Team:Imperial College/Genetic Circuit Details

(Difference between revisions)

Revision as of 00:02, 29 October 2008

Simple Model (1)

More Sophisticated Model(2)

Assumptions:

No intermediary P-IPTG-LacI complex is formed.

We assumed 2 LacI molecules bind to the promoter.

Kuhlman T, Zhang Z, Saier MH Jr, & Hwa T (2007) Combinatorial transcriptional control of the lactose operon of Escherichia coli. - PNAS 104 (14) 6043-6048
Alon, U (2006) An Introduction to Systems Biology: Design Principles of Biological Circuits - Chapman & Hall/Crc Mathematical and Computational Biology

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	Note from the differential equations above that the steady-state concentration of free promoter (when d[P]/dt=0) will be independent of the concentration of IPTG introduced into the system. The pre-steady-state maximum concentration of GFP attained will differ, however - this is illustrated on the [[Genetic_Circuits\|Genetic Circuits]] and can be explored further using the [[Media:insert link here\|matlab simulations]]		Note from the differential equations above that the steady-state concentration of free promoter (when d[P]/dt=0) will be independent of the concentration of IPTG introduced into the system. The pre-steady-state maximum concentration of GFP attained will differ, however - this is illustrated on the [[Genetic_Circuits\|Genetic Circuits]] and can be explored further using the [[Media:insert link here\|matlab simulations]]
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