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Team:ETH Zurich/Achievements/Model Results
From 2011.igem.org
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| - | '''We verified that our initial idea works and that we can actually get a moving GFP band in the channel responding to different input acetaldehyde concentrations | + | '''We verified that our initial idea works and that we can actually get a moving GFP band in the channel responding to different input acetaldehyde concentrations!''' <br> |
In order our smoColi bacteria to start reporting acetaldehyde in the air (when GFP band appears at the begining of the channel), system should be supplied with around 44.05 mg/L acetaldehyde. In order for the band to be able to form at the very end of the channel, the input acetaldehyde concentration should be 2420 mg/L. | In order our smoColi bacteria to start reporting acetaldehyde in the air (when GFP band appears at the begining of the channel), system should be supplied with around 44.05 mg/L acetaldehyde. In order for the band to be able to form at the very end of the channel, the input acetaldehyde concentration should be 2420 mg/L. | ||
Revision as of 00:35, 22 September 2011
| Modeling Results |
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| By modeling and simulating our system we verified that it can actually be implemented in reality. We checked its feasibility, drew some conclusions and decided on a most suitable channel design. | |||
Feasibility AnalysisWe verified that our initial idea works and that we can actually get a moving GFP band in the channel responding to different input acetaldehyde concentrations! |
Process DesignAfter simulating our system in COMSOL, we came to the following conclusions that helped us designing the channel experimentally:
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