Chapter 2: NMR as a Tool to Unveil the Molecular Basis of Glycan-mediated Host–Pathogen Interactions
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Published:30 Mar 2015
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Special Collection: 2015 ebook collection , 2011-2015 industrial and pharmaceutical chemistry subject collectionSeries: Drug Discovery Series
R. Marchetti, A. Molinaro, and A. Silipo, in Carbohydrates in Drug Design and Discovery, ed. J. Jimenez-Barbero, F. J. Canada, and S. Martin-Santamaria, The Royal Society of Chemistry, 2015, ch. 2, pp. 21-37.
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The nature of the relationship between microbes and hosts spans the broad spectrum from beneficial (symbiosis) to pathogenic (disease); one of the key factors determining the establishment of any type of host–microbe interaction is the pattern of glycoconjugates exposed on cell surfaces, many known as virulence factors since they are pivotal for adhesion to host tissue, immunoevasion and immunosuppression, causing disease in the host. The recognition of these pathogen glycostructures by specific host receptors is an important means of immune defense. In this context, NMR represents a valuable tool to investigate the conformational properties of both host/pathogen signaling molecules and to disclose their interaction at a molecular level. This chapter provides an overview of several protein–carbohydrate interaction systems studied by NMR, and their implications in human and plant diseases.