2009
DOI: 10.1002/chem.200801777
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The Nature and Sequence of the Amino Acid Aglycone Strongly Modulates the Conformation and Dynamics Effects of Tn Antigen's Clusters

Abstract: Synthetic oligosaccharide vaccines based on carbohydrate epitopes are currently being evaluated as potential immunotherapeutics in the treatment of cancer. In an effort to study the role that the amino acid moiety (L-serine and/or L-threonine residues) plays on the global shape of the resulting glycopeptides and on the dynamics of the carbohydrate moiety, diverse glycopeptides based on the Tn antigen have been synthesized and studied in aqueous solution by combining NMR spectroscopic experiments and molecular … Show more

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Cited by 23 publications
(12 citation statements)
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“…A hydrogen bond between the NH proton of the glycosylated Thr and the carbonyl group of the sugar, along with a steric effect provoked by this residue, could be responsible for the conformational change in the peptide backbone. A similar deduction was reached for clusters of the Tn 29,30 or STn antigens. 31 Strikingly, the study conducted by Campbell's group on glycopeptides derived from the sequence GVT 3 S 4 APDTRPAPGSTA, with singly or doubly Tn-glycosylated versions at T3 or/and S4, points out that the hydrogen bond interaction should be stronger for the aGaNAc-Thr pair than for the a-GalNAc-Ser set, as suggested by the temperature coefficient data.…”
Section: Effect Of A-o-glycosylation On Peptide Backbone Conformationsupporting
confidence: 71%
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“…A hydrogen bond between the NH proton of the glycosylated Thr and the carbonyl group of the sugar, along with a steric effect provoked by this residue, could be responsible for the conformational change in the peptide backbone. A similar deduction was reached for clusters of the Tn 29,30 or STn antigens. 31 Strikingly, the study conducted by Campbell's group on glycopeptides derived from the sequence GVT 3 S 4 APDTRPAPGSTA, with singly or doubly Tn-glycosylated versions at T3 or/and S4, points out that the hydrogen bond interaction should be stronger for the aGaNAc-Thr pair than for the a-GalNAc-Ser set, as suggested by the temperature coefficient data.…”
Section: Effect Of A-o-glycosylation On Peptide Backbone Conformationsupporting
confidence: 71%
“…Corzana and co-workers have conducted conformational analyses of short glycopeptides derived from MUC1. 30,[36][37][38] As a result of the extra flexibility displayed by the peptide motif in this kind of compounds, the NOE-derived distances and coupling constants are used with MD-tar. In stark contrast to classical constraints, this technique provides a distribution of low-energy conformers that can quantitatively reproduce the NMR spectroscopic data.…”
Section: Effect Of A-o-glycosylation On Peptide Backbone Conformationmentioning
confidence: 99%
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“…If the clustered T N ‐antigen GS*T*A epitope was present, then additional glycosylation with various single core glycans in PDT*R did not undermine the antibody affinity (peptides a – d , Figure ). Clustered S*T* glycosylation has been shown by NMR structural studies to fix the spatial disposition and flexibility of the carbohydrate moiety on the peptide backbone . The high antibody specificity may be a direct consequence of the hapten clustering.…”
Section: Resultsmentioning
confidence: 99%
“…Cleavage of the Boc protecting group at the N-terminus was effected with methanolic HCl thus providing the dihydrochloride salt H-His(Me)-OMe•2HCl 2. Deprotection with TFA was equally successful, 14 however the obtained trifluoroacetate salt was significantly more hygroscopic than the chloride salt and hence less easy to handle. The C-protected methyl-histidine 2 was subsequently used for amino acid coupling reactions.…”
Section: Synthesis Of Alanine-based Histidylidene Metal Complexesmentioning
confidence: 99%