Team:LCG-UNAM-Mexico/Modelling
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(→Multi-Scale stochastic model for a defense system against Bacteriophage Infection.) |
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==''Summary : Modelling the Defense System''== | ==''Summary : Modelling the Defense System''== | ||
- | [[Image:Modelling_Diagram.png|450px|thumb|right]] | + | [[Image:Modelling_Diagram.png|450px|thumb|right|'''Logic diagram of our multi-scale model''']] |
Bacteriophage infection is a complicated process, once the virus has infected it steals the translation machinery of its host. Bacterium ribosomes synthesize virus proteins and virus assembly takes place. Beyond a phage and time threshold bacterium can’t take it anymore and explodes setting free the newly synthesized bacteriophages. | Bacteriophage infection is a complicated process, once the virus has infected it steals the translation machinery of its host. Bacterium ribosomes synthesize virus proteins and virus assembly takes place. Beyond a phage and time threshold bacterium can’t take it anymore and explodes setting free the newly synthesized bacteriophages. | ||
Let’s take a look at the big picture: biochemical reactions taking place inside infected bacterium, new synthesized phage for each infected bacterium, other bacteria get infected, infection propagation. We need to approach this problem in a multi-scale fashion: molecular scale and population scale. | Let’s take a look at the big picture: biochemical reactions taking place inside infected bacterium, new synthesized phage for each infected bacterium, other bacteria get infected, infection propagation. We need to approach this problem in a multi-scale fashion: molecular scale and population scale. |
Revision as of 18:08, 21 October 2009