AbstractNeurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and what determines their form and dimensions? To answer these questions, I consider the wiring up of a large highly interconnected neuronal network, such as the cortical column. Implementation of such a network in the allotted volume requires all the salient features of neuronal morphology: the existence of branching dendrites and axons and the presence of dendritic spines. Therefore, the requirement of high interconnectivity is, in itself, sufficient to account for the existence of these features. Moreover, the actual lengths of axons and dendrites are close to the smallest possible length for a given interconnectivity, arguing that high interco...
AbstractWhat governs the shape and size of a neuron's dendritic arbor? Part of the answer lies in th...
Over hundreds of millions of years, evolution has optimized brain design to maximize its functionali...
Synaptic clustering on dendritic branches enhances plasticity, input integration and neuronal firing...
Neurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and what dete...
AbstractNeurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and w...
It has become increasingly clear that the neurons in the cerebral cortex are not randomly interconne...
Synaptic connectivity between neurons is naturally constrained by the anatomical overlap of neuronal...
The connectivity of cortical microcircuits is a major determinant of brain function; defining how ac...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Neuronal signal integration and information processing in cortical networks critically depend on the...
A neuron's contribution to the information flow within a neural circuit is governed by the structure...
Synaptic clustering on dendritic branches enhances plasticity, input integration and neuronal firing...
Neuronal signal integration and information processing in cortical networks critically depend on the...
AbstractBrain function relies on specificity of synaptic connectivity patterns among different class...
SummaryThe tree-like structures of a neuron that are responsible for distributing (axons) or collect...
AbstractWhat governs the shape and size of a neuron's dendritic arbor? Part of the answer lies in th...
Over hundreds of millions of years, evolution has optimized brain design to maximize its functionali...
Synaptic clustering on dendritic branches enhances plasticity, input integration and neuronal firing...
Neurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and what dete...
AbstractNeurons often possess elaborate axonal and dendritic arbors. Why do these arbors exist and w...
It has become increasingly clear that the neurons in the cerebral cortex are not randomly interconne...
Synaptic connectivity between neurons is naturally constrained by the anatomical overlap of neuronal...
The connectivity of cortical microcircuits is a major determinant of brain function; defining how ac...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Neuronal signal integration and information processing in cortical networks critically depend on the...
A neuron's contribution to the information flow within a neural circuit is governed by the structure...
Synaptic clustering on dendritic branches enhances plasticity, input integration and neuronal firing...
Neuronal signal integration and information processing in cortical networks critically depend on the...
AbstractBrain function relies on specificity of synaptic connectivity patterns among different class...
SummaryThe tree-like structures of a neuron that are responsible for distributing (axons) or collect...
AbstractWhat governs the shape and size of a neuron's dendritic arbor? Part of the answer lies in th...
Over hundreds of millions of years, evolution has optimized brain design to maximize its functionali...
Synaptic clustering on dendritic branches enhances plasticity, input integration and neuronal firing...