Team:Harvard

From 2008.igem.org

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Alain Viel,  
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Orianna Bretschger,  
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Alain Viel,<br>
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Daad Saffarini,  
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Orianna Bretschger,
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Helen White,  
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<br>Daad Saffarini,
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Remy Chait,  
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<br>Helen White,
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Natalie Farny,  
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<br>Remy Chait,
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Christina Agapakis,  
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<br>Natalie Farny,
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Jason Lohmueller,  
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<br>Christina Agapakis,
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Kim de Mora,  
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<br>Jason Lohmueller,
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Colleen Hansel,  
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<br>Kim de Mora,
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Peter Girguis,  
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<br>Colleen Hansel,
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Christopher Marx,  
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<br>Peter Girguis,
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George Church,  
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<br>Christopher Marx,
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Jagesh V. Shah,  
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<br>George Church,
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Pam Silver,  
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<br>Jagesh V. Shah,
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Tamara Brenner,  
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<br>Pam Silver,
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Harvard BioLabs  
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<br>Tamara Brenner,
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<br>Harvard BioLabs
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<font size=1>Our project sought to combine the detecting capabilities of bacteria with the speed and ubiquity of electricity by creating an inducible system in Shewanella oneidensis MR-1 with an electrical output, allowing for the direct integration of this biosensor with electrical circuits via microbial fuel cells.</font>
<font size=1>Our project sought to combine the detecting capabilities of bacteria with the speed and ubiquity of electricity by creating an inducible system in Shewanella oneidensis MR-1 with an electrical output, allowing for the direct integration of this biosensor with electrical circuits via microbial fuel cells.</font>
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The broad goal of our project was to engineer S. Oneidensis to produce a detectable change in electric current in response to some environmental stimulus. In order to observe such a reaction, our first task was to design an environment capable of housing bacteria and measuring current production. The answer? Microbial fuel cells.
The broad goal of our project was to engineer S. Oneidensis to produce a detectable change in electric current in response to some environmental stimulus. In order to observe such a reaction, our first task was to design an environment capable of housing bacteria and measuring current production. The answer? Microbial fuel cells.
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Latest revision as of 04:38, 30 October 2008

Alain Viel,
Orianna Bretschger,
Daad Saffarini,
Helen White,
Remy Chait,
Natalie Farny,
Christina Agapakis,
Jason Lohmueller,
Kim de Mora,
Colleen Hansel,
Peter Girguis,
Christopher Marx,
George Church,
Jagesh V. Shah,
Pam Silver,
Tamara Brenner,
Harvard BioLabs
Our project sought to combine the detecting capabilities of bacteria with the speed and ubiquity of electricity by creating an inducible system in Shewanella oneidensis MR-1 with an electrical output, allowing for the direct integration of this biosensor with electrical circuits via microbial fuel cells.
Shewanella oneidensis MR-1
(fondly referred to as Shewie)
is a metabolically versatile,
and genetically tractable, gram-
negative facultative anaerobe which under
anaerobic conditions reduces a number of electron
acceptors. This ability can be harnessed by
microbial fuel cells to produce an electric current.
The broad goal of our project was to engineer S. Oneidensis to produce a detectable change in electric current in response to some environmental stimulus. In order to observe such a reaction, our first task was to design an environment capable of housing bacteria and measuring current production. The answer? Microbial fuel cells.



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