Team:INSA Toulouse/contenu/extras/achievements

From 2013.igem.org

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   <h2 class="title2">Foreword</h2>
   <h2 class="title2">Foreword</h2>
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   <p class="texte">For this project, our goal is and always has been the bacterial calculator. Because this project is beautiful, clever and ambitious.<br>
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   <p class="texte">Our initial project was the full realization of the <i>E. calculus</i> strain. We even thought of selling the idea to TI ;-). However, we soon realized that the full realization would probably take (a little ;-)) longer than the three months devoted to the iGEM competition. Furthermore, we are also aware that integration of many independant biological modules is always more complicated than it seems. However, a first step toward integration is the demonstration that each biological module works individually as expected. We would then have good arguments in support of the <b>feasibility</b> of the whole project.
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However, we knew it was impossible to complete in time. However, we could show that the project was feasible. For this, we focused on the characterization of the different parts of the project separately.<br>
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Showing that each part works individually, we have collected good arguements to support the feasibility of the project.</p>
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  Our secondary goal was therefore to demonstrate the validity of our modules design. We then reorientated our experiments toward the characterisation of the different modules. Each module thus can be used independently by other iGEM teams because the submitted parts were designed without the output genes. Most intermediate molecular biology constructions are also deposited in the registry to facilitate the redesign of the modules. The results we have obtained are very promising and we hope that the modules we have constructed and characterized will have a long life in other worldwide iGEM teams, way after our 2013 project.  
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  Interdisciplinarity is a pillar in Synthetic Biology. iGEM projects aim at modeling the biological reactions that were designed to promote a full integration of wet and dry lab experiments. Modeling the entire <i>E. calculus</i> system did not seem either feasible or even conceivable. We the focussed on only part of the project. In our whole <i> E. calculus</i> design, the diffusion of the carry was critical to implement the bacterial full adder. We then considered that modelling the diffusion of the carry molecule (AHL) was essential to fully support the feasibility of the design. Our results will provide interesting concepts that we hope will serve for similar design where diffusion of small molecules are necessary to achieve specific biological functions.
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   <p class="texte">A faire : Expliquer le projet = calculateur on a a choisit de le décomposer en modules et de les caractériser un à un. Ainsi chaque module peut etre utilisé indépendamment dans d'autres projects. voici comment on été pensé chaque module, courte phrase avec lien vers le spages biological modules puis le projet en global lien vers la page e.calculus design et enfin voici ce qu'on a réussi à faire lien vers la page results. On s'est aussi intérressé a la partie éthique on a eu des réfléxions ethiques sur la bio de synthèse sur igem et sur le project. Voici où on ets est actuellement et pourquoi on vise une médaille d'or avec le tableau récapitulatif...</p>
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<a href="https://2013.igem.org/Team:INSA_Toulouse/contenu/lab_practice/results">Results</a>
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Revision as of 19:43, 3 October 2013

logo


Achievements

Foreword

Our initial project was the full realization of the E. calculus strain. We even thought of selling the idea to TI ;-). However, we soon realized that the full realization would probably take (a little ;-)) longer than the three months devoted to the iGEM competition. Furthermore, we are also aware that integration of many independant biological modules is always more complicated than it seems. However, a first step toward integration is the demonstration that each biological module works individually as expected. We would then have good arguments in support of the feasibility of the whole project.
Our secondary goal was therefore to demonstrate the validity of our modules design. We then reorientated our experiments toward the characterisation of the different modules. Each module thus can be used independently by other iGEM teams because the submitted parts were designed without the output genes. Most intermediate molecular biology constructions are also deposited in the registry to facilitate the redesign of the modules. The results we have obtained are very promising and we hope that the modules we have constructed and characterized will have a long life in other worldwide iGEM teams, way after our 2013 project.
Interdisciplinarity is a pillar in Synthetic Biology. iGEM projects aim at modeling the biological reactions that were designed to promote a full integration of wet and dry lab experiments. Modeling the entire E. calculus system did not seem either feasible or even conceivable. We the focussed on only part of the project. In our whole E. calculus design, the diffusion of the carry was critical to implement the bacterial full adder. We then considered that modelling the diffusion of the carry molecule (AHL) was essential to fully support the feasibility of the design. Our results will provide interesting concepts that we hope will serve for similar design where diffusion of small molecules are necessary to achieve specific biological functions.

Medals fulfillment


Bronze Medal


Silver Medal


Gold Medal

1. Team registration Experimentally validate that at least one new BioBrick Part or Device of your own design and construction works as expected. Improve the function of an existing BioBrick Part or Device (created by another team or your own institution in a previous year), enter this information in the Registry
Complete Judging form Document the characterization of this part in the 'Main Page' of that Part's/Device's Registry entry Submit this new part to the iGEM Parts Registry (submissions must adhere to the iGEM Registry guidelines) Help any registered iGEM team from another school or institution by, for example, characterizing a part, debugging a construct, or modeling or simulating their system
Team Wiki Submit this new part to the iGEM Parts Registry (submissions must adhere to the iGEM Registry guidelines) Your project may have implications for the environment, security, safety and ethics and/or ownership and sharing. Describe a novel approach that your team has used to help you and others consider these aspects of the design and outcomes of synthetic biology efforts.
Present a poster and a talk at the iGEM Jamboree Your project may have implications for the environment, security, safety and ethics and/or ownership and sharing. Describe one or more ways in which these or other broader implications have been taken into consideration in the design and execution of your project
Document at least one new standard BioBrick Part or Device used in your project/central to your project and submit this part to the iGEM Registry

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