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Layer V PFC pyramidal neuron used to study persistent activity (Sidiropoulou & Poirazi 2012)
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Accession:
144089
"... Here, we use a compartmental modeling approach to search for discriminatory features in the properties of incoming stimuli to a PFC pyramidal neuron and/or its response that signal which of these stimuli will result in persistent activity emergence. Furthermore, we use our modeling approach to study cell-type specific differences in persistent activity properties, via implementing a regular spiking (RS) and an intrinsic bursting (IB) model neuron. ... Collectively, our results pinpoint to specific features of the neuronal response to a given stimulus that code for its ability to induce persistent activity and predict differential roles of RS and IB neurons in persistent activity expression. "
Reference:
1 .
Sidiropoulou K, Poirazi P (2012) Predictive features of persistent activity emergence in regular spiking and intrinsic bursting model neurons.
PLoS Comput Biol
8
:e1002489
[
PubMed
]
Model Information
(Click on a link to find other models with that property)
Model Type:
Neuron or other electrically excitable cell;
Brain Region(s)/Organism:
Cell Type(s):
Neocortex L5/6 pyramidal GLU cell;
Channel(s):
I Na,p;
I Na,t;
I L high threshold;
I A;
I K;
I K,Ca;
I CAN;
Gap Junctions:
Receptor(s):
GabaA;
GabaB;
AMPA;
NMDA;
IP3;
Gene(s):
Transmitter(s):
Gaba;
Glutamate;
Simulation Environment:
NEURON;
Model Concept(s):
Activity Patterns;
Detailed Neuronal Models;
Implementer(s):
Sidiropoulou, Kyriaki [sidirop at imbb.forth.gr];
Search NeuronDB
for information about:
Neocortex L5/6 pyramidal GLU cell
;
GabaA
;
GabaB
;
AMPA
;
NMDA
;
IP3
;
I Na,p
;
I Na,t
;
I L high threshold
;
I A
;
I K
;
I K,Ca
;
I CAN
;
Gaba
;
Glutamate
;
Download the displayed file
/
PFCcell
lib
basic-graphics.hoc
*
Other models using basic-graphics.hoc:
L5 PFC pyramidal neurons (Papoutsi et al. 2017)
choose-secs.hoc
current-balance.hoc
cut-sections.hoc
*
Other models using cut-sections.hoc:
Amyloid-beta effects on release probability and integration at CA3-CA1 synapses (Romani et al. 2013)
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: depolarization block (Bianchi et al. 2012)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Linear vs non-linear integration in CA1 oblique dendrites (Gómez González et al. 2011)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
distance.hoc
ken.h
*
Other models using ken.h:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
map-segments-to-3d.hoc
*
Other models using map-segments-to-3d.hoc:
Amyloid-beta effects on release probability and integration at CA3-CA1 synapses (Romani et al. 2013)
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: depolarization block (Bianchi et al. 2012)
CA1 pyramidal neuron: synaptic plasticity during theta cycles (Saudargiene et al. 2015)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Linear vs non-linear integration in CA1 oblique dendrites (Gómez González et al. 2011)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
mod_func.c
*
Other models using mod_func.c:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
newshiftsyn
*
Other models using newshiftsyn:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
newshiftsyn.c
*
Other models using newshiftsyn.c:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
num-rec.h
*
Other models using num-rec.h:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
salloc.hoc
vector-distance.hoc
*
Other models using vector-distance.hoc:
Amyloid-beta effects on release probability and integration at CA3-CA1 synapses (Romani et al. 2013)
CA1 pyramidal neuron (Combe et al 2018)
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: dendritic Ca2+ inhibition (Muellner et al. 2015)
CA1 pyramidal neuron: depolarization block (Bianchi et al. 2012)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Linear vs non-linear integration in CA1 oblique dendrites (Gómez González et al. 2011)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
verbose-system.hoc
*
Other models using verbose-system.hoc:
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
Linear vs non-linear integration in CA1 oblique dendrites (Gómez González et al. 2011)
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
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