Team:INSA Toulouse/contenu/project/biological construction/carry

From 2013.igem.org

(Difference between revisions)
Line 79: Line 79:
       <p class="texteleft"> <i>General principle</i>
       <p class="texteleft"> <i>General principle</i>
-
<br>AHL is the product of the LuxI gene. This one was placed under the  control of promoters belonging to the two AND gates. So, AHL will be produced when these gates will be activated and transmitted to the following colony by diffusion into LBagar and Quorum Sensing. It becomes a third input signal (in addition of blue/red light) to take in consideration for the calculation of the next bit: this is the carry of our full adder.
+
<br>AHL is the product of the LuxI gene. This one was placed under the  control of promoters belonging to the two AND gates. So, AHL will be produced when at least one of the AND gates is activated. Then AHL will be transmitted to the following colony by diffusion into LBagar and Quorum Sensing. It becomes a third input signal (in addition of blue/red light) to take in consideration for the calculation of the next bit: this is the carry of our full adder.
   </p>
   </p>
      
      

Revision as of 16:52, 4 October 2013

logo


Biological Modules: Carry

For the carry we thought of a molecule that could transmit a message from one colony to the other.
The communication between cells in Quorum Sensing is a good illustration of the diffusion of a signal between unicellular organisms. We resorted to the system present in Vibrio fischeri using N-Acyl homoserine lactone (AHL).

General principle
AHL is the product of the LuxI gene. This one was placed under the control of promoters belonging to the two AND gates. So, AHL will be produced when at least one of the AND gates is activated. Then AHL will be transmitted to the following colony by diffusion into LBagar and Quorum Sensing. It becomes a third input signal (in addition of blue/red light) to take in consideration for the calculation of the next bit: this is the carry of our full adder.

Carry module characterization
AHL diffusion into agar medium was characterized thanks to the Chromobacterium violaceum strain. A purple coloration is visible when C. violaceum is in contact with AHL.