Team:ETH Zurich/modeling/qs

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(Difference between revisions)
(Assumptions)
(Assumptions)
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$$\frac{d[DRLux]}{dt} = k_{DRLux} [RLux]^2 - k_{-DRLux} [DRLux] - d_{DRLux} [DRLux] \approx 0\\$$
$$\frac{d[DRLux]}{dt} = k_{DRLux} [RLux]^2 - k_{-DRLux} [DRLux] - d_{DRLux} [DRLux] \approx 0\\$$
$$\frac{d[P_{LuxON}]}{dt} = k_{P_{LuxON}} [P_{LuxOFF}][DRLux] - k_{-P_{LuxON}} [P_{LuxON}] \approx 0\\$$
$$\frac{d[P_{LuxON}]}{dt} = k_{P_{LuxON}} [P_{LuxOFF}][DRLux] - k_{-P_{LuxON}} [P_{LuxON}] \approx 0\\$$
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Solving, we get the rate of production of mRNA<sub>Bxb1</sub> as
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$$\frac{d[mRNA_{Bxb1}]}{dt} &= L_{P_{Lux}} + \frac{K_{mRNA_{Bxb1}}RLux^2}{RLux^2 + K_{mLux}}- k_{-P_{LuxON}} [P_{LuxON}]\\$$
=== Parameter fitting ===
=== Parameter fitting ===

Revision as of 11:21, 12 October 2014

iGEM ETH Zurich 2014