Team:MIT toggle

From 2010.igem.org

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<tr><td><div class="bodybaby">bacterial toggle</div></td>
<tr><td><div class="bodybaby">bacterial toggle</div></td>
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<tr><td><br>The Bacterial team focused on implementing and improving the Collins toggle. The ultimate goal is to connect our toggle to our phage module, so that exposing UV light in a pattern on a lawn of bacteria will result in phage production and polymerization in the exposed area. As an intermediate in our project, we have managed to create what is essentially an improved bacterial camera capable of instantaneous photography.<br><br>We implemented part of the <a href="http://www.nature.com/nature/journal/v403/n6767/abs/403339a0.html">Collins toggle</a> in our bacteria, improving upon previous iGEM bacterial cameras by shortening the exposure time from hours <a href="http://parts.mit.edu/wiki/index.php/UT_Austin_2005">(UT-Austin 2005)</a> to seconds. During our experiments, noticeable cell death in UV-exposed regions prompted development of an additional feature. Our bacterial circuit improves upon the Collins toggle in that the power of UV light required to switch the toggle is reduced, resulting in significantly more cells surviving the image capture process.<br><br></td>
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<tr><td><br>The Bacterial team focused on implementing and improving the Collins toggle. The ultimate goal is to use the Collins toggle pTSMa to control growth of our modified phage M13, so that exposing UV light in a design on a lawn of bacteria will result in phage production and polymerization in the exposed area. As an intermediate in our project, we have managed to create what is essentially an improved bacterial camera capable of instantaneous photography.<br><br>We implemented part of the <a href="http://www.nature.com/nature/journal/v403/n6767/abs/403339a0.html">Collins toggle</a> in our bacteria, improving upon previous iGEM bacterial cameras by shortening the exposure time from hours <a href="http://parts.mit.edu/wiki/index.php/UT_Austin_2005">(UT-Austin 2005)</a> to seconds. During our experiments, noticeable cell death in UV-exposed regions prompted development of an additional feature. Our bacterial circuit improves upon the Collins toggle in that the power of UV light required to switch the toggle is reduced, resulting in significantly more cells surviving the image capture process.<br><br></td>
<tr><td><a href="https://static.igem.org/mediawiki/2010/d/dc/Uvoverview.png" class="thickbox"><img src="https://static.igem.org/mediawiki/2010/d/dc/Uvoverview.png"></a></td>
<tr><td><a href="https://static.igem.org/mediawiki/2010/d/dc/Uvoverview.png" class="thickbox"><img src="https://static.igem.org/mediawiki/2010/d/dc/Uvoverview.png"></a></td>

Revision as of 15:28, 25 October 2010

bacterial toggle

The Bacterial team focused on implementing and improving the Collins toggle. The ultimate goal is to use the Collins toggle pTSMa to control growth of our modified phage M13, so that exposing UV light in a design on a lawn of bacteria will result in phage production and polymerization in the exposed area. As an intermediate in our project, we have managed to create what is essentially an improved bacterial camera capable of instantaneous photography.

We implemented part of the Collins toggle in our bacteria, improving upon previous iGEM bacterial cameras by shortening the exposure time from hours (UT-Austin 2005) to seconds. During our experiments, noticeable cell death in UV-exposed regions prompted development of an additional feature. Our bacterial circuit improves upon the Collins toggle in that the power of UV light required to switch the toggle is reduced, resulting in significantly more cells surviving the image capture process.