Parties d'ouvrages collectifs (2)
  1. 1. Gournas, C., Prévost, M., Krammer, E.-M., & André, B. (2016). Function and Regulation of Fungal Amino Acid Transporters: Insights from Predicted Structure. In J. Ramos, H. Sychrová, & M. Kschischo (Eds.), Advances in Experimental Medicine and Biology, Vol. 892. Yeast Membrane Transport (pp. 69-106). Springer International Publishing.
  2. 2. Messenguy, F., André, B., & Dubois, E. (2006). Diversity of Nitrogen Metabolism among yeast species: Regulatory and evolutionary aspects. In Biodiversity and ecophysiology of yeasts (pp. 123-153). Berlin - Heidelberg: Spriger Verlag.
    3.   Articles dans des revues avec comité de lecture (117)
  3. 1. Guarini, N. P., Saliba, E., & André, B. (2024). Phosphoregulation of the yeast Pma1 H+- ATPase autoinhibitory domain involves the Ptk1/2 kinases and the Glc7 PP1 phosphatase and is under TORC1 control. PLOS genetics, 20(1), e1011121. doi:10.1371/journal.pgen.1011121
  4. 2. Megarioti, A. A., Esch, B. B., Athanasopoulos, A., Koulouris, D., Makridakis, M., Lygirou, V., Samiotaki, M., Zoidakis, J., Sophianopoulou, V., André, B., Fröhlich, F., & Gournas, C. (2023). Ferroptosis-protective membrane domains in quiescence. Cell reports, 42(12), 113561. doi:10.1016/j.celrep.2023.113561
  5. 3. Kapetanakis, G., Santos Sousa, L., Felten, C., Mues, L., Gabant, P., Van Nedervelde, L., Georis, I., & André, B. (2023). Deletion of QDR genes in a bioethanol-producing yeast strain reduces propagation of contaminating lactic acid bacteria. Scientific reports, 13(1), 4986. doi:10.1038/s41598-023-32062-0
  6. 4. Primo Planta, C., Navarre, M. C., Chaumont, F., & André, B. (2022). Plasma membrane H+-ATPases promote TORC1 activation in plant suspension cells. iScience, 25(5), 104238. doi:10.1016/j.isci.2022.104238
  7. 5. Megarioti, A. A., Primo Planta, C., Kapetanakis, G., Athanasopoulos, A., Sophianopoulou, V., André, B., & Gournas, C. (2021). The Bul1/2 Alpha-Arrestins Promote Ubiquitylation and Endocytosis of the Can1 Permease upon Cycloheximide-Induced TORC1-Hyperactivation. International journal of molecular sciences, 22(19). doi:10.3390/ijms221910208
  8. 6. Saliba, E., André, B., Primo, C., & Guarini, N. P. (2021). A plant plasma-membrane H+-ATPase promotes yeast TORC1 activation via its carboxy-terminal tail. Scientific reports, 11(1), 4788. doi:10.1038/s41598-021-83525-1
  9. 7. Kapetanakis, G., Gournas, C., Prévost, M., Georis, I., & André, B. (2021). Overlapping Roles of Yeast Transporters Aqr1, Qdr2, and Qdr3 in Amino Acid Excretion and Cross-Feeding of Lactic Acid Bacteria. Frontiers in microbiology, 12, 752742. doi:10.3389/fmicb.2021.752742
  10. 8. Esch, B. B., Limar, S., Bogdanowski, A., Gournas, C., More, T., Sundag, C., Walter, S., Heinisch, J., Ejsing, C. C., André, B., & Fröhlich, F. (2020). Uptake of exogenous serine is important to maintain sphingolipid homeostasis in Saccharomyces cerevisiae. PLOS genetics, 16(8), e1008745. doi:10.1371/JOURNAL.PGEN.1008745
  11. 9. Cools, M., Lissoir, S., Bodo, E., Ulloa-Calzozin, J., DeLuna, A., Georis, I., & André, B. (2020). Nitrogen coordinated import and export of arginine across the yeast vacuolar membrane. PLoS genetics, 16(8), e1008966.
  12. 10. Barthelemy, C., & André, B. (2019). Ubiquitylation and endocytosis of the human LAT1/SLC7A5 amino acid transporter. Scientific reports, 9(1), 16760. doi:10.1038/s41598-019-53065-w
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