Tokyo/Formulation/2.toggle model with hybrid promoter

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<br>The phase plane and the bifurcation are shown in Fig.4:
<br>The phase plane and the bifurcation are shown in Fig.4:
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<br>[[Image:AHLresponse2-3.jpg|300px|left|thumb|Figure 2.3.A]][[Image:AHLresponse2-4.jpg|300px|left|thumb|Figure 2.3.B]][[Image:AHLresponse2-5.jpg|270px|none|thumb|Figure 2.3.C]]
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<br>[[Image:AHLresponse2-3.jpg|300px|left|thumb|Figure 2.3.A [AHL]=2.5 (a.u.)]][[Image:AHLresponse2-4.jpg|300px|left|thumb|Figure 2.3.B [AHL]=4.0 (a.u.)]][[Image:AHLresponse2-5.jpg|270px|none|thumb|Figure 2.3.C [AHL]=15 (a.u.)]]
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Revision as of 10:39, 26 October 2007


Works top  0.Hybrid promoter  1.Formulation  2.Assay1  3.Simulation  4.Assay2  5.Future works

Step1  Step2  Step3  Step4  Step5


Figure 2.1


Assuming the system where E. coli does not produce AHL by themselves, we have observed the system's reaction to ab extra AHL. The ODEs were obtained as


Ex 2-1


where the factor surrounded in the orange box represents the activation of promoter B.
These equations were normalized as follows:


Ex2-2


Fig 2.2 represent the our thinking behavior of this system.
- with low concentration of AHL, the B state becomes unstable. so that the cells at the B state move to the A state which is stable.
- with hign concentration of AHL, both A and B states are stable.The cells at the A state keep the A state and that at the B state keep the B state. 


Figure 2.2


The phase plane and the bifurcation are shown in Fig.4:


Figure 2.3.A [AHL]=2.5 (a.u.)
Figure 2.3.B [AHL]=4.0 (a.u.)
Figure 2.3.C [AHL]=15 (a.u.)




Figure 4

Step.2 >> Step.3