Team:MIT

From 2010.igem.org

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<table width=650px style="background-color: white; margin-top:5px; padding: 10px;"><tr><td><div class="bodybaby">Programmable, Self-constructing Biomaterials</div></td>
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<table width=650px style="background-color: white; height: 700 px; margin-top:5px; padding: 10px;"><tr><td colspan="3"><div class="bodybaby">Programmable, Self-constructing Biomaterials</div></td>
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<tr><td><br>The 2010 MIT iGEM team focused on the control and production of self-constructing and self-repairing living biomaterials through both bacterial and mammalian engineering. We ventured to set up the framework for material formation in both types of cells, for future applications in living, self-repairing materials and in vitro organogenesis respectively.
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<tr><td colspan="3"><br>The 2010 MIT iGEM team focused on the control and production of self-constructing and self-repairing living biomaterials through both bacterial and <div style="display:inline;"><a href="https://static.igem.org/mediawiki/2010/0/0b/Screen_shot_2010-10-24_at_10.25.02_AM.png" class="thickbox" title="Pretty materials. Ours are programmable."><img style="float: right; padding: 10px" src="https://static.igem.org/mediawiki/2010/0/0b/Screen_shot_2010-10-24_at_10.25.02_AM.png" height=147px></a></div> mammalian engineering. We ventured to set up the framework for material formation in both types of cells, for future applications in living, self-repairing materials and in vitro organogenesis respectively.
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We have accomplished far beyond what we expected of ourselves! In addition to our project, we have created a new Mammalian Biobrick standard, contributed original parts for mammalian cells and bacteriophage, and we have biobricked two working toggles for the registry.
We have accomplished far beyond what we expected of ourselves! In addition to our project, we have created a new Mammalian Biobrick standard, contributed original parts for mammalian cells and bacteriophage, and we have biobricked two working toggles for the registry.
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<li style="margin: 3px; padding: 5px; display: inline-block; width:30%; height: 100px; background-color: #8b0000; opacity: 0.75;"><a style="color: white;" href="https://2010.igem.org/Team:MIT_results"><b style="font-size: large;">Results</b><br>Click to see our results in both bacterial and mammalian cells!</a></li>
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<li style="display: inline-block; padding: 5px; margin: 3px; width:30%; height: 100px; background-color: #e6881a;opacity: 0.75;"><a  style="color: white;" href="https://2010.igem.org/Team:MIT_tmodel"><b style="font-size: large;">Modelling</b><br>We created mathematical models of both our bacterial and our mammalian results.</a></li>
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<li style="margin: 3px; display: inline-block; padding: 5px; width:30%; height: 100px; background-color: #016b9d; opacity:0.75;"><a  style="color: white;" href="https://2010.igem.org/Team:MIT_parts"><b style="font-size: large;">Parts</b><br>We added many original parts to the registry. Check them out!</a></li>
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Latest revision as of 01:14, 28 October 2010

MIT iGEM 2010

The 2010 MIT iGEM team. We are biological engineers, physicists, electrical engineers, chemical engineers, mathematicians, and computer scientists.
Programmable, Self-constructing Biomaterials

The 2010 MIT iGEM team focused on the control and production of self-constructing and self-repairing living biomaterials through both bacterial and
mammalian engineering. We ventured to set up the framework for material formation in both types of cells, for future applications in living, self-repairing materials and in vitro organogenesis respectively.

We have accomplished far beyond what we expected of ourselves! In addition to our project, we have created a new Mammalian Biobrick standard, contributed original parts for mammalian cells and bacteriophage, and we have biobricked two working toggles for the registry.