Team:UT Dallas/HumanPractices

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<span class="title_spans">Human Practices</span><br><br>
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<span id="abs-title">Animal Practices</span>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Animal practices are quite varied. Applying and testing the effectiveness of the engineered bacteria on a variety of animals using a slew of different delivery methods (mostly food) would be the first step. Current possible animals include dogs, horses and cows.<br><br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Until successful results from animal applications no plans for human practices will exist. With further testing there is a possibility for implementation of bacteria in yogurt or other oral solutions.<br><br>
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<b>Outreach:</b> <br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;That being said current plans for animal practices are quite varied. First seeing what animals this could be applied to is important, followed by finding which of those have cavity issues that need solving. Lastly applying and testing the effectiveness of the bacteria on a variety of animals using a slew of different delivery methods would inform us on what to change and improve and what consumables if any need to be avoided. Current possible animals include dogs, horses and cows. <br><br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;We chose to look into the ethical considerations that are at the forefront of synthetic biology. With this in mind, we will be visiting a local high school to present our results and discuss the ethical issues involved in the field of synthetic biology. We will conduct a discussion (please click the picture below) and present the results during the Jamboree. <br>
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<b><font size=3><blockquote>How we Made a Difference:<br></font></b>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;We chose to tackle the issue of Human Practices by looking into the ethical considerations that are at the forefront of synthetic biology. The debates over the ethics of upcoming, especially bioengineered, technologies include discussions based around the physical harms as well as the framework of these devices. The DNA-based device construction that is implemented in the iGEM competition is especially concerned with the design and ethics of every biobrick created. The registry is filled with countless parts that are available on an open-source basis for researchers and iGEM teams worldwide. <br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;With this in mind, we decided to visit a local High School to present on the ethics involved in the field of synthetic biology research while discussing real-world applications of  technologies such as Genetically Modified Organisms, biosensors, and other important nanotechnology applications.<br></b>
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<b>Safety Video</b><br>
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We have also created this video to discuss issues of safety and ethics involved in our project.<br><br>
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In today's instant gratification society, we created the safety video that was both entertaining and informative in order to keep people's attention. Because we are targeting animals, we also took a new and different approach by considering the animal's rights in this matter. <br><br>
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<b>Collaboration:</b><br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;We have created a Vine for University of British Columbia. Their goal was to compile all iGEM projects in order to create a quick way to view the 200 teams that are competing in iGEM this year. This six second video shows the Streptococcus mutans bacteria attached to the surface of a tooth. The Escherichia coli is moving in with our synthetically engineered biobricks which causes the S. mutans biofilm to break apart. Please click <a href="https://vine.co/v/h6eLET06qnr">here</a> to view our video.
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Latest revision as of 00:41, 16 October 2013

Animal Practices


     Animal practices are quite varied. Applying and testing the effectiveness of the engineered bacteria on a variety of animals using a slew of different delivery methods (mostly food) would be the first step. Current possible animals include dogs, horses and cows.

Outreach:
     We chose to look into the ethical considerations that are at the forefront of synthetic biology. With this in mind, we will be visiting a local high school to present our results and discuss the ethical issues involved in the field of synthetic biology. We will conduct a discussion (please click the picture below) and present the results during the Jamboree.



Safety Video
We have also created this video to discuss issues of safety and ethics involved in our project.

In today's instant gratification society, we created the safety video that was both entertaining and informative in order to keep people's attention. Because we are targeting animals, we also took a new and different approach by considering the animal's rights in this matter.

Collaboration:
     We have created a Vine for University of British Columbia. Their goal was to compile all iGEM projects in order to create a quick way to view the 200 teams that are competing in iGEM this year. This six second video shows the Streptococcus mutans bacteria attached to the surface of a tooth. The Escherichia coli is moving in with our synthetically engineered biobricks which causes the S. mutans biofilm to break apart. Please click here to view our video.