In primary visual cortex (V1), connectivity between layer 2/3 (L2/3) excitatory neurons undergoes extensive reorganization after the onset of visual experience whereby neurons with similar feature selectivity form functional microcircuits (Ko et al., 2011, 2013). It remains unknown whether visual experience is required for the developmental refinement of intracortical circuitry or whether this maturation is guided intrinsically. Here, we correlated the connectivity between V1 L2/3 neurons assayed by simultaneous whole-cell recordings in vitro to their response properties measured by two-photon calcium imaging in vivo in dark-reared mice. We found that neurons with similar responses to oriented gratings or natural movies became preferentiall...
AbstractVisual experience is known to induce developmental plasticity in visual cortex; now, Tian an...
Summary: This in vivo study shows that both intrinsic and sensory-evoked synaptic properties of laye...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
The developing brain can respond quickly to altered sensory experience by circuit reorganization. Du...
Thesis: Ph. D. in Neuroscience, Massachusetts Institute of Technology, Department of Brain and Cogni...
Hubel and Wiesel began the modern study of development and plasticity of primary visual cortex (V1),...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
The sensory cortical neurons of mammals respond selectively to particular stimulus features to obtai...
SummarySpontaneous network activity constitutes a central theme during the development of neuronal c...
Neocortical pyramidal cells (PCs) display functional specializations defined by their connectivity a...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Multiple cortical areas contribute to visual processing in mice. However, the functional organizatio...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
The fundamental structure of cortical networks arises early in development prior to the onset of sen...
The brain’s ability to resolve sensory information is limited by the receptive field properties of p...
AbstractVisual experience is known to induce developmental plasticity in visual cortex; now, Tian an...
Summary: This in vivo study shows that both intrinsic and sensory-evoked synaptic properties of laye...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
The developing brain can respond quickly to altered sensory experience by circuit reorganization. Du...
Thesis: Ph. D. in Neuroscience, Massachusetts Institute of Technology, Department of Brain and Cogni...
Hubel and Wiesel began the modern study of development and plasticity of primary visual cortex (V1),...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
The sensory cortical neurons of mammals respond selectively to particular stimulus features to obtai...
SummarySpontaneous network activity constitutes a central theme during the development of neuronal c...
Neocortical pyramidal cells (PCs) display functional specializations defined by their connectivity a...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Multiple cortical areas contribute to visual processing in mice. However, the functional organizatio...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
The fundamental structure of cortical networks arises early in development prior to the onset of sen...
The brain’s ability to resolve sensory information is limited by the receptive field properties of p...
AbstractVisual experience is known to induce developmental plasticity in visual cortex; now, Tian an...
Summary: This in vivo study shows that both intrinsic and sensory-evoked synaptic properties of laye...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...