Astrid Jakobs scite author profile

Although small ubiquitin-like modifier (SUMO) is conjugated to proteins involved in diverse cellular processes, the functional analysis of SUMOylated proteins is often hampered by low levels of specific SUMOylated proteins in the cell. Here we describe a SUMO-conjugating enzyme (Ubc9) fusion-directed SUMOylation (UFDS) system, which allows efficient and selective in vivo SUMOylation of proteins. Although SUMOylation of overexpressed p53 and STAT1 was difficult to detect in HEK293 cells, up to 40% of p53 and STAT1 were conjugated with endogenous SUMO when fused to Ubc9. We verified the specificity of UFDS using SUMOylation-site mutants and showed that the method is not dependent on SUMO ligases. Using UFDS we demonstrated that SUMOylation of STAT1 inhibits its phosphorylation at Tyr701 and discovered p53 multi-SUMOylation in vivo. We propose that UFDS will be useful for the analysis of function of SUMOylation in protein interactions, subcellular localization as well as enzymatic activity.

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Ubc9 fusion-directed SUMOylation identifies constitutive and inducible SUMOylation

Jakobs

Himstedt

Funk

et al. 2007

Nucleic Acids Research

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Constitutive and induced protein SUMOylation is involved in the regulation of a variety of cellular processes, such as regulation of gene expression and protein transport, and proceeds mainly in the nucleus of the cell. So far, several hundred SUMOylation targets have been identified, but presumably they represent only a part of the total of proteins which are regulated by SUMOylation. Here, we used the Ubc9 fusion-dependent SUMOylation system (UFDS) to screen for constitutive and induced SUMOylation of 46 randomly chosen proteins with proven or potential nuclear localization. Fourteen new UFDS-substrate proteins were identified of which eight could be demonstrated to be SUMOylated in a UFDS-independent manner in vivo. Of these, three were constitutively SUMOylated (FOS, CRSP9 and CDC37) while the remaining five substrates (CSNK2B, TAF10, HSF2BP, PSMC3 and DRG1) showed a stimulation-dependent SUMOylation induced by the MAP3 kinase MEKK1. Hence, UFDS is appropriate for the identification and characterization of constitutive and, more importantly, induced protein SUMOylation in vivo.

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Astrid Jakobs

Ubc9 fusion–directed SUMOylation (UFDS): a method to analyze function of protein SUMOylation

Ubc9 fusion-directed SUMOylation identifies constitutive and inducible SUMOylation

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