A multilayer cortical model to study seizure propagation across microdomains (Basu et al. 2015)

 Download zip file 
Help downloading and running models
Accession:206238
A realistic neural network was used to simulate a region of neocortex to obtain extracellular LFPs from ‘virtual micro-electrodes’ and produce test data for comparison with multisite microelectrode recordings. A model was implemented in the GENESIS neurosimulator. A simulated region of cortex was represented by layers 2/3, 5/6 (interneurons and pyramidal cells) and layer 4 stelate cells, spaced at 25 µm in each horizontal direction. Pyramidal cells received AMPA and NMDA inputs from neighboring cells at the basal and apical dendrites. The LFP data was generated by simulating 16-site electrode array with the help of ‘efield’ objects arranged at the predetermined positions with respect to the surface of the simulated network. The LFP for the model is derived from a weighted average of the current sources summed over all cellular compartments. Cell models were taken from from Traub et al. (2005) J Neurophysiol 93(4):2194-232.
References:
1 . Basu I, Kudela P, Korzeniewska A, Franaszczuk PJ, Anderson WS (2015) A study of the dynamics of seizure propagation across micro domains in the vicinity of the seizure onset zone. J Neural Eng 12:046016 [PubMed]
2 . Basu I, Kudela P, Anderson WS (2014) Determination of seizure propagation across microdomains using spectral measures of causality. Conf Proc IEEE Eng Med Biol Soc 2014:6349-52 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network;
Brain Region(s)/Organism: Neocortex;
Cell Type(s): Neocortex U1 L2/6 pyramidal intratelencephalic GLU cell; Neocortex U1 L5B pyramidal pyramidal tract GLU cell; Thalamus reticular nucleus GABA cell; Neocortex spiking low threshold (LTS) neuron; Neocortex spiking regular (RS) neuron; Neocortex layer 2-3 interneuron; Neocortex layer 5 interneuron;
Channel(s): I Na,p; I Na,t; I K; I A; I M; I h; I K,Ca; I A, slow; I L high threshold; I T low threshold; I Calcium;
Gap Junctions: Gap junctions;
Receptor(s): AMPA; GabaA; NMDA;
Gene(s):
Transmitter(s): Glutamate; Gaba; Amino Acids;
Simulation Environment: GENESIS;
Model Concept(s): Activity Patterns; Epilepsy;
Implementer(s): Anderson, WS ; Kudela, Pawel ;
Search NeuronDB for information about:  Thalamus reticular nucleus GABA cell; Neocortex U1 L5B pyramidal pyramidal tract GLU cell; Neocortex U1 L2/6 pyramidal intratelencephalic GLU cell; GabaA; AMPA; NMDA; I Na,p; I Na,t; I L high threshold; I T low threshold; I A; I K; I M; I h; I K,Ca; I Calcium; I A, slow; Amino Acids; Gaba; Glutamate;
/
BasuEtAl2015
axonaldelays.g
B23FS.g
B23FS_B23FS.g
B23FS_B23FS_Gap.g
B23FS_B23FS_TraubGap.g
B23FS_C23FS.g
B23FS_I23LTS.g
B23FS_P23FRBa.g
B23FS_P23RSa.g
B23FS_P23RSb.g
B23FS_P23RSc.g
B23FS_P23RSd.g
B23FS_raninput.g
B23FS_ST4RS.g
B23FS_synapsedefs.g
B23FScell3Dpk.p
B23FSchanpk.g
B23FSprotodefs.g
B23FSsyncond.g
B5FS.g
B5FS_B5FS.g
B5FS_B5FS_Gap.g
B5FS_B5FS_TraubGap.g
B5FS_C5FS.g
B5FS_I5LTS.g
B5FS_P5IBa.g
B5FS_P5IBb.g
B5FS_P5IBc.g
B5FS_P5IBd.g
B5FS_P5RSa.g
B5FS_P6RSa.g
B5FS_P6RSb.g
B5FS_P6RSc.g
B5FS_P6RSd.g
B5FS_raninput.g
B5FS_ST4RS.g
B5FS_synapsedefs.g
B5FScell3Dpk.p
B5FSchanpk.g
B5FSprotodefs.g
B5FSsyncond.g
BinarySpikeClasswrite.g
C23FS.g
C23FS_P23FRBa.g
C23FS_P23RSa.g
C23FS_P23RSb.g
C23FS_P23RSc.g
C23FS_P23RSd.g
C23FS_P5IBa.g
C23FS_P5IBb.g
C23FS_P5IBc.g
C23FS_P5IBd.g
C23FS_P5RSa.g
