Title of article
Dilute liquid crystals used to enhance residual dipolar couplings may alter conformational equilibrium in oligosaccharides Original Research Article
Author/Authors
Patrick Berthault، نويسنده , , Damien Jeannerat، نويسنده , , Franck Camerel، نويسنده , , Francisco Alvarez Salgado، نويسنده , , Yves Boulard، نويسنده , , Jean-Christophe P. Gabriel، نويسنده , , Hervé Desvaux، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2003
Pages
15
From page
1771
To page
1785
Abstract
The solution structures of a trisaccharide and a pentasaccharide containing the Lewisx motif were determined by two independent approaches using either dipolar cross-relaxation (NOE) or residual dipolar coupling (RDC) data. For the latter, one-bond 13C1H RDC enhanced by two different mineral liquid crystals were used alone. Home-written programs were employed firstly for measuring accurately the coupling constants in the direct dimension of non-decoupled HSQC experiments, secondly for transforming each RDC data set into geometrical restraints. In this second program, the complete molecular structure was expressed in a unique frame where the alignment tensor is diagonal. Assuming that the pyranose rings are rigid, their relative orientation is defined by optimizing the glycosidic torsion angles. For the trisaccharide, a good agreement was observed between the results of both approaches (NOE and RDC). In contrast, for the pentasaccharide, strong discrepancies appeared, which seem to result from interactions between the pentasaccharide and the mesogens, affecting conformational equilibrium. This observation is of importance, as it reveals that using simultaneously NOE and RDC can be hazardous as the former represent 99% of the molecules free in solution, whereas the latter correspond to less than 1% of the structure bound to the mesogen.
Keywords
Lewisx , Residual dipolar coupling , Mineral liquid crystal , Conformer equilibrium , Oligosaccharide
Journal title
Carbohydrate Research
Serial Year
2003
Journal title
Carbohydrate Research
Record number
963817
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