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Team:Grenoble/Team/Advisors
From 2012.igem.org
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<span class="champ_title">Training</span><br/> | <span class="champ_title">Training</span><br/> | ||
PhD in computer science, University of Twente, the Netherlands | PhD in computer science, University of Twente, the Netherlands | ||
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| + | </div> | ||
| + | <div class="champ"> | ||
| + | <span class="champ_title">Presentation</span><br/> | ||
| + | An engineer by training, I like to do interdisciplinary research, at the interface of biology, computer science, and mathematics. More specifically, since a number of years I have been interested in the modeling of the regulatory networks controlling the functioning of bacteria. Synthetic biology proposes an interesting approach for better understanding these networks: can we modify the network connections so as to extend the behavioral repertoire of bacterial cells? The iGEM competition addresses these questions in an original way, at the same time playful and highly demanding. | ||
</br> | </br> | ||
</div> | </div> | ||
Revision as of 09:15, 3 September 2012
Affiliation
INRIA Grenoble - Rhônes-Alpes
INRIA Grenoble - Rhônes-Alpes
Training
PhD in computer science, University of Twente, the Netherlands
PhD in computer science, University of Twente, the Netherlands
Presentation
An engineer by training, I like to do interdisciplinary research, at the interface of biology, computer science, and mathematics. More specifically, since a number of years I have been interested in the modeling of the regulatory networks controlling the functioning of bacteria. Synthetic biology proposes an interesting approach for better understanding these networks: can we modify the network connections so as to extend the behavioral repertoire of bacterial cells? The iGEM competition addresses these questions in an original way, at the same time playful and highly demanding.
An engineer by training, I like to do interdisciplinary research, at the interface of biology, computer science, and mathematics. More specifically, since a number of years I have been interested in the modeling of the regulatory networks controlling the functioning of bacteria. Synthetic biology proposes an interesting approach for better understanding these networks: can we modify the network connections so as to extend the behavioral repertoire of bacterial cells? The iGEM competition addresses these questions in an original way, at the same time playful and highly demanding.
