Mathematical Model
From 2007.igem.org
(Difference between revisions)
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page under construction | page under construction | ||
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+ | <math>Insert formula here | ||
+ | \begin��{eqnarray} | ||
+ | g=\frac{\alpha \times G}{N_{GFP}}\\ | ||
+ | y=\frac{\alpha \times Y}{N_{LacY}}\\ | ||
+ | x=\frac{X}{X_{0}}\\ | ||
+ | \rho=\frac{R_{T}}{R_{0}+1}\\ | ||
+ | \beta=\frac{N_{LacY} \times \tau_{x} \times B}{\alpha \times X_{0}}\\ | ||
+ | \lambda=frac{\tau_{x} \times \Lambda}{X_{0}} | ||
+ | \end{eqnarray} | ||
+ | </math> |
Revision as of 15:04, 17 July 2007
page under construction
<math>Insert formula here \begin��{eqnarray} g=\frac{\alpha \times G}{N_{GFP}}\\ y=\frac{\alpha \times Y}{N_{LacY}}\\ x=\frac{X}{X_{0}}\\ \rho=\frac{R_{T}}{R_{0}+1}\\ \beta=\frac{N_{LacY} \times \tau_{x} \times B}{\alpha \times X_{0}}\\ \lambda=frac{\tau_{x} \times \Lambda}{X_{0}} \end{eqnarray} </math>