C23FS_P6RSa.g
C23FS_P6RSb.g
C23FS_P6RSc.g
C23FS_P6RSd.g
C23FS_raninput.g
C23FS_ST4RS.g
C23FS_synapsedefs.g
C23FScell3Dpk.p
C23FSchanpk.g
C23FSprotodefs.g
C23FSsyncond.g
C5FS.g
C5FS_P23FRBa.g
C5FS_P23RSa.g
C5FS_P23RSb.g
C5FS_P23RSc.g
C5FS_P23RSd.g
C5FS_P5IBa.g
C5FS_P5IBb.g
C5FS_P5IBc.g
C5FS_P5IBd.g
C5FS_P5RSa.g
C5FS_P6RSa.g
C5FS_P6RSb.g
C5FS_P6RSc.g
C5FS_P6RSd.g
C5FS_raninput.g
C5FS_ST4RS.g
C5FS_synapsedefs.g
C5FScell3Dpk.p
C5FSchanpk.g
C5FSprotodefs.g
C5FSsyncond.g
celldefs.g
compartments.g *
constants.g
Gapdefs.g
GenrrunIshita
hosts144
hosts81
I23LTS.g
I23LTS_B23FS.g
I23LTS_B5FS.g
I23LTS_C23FS.g
I23LTS_C5FS.g
I23LTS_I23LTS.g
I23LTS_I23LTS_Gap.g
I23LTS_I23LTS_TraubGap.g
I23LTS_I5LTS.g
I23LTS_P23FRBa.g
I23LTS_P23RSa.g
I23LTS_P23RSb.g
I23LTS_P23RSc.g
I23LTS_P23RSd.g
I23LTS_P5IBa.g
I23LTS_P5IBb.g
I23LTS_P5IBc.g
I23LTS_P5IBd.g
I23LTS_P5RSa.g
I23LTS_P6RSa.g
I23LTS_P6RSb.g
I23LTS_P6RSc.g
I23LTS_P6RSd.g
I23LTS_raninput.g
I23LTS_ST4RS.g
I23LTS_synapsedefs.g
I23LTScell3Dpk.p
I23LTSchanpk.g
I23LTSprotodefs.g
I23LTSsyncond.g
I5LTS.g
I5LTS_B23FS.g
I5LTS_B5FS.g
I5LTS_C23FS.g
I5LTS_C5FS.g
I5LTS_I23LTS.g
I5LTS_I5LTS.g
I5LTS_I5LTS_Gap.g
I5LTS_I5LTS_TraubGap.g
I5LTS_P23FRBa.g
I5LTS_P23RSa.g
I5LTS_P23RSb.g
I5LTS_P23RSc.g
I5LTS_P23RSd.g
I5LTS_P5IBa.g
I5LTS_P5IBb.g
I5LTS_P5IBc.g
I5LTS_P5IBd.g
I5LTS_P5RSa.g
I5LTS_P6RSa.g
I5LTS_P6RSb.g
I5LTS_P6RSc.g
I5LTS_P6RSd.g
I5LTS_raninput.g
I5LTS_ST4RS.g
I5LTS_synapsedefs.g
I5LTScell3Dpk.p
I5LTSchanpk.g
I5LTSprotodefs.g
I5LTSsyncond.g
icons.g *
LFP16s.g
LFP8s.g
LFP8sASCIIwrite.g
LFPlist
LFPmultiarray.g
LFPmultiarrayASCIIwrite.g
ModelDescription.pdf
mvapich2_pgenesis_command
Neocortex.g
Neosyn_utils.g
netdefs.g
netparams.g
nodes
nodes4
nRT.g
nRT_nRT.g
nRT_nRT_Gap.g
nRT_nRT_TraubGap.g
nRT_raninput.g
nRT_synapsedefs.g
nRT_TCR.g
nRTcellpk.p
nRTchanpk.g
nRTprotodefs.g
nRTsyncond.g
nxpgenesis.out
orient_sim.g
P23FRBa.g
P23FRBa_B23FS.g
P23FRBa_B5FS.g
P23FRBa_C23FS.g
P23FRBa_C5FS.g
P23FRBa_I23LTS.g
P23FRBa_I5LTS.g
P23FRBa_P23FRBa.g
P23FRBa_P23FRBa_Gap.g
P23FRBa_P23RSa.g
P23FRBa_P23RSb.g
P23FRBa_P23RSc.g
P23FRBa_P23RSd.g
P23FRBa_P5IBa.g
P23FRBa_P5IBb.g
P23FRBa_P5IBc.g
P23FRBa_P5IBd.g
P23FRBa_P5RSa.g
P23FRBa_P6RSa.g
P23FRBa_P6RSb.g
P23FRBa_P6RSc.g
P23FRBa_P6RSd.g
P23FRBa_raninput.g
P23FRBa_ST4RS.g
P23FRBa_synapsedefs.g
P23FRBacell3Dpk.p
P23FRBachanpk.g
P23FRBaprotodefs.g
P23RSa.g
P23RSa_B23FS.g
P23RSa_B5FS.g
P23RSa_C23FS.g
P23RSa_C5FS.g
P23RSa_I23LTS.g
P23RSa_I5LTS.g
P23RSa_output.g
P23RSa_P23FRBa.g
P23RSa_P23FRBa_Gap.g
P23RSa_P23FRBa_TraubGap.g
P23RSa_P23RSa.g
P23RSa_P23RSa_Gap.g
P23RSa_P23RSb.g
P23RSa_P23RSb_Gap.g
P23RSa_P23RSc.g
P23RSa_P23RSc_Gap.g
P23RSa_P23RSd.g
P23RSa_P23RSd_Gap.g
P23RSa_P5IBa.g
P23RSa_P5IBb.g
P23RSa_P5IBc.g
P23RSa_P5IBd.g
P23RSa_P5RSa.g
P23RSa_P6RSa.g
P23RSa_P6RSb.g
P23RSa_P6RSc.g
P23RSa_P6RSd.g
P23RSa_raninput.g
P23RSa_ST4RS.g
P23RSa_synapsedefs.g
P23RSacell3Dpk.p
P23RSachanpk.g
P23RSaprotodefs.g
P23RSb.g
P23RSb_B23FS.g
P23RSb_B5FS.g
P23RSb_C23FS.g
P23RSb_C5FS.g
P23RSb_I23LTS.g
P23RSb_I5LTS.g
P23RSb_P23FRBa.g
P23RSb_P23FRBa_Gap.g
P23RSb_P23FRBa_TraubGap.g
P23RSb_P23RSa.g
P23RSb_P23RSb.g
P23RSb_P23RSb_Gap.g
P23RSb_P23RSc.g
P23RSb_P23RSc_Gap.g
P23RSb_P23RSd.g
P23RSb_P23RSd_Gap.g
P23RSb_P5IBa.g
P23RSb_P5IBb.g
P23RSb_P5IBc.g
P23RSb_P5IBd.g
P23RSb_P5RSa.g
P23RSb_P6RSa.g
P23RSb_P6RSb.g
P23RSb_P6RSc.g
P23RSb_P6RSd.g
P23RSb_raninput.g
P23RSb_ST4RS.g
P23RSb_synapsedefs.g
P23RSbcell3Dpk.p
P23RSbchanpk.g
P23RSbprotodefs.g
P23RSc.g
P23RSc_B23FS.g
