Glasgow

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ElectrEcoBlu combines an environmental biosensor for common organic pollutants with a microbial fuel cell which can produce its own electricity. These cells produce their own electrical power output which increases in the presence of one or more organic pollutant stimulants. This system has the potential to be used for self-powered long term in situ and online monitoring with an electrical readout. It is based around novel reporter genes encoding electron carrying mediators which aid the transfer of electrons from the cells to the electrodes resulting in enhanced electricity generation.
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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]