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

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Memory storage capacity and cellular communication have a central role in the development and the behavior of biological systems.Actually, storing and controlling information have a central role that impacts all areas, being crucial to the economic and social development.  
Memory storage capacity and cellular communication have a central role in the development and the behavior of biological systems.Actually, storing and controlling information have a central role that impacts all areas, being crucial to the economic and social development.  
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Synthetic biology presents itself as a powerful tool on the construction of mechanisms capable of execute routines of processing and storing information in vivo on similar ways that are made in silico. For example, Quian et al built a biological system capable of recognize one person in a group of four people by identifying patterns. In this associative memory network, four neurons made of DNA molecules parts associated a sequence of four answers “yes” or “no”.Each pattern represented one person and could be remembered each time that the right sequence was inserted.
Synthetic biology presents itself as a powerful tool on the construction of mechanisms capable of execute routines of processing and storing information in vivo on similar ways that are made in silico. For example, Quian et al built a biological system capable of recognize one person in a group of four people by identifying patterns. In this associative memory network, four neurons made of DNA molecules parts associated a sequence of four answers “yes” or “no”.Each pattern represented one person and could be remembered each time that the right sequence was inserted.
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The final objective of the project is to build an associative memory network in a populational system of E.coli that could recognize visual patterns as input, therefore demonstrating the perception, storage, processing and answering in a logical way by a synthetic biological system.  In order to do it, 9 different populations will be made, representing each one a “neuron” of the network.  A population producing GFP (green fluorescent protein) will represent a neuron sending an action potential and each neuron will communicate with the whole network, what, in reality, defines the Hopfield associative memory architecture. In the interaction, a neuron can inhibit another one, leading it to a stop in the production of GFP, or exciting, stimulating the production of GFP.   
The final objective of the project is to build an associative memory network in a populational system of E.coli that could recognize visual patterns as input, therefore demonstrating the perception, storage, processing and answering in a logical way by a synthetic biological system.  In order to do it, 9 different populations will be made, representing each one a “neuron” of the network.  A population producing GFP (green fluorescent protein) will represent a neuron sending an action potential and each neuron will communicate with the whole network, what, in reality, defines the Hopfield associative memory architecture. In the interaction, a neuron can inhibit another one, leading it to a stop in the production of GFP, or exciting, stimulating the production of GFP.   
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The inhibition or excitement of GFP production will be based on a transcriptional regulation mechanism.  The communication between bacterial populations will occur by means of quorum sensing substances and the information (inhibiting or exciting) will be defined by which transcriptional regulator the substance will promote. In summary, at the moment when the connections between the neurons are defined, we hope the system will output a predetermined pattern of answer.
The inhibition or excitement of GFP production will be based on a transcriptional regulation mechanism.  The communication between bacterial populations will occur by means of quorum sensing substances and the information (inhibiting or exciting) will be defined by which transcriptional regulator the substance will promote. In summary, at the moment when the connections between the neurons are defined, we hope the system will output a predetermined pattern of answer.

Revision as of 03:58, 22 September 2012