P23RSc_B5FS.g
P23RSc_C23FS.g
P23RSc_C5FS.g
P23RSc_I23LTS.g
P23RSc_I5LTS.g
P23RSc_P23FRBa.g
P23RSc_P23FRBa_Gap.g
P23RSc_P23FRBa_TraubGap.g
P23RSc_P23RSa.g
P23RSc_P23RSb.g
P23RSc_P23RSc.g
P23RSc_P23RSc_Gap.g
P23RSc_P23RSd.g
P23RSc_P23RSd_Gap.g
P23RSc_P5IBa.g
P23RSc_P5IBb.g
P23RSc_P5IBc.g
P23RSc_P5IBd.g
P23RSc_P5RSa.g
P23RSc_P6RSa.g
P23RSc_P6RSb.g
P23RSc_P6RSc.g
P23RSc_P6RSd.g
P23RSc_raninput.g
P23RSc_ST4RS.g
P23RSc_synapsedefs.g
P23RSccell3Dpk.p
P23RScchanpk.g
P23RScprotodefs.g
P23RSd.g
P23RSd_B23FS.g
P23RSd_B5FS.g
P23RSd_C23FS.g
P23RSd_C5FS.g
P23RSd_I23LTS.g
P23RSd_I5LTS.g
P23RSd_P23FRBa.g
P23RSd_P23FRBa_Gap.g
P23RSd_P23FRBa_TraubGap.g
P23RSd_P23RSa.g
P23RSd_P23RSb.g
P23RSd_P23RSc.g
P23RSd_P23RSd.g
P23RSd_P23RSd_Gap.g
P23RSd_P5IBa.g
P23RSd_P5IBb.g
P23RSd_P5IBc.g
P23RSd_P5IBd.g
P23RSd_P5RSa.g
P23RSd_P6RSa.g
P23RSd_P6RSb.g
P23RSd_P6RSc.g
P23RSd_P6RSd.g
P23RSd_raninput.g
P23RSd_ST4RS.g
P23RSd_synapsedefs.g
P23RSdcell3Dpk.p
P23RSdchanpk.g
P23RSdprotodefs.g
P23RSsyncond.g
P5IBa.g
P5IBa_B23FS.g
P5IBa_B5FS.g
P5IBa_C23FS.g
P5IBa_C5FS.g
P5IBa_I23LTS.g
P5IBa_I5LTS.g
P5IBa_P23FRBa.g
P5IBa_P23RSa.g
P5IBa_P23RSb.g
P5IBa_P23RSc.g
P5IBa_P23RSd.g
P5IBa_P5IBa.g
P5IBa_P5IBa_Gap.g
P5IBa_P5IBb.g
P5IBa_P5IBb_Gap.g
P5IBa_P5IBc.g
P5IBa_P5IBc_Gap.g
P5IBa_P5IBd.g
P5IBa_P5IBd_Gap.g
P5IBa_P5RSa.g
P5IBa_P5RSa_Gap.g
P5IBa_P6RSa.g
P5IBa_P6RSb.g
P5IBa_P6RSc.g
P5IBa_P6RSd.g
P5IBa_raninput.g
P5IBa_ST4RS.g
P5IBa_synapsedefs.g
P5IBacell3Dpk.p
P5IBachanpk.g
P5IBaprotodefs.g
P5IBb.g
P5IBb_B23FS.g
P5IBb_B5FS.g
P5IBb_C23FS.g
P5IBb_C5FS.g
P5IBb_I23LTS.g
P5IBb_I5LTS.g
P5IBb_P23FRBa.g
P5IBb_P23RSa.g
P5IBb_P23RSb.g
P5IBb_P23RSc.g
P5IBb_P23RSd.g
P5IBb_P5IBa.g
P5IBb_P5IBb.g
P5IBb_P5IBb_Gap.g
P5IBb_P5IBc.g
P5IBb_P5IBc_Gap.g
P5IBb_P5IBd.g
P5IBb_P5IBd_Gap.g
P5IBb_P5RSa.g
P5IBb_P5RSa_Gap.g
P5IBb_P6RSa.g
P5IBb_P6RSb.g
P5IBb_P6RSc.g
P5IBb_P6RSd.g
P5IBb_raninput.g
P5IBb_ST4RS.g
P5IBb_synapsedefs.g
P5IBbcell3Dpk.p
P5IBbchanpk.g
P5IBbprotodefs.g
P5IBc.g
P5IBc_B23FS.g
P5IBc_B5FS.g
P5IBc_C23FS.g
P5IBc_C5FS.g
P5IBc_I23LTS.g
P5IBc_I5LTS.g
P5IBc_P23FRBa.g
P5IBc_P23RSa.g
P5IBc_P23RSb.g
P5IBc_P23RSc.g
P5IBc_P23RSd.g
P5IBc_P5IBa.g
P5IBc_P5IBb.g
P5IBc_P5IBc.g
P5IBc_P5IBc_Gap.g
P5IBc_P5IBd.g
P5IBc_P5IBd_Gap.g
P5IBc_P5RSa.g
P5IBc_P5RSa_Gap.g
P5IBc_P6RSa.g
P5IBc_P6RSb.g
P5IBc_P6RSc.g
P5IBc_P6RSd.g
P5IBc_raninput.g
P5IBc_ST4RS.g
P5IBc_synapsedefs.g
P5IBccell3Dpk.p
P5IBcchanpk.g
P5IBcprotodefs.g
P5IBd.g
P5IBd_B23FS.g
P5IBd_B5FS.g
P5IBd_C23FS.g
P5IBd_C5FS.g
P5IBd_I23LTS.g
P5IBd_I5LTS.g
P5IBd_P23FRBa.g
P5IBd_P23RSa.g
P5IBd_P23RSb.g
P5IBd_P23RSc.g
P5IBd_P23RSd.g
P5IBd_P5IBa.g
P5IBd_P5IBb.g
P5IBd_P5IBc.g
P5IBd_P5IBd.g
P5IBd_P5IBd_Gap.g
P5IBd_P5RSa.g
P5IBd_P5RSa_Gap.g
P5IBd_P6RSa.g
P5IBd_P6RSb.g
P5IBd_P6RSc.g
P5IBd_P6RSd.g
P5IBd_raninput.g
P5IBd_ST4RS.g
P5IBd_synapsedefs.g
P5IBdcell3Dpk.p
P5IBdchanpk.g
P5IBdprotodefs.g
P5IBsyncond.g
P5RSa.g
P5RSa_B23FS.g
P5RSa_B5FS.g
P5RSa_C23FS.g
P5RSa_C5FS.g
P5RSa_I23LTS.g
P5RSa_I5LTS.g
P5RSa_P23FRBa.g
P5RSa_P23RSa.g
P5RSa_P23RSb.g
P5RSa_P23RSc.g
P5RSa_P23RSd.g
P5RSa_P5IBa.g
P5RSa_P5IBb.g
P5RSa_P5IBc.g
P5RSa_P5IBd.g
P5RSa_P5RSa.g
P5RSa_P5RSa_Gap.g
P5RSa_P6RSa.g
P5RSa_P6RSb.g
P5RSa_P6RSc.g
P5RSa_P6RSd.g
P5RSa_raninput.g
P5RSa_ST4RS.g
P5RSa_synapsedefs.g
P5RSacell3Dpk.p
P5RSachanpk.g
P5RSaprotodefs.g
P6RSa.g
P6RSa_B23FS.g
P6RSa_B5FS.g
P6RSa_C23FS.g
P6RSa_C5FS.g
P6RSa_I23LTS.g
P6RSa_I5LTS.g
P6RSa_nRT.g
P6RSa_P23FRBa.g
P6RSa_P23RSa.g
P6RSa_P23RSb.g
P6RSa_P23RSc.g
P6RSa_P23RSd.g
P6RSa_P5IBa.g
P6RSa_P5IBb.g
