posted on 2017-02-28, 14:33authored byChristina
M. Woo, Alejandra Felix, William E. Byrd, Devon K. Zuegel, Mayumi Ishihara, Parastoo Azadi, Anthony T. Iavarone, Sharon J. Pitteri, Carolyn R. Bertozzi
Protein glycosylation
can have an enormous variety of biological
consequences, reflecting the molecular diversity encoded in glycan
structures. This same structural diversity has imposed major challenges
on the development of methods to study the intact glycoproteome. We
recently introduced a method termed isotope-targeted glycoproteomics
(IsoTaG), which utilizes isotope recoding to characterize azidosugar-labeled
glycopeptides bearing fully intact glycans. Here, we describe the
broad application of the method to analyze glycoproteomes from a collection
of tissue-diverse cell lines. The effort was enabled by a new high-fidelity
pattern-searching and glycopeptide validation algorithm termed IsoStamp
v2.0, as well as by novel stable isotope probes. Application of the
IsoTaG platform to 15 cell lines metabolically labeled with Ac4GalNAz or Ac4ManNAz revealed 1375 N- and 2159 O-glycopeptides,
variously modified with 74 discrete glycan structures. Glycopeptide-bound
glycans observed by IsoTaG were found to be comparable to released
N-glycans identified by permethylation analysis. IsoTaG is therefore
positioned to enhance structural understanding of the glycoproteome.