Team:Paris

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<center><html><div style="color:#275D96; font-size:2em;">The BacteriO'Clock</div></html></center>
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<center><html><div style="color:#275D96; font-size:4em;">The BacteriO'Clock</div></html>
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<div style="font-size: 2em;">by the <html><a alt="Team" title="Discover our team !" style="text-decoration: underline;" href="https://2008.igem.org/Team:Paris/Team">Paris iGEM Team</a></html></div>
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<embed  width="213" height="160"  src="http://biosynthetique.free.fr/videos/flv_player/flvplayer.swf?autostart=true&amp;repeat&amp;file=http://perso.strepsiade.org/~gvieira/out2.flv" quality="high" type="application/x-shockwave-flash"  allowfullscreen="true" />
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Have you ever dreamed of a new way of thinking everyday life objects? Be sure, this will come true, under the form of our BacteriO'Clock ! A simple test tube which contains our modified bacteria will give you the time, directly from living organisms. The hours of the day are color-coded and oscillations ensure the repeated periodic behaviour. Inspired by the flagellar motor machine, our clock serves as a chassis to be used in building the future molecular modular machines in an optimised and coordinated manner. It may serve as well to control in an optimised fashion multi-reaction pathways.  
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Have you ever dreamed of a new way of thinking everyday life objects? Be sure, this could one day become true, under the form of our '''BacteriO'Clock !''' A simple test tube containing our modified bacteria might give you the time, directly from living organisms, the hours of the day being '''color-coded''', and '''oscillations''' ensuring the repeated periodic behavior. Inspired by the flagellar motor machine, our clock at this stage of developpement serves as a '''chassis''' to be used in building future modular molecular machines in an optimized and coordinated manner. It may serve as well to control in an optimized fashion '''multi-reaction pathways'''.
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To achieve this incredible project, we relied on a well characterized genetic structure that allows a specific sequence of fluorescent proteins expression to occur in a First In - First Out order. This FIFO behaviour enables us to define a rich color encoding of day time. An additional negative feedback loop generates clock oscillations!  
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To achieve this incredible project, we relied on a well characterized genetic structure that allows a specific sequence of fluorescent proteins expression to occur in a First In - First Out order. This '''FIFO''' behavior enables us to define a rich color encoding of day time. An additional negative feedback loop generates clock oscillations!  
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Based on in-depth studies and experimentally measured parameters we developed predictive models that suggest that this core system is not likely to demonstrate stable oscillations due to damping phenomenon leading to a stationnary steady-state. Importantly, our modeling approach provided us with alternative improved designs that should lead in principle to an optimized BacteriO'Clock. In particular, this is achieved through synchronization at the population level by adopting a quorum sensing feedback mediated by HSL production that enforces a necessary delay and provides an elegant cellular synchronization mechanism :  
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Based on in-depth studies and experimentally measured parameters we developed predictive models that suggest that this core system is not likely to demonstrate stable oscillations due to damping phenomenon leading to a stationary steady-state. Importantly, our modeling approach provided us with alternative improved designs that should lead in principle to an optimized '''BacteriO'Clock'''. In particular, this is achieved through '''synchronization at the population level''' by adopting a quorum sensing feedback mediated by HSL production that enforces a necessary delay and provides an elegant cellular synchronization mechanism :  
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<center><html><a href="https://2008.igem.org/Team:Paris/Project" alt="Project" title="Learn more about our project !"><img width=350px src="https://static.igem.org/mediawiki/2008/5/58/Unimo.png" /></a></html></center>
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[[Image:Unimo.png|400px|thumb|right|Simple visualization of our color coded BacteriO'Clock]]
 
