Glycan Side Reaction May Compromise ETD-Based Glycopeptide Identification

Tris(hydroxymethyl)aminomethane (Tris) is one of the most frequently used buffer ingredients. Among other things, it is recommended and is usually used for lectin-based affinity enrichment of glycopeptides. Here we report that sialic acid, a common 'capping' unit in both N- and O-linked glycans may react with this chemical, and this side reaction may compromise glycopeptide identification when ETD spectra are the only MS/MS data used in the database search. We show that the modification may alter N- as well as O-linked glycans, the Tris-derivative is still prone to fragmentation both in 'beam-type' CID (HCD) and ETD experiments, at the same time--since the acidic carboxyl group was 'neutralized'--it will display a different retention time than its unmodified counterpart. We also suggest solutions that--when incorporated into existing search engines--may significantly improve the reliability of glycopeptide assignments.