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Abstract
Identifying sites of post-translational modifications on proteins is a major challenge in proteomics. O-Linked beta-N-acetylglucosamine (O-GlcNAc) is a dynamic nucleocytoplasmic modification more analogous to phosphorylation than to classical complex O-glycosylation. We describe a mass spectrometry-based method for the identification of sites modified by O-GlcNAc that relies on mild beta-elimination followed by Michael addition with dithiothreitol (BEMAD). Using synthetic peptides, we also show that biotin pentylamine can replace dithiothreitol as the nucleophile. The modified peptides can be efficiently enriched by affinity chromatography, and the sites can be mapped using tandem mass spectrometry. This same methodology can be applied to mapping sites of serine and threonine phosphorylation, and we provide a strategy that uses modification-specific antibodies and enzymes to discriminate between the two post-translational modifications. The BEMAD methodology was validated by mapping three previously identified O-GlcNAc sites, as well as three novel sites, on Synapsin I purified from rat brain. BEMAD was then used on a purified nuclear pore complex preparation to map novel sites of O-GlcNAc modification on the Lamin B receptor and the nucleoporin Nup155. This method is amenable for performing quantitative mass spectrometry and can also be adapted to quantify cysteine residues. In addition, our studies emphasize the importance of distinguishing between O-phosphate versus O-GlcNAc when mapping sites of serine and threonine post-translational modification using beta-elimination/Michael addition methods.
Highlights
Identifying sites of post-translational modifications on proteins is a major challenge in proteomics
1 The abbreviations used are: O-GlcNAc, O-linked -N-acetylglucosamine; DTT, dithiothreitol; BEMAD, -elimination followed by Michael addition with DTT; NPC, nuclear pore complex; m/z, mass to charge ratio; BAP, biotin pentylamine; MS, mass spectrometry; MS/ MS, tandem MS; LC-MS/MS, reverse-phase liquid chromatography to nanospray MS/MS; BPP, basic phosphoprotein; PBS, phosphatebuffered saline; MALDI-TOF, matrix-assisted laser desorption ionization time-of-flight
Techniques include precursor ion scanning [30], enrichment of phosphopeptides via immobilized metal affinity chromatography [31, 32] or antibodies [33], and chemical modification of the phosphoamino acid for stabilization and enrichment (34 –38). -Elimination of phosphate from serine or threonine followed by attack of the resulting ␣,-unsaturated carbonyl with a nucleophile that allows for enrichment and results in a “tag” conferring a unique molecular weight to the modified amino acid has been used successfully to map phosphorylation sites (34 –36, 38)
Summary
O-GlcNAc, O-linked -N-acetylglucosamine; DTT, dithiothreitol; BEMAD, -elimination followed by Michael addition with DTT; NPC, nuclear pore complex; m/z, mass to charge ratio; BAP, biotin pentylamine; MS, mass spectrometry; MS/ MS, tandem MS; LC-MS/MS, reverse-phase liquid chromatography to nanospray MS/MS; BPP, basic phosphoprotein; PBS, phosphatebuffered saline; MALDI-TOF, matrix-assisted laser desorption ionization time-of-flight. Nup155 and the Lamin B receptor from a purified NPC preparation
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