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

From 2012.igem.org

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(Genetic Construction)
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As an example, if an input activates more positions at the “X” pattern than those at the “O”, a greater number of "X-activators" will be produced, and it is more likely that other "X" positions become activated, due to this competition for promoters at each position. Meanwhile, in the “O” pattern positions, the opposite occurs: a lesser number of initially activated positions implies less "O-activators", and the outcome is that "X wins over O" - the network reproduces the "X" pattern.
As an example, if an input activates more positions at the “X” pattern than those at the “O”, a greater number of "X-activators" will be produced, and it is more likely that other "X" positions become activated, due to this competition for promoters at each position. Meanwhile, in the “O” pattern positions, the opposite occurs: a lesser number of initially activated positions implies less "O-activators", and the outcome is that "X wins over O" - the network reproduces the "X" pattern.
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This multi-regulated promoter, with an activator and an inhibitor, is called Prm. Its inhibitor is the transcriptional factor cl434 and its activator is the cl factor. The genetic design of the positions of the patterns “X” and “O” can be seen in Figure 6.
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This multi-regulated promoter, with an activator and an inhibitor, is called Prm. Its inhibitor is the transcriptional factor cl434 and its activator is the cl factor. The genetic design of the positions of the patterns “X” and “O” can be seen in Figure 4.
This construction using the signal transduction containing cl434 and cl allows creating different systems of associative memory, limited only by the number of quorum sensing systems available. Figure 6 shows how this generic system would work and elucidates how this system could be applied to different functions involving genetic control.
This construction using the signal transduction containing cl434 and cl allows creating different systems of associative memory, limited only by the number of quorum sensing systems available. Figure 6 shows how this generic system would work and elucidates how this system could be applied to different functions involving genetic control.

Revision as of 03:06, 27 September 2012