Author: Gauto Diego F Petruk Ariel A Modenutti Carlos P Blanco Juan I Di Lella Santiago Mart Marcelo A
Publisher: Oxford University Press
ISSN: 1460-2423
Source: Glycobiology, Vol.23, Iss.2, 2013-02, pp. : 241-258
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Abstract
Recognition and complex formation between proteins and carbohydrates is a key issue in many important biological processes. Determination of the three-dimensional structure of such complexes is thus most relevant, but particularly challenging because of their usually low binding affinity. In silico docking methods have a long-standing tradition in predicting proteinligand complexes, and allow a potentially fast exploration of a number of possible proteincarbohydrate complex structures. However, determining which of these predicted complexes represents the correct structure is not always straightforward. In this work, we present a modification of the scoring function provided by AutoDock4, a widely used docking software, on the basis of analysis of the solvent structure adjacent to the protein surface, as derived from molecular dynamics simulations, that allows the definition and characterization of regions with higher water occupancy than the bulk solvent, called water sites. They mimic the interaction held between the carbohydrate OH groups and the protein. We used this information for an improved docking method in relation to its capacity to correctly predict the proteincarbohydrate complexes for a number of tested proteins, whose ligands range in size from mono- to tetrasaccharide. Our results show that the presented method significantly improves the docking predictions. The resulting solvent-structure-biased docking protocol, therefore, appears as a powerful tool for the design and optimization of development of glycomimetic drugs, while providing new insights into proteincarbohydrate interactions. Moreover, the achieved improvement also underscores the relevance of the solvent structure to the protein carbohydrate recognition process.
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