Team:UT Dallas/test4

From 2013.igem.org

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             <div style="margin-top:15px; text-align:center; font-weight: 600; font-size: 18px;">ACCOMPLISHMENTS</div>
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                <li> <a href="#"> Introduced Synthetic Biology as a tool for Astrobiology </a></li>
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                <li> <a href="#">Top 16 at iGEM World Competition </a></li>
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                <li> <a href="#">Best Natural BioBrick at Americas West Regionals </a></li>
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                <li> <a href="/Team:Stanford-Brown/HellCell/Introduction">Isolated parts that improve resistance to extreme conditions in <i>Escherichia coli</i></a></li>
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                <li> <a href="/Team:Stanford-Brown/VenusLife/Biosensing">Developed two cell-cycle dependent promoters for use as remote biosensors </a></li>
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                <li> <a href="/Team:Stanford-Brown/Biomining/Harvesting">Improved part BBa_K133038 by standardizing ligation into flagella and engineered the <i>E. coli</i> flagellum to extract metals <i>in situ</i></a></li>
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                <li> <a href="/Team:Stanford-Brown/VenusLife/Modeling">Modeled bacterial growth in the Venusian atmosphere </a></li>
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                <li> <a href="/Team:Stanford-Brown/HumanPractices/Introduction">Wrote Guides to Bioethics and Gene Patent Law </a></li>
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                <li> <a href="http://www.wired.com/wiredscience/2012/08/engineering-bacteria-for-mars/">Featured in Wired Magazine and Cal Academy of Sciences </a></li>
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                <li> <a href="http://www.facebook.com/IgemMemes">Created and maintained iGEM memes </a></li>
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Revision as of 02:07, 23 August 2013

ABSTRACT

Dental cavities have been a worldwide problem faced by many in both industrialized and underdeveloped nations. Streptococcus mutans has been determined as the primary contributor to dental plaque and cavities. S. mutans lives in the mouth and converts sucrose into lactic acid and fructose/glucose. The fructose/glucose combination forms a sticky polysaccharide called dextran. This molecule is responsible for dental plaque and creates the optimal matrix for growth of colonies on the surface of the teeth. The goal of the 2013 University of Texas at Dallas IGEM team is to control the population of S. mutans in the mouth and prevent cavity formation using genetically engineered E. coli. Our group has completed the preliminary steps of placing a set of genes into biobricks. Our techniques for cavity prevention will provide a novel way to selectively destroy the harmful bacteria. We hope that this could be applied as a method for cavity prevention first in animals and eventually in humans.

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