Team:Northwestern/Project/Modeling
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- | Using simple enzyme kinetics equations, | + | Using simple enzyme kinetics equations, we elected to mathematically simulate the following model: |
[[Image:SuperModeling.jpg|500px|center]] | [[Image:SuperModeling.jpg|500px|center]] | ||
+ | |||
+ | add kkkkkkkk | ||
+ | |||
+ | Matlab was used to generate a theoretical model where IPTG would diffuse down the biofilm as according to Fick's Law of Diffusion. | ||
+ | |||
+ | The extracellular substrate concentration was assumed to be much greater than the uptake/use, and so would diffuse in at a constant rate. | ||
+ | |||
+ | This model was fitted with empirical data using cp-lacpi-gfp to estimate the effect of varying cp, lacpi, and rbs on enzyme and final product production. |
Revision as of 22:46, 16 October 2010
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Using simple enzyme kinetics equations, we elected to mathematically simulate the following model:
add kkkkkkkk
Matlab was used to generate a theoretical model where IPTG would diffuse down the biofilm as according to Fick's Law of Diffusion.
The extracellular substrate concentration was assumed to be much greater than the uptake/use, and so would diffuse in at a constant rate.
This model was fitted with empirical data using cp-lacpi-gfp to estimate the effect of varying cp, lacpi, and rbs on enzyme and final product production.