Articles dans des revues avec comité de lecture (56)
  1. 1. Shlyonsky, V., de Prelle de la Nieppe, B., Bodranghien, F., Bischop, D. P., & Gall, D. (2022). Exam problems that link physical concepts with electrical phenomena in living cells. American journal of physics, 90(8), 587-593. doi:10.1119/5.0075228
  2. 2. de Prelle de la Nieppe, B., Lybaert, P., & Gall, D. (2022). A Minimal Model Shows that a Positive Feedback Loop Between sNHE and SLO3 can Control Mouse Sperm Capacitation. Frontiers in Cell and Developmental Biology, 10, 835594. doi:10.3389/fcell.2022.835594
  3. 3. Prista von Bonhorst, F., Gall, D., & Dupont, G. (2022). Impact of β-Amyloids Induced Disruption of Ca2+ Homeostasis in a Simple Model of Neuronal Activity. Cells, 11(4), 615. doi:10.3390/cells11040615
  4. 4. Gall, D., & Dupont, G. (2020). Tonic Activation of Extrasynaptic NMDA Receptors Decreases Intrinsic Excitability and Promotes Bistability in a Model of Neuronal Activity. International Journal of Molecular Sciences (CD-ROM), 21(1), 206. doi:10.3390/ijms21010206
  5. 5. Linaro, D., Vermaercke, B., Iwata, R., Ramaswamy, A., Libe-Philippot, B., Boubakar, L., Davis, B. A., Wierda, K., Davie, K., Poovathingal, S., Penttila, P. A., Bilheu, A., De Bruyne, L., Gall, D., Conzelmann, K. K., Bonin, V., & Vanderhaeghen, P. (2019). Xenotransplanted Human Cortical Neurons Reveal Species-Specific Development and Functional Integration into Mouse Visual Circuits. Neuron, 104(5), 972-986.e6. doi:10.1016/j.neuron.2019.10.002
  6. 6. Shlyonsky, V., & Gall, D. (2019). The OpenPicoAmp-100k: an open-source high-performance amplifier for single channel recording in planar lipid bilayers. Pflügers Archiv. doi:10.1007/s00424-019-02319-7
  7. 7. Comhair, J., Devoght, J., Morelli, G., Harvey, R. R., Briz, V., Borrie, S. C., Bagni, C., Rigo, J.-M., Schiffmann, S. N., Gall, D., Brône, B., & Molchanova, S. (2018). Alpha2-containing glycine receptors promote neonatal spontaneous activity of striatal medium spiny neurons and support maturation of glutamatergic inputs. Frontiers in Molecular Neuroscience, 11, 380. doi:10.3389/fnmol.2018.00380
  8. 8. De Backer, J.-F., Monlezun, S., Detraux, B., Gazan, A., Vanopdenbosch, L., Cheron, J., Cannazza, G., Valverde, S., Cantacorps, L., Nassar, M., Venance, L., Valverde, O., Faure, P., Zoli, M., De Backer, O., Gall, D., Schiffmann, S. N., & de Kerchove d'Exaerde, A. (2018). Deletion of Maged1 in mice abolishes locomotor and reinforcing effects of cocaine. EMBO reports, 19(9), e45089. doi:10.15252/embr.201745089
  9. 9. Molchanova, S., Comhair, J., Karadurmus, D., Piccart, E., Harvey, R. R., Rigo, J.-M., Schiffmann, S. N., Brône, B., & Gall, D. (2018). Tonically active α2 subunit-containing glycine receptors regulate the excitability of striatal medium spiny neurons. Frontiers in Molecular Neuroscience, 10, 442. doi:10.3389/fnmol.2017.00442
  10. 10. Dressen, C., Schwaller, B., Vegh, G., Leleux, F., Gall, D., Lebrun, P., & Lybaert, P. (2018). Characterization and Potential Roles of Calretinin in Rodent Spermatozoa. Cell calcium, 74, 94-101. doi:10.1016/j.ceca.2018.05.008
  11. 11. De Munter, S., Verheijden, S., Vanderstuyft, E., Malheiro, A. R., Brites, P., Gall, D., Schiffmann, S. N., & Baes, M. (2016). Early-onset Purkinje cell dysfunction underlies cerebellar ataxia in peroxisomal multifunctional protein-2 deficiency. Neurobiology of disease, 94, 157-168. doi:10.1016/j.nbd.2016.06.012
  12. 12. Lambot, L., & Gall, D. (2016). Vers une électrophysiologie optique in vivo. MS. Médecine sciences, 32(8-9), 768-770. doi:10.1051/medsci/20163208026
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