Team:LCG-UNAM-Mexico:WTM
From 2009.igem.org
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<br>Both processes are modeled using mass action kinetics as well. This last step requires complete procapsids, T7 DNA, and enough of each structural protein to complete the phage. The simulation assumes that packaging of DNA into the procapsid is the rate-limiting step for T7 progeny formation. | <br>Both processes are modeled using mass action kinetics as well. This last step requires complete procapsids, T7 DNA, and enough of each structural protein to complete the phage. The simulation assumes that packaging of DNA into the procapsid is the rate-limiting step for T7 progeny formation. | ||
- | * <h2>Simulation, performance and | + | * <h2>Simulation, performance and BSD construction</h2> |
<br>This is a single simulation of the performance of WTM, with this algorithm we can study the evolution and behavior of molecular species in time. | <br>This is a single simulation of the performance of WTM, with this algorithm we can study the evolution and behavior of molecular species in time. | ||
<br>For the purpose of our project we're particularly interested in the burst size an infected cell could produce in each infection process, as we said BSDs for WTM and KZM can be assembled with many runs of each model so we can compare the performance of our synthetic kamikaze system versus the wild-type at molecular and population levels. | <br>For the purpose of our project we're particularly interested in the burst size an infected cell could produce in each infection process, as we said BSDs for WTM and KZM can be assembled with many runs of each model so we can compare the performance of our synthetic kamikaze system versus the wild-type at molecular and population levels. |
Revision as of 06:18, 18 October 2009