Team:UCSF/ToxModeling
From 2012.igem.org
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- | + | <h3orange>Modeling of the Toxin-antitoxin System</h3orange> <p> | |
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+ | <regulartext>**A summary of our modeling work for the toxin system is shown on this page and a detailed analysis can be downloaded <a href="https://dl.dropbox.com/u/24404809/iGEM%202012/igem%202012%20website%20photos/Modeling/Modeling%20of%20the%20toxin-antitoxin%20system_by%20XI%2CJingyi.pdf"> HERE</a> <br> | ||
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<regulartext> Our project aims to build up a toxin-antitoxin system of two strains of E.coli cells to realize the control on population ratio. As indicated in the former part of our modeling work, the auxotroph system is robust, but it might fail when the maximum growth rates are not suitable. What’s worse is that the maximum growth rates are difficult to change. So we seek to find another approach to tune the population ratio. | <regulartext> Our project aims to build up a toxin-antitoxin system of two strains of E.coli cells to realize the control on population ratio. As indicated in the former part of our modeling work, the auxotroph system is robust, but it might fail when the maximum growth rates are not suitable. What’s worse is that the maximum growth rates are difficult to change. So we seek to find another approach to tune the population ratio. | ||
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We build up a model for toxin-antitoxin system, which could be described using the ODEs below: | We build up a model for toxin-antitoxin system, which could be described using the ODEs below: | ||
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- | Explanation of the ODEs: <br><p><regulartext> | + | <br> |
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+ | Explanation of the ODEs: <br><p></h2> | ||
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1) Equation (1) describes the net growing of strain 1. The first item is the growing item, which is proportional to the density of the same strain of cells, while the second item is the rate at which cells are killed by toxin. To be reasonable, the killing caused by toxin must reach saturation when the density of toxin is big enough, so we chose a hill function other than a linear function. Equation (2) describes the net growing of strain 2, because the two strains are designed symmetrically, this equation has the familiar form with Equation (1). | 1) Equation (1) describes the net growing of strain 1. The first item is the growing item, which is proportional to the density of the same strain of cells, while the second item is the rate at which cells are killed by toxin. To be reasonable, the killing caused by toxin must reach saturation when the density of toxin is big enough, so we chose a hill function other than a linear function. Equation (2) describes the net growing of strain 2, because the two strains are designed symmetrically, this equation has the familiar form with Equation (1). |
Latest revision as of 22:36, 3 October 2012
Explanation of the ODEs: