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. 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).
  5. 4. 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
  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., & 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.
  10. 9. 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.
  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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