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• W1980998975 abstract "The comprehensive structural analysis reported herein of eight N-glycopeptides, in three different solvents, is based on quantitative CD experiments, homonuclear nuclear Overhauser effect measurements, and molecular dynamics (MD) calculations. Although several orientations of the two amide planes attached to the carbohydrate pyranose ring are possible, according to NOE, CD data, and MD simulations, of all of the glycopeptide models, regardless of the type of the carrier peptide, only one dominant conformer population was found. This conformer is characterized by a nearly trans orientation of the CH and NH hydrogens of both acetamido groups. This finding is in perfect agreement with x-ray crystallographic data on the solid state conformation of the 1-N-acetyl- and 1-N-(beta-aspartyl)-2-acetamido-2-deoxy-beta-D-glucopyranosyla min e. The precise identification of this dominant conformer of N-glycopeptides in solution was the major question addressed herein by the structural analyses. A CD additivity experiment was carried out using an equimolar solution of Boc-Pro-Asp-NHCH3 and 1-N-acetyl-3,4,6- tri-O-acetyl-2-acetamido-2-deoxy-beta-D-glucopyranosylamine at ambient temperature in acetonitrile. The CD spectrum obtained from the equimolar solution of the above two molecules (the spectroscopic sum) was identical with the CD curve obtained from the algebraic summation of the individually recorded CD spectra of the peptide and the carbohydrate moiety (mathematical sum). The global picture of the CD spectral analyses of the eight parent peptides with the eight N-glycopeptides revealed that in trifluoroethanol and acetonitrile, the side-chain modification of the Asn models (natural N-glycopeptide analogues) by N-glycosylation has a significant effect on the conformation of the carrier peptide, resulting in a decrease in the original type I beta-turn content. Simultaneously, the type II beta-turn conformational percentage increased to approximately 20%. Such a conformational ratio change seems to be larger than the expected errors arising from the CD analyses, and agrees with the results of MD calculations. N-glycosylation of Asn residues causes perturbations, not only through the covalent bond, but also through specific hydrogen bonds between the backbone and side chain atoms. CD spectroscopy, augmented by efficient CD curve deconvolution techniques, has proved to be a useful tool for studying multicomponent conformer mixtures of small linear peptides in solution and changes of conformational equilibria caused by N-glycosylation." @default.
• W1980998975 created "2016-06-24" @default.
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• W1980998975 date "1993-04-01" @default.
• W1980998975 modified "2023-10-15" @default.
• W1980998975 title "Synthesis and conformational analysis of N-glycopeptides. II. CD, molecular dynamics, and nmr spectroscopic studies on linear N-glycopeptides" @default.
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• W1980998975 doi "https://doi.org/10.1002/bip.360330416" @default.
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