Team:Aachen

From 2014.igem.org

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'''Welcome to the Aachen 2014 iGEM Wiki!'''  
'''Welcome to the Aachen 2014 iGEM Wiki!'''  
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Current methods to detect pathogens on solid surfaces have many disadvantages such as expensive and heavy equipment or long detection times.  
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Current techniques for pathogen detection have many disadvantages as they require expensive equipment, trained personnel or labourious routines.  
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The iGEM team Aachen 2014 developed a novel biosensing system called ''Cellock Holmes'' that overcomes the drawbacks of current techniques.
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The iGEM team Aachen 2014 developed a novel biosensing system called ''Cellock Holmes'' that overcomes the drawbacks of current methods.
<!-- As a proof-of concept for''Cellock Holmes'', we successfully detected the pathogen ''Pseudomonas aeruginosa''. Through the use of our special genetic construct we could significantly enhance the detection speed as compared to a traditional biosensor.
<!-- As a proof-of concept for''Cellock Holmes'', we successfully detected the pathogen ''Pseudomonas aeruginosa''. Through the use of our special genetic construct we could significantly enhance the detection speed as compared to a traditional biosensor.

Revision as of 22:47, 17 October 2014

[http://www.example.com link title]

Cellock Holmes - A Case of Identity

Welcome to the Aachen 2014 iGEM Wiki!

Current techniques for pathogen detection have many disadvantages as they require expensive equipment, trained personnel or labourious routines.

The iGEM team Aachen 2014 developed a novel biosensing system called Cellock Holmes that overcomes the drawbacks of current methods.


Bürgerstiftung Aachen
Niersverband Genscript Eurofins Genomics Labomedic
BMBF IDT m2p labs Carl Roth pro RWTH
Institute of Applied Microbiology - iAMB Institute for Molecular Biotechnology Helmholtz Association - Initiative on Synthetic Biology Aachen Biology and Biotechnology - ABBt Forschungszentrum Jülich Fab Lab Aachen Schwaneberg Group