Articles dans des revues avec comité de lecture (33)
  1. 1. Gilglioni, E. H., Li, A., St-Pierre-Wijckmans, W., Shen, T.-K., Perez Chavez, I., Hovhannisyan, G., Lisjak, M., Negueruela Escudero, J., Vandenbempt, V., Bauzá-Martinez, J., Herranz, J. M., Ezeriņa, D., Demine, S., Feng, Z., Vignane, T., Otero Sanchez, L., Lambertucci, F., Prašnická, A., Devière, J., Hay, D. C., Encinar, J. A., Singh, S. P., Messens, J., Filipovic, M. R., Sharpe, H. J., Trepo, E., Wu, W., & Gurzov, E. N. (2024). PTPRK regulates glycolysis and de novo lipogenesis to promote hepatocyte metabolic reprogramming in obesity. Nature communications, 15(1), 9522. doi:10.1038/s41467-024-53733-0
  2. 2. Delgadillo-Silva, L. F., Tasöz, E., Singh, S. P., Chawla, P., Georgiadou, E., Gompf, A., Rutter, G. A., & Ninov, N. (2024). Optogenetic β cell interrogation in vivo reveals a functional hierarchy directing the Ca2+ response to glucose supported by vitamin B6. Science advances, 10(26), eado4513. doi:10.1126/sciadv.ado4513
  3. 3. Pozo Morales, M., Cobham, A. A., Centola, C., McKinney, M. C., Liu, P., Perazzolo, C., Lefort, A., Libert, F., Bai, H., Rohner, N., & Singh, S. P. (2024). Starvation-resistant cavefish reveal conserved mechanisms of starvation-induced hepatic lipotoxicity. Life science alliance, 7(5). doi:10.26508/lsa.202302458
  4. 4. Ibneeva, L., Singh, S. P., Sinha, A., Eski, S. E., Wehner, R., Rupp, L., Kovtun, I., Pérez-Valencia, J. A., Gerbaulet, A., Reinhardt, S., Wobus, M., von Bonin, M., Sancho, J., Lund, F., Dahl, A., Schmitz, M., Bornhäuser, M., Chavakis, T., Wielockx, B., & Grinenko, T. (2024). CD38 promotes hematopoietic stem cell dormancy. PLoS biology, 22(2), e3002517. doi:10.1371/journal.pbio.3002517
  5. 5. Vandenbempt, V., Eski, S. E., Brahma, M. K., Li, A., Negueruela Escudero, J., Bruggeman, Y., Demine, S., Xiao, P., Cardozo, A. K., Baeyens, N., Martelotto, L., Singh, S. P., Mariño, E., Gysemans, C., & Gurzov, E. N. (2023). HAMSAB diet ameliorates dysfunctional signaling in pancreatic islets in autoimmune diabetes. iScience, 27(1), 108694. doi:10.1016/j.isci.2023.108694
  6. 6. Valiente-Gabioud, A., Garteizgogeascoa Suñer, I., Idziak, A., Fabritius, A., Basquin, J., Angibaud, J., Nägerl, V. U., Singh, S. P., & Griesbeck, O. (2023). Fluorescent sensors for imaging of interstitial calcium. Nature communications, 14(1), 6220. doi:10.1038/s41467-023-41928-w
  7. 7. Valiente-Gabioud, A., Garteizgogeascoa Suñer, I., Idziak, A., Fabritius, A., Angibaud, J., Basquin, J., Valentin Nägerl, U., Singh, S. P., & Griesbeck, O. (2023). Fluorescent Sensors for Imaging Interstitial Calcium. BioRxiv. doi:10.1101/2023.03.23.533956
  8. 8. Costagliola, S., & Singh, S. P. (2023). Emerging technologies in thyroid biology: Pushing the frontiers of thyroid research. Molecular and cellular endocrinology, 566-567, 111912. doi:10.1016/j.mce.2023.111912
  9. 9. Pozo Morales, M., Garteizgogeascoa Suñer, I., Perazzolo, C., So, J., Shin, D., & Singh, S. P. (2023). In vivo imaging of calcium dynamics in zebrafish hepatocytes. Hepatology, 77(3), 789-801. doi:10.1002/hep.32663
  10. 10. Romitti, M., Tourneur, A., De Faria Da Fonseca, B., Doumont, G., Gillotay, P., Liao, X. H., Eski, S. E., Van Simaeys, G., Chomette, L., Lasolle, H., Monestier, O., Figini Kasprzyk, D., Detours, V., Singh, S. P., Goldman, S., Refetoff, S., & Costagliola, S. (2022). Transplantable human thyroid organoids generated from embryonic stem cells to rescue hypothyroidism. Nature communications, 13(1). doi:10.1038/s41467-022-34776-7
  11. 11. McLaughlin, K., Acreman, S., Nawaz, S., Cutteridge, J., Clark, A., Knudsen, J. G., Denwood, G., Spigelman, A. A., Manning Fox, J. J., Singh, S. P., MacDonald, P. E., Hastoy, B., & Zhang, Q. (2022). Loss of tetraspanin-7 expression reduces pancreatic β-cell exocytosis Ca2+ sensitivity but has limited effect on systemic metabolism. Diabetic medicine, 39(12), e14984. doi:10.1111/dme.14984
  12. 12. Xiao, P., Takiishi, T., Moretti Violato, N., Licata, G., Dotta, F., Sebastiani, G., MARSELLI, L., Singh, S. P., Sze, M., Van Loo, G., Dejardin, E., Gurzov, E. N., & Cardozo, A. K. (2022). NF-kappaB-inducing kinase (NIK) is activated in pancreatic beta-cells but does not contribute to the development of diabetes. Cell death & disease, 13(5). doi:10.1038/s41419-022-04931-5
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