Team:UPO-Sevilla/Biobricks/Circuits
From 2010.igem.org
Line 16: | Line 16: | ||
<h2>Signal transduction circuits</h2> | <h2>Signal transduction circuits</h2> | ||
<img class="circuit" src="https://static.igem.org/mediawiki/2010/4/42/BacterialCrowdingCircuit01.png" alt="Bacterial Crowding Signal transduction circuits"/> | <img class="circuit" src="https://static.igem.org/mediawiki/2010/4/42/BacterialCrowdingCircuit01.png" alt="Bacterial Crowding Signal transduction circuits"/> | ||
- | <p><strong>Notes:</strong></p> | + | <p><strong>Notes:</strong> Those are the signal transduction circuits we proposed at the beginning of the summer.Here is shown a summary of their components. If you want more information, please, go to project/sensing. At the end, we were focused mainly in the third circuit because of the characteristics of FecA/PrhA hybrid protein. </p> |
<h2>Measuring the performance of the signal transduction circuits</h2> | <h2>Measuring the performance of the signal transduction circuits</h2> | ||
<img class="circuit" src="https://static.igem.org/mediawiki/2010/4/4b/BacterialCrowdingCircuit02.png" alt="Bacterial Crowding Measuring the performance of the signal transduction circuits"/> | <img class="circuit" src="https://static.igem.org/mediawiki/2010/4/4b/BacterialCrowdingCircuit02.png" alt="Bacterial Crowding Measuring the performance of the signal transduction circuits"/> | ||
- | <p><strong>Notes:</strong></p> | + | <p><strong>Notes:</strong> At first we wanted to use gfp and LacZ to measure the performance of the signal transduction circuits. But there was some problem with the LacZ biobrick of the 2010 distribution and we could not use it. Anyway, we could measure the fluorescence of GFP.</p> |
<h2>Chemotaxis circuits</h2> | <h2>Chemotaxis circuits</h2> | ||
<img class="circuit" src="https://static.igem.org/mediawiki/2010/b/bc/BacterialCrowdingCircuit03.png" alt="Bacterial Crowding Chemotaxis circuits"/> | <img class="circuit" src="https://static.igem.org/mediawiki/2010/b/bc/BacterialCrowdingCircuit03.png" alt="Bacterial Crowding Chemotaxis circuits"/> | ||
- | <p><strong>Notes:</strong></p> | + | <p><strong>Notes:</strong> Signal transduction circuits are connected to chemotaxis circuits as you can see in the first box. The goal is that signal detection was transduced in chemoattractant synthesis to increase the bacterial population around a non-diffusible signal. You could read more about these chemoattractants in project/chemotaxis.</p> |
<a class="return_button" href="/Team:UPO-Sevilla/Biobricks" title="Biobricks"><span>Return to Biobricks</span></a> | <a class="return_button" href="/Team:UPO-Sevilla/Biobricks" title="Biobricks"><span>Return to Biobricks</span></a> |
Revision as of 17:54, 12 October 2010
Circuits
Signal transduction circuits
Notes: Those are the signal transduction circuits we proposed at the beginning of the summer.Here is shown a summary of their components. If you want more information, please, go to project/sensing. At the end, we were focused mainly in the third circuit because of the characteristics of FecA/PrhA hybrid protein.
Measuring the performance of the signal transduction circuits
Notes: At first we wanted to use gfp and LacZ to measure the performance of the signal transduction circuits. But there was some problem with the LacZ biobrick of the 2010 distribution and we could not use it. Anyway, we could measure the fluorescence of GFP.
Chemotaxis circuits
Notes: Signal transduction circuits are connected to chemotaxis circuits as you can see in the first box. The goal is that signal detection was transduced in chemoattractant synthesis to increase the bacterial population around a non-diffusible signal. You could read more about these chemoattractants in project/chemotaxis.
Return to Biobricks