P6RSa_P5IBc.g
P6RSa_P5IBd.g
P6RSa_P5RSa.g
P6RSa_P6RSa.g
P6RSa_P6RSa_Gap.g
P6RSa_P6RSb.g
P6RSa_P6RSb_Gap.g
P6RSa_P6RSc.g
P6RSa_P6RSc_Gap.g
P6RSa_P6RSd.g
P6RSa_P6RSd_Gap.g
P6RSa_raninput.g
P6RSa_ST4RS.g
P6RSa_synapsedefs.g
P6RSa_TCR.g
P6RSacell3Dpk.p
P6RSachanpk.g
P6RSaprotodefs.g
P6RSb.g
P6RSb_B23FS.g
P6RSb_B5FS.g
P6RSb_C23FS.g
P6RSb_C5FS.g
P6RSb_I23LTS.g
P6RSb_I5LTS.g
P6RSb_nRT.g
P6RSb_P23FRBa.g
P6RSb_P23RSa.g
P6RSb_P23RSb.g
P6RSb_P23RSc.g
P6RSb_P23RSd.g
P6RSb_P5IBa.g
P6RSb_P5IBb.g
P6RSb_P5IBc.g
P6RSb_P5IBd.g
P6RSb_P5RSa.g
P6RSb_P6RSa.g
P6RSb_P6RSb.g
P6RSb_P6RSb_Gap.g
P6RSb_P6RSc.g
P6RSb_P6RSc_Gap.g
P6RSb_P6RSd.g
P6RSb_P6RSd_Gap.g
P6RSb_raninput.g
P6RSb_ST4RS.g
P6RSb_synapsedefs.g
P6RSb_TCR.g
P6RSbcell3Dpk.p
P6RSbchanpk.g
P6RSbprotodefs.g
P6RSc.g
P6RSc_B23FS.g
P6RSc_B5FS.g
P6RSc_C23FS.g
P6RSc_C5FS.g
P6RSc_I23LTS.g
P6RSc_I5LTS.g
P6RSc_nRT.g
P6RSc_P23FRBa.g
P6RSc_P23RSa.g
P6RSc_P23RSb.g
P6RSc_P23RSc.g
P6RSc_P23RSd.g
P6RSc_P5IBa.g
P6RSc_P5IBb.g
P6RSc_P5IBc.g
P6RSc_P5IBd.g
P6RSc_P5RSa.g
P6RSc_P6RSa.g
P6RSc_P6RSb.g
P6RSc_P6RSc.g
P6RSc_P6RSc_Gap.g
P6RSc_P6RSd.g
P6RSc_P6RSd_Gap.g
P6RSc_raninput.g
P6RSc_ST4RS.g
P6RSc_synapsedefs.g
P6RSc_TCR.g
P6RSccell3Dpk.p
P6RScchanpk.g
P6RScprotodefs.g
P6RSd.g
P6RSd_B23FS.g
P6RSd_B5FS.g
P6RSd_C23FS.g
P6RSd_C5FS.g
P6RSd_I23LTS.g
P6RSd_I5LTS.g
P6RSd_nRT.g
P6RSd_P23FRBa.g
P6RSd_P23RSa.g
P6RSd_P23RSb.g
P6RSd_P23RSc.g
P6RSd_P23RSd.g
P6RSd_P5IBa.g
P6RSd_P5IBb.g
P6RSd_P5IBc.g
P6RSd_P5IBd.g
P6RSd_P5RSa.g
P6RSd_P6RSa.g
P6RSd_P6RSb.g
P6RSd_P6RSc.g
P6RSd_P6RSd.g
P6RSd_P6RSd_Gap.g
P6RSd_raninput.g
P6RSd_ST4RS.g
P6RSd_synapsedefs.g
P6RSd_TCR.g
P6RSdcell3Dpk.p
P6RSdchanpk.g
P6RSdprotodefs.g
P6RSsyncond.g
pgenesis_command
protodefs.g
protospikeB23FS.g
protospikeB5FS.g
protospikeC23FS.g
protospikeC5FS.g
protospikeI23LTS.g
protospikeI5LTS.g
protospikenRT.g
protospikeP23FRBa.g
protospikeP23RSa.g
protospikeP23RSb.g
protospikeP23RSc.g
protospikeP23RSd.g
protospikeP5IBa.g
protospikeP5IBb.g
protospikeP5IBc.g
protospikeP5IBd.g
protospikeP5RSa.g
protospikeP6RSa.g
protospikeP6RSb.g
protospikeP6RSc.g
protospikeP6RSd.g
protospikeST4RS.g
protospikeTCR.g
randominputdefs.g
spikedefs.g
ST4RS.g
ST4RS_B23FS.g
ST4RS_B5FS.g
ST4RS_C23FS.g
ST4RS_C5FS.g
ST4RS_I23LTS.g
ST4RS_I5LTS.g
ST4RS_P23FRBa.g
ST4RS_P23RSa.g
ST4RS_P23RSb.g
ST4RS_P23RSc.g
ST4RS_P23RSd.g
ST4RS_P5IBa.g
ST4RS_P5IBb.g
ST4RS_P5IBc.g
ST4RS_P5IBd.g
ST4RS_P5RSa.g
ST4RS_P6RSa.g
ST4RS_P6RSb.g
ST4RS_P6RSc.g
ST4RS_P6RSd.g
ST4RS_raninput.g
ST4RS_ST4RS.g
ST4RS_ST4RS_Gap.g
ST4RS_synapsedefs.g
ST4RScell3Dpk.p
ST4RSchanpk.g
ST4RSprotodefs.g
ST4RSsyncond.g
synapticdelays.g *
synapticprobsTraub.g
synchansB23FS.g *
synchansB5FS.g *
synchansC23FS.g *
synchansC5FS.g *
synchansI23LTS.g *
synchansI5LTS.g *
synchansnRT.g *
synchansP23FRBa.g *
synchansP23RSa.g *
synchansP23RSb.g *
synchansP23RSc.g *
synchansP23RSd.g *
synchansP5IBa.g *
synchansP5IBb.g *
synchansP5IBc.g *
synchansP5IBd.g *
synchansP5RSa.g *
synchansP6RSa.g *
synchansP6RSb.g *
synchansP6RSc.g *
synchansP6RSd.g *
synchansSPIKEs.g *
synchansSPIKEs_base.g
synchansST4RS.g
synchansTCR.g *
syncond.g
syncond2.g
TCR.g
TCR_B23FS.g
TCR_B5FS.g
TCR_C23FS.g
TCR_C5FS.g
TCR_nRT.g
TCR_P23FRBa.g
TCR_P23RSa.g
TCR_P23RSb.g
TCR_P23RSc.g
TCR_P23RSd.g
TCR_P5IBa.g
TCR_P5IBb.g
TCR_P5IBc.g
TCR_P5IBd.g
TCR_P5RSa.g
TCR_P6RSa.g
TCR_P6RSb.g
TCR_P6RSc.g
TCR_P6RSd.g
TCR_raninput.g
TCR_ST4RS.g
TCR_synapsedefs.g
TCRcellpk.p
TCRchanpk.g
TCRprotodefs.g
TCRsyncond.g
                            
