A1 Refereed original research article in a scientific journal
Dual lysine and N-terminal acetyltransferases reveal the complexity underpinning protein acetylation
Authors: Willy V Bienvenut, Annika Brünje, Jean‐Baptiste Boyer, Jens S Mühlenbeck, Gautier Bernal, Ines Lassowskat, Cyril Dian, Eric Linster, Trinh V Dinh, Minna M Koskela, Vincent Jung, Julian Seidel, Laura K Schyrba, Aiste Ivanauskaite, Jürgen Eirich, Rüdiger Hell, Dirk Schwarzer, Paula Mulo, Markus Wirtz, Thierry Meinnel, Carmela Giglione, Iris Finkemeier
Publisher: WILEY
Publication year: 2020
Journal: Molecular Systems Biology
Journal name in source: MOLECULAR SYSTEMS BIOLOGY
Journal acronym: MOL SYST BIOL
Article number: ARTN e9464
Volume: 16
Issue: 7
Number of pages: 23
ISSN: 1744-4292
eISSN: 1744-4292
DOI: https://doi.org/10.15252/msb.20209464
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/49057789
Protein acetylation is a highly frequent protein modification. However, comparatively little is known about its enzymatic machinery. N-alpha-acetylation (NTA) and epsilon-lysine acetylation (KA) are known to be catalyzed by distinct families of enzymes (NATs andKATs, respectively), although the possibility that the sameGCN5-relatedN-acetyltransferase (GNAT) can perform both functions has been debated. Here, we discovered a new family of plastid-localizedGNATs, which possess a dual specificity. All characterizedGNATfamily members display a number of unique features. Quantitative mass spectrometry analyses revealed that these enzymes exhibit both distinctKAand relaxedNTAspecificities. Furthermore, inactivation ofGNAT2 leads to significantNTAorKAdecreases of several plastid proteins, while proteins of other compartments were unaffected. The data indicate that these enzymes have specific protein targets and likely display partly redundant selectivity, increasing the robustness of the acetylation processin vivo. In summary, this study revealed a new layer of complexity in the machinery controlling this prevalent modification and suggests that other eukaryoticGNATs may also possess these previously underappreciated broader enzymatic activities.
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