Team:UNAM-Genomics Mexico/Modeling
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<img alt="Modeling image" src="https://static.igem.org/mediawiki/igem.org/9/93/Hetor_working_400x400.jpg" title="Modeling" | <img alt="Modeling image" src="https://static.igem.org/mediawiki/igem.org/9/93/Hetor_working_400x400.jpg" title="Modeling" | ||
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<p>Inside the <a class="model" href=""><i>Phaseolus vulgaris</i></a> root nodules, <a class="model" href=""><i>Rhizobium etli</i></a> | <p>Inside the <a class="model" href=""><i>Phaseolus vulgaris</i></a> root nodules, <a class="model" href=""><i>Rhizobium etli</i></a> | ||
enjoys a protected niche. However the protection provided by the plant is given solely in exchange for the nitrous compounds | enjoys a protected niche. However the protection provided by the plant is given solely in exchange for the nitrous compounds |
Revision as of 21:47, 21 September 2011
Inside the Phaseolus vulgaris root nodules, Rhizobium etli
enjoys a protected niche. However the protection provided by the plant is given solely in exchange for the nitrous compounds
produced by the bacteria. For this it is very important to understand how hydrogen production
will affect nitrogen fixation in the bacteria. That is the question we aim to answer with our
modeling efforts.
Flux Balance Analysis
R. elti's metabolism inside the nodule is fairly constant. This homeostatic state is one of the assumptions done when modeling metabolism with Flux Balance Analysis. We have deffined three main metabolic compartments: cytosol, periplasm and extracellular compartment.
Cellular Automaton
To asses how individual bacterium interact with each other we'll use cellular automaton based models.
Game Theory
The niche adecuation is our final goal. To model it we'll use the prize and penalization perspective of the game theory branch of math.