Global O-glycoproteome enrichment and analysis enabled by a combinatorial enzymatic workflow
Document Type
Article
Publication Title
Cell Reports Methods
Abstract
A comprehensive analysis of site-specific protein O-glycosylation is hindered by the absence of a consensus O-glycosylation motif, the diversity of O-glycan structures, and the lack of a universal enzyme that cleaves attached O-glycans. Here, we report the development of a robust O-glycoproteomic workflow for analyzing complex biological samples by combining four different strategies: removal of N-glycans, complementary digestion using O-glycoprotease (IMPa) with/without another protease, glycopeptide enrichment, and mass spectrometry with fragmentation of glycopeptides using stepped collision energy. Using this workflow, we cataloged 474 O-glycopeptides on 189 O-glycosites derived from 79 O-glycoproteins from human plasma. These data revealed O-glycosylation of several abundant proteins that have not been previously reported. Because many of the proteins that contained unannotated O-glycosylation sites have been extensively studied, we wished to confirm glycosylation at these sites in a targeted fashion. Thus, we analyzed selected purified proteins (kininogen-1, fetuin-A, fibrinogen, apolipoprotein E, and plasminogen) in independent experiments and validated the previously unknown O-glycosites.
DOI
10.1016/j.crmeth.2024.100744
Publication Date
4-22-2024
Recommended Citation
Kang, Taewook; Budhraja, Rohit; Kim, Jinyong; and Joshi, Neha, "Global O-glycoproteome enrichment and analysis enabled by a combinatorial enzymatic workflow" (2024). Open Access archive. 6641.
https://impressions.manipal.edu/open-access-archive/6641