Mathematical modeling of genetic regulatory networks: Stress responses in ıt Escherichia coli

Delphine Ropers 1, * Hidde Jong 1, * Hans Geiselmann 1, 2
* Auteur correspondant
1 IBIS - Modeling, simulation, measurement, and control of bacterial regulatory networks
LAPM - Laboratoire Adaptation et pathogénie des micro-organismes [Grenoble], Inria Grenoble - Rhône-Alpes, Institut Jean Roget
Abstract : The genomic revolution has opened up systematic investigations and engineering designs for various life forms. Systems biology and synthetic biology are emerging as two complementary approaches, which embody the breakthrough in biology and invite application of engineering principles. Systems Biology and Synthetic Biology emphasizes the similarity between biology and engineering at the system level, which is important for applying systems and engineering theories to biology problems. This book demonstrates to students, researchers, and industry that systems biology relies on synthetic biology technologies to study biological systems, while synthetic biology depends on knowledge obtained from systems biology approaches.
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https://hal.inria.fr/hal-00793019
Contributeur : Gaëlle Rivérieux <>
Soumis le : jeudi 21 février 2013 - 14:32:48
Dernière modification le : mercredi 11 avril 2018 - 01:55:24

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  • HAL Id : hal-00793019, version 1

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Delphine Ropers, Hidde Jong, Hans Geiselmann. Mathematical modeling of genetic regulatory networks: Stress responses in ıt Escherichia coli. P. Fu and M. Letterich and S. Panke. Systems Biology and Synthetic Biology, John Wiley & Sons, pp.235-271, 2009. 〈hal-00793019〉

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