Pflanzenwissenschaftliches Kolloquium mit Dr. Markus Wirtz
N-terminal acetylation (NTA) is an ancient protein modification conserved throughout all domains of life. N-terminally acetylated proteins are present in the cytosol, the nucleus, the plastids, and the plasma membrane of plants. The frequency of NTA differs significantly between these subcellular compartments. While up to 80% of cytosolic and 20-30% of plastidic proteins are subject to NTA, NTA of mitochondrial proteins is rare. Cytosolic proteins are acetylated by five ribosome-tethered N-terminal acetyltransferases (NatA-NatE), of which NatA acetylates ~40% of the proteome in Arabidopsis thaliana. We
recently demonstrated that the NatA complex is a critical regulator of global proteostasis by facilitating the masking of a novel N-degron. This N-degron targets many nonacetylated NatA substrates for degradation by the ubiquitin-proteasome system. In this talk, we discuss the impact of NatA and its regulator HYPK on proteome plasticity and stress resilience.
recently demonstrated that the NatA complex is a critical regulator of global proteostasis by facilitating the masking of a novel N-degron. This N-degron targets many nonacetylated NatA substrates for degradation by the ubiquitin-proteasome system. In this talk, we discuss the impact of NatA and its regulator HYPK on proteome plasticity and stress resilience.
Zeit
Freitag, 08.12.23 - 12:15 Uhr
- 13:15 Uhr
Veranstaltungsformat
Vortrag
Themengebiet
Dr. Markus Wirtz über "First things first – How N-terminal protein acetylation controls stress resilience of plants"
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Ort
Nussallee 4
Raum
Lecture hall Botany
Reservierung
nicht erforderlich
Veranstalter
Botanisches Kolloquium
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