The connectivity of cortical microcircuits is a major determinant of brain function; defining how activity propagates between different cell types is key to scaling our understanding of individual neuronal behaviour to encompass functional networks. Furthermore, the integration of synaptic currents within a dendrite depends on the spatial organisation of inputs, both excitatory and inhibitory. We identify a simple equation to estimate the number of potential anatomical contacts between neurons; finding a linear increase in potential connectivity with cable length and maximum spine length, and a decrease with overlapping volume. This enables us to predict the mean number of candidate synapses for reconstructed cells, including those realisti...
Neural connectivity at the cellular and mesoscopic level appears very specific and is presumed to ar...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Neurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and what dete...
Neuronal signal integration and information processing in cortical networks critically depend on the...
Neuronal signal integration and information processing in cortical networks critically depend on the...
AbstractNeurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and w...
Neuronal signal integration and information processing in cortical networks critically depend on the...
Circuits in the cerebral cortex consist of thousands of neurons connected by millions of synapses. A...
AbstractChanges in synaptic connectivity patterns through the formation and elimination of dendritic...
The manner by which axons distribute synaptic connections along dendrites remains a fundamental unre...
Changes in synaptic connectivity patterns through the formation and elimination of dendritic spines ...
Discovering the rules of connectivity between neurons in the brain is a necessary step in the path t...
Neural connectivity at the cellular andmesoscopic level appears very specific and is presumed to ari...
Abstract: Integration of synaptic currents across an extensive dendritic tree is a prerequisite for ...
Neural connectivity at the cellular and mesoscopic level appears very specific and is presumed to ar...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Neurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and what dete...
Neuronal signal integration and information processing in cortical networks critically depend on the...
Neuronal signal integration and information processing in cortical networks critically depend on the...
AbstractNeurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and w...
Neuronal signal integration and information processing in cortical networks critically depend on the...
Circuits in the cerebral cortex consist of thousands of neurons connected by millions of synapses. A...
AbstractChanges in synaptic connectivity patterns through the formation and elimination of dendritic...
The manner by which axons distribute synaptic connections along dendrites remains a fundamental unre...
Changes in synaptic connectivity patterns through the formation and elimination of dendritic spines ...
Discovering the rules of connectivity between neurons in the brain is a necessary step in the path t...
Neural connectivity at the cellular andmesoscopic level appears very specific and is presumed to ari...
Abstract: Integration of synaptic currents across an extensive dendritic tree is a prerequisite for ...
Neural connectivity at the cellular and mesoscopic level appears very specific and is presumed to ar...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...