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Identification of cross talk between SUMOylation and ubiquitylation using a sequential peptide immunopurification approach.

McManus FP, Lamoliatte F, Thibault P

Institute for Research in Immunology and Cancer, Québec, Canada.

Ubiquitin and ubiquitin-like modifiers (UBLs) such as small ubiquitin-like modifier (SUMO) can act as antagonists to one another by competing to occupy similar residues in the proteome. In addition, SUMO and ubiquitin can be coupled to each other at key lysine residues to form highly branched protein networks. The interplay between these modifications governs important biological processes such as double-strand break repair and meiotic recombination. We recently developed an approach that permits the identification of proteins that are modified by both SUMOylation and ubiquitylation. This protocol requires cells that express a mutant 6×His-SUMO3m protein that has had its C terminus modified from QQQTGG to RNQTGG, enabling the purification of SUMOylated peptides and their identification by tandem mass spectrometry (MS/MS). Cells are lysed under denaturing conditions, and the SUMOylated proteins are purified on nickel-nitrilotriacetic acid (Ni-NTA) resin via the 6×His on the SUMO3m construct. After on-bead digestion using trypsin, ubiquitylated peptides are enriched by immunoprecipitation, and the flow-through from this step is subjected to anti-SUMO immunoprecipitation. The SUMOylated peptides are fractionated on strong cation exchange (SCX) StageTips to enhance the coverage of the SUMO proteome. The ubiquitylated and SUMOylated peptides are analyzed separately by liquid chromatography (LC)-MS/MS and identified with MaxQuant. We demonstrate how this approach can be used to identify temporal changes in SUMOylated and ubiquitylated proteins in response to, for instance, heat shock and proteasome inhibition. The procedure requires 3 d when starting from cell pellets and yields >8,000 SUMO sites and >3,500 ubiquitin sites from 16 mg of cell extract.

Nat Protoc 2017;12(11):2342-2358.

Pubmed ID: 29048423

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