Difference between revisions of "Team:RHIT/MetabolismModel"
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Metabolism Model | Metabolism Model | ||
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<p>The FBA model allows us to run quick simulations on the growth of the E. coli on various environmental conditions. Below is a specific simulation with just FBA, assuming the E. coli was growing in aerobic conditions on various carbon sources, all at the maximum flux of -10 mM/(gram of DW * hr). </p> | <p>The FBA model allows us to run quick simulations on the growth of the E. coli on various environmental conditions. Below is a specific simulation with just FBA, assuming the E. coli was growing in aerobic conditions on various carbon sources, all at the maximum flux of -10 mM/(gram of DW * hr). </p> | ||
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<p>Theoretical ATP Production of E.coli (1366 model) Growing on Different Media | <p>Theoretical ATP Production of E.coli (1366 model) Growing on Different Media | ||
The yield was predicted through maximizing the fluxes of reactions ATP synthase (with 4 protons per ATP) and both polyphosphate kinases. </p> | The yield was predicted through maximizing the fluxes of reactions ATP synthase (with 4 protons per ATP) and both polyphosphate kinases. </p> | ||
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Revision as of 15:09, 6 July 2018
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Metabolism Model
The FBA model allows us to run quick simulations on the growth of the E. coli on various environmental conditions. Below is a specific simulation with just FBA, assuming the E. coli was growing in aerobic conditions on various carbon sources, all at the maximum flux of -10 mM/(gram of DW * hr).
Theoretical ATP Production of E.coli (1366 model) Growing on Different Media The yield was predicted through maximizing the fluxes of reactions ATP synthase (with 4 protons per ATP) and both polyphosphate kinases.
