Redistribution of synaptic efficacy: A mechanism to generate infinite synaptic input diversity from a homogenous population of neurons without changing absolute synaptic efficacies

Redistribution of synaptic efficacy: A mechanism to generate infinite synaptic input diversity from a homogenous population of neurons without changing absolute synaptic efficacies

Changing the reliability of neurotransmitter release results in a change in the efficay of low frequency synaptic transmission and in the rate of high frequency synaptic depression thus it can not cause an uniform change in strength of synapses and instead results in a change in the dynamics of syna...

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Bibliographic Details
Published in:Journal of physiology, Paris Vol. 90; no. 3; pp. 229 - 232
Main Authors: Markram, H, Tsodyks, M
Format: Journal Article
Language:English
Published: Elsevier Ltd 1996
Subjects:
layer 5 pyramidal neurons
pairing-induced potentiation
redistribution of synaptic efficacy
single-axon synapses
visual cortex
layer 5 pyramidal neurons
single-axon synapses
pairing-induced potentiation
visual cortex
redistribution of synaptic efficacy
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Summary:Changing the reliability of neurotransmitter release results in a change in the efficay of low frequency synaptic transmission and in the rate of high frequency synaptic depression thus it can not cause an uniform change in strength of synapses and instead results in a change in the dynamics of synaptic transmission referred to as ‘redistribution of synaptic efficacy’ (RSE). Since the change in synaptic transmission associated with RSE depends on the history of action potential activity it is concluded that RSE serves as a mechanism to generate a potentially infinite diversity of synaptic input.
ISSN:0928-4257
1769-7115
DOI:10.1016/S0928-4257(97)81429-5