// P6RSacell3D.p

//      Format of file :
// x,y,z,dia are in microns, all other units are SI (Meter Kilogram Sec Amp)
// In polar mode 'r' is in microns, theta and phi in degrees
// Control line options start with a '*'
// The format for each compartment parameter line is :
//name  parent  r       theta   phi     d       ch      dens ...
//in polar mode, and in cartesian mode :
//name  parent  x       y       z       d       ch      dens ...
// For channels, "dens" =  maximum conductance per unit area of compartment
// For spike elements, "dens" is the spike threshold
//              Coordinate mode
*absolute
*relative
*cartesian
*asymmetric

*set_global              RM     0.3333333
*set_global              EREST_ACT      -0.07
*set_compt_param     ELEAK      -0.0594


//              Specifying constants
*set_compt_param        RM      5.0  //0.33333
*set_compt_param        RA      2.50  //0.3
*set_compt_param        CM      0.009 //0.01
*set_compt_param        ELEAK   -0.0666 // -0.068


//SOMA *************************************************************
// For the soma, use the leakage potential (-0.07 + 0.0106) for Em
//*set_compt_param     ELEAK    -0.0594
// Actually, after Traub et al. J Neurophys 2003;89:909-921, will maintain
soma  none   0  0  15  16     Ca_s13 -2.58626798e15    NaF13       2000   \
                              NaP13        0.8         KDR13       1700   \
                              KA13        1190         K213           1.0 \
                              KM13        42           CaL13          1.0 \
                              CaH13        2.0         KCs13        150   \
                              AR13         2.5         KAHPs13        2.0  
*set_compt_param     RA 2.5
*set_compt_param     CM 0.018
*set_compt_param     ELEAK -0.0666
*set_compt_param     RM 2.5


//APICAL DENDRITE COMPARTMENTS ***************************************
// apdend1 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend1  soma  0  0  50 3       Ca_d13 -1.65521236e17     NaF13       3000   \
                                NaP13        1.2          KDR13       2400   \
                                KA13      2380            K213           2   \
                                KM13        84            CaL13          2   \
                                CaH13        4            KCd13        300   \
                                AR13         5          KAHPd13        4.0

// apdend2 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend2  apdend1  0  0  50   2.8    Ca_d13 -1.88092836e17 NaF13   1500  \
                                    NaP13        0.6     KDR13   1500  \
                                    KA13        272       K213      2  \
                                    KM13        84       CaL13     4  \
                                    CaH13        2       KCd13   300  \
                                    AR13         5     KAHPd13   4.0


