AI Article Synopsis
- Analyzing O-glycosylation is more complex than N-glycopeptide characterization, with multiple layers of complexity highlighted in the study.
- The research presents a comprehensive dataset of O-glycopeptides from human samples, including individuals with bladder cancer and bladder inflammation, making it one of the largest collections analyzed.
- The analysis indicates a significant diversity in O-glycosylation patterns and suggests improvements for existing glycopeptide analysis tools to enhance reliability in assignments.
Article Abstract
While N-glycopeptides are relatively easy to characterize, O-glycosylation analysis is more complex. In this article, we illustrate the multiple layers of O-glycopeptide characterization that make this task so challenging. We believe our carefully curated dataset represents perhaps the largest intact human glycopeptide mixture derived from individuals, not from cell lines. The samples were collected from healthy individuals, patients with superficial or advanced bladder cancer (three of each group), and a single bladder inflammation patient. The data were scrutinized manually and interpreted using three different search engines: Byonic, Protein Prospector, and O-Pair, and the tool MS-Filter. Despite all the recent advances, reliable automatic O-glycopeptide assignment has not been solved yet. Our data reveal such diversity of site-specific O-glycosylation that has not been presented before. In addition to the potential biological implications, this dataset should be a valuable resource for software developers in the same way as some of our previously released data has been used in the development of O-Pair and O-Glycoproteome Analyzer. Based on the manual evaluation of the performance of the existing tools with our data, we lined up a series of recommendations that if implemented could significantly improve the reliability of glycopeptide assignments.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9758497 | PMC |
| http://dx.doi.org/10.1016/j.mcpro.2022.100439 | DOI Listing |
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