Difference between revisions of "Human Practices/Examples"
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| − | <a href="https://2016.igem.org/Team:BroadRun-Baltimore"><h3> BroadRun-Baltimore </h3> </a> | + | <a href="https://2016.igem.org/Team:BroadRun-Baltimore"><h3> BroadRun-Baltimore 2016 </h3> </a> |
| + | <h4> Best Integrated Human Practices, High_school </h4> | ||
<p>BroadRun-Baltimore developed a genetically modified yeast strain that can digest starch, the precursor of butyric acid waste in ceiling tile manufacturing. The team opened a dialogue with a ceiling tile manufacturer as an industry partner to better understand the workflow of tile production and wastewater management. The team were then able to assess where their genetically modified yeast strain could be deployed to reduce starch levels as a sustainable solution in a manufacturing process. | <p>BroadRun-Baltimore developed a genetically modified yeast strain that can digest starch, the precursor of butyric acid waste in ceiling tile manufacturing. The team opened a dialogue with a ceiling tile manufacturer as an industry partner to better understand the workflow of tile production and wastewater management. The team were then able to assess where their genetically modified yeast strain could be deployed to reduce starch levels as a sustainable solution in a manufacturing process. | ||
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| + | <img src="https://static.igem.org/mediawiki/2017/5/5b/Hsitaiwan_hp.jpg"> | ||
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| + | <a href="https://2016.igem.org/Team:HSiTAIWAN"><h3>HSiTaiwan 2016</h3> </a> | ||
| + | <h4> Nominated for Best Integrated Human Practices, High_school </h4> | ||
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| + | The Herb Tasters were interested in developing a biosensor to detect the presence of toxins in traditional Chinese medicines. By using national health interview surveys and interactions with government regulators and manufacturers of Chinese medicine, the team gained a better understanding of the current management of toxins and the actual need for and challenges to toxin detection solutions. | ||
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| + | <img src="https://static.igem.org/mediawiki/2017/8/88/Metu_hs_ankara.jpg"> | ||
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| + | <a href="https://2016.igem.org/Team:METU_HS_Ankara"><h3>METU HS Ankara 2016</h3> </a> | ||
| + | <h4> Nominated for Best Education & Public Engagement, High_school </h4> | ||
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| + | METU HS Ankara sought to modify an E. coli strain to bind selectively to colon cancer cells and induce cell death through the production of a natural colon metabolite. The team organized a running day for colon cancer, as well as educational events to increase knowledge about colon cancer at their local schools. One thing led to another, and they were also able to spread this educational information through radio interviews and TV broadcasts in their local area. | ||
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| + | <img src="https://static.igem.org/mediawiki/2017/5/5b/Ols_canmore.jpg"> | ||
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| + | <a href="https://2016.igem.org/Team:OLS_Canmore"><h3>OLS Canmore 2016</h3> </a> | ||
| + | <h4> Nominated for Best Integrated Human Practices, High_school, Nominated for Best Education & Public Engagement, High_school </h4> | ||
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| + | OLS Canmore devised a system capable of breaking down and repurposing keratin from hair and feathers that make its way into waste and sewage systems. Their project and design was inspired by communication with nearby wastewater treatment plants, who helped them weigh their options between designing a separable enzyme to treat the water or developing a bioreactor. The team was able to also discuss with fertilizer companies how the byproducts might be repurposed for fertilizer and animal feed, and how they might be able to implement and market a system that would be usable by wastewater treatment facilities. | ||
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Revision as of 14:55, 16 May 2017
Examples
Lorem ipsum dolor sit amet, no his meis nonumy urbanitas, eu graeci inermis democritum nam, saepe constituto constituam no qui. Ne nam suas cibo erat, eam ei vidit mnesarchum moderatius. Ut ludus tibique dissentias eum, ius summo decore consectetuer eu. Ex mea inermis mediocrem deseruisse. Dicant patrioque his at, nec ne tollit veniam.
BroadRun-Baltimore 2016
Best Integrated Human Practices, High_school
BroadRun-Baltimore developed a genetically modified yeast strain that can digest starch, the precursor of butyric acid waste in ceiling tile manufacturing. The team opened a dialogue with a ceiling tile manufacturer as an industry partner to better understand the workflow of tile production and wastewater management. The team were then able to assess where their genetically modified yeast strain could be deployed to reduce starch levels as a sustainable solution in a manufacturing process.
HSiTaiwan 2016
Nominated for Best Integrated Human Practices, High_school
The Herb Tasters were interested in developing a biosensor to detect the presence of toxins in traditional Chinese medicines. By using national health interview surveys and interactions with government regulators and manufacturers of Chinese medicine, the team gained a better understanding of the current management of toxins and the actual need for and challenges to toxin detection solutions.
METU HS Ankara 2016
Nominated for Best Education & Public Engagement, High_school
METU HS Ankara sought to modify an E. coli strain to bind selectively to colon cancer cells and induce cell death through the production of a natural colon metabolite. The team organized a running day for colon cancer, as well as educational events to increase knowledge about colon cancer at their local schools. One thing led to another, and they were also able to spread this educational information through radio interviews and TV broadcasts in their local area.
OLS Canmore 2016
Nominated for Best Integrated Human Practices, High_school, Nominated for Best Education & Public Engagement, High_school
OLS Canmore devised a system capable of breaking down and repurposing keratin from hair and feathers that make its way into waste and sewage systems. Their project and design was inspired by communication with nearby wastewater treatment plants, who helped them weigh their options between designing a separable enzyme to treat the water or developing a bioreactor. The team was able to also discuss with fertilizer companies how the byproducts might be repurposed for fertilizer and animal feed, and how they might be able to implement and market a system that would be usable by wastewater treatment facilities.
