| Name | GranuleCell |
| Description |
| As described in the NeuroML file |
| A single compartment cerebellar Granule Cell model taken from Maex and De Schutter 1998 |
| Authors |
| Authors of original model: |
|
Maex, R. |
|
De Schutter, E. |
| Translators of the model to NeuroML: |
|
Padraig Gleeson
(UCL)
p.gleeson - at - ucl.ac.uk |
|
| Referenced publication | Maex, R and De Schutter, E.
Synchronization of Golgi and Granule Cell Firing in a Detailed Network Model of the
cerebellar Granule Cell Layer. J Neurophysiol, Nov 1998; 80: 2521 - 2537
Pubmed
|
| Reference in NeuronDB |
Cerebellar granule cell
|
| Total number of segments | 1 |
| Total number of cables | 1
with 1 soma cable(s),
0 dendritic cable(s)
and 0 axonal cable(s)
|
| Cable details |
Soma (id:0),
number of segments in cable: 1
This cable is present in groups: all soma_group
|
Biophysical properties of cell: GranuleCell
| Unit system of biophysical entities |
| This can be either SI Units or Physiological Units |
| Physiological Units |
| Channel Mechanism: Generic_Na |
| An active membrane conductance |
|
Conductance density (gmax) of 54.6301 mS cm-2 on: all
|
| Channel Mechanism: Generic_H |
| An active membrane conductance |
|
Conductance density (gmax) of 0.03090506 mS cm-2 on: all
|
| Channel Mechanism: Generic_KA |
| An active membrane conductance |
|
Conductance density (gmax) of 1.14567 mS cm-2 on: all
|
| Channel Mechanism: Generic_KDr |
| An active membrane conductance |
|
Conductance density (gmax) of 8.89691 mS cm-2 on: all
|
| Channel Mechanism: PassiveCond_Gran |
| An active membrane conductance |
|
Conductance density (gmax) of 0.0330033 mS cm-2 on: all
|
| Channel Mechanism: Generic_CaHVA |
| An active membrane conductance |
|
Conductance density (gmax) of 0.9084216 mS cm-2 on: all
|
| Channel Mechanism: Generic_KCa |
| An active membrane conductance |
|
Conductance density (gmax) of 17.9811 mS cm-2 on: all
|
| Specific Capacitance |
| This is the capacitance per unit area of the membrane |
| Specific Capacitance of
1.0 uf/cm2 on: all
|
| Specific Axial Resistance |
| This is the specific cytoplasmic resistance along a dendrite/axon |
| Specific Axial Resistance of
0.1 Kohm cm on: all
|
| Initial Membrane Potential |
| This quantity is often required for computational simulations and specifies the potential
difference across the membrane at the start of the simulation. |
| Initial Membrane Potential
-65.0 mV on: all
|
| Properties of ion h |
| Local properties of an ion present at some locations of the cell. Should be limited to either: 1) e for reversal potential of the ion
or 2) conc_e and conc_i for the external and internal concentrations of the ion. |
|
Reversal potential:
-42.0 mV
on: all
|
| Properties of ion k |
| Local properties of an ion present at some locations of the cell. Should be limited to either: 1) e for reversal potential of the ion
or 2) conc_e and conc_i for the external and internal concentrations of the ion. |
|
Reversal potential:
-90.0 mV
on: all
|
| Properties of ion na |
| Local properties of an ion present at some locations of the cell. Should be limited to either: 1) e for reversal potential of the ion
or 2) conc_e and conc_i for the external and internal concentrations of the ion. |
|
Reversal potential:
55.0 mV
on: all
|
| Properties of ion ca |
| Local properties of an ion present at some locations of the cell. Should be limited to either: 1) e for reversal potential of the ion
or 2) conc_e and conc_i for the external and internal concentrations of the ion. |
|
External concentration:
2.4E-6 mole cm-3
on: all
Internal concentration:
7.55E-11 mole cm-3
on: all
|
