Team:RHIT/Modeling
From 2012.igem.org
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<p>The figures below illustrate the three possible solutions predicted by the mathematical model. The X-axis is a measure of the external mating pheromone concentration, and the Y-axis depicts the amount of protein. The first illustration depicts a system where once any signal or protein is present the circuit is turned on and continues to produce more protein up to a cap. The second depicts a system where there a particular threshold of mating pheromone required to bring about a stable level of protein, below this level, the protein production is transient and returns to zero. The third depicts a system similar to the second where there is a threshold, where the protein is created up to cap, however once the signal drops below that threshold, it again returns to zero.</p><br /><br /> | <p>The figures below illustrate the three possible solutions predicted by the mathematical model. The X-axis is a measure of the external mating pheromone concentration, and the Y-axis depicts the amount of protein. The first illustration depicts a system where once any signal or protein is present the circuit is turned on and continues to produce more protein up to a cap. The second depicts a system where there a particular threshold of mating pheromone required to bring about a stable level of protein, below this level, the protein production is transient and returns to zero. The third depicts a system similar to the second where there is a threshold, where the protein is created up to cap, however once the signal drops below that threshold, it again returns to zero.</p><br /><br /> | ||
Signal/Response Diagrams here<br /><br /> | Signal/Response Diagrams here<br /><br /> | ||
- | <p> While it is not yet possible to verify which, if any, accurately represents the actual system, the created models predict possible scenarios that would allow for the success of the project. Furthermore, the model predicts that the success of this project is dependent solely on the parameters of the system, in particular the ratios between _____. The results of the model make good biological sense and intuitively make sense. In order for the project to be successful, either the first or second depictions must hold true. The analysis, derivation, future work, and all the work leading to these conclusions are listed below in the named sections.</p><br />For a full explanation of the system, a pdf is available <a href=https://static.igem.org/mediawiki/igem.org/8/85/Differential_Model.pdf | + | <p> While it is not yet possible to verify which, if any, accurately represents the actual system, the created models predict possible scenarios that would allow for the success of the project. Furthermore, the model predicts that the success of this project is dependent solely on the parameters of the system, in particular the ratios between _____. The results of the model make good biological sense and intuitively make sense. In order for the project to be successful, either the first or second depictions must hold true. The analysis, derivation, future work, and all the work leading to these conclusions are listed below in the named sections.</p><br /><br />For a full explanation of the system, a pdf is available <a href=https://static.igem.org/mediawiki/igem.org/8/85/Differential_Model.pdf>here</a>. |
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Revision as of 21:26, 1 October 2012