SummaryThe elaboration of nascent synaptic connections into highly ordered neural circuits is an integral feature of the developing vertebrate nervous system. In sensory systems, patterned spontaneous activity before the onset of sensation is thought to influence this process, but this conclusion remains controversial, largely due to the inherent difficulty recording neural activity in early development. Here, we describe genetic and pharmacological manipulations of spontaneous retinal activity, assayed in vivo, that demonstrate a causal link between retinal waves and visual circuit refinement. We also report a decoupling of downstream activity in retinorecipient regions of the developing brain after retinal wave disruption. Significantly, ...
Highly non-random forms of spontaneous activity are proposed to play an instrumental role in the ear...
In the immature vertebrate retina, neighboring ganglion cells express spontaneous bursting activity ...
Throughout the developing nervous system, spontaneous oscillatory patterns of activity have been obs...
SummaryThe elaboration of nascent synaptic connections into highly ordered neural circuits is an int...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
Coordinated spontaneous activity is present in different sensory systems during early stages of deve...
Complex neural circuits in the mammalian brain develop through a combination of genetic instruction ...
The development of neural circuits is perhaps one of the most fascinating phenomena of nature. Neura...
Many circuits in the developing nervous system generate spontaneous activity. This phenomenon has be...
SummaryDuring development, retinal axons project coarsely within their visual targets before refinin...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
A characteristic feature of developing neural networks is spontaneous periodic activity. In the deve...
Many developing neural circuits generate synchronized bursting activity among neighboring neurons, a...
Prior to eye-opening and the development of visual responses, the retina exhibits highly correlated ...
A neural model is described of how spontaneous retinal waves are formed in infant mammals, and how t...
Highly non-random forms of spontaneous activity are proposed to play an instrumental role in the ear...
In the immature vertebrate retina, neighboring ganglion cells express spontaneous bursting activity ...
Throughout the developing nervous system, spontaneous oscillatory patterns of activity have been obs...
SummaryThe elaboration of nascent synaptic connections into highly ordered neural circuits is an int...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
Coordinated spontaneous activity is present in different sensory systems during early stages of deve...
Complex neural circuits in the mammalian brain develop through a combination of genetic instruction ...
The development of neural circuits is perhaps one of the most fascinating phenomena of nature. Neura...
Many circuits in the developing nervous system generate spontaneous activity. This phenomenon has be...
SummaryDuring development, retinal axons project coarsely within their visual targets before refinin...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
A characteristic feature of developing neural networks is spontaneous periodic activity. In the deve...
Many developing neural circuits generate synchronized bursting activity among neighboring neurons, a...
Prior to eye-opening and the development of visual responses, the retina exhibits highly correlated ...
A neural model is described of how spontaneous retinal waves are formed in infant mammals, and how t...
Highly non-random forms of spontaneous activity are proposed to play an instrumental role in the ear...
In the immature vertebrate retina, neighboring ganglion cells express spontaneous bursting activity ...
Throughout the developing nervous system, spontaneous oscillatory patterns of activity have been obs...