AI Article Synopsis
- Post-translational modifications (PTMs) like SUMOylation play a key role in regulating protein functions and are essential for various cellular processes, including signal transduction and stress responses.
- Unlike ubiquitination, SUMOylation can significantly alter a protein's structure, stability, and interactions, highlighting its importance in cellular regulation, and its deregulation is linked to diseases.
- Despite the challenges in detecting SUMOylation due to its low occurrence, bioinformatics and mass spectrometry techniques have been developed to identify and validate SUMO modifications, aiding in the understanding of their biological functions.
Article Abstract
Post-translational modifications (PTMs) provide a critical means of calibrating the functional proteome and, thus, are extensively utilized by the eukaryotes to exert spatio-temporal regulation on the cellular machinery rapidly. Ubiquitination and phosphorylation are examples of the well-documented PTMs. SUMOylation, the reversible conjugation of the Small Ubiquitin-related MOdifier (SUMO) at a specific lysine residue on a target protein, bears striking similarity with ubiquitination and follows an enzymatic cascade for the attachment of SUMO to the target protein. Unlike Ubiquitination, SUMOylation can modulate the target protein's structure, stability, activity, localization, and interaction. Thus, SUMOylation regulates cellular events such as signal transduction, cell-cycle progression, transcription, nucleocytoplasmic transport, and stress responses. Accordingly, deregulation of SUMOylation is an avenue for diseases, which makes the investigation of SUMO and its substrates within the cell essential. However, the low extent of SUMOylation has posed a significant challenge in detecting SUMO modification within the cell. Bioinformatics tools can help predict SUMOylation, and mass-spectrometric analysis can identify a pool of cellular protein SUMOylome. Nevertheless, the biochemical methods for observing the enhanced level of in vitro SUMOylation help validate protein SUMOylation, critical lysine(s) utilized in the process, and its effect on substrate protein function. This chapter provides a detailed account of biochemical methods commonly utilized to detect SUMOylated proteins that are central for understanding the biological functions and mechanism of regulation of SUMO targets.
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| http://dx.doi.org/10.1016/bs.mie.2022.07.017 | DOI Listing |
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