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Team:Braunschweig
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<h1>Our project</h1> | <h1>Our project</h1> | ||
| - | <img alt="linie rot 8pix hoch" src="http://en.igem-braunschweig.de/wp-content/uploads/2013/04/linie-rot-8pix-hoch.jpg" width=" | + | <img alt="linie rot 8pix hoch" src="http://en.igem-braunschweig.de/wp-content/uploads/2013/04/linie-rot-8pix-hoch.jpg" width="405" height="1" /></p> |
| - | <img alt="modellverinfacht" src="http://de.igem-braunschweig.de/wp-content/uploads/2013/04/Modell-vereinfacht.png" width="150" align="left" vspace="10" hspace="20" alt="Text?" />In nature microorganisms commonly live in symbiosis, be it in form of a protective biofilm or as composite organism[s] such as lichen (a symbiosis of algae/cyanobacteria and fungi). Members of this symbiotic community secrete chemicals that offer protection and nutrition or neutralize toxins. | + | <img alt="modellverinfacht" src="http://de.igem-braunschweig.de/wp-content/uploads/2013/04/Modell-vereinfacht.png" width="150" align="left" vspace="10" hspace="20" alt="Text?" /> <p style="text-align:justify; margin-left:5px; margin-right:5px">In nature microorganisms commonly live in symbiosis, be it in form of a protective biofilm or as composite organism[s] such as lichen (a symbiosis of algae/cyanobacteria and fungi). Members of this symbiotic community secrete chemicals that offer protection and nutrition or neutralize toxins. |
</a>The goal of the iGEM Team Braunschweig is to create a synergetic system similar to a natural symbiosis. During the course of our project we want to clone three individual mutant strains of the bacterium <em>Escherichia coli</em> which can only survive as a community – if one dies, they all die.<br /> | </a>The goal of the iGEM Team Braunschweig is to create a synergetic system similar to a natural symbiosis. During the course of our project we want to clone three individual mutant strains of the bacterium <em>Escherichia coli</em> which can only survive as a community – if one dies, they all die.<br /> | ||
To achieve this, each strain bears a plasmid that confers antibiotic resistance upon activation of a two-component transcription activator.<br /> | To achieve this, each strain bears a plasmid that confers antibiotic resistance upon activation of a two-component transcription activator.<br /> | ||
The key feature of our system: only one component can be synthesized by each strain alone. The other half of a transcription activator is produced by another strain and secreted into the medium.</p> | The key feature of our system: only one component can be synthesized by each strain alone. The other half of a transcription activator is produced by another strain and secreted into the medium.</p> | ||
| - | <p style="text-align: justify;">Curious? <a href="http://en.igem-braunschweig.de/project-2/our-project/">Here</a> you can find more details.</p> | + | <p style="text-align: justify; margin-left: 5px">Curious? <a href="http://en.igem-braunschweig.de/project-2/our-project/">Here</a> you can find more details.</p> |
</div> | </div> | ||
Revision as of 17:04, 21 July 2013
Welcome
Our project
In nature microorganisms commonly live in symbiosis, be it in form of a protective biofilm or as composite organism[s] such as lichen (a symbiosis of algae/cyanobacteria and fungi). Members of this symbiotic community secrete chemicals that offer protection and nutrition or neutralize toxins.
The goal of the iGEM Team Braunschweig is to create a synergetic system similar to a natural symbiosis. During the course of our project we want to clone three individual mutant strains of the bacterium Escherichia coli which can only survive as a community – if one dies, they all die.
To achieve this, each strain bears a plasmid that confers antibiotic resistance upon activation of a two-component transcription activator.
The key feature of our system: only one component can be synthesized by each strain alone. The other half of a transcription activator is produced by another strain and secreted into the medium.
Curious? Here you can find more details.
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