// apdend3 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend3  apdend2  0  0  50   2.8   Ca_d13 -2.22818969E17  NaF13   100  \
                                    NaP13       0.04     KDR13    0  \
                                    KA13      272        K213     2  \
                                    KM13       84        CaL13    2  \
                                    CaH13       4        KCd13    0  \
                                    AR13        5        KAHPd13  4.0


// apdend4 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend4  apdend3  0  0  50   2.6    Ca_d13 -2.22818969e17    NaF13          100  \
                                    NaP13       0.04         KDR13           0  \
                                    KA13      272            K213            2  \
                                    KM13       84            CaL13           2  \
                                    CaH13       4            KCd13           0  \
                                    AR13        5            KAHPd13         4.0

// apdend5 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend5  apdend4  0  0  50   2.40  Ca_d13    -2.41385133e17  NaF13	    100 \
                                    NaP13       0.04         KDR13           0  \
                                    KA13      272            K213            2  \
                                    KM13       84            CaL13           2  \
                                    CaH13       4            KCd13           0  \
                                    AR13        5            KAHPd13         4.0

// apdend6 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend6  apdend5  0  0  50   2      Ca_d13 -3.31042301e17    NaF13          100  \
                                    NaP13       0.04         KDR13           0  \
                                    KA13      272            K213            2  \
                                    KM13       84            CaL13           2  \
                                    CaH13       40           KCd13           0  \
                                    AR13        5            KAHPd13         4.0

// apdend7  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend7  apdend6  0  0  50   1.8    Ca_d13 -3.67824744e17    NaF13          100  \
                                    NaP13       0.04         KDR13           0  \
                                    KA13      272            K213            2  \
                                    KM13       84            CaL13           2  \
                                    CaH13       40           KCd13           0  \
                                    AR13        5            KAHPd13         4.0

// apdend8  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend8  apdend7  0  0  50   1.6    Ca_d13 -4.1380285e17     NaF13          100  \
                                    NaP13         0.04       KDR13           0  \
                                    KA13        272          K213            2  \
                                    KM13         84          CaL13           2  \
                                    CaH13         40         KCd13           0  \
                                    AR13          5        KAHPd13         4.0

// apdend9  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend9  apdend8  0  0  50   1.4    Ca_d13 -5.32033542e17    NaF13          100   \
                                    NaP13       0.04         KDR13           0   \
                                    KA13      272            K213            2   \
                                    KM13       84            CaL13           2   \
                                    CaH13       40           KCd13           0   \
                                    AR13        5            KAHPd13         4.0

// apdend10  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apdend10  apdend9  0  0  40   1.2   Ca_d13  -6.8967142e17    NaF13          100  \
                                    NaP13       0.04         KDR13           0  \
                                    KA13      272            K213            2  \
                                    KM13       84            CaL13           2  \
                                    CaH13       40           KCd13           0  \
                                    AR13        5            KAHPd13         4.0

//APICAL OBLIQUE DENDRITE COMPARTMENTS ***************************************

// apobdistRa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistRa  apdend3  42.4  42.4 0  1.24      Ca_d13 -6.1180627e17     NaF13      1500  \
                                             NaP13        0.6         KDR13      1500  \
                                             KA13       272           K213         2  \
                                             KM13        84           CaL13        2  \
                                             CaH13        4           KCd13      300  \
                                             AR13         5           KAHPd13      4.0

// apobdistRb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistRb  apobdistRa  42.4  42.4 0   1.24   Ca_d13    -6.1180971e17  NaF13       100  \
                                              NaP13       0.04         KDR13        0  \
                                              KA13      272            K213         2  \
                                              KM13       84            CaL13        2  \
                                              CaH13       4            KCd13        0  \
                                              AR13        5          KAHPd13      4.0

// apobdistRc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistRc  apobdistRb  42.4  42.4 0   1.24    Ca_d13 -6.1180994e17     NaF13       100  \
                                              NaP13       0.04         KDR13        0  \
                                              KA13      272            K213         2  \
                                              KM13       84            CaL13        2  \
                                              CaH13       4            KCd13        0  \
                                              AR13        5            KAHPd13      4.0

// apobdistLa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistLa  apdend3  -42.4  -42.4 0   1.24      Ca_d13 -6.1180627e17     NaF13      1500  \
                                               NaP13        0.6         KDR13      1500  \
                                               KA13       272           K213         2  \
                                               KM13        84           CaL13        2  \
                                               CaH13        4           KCd13      300  \
                                               AR13         5         KAHPd13      4.0

// apobdistLb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistLb  apobdistLa  -42.4  -42.4 0   1.24    Ca_d13 -6.11809714e17    NaF13       100  \
                                                NaP13       0.04         KDR13        0  \
                                                KA13      272            K213         2  \
                                                KM13       84            CaL13        2  \
                                                CaH13       4            KCd13        0  \
                                                AR13        5            KAHPd13      4.0

// apobdistLc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobdistLc  apobdistLb  -42.4  -42.4 0   1.24    Ca_d13 -6.1180994e17     NaF13       100  \
                                                NaP13       0.04         KDR13        0  \
                                                KA13      272            K213         2  \
                                                KM13       84            CaL13        2  \
                                                CaH13       4            KCd13        0  \
                                                AR13        5            KAHPd13      4.0

// apobmidRa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidRa  apdend2  42.4  -42.4  0   1.24      Ca_d13 -6.1180483E17     NaF13      1500  \
                                              NaP13        0.6         KDR13      1500  \
                                              KA13       272           K213         2  \
                                              KM13        84           CaL13        2  \
                                              CaH13        4           KCd13      300  \
                                              AR13         5           KAHPd13      4.0

