Alex Harvey scite author profile

Alex Harvey

2Publications

26Citation Statements Received

71Citation Statements Given

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GlycoScientific (United States)

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Reliable LC‐MS quantitative glycomics using iGlycoMab stable isotope labeled glycans as internal standards

et al. 2016

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Glycans have numerous functions in various biological processes and participate in the progress of diseases. Reliable quantitative glycomic profiling techniques could contribute to the understanding of the biological functions of glycans, and lead to the discovery of potential glycan biomarkers for diseases. Although LC-MS is a powerful analytical tool for quantitative glycomics, the variation of ionization efficiency and MS intensity bias are influencing quantitation reliability. Internal standards can be utilized for glycomic quantitation by MS-based methods to reduce variability. In this study, we used stable isotope labeled IgG2b monoclonal antibody, iGlycoMab, as an internal standard to reduce potential for errors and to reduce variabililty due to sample digestion, derivatization, and fluctuation of nanoESI efficiency in the LC-MS analysis of permethylated Nglycans released from model glycoproteins, human blood serum, and breast cancer cell line. We observed an unanticipated degradation of isotope labeled glycans, tracked a source of such degradation, and optimized a sample preparation protocol to minimize degradation of the internal standard glycans. All results indicated the effectiveness of using iGlycoMab to minimize errors originating from sample handling and instruments.

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Reducing Interferences in Glycosylation Site Mapping

Birx¹,

Harvey²,

Popov³

et al. 2022

J Biomol Tech

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A current method to locate sites of N-linked glycosylation on a protein involves the identification of deamidated sites after releasing the glycans with peptide-Nglycosidase F (PNGase F). PNGase F deglycosylation converts glycosylated Asn residues into Asp. The 1-Da mass tag created by this process is observable by liquid chromatography-tandem mass spectrometry analysis. A potential interference to this method of N-glycosylation site mapping is the chemical deamidation of Asn residues, which occurs spontaneously and can result in false positives. Deamidation is a pHdependent process that results in the formation of iso-Asp (i-Asp) and native Asp (n-Asp) by a succinimide intermediate, whereas PNGase F deglycosylation results in the conversion of the glycosylation Asn residue into n-Asp. N-linked glycosylation sites can thus be identified by the presence of a single chromatographic peak corresponding to an n-Asp residue within the consensus sequence Asn-X-Ser/Thr, whereas sites of deamidation led to 2 chromatographic peaks resulting from the presence of n-Asp and i-Asp.

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Alex Harvey

Reliable LC‐MS quantitative glycomics using iGlycoMab stable isotope labeled glycans as internal standards

Reducing Interferences in Glycosylation Site Mapping

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