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Team:MIT phage
From 2010.igem.org
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<div id="unique" style="padding:5px; font-size: 14px; border: 1px solid black; margin:5px;"> | <div id="unique" style="padding:5px; font-size: 14px; border: 1px solid black; margin:5px;"> | ||
<table width=70%><tr><td><div id="bodybaby">hairy cells: polymerizing phage</div></td> | <table width=70%><tr><td><div id="bodybaby">hairy cells: polymerizing phage</div></td> | ||
| - | <tr><td><br><b>Introduction</b> | + | <tr><td> |
| + | <br><b>Overview</b> | ||
| + | <br><b>Introduction</b> | ||
<br><b>In the context of past iGEM projects</b> and past publications, our project is unique in that.. | <br><b>In the context of past iGEM projects</b> and past publications, our project is unique in that.. | ||
<br><b>Construction plan, circuit diagram</b> | <br><b>Construction plan, circuit diagram</b> | ||
Revision as of 18:33, 10 October 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. |
hairy cells: polymerizing phage |
|
Overview Introduction In the context of past iGEM projects and past publications, our project is unique in that.. Construction plan, circuit diagram Results |
