Team:UCSF/Project

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<center><h3red>Overview and Inspiration for Project</h3red></center> <br><p>
<center><h3red>Overview and Inspiration for Project</h3red></center> <br><p>
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<regulartext> A common goal of synthetic biologists is to produce complex compounds in lab friendly chassis, such as <i>E. coli</i> or yeast.<br>
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<img align="center" style="margin-bottom:20px; width: 300px; margin-top:20px; padding:2; margin-left:155px;" src="https://dl.dropbox.com/u/24404809/iGEM%202012/igem%202012%20website%20photos/Background/SynBioBurden1.jpg">
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<regulartext>We are taking three different synthetic approaches to study tunable symbiosis. In the first, we use a model pathway (violacein production) to see if cells can work together to more efficiently produce a product. In the second two approaches we look at ways in which cells can be tuned to achieve ideal population ratios.</regulartext>
<regulartext>We are taking three different synthetic approaches to study tunable symbiosis. In the first, we use a model pathway (violacein production) to see if cells can work together to more efficiently produce a product. In the second two approaches we look at ways in which cells can be tuned to achieve ideal population ratios.</regulartext>
<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/Background/All%20Projects%20Slide.jpg">
<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/Background/All%20Projects%20Slide.jpg">

Revision as of 20:50, 2 October 2012


Overview and Inspiration for Project

A common goal of synthetic biologists is to produce complex compounds in lab friendly chassis, such as E. coli or yeast.

We are taking three different synthetic approaches to study tunable symbiosis. In the first, we use a model pathway (violacein production) to see if cells can work together to more efficiently produce a product. In the second two approaches we look at ways in which cells can be tuned to achieve ideal population ratios.

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