NMR structure of aD,L-alternating oligonorleucine as a model of ?-helix

et al. 2001

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β‐Helix structures are of particular interest due to their capacity to form transmembrane channels with different transport properties. However, the relatively large number of β‐helices configurations does not allow a direct conformational analysis of β‐helical oligopeptides. A synthetic alternating D,L‐oligopeptide with twelve norleucines (XIIMe) has been used as a model to get insight in the conformational features of β‐helix structures. The spatial configuration of XIIMe in solution has been determined by NMR. An extensive set of distances (nuclear Overhauser effect) and dihedral (J coupling constants) constraints have been included in molecular dynamics calculations. The NMR experimental data and theoretical calculations clearly indicate that the XIIMe adopts a single β4.4‐helix‐type conformation in nonpolar solvents. © 2001 John Wiley & Sons, Inc. Biopolymers 59: 110–119, 2001

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Organische Nanoröhren durch Selbstorganisation

et al. 2001

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Conformational characteristics of alternating stereo‐co‐oligopeptides of D‐ and L‐norleucine: influence of an N‐methyl group

Cited by 9 publications

References 24 publications

Study Of B-Sheet Helix Interactions Based On ConformationalProperties Of Synthetic D,L-Alternating Decapeptides

Study Of B-Sheet Helix Interactions Based On ConformationalProperties Of Synthetic D,L-Alternating Decapeptides

Solution NMR structure of aD,L-alternating oligonorleucine as a model of ?-helix

Organische Nanoröhren durch Selbstorganisation

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