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Literature DB >> 22350878

Recombinant reconstitution of sumoylation reactions in vitro.

Annette Flotho¹, Andreas Werner, Tobias Winter, Andrea S Frank, Heidi Ehret, Frauke Melchior.

Abstract

Reconstituting posttranslational modification with SUMO in vitro is an essential tool in the analysis of sumoylation. In this article, we provide detailed protocols that allow to set up and perform sumoylation reactions using a purified recombinant sumoylation machinery. The protocols include purification of the SUMO E1 enzyme His-Aos1/Uba2, untagged E2 enzyme Ubc9, untagged SUMO, and the RanBP2 E3 ligase fragment IR1 + M. Using these components, we provide step-by-step instructions to set up sumoylation reactions. Two established SUMO model substrates, His-RanGAPtail and HisYFP-Sp100, complement the described tool box; these proteins serve as positive controls in E3 ligase-independent and -dependent sumoylation reactions and are valuable instruments to adjust the reaction conditions if necessary.

Entities: Chemical Gene

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Year: 2012 PMID： 22350878 DOI： 10.1007/978-1-61779-474-2_5

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

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Cited

12 in total

1. In vitro assay to determine SUMOylation sites on protein substrates.

Authors: Francis P McManus; Christine Desroches Altamirano; Pierre Thibault
Journal: Nat Protoc Date: 2016-01-28 Impact factor: 13.491

2. Panoramix SUMOylation on chromatin connects the piRNA pathway to the cellular heterochromatin machinery.

Authors: Veselin I Andreev; Changwei Yu; Juncheng Wang; Jakob Schnabl; Laszlo Tirian; Maja Gehre; Dominik Handler; Peter Duchek; Maria Novatchkova; Lisa Baumgartner; Katharina Meixner; Grzegorz Sienski; Dinshaw J Patel; Julius Brennecke
Journal: Nat Struct Mol Biol Date: 2022-02-16 Impact factor: 15.369

3. A clickable glutamine (CliQ) derivative for the traceless reversible modification of peptides and proteins.

Authors: Samuel D Whedon; Marissa K Parker; Elizabeth L Tyson; Tobias Ritterhoff; Patrick M M Shelton; Champak Chatterjee
Journal: Chem Commun (Camb) Date: 2019-02-12 Impact factor: 6.222

4. Class I HDAC inhibition stimulates cardiac protein SUMOylation through a post-translational mechanism.

Authors: Weston W Blakeslee; Christina L Wysoczynski; Kristofer S Fritz; Jennifer K Nyborg; Mair E A Churchill; Timothy A McKinsey
Journal: Cell Signal Date: 2014-09-16 Impact factor: 4.315

Review 5. Proteomics strategies to identify SUMO targets and acceptor sites: a survey of RNA-binding proteins SUMOylation.

Authors: Giuseppe Filosa; Silvia M L Barabino; Angela Bachi
Journal: Neuromolecular Med Date: 2013-08-25 Impact factor: 3.843

6. Multivalent interactions of the SUMO-interaction motifs in RING finger protein 4 determine the specificity for chains of the SUMO.

Authors: Kirstin Keusekotten; Veronika N Bade; Katrin Meyer-Teschendorf; Annie Miriam Sriramachandran; Katrin Fischer-Schrader; Anke Krause; Christiane Horst; Günter Schwarz; Kay Hofmann; R Jürgen Dohmen; Gerrit J K Praefcke
Journal: Biochem J Date: 2014-01-01 Impact factor: 3.857

7. Quantitative SUMO proteomics reveals the modulation of several PML nuclear body associated proteins and an anti-senescence function of UBC9.

Authors: Francis P McManus; Véronique Bourdeau; Mariana Acevedo; Stéphane Lopes-Paciencia; Lian Mignacca; Frédéric Lamoliatte; John W Rojas Pino; Gerardo Ferbeyre; Pierre Thibault
Journal: Sci Rep Date: 2018-05-17 Impact factor: 4.379