Team:UCSF

From 2012.igem.org

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<center><h3orange>Cell Mates: Engineering Metabolic Cooperation and Cellular Codependence </h3orange><center>
<center><h3orange>Cell Mates: Engineering Metabolic Cooperation and Cellular Codependence </h3orange><center>
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<img align="center" style="margin-bottom:0px; width: 500px; margin-top:20px; padding:2; margin-left:55px;" src="https://dl.dropbox.com/u/24404809/iGEM%202012/igem%202012%20website%20photos/group%20photo%20on%20steps.jpg">
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<center><h3red>Project Description:<h3red> <br></center><p>
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<regulartext>The 2012 UCSF iGEM team is investigating bacterial symbiosis. We hope to further the understanding of how two bacteria communicate in a mutualistic relationship. We have constructed experiments to demonstrate two methods of symbiosis. We were inspired by a paper (Kerner 2012) that demonstrated tunable symbiosis of two auxotrophic strains of E. coli and attempted to regulate the population ratios of these strains. We have decided to build on this work to create strains of bacteria that can work together - lessening the metabolic burden on each one - to create some product. Our proof of priniciple products are easily identifiable (colorimetric) products such as violacein.
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|This year the UCSF iGEM team is excited to have 5 members from Abraham Lincoln High School, 1 member from City College of San Francisco, 2 returning members from the 2011 team, and a student from the 2011 Peking University iGEM team. We are looking forward to a fun and exciting summer of research.
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'''Project Description:''' The 2012 UCSF iGEM team is investigating bacterial symbiosis. We hope to further the understanding of how two bacteria communicate in a mutualistic relationship. We have constructed experiments to demonstrate two methods of symbiosis. We were inspired by a paper (Kerner 2012) that demonstrated tunable symbiosis of two auxotrophic strains of E. coli and attempted to regulate the population ratios of these strains. We have decided to build on thiswork to create strains of bacteria that can work together - lessening the metabolic burden on each one - to create some product. Our proof of priniciple products are easily identifiable (colorimetric) products such as melanin and violacein.
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<iframe src="https://www.google.com/calendar/embed?src=n8q6meg85ovcbh4r2p7rocn7i0%40group.calendar.google.com&ctz=America/Los_Angeles" style="border: 0" width="700" height="500"align="center" frameborder="9" scrolling="no"></iframe>
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<iframe src="https://www.google.com/calendar/embed?title=UCSF%20iGEM%20Summer%20Calender&amp;height=600&amp;wkst=1&amp;bgcolor=%23cccccc&amp;src=n8q6meg85ovcbh4r2p7rocn7i0%40group.calendar.google.com&amp;color=%23125A12&amp;ctz=America%2FLos_Angeles" style=" border:solid 1px #777 " width="800" height="600" frameborder="0" scrolling="no"></iframe>
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Revision as of 21:56, 28 September 2012


UCSF iGEM 2012

Cell Mates: Engineering Metabolic Cooperation and Cellular Codependence

Project Description:

The 2012 UCSF iGEM team is investigating bacterial symbiosis. We hope to further the understanding of how two bacteria communicate in a mutualistic relationship. We have constructed experiments to demonstrate two methods of symbiosis. We were inspired by a paper (Kerner 2012) that demonstrated tunable symbiosis of two auxotrophic strains of E. coli and attempted to regulate the population ratios of these strains. We have decided to build on this work to create strains of bacteria that can work together - lessening the metabolic burden on each one - to create some product. Our proof of priniciple products are easily identifiable (colorimetric) products such as violacein.



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