Goldbeter, Albert.
![Sudoc [ABES], France](/viaf/images/flags/SUDOC.png "Sudoc [ABES], France")
Albert Goldbeter
Goldbeter, A.
VIAF ID: 59122243 (Personal)
Permalink: http://viaf.org/viaf/59122243
Preferred Forms
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Albert Goldbeter
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100 0 _
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Albert Goldbeter
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200 _ | ‡a Goldbeter ‡b Albert
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100 1 _ ‡a Goldbeter, A
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100 1 0
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Goldbeter, A.
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100 1 _ ‡a Goldbeter, A.
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100 1 _ ‡a Goldbeter, A.
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100 1 _ ‡a Goldbeter, A.
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100 1 _ ‡a Goldbeter, Albert
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100 1 _
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Goldbeter, Albert
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100 1 _
‡a
Goldbeter, Albert
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100 1 _ ‡a Goldbeter, Albert
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100 1 _ ‡a Goldbeter, Albert.
4xx's: Alternate Name Forms (8)
Works
| Title | Sources |
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| Amplitude of circadian oscillations entrained by 24-h light-dark cycles. |
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| Arginine biosynthesis in Escherichia coli: experimental perturbation and mathematical modeling |
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| The balance between cell cycle arrest and cell proliferation: control by the extracellular matrix and by contact inhibition |
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| Biochemical oscillations and cellular rhythms the molecular bases of periodic and chaotic behaviour |
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| A biochemical oscillator explains several aspects of Myxococcus xanthus behavior during development. |
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| [Biological oscillations: clocks for all times] |
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| A cell cycle automaton model for probing circadian patterns of anticancer drug delivery |
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| Cell Fate Specification Based on Tristability in the Inner Cell Mass of Mouse Blastocysts |
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| Cell to cell signalling : from experiments to theoretical models |
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| [Circadian rhythms and systems biology]. |
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| Complexity : microscopic and macroscopic aspects : workshop in honour of Ilya Prigogine on the occasion of his 85th birthday : Fondation des Treilles, France, July 8-14, 2002 |
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| Computational approaches to cellular rhythms |
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| Computational biology: a propagating wave of interest |
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| A Computational Model for the Cold Response Pathway in Plants |
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| Critical phase shifts slow down circadian clock recovery: implications for jet lag. |
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| Dependence of the period on the rate of protein degradation in minimal models for circadian oscillations. |
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| Dissipative structures and biological rhythms |
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| Dynamics of the mammalian cell cycle in physiological and pathological conditions |
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| Etude de la relation entre directionnalité d'une cellule individuelle et comportements dynamiques multicellulaires chez Myxococcus xanthus. |
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| From cell to brain, anglais |
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| From simple to complex patterns of oscillatory behavior in a model for the mammalian cell cycle containing multiple oscillatory circuits. |
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| Gata6, Nanog and Erk signaling control cell fate in the inner cell mass through a tristable regulatory network |
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| Identifying mechanisms of chronotolerance and chronoefficacy for the anticancer drugs 5-fluorouracil and oxaliplatin by computational modeling |
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| Implications of circadian clocks for the rhythmic delivery of cancer therapeutics |
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| Linking single cell directionality to dynamic multicellular transitions in Myxococcus xanthus : a multiscale analysis |
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| A model for the dynamics of human weight cycling |
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| A model for the enhancement of fitness in cyanobacteria based on resonance of a circadian oscillator with the external light-dark cycle |
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| Modeling-Based Investigation of the Effect of Noise in Cellular Systems. |
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| Modeling the circadian clock: from molecular mechanism to physiological disorders. |
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| Modeling the mammalian circadian clock: sensitivity analysis and multiplicity of oscillatory mechanisms. |
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| Modeling the segmentation clock as a network of coupled oscillations in the Notch, Wnt and FGF signaling pathways |
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| Molecular movements and chemical reactivity as conditioned by membranes, enzymes, and other macromolecules : XVIth Solvay Conference on Chemistry, Brussels, November 22-November 26, 1976 |
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| Multi-rhythmicity generated by coupling two cellular rhythms |
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| Oscillations and waves of cyclic AMP in Dictyostelium: a prototype for spatio-temporal organization and pulsatile intercellular communication. |
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| Oscillations, bistability and waves in biochemical and cellular systems : a special issue based on a workshop held at the Fondation des Treilles (Tourtour, France) from 14-20 June 1997 |
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| Oscillatory enzyme reactions and Michaelis-Menten kinetics |
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| The positive circadian regulators CLOCK and BMAL1 control G2/M cell cycle transition through Cyclin B1 |
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| Quantitative perturbative study of the role of Fgf8 in somitogenesis |
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| Report of an EU projects workshop on systems biology held in Brussels, Belgium on 8 December 2004. |
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| Report on EU-USA workshop: how systems biology can advance cancer research (27 October 2008) |
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| Revisiting a skeleton model for the mammalian cell cycle: From bistability to Cdk oscillations and cellular heterogeneity |
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| Robust synchronization of the cell cycle and the circadian clock through bidirectional coupling |
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| Robustness of circadian rhythms with respect to molecular noise |
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| Rythmes du vivant et rythme de vie : vers un décrochage ? |
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| Rythmes et chaos dans les systèmes biochimiques et cellulaires |
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| Segmentation clock: insights from computational models |
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| Selection of in-phase or out-of-phase synchronization in a model based on global coupling of cells undergoing metabolic oscillations |
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| Sharp developmental thresholds defined through bistability by antagonistic gradients of retinoic acid and FGF signaling |
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| Solvay Conf. on Chem., 16th, Free Univ. of Brussels, c1978 (a.e.) |
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| Stochastic modelling of nucleocytoplasmic oscillations of the transcription factor Msn2 in yeast |
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| Temporal self-organization of the cyclin/Cdk network driving the mammalian cell cycle |
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| Toward a detailed computational model for the mammalian circadian clock |
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| vie oscillatoire au coeur des rythmes du vivant |
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| Zero-order switches and developmental thresholds |
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