For mass spectrometry (MS)-based N-glycoproteomics, selective enrichment of N-glycopeptides prior to MS analysis is a crucial step to reduce sample complexity. Enrichment based on covalent coupling is as an increasingly attractive strategy due to the unbiased and highly specific features. However, most of current covalent coupling reactions for N-glycopeptides enrichment are still limited by long coupling time and harsh coupling conditions. Herein, we developed a thiazolidine formation-based approach for ultrafast and highly efficient solid-phase extraction of N-Glycoproteome. With the use of facile synthesis of Cys-terminated magnetic nanoparticles, the oxidized glycan moieties on glycopeptides could be selectively captured by the β-amino thiols groups on the surface of magnetic nanoparticles through thiazolidine formation. The coupling could be achieved within 30 min under mild condition, eliminating the addition of toxic catalyst or sample-destroying reducing agent. Also, the great enrichment performance for N-glycopeptides were obtained in terms of sensitivity (low fmol levels), selectivity (extracting N-glycopeptides from the mixture of glycopeptides and non-glycopeptides at a 1:100 molar ratio) and reproducibility (CVs<26%). Finally, this proposed method was successfully demonstrated by analyzing the N-glycoproteome from 2 μL human serum, which offers an alternative purification method for analysis of N-glycoproteome from complex biological samples.
Keywords: Enrichment; Mass spectrometry; N-Glycoproteome; Thiazolidine chemistry; Ultrafast.
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