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Global non-covalent SUMO interaction networks reveal SUMO-dependent stabilization of the non-homologous end joining complex.

Cell reports (2021-01-28)
Román González-Prieto, Karolin Eifler-Olivi, Laura A Claessens, Edwin Willemstein, Zhenyu Xiao, Cami M P Talavera Ormeno, Huib Ovaa, Helle D Ulrich, Alfred C O Vertegaal
RÉSUMÉ

In contrast to our extensive knowledge on covalent small ubiquitin-like modifier (SUMO) target proteins, we are limited in our understanding of non-covalent SUMO-binding proteins. We identify interactors of different SUMO isoforms-monomeric SUMO1, monomeric SUMO2, or linear trimeric SUMO2 chains-using a mass spectrometry-based proteomics approach. We identify 379 proteins that bind to different SUMO isoforms, mainly in a preferential manner. Interestingly, XRCC4 is the only DNA repair protein in our screen with a preference for SUMO2 trimers over mono-SUMO2, as well as the only protein in our screen that belongs to the non-homologous end joining (NHEJ) DNA double-strand break repair pathway. A SUMO interaction motif (SIM) in XRCC4 regulates its recruitment to sites of DNA damage and phosphorylation of S320 by DNA-PKcs. Our data highlight the importance of non-covalent and covalent sumoylation for DNA double-strand break repair via the NHEJ pathway and provide a resource of SUMO isoform interactors.

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Roche
Cocktail d'inhibiteurs de protéases sans EDTA Mini cOmplete, Protease Inhibitor Cocktail Tablets provided in a glass vial, Tablets provided in a glass vial
Sigma-Aldrich
SigmaScreen Streptavidin High Capacity Coated Plates, 96 well clear