// apobmidRb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidRb  apobmidRa  42.4  -42.4  0   1.24     Ca_d13 -6.118106E17      NaF13       100  \
                                               NaP13       0.04         KDR13        0  \
                                               KA13      272            K213         2  \
                                               KM13       84            CaL13        2  \
                                               CaH13       4            KCd13        0  \
                                               AR13        5            KAHPd13      4.0

// apobmidRc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidRc  apobmidRb  42.4  -42.4  0   1.24     Ca_d13 -6.1179686E17     NaF13       100  \
                                               NaP13       0.04         KDR13        0  \
                                               KA13      272            K213         2  \
                                               KM13       84            CaL13        2  \
                                               CaH13       4            KCd13        0  \
                                               AR13        5            KAHPd13      4.0

// apobmidLa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidLa  apdend2  -42.4  42.4  0   1.24     Ca_d13 -6.1180483E17     NaF13      1500  \
                                              NaP13        0.6         KDR13      1500  \
                                              KA13       272           K213         2  \
                                              KM13        84           CaL13        2  \
                                              CaH13        4           KCd13      300  \
                                              AR13         5          KAHPd13      4.0

// apobmidLb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidLb  apobmidLa  -42.4  42.4  0   1.24    Ca_d13  -6.118106E17      NaF13       100  \
                                               NaP13       0.04         KDR13        0  \
                                               KA13      272            K213         2  \
                                               KM13       84            CaL13        2  \
                                               CaH13       4            KCd13        0  \
                                               AR13        5            KAHPd13      4.0

// apobmidLc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobmidLc  apobmidLb  -42.4  42.4  0   1.24    Ca_d13 -6.1179686E17      NaF13       100  \
                                               NaP13       0.04         KDR13        0  \
                                               KA13      272            K213         2  \
                                               KM13       84            CaL13        2  \
                                               CaH13       4            KCd13        0  \
                                               AR13        5            KAHPd13      4.0

// apobproxRa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxRa  apdend1  42.4  42.4  0   1.24    Ca_d13 -6.1180297E17     NaF13      1500  \
                                             NaP13        0.6         KDR13      1500  \
                                             KA13       272           K213         2  \
                                             KM13        84           CaL13        2  \
                                             CaH13        4           KCd13      300  \
                                             AR13         5           KAHPd13      4.0

// apobproxRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxRb  apobproxRa  42.4  42.4  0 1.24    Ca_d13 -6.118106E17      NaF13       100  \
                                              NaP13       0.04         KDR13        0  \
                                              KA13      272            K213         2  \
                                              KM13       84            CaL13        2  \
                                              CaH13       4            KCd13        0  \
                                              AR13        5           KAHPd13      4.0

// apobproxRc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxRc  apobproxRb  42.4  42.4  0 1.24    Ca_d13 -6.1181232E17     NaF13       100  \
                                              NaP13       0.04         KDR13        0  \
                                              KA13      272            K213         2  \
                                              KM13       84            CaL13        2  \
                                              CaH13       4            KCd13        0  \
                                              AR13        5            KAHPd13      4.0

// apobproxLa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxLa  apdend1  -42.4  -42.4  0   1.24    Ca_d13 -6.1180297E17     NaF13      1500 \
                                               NaP13        0.6         KDR13      1500 \
                                               KA13       272           K213         2  \
                                               KM13        84           CaL13        2  \
                                               CaH13        4           KCd13      300  \
                                               AR13         5          KAHPd13      4.0

// apobproxLb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxLb  apobproxLa  -42.4  -42.4  0  1.24   Ca_d13 -6.118106E17      NaF13       100 \
                                                NaP13       0.04         KDR13        0  \
                                                KA13      272            K213         2  \
                                                KM13       84            CaL13        2  \
                                                CaH13       4            KCd13        0  \
                                                AR13        5          KAHPd13        4.0

// apobproxLc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
apobproxLc  apobproxLb  -42.4  -42.4  0  1.24   Ca_d13 -6.118106E17      NaF13       100 \
                                                NaP13       0.04         KDR13        0  \
                                                KA13      272            K213         2  \
                                                KM13       84            CaL13        2  \
                                                CaH13       4            KCd13        0  \
                                                AR13        5          KAHPd13      4.0

*set_compt_param     RA 2.5
*set_compt_param     CM 0.018
*set_compt_param     ELEAK -0.0666
*set_compt_param     RM 2.5


//BASAL DENDRITE COMPARTMENTS ************************************************
// basalLsupera  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLsupera  soma  -26.8  -46.4  -27.2  1.7    Ca_d13 -4.05689382E17  NaF13        1500  \
                                                NaP13        0.6     KDR13        1500  \
                                                KA13       272       K213           2  \
                                                KM13        84       CaL13          2  \
                                                CaH13        4       KCd13        300  \
                                                AR13         5       KAHPd13        4.0

// basalLsuperb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLsuperb  basalLsupera  -26.8  -46.4 -27.2  1.7     Ca_d13 -4.05691135E17  NaF13        100  \
                                                        NaP13        0.04    KDR13          0  \
                                                        KA13       272       K213           2  \
                                                        KM13        84       CaL13          2  \
                                                        CaH13        4       KCd13          0  \
                                                        AR13         5       KAHPd13        4.0

// basalLsuperc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLsuperc  basalLsuperb  -26.8  -46.4 -27.2  1.7     Ca_d13 -4.05691135E17 NaF13         100  \
                                                        NaP13        0.04    KDR13          0  \
                                                        KA13       136       K213           2  \
                                                        KM13        84       CaL13          2  \
                                                        CaH13        4       KCd13          0  \
                                                        AR13         5       KAHPd13        4.0

// basalLmida  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLmida  soma  -19.3  33.4  -46.0  1.7      Ca_d13 -4.05689382E17  NaF13        1500  \
                                                NaP13        0.6     KDR13        1500  \
                                                KA13       272       K213           2  \
                                                KM13        84       CaL13          2  \
                                                CaH13        4       KCd13        300  \
                                                AR13         5       KAHPd13        4.0

