Correlations in local neocortical spiking activity can provide insight into the underlying organization of cortical microcircuitry. However, identifying structure in patterned multi-neuronal spiking remains a daunting task due to the high dimensionality of the activity. Using two-photon imaging, we monitored spontaneous circuit dynamics in large, densely sampled neuronal populations within slices of mouse primary auditory, somatosensory, and visual cortex. Using the lagged correlation of spiking activity between neurons, we generated functional wiring diagrams to gain insight into the underlying neocortical circuitry. By establishing the presence of graph invariants, which are label-independent characteristics common to all circuit topologi...
The cerebral cortex is one of the most intricate natural systems known, due to the multitude and het...
Determining the neuronal architecture underlying certain visual functions is of fundamental importan...
Abstract Visual processing and behavior depend on specialized neural representations and information...
Mapping the flow of activity through neocortical microcircuits provides key insights into the underl...
To meet the demands of survival, the central nervous system has to simultaneously encode the externa...
Neural systems can be modeled as complex networks in which neural elements are represented as nodes ...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
Neural networks in visual cortex are structured into areas, layers, and neuronal populations with sp...
Circuits in the cerebral cortex consist of thousands of neurons connected by millions of synapses. A...
The neocortex is organized into local recurrent microcircuits that are connected along vertical colu...
Cortical circuits exhibit highly dynamic and complex neural activity. Intriguingly, cortical activit...
Although individual pyramidal neurons of neocortex show sparse and variable responses to sensory sti...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
During cortical circuit development in the mammalian brain, groups of excitatory neurons that receiv...
Mounting evidence supports the hypothesis that the cortex operates near a critical state, defined as...
The cerebral cortex is one of the most intricate natural systems known, due to the multitude and het...
Determining the neuronal architecture underlying certain visual functions is of fundamental importan...
Abstract Visual processing and behavior depend on specialized neural representations and information...
Mapping the flow of activity through neocortical microcircuits provides key insights into the underl...
To meet the demands of survival, the central nervous system has to simultaneously encode the externa...
Neural systems can be modeled as complex networks in which neural elements are represented as nodes ...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
Neural networks in visual cortex are structured into areas, layers, and neuronal populations with sp...
Circuits in the cerebral cortex consist of thousands of neurons connected by millions of synapses. A...
The neocortex is organized into local recurrent microcircuits that are connected along vertical colu...
Cortical circuits exhibit highly dynamic and complex neural activity. Intriguingly, cortical activit...
Although individual pyramidal neurons of neocortex show sparse and variable responses to sensory sti...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
During cortical circuit development in the mammalian brain, groups of excitatory neurons that receiv...
Mounting evidence supports the hypothesis that the cortex operates near a critical state, defined as...
The cerebral cortex is one of the most intricate natural systems known, due to the multitude and het...
Determining the neuronal architecture underlying certain visual functions is of fundamental importan...
Abstract Visual processing and behavior depend on specialized neural representations and information...