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  • Title: Online nanoliquid chromatography-mass spectrometry and nanofluorescence detection for high-resolution quantitative N-glycan analysis.
    Author: Kalay H, Ambrosini M, van Berkel PH, Parren PW, van Kooyk Y, García Vallejo JJ.
    Journal: Anal Biochem; 2012 Apr 01; 423(1):153-62. PubMed ID: 22330744.
    Abstract:
    The characterization of the repertoire of glycans at the quantitative and qualitative levels on cells and glycoproteins is a necessary step to the understanding of glycan functions in biology. In addition, there is an increasing demand in the field of biotechnology for the monitoring of glycosylation of recombinant glycoproteins, an important issue with regard to their safety and biological activity. The enzymatic release followed by fluorescent derivatization of glycans and separation by normal phase high-performance liquid chromatography (HPLC) has proven for many years to be a powerful approach to the quantification of glycans. Characterization of glycans has classically been performed by mass spectrometry (MS) with external standardization. Here, we report a new method for the simultaneous quantification and characterization of the N-glycans on glycoproteins without the need for external standardization. This method, which we call glycan nanoprofiling, uses nanoLC-coupled electrospray ionization (ESI)-MS with an intercalated nanofluorescence reader and provides effective single glycan separation with subpicomolar sensitivity. The method relies on the isolation and coumaric derivatization of enzymatically released glycans collected by solid phase extraction with porous graphitized carbon and their separation over polyamide-based nanoHPLC prior to serial nanofluorescence and nanoelectrospray mass spectrometric analysis. Glycan nanoprofiling is a broadly applicable and powerful approach that is sufficient to identify and quantify many glycan oligomers in a single run. Glycan nanoprofiling was successfully applied to resolve the glycans of monoclonal antibodies, showing that this method is a fast and sensitive alternative to available methods.
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