Team:TU Delft-Leiden/Modeling/Landmine

From 2014.igem.org

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Our first approach was to solve a system of Ordinary Differential Equations (ODEs) resembling the transcription and translation of a gene activated by the DNT-sensitive promoter. The ODEs were derived from the following system of reactions:
Our first approach was to solve a system of Ordinary Differential Equations (ODEs) resembling the transcription and translation of a gene activated by the DNT-sensitive promoter. The ODEs were derived from the following system of reactions:
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$$ A + B \ \rightleftharpoons[k]{ko} \ C \tag{1} $$
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$$ S+\xrightleftharpoons[k_{IS}]{k_{SI}}  I \cdot E \xrightleftharpoons[k_{PI}]{k_{IP}} P+E $$
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Revision as of 19:25, 26 September 2014

Landmine Module


An important part of our iGEM project is a promoter sensitive to landmines, first described by Yagur-Kroll et al. [1]. We will use two of the promoters described in this paper, ybiJ and ybiFB2A1, in our project. Of these promoters, not much is known other than the fact that they have a DNT/TNT-dependent response curve (see figure 1). Our goal was to find a model which would be able to reproduce the response curves of both promoters.


Our first approach was to solve a system of Ordinary Differential Equations (ODEs) resembling the transcription and translation of a gene activated by the DNT-sensitive promoter. The ODEs were derived from the following system of reactions: $$ S+E \xrightleftharpoons[k_{IS}]{k_{SI}} I \cdot E \xrightleftharpoons[k_{PI}]{k_{IP}} P+E $$

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