// basalLmidb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLmidb  basalLmida  -19.3  33.4 -46.0  1.7         Ca_d13 -4.05689382E17 NaF13         100  \
                                                       NaP13        0.04    KDR13          0  \
                                                       KA13       272       K213           2  \
                                                       KM13        84       CaL13          2  \
                                                       CaH13        4       KCd13          0  \
                                                       AR13         5       KAHPd13        4.0

// basalLmidc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalLmidc  basalLmidb  -19.3  33.4 -46.0  1.7         Ca_d13    -4.05689382E17  NaF13     100  \
                                                       NaP13        0.04    KDR13          0  \
                                                       KA13       272       K213           2  \
                                                       KM13        84       CaL13          2  \
                                                       CaH13        4       KCd13          0  \
                                                       AR13         5       KAHPd13        4.0

// basalRsupera  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRsupera  soma   26.8  46.4  -27.2  1.7    Ca_d13    -4.05689382E17  NaF13        1500  \
                                               NaP13        0.6     KDR13        1500  \
                                               KA13       272       K213           2  \
                                               KM13        84       CaL13          2  \
                                               CaH13        4       KCd13        200  \
                                               AR13         5     KAHPd13        4.0

// basalRsuperb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRsuperb  basalRsupera   26.8  46.4 -27.2  1.7     Ca_d13 -4.05689382E17 NaF13         100  \
                                                       NaP13        0.04    KDR13          0  \
                                                       KA13       272       K213           2  \
                                                       KM13        84       CaL13          2  \
                                                       CaH13        4       KCd13          0  \
                                                       AR13         5       KAHPd13        4.0

// basalRsuperc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRsuperc  basalRsuperb   26.8  46.4 -27.2  1.7     Ca_d13 -4.05689382E17 NaF13         100  \
                                                       NaP13        0.04    KDR13          0  \
                                                       KA13       272       K213           2  \
                                                       KM13        84       CaL13          2  \
                                                       CaH13        4       KCd13          0  \
                                                       AR13         5       KAHPd13        4.0

// basalRmida  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRmida  soma   19.3  -33.4  -46.0  1.7      Ca_d13  -4.05689382E17   NaF13    1500  \
                                                NaP13        0.6         KDR13    1500  \
                                                KA13       272           K213       2  \
                                                KM13        84           CaL13      2  \
                                                CaH13        4           KCd13    300  \
                                                AR13         5           KAHPd13    4.0

// basalRmidb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRmidb  basalRmida   19.3  -33.4 -46.0  1.7     Ca_d13 -4.05689382E17     NaF13     100  \
                                                    NaP13        0.04        KDR13      0  \
                                                    KA13       272           K213       2  \
                                                    KM13        84           CaL13      2  \
                                                    CaH13        4           KCd13      0  \
                                                    AR13         5           KAHPd13    4.0

// basalRmidc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basalRmidc  basalRmidb   19.3  -33.4 -46.0  1.7     Ca_d13 -4.05689382E17     NaF13     100  \
                                                    NaP13        0.04        KDR13      0  \
                                                    KA13       272           K213       2  \
                                                    KM13        84           CaL13      2  \
                                                    CaH13        4           KCd13      0  \
                                                    AR13         5           KAHPd13    4.0

// basaldeepa  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basaldeepa  soma  0  0  -60.0  1.7          Ca_d13 -4.05689382E17    NaF13    1500  \
                                            NaP13        0.6         KDR13    1500  \
                                            KA13       272           K213       2  \
                                            KM13        84           CaL13      2  \
                                            CaH13        4           KCd13    300  \
                                            AR13         5           KAHPd13    4.0

// basaldeepb  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basaldeepb  basaldeepa  0  0 -60.0  1.7             Ca_d13 -4.05689382E17     NaF13     100  \
                                                    NaP13        0.04        KDR13      0  \
                                                    KA13       272           K213       2  \
                                                    KM13        84           CaL13      2  \
                                                    CaH13        4           KCd13      0  \
                                                    AR13         5           KAHPd13    4.0

// basaldeepc  Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
basaldeepc  basaldeepb  0  0 -60.0  1.7             Ca_d13 -4.05689382E17     NaF13     100  \
                                                    NaP13        0.04        KDR13      0  \
                                                    KA13       272           K213       2  \
                                                    KM13        84           CaL13      2  \
                                                    CaH13        4           KCd13      0  \
                                                    AR13         5           KAHPd13    4.0


//              Specifying constants for axonal compartment RMCM=0.0024 (0.0009)
*set_compt_param        RM      0.10   //(0.1)
*set_compt_param        RA      1.00   //(1.00)
*set_compt_param        CM      0.009  //(0.009)(0.024)
*set_compt_param        ELEAK   -0.0666

//AXONAL COMPARTMENTS ***************************************
// axona Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axona  soma  0  0 -25  1.8      NaF13       4500   \
                                KDR13       4500   \
                                KA13          40       K213               1

// axonb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axonb  axona  0  0 -50  1.8     NaF13       4500   \
                                KDR13       4500   \
                                KA13          40       K213               1

// axonLa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axonLa  axonb  -8.7  0 -49.2  1.8    NaF13       4500   \
                                     KDR13       4500   \
                                     KA13          40  K213               1

// axonLb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axonLb  axonLa  -8.7  0 -49.2  1.8   NaF13       4500   \
                                     KDR13       4500   \
                                     KA13          40  K213               1

// axonRa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axonRa  axonb   8.7  0 -49.2  1.8    NaF13       4500   \
                                     KDR13       4500   \
                                     KA13          40  K213               1

// axonRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232
// Differs from Traub et al., in that axon is vertical
axonRb  axonRa   8.7  0 -49.2  1.8   NaF13       4500   \
                                     KDR13       4500   \
                                     KA13          40  K213               1


Loading data, please wait...