Literature DB >> 28762493

Mass-Tag Labeling Using Acyl-PEG Exchange for the Determination of Endogenous Protein S-Fatty Acylation.

Avital Percher1, Emmanuelle Thinon1, Howard Hang1.   

Abstract

The covalent coupling of fatty acids to proteins provides an important mechanism of regulation in cells. In eukaryotes, cysteine fatty acylation (S-fatty acylation) has been shown to be critical for protein function in a variety of cellular pathways as well as microbial pathogenesis. While methods developed over the past decade have improved the detection and profiling of S-fatty acylation, these are hampered in their ability to characterize endogenous protein S-fatty acylation levels under physiological conditions. Furthermore, understanding the contribution of specific sites and levels of S-fatty acylation remains a major challenge. To evaluate S-fatty acylation of endogenous proteins as well as to determine the number of S-fatty acylation events, we developed the acyl-PEG exchange (APE) that utilizes cysteine-specific chemistry to exchange S-fatty acylation sites with mass-tags of defined size, which can be readily observed by western blotting. APE provides a readily accessible approach to investigate endogenous S-fatty acylation from any sample source, with high sensitivity and broad applicability that complements the current toolbox of methods for thioester-based post-translational modifications. © 2017 by John Wiley & Sons, Inc.
Copyright © 2017 John Wiley & Sons, Inc.

Entities:  

Keywords:  PEGylation; mass-shift; post-translational modification quantification; s-fatty-acylation

Mesh:

Substances:

Year:  2017        PMID: 28762493      PMCID: PMC5645067          DOI: 10.1002/cpps.36

Source DB:  PubMed          Journal:  Curr Protoc Protein Sci        ISSN: 1934-3655


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Authors:  Apoorva J Pradhan; Daniel Lu; Laura R Parisi; Shichen Shen; Ilyas A Berhane; Samuel L Galster; Kiana Bynum; Viviana Monje-Galvan; Omer Gokcumen; Sherry R Chemler; Jun Qu; Jason G Kay; G Ekin Atilla-Gokcumen
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9.  Depalmitoylation rewires FLT3-ITD signaling and exacerbates leukemia progression.

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10.  Bat IFITM3 restriction depends on S-palmitoylation and a polymorphic site within the CD225 domain.

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