GitHub - ModelDBRepository/266797: Ventral medial entorhinal cortical stellate neuron model: the role of T-type Ca2+ and persistent Na+ (Topczewska et al., accepted)

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Ventral medial entorhinal cortical stellate neuron model: the role of T-type Ca2+ and persistent Na+ (Topczewska et al., accepted)

modeldb.science/266797

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Name		Name	Last commit message	Last commit date
Latest commit History 1 Commit
mod - new		mod - new
morphology		morphology
HBP-neuron-int-cNAC_DG_v4 - Copia.hoc		HBP-neuron-int-cNAC_DG_v4 - Copia.hoc
NapIn.mod		NapIn.mod
README.html		README.html
cacumm.mod		cacumm.mod
cad2.mod		cad2.mod
cagk.mod		cagk.mod
catb.mod		catb.mod
cell_seed4_0_v4.hoc		cell_seed4_0_v4.hoc
exp2synNMDA.mod		exp2synNMDA.mod
fig5.ses		fig5.ses
gclamp.mod		gclamp.mod
h.mod		h.mod
hcn.mod		hcn.mod
kap.mod		kap.mod
kca.mod		kca.mod
kdr.mod		kdr.mod
kmb.mod		kmb.mod
mosinit.hoc		mosinit.hoc
nax.mod		nax.mod
spines.mod		spines.mod
vecevent.mod		vecevent.mod

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<html>
<p>Model
files in the NEURON simulation environment (v8.0.0) from the paper:</p>
<p><b>"T-type Ca 2+ and persistent Na + currents synergistically elevate ventral, not dorsal, entorhinal
cortical stellate cell excitability.
”</b></p>
<p>By
Aleksandra Topczewska 1 , Elisabetta Giacalone 2 , Wendy S. Pratt 3 , Michele Migliore 2 , Annette
C. Dolphin 3 and Mala M. Shah 1* .
1 Pharmacology, School of Pharmacy, University College London, WC1N 4AX UK; 2 Institute
of Biophysics, National Research Council, 90146 Palermo, Italy; 3 Neuroscience, Physiology
and Pharmacology, University College London, WC1E 6BT, UK.
<p></p>
<p>Auto-launch
from ModelDB or:</p>
<p>Compile
the mod files with mknrndll (mswin or graphical mac) or nrnivmodl
(unix/linux)). Start the simulation by (unix/linux) typing on the
command line:</p>
<p>nrngui
mosinit.hoc</p>
<p>or
(mac os x) drag and dropping the mosinit.hoc file on the nrngui icon
or (mswin) double clicking on the mosinit.hoc file.</p>
<p><br/>
<br/>

</p>
<p>mosinit.hoc will reproduce the simulated traces in Fig.5 of the paper.</p>
<p>Click on buttons "50pA", "100pA", "200pA", "250pA" to run the simulations at different current injection in all the conditions:</p>
<p><br/>
  - Control (black line)<p/>
  <p/>
  - No CaT (red line)<p/>
  <p/>
  - No NaP (blue line)<p/>
  <p/>
  - No CaT + No NaP (green line)<p/>
  <p/>
  Questions on how to use this model should be directed to elisabetta.giacalone@ibf.cnr.it 
  If you need more help running the model on your platform, please consult this page:<p/>
  <a href="https://senselab.med.yale.edu/ModelDB/NEURON_DwnldGuide.cshtml">https://senselab.med.yale.edu/ModelDB/NEURON_DwnldGuide.cshtml</a>
 
<br/>
</p>
</html>