@inbook{34255789ae624c6faa35afa3a1ce9b55,
title = "High-throughput quantitative N-glycan analysis of glycoproteins",
abstract = "N-linked oligosaccharides are complex non-template-derived structures that are attached to the side chains of asparagine, via the nitrogen atom. Specific changes in the N-glycans of serum glycoproteins have been associated with the pathogenesis of many diseases. The oligosaccharides present on the C H2 domain of immunoglobulins are known to modulate the effector functions of the molecule. These glycans provoke various biological effects, necessitating the development of robust high-throughput technology in order to fully characterize the N-glycosylation profile. This chapter describes in detail four methods to release N-glycans from the glycoprotein of interest. Two of these protocols, referred to as the {"}In-Gel Block{"} and {"}1D sodium dodecyl sulfate-polyacrylamide gel electrophoresis{"} methods, require immobilization of the glycoprotein prior to analysis. An automated method is also described, involving the purification of immunoglobulins directly from fermentation media, and, finally, an {"}In-solution method{"} is detailed, which directly releases the N-glycans into solution. HILIC and WAX-HPLC are used to analyze the N-glycan profile. Exoglycosidase enzymes digestion arrays, in combination with computer-assisted data analysis, are used to determine both the sequence and linkage of the N-glycans present.",
keywords = "Automation, Glycomics, HPLC, High throughput, N-glycan analysis, Oligosaccharide, Robotics",
author = "Margaret Doherty and McManus, {Ciara A.} and Rebecca Duke and Rudd, {Pauline M.}",
year = "2012",
doi = "10.1007/978-1-61779-921-1_19",
language = "English",
isbn = "9781617799204",
series = "Methods in Molecular Biology",
pages = "293--313",
editor = "Voynov Vladimir and Caravella Justin",
booktitle = "Therapeutic Proteins",
}