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An Efficient and Economical N -Glycome Sample Preparation Using Acetone Precipitation.

Junyao WangWenjing PengMojibola FowoweOluwatosin DaramolaYehia S Mechref
Published in: Metabolites (2022)
Due to the critical role of the glycome in organisms and its close connections with various diseases, much time and effort have been dedicated to glycomics-related studies in the past decade. To achieve accurate and reliable identification and quantification of glycans extracted from biological samples, several analysis methods have been well-developed. One commonly used methodology for the sample preparation of N -glycomics usually involves enzymatic cleavage by PNGase F, followed by sample purification using C18 cartridges to remove proteins. PNGase F and C18 cartridges are very efficient both for cleaving N -glycans and for protein removal. However, this method is most suitable for a limited quantity of samples. In this study, we developed a sample preparation method focusing on N -glycome extraction and purification from large-scale biological samples using acetone precipitation. The N -glycan yield was first tested on standard glycoprotein samples, bovine fetuin and complex biological samples, and human serum. Compared to C18 cartridges, most of the sialylated N -glycans from human serum were detected with higher abundance after acetone precipitation. However, C18 showed a slightly higher efficiency for protein removal. Using the unfiltered human serum as the baseline, around 97.7% of the proteins were removed by acetone precipitation, while more than 99.9% of the proteins were removed by C18 cartridges. Lastly, the acetone precipitation was applied to N -glycome extraction from egg yolks to demonstrate large-scale glycomics sample preparation.
Keyphrases
  • molecularly imprinted
  • cell surface
  • protein protein
  • amino acid
  • multidrug resistant
  • mass spectrometry
  • drug induced
  • wastewater treatment
  • case control