SummaryMammalian sensory circuits become refined over development in an activity-dependent manner. Retinal ganglion cell (RGC) axons from each eye first map to their target in the geniculate and then segregate into eye-specific layers by the removal and addition of axon branches. Once segregation is complete, robust functional remodeling continues as the number of afferent inputs to each geniculate neuron decreases from many to a few. It is widely assumed that large-scale axon retraction underlies this later phase of circuit refinement. On the contrary, RGC axons remain stable during functional pruning. Instead, presynaptic boutons grow in size and cluster during this process. Moreover, they exhibit dynamic spatial reorganization in respons...
SummaryActivity-dependent refinement of neural circuits is a fundamental principle of neural develop...
The brain is composed of many anatomically distinct areas that control different functions. A common...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
SummaryA hallmark of mammalian neural circuit development is the refinement of initially imprecise c...
AbstractAnatomical rearrangement of retinogeniculate connections contributes to the refinement of sy...
SummaryOur understanding of how mammalian sensory circuits are organized and develop has long been h...
AbstractThe retinal synaptic network continues its maturational refinement after eye opening in mamm...
A hallmark of mammalian neural circuit development is the refinement of initially imprecise connecti...
AbstractDuring retinocollicular map development, spontaneous waves of action potentials spread acros...
SummaryThe elaboration of nascent synaptic connections into highly ordered neural circuits is an int...
<div><p>Lasting alterations in sensory input trigger massive structural and functional adaptations i...
Lasting alterations in sensory input trigger massive structural and functional adaptations in cortic...
<p><i>A</i>, Time-lapse development of a group of axons from a specific retinal location. The retina...
Persistent synapses are thought to underpin the storage of sensory experience. Yet, little is known ...
The developmental refinement of topographic projections in the brain is reflected in the dynamic scu...
SummaryActivity-dependent refinement of neural circuits is a fundamental principle of neural develop...
The brain is composed of many anatomically distinct areas that control different functions. A common...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
SummaryA hallmark of mammalian neural circuit development is the refinement of initially imprecise c...
AbstractAnatomical rearrangement of retinogeniculate connections contributes to the refinement of sy...
SummaryOur understanding of how mammalian sensory circuits are organized and develop has long been h...
AbstractThe retinal synaptic network continues its maturational refinement after eye opening in mamm...
A hallmark of mammalian neural circuit development is the refinement of initially imprecise connecti...
AbstractDuring retinocollicular map development, spontaneous waves of action potentials spread acros...
SummaryThe elaboration of nascent synaptic connections into highly ordered neural circuits is an int...
<div><p>Lasting alterations in sensory input trigger massive structural and functional adaptations i...
Lasting alterations in sensory input trigger massive structural and functional adaptations in cortic...
<p><i>A</i>, Time-lapse development of a group of axons from a specific retinal location. The retina...
Persistent synapses are thought to underpin the storage of sensory experience. Yet, little is known ...
The developmental refinement of topographic projections in the brain is reflected in the dynamic scu...
SummaryActivity-dependent refinement of neural circuits is a fundamental principle of neural develop...
The brain is composed of many anatomically distinct areas that control different functions. A common...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...