Revision as of 12:26, 20 August 2012

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June

Week 23 • Week 24 • Week 25 • Week 26

Week 23: June 04th to 10th

During this week we chose the project on which we wanted to work.

We decided to create a system which can detect a pathogene, like Staphylococcus aureus, for example.

We intend to build an ultra sensitive detector. The goal is to produce a detector which can greatly amplify an extremely low input signal. It consists of three modules:

the first gets the signal
the second amplifies it
the third sends the output

The detection module is a membrane receptor that once activated by a biomolecule actuates an amplification loop. The loop enhances the cell response efficiency.
The amplification system contains a genetic feed forward loop. It acts as a biologic loud filter aiming at reducing false positive outputs. Once amplified and filtered the signal is transmitted to the neighboring bacteria. In this way a noticeable fluorescent emission is generated.

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 <a href="https://2012.igem.org/Team:Grenoble/Biology/Notebook/June/week_25">Week 25</a> •
 <a href="https://2012.igem.org/Team:Grenoble/Biology/Notebook/June/week_26">Week 26</a>
-</section><br/>
+</section>
+<br/>
 <br/>
 <section>
-<h1> Week 25: June 18<span class="exposant">th</span> to 24<span class="exposant">th</span> </h1>
+<h1> Week 23: June 04<span class="exposant">th</span> to 10<span class="exposant">th</span> </h1>
+During this week we chose the project on which we wanted to work. <br/>
-After a meeting with our instructors, we decided to work on a second amplifier (cAMP-CRP system). We designed the genetic network for the second amplifier according to results we found in the literature: <br/>
 <br/>
-<center><img src="https://static.igem.org/mediawiki/2012/d/d5/Network_cAMP-CRP.jpg" alt="pLAC_rsmY"/></center>
+We decided to create a system which can detect a pathogene, like <i>Staphylococcus aureus</i>, for example.<br/>
 <br/>
-We looked for the biobricks involved in this network and we designed the primers for both amplifiers (RsmA-rsmY and cAMP-CRP systems) that we wanted to test in parallel.<br/>
+We intend to build an ultra sensitive detector. The goal is to produce a detector which can greatly amplify an extremely low input signal. It consists of three modules:<br/>
+<ol>
+     <li>the first gets the signal</li>
+     <li>the second amplifies it</li>
+     <li>the third sends the output</li>
+</ol>
 <br/>
-We looked for the plasmids on which we wanted to insert the selected biobricks in order to construct the amplifiers and to test them. <br/>
+The detection module is a membrane receptor that once activated by a biomolecule actuates an amplification loop. The loop enhances the cell response efficiency. <br/>
-<br/>
+The amplification system contains a genetic feed forward loop. It acts as a biologic loud filter aiming at reducing false positive outputs. Once amplified and filtered the signal is transmitted to the neighboring bacteria. In this way a noticeable fluorescent emission is generated. <br/>
-We searched in the literature to find a way to build a detection module.<br/>
 <br/>
+<center> <h4>Scheme of the concept</h4> </center>
+<center><img src="https://static.igem.org/mediawiki/2012/9/9d/Schema1.png" alt="Scheme of the concept" style="horizontal-align: center;"/></center>
+<center> <h4>Theoretical response of the device depending on the input signal</h4> <br/>
+<img src="https://static.igem.org/mediawiki/2012/c/cf/Schema2.png" alt="Theoretical response of the device depending on the input signal" style="horizontal-align: center;"/></center>
 </section>
+<br/>
+<br/>
 </div>
 </body>

Team:Grenoble/Biology/Notebook/June/week 25

From 2012.igem.org

Revision as of 12:26, 20 August 2012

June

Week 23: June 04th to 10th

Scheme of the concept

Theoretical response of the device depending on the input signal