Team:Leicester/Modeling

From 2012.igem.org

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     <h1>Modeling</h1>
     <h1>Modeling</h1>
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     <p>If you choose to include a Modeling page, please write about your modeling adventures here. This is not necessary but it may be a nice list to include.</p>
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    <h2>What are we modeling?</h2>
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     <p>The aim of our project is to genetically modify a bacteria that can break down the polymer chains in expanded polystyrene (EPS). The result is a solution of monomer chains that can be extracted and used in the synthetic production of other useful chemicals, for instance Lactic Acid (C<sub>3</sub>H<sub>6</sub>O<sub>3</sub>). The computational model is going to be used to aid calculations predicting how much substrate (polymer chains) will be needed, how much product will be required to sustain the bacteria colony and how much product will be left over for other uses.</p>
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    <div align="center"><img src="https://static.igem.org/mediawiki/2012/b/b3/ModelingGraphic1.gif" /> </div>
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    <h2>Why are we modeling?</h2>
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    <p>By creating a computational model of a biological system, theorectical and experiemental biologists are able to predict the outcomes and behaviour of a system for a set of input paramenters. The results of the simulation can provide guidence to the success of the experiement for the tested input paramenters before undertaking physically in the lab. The model built in our project will help determine the next steps in the project, for example to attempt to change the number of enzymes produced by the bacteria or modify how the enzyme behaves. The major advantages of developing and using a model in the project are that it can save time exploring an idea that had a high probability of failure and simultaneously save resources.</p>
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<p><a href="/wiki/index.php?title=Team:Leicester/Modeling&amp;action=edit">[edit]</a></p>
<p><a href="/wiki/index.php?title=Team:Leicester/Modeling&amp;action=edit">[edit]</a></p>
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Revision as of 12:57, 24 August 2012

iGEM Leicester Test Page 2012

Modeling

What are we modeling?

The aim of our project is to genetically modify a bacteria that can break down the polymer chains in expanded polystyrene (EPS). The result is a solution of monomer chains that can be extracted and used in the synthetic production of other useful chemicals, for instance Lactic Acid (C3H6O3). The computational model is going to be used to aid calculations predicting how much substrate (polymer chains) will be needed, how much product will be required to sustain the bacteria colony and how much product will be left over for other uses.

Why are we modeling?

By creating a computational model of a biological system, theorectical and experiemental biologists are able to predict the outcomes and behaviour of a system for a set of input paramenters. The results of the simulation can provide guidence to the success of the experiement for the tested input paramenters before undertaking physically in the lab. The model built in our project will help determine the next steps in the project, for example to attempt to change the number of enzymes produced by the bacteria or modify how the enzyme behaves. The major advantages of developing and using a model in the project are that it can save time exploring an idea that had a high probability of failure and simultaneously save resources.

[edit]