Parties d'ouvrages collectifs (2)
  1. 1. Leloup, J.-C., Gonze, D., & Goldbeter, A. (2013). Computational models for circadian rhythms : Deterministic versus stochastic approaches. In R. Eils & A. Kriete (Eds.), Computational Systems Biology (2 ed., pp. 183-222). Amsterdam: Elsevier. doi:10.1016/B978-0-12-405926-9.00010-1
  2. 2. Leloup, J.-C., Gonze, D., & Goldbeter, A. (2006). Computational models for circadian rhythms : Deterministic versus stochastic approaches. In A. Kriete & R. Eils (Eds.), Computational Systems Biology (pp. 249-291). Amsterdam: Elsevier. doi:10.1016/B978-012088786-6/50032-0
    3.   Articles dans des revues avec comité de lecture (78)
  3. 1. Tyson, J. J., Csikasz-Nag, A., Gonze, D., Kim, J. K., Santos, S., & Wolf, J. (2022). Time-keeping and decision-making in living cells: Part II. Interface Focus, 12(4), 20220024. doi:10.1098/rsfs.2022.0024
  4. 2. Tyson, J. J., Csikasz-Nagy, A., Gonze, D., Kim, J. K., Santos, S., & Wolf, J. (2022). Time-keeping and decision-making in living cells: Part I. Interface Focus, 12(3), 20220011. doi:10.1098/rsfs.2022.0011
  5. 3. Khalighi, M., Sommeria-Klein, G., Gonze, D., Faust, K., & Lahti, L. (2022). Quantifying the impact of ecological memory on the dynamics of interacting communities. PLoS computational biology, 18(6), e1009396. doi:10.1371/journal.pcbi.1009396
  6. 4. Robert, C., Prista von Bonhorst, F., De Decker, Y., Dupont, G., & Gonze, D. (2022). Initial source of heterogeneity in a model for cell fate decision in the early mammalian embryo. Interface Focus, 12, 20220010.
  7. 5. Zhang, R., & Gonze, D. (2021). Stochastic simulation of a model for circadian rhythms in plants. Journal of theoretical biology, 527, 110790. doi:10.1016/j.jtbi.2021.110790
  8. 6. Woller, A., & Gonze, D. (2021). Circadian misalignment and metabolic disorders: A story of twisted clocks. Biology, 10(3), 207. doi:10.3390/biology10030207
  9. 7. Fernandes De Melo, J. R., Gutsch, A., De Caluwé, T., Leloup, J.-C., Gonze, D., Hermans, C., Webb, A., & Verbruggen, N. (2021). Magnesium maintains the length of the circadian period in Arabidopsis. Plant physiology, 185, 519-532.
  10. 8. Pelicaen, R., Gonze, D., De Vuyst, L., & Weckx, S. (2020). Genome-scale metabolic modeling of Acetobacter pasteurianus 386B reveals its metabolic adaptation to cocoa fermentation conditions. Food microbiology, 92, 103597. doi:10.1016/j.fm.2020.103597
  11. 9. Vet, S., Gelens, L., & Gonze, D. (2020). Mutualistic cross-feeding in microbial systems generates bistability via an Allee effect. Scientific reports, 10(1), 7763. doi:10.1038/s41598-020-63772-4
  12. 10. Zhang, R., Gonze, D., Hou, X., You, X., & Goldbeter, A. (2020). A Computational Model for the Cold Response Pathway in Plants. Frontiers in physiology, 11, 591073. doi:10.3389/fphys.2020.591073
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