Ouvrages publiés à titre de seul auteur (1)
  1. 1. Goldbeter, A. (2018). Au coeur des rythmes du vivant. La vie oscillatoire. Odile Jacob.
    2.   Parties d'ouvrages collectifs (11)
  2. 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
  3. 2. Lévi, F., Altinok, A., & Goldbeter, A. (2011). Circadian rhythms and cancer chronotherapeutics. In F. Marcus & A. Cesario (Eds.), Cancer Systems Biology, Bioinformatics and Medicine: Research and Clinical Applications. Berlin, Germany: Springer.
  4. 3. Altinok, A., Lévi, F., & Goldbeter, A. (2007). Optimizing temporal patterns of anticancer drug delivery by simulations of a cell cycle automaton. In M. Bertau, E. Mosekilde, & H. V. Westerhoff (Eds.), Biosimulation in Drug Development (pp. 275-297). London, UK: Wiley-VCH. doi:10.1002/9783527622672.ch10
  5. 4. Goldbeter, A. (2007). Biological rhythms as temporal dissipative structures. In S. A. Rice (Ed.), Biological Rhythms as Temporal Dissipative Structures (Special Volume in Memory of Ilya Prigogine ed., pp. 253-295). Hoboken, NJ, USA: John Wiley & Sons, Inc.(Advances in Chemical Physics, 135).
  6. 5. 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
  7. 6. Goldbeter, A., Li, Y.-X., & Dupont, G. (1993). Pulsatile signaling in intercellular communication. Periodic stimuli are more efficient than random or chaotic signals in a model based on receptor desensitization. In Proceedings of the First European Conference on Mathematics Applied to Biology and Medicine (pp. 429-439). Winnipeg, Canada: Wuerz Publ.
  8. 7. Goldbeter, A., & Dupont, G. (1993). Wavelike propagation of cAMP and Ca2+ signals: Link with excitability and oscillations. In Oscillations and Morphogenesis (L. Rensing, Ed.) (pp. 195-209). M. Dekker.
  9. 8. Goldbeter, A., Li, Y.-X., & Dupont, G. (1991). Periodicity and chaos in cAMP, hormonal and calcium signalling. In Complex Dynamics and Biological Evolution (E. Mosekilde, Ed.) (pp. 131-143). New-York: Plenum Press.
  10. 9. Goldbeter, A., & Dupont, G. (1991). Phosphorylation and the frequency encoding of signal-induced Ca2+ oscillations. In Cellular Regulation by Protein Phosphorylation (Heilmeyer L., Ed.) (pp. 35-39). Berlin: Springer.
  11. 10. Dupont, G., & Goldbeter, A. (1989). Theoretical insights into the origin of signal-induced calcium oscillations. In Cell to Cell Signalling: From Experiments to Theoretical Models (A. Goldbeter, Ed.) (pp. 461-474). London: Academic Press.
  12. 11. Prigogine, I., & Goldbeter, A. (1981). Nonequilibrium self-organization in biochemical systems. In J. Poortmans & G. Niset (Eds.), Biochemistry of exercise. Baltimore, Md.: University Park Press.(International series on sport sciences, 11A).
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