Team:Berkeley Wetlab

From 2009.igem.org

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<big><font size="5" face="Book Antiqua"> Project Description</font> </big> <br>
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<big><font size="5" face="Book Antiqua"> Abstract</font> </big> <br>
The University of California Berkeley iGEM team is proposing to expand the design space of synthetic biology by constructing a functional general display scheme and exploring novel applications of cell surface display in Escherichia coli, the gold standard organism for bacterial engineering. The team adopts a bottom-up design scheme in order to tackle this engineering problem in a well organized, modular fashion. In order to overcome the challenges of engineering Escherichia coli cell surface display, a high throughput, automated, combinatorial strategy is employed to control the system.
The University of California Berkeley iGEM team is proposing to expand the design space of synthetic biology by constructing a functional general display scheme and exploring novel applications of cell surface display in Escherichia coli, the gold standard organism for bacterial engineering. The team adopts a bottom-up design scheme in order to tackle this engineering problem in a well organized, modular fashion. In order to overcome the challenges of engineering Escherichia coli cell surface display, a high throughput, automated, combinatorial strategy is employed to control the system.
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<font size="5" face="Book Antiqua">Acknowledgements:</font> <br>
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<font size="5" face="Book Antiqua">Acknowledgements</font> <br>
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Revision as of 06:32, 20 October 2009


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Abstract
The University of California Berkeley iGEM team is proposing to expand the design space of synthetic biology by constructing a functional general display scheme and exploring novel applications of cell surface display in Escherichia coli, the gold standard organism for bacterial engineering. The team adopts a bottom-up design scheme in order to tackle this engineering problem in a well organized, modular fashion. In order to overcome the challenges of engineering Escherichia coli cell surface display, a high throughput, automated, combinatorial strategy is employed to control the system.


Acknowledgements
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