Team:Warwick/Modelling6
There was an inherent issue with a previous model in that the structure of the created shape would change as cells grew. We needed to model how they would grow and how the placement of the cells in the start would affect growth.
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The equation to the left is the simplest model possible to model cell growth and just displays an exponential increase in cells with respect to time. This is a bad model because E.coli has an upper limit to the number of cells that can survive in a given location before they begin to fight for the same resources and some will die.
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The graph to the left of the image shows the population of cells as a function of time under the first model and the second shows the Gompertz model. As you can see there is a drop off on the second model.
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Our idea of forcing different cell types to live together in close vicinity will alter this model however. Taking for example forcing 3 cell types together;
A higher concentration of cell type A could lead to a reduction in cell type B, or an increase in B could increase C.
It is important for cells to have a starting point where they are all stuck together instead of just 3 different cell types being put into a solution and let grow until they come together, as the point of the test is to see how cells grow when they are together with different cell types, and to see if it is possible to control the overall concentrations of the cell types by just changing the arrangement of the original cell cluster.
Because we plan to be able to use any cell types for any of the colonies it is important to come up with a model which can explain the cell growth of all 3 cell types over a period of time.
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This graph shows how A grows depending on the affect constants which are displayed at the bottom of the graph. As you can see a negative affect constant decreases cell growth exponentially and a positive affect constant has the opposite effect.