Add to ORKGQuantitatively comparing brain-wide connectivity of different types of neuron is of vital importance in understanding the function of the mammalian cortex. Here we have designed an analytical approach to examine and compare datasets from hierarchical segmentation ontologies, and applied it to long-range presynaptic connectivity onto excitatory and inhibitory neurons, mainly located in layer 2/3 (L2/3), of mouse primary visual cortex (V1). We find that the origins of long-range connections onto these two general cell classes-as well as their proportions-are quite similar, in contrast to the inputs on to a cell type in L6. These anatomical data suggest that distal inputs received by the general excitatory and inhibitory classes of neuron in L...
The selectivity of neuronal responses arises from the architecture of excitatory and inhibitory conn...
The connectivity diagram of neocortical circuits is still unknown, and there are conflicting data as...
The strength of synaptic connections fundamentally determines how neurons influence each other's fir...
Long-range neuronal circuits play an important role in motor and sensory information processing. Det...
The central goal of this study was to generate synapse-resolution maps of local and long-range inner...
The rules by which neurons in neocortex choose their synaptic partners are not fully understood. In ...
SummaryBackground: Cortical inhibition plays a critical role in controlling and modulating cortical ...
BackgroundCortical inhibition plays a critical role in controlling and modulating cortical excitatio...
SummaryLayer 1 (L1) of primary visual cortex (V1) is the target of projections from many brain regio...
Neocortical pyramidal cells (PCs) display functional specializations defined by their connectivity a...
Background Cortical inhibition plays a critical role in controlling and modulating cortical excitati...
Long-range neuronal circuits play an important role in motor and sensory information processing. Det...
<p>Excitatory projection neurons of the neocortex are thought to play important roles in perceptual ...
SummaryIn the rodent vibrissal system, active sensation and sensorimotor integration are mediated in...
The cytoarchitectonic similarities of different neocortical regions have given rise to the idea of '...
The selectivity of neuronal responses arises from the architecture of excitatory and inhibitory conn...
The connectivity diagram of neocortical circuits is still unknown, and there are conflicting data as...
The strength of synaptic connections fundamentally determines how neurons influence each other's fir...
Long-range neuronal circuits play an important role in motor and sensory information processing. Det...
The central goal of this study was to generate synapse-resolution maps of local and long-range inner...
The rules by which neurons in neocortex choose their synaptic partners are not fully understood. In ...
SummaryBackground: Cortical inhibition plays a critical role in controlling and modulating cortical ...
BackgroundCortical inhibition plays a critical role in controlling and modulating cortical excitatio...
SummaryLayer 1 (L1) of primary visual cortex (V1) is the target of projections from many brain regio...
Neocortical pyramidal cells (PCs) display functional specializations defined by their connectivity a...
Background Cortical inhibition plays a critical role in controlling and modulating cortical excitati...
Long-range neuronal circuits play an important role in motor and sensory information processing. Det...
<p>Excitatory projection neurons of the neocortex are thought to play important roles in perceptual ...
SummaryIn the rodent vibrissal system, active sensation and sensorimotor integration are mediated in...
The cytoarchitectonic similarities of different neocortical regions have given rise to the idea of '...
The selectivity of neuronal responses arises from the architecture of excitatory and inhibitory conn...
The connectivity diagram of neocortical circuits is still unknown, and there are conflicting data as...
The strength of synaptic connections fundamentally determines how neurons influence each other's fir...