Team:Grenoble/Modeling/Signaling
From 2012.igem.org
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Let’s begin by considering the cya gene activation by the transcription factor OmpR*. | Let’s begin by considering the cya gene activation by the transcription factor OmpR*. | ||
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- | It’s a gene activation, so the transcription rate is modelized by a hill function: | + | It’s a gene activation, so the transcription rate is usually modelized by a hill function: |
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For OmpR phosphorylation, we considered in the literature a model that takes into account the enzymatic mechanism of the Histidine Kinase EnvZ as well as the phosphotransfer and the phosphatase. | For OmpR phosphorylation, we considered in the literature a model that takes into account the enzymatic mechanism of the Histidine Kinase EnvZ as well as the phosphotransfer and the phosphatase. | ||
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- | The model we use is a phenomenological extension of the | + | The model we use is a phenomenological extension of the Goldbetegivenr-Koshland biochemical switch model.[1]</br> |
The resulting equation governs [OmpR*] temporal evolution (the square brackets denote concentration) and highlights the fact that the phosphorylation is activated by dipeptide. | The resulting equation governs [OmpR*] temporal evolution (the square brackets denote concentration) and highlights the fact that the phosphorylation is activated by dipeptide. | ||
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Revision as of 23:10, 24 September 2012
Overview
The design of signaling module is given by the figure below:ODEs
Let’s begin by considering the cya gene activation by the transcription factor OmpR*. It’s a gene activation, so the transcription rate is usually modelized by a hill function:Parameters
Here is the link to the parameters of the amplification module we sometimes refer to.References
- [1] Alejandra C.Ventura, Jacques-A. Sepulchre, Sofia D.Merajver. A Hidden Feedback in Signaling Cascades Is Revealed. PLOS Computational Biology, 2008, 4, 3, e1000041.
- [4] Michael D.Manson, Volker BlanK and Gabriele Brade. Peptide chemotaxis in E.Coli involves the Tap signal transducer and the dipeptide permease.Nature,15 May 1986,321,253-256.
- [5] Edith Gstrein-Reider and Manfred Schweiger, Institut fur Biochemie (nat. Fak.),UniversitAt Innsbruck, A-6020 Innsbruck, Austria. Regulation of adenylate cyclase in E. coli.