Protein group modification and synergy in the SUMO pathway as exemplified in DNA repair.
Protein modification by SUMO affects a wide range of protein substrates. Surprisingly, although SUMO pathway mutants display strong phenotypes, the function of individual SUMO modifications is often enigmatic, and SUMOylation-defective mutants commonly lack notable phenotypes. Here, we use DNA double-strand break repair as an example and show that DNA damage ... triggers a SUMOylation wave, leading to simultaneous multisite modifications of several repair proteins of the same pathway. Catalyzed by a DNA-bound SUMO ligase and triggered by single-stranded DNA, SUMOylation stabilizes physical interactions between the proteins. Notably, only wholesale elimination of SUMOylation of several repair proteins significantly affects the homologous recombination pathway by considerably slowing down DNA repair. Thus, SUMO acts synergistically on several proteins, and individual modifications only add up to efficient repair. We propose that SUMOylation may thus often target a protein group rather than individual proteins, whereas localized modification enzymes and highly specific triggers ensure specificity.
Mesh Terms:
DNA Breaks, Single-Stranded, Protein Processing, Post-Translational, Proteins, Recombinational DNA Repair, SUMO-1 Protein, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Sumoylation
DNA Breaks, Single-Stranded, Protein Processing, Post-Translational, Proteins, Recombinational DNA Repair, SUMO-1 Protein, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Sumoylation
Cell
Date: Nov. 09, 2012
PubMed ID: 23122649
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