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Team:Evry/Model/pcb model
From 2014.igem.org
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| Line 15: | Line 15: | ||
<h3> Model description </h3> | <h3> Model description </h3> | ||
| - | <!--A description of the production of fluorescent protein ( | + | <!--A description of the production of fluorescent protein (RFP)--> |
| - | According to our device, | + | According to our device, RFP production is controlled by BphR1 promoter.<br/> |
| - | This promoter is induced by the BphR2-PCB complex. <br/> | + | This promoter is induced by the BphR2-PCB complex.<br/> |
Thus our GFP production will depend on the dynamic of BphR2-PCB complex. <br/> | Thus our GFP production will depend on the dynamic of BphR2-PCB complex. <br/> | ||
We used a simple description of the GFP production. | We used a simple description of the GFP production. | ||
<!--We know that BphR1 promoter is induced by the complex BphR2-PCB. We needed to know that at <br/> --> | <!--We know that BphR1 promoter is induced by the complex BphR2-PCB. We needed to know that at <br/> --> | ||
| + | |||
| + | \begin{equation} | ||
| + | x=\sqrt{b} | ||
| + | \end{equation} | ||
<!-- At a cellular level, we designed a simple model to observe the GFP production of --> | <!-- At a cellular level, we designed a simple model to observe the GFP production of --> | ||
Revision as of 02:56, 18 October 2014
Pcb Model
PCB sensor model
Introduction
After considering the water flux and pollutant motions in our sponge, we investigated the sensing power of
our PCB construction.
We first modelled the behaviour of GFP production regarding PCB absorption to determine if our sensing strategy was viable.
Model description
According to our device, RFP production is controlled by BphR1 promoter.This promoter is induced by the BphR2-PCB complex.
Thus our GFP production will depend on the dynamic of BphR2-PCB complex.
We used a simple description of the GFP production. \begin{equation} x=\sqrt{b} \end{equation}
