Glycan array


Glycan arrays, like that offered by the Consortium for Functional Glycomics, National Center for Functional Glycomics and , contain carbohydrate compounds that can be screened with lectins, antibodies or cell receptors to define carbohydrate specificity and identify ligands. Glycan array screening works in much the same way as other microarray that is used for instance to study gene expression DNA microarrays or protein interaction Protein microarrays.
Glycan arrays are composed of various oligosaccharides and/or polysaccharides immobilised on a solid support in a spatially-defined arrangement. This technology provides the means of studying glycan-protein interactions in a high-throughput environment. These natural or synthetic glycans are then incubated with any glycan-binding protein such as lectins, cell surface receptors or possibly a whole organism such as a virus. Binding is quantified using fluorescence-based detection methods.

Applications

The glycan array technology has been and still is applied to study the specificity of host-pathogen interactions.
Early on, glycan arrays were proven useful in determining the specificity of the Hemagglutinin of the Influenza A virus binding to the host and distinguishing across different strains of flu. This was shown with CFG arrays as well as customised arrays.
Cross-platform benchmarks led to highlight the effect of glycan presentation and spacing on binding.
Glycan arrays are possibly combined with other techniques such as Surface Plasmon Resonance to refine the characterisation of glycan-binding. For example, this combination led to demonstrate the calcium-dependent heparin binding of Annexin A1 that is involved in several biological processes including inflammation, apoptosis and membrane trafficking.