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Architecture of the yeast Elongator complex
Authors:Maria I Dauden  Jan Kosinski  Olga Kolaj‐Robin  Ambroise Desfosses  Alessandro Ori  Celine Faux  Niklas A Hoffmann  Osita F Onuma  Karin D Breunig  Martin Beck  Carsten Sachse  Bertrand Séraphin  Sebastian Glatt  Christoph W Müller
Affiliation:1. European Molecular Biology Laboratory, Structural and Computational Biology Unit, Heidelberg, Germany;2. Université de Strasbourg, IGBMC, Illkirch, France;3. CNRS, IGBMC UMR 7104, Illkirch, France;4. Inserm, IGBMC U964, Illkirch, France;5. Institute of Biology, Martin Luther University Halle‐Wittenberg, Halle (Saale), Germany;6. Max Planck Research Group at the Malopolska Centre of Biotechnology, Jagiellonian University, Krakow, Poland
Abstract:The highly conserved eukaryotic Elongator complex performs specific chemical modifications on wobble base uridines of tRNAs, which are essential for proteome stability and homeostasis. The complex is formed by six individual subunits (Elp1‐6) that are all equally important for its tRNA modification activity. However, its overall architecture and the detailed reaction mechanism remain elusive. Here, we report the structures of the fully assembled yeast Elongator and the Elp123 sub‐complex solved by an integrative structure determination approach showing that two copies of the Elp1, Elp2, and Elp3 subunits form a two‐lobed scaffold, which binds Elp456 asymmetrically. Our topological models are consistent with previous studies on individual subunits and further validated by complementary biochemical analyses. Our study provides a structural framework on how the tRNA modification activity is carried out by Elongator.
Keywords:electron microscopy  Elongator     Saccharomyces cerevisiae     tRNA modification  yeast
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