Louise Thines
  • Post-Doctoral fellow, Louvain Institute of Biomolecular Sceince and Technology, UCLouvain, Belgium, 2020-2020
Research focus
  • -
  • 1 Author merit


PhD, UCLouvain, Belgium, 2019


• Colinet, A.-S., Sengottaiyan, P., Deschamps, A., Colsoul, M.-L., Thines, L., Demaegd, D., Duchêne, M.-C., Foulquier, F., Hols, P. and Morsomme, P. (2016). Yeast Gdt1 is a Golgi-localized calcium transporter required for stress-induced calcium signaling and protein glycosylation. Sci Rep 6: 24282.
• Colinet, A. S., Thines, L., Deschamps, A., Flemal, G., Demaegd, D. and Morsomme, P. (2017). Acidic and uncharged polar residues in the consensus motifs of the yeast Ca2+ transporter Gdt1p are required for calcium transport. Cellular Microbiology 19(7), p.e12729.
• Thines, L., Deschamps, A., Sengottaiyan, P., Savel, O., Stribny, J. and Morsomme, P. (2018). The yeast protein Gdt1p transports Mn2+ ions and thereby regulates manganese homeostasis in the Golgi. J Biol Chem 293(21): 8048-8055.
• Thines, L., Deschamps, A., Stribny, J. and Morsomme, P. (2019). Yeast as a Tool for Deeper Understanding of Human Manganese-Related Diseases. Genes 10: 545.
1 Protocol published
Manganese Superoxide Dismutase Activity Assay in the Yeast Saccharomyces cerevisiae
Authors:  Louise Thines and Pierre Morsomme, date: 03/05/2020, view: 1013, Q&A: 0
Superoxide dismutases (SODs) act as a primary defence against reactive oxygen species (ROS) by converting superoxide anion radicals (O2-) into molecular oxygen (O2) and hydrogen peroxide (H2O2). ...
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