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In a nutshell, the new trendy item which will make every biologist in your lab jealous will soon be available. Through a long-cloning period, '''we now have all biobricks needed and much of the final constructions'''. Furthermore, we initiated an extensive characterization plan of these parts. If you manage to wait for the updates, you might even get the version that automatically reacts to daylight saving time ;)
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In a nutshell, the new trendy item which will make every biologist in your lab jealous will soon be available. Throuch a long-cloning period, we now have all biobricks needed and much of the final constructions. Furthermore, we initiated an extensive characterization plan of these parts. If you manage to wait for the updates, you might even get the version that automatically reacts to daylight saving time ;)
 
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<center><html><a title="Discover our team !" href="https://2008.igem.org/Team:Paris/Team"><img style="padding: 5px; border: orange dashed 1px;" src="https://static.igem.org/mediawiki/2008/1/19/ParisTeam.jpg" width="300px" /></a></html>
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[[Team:Paris/Notebook/Freezer|Freezer]] || [[Team:Paris/Notebook|Notebook]]
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{{Paris/Header|We are extremely grateful to the organizations that support our project:}}
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Faculté de Médecine Université Paris Descartes
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[[Team:Paris/Museum|Have fun visiting our old wiki!]]</center>

Latest revision as of 12:24, 2 April 2009


The BacteriO'Clock





Have you ever dreamed of a new way of thinking everyday life objects? Be sure, this could one day become true, under the form of our BacteriO'Clock ! A simple test tube containing our modified bacteria might give you the time, directly from living organisms, the hours of the day being color-coded, and oscillations ensuring the repeated periodic behavior. Inspired by the flagellar motor machine, our clock at this stage of developpement serves as a chassis to be used in building future modular molecular machines in an optimized and coordinated manner. It may serve as well to control in an optimized fashion multi-reaction pathways.


To achieve this incredible project, we relied on a well characterized genetic structure that allows a specific sequence of fluorescent proteins expression to occur in a First In - First Out order. This FIFO behavior enables us to define a rich color encoding of day time. An additional negative feedback loop generates clock oscillations!

Based on in-depth studies and experimentally measured parameters we developed predictive models that suggest that this core system is not likely to demonstrate stable oscillations due to damping phenomenon leading to a stationary steady-state. Importantly, our modeling approach provided us with alternative improved designs that should lead in principle to an optimized BacteriO'Clock. In particular, this is achieved through synchronization at the population level by adopting a quorum sensing feedback mediated by HSL production that enforces a necessary delay and provides an elegant cellular synchronization mechanism :


In a nutshell, the new trendy item which will make every biologist in your lab jealous will soon be available. Through a long-cloning period, we now have all biobricks needed and much of the final constructions. Furthermore, we initiated an extensive characterization plan of these parts. If you manage to wait for the updates, you might even get the version that automatically reacts to daylight saving time ;)



Freezer || Notebook


We are extremely grateful to the organizations that support our project:


Bettencourt.png

Bettencourt-Schueller Foundation

[http://www.fondationbs.org/ www.fondationbs.org]

Logocri.jpg

Centre de Recherches Interdisciplinaires

[http://www.cri-paris.org/fr/cri/ www.cri-paris.org/fr/cri/]

LogoPCU1.jpg

Paris Centre universités

[http://www.pariscentreuniversites.fr/ www.pariscentreuniversites.fr]

Embassy.png

Embassy of France in the United States

[http://www.ambafrance-us.org/ www.ambafrance-us.org]

FacMed.png

Faculté de Médecine Université Paris Descartes

[http://www.medecine.univ-paris5.fr/ www.medecine.univ-paris5.fr]

Qiagen.GIF

Qiagen

[http://www.qiagen.com/ www.qiagen.com/]

Ibisc.jpeg

Ibisc Laboratory

[http://www.ibisc.univ-evry.fr/ www.ibisc.univ-evry.fr]


Gdrbim.jpg

GdR BiM

[http://www.gdr-bim.u-psud.fr/ www.gdr-bim.u-psud.fr]

Logo INRIA.jpg

INRIA

[http://www.inria.fr/ www.inria.fr]




Have fun visiting our old wiki!