Glasgow

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iGEM Glasgow Team
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|[https://2007.igem.org/Glasgow/Plan <font face=georgia color=##3366CC size=5><b>Project</b></font>]
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|[https://2007.igem.org/Glasgow/Meet_the_team <font face=georgia color=#3366CC size=5><b>Meet The Team</b></font>]
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[(Glasgow team rocks! Nearly yet :www.igem2007.com)]
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|[https://2007.igem.org/Glasgow/Wetlab <font face=georgia color=##3366CC size=5><b>Wetlab</b></font>]
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|[https://2007.igem.org/Glasgow/Modeling <font face=georgia color=#3366CC size=5><b>Modelling</b></font>]
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Our project aimed to design and construct a completely novel type of self-powering electrochemical biosensor, called '''''ElectrEcoBlu'''''.  The novelty lies in the fact that the output signal is an electrochemical mediator which enables electrical current to be generated in a microbial fuel cell. '''''ElectrEcoBlu'''''  functions as a biosensor for a range of important and widespread environmental organic pollutants which stimulate the biosensor to produce its own electrical power output. The system has the potential to be used for self-powered long term ''in situ''  and online monitoring with an electrical readout.  Our approach exploited a range of state-of-the art modelling techniques to support the design and construction of this novel synthetic biological system.  This was facilitated by the entire team - biologists and modellers - working in an integrated laboratory environment.
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Latest revision as of 14:50, 26 October 2007

[http://www.gla.ac.uk https://static.igem.org/mediawiki/2007/5/5b/Glasgow_header1.png]

Project Meet The Team Wetlab Modelling


Glasgow group picture.jpg

Our project aimed to design and construct a completely novel type of self-powering electrochemical biosensor, called ElectrEcoBlu. The novelty lies in the fact that the output signal is an electrochemical mediator which enables electrical current to be generated in a microbial fuel cell. ElectrEcoBlu functions as a biosensor for a range of important and widespread environmental organic pollutants which stimulate the biosensor to produce its own electrical power output. The system has the potential to be used for self-powered long term in situ and online monitoring with an electrical readout. Our approach exploited a range of state-of-the art modelling techniques to support the design and construction of this novel synthetic biological system. This was facilitated by the entire team - biologists and modellers - working in an integrated laboratory environment.



[http://www.merck.com https://static.igem.org/mediawiki/2007/thumb/9/9d/Merck.jpg/150px-Merck.jpg] [http://www.scottish-enterprise.com/ http://www.scottish-enterprise.com/selogolrg.gif] [http://www.carnegie-trust.org http://www.headsup.org.uk/content/mediaassets/images/cukt_logo.gif] [http://www.ethz.ch/index_EN http://www.photogrammetry.ethz.ch/logos/eth-logo-140.gif] [http://www.anachem.co.uk http://www.pro-4-pro.com/media/company/anachem_logo.jpg]