Spontaneous retinal activity (known as "waves") remodels synaptic connectivity to the lateral geniculate nucleus (LGN) during development. Analysis of retinal waves recorded with multielectrode arrays in mouse suggested that a cue for the segregation of functionally distinct (ON and OFF) retinal ganglion cells (RGCs) in the LGN may be a desynchronization in their firing, where ON cells precede OFF cells by one second. Using the recorded retinal waves as input, with two different modeling approaches we explore timing-based plasticity rules for the evolution of synaptic weights to identify key features underlying ON/OFF segregation. First, we analytically derive a linear model for the evolution of ON and OFF weights, to understand how synapti...
<div><p>Neuronal output requires a concerted balance between excitatory and inhibitory (I/E) input. ...
AbstractA role for spontaneous spiking activity in shaping neuronal circuits has frequently been deb...
AbstractDuring retinocollicular map development, spontaneous waves of action potentials spread acros...
Patterned spontaneous activity in the developing retina is necessary to drive synaptic refinement in...
Patterned spontaneous activity in the developing retina is necessary to drive synaptic refinement in...
AbstractIn adult ferrets, retinal ganglion cells (RGCs) responsive to increased (On) or decreased (O...
BackgroundSpontaneous retinal activity (SRA) is important during eye-specific segregation within the...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
SummaryPatterns of coordinated spontaneous activity have been proposed to guide circuit refinement i...
SummaryDuring development, retinal axons project coarsely within their visual targets before refinin...
Before visual information from the retina reaches primary visual cortex (V1), it is dynamically filt...
Spontaneous retinal activity is necessary to establish and maintain eye-specific projections to the ...
<p>, Spatial segregation of retinal afferents is observed when two retinas with independent patterns...
AbstractBefore vision, retinal ganglion cells produce spontaneous waves of action potentials. A cruc...
Synchronous firing among the elements of forming circuits is critical for stabilization of synapses....
<div><p>Neuronal output requires a concerted balance between excitatory and inhibitory (I/E) input. ...
AbstractA role for spontaneous spiking activity in shaping neuronal circuits has frequently been deb...
AbstractDuring retinocollicular map development, spontaneous waves of action potentials spread acros...
Patterned spontaneous activity in the developing retina is necessary to drive synaptic refinement in...
Patterned spontaneous activity in the developing retina is necessary to drive synaptic refinement in...
AbstractIn adult ferrets, retinal ganglion cells (RGCs) responsive to increased (On) or decreased (O...
BackgroundSpontaneous retinal activity (SRA) is important during eye-specific segregation within the...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
SummaryPatterns of coordinated spontaneous activity have been proposed to guide circuit refinement i...
SummaryDuring development, retinal axons project coarsely within their visual targets before refinin...
Before visual information from the retina reaches primary visual cortex (V1), it is dynamically filt...
Spontaneous retinal activity is necessary to establish and maintain eye-specific projections to the ...
<p>, Spatial segregation of retinal afferents is observed when two retinas with independent patterns...
AbstractBefore vision, retinal ganglion cells produce spontaneous waves of action potentials. A cruc...
Synchronous firing among the elements of forming circuits is critical for stabilization of synapses....
<div><p>Neuronal output requires a concerted balance between excitatory and inhibitory (I/E) input. ...
AbstractA role for spontaneous spiking activity in shaping neuronal circuits has frequently been deb...
AbstractDuring retinocollicular map development, spontaneous waves of action potentials spread acros...