Team:ETH Zurich/modeling/whole

From 2014.igem.org

(Difference between revisions)
(With Leakiness)
(Dynamics)
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=== Ideal case ===
=== Ideal case ===
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[[File:ETHZ_Terminator10.png|center|500px|thumb|The dynamics of flipping of the terminators when the cell receives 0.5 nM LuxAHL and 0 nM of LasAHL and produces GFP and LasI]]
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[[File:ETHZ_IdealCase.png|center|800px|thumb|The four cases for the whole cell under ideal conditions]]
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In the case above, the cell receives only 0.5 nM of LuxAHL and no LasAHL but the cell produces LasI upon flipping of the terminator. The LasI produced in turn catalyses the production of LasAHL. The LasAHL activates P<sub>Las</sub> thus producing ΦC31. ΦC31 results in flipping of the terminator again thus, turning OFF the system. The dynamics of T<sub>oni</sub>, T<sub>offBxb1</sub>, T<sub>offΦC31</sub> and T<sub>onf</sub> is summarised in the figure above.  
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Under ideal conditions, there is no leakiness or cross-talk. The figure shows the production of GFP as a function of four different combinations of inputs in an ideal whole cell. No GFP is produced when there is no LasAHL and LuxAHL or when both are present. GFP is produced only when one of the input AHLs are present, thus emulating an XOR system. In the second case, the rate of production of GFP reduces after three hours. This could be attributed to the delayed production of LasAHL from LasI.
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[[File:ETHZ_IdealCase.png|center|800px|thumb|The four cases for the whole cell under ideal conditions]]
+
[[File:ETHZ_Terminator10.png|center|500px|thumb|The dynamics of flipping of the terminators when the cell receives 0.5 nM LuxAHL and 0 nM of LasAHL and produces GFP and LasI]]
-
Under ideal conditions, there is no leakiness or cross-talk. The figure shows the production of GFP as a function of four different combinations of inputs in an ideal whole cell. No GFP is produced when there is no LasAHL and LuxAHL or when both are present. GFP is produced only when one of the input AHLs are present, thus emulating an XOR system. In the second case, the rate of production of GFP reduces after three hours. This could be attributed to the delayed production of LasAHL from LasI.
+
In the case above, the cell receives only 0.5 nM of LuxAHL and no LasAHL but the cell produces LasI upon flipping of the terminator. The LasI produced in turn catalyses the production of LasAHL. The LasAHL activates P<sub>Las</sub> thus producing ΦC31. ΦC31 results in flipping of the terminator again thus, turning OFF the system. The dynamics of T<sub>oni</sub>, T<sub>offBxb1</sub>, T<sub>offΦC31</sub> and T<sub>onf</sub> is summarised in the figure above.  
 +
 

Revision as of 23:55, 14 October 2014

iGEM ETH Zurich 2014