Abstract
Campylobacter jejuni is a gastrointestinal pathogen that is able to modify membrane and periplasmic proteins by the N-linked addition of a 7-residue glycan at the strict attachment motif (D/E)XNX(S/T). Strategies for a comprehensive analysis of the targets of glycosylation, however, are hampered by the resistance of the glycan-peptide bond to enzymatic digestion or β-elimination and have previously concentrated on soluble glycoproteins compatible with lectin affinity and gel-based approaches. We developed strategies for enriching C. jejuni HB93-13 glycopeptides using zwitterionic hydrophilic interaction chromatography and examined novel fragmentation, including collision-induced dissociation (CID) and higher energy collisional (C-trap) dissociation (HCD) as well as CID/electron transfer dissociation (ETD) mass spectrometry. CID/HCD enabled the identification of glycan structure and peptide backbone, allowing glycopeptide identification, whereas CID/ETD enabled the elucidation of glycosylation sites by maintaining the glycan-peptide linkage. A total of 130 glycopeptides, representing 75 glycosylation sites, were identified from LC-MS/MS using zwitterionic hydrophilic interaction chromatography coupled to CID/HCD and CID/ETD. CID/HCD provided the majority of the identifications (73 sites) compared with ETD (26 sites). We also examined soluble glycoproteins by soybean agglutinin affinity and two-dimensional electrophoresis and identified a further six glycosylation sites. This study more than doubles the number of confirmed N-linked glycosylation sites in C. jejuni and is the first to utilize HCD fragmentation for glycopeptide identification with intact glycan. We also show that hydrophobic integral membrane proteins are significant targets of glycosylation in this organism. Our data demonstrate that peptide-centric approaches coupled to novel mass spectrometric fragmentation techniques may be suitable for application to eukaryotic glycoproteins for simultaneous elucidation of glycan structures and peptide sequence.
Highlights
GRAVY value and mass calculation showed that our gel-free/lectin-free strategy of combining ZIC-HILIC glycopeptide enrichment with CID/ HCD and CID/ETD fragmentation allowed the identification of novel hydrophobic glycoproteins (17 with a GRAVY score Ͼ0; supplemental Table S1)
A total of 91 glycosylation sites have been confirmed in C. jejuni with 89 of these localized to chromosomally encoded proteins
The primary goal of this study was to further our knowledge of the substrates of glycosylation in this organism through the development of peptide-centric approaches to enrich and identify C. jejuni glycopeptides in a high throughput manner
Summary
GRAVY value and mass calculation showed that our gel-free/lectin-free strategy of combining ZIC-HILIC glycopeptide enrichment with CID/ HCD and CID/ETD fragmentation allowed the identification of novel hydrophobic glycoproteins (17 with a GRAVY score Ͼ0; supplemental Table S1). We examined the predicted proteomes of multiple sequenced C. jejuni strains to determine the degree of sequon conservation for the 89 chromosomally encoded glycosylation sites identified far in C. jejuni. From 926 protein sequences, we identified 903 conserved N-linked glycosylation sequons (97.52%), indicating a very high degree of conservation among glycosylation sites across strains of C. jejuni (supplemental Table S4).
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