Team:ETH Zurich/modeling/int

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(Difference between revisions)
(Chemical Species)
(Differential Equations)
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=== Differential Equations ===
=== Differential Equations ===
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Applying mass action kinetic laws, we obtain the following set of differential equations.
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Applying mass action kinetic laws, we obtain the following set of differential equations for Bxb1.
$$\frac{d[Bxb1]}{dt}=-2 k_{dimBxb1}[Bxb1]^2+ 2 k_{-dimBxb1}[DBxb1]-d_{Bxb1}[Bxb1]$$
$$\frac{d[Bxb1]}{dt}=-2 k_{dimBxb1}[Bxb1]^2+ 2 k_{-dimBxb1}[DBxb1]-d_{Bxb1}[Bxb1]$$
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$$\frac{d[SA_{Bxb1}]}{dt}=k_{DNABxb1}[DBxb1][SI_{Bxb1}]-k_{-DNABxb1}[SA_{Bxb1}]$$
$$\frac{d[SA_{Bxb1}]}{dt}=k_{DNABxb1}[DBxb1][SI_{Bxb1}]-k_{-DNABxb1}[SA_{Bxb1}]$$
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Remplacing every occurence of Bxb1 by ΦC31 gives the set of differential equations for ΦC31.
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Revision as of 08:32, 12 October 2014

iGEM ETH Zurich 2014