Difference between revisions of "Team:UPO-Sevilla"
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| − | <div class=" | + | <h1 style="fond-size_600%;color:#0101DF;background-color:#F4FA58;text-align:center">UPO-Sevilla Team</h1> |
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| + | <img style="widht:5%;float:middle;"src="https://static.igem.org/mediawiki/2016/thumb/e/eb/Grupo_con_la_caja.jpeg/800px-Grupo_con_la_caja.jpeg"> | ||
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<h2> Welcome to iGEM 2016! </h2> | <h2> Welcome to iGEM 2016! </h2> | ||
<p>Your team has been approved and you are ready to start the iGEM season! </p> | <p>Your team has been approved and you are ready to start the iGEM season! </p> | ||
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<p>While you may not win Best Wiki with this styling, your team is still eligible for all other awards. This default wiki meets the requirements, it improves navigability and ease of use for visitors, and you should not feel it is necessary to style beyond what has been provided.</p> | <p>While you may not win Best Wiki with this styling, your team is still eligible for all other awards. This default wiki meets the requirements, it improves navigability and ease of use for visitors, and you should not feel it is necessary to style beyond what has been provided.</p> | ||
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<div class="highlight"> | <div class="highlight"> | ||
<h5> Description of our project </h5> | <h5> Description of our project </h5> | ||
| − | <p>Bacteria are an amazing field to work on. They can develop a wide variety of functionalities and properties in a very short time, being easy to work with and extremely versatile. On this basis, we wanted to take advantage of one of the most remarkable characteristics of the bacteria we were working with, Pseudomonas putida – the ability to form biofilms. These structures are composed of communities of bacteria that find themselves integrated in an extracellular polysaccharide-made matrix that protects them from several kind of stress. In addition, they have an increased metabolism, a feature that is often required in industrial production. </p> | + | <p style="text-align:justify">Bacteria are an amazing field to work on. They can develop a wide variety of functionalities and properties in a very short time, being easy to work with and extremely versatile. On this basis, we wanted to take advantage of one of the most remarkable characteristics of the bacteria we were working with, Pseudomonas putida – the ability to form biofilms. These structures are composed of communities of bacteria that find themselves integrated in an extracellular polysaccharide-made matrix that protects them from several kind of stress. In addition, they have an increased metabolism, a feature that is often required in industrial production. </p> |
| − | <p>Therefore, we thought that it would be a good application to try and do some bioremediation with these well-protected high-metabolic bacteria. In first place, we thought about glyphosate, an herbicide that has been demonstrated to be toxic to human. But due to technical difficulties, we could not continue with that idea. Instead, we looked for another substance that was an environmental problem, and found out about glycerol. It is being overproduced in the biofuel industry, and it is starting to become an environmental problem. So we started to model how our bacteria would eat that glycerol, and developed an attack strategy to combine that with biofilm. But what could we do with our grown bacteria? We decided that there could be a product we could produce with these biological reactors, and this product was propionate. It is widely used in a large variety of fields, easy to excrete from our bacteria and, according to the model, easy to produce. Let’s get started, don’t we?</p> | + | <p style="text-align:justify">Therefore, we thought that it would be a good application to try and do some bioremediation with these well-protected high-metabolic bacteria. In first place, we thought about glyphosate, an herbicide that has been demonstrated to be toxic to human. But due to technical difficulties, we could not continue with that idea. Instead, we looked for another substance that was an environmental problem, and found out about glycerol. It is being overproduced in the biofuel industry, and it is starting to become an environmental problem. So we started to model how our bacteria would eat that glycerol, and developed an attack strategy to combine that with biofilm. But what could we do with our grown bacteria? We decided that there could be a product we could produce with these biological reactors, and this product was propionate. It is widely used in a large variety of fields, easy to excrete from our bacteria and, according to the model, easy to produce. Let’s get started, don’t we?</p> |
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<h5> Wiki template information </h5> | <h5> Wiki template information </h5> | ||
<p>We have created these wiki template pages to help you get started and to help you think about how your team will be evaluated. You can find a list of all the pages tied to awards here at the <a href="https://2016.igem.org/Judging/Pages_for_Awards/Instructions">Pages for awards</a> link. You must edit these pages to be evaluated for medals and awards, but ultimately the design, layout, style and all other elements of your team wiki is up to you!</p> | <p>We have created these wiki template pages to help you get started and to help you think about how your team will be evaluated. You can find a list of all the pages tied to awards here at the <a href="https://2016.igem.org/Judging/Pages_for_Awards/Instructions">Pages for awards</a> link. You must edit these pages to be evaluated for medals and awards, but ultimately the design, layout, style and all other elements of your team wiki is up to you!</p> | ||
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Revision as of 10:04, 2 July 2016
UPO-Sevilla Team
Description of our project
Bacteria are an amazing field to work on. They can develop a wide variety of functionalities and properties in a very short time, being easy to work with and extremely versatile. On this basis, we wanted to take advantage of one of the most remarkable characteristics of the bacteria we were working with, Pseudomonas putida – the ability to form biofilms. These structures are composed of communities of bacteria that find themselves integrated in an extracellular polysaccharide-made matrix that protects them from several kind of stress. In addition, they have an increased metabolism, a feature that is often required in industrial production.
Therefore, we thought that it would be a good application to try and do some bioremediation with these well-protected high-metabolic bacteria. In first place, we thought about glyphosate, an herbicide that has been demonstrated to be toxic to human. But due to technical difficulties, we could not continue with that idea. Instead, we looked for another substance that was an environmental problem, and found out about glycerol. It is being overproduced in the biofuel industry, and it is starting to become an environmental problem. So we started to model how our bacteria would eat that glycerol, and developed an attack strategy to combine that with biofilm. But what could we do with our grown bacteria? We decided that there could be a product we could produce with these biological reactors, and this product was propionate. It is widely used in a large variety of fields, easy to excrete from our bacteria and, according to the model, easy to produce. Let’s get started, don’t we?
