Team:Aberdeen Scotland/Modeling

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(Difference between revisions)
(Our Ordinary Differential Equations)
(Our Ordinary Differential Equations)
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== Our Ordinary Differential Equations ==
== Our Ordinary Differential Equations ==
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[img[http://latex.codecogs.com/gif.latex?\frac{d%5BM1%5D}{dt} = \frac{{}\lambda _1%5BGAL%5D^{n1}}{k_{1}^{n1}+%5BGAL%5D^{n1}} - (\mu _1+T)%5BM1%5D]]
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\frac{d[M1]}{dt} = \frac{{}\lambda _1[GAL]^{n1}}{k_{1}^{n1}+[GAL]^{n1}} - (\mu _1+T)[M1]
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<math>\frac{d[M1]}{dt} = \frac{{}\lambda _1[GAL]^{n1}}{k_{1}^{n1}+[GAL]^{n1}} - (\mu _1+T)[M1]</math>

Revision as of 11:55, 16 July 2010

A MATLAB program has been compiled that describes how the concentrations of DNA, mRNA and Proteins respond to different experimental parameters. Much more to follow.

Our Ordinary Differential Equations

\frac{d[M1]}{dt} = \frac{{}\lambda _1[GAL]^{n1}}{k_{1}^{n1}+[GAL]^{n1}} - (\mu _1+T)[M1]

<math>\frac{d[M1]}{dt} = \frac{{}\lambda _1[GAL]^{n1}}{k_{1}^{n1}+[GAL]^{n1}} - (\mu _1+T)[M1]</math>