In cortical neurons, spikes are initiated in the axon initial segment. Seen at the soma, they appear surprisingly sharp. A standard explanation is that the current coming from the axon becomes sharp as the spike is actively backpropagated to the soma. However, sharp initiation of spikes is also seen in the input–output properties of neurons, and not only in the somatic shape of spikes; for example, cortical neurons can transmit high frequency signals. An alternative hypothesis is that Na channels cooperate, but it is not currently supported by direct experimental evidence. I propose a simple explanation based on the compartmentalization of spike initiation. When Na channels are placed in the axon, the soma acts as a current sink for the Na ...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The abilities of neuronal populations to encode rapidly varying stimuli and respond quickly to abrup...
<div><p>In cortical neurons, spikes are initiated in the axon initial segment. Seen at the soma, the...
International audienceIn most vertebrate neurons, spikes initiate in the axonal initial segment (AIS...
In most vertebrate neurons, spikes initiate in the axonal initial segment (AIS). When recorded in th...
<p>A, Simplified electrical model of the axon initial segment (used for theoretical analysis but not...
Action potentials (APs) in the soma of central neurons exhibit a sharp, step-like onset dynamics, wh...
tial (AP) generation accounts for many properties of APs observed experimentally and has been succes...
Abstract The neurons in the brain produce sequential spikes as the digital codes whose various patte...
BACKGROUND: Action potentials are the essential unit of neuronal encoding. Somatic sequential spikes...
Based on a reduced two-compartment model, the dynamical and biophysical mechanism underlying the spi...
Action potentials are the essential unit of neuronal encoding. Somatic sequential spikes in the cent...
AbstractNeocortical pyramidal cells possess voltage-dependent dendritic sodium channels that promote...
<p>Left: model with simplified soma-axon geometry. Right: cortical pyramidal cell model with morphol...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The abilities of neuronal populations to encode rapidly varying stimuli and respond quickly to abrup...
<div><p>In cortical neurons, spikes are initiated in the axon initial segment. Seen at the soma, the...
International audienceIn most vertebrate neurons, spikes initiate in the axonal initial segment (AIS...
In most vertebrate neurons, spikes initiate in the axonal initial segment (AIS). When recorded in th...
<p>A, Simplified electrical model of the axon initial segment (used for theoretical analysis but not...
Action potentials (APs) in the soma of central neurons exhibit a sharp, step-like onset dynamics, wh...
tial (AP) generation accounts for many properties of APs observed experimentally and has been succes...
Abstract The neurons in the brain produce sequential spikes as the digital codes whose various patte...
BACKGROUND: Action potentials are the essential unit of neuronal encoding. Somatic sequential spikes...
Based on a reduced two-compartment model, the dynamical and biophysical mechanism underlying the spi...
Action potentials are the essential unit of neuronal encoding. Somatic sequential spikes in the cent...
AbstractNeocortical pyramidal cells possess voltage-dependent dendritic sodium channels that promote...
<p>Left: model with simplified soma-axon geometry. Right: cortical pyramidal cell model with morphol...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The dynamics and the sharp onset of action potential (AP) generation have recently been the subject ...
The abilities of neuronal populations to encode rapidly varying stimuli and respond quickly to abrup...