Team:UC Davis
From 2010.igem.org
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<p class="indent">This genetic circuit allows us to create biological systems with spatially varying genetic expression profiles. This has applications in a variety of fields such as nanofabrication, tissue engineering, environmental engineering, and of course, synthetic biology. | <p class="indent">This genetic circuit allows us to create biological systems with spatially varying genetic expression profiles. This has applications in a variety of fields such as nanofabrication, tissue engineering, environmental engineering, and of course, synthetic biology. | ||
- | <p align="right">Read more...</a></td></tr></table></td> | + | <p align="right"><a href="https://2010.igem.org/Team:UC_Davis/Projects" class="help">Read more...</a></a></td></tr></table></td> |
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- | <p class="indent">Using mathematical modeling, we were able create a computer simulation of how our lawn of E. Coli will look like. The red plane in the center is the original stimulus that triggered the striping. <p align="right">Read more...</a> </td> | + | <p class="indent">Using mathematical modeling, we were able create a computer simulation of how our lawn of E. Coli will look like. The red plane in the center is the original stimulus that triggered the striping. <p align="right"><a href="https://2010.igem.org/Team:UC_Davis/Modeling" class="help">Read more...</a></a> </td> |
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Revision as of 04:05, 25 October 2010
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