Team:USP-UNESP-Brazil/Associative Memory/Background

From 2012.igem.org

(Difference between revisions)
(Biological Mechanism)
(Genetic Construction)
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So, as a proof of concept and for simplicity, we designed two populations of bacteria that intercommunicate in a repressive manner. Because of this limitation we have chosen the patterns "X" and "O" in our 9 wells device, figure 3. In this case each position of the letter “X” inhibits all positions of “O” and activates the positions of its own pattern (and vice-versa). Because of this simmetry of the positions, only two different population of bacteria are need, one for the the positions that form the "X" and other to the "O".  
So, as a proof of concept and for simplicity, we designed two populations of bacteria that intercommunicate in a repressive manner. Because of this limitation we have chosen the patterns "X" and "O" in our 9 wells device, figure 3. In this case each position of the letter “X” inhibits all positions of “O” and activates the positions of its own pattern (and vice-versa). Because of this simmetry of the positions, only two different population of bacteria are need, one for the the positions that form the "X" and other to the "O".  
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We decided to use two of the four available in the registry of parts [http://partsregistry.org/Main_Page] quorum sensing systems that have substances different enough for the bacterial communication so there would be little cross-talk between them. The quorum sensing systems chosen were Cin and Rhl.
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We decided to use two of the four quorum sensing systems available in the registry of parts [http://partsregistry.org/Main_Page], the Cin and Rhl.
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The training of the network is previously defined ''in silico'' and it is inserted in the bacteria through a genetic construction.
The training of the network is previously defined ''in silico'' and it is inserted in the bacteria through a genetic construction.
Each population of bacteria ("neuron") needs his own QSM and because of that the number of "neurons" is limitated to the number of QSMs.  As a proof of concept we design two populations of bacteria that comunicate between them repressively. Because of this limitation we chose the patterns "X" and "O" in our 3x3 wells device. In this case there are need only two different population of bacteria since the system is simmetric.
Each population of bacteria ("neuron") needs his own QSM and because of that the number of "neurons" is limitated to the number of QSMs.  As a proof of concept we design two populations of bacteria that comunicate between them repressively. Because of this limitation we chose the patterns "X" and "O" in our 3x3 wells device. In this case there are need only two different population of bacteria since the system is simmetric.
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[[File:0019.JPG|center|500px|caption|]]
[[File:0019.JPG|center|500px|caption|]]

Revision as of 14:33, 26 September 2012