Team:Carnegie Mellon/Modeling
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- | <p> We developed two models, each of which characterizes our experimental system on a different scale. The intracellular model uses chemical kinetics to model transcription and translation of the KillerRed gene, maturation of KillerRed, and the photochemistry of superoxide radical production. | + | <p> We developed two models, each of which characterizes our experimental system on a different scale. The <a href="https://2013.igem.org/Team:Carnegie_Mellon/KRModel">intracellular model</a> uses chemical kinetics to model transcription and translation of the KillerRed gene, maturation of KillerRed, and the photochemistry of superoxide radical production. |
- | The | + | The <a href="https://2013.igem.org/Team:Carnegie_Mellon/HostPhageDynamics">host-phage dynamics model</a> examines the external interactions between <i>E. coli</i> and $\lambda$ and characterizes the effect of KillerRed (or control mRFP) on the system. |
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Latest revision as of 20:41, 27 September 2013
Modeling
We developed two models, each of which characterizes our experimental system on a different scale. The intracellular model uses chemical kinetics to model transcription and translation of the KillerRed gene, maturation of KillerRed, and the photochemistry of superoxide radical production. The host-phage dynamics model examines the external interactions between E. coli and $\lambda$ and characterizes the effect of KillerRed (or control mRFP) on the system.