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Introduction
We hereby wish to present our ambitious BacteriO'Clock!
Synthetic biology is a new science, so we have to chance to set the base of synthetic biology. Hence our motto : Innovation! Therefore, we put a lot of efforts in proposing an original approach while building our system and analysing it.
We shall present here our major results. Then we wished to show how we tried to meet iGEM goals : "Can simple biological systems be built from standard, interchangeable parts and operated in living cells? Or is biology just too complicated to be engineered in this way?".
Achievements
First of all, we intended to build a multipurpose system, that would be able to behave as a FIFO and oscillate.
Up to now, we managed to build biologically a system that is to behave as a FIFO, and designed the oscillatory system. We also foresaw improvments that would enhance our system performances, among which introducing a synchronization application.
Our biological results up to now
Promote the open and transparent development of tools for engineering biology
we worked under the constraint that the research we carried would not content ourselves with proposing solutions for our system only. We are proud to propose three major approaches in that direction.
1.prédire les comportements avec un minimum de données! and then use biological data to understand par ex
shéma model->lab->model donner exemple FIFO
2.akaike
Enable the systematic engineering of biology
1.biobriks
2.caractérisation Hugo
3.conception de protocoles systématiques, trouver des infos qui ne soient pas propres a notre propre systeme
volonté d'établir des protocoles, standardiser les processus ingénieriser/montrer que la bio n'est pas trop compliquée a ingénieriser
Construct a society that can productively apply biological technology
projet bioplastiques//productivité+ pour l'industrie
présentation de l'équipe
multidisciplinaire donc différentes cultures enrichissantes! undergrad 20 personnes en alternances dou organisation
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