Neural logic molecular, counter-intuitive

A hypothesis is proposed that multiple “ LOGIC” genes control Boolean logic in a neuron. Each hypothetical LOGIC gene encodes a transcription factor that regulates another LOGIC gene(s). Through transcription regulation, LOGIC genes connect into a complex circuit, such as a XOR logic gate or a two-i...

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Bibliographic Details
Published in:Biomolecular engineering 2007-09, Vol.24 (3), p.293-299
Main Author: Egorov, Igor K.
Format: Article
Language:English
Subjects:
Boolean logic gates
Computer Simulation
Computers, Molecular
Creative thinking
Gene Expression Regulation - physiology
Logistic Models
Models, Neurological
Molecular mechanism
Neuron
Neurons - physiology
Somatic hypermutation
Transcription Factors - metabolism
Transcription regulation
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Summary:A hypothesis is proposed that multiple “ LOGIC” genes control Boolean logic in a neuron. Each hypothetical LOGIC gene encodes a transcription factor that regulates another LOGIC gene(s). Through transcription regulation, LOGIC genes connect into a complex circuit, such as a XOR logic gate or a two-input flip–flop logic circuit capable of retaining information. LOGIC gene duplication, mutation and recombination may result in the diversification of Boolean logic gates. Creative thinking may sometimes require counter-intuitive reasoning, rather than common sense. Such reasoning is likely to engage novel logic circuits produced by LOGIC somatic mutations. An individual's logic maturates by a mechanism of somatic hypermutation, gene conversion and recombination of LOGIC genes in precursor cells followed by selection of neurons in the brain for functional competence. In this model, a single neuron among billions in the brain may contain a unique logic circuit being the key to a hard intellectual problem. The output of a logic neuron is likely to be a neurotransmitter. This neuron is connected to other neurons in the spiking neural network. The LOGIC gene hypothesis is testable by molecular techniques. Understanding mechanisms of authentic human ingenuity may help to invent digital systems capable of creative thinking.
ISSN:1389-0344
1878-559X
DOI:10.1016/j.bioeng.2007.04.002