Team:ETH Zurich/modeling/whole

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Here, we present the simulation results. The four possibilities of the XOR gate are presented in the following figure. The system was the one with a feedback corresponding to the metabolite pathway. The metabolite parameter taken was the one of xylose, which is supposed to be generic for all models
Here, we present the simulation results. The four possibilities of the XOR gate are presented in the following figure. The system was the one with a feedback corresponding to the metabolite pathway. The metabolite parameter taken was the one of xylose, which is supposed to be generic for all models
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[[File:ETH_Zurich_Collaboration_Four_Cases.jpg|500px|center|thumb|Dynamic simulations of the deterministic single-cell model. One input is a metabolite concentration. Cross-talk is then supposed to be assumed.]]
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[[File:ETH_Zurich_Collaboration_Four_Cases.jpg|800px|center|thumb|Dynamic simulations of the deterministic single-cell model. One input is a metabolite concentration. Cross-talk is then supposed to be assumed.]]
After 90 minutes, the transfer function of the system is the following. It shows an XOR behavior. It could be possible to combine quorum sensing and metabolite wiring to make the pattern appear.
After 90 minutes, the transfer function of the system is the following. It shows an XOR behavior. It could be possible to combine quorum sensing and metabolite wiring to make the pattern appear.

Revision as of 15:01, 15 October 2014

iGEM ETH Zurich 2014