Team:Uppsala/modeling

From 2013.igem.org

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<h1 class="main-title">Modeling</h1>
<h1 class="main-title">Modeling</h1>
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<div class="modeling_main_text_box2">
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In the beginning of the project we asked ourselves what we wanted from a modelling project. After some contemplation, we arrived at the decision of making two models of quite different nature.
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When we first set out to create this year's modelling contibution, we asked ourselves what we wanted from our project. None of us had much experience in the ways of modelling biological systems, so the first objective was to find inspiration for the project at hand. Naturally, the first place to look was the wikis of the teams that came before us. We wanted to see what other teams had accomplished, what they had brought to the table and perhaps what we thought could be improved in their modeling projects. After much searching, and more than a little contemplation, we arrived at the decision of making two different models, with two quite different goals.
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<h1>Mathematical modeling of p-coumaric acid pathway</h1>
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<h1>Goal number one: Applicability</h1>
<div class="modeling_main_text_box"><a href="https://2013.igem.org/Team:Uppsala/P-Coumaric-acid-pathway" style="display:block;height:100%;width:100%">
<div class="modeling_main_text_box"><a href="https://2013.igem.org/Team:Uppsala/P-Coumaric-acid-pathway" style="display:block;height:100%;width:100%">
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The goal of the first model was to create a means of making practical predictions about the systems we were about to create, and thus make better design decisions in order to achieve an optimal metabolite yield. This required a more sophisticated model that took into concideration all the complex parameters influencing a biological system. In the end, we managed to arrive to a model that did just that for the metabolic pathway producing p-Coumeric acid.
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The goal of the first model was to create practical predictions about the systems we were about to create, and thus make better design decisions in order to achieve an optimal metabolite yield. This required a more sophisticated model that took into concideration all the complex parameters influencing a biological system. In the end, we managed to arrive to a model that did just that for the metabolic pathway producing p-Coumaric acid.
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<h1>Modeling for Dummies</h1>
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<h1>Goal number two: Accessability</h1>
<div class="modeling_main_text_box"><a href="https://2013.igem.org/Team:Uppsala/modeling-tutorial" style="display:block;height:100%;width:100%">
<div class="modeling_main_text_box"><a href="https://2013.igem.org/Team:Uppsala/modeling-tutorial" style="display:block;height:100%;width:100%">
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Our second goal with this year’s modelling project was to provide a more easy-to-access model aimed mainly at future iGEM teams. We found that while there are many excellent modelling contributions from earlier teams out there, the level of understanding required to take advantage of the information provided is quite high. Seeing as iGEM is an undergraduate competition, and not everyone participating have the requisite experience with systems like MATLAB, we figured that providing a comprehensive tutorial coupled with a simple model made within the bounds of a user-friendly interface would be a good contribution to this year’s modelling project. <br><br>
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Our second goal with this year’s modelling project was to provide a more easy-to-access model aimed mainly to future iGEM teams. We found that while there are many excellent modeling contributions from earlier teams out there, the level of understanding required to take advantage of the information provided is quite high. Seeing as iGEM is an undergraduate competition, and not everyone participating have the requisite experience with systems like MATLAB, we figured that providing a comprehensive tutorial coupled with a simple model made within the bounds of a user-friendly interface would be a good contribution to this year’s modeling project. <br><br>
  >Typ fig. 11 i tutorial<
  >Typ fig. 11 i tutorial<

Revision as of 19:11, 1 October 2013

Modeling

When we first set out to create this year's modelling contibution, we asked ourselves what we wanted from our project. None of us had much experience in the ways of modelling biological systems, so the first objective was to find inspiration for the project at hand. Naturally, the first place to look was the wikis of the teams that came before us. We wanted to see what other teams had accomplished, what they had brought to the table and perhaps what we thought could be improved in their modeling projects. After much searching, and more than a little contemplation, we arrived at the decision of making two different models, with two quite different goals.


Goal number one: Applicability



Goal number two: Accessability