AbstractThe embryonic nervous system is refined over the course of development as a result of the twin processes of naturally occurring cell death and selective axon pruning. Recent studies provide new insights into the molecular events that underlie axon pruning and underscore the diversity of refinement processes employed by the nervous system during development
Axon pruning and neuronal cell death constitute two major regressive events that enable the establis...
SummaryBackgroundThe molecular mechanisms that determine axonal growth potential are poorly understo...
Brain connectivity and function depend on the precise formation of neuronal connections during devel...
AbstractThe embryonic nervous system is refined over the course of development as a result of the tw...
SummaryUsing light and serial electron microscopy, we show profound refinements in motor axonal bran...
Development of the nervous system requires proper neural connectivity of the axons to their targets....
The formation of neural connections in the mammalian nervous system is a complex process. During dev...
The assembly of functional neural circuits requires the combined action of progressive and regressiv...
Axonal branching allows a neuron to connect to several targets, increasing neuronal circuit complexi...
The development of axonal arbors is a critical step in the establishment of precise neural circuits,...
SummaryAxon pruning by degeneration remodels exuberant axonal connections and is widely required for...
<p>(A) Scheme of developmental pruning of MB γ neurons. During larval development and up to puparium...
SummaryImmature neural circuits form excessive synaptic connections that are later refined through p...
The mechanisms that regulate the pruning of mammalian axons are just now being elucidated. Here, we ...
Brain connectivity and function depend on the precise formation of neuronal connections during devel...
Axon pruning and neuronal cell death constitute two major regressive events that enable the establis...
SummaryBackgroundThe molecular mechanisms that determine axonal growth potential are poorly understo...
Brain connectivity and function depend on the precise formation of neuronal connections during devel...
AbstractThe embryonic nervous system is refined over the course of development as a result of the tw...
SummaryUsing light and serial electron microscopy, we show profound refinements in motor axonal bran...
Development of the nervous system requires proper neural connectivity of the axons to their targets....
The formation of neural connections in the mammalian nervous system is a complex process. During dev...
The assembly of functional neural circuits requires the combined action of progressive and regressiv...
Axonal branching allows a neuron to connect to several targets, increasing neuronal circuit complexi...
The development of axonal arbors is a critical step in the establishment of precise neural circuits,...
SummaryAxon pruning by degeneration remodels exuberant axonal connections and is widely required for...
<p>(A) Scheme of developmental pruning of MB γ neurons. During larval development and up to puparium...
SummaryImmature neural circuits form excessive synaptic connections that are later refined through p...
The mechanisms that regulate the pruning of mammalian axons are just now being elucidated. Here, we ...
Brain connectivity and function depend on the precise formation of neuronal connections during devel...
Axon pruning and neuronal cell death constitute two major regressive events that enable the establis...
SummaryBackgroundThe molecular mechanisms that determine axonal growth potential are poorly understo...
Brain connectivity and function depend on the precise formation of neuronal connections during devel...
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