The dendritic tree of neurons plays an important role in information processing in the brain. While it is thought that dendrites require independent subunits to perform most of their computations, it is still not understood how they compartmentalize into functional subunits. Here, we show how these subunits can be deduced from the properties of dendrites. We devised a formalism that links the dendritic arborization to an impedance-based tree graph and show how the topology of this graph reveals independent subunits. This analysis reveals that cooperativity between synapses decreases slowly with increasing electrical separation and thus that few independent subunits coexist. We nevertheless find that balanced inputs or shunting inhibition ca...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
Neuron models with explicit dendritic dynamics have shed light on mechanisms for coincidence detecti...
The discovery of binary dendritic events such as local NMDA spikes in dendritic subbranches led to t...
Summary: The dendritic tree of neurons plays an important role in information processing in the brai...
Single neurons in the brain exhibit astounding computational capabilities, which gradually emerge th...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Decades of experimental and theoretical work support a now well-established theory that active dendr...
Neurons are the computational building blocks of our brains. They form complicated net- works that p...
One of the key questions in neuroscience is how our brain self-organises to efficiently process info...
AbstractNeurons receive synaptic inputs primarily onto their dendrites, which filter synaptic potent...
Synapses are located throughout the often-elaborate dendritic tree of central neurons. Hebbian model...
The integration of excitatory inputs in dendrites is non-linear: multiple excita-tory inputs can pro...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
The dendritic tree contributes significantly to the elementary computations a neuron performs while ...
The significant role of dendritic processing within neuronal networks has become increasingly clear....
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
Neuron models with explicit dendritic dynamics have shed light on mechanisms for coincidence detecti...
The discovery of binary dendritic events such as local NMDA spikes in dendritic subbranches led to t...
Summary: The dendritic tree of neurons plays an important role in information processing in the brai...
Single neurons in the brain exhibit astounding computational capabilities, which gradually emerge th...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Decades of experimental and theoretical work support a now well-established theory that active dendr...
Neurons are the computational building blocks of our brains. They form complicated net- works that p...
One of the key questions in neuroscience is how our brain self-organises to efficiently process info...
AbstractNeurons receive synaptic inputs primarily onto their dendrites, which filter synaptic potent...
Synapses are located throughout the often-elaborate dendritic tree of central neurons. Hebbian model...
The integration of excitatory inputs in dendrites is non-linear: multiple excita-tory inputs can pro...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
The dendritic tree contributes significantly to the elementary computations a neuron performs while ...
The significant role of dendritic processing within neuronal networks has become increasingly clear....
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
Neuron models with explicit dendritic dynamics have shed light on mechanisms for coincidence detecti...
The discovery of binary dendritic events such as local NMDA spikes in dendritic subbranches led to t...