Team:Amsterdam/achievements/stochastic model

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(Difference between revisions)
(Leaky expression rate)
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The following relationship must always be true: $[O_{\text{Total}}] = [O_{\text{Free}}] + [R_{2}O]$ with $R_{2}O$ denoting the operon bound by a dimerized repressor (as LacI, the repressor of the Lac operon, functions). $R_{2}O$ is defined as $\frac{[R_{2}][O]}{K_{d}}$. Solving for $O_\text{Free}$:
The following relationship must always be true: $[O_{\text{Total}}] = [O_{\text{Free}}] + [R_{2}O]$ with $R_{2}O$ denoting the operon bound by a dimerized repressor (as LacI, the repressor of the Lac operon, functions). $R_{2}O$ is defined as $\frac{[R_{2}][O]}{K_{d}}$. Solving for $O_\text{Free}$:
 +
\begin{align}
 +
a &= b
 +
c &= 3
 +
\end{align}
\begin{align}
\begin{align}
     [O_{\text{Free}}] & = [O_{\text{Total}}] - [R_{2}O] \\
     [O_{\text{Free}}] & = [O_{\text{Total}}] - [R_{2}O] \\
                       & = [O_{\text{Total}}] - \frac{[O][R_{2}]}{[OR]} \\
                       & = [O_{\text{Total}}] - \frac{[O][R_{2}]}{[OR]} \\
-
                       & = [O_{\text{Total}}] (1 + \frac{[R_{2}]}{K_{d}}) \\
+
                       & = [O_{\text{Total}}] (1 + \frac{[R_{2}]}{K_{d}})
\end{align}
\end{align}

Revision as of 17:32, 26 September 2012