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An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms

Author

Listed:
  • David Rauh

    (Institute for Biochemistry and Biotechnology, Martin Luther University)

  • Frank Fischer

    (University of Bayreuth, Universitätsstraße 30)

  • Melanie Gertz

    (University of Bayreuth, Universitätsstraße 30)

  • Mahadevan Lakshminarasimhan

    (University of Bayreuth, Universitätsstraße 30
    Present address: Stowers Institute for Medical Research, Kansas City, Missouri, USA)

  • Tim Bergbrede

    (Lead Discovery Center GmbH, Otto-Hahn-Straße 15)

  • Firouzeh Aladini

    (Technical University Munich, Lichtenbergstraße 4
    Institute for Biological Chemistry, University of Vienna)

  • Christian Kambach

    (University of Bayreuth, Universitätsstraße 30)

  • Christian F. W. Becker

    (Technical University Munich, Lichtenbergstraße 4
    Institute for Biological Chemistry, University of Vienna)

  • Johannes Zerweck

    (JPT Peptide Technologies GmbH, Volmerstraße 5)

  • Mike Schutkowski

    (Institute for Biochemistry and Biotechnology, Martin Luther University)

  • Clemens Steegborn

    (University of Bayreuth, Universitätsstraße 30)

Abstract

Sirtuin enzymes regulate metabolism and aging processes through deacetylation of acetyl-lysines in target proteins. More than 6,800 mammalian acetylation sites are known, but few targets have been assigned to most sirtuin isoforms, hampering our understanding of sirtuin function. Here we describe a peptide microarray system displaying 6,802 human acetylation sites for the parallel characterisation of their modification by deacetylases. Deacetylation data for all seven human sirtuins obtained with this system reveal isoform-specific substrate preferences and deacetylation substrate candidates for all sirtuin isoforms, including Sirt4. We confirm malate dehydrogenase protein as a Sirt3 substrate and show that peroxiredoxin 1 and high-mobility group B1 protein are deacetylated by Sirt5 and Sirt1, respectively, at the identified sites, rendering them likely new in vivo substrates. Our microarray platform enables parallel studies on physiological acetylation sites and the deacetylation data presented provide an exciting resource for the identification of novel substrates for all human sirtuins.

Suggested Citation

  • David Rauh & Frank Fischer & Melanie Gertz & Mahadevan Lakshminarasimhan & Tim Bergbrede & Firouzeh Aladini & Christian Kambach & Christian F. W. Becker & Johannes Zerweck & Mike Schutkowski & Clemens, 2013. "An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms," Nature Communications, Nature, vol. 4(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3327
    DOI: 10.1038/ncomms3327
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    Cited by:

    1. Fang Wu & Natali H. Muskat & Inbar Dvilansky & Omri Koren & Anat Shahar & Roi Gazit & Natalie Elia & Eyal Arbely, 2023. "Acetylation-dependent coupling between G6PD activity and apoptotic signaling," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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