Difference between revisions of "Team:Technion HS Israel/Modelling/Results"
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− | <h1> Modeling Results</h1> | + | <h1><font color="#008080">Modeling Results</font> </h1> |
<p>Figure one: In this graph we see the amount of ccdb (the toxin substance)inside the bacteria as a function of time. Both the X axis and the Y axis are in arbitrary units, for a few different values of initial AHL in the cells. Each line stands for a different initial amount of AHL. The one on the top is the graph of AHL(t=0)=4 (again, in arbitrary units) and the top one ... .<br>Things to discuss: we can see a peak at the beginning in all the graphs of ccdb, it's because of ... . We don't want it to kill the cells. We can solve it by using modelling to determine how much AHL to put. This graphs show an ideal kill switch - there is a great variability/range/sensitivity to the dependent variable. It shows that our system is holding true to the flexibility promise... .</p> | <p>Figure one: In this graph we see the amount of ccdb (the toxin substance)inside the bacteria as a function of time. Both the X axis and the Y axis are in arbitrary units, for a few different values of initial AHL in the cells. Each line stands for a different initial amount of AHL. The one on the top is the graph of AHL(t=0)=4 (again, in arbitrary units) and the top one ... .<br>Things to discuss: we can see a peak at the beginning in all the graphs of ccdb, it's because of ... . We don't want it to kill the cells. We can solve it by using modelling to determine how much AHL to put. This graphs show an ideal kill switch - there is a great variability/range/sensitivity to the dependent variable. It shows that our system is holding true to the flexibility promise... .</p> | ||
<img src="https://static.igem.org/mediawiki/2015/d/de/Technion_HS_2015_Modeling_Result_1_2.png" class="full"> | <img src="https://static.igem.org/mediawiki/2015/d/de/Technion_HS_2015_Modeling_Result_1_2.png" class="full"> |
Revision as of 21:02, 18 September 2015
Modeling Results
Figure one: In this graph we see the amount of ccdb (the toxin substance)inside the bacteria as a function of time. Both the X axis and the Y axis are in arbitrary units, for a few different values of initial AHL in the cells. Each line stands for a different initial amount of AHL. The one on the top is the graph of AHL(t=0)=4 (again, in arbitrary units) and the top one ... .
Things to discuss: we can see a peak at the beginning in all the graphs of ccdb, it's because of ... . We don't want it to kill the cells. We can solve it by using modelling to determine how much AHL to put. This graphs show an ideal kill switch - there is a great variability/range/sensitivity to the dependent variable. It shows that our system is holding true to the flexibility promise... .