Team:RHIT/Modeling
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- | <p>For the team’s mathematical modeling section, two differential models of the system were created: a case with one or more independent binding sites and a case that exhibits | + | <p>For the team’s mathematical modeling section, two differential models of the system were created: a case with one or more independent binding sites and a case that exhibits cooperativity with various binding sites. Both of these systems of equations are shown below. The behavior of the steady-state solutions of the system of equations were analyzed using algebraic and graphical methods. This analysis provided insight into the possible results from this kind of system.</p><br /> |
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- | <div align="center">< | + | <div align="center"><h4>Figure 1. Circuit diagram.</h4></div> |
- | <div align="center">< | + | <div align="center"><h4>Figure 2. Independent binding sites.</h4></div> |
- | <div align="center">< | + | <div align="center"><h4>Figure 3. Perfect cooperativity.</h4></div> |
- | <p>The figures below illustrate the three possible solutions predicted by the mathematical model. The | + | <p>During the analysis of these systems, the value of S became an area of interest. In order to determine the nature of this function, the biological system from which the S is derived was studied. In order to study this system, a paper written by Kofahl and Klipp’s titled <i>Modeling the dynamics of the yeast pheromone pathway</i> was analyzed. There were two methods employed to analyze this model: the deterministic model and a stochastic model. The deterministic model detailed in the paper was recreated and the level of activated Ste12 was measured as a function of the amount of mating factor. The stochastic model was created by the NTNU team. Using Mohan, Shahrezaei, et. al.’s paper <i>The scaffold protein Ste5 directly controls a switch-like mating decision in yeast</i>, the Norwegian team made a direct correlation between the activation of Fus3 and the amount of mating factor, and measured activated Ste12 activity as a function of Fus3 activation. The results of these models indicated that for a given amount of mating factor, a constant level of Ste12 is produced. The diagrams of these models are shown below:</p><br /> |
- | + | <div align="center"><h4>Figure 4. Steady state response diagrams.</h4></div> | |
- | <p> While it is not yet possible to verify which, if any, accurately represents the actual system, the created models predict possible scenarios that would allow for the success of the project. Furthermore, the model predicts that the success of this project is dependent solely on the | + | <p>The figures below illustrate the three possible solutions predicted by the mathematical model. The x-axis is a measure of the external mating pheromone concentration, and the y-axis represents the amount of protein. The first illustration depicts a system where once the signal passes a particular threshold the circuit is turned on and will continue to produce protein. The second depicts a system where there is a particular threshold of mating pheromone required to bring about a stable level of protein; if the signal falls below this level, the protein production is transient and returns to zero. The third depicts a system in which there is no discontinuity in protein production, and signal is required for all protein production.</p> |
+ | <div align="center"><h4>Figure 5. Bifurcation diagrams.</h4></div> | ||
+ | <p>While it is not yet possible to verify which, if any, accurately represents the actual system, the created models predict possible scenarios that would allow for the success of the project. Furthermore, the model predicts that the success of this project is dependent solely on the values of the parameters; specifically, the decay terms must be less than the production terms of the system. The results of the model make good biological and intuitive sense. In order for the project to be successful, either the first or second depictions must hold true. The analysis, derivation, future work, and all the work leading to these conclusions are listed below in the named sections.</p> | ||
+ | <p>For an in depth look at the work and analysis that went into developing the mathematical model for this system download the following pdf, [LINK PDF HERE].</p> | ||
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Revision as of 01:47, 2 October 2012