It is widely recognized that propagation of electrophysiological signals between the soma and dendrites of neurons differs depending on direction, i.e. it is asymmetric. How this asymmetry influences the activation of voltage-gated dendritic channels, and consequent neuronal behavior, remains unclear. Based on the analysis of asymmetry in several types of motoneurons, we extended our previous methodology for reducing a fully reconstructed motoneuron model to a two-compartment representation that preserved asymmetric signal propagation. The reduced models accurately replicated the dendritic excitability and the dynamics of the anatomical model involving a persistent inward current (PIC) dispersed over the dendrites. The relationship between ...
<div><p>Our goal was to investigate how the propagation of alternating signals (i.e. AC), like actio...
<div><p>The mechanisms by which the gain of the neuronal input-output function may be modulated have...
The dendritic trees of neurons are structurally and functionally complex integrative units receiving...
Action potential propagation links information processing in different regions of the dendritic tree...
Many neurons have extensive dendritic trees, and therefore somatic voltage clamp of dendritic synaps...
<p>The neuron models and stimulation protocols were the same as those used in <a href="http://www.pl...
Synaptic inputs to neurons are processed in a frequency-dependent manner, with either low-pass or re...
AbstractAction potentials generated near the soma propagate not only into the axonal nerve connectin...
Action potentials generated near the soma propagate not only into the axonal nerve connecting to the...
Reducing neuronal size results in less cell membrane and therefore lower input conductance. Smaller ...
<p>(A–C): Dendro-somatic transfer impedances for an entirely passive neuron (A), a cell with h-chann...
<p>(A) Schematic of the standard model used throughout the study showing the spatial dimensions of t...
Regardless of the site of current injection, action potentials usually originate at or near the soma...
In mammalian neurons, the axon initial segment (AIS) electrically connects the somatodendritic compa...
Our goal was to investigate how the propagation of alternating signals (i.e. AC), like action potent...
<div><p>Our goal was to investigate how the propagation of alternating signals (i.e. AC), like actio...
<div><p>The mechanisms by which the gain of the neuronal input-output function may be modulated have...
The dendritic trees of neurons are structurally and functionally complex integrative units receiving...
Action potential propagation links information processing in different regions of the dendritic tree...
Many neurons have extensive dendritic trees, and therefore somatic voltage clamp of dendritic synaps...
<p>The neuron models and stimulation protocols were the same as those used in <a href="http://www.pl...
Synaptic inputs to neurons are processed in a frequency-dependent manner, with either low-pass or re...
AbstractAction potentials generated near the soma propagate not only into the axonal nerve connectin...
Action potentials generated near the soma propagate not only into the axonal nerve connecting to the...
Reducing neuronal size results in less cell membrane and therefore lower input conductance. Smaller ...
<p>(A–C): Dendro-somatic transfer impedances for an entirely passive neuron (A), a cell with h-chann...
<p>(A) Schematic of the standard model used throughout the study showing the spatial dimensions of t...
Regardless of the site of current injection, action potentials usually originate at or near the soma...
In mammalian neurons, the axon initial segment (AIS) electrically connects the somatodendritic compa...
Our goal was to investigate how the propagation of alternating signals (i.e. AC), like action potent...
<div><p>Our goal was to investigate how the propagation of alternating signals (i.e. AC), like actio...
<div><p>The mechanisms by which the gain of the neuronal input-output function may be modulated have...
The dendritic trees of neurons are structurally and functionally complex integrative units receiving...