Emergence of clustered synapses during the development of a nervous system
Yuval Balshayi, Eduard Bokman, Alon Zaslaver

TL;DR
This paper shows that synapses cluster together early in nervous system development, forming important circuits that support functions like movement in C. elegans.
Contribution
The study reveals that synaptic clustering emerges early and is preserved across development, particularly in motor circuits of C. elegans.
Findings
Clustered synapses form early in neural network development and increase in number during development.
Synaptic clusters are maintained across developmental stages and individuals, suggesting functional importance.
Clustered synapses in the head motor system may facilitate 3D head swings in C. elegans.
Abstract
Synaptic organization is central for proper transmission of neural information. Studies in invertebrates and mammalian cortices show that synapses are clustered along neurite extensions, an organization that promotes key functional roles. Here we studied how these synaptic clusters emerge during the development of a nervous system. Leveraging the available C. elegans connectomes that span all larval developmental stages, we show that clustered synapses are formed at the early stages of the neural network development and that their occurrence further increases throughout development. These synaptic clusters significantly constitute small neural circuits that endow the network with important functional roles, such as feedback between mutually synapsing neurons and information transfer in mutually regulated neurons. Moreover, clustered synapses emerge early on during the development of…
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Taxonomy
TopicsGenetics, Aging, and Longevity in Model Organisms · Neurobiology and Insect Physiology Research · Cellular transport and secretion
