Team:ETH Zurich/Biology
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Both a repressor (coupled to an inverter) or an activator can be used as sensor parts of the system. In our case we used AlcR (from ''aspergillus nidulans''), respectively XylR (from ''pseudomonas putida'') regulatory proteins in order to sense compounds present in smoke and thereby to induce the different parts of our network. | Both a repressor (coupled to an inverter) or an activator can be used as sensor parts of the system. In our case we used AlcR (from ''aspergillus nidulans''), respectively XylR (from ''pseudomonas putida'') regulatory proteins in order to sense compounds present in smoke and thereby to induce the different parts of our network. | ||
- | Upon sensing the specific molecule the circuit gets activated and our SmoColi bacteria start notifying us about the presence of toxic substances in air. This is done first by a moving GFP band and then | + | Upon sensing the specific molecule the circuit gets activated and our SmoColi bacteria start notifying us about the presence of toxic substances in air. This is done first by a moving GFP band and then by a red alarm signal. |
For a detailed description of the circuit design please [https://2011.igem.org/Team:ETH_Zurich/Biology/Detector click here]. | For a detailed description of the circuit design please [https://2011.igem.org/Team:ETH_Zurich/Biology/Detector click here]. |
Revision as of 01:59, 22 September 2011
Biology |
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A brief overview of our SmoColi system can be found here. |
General ideaSmoColi is a bacterial system which is able to sense and quantify smoke in the air. The quantification of smoke works in the same way as a thermometer: A band of GFP gets shifted along an axis depending on the concentration of smoke sensed by the bacteria. If the amount of smoke gets too high, an alarm system is switched on and thus warns people when the smoke could cause health damage. Experiments are performed in Escherichia coli strains JM101 and DH5α. SmoColi can be used in channels and tubes of different sizes depending on the application field. Because of the simple setup of the system it is a convenient mean to define concentrations of sensor molecules from air probes. It could be used for example as a rapid test to quantify specific molecules in probes. |
Network elementsThe SmoColi circuit design can be devided into three different subsystems: 1. a sensor 2. bandpass filter 3. alarm system Both a repressor (coupled to an inverter) or an activator can be used as sensor parts of the system. In our case we used AlcR (from aspergillus nidulans), respectively XylR (from pseudomonas putida) regulatory proteins in order to sense compounds present in smoke and thereby to induce the different parts of our network. Upon sensing the specific molecule the circuit gets activated and our SmoColi bacteria start notifying us about the presence of toxic substances in air. This is done first by a moving GFP band and then by a red alarm signal. For a detailed description of the circuit design please click here. You can see details about how we designed our plasmids on the following page and details about the protocols we used here. |