From Neurons to Brain: Adaptive Self-Wiring of Neurons

Ronen Segev; Eshel Ben-Jacob

doi:10.1142/S0219525998000053

From Neurons to Brain: Adaptive Self-Wiring of Neurons

Ronen Segev, Eshel Ben-Jacob

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Abstract

During embryonic morpho-genesis, a collection of individual neurons turns into a functioning network with unique capabilities. Only recently has this most staggering example of emergent process in the natural world, began to be studied. Here we propose a navigational strategy for neurites growth cones, based on sophisticated chemical signaling. We further propose that the embryonic environment (the neurons and the glia cells) acts as an excitable media in which concentric and spiral chemical waves are formed. Together with the navigation strategy, the chemical waves provide a mechanism for communication, regulation, and control required for the adaptive self-wiring of neurons.

Original language	English
Pages (from-to)	67-78
Journal	Advances in Complex Systems
Volume	1
Issue number	1
DOIs	https://doi.org/10.1142/S0219525998000053
State	Published - 9 Jun 1998
Externally published	Yes

Keywords

cond-mat
q-bio

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abstract = "During embryonic morpho-genesis, a collection of individual neurons turns into a functioning network with unique capabilities. Only recently has this most staggering example of emergent process in the natural world, began to be studied. Here we propose a navigational strategy for neurites growth cones, based on sophisticated chemical signaling. We further propose that the embryonic environment (the neurons and the glia cells) acts as an excitable media in which concentric and spiral chemical waves are formed. Together with the navigation strategy, the chemical waves provide a mechanism for communication, regulation, and control required for the adaptive self-wiring of neurons. ",

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AB - During embryonic morpho-genesis, a collection of individual neurons turns into a functioning network with unique capabilities. Only recently has this most staggering example of emergent process in the natural world, began to be studied. Here we propose a navigational strategy for neurites growth cones, based on sophisticated chemical signaling. We further propose that the embryonic environment (the neurons and the glia cells) acts as an excitable media in which concentric and spiral chemical waves are formed. Together with the navigation strategy, the chemical waves provide a mechanism for communication, regulation, and control required for the adaptive self-wiring of neurons.

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From Neurons to Brain: Adaptive Self-Wiring of Neurons

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