Golgi Cell

Model Type:
Cell
Neurolex IDs: Cerebellum Golgi cell, Cerebellar, neuron
Keywords: , Realistic Network, Ion Channel Kinetics, Oscillations, Synchronization, Detailed Neuronal Models
Publication: Vervaeke, et. al. (2010) Rapid desynchronization of an electrically coupled Golgi cell network
Authors:
K Vervaeke   A Lorincz   Padraig Gleeson   Matteo Farinella   Z Nusser   RA Silver  
Translators: Eugenio Piasini   Miklos Szoboszlay   Padraig Gleeson  
Sources:
Files:
Model ID NeuroML File
NMLCL000085
Golgi_040408_C1.cell.nml
( view NeuroML )
NMLCH000066
Golgi_Ca_HVA.channel.nml
( view NeuroML )
NMLCH000067
Golgi_Ca_LVA.channel.nml
( view NeuroML )
NMLCH000086
Golgi_hcn1f.channel.nml
( view NeuroML )
NMLCH000087
Golgi_hcn1s.channel.nml
( view NeuroML )
NMLCH000088
Golgi_hcn2f.channel.nml
( view NeuroML )
NMLCH000089
Golgi_hcn2s.channel.nml
( view NeuroML )
NMLCH000090
Golgi_KA.channel.nml
( view NeuroML )
NMLCH000091
Golgi_KAHP.channel.nml
( view NeuroML )
NMLCH000092
Golgi_KC.channel.nml
( view NeuroML )
NMLCH000093
Golgi_Kslow.channel.nml
( view NeuroML )
NMLCH000094
Golgi_KV.channel.nml
( view NeuroML )
NMLCH000095
LeakCond.channel.nml
( view NeuroML )
NMLCH000096
Golgi_NaP.channel.nml
( view NeuroML )
NMLCH000097
Golgi_NaR.channel.nml
( view NeuroML )
NMLCH000098
Golgi_NaT.channel.nml
( view NeuroML )
NMLCN000068
Golgi_CALC.nml
( view NeuroML )
NMLCN000069
Golgi_CALC_ca2.nml
( view NeuroML )
Notes: None
Model Id: NMLCL000085
Associated Channels:
Associated Synapses: None
Associated Networks:
Current Clamp Response
Protocol:
Meta Protocol: -
Stimulus: -
Closest Electrophysiology Cluster
⇛Non-Positive Rheobase (npRB)
Differentiating Features
Models with Similar Electrophysiology Properties
All Electrophysiology Properties
Is Passive No
Is Intrinsically Spiking Yes
Resting Voltage N/A mV
Rheobase Current Interval (N/A, N/A] nA
Threshold Current Interval (N/A, N/A] nA
Bias Current (to N/A mV) N/A nA
Testing Temperature 23.0 °C
Stability Interval [-0.625, 15.0] nA
AP 1-2 Amplitude Drop N/A mV
AP 1 Steady State Amplitude Change N/A mV
AP 1 Amplitude N/A mV
AP 1 Width at Half Height N/A ms
AP 1 Width (Peak To Trough) N/A ms
AP 1 Rate of Change Peak to Trough N/A mV/ms
AP 1 AHP Depth N/A mV
AP2 Amplitude N/A mV
AP2 Width at Half Height N/A ms
AP 2 Width (Peak to Trough) N/A ms
AP 2 Rate of Change Peak to Trough N/A mV/ms
AP 2 AHP Depth N/A mV
AP 1-2 Amplitude Change Percent N/A %
AP 1-2 Half Width Change Percent N/A %
AP 1-2 Rate of Change Peak to Trough Percent Change N/A %
AP 1-2 AHP Depth Percent Change N/A %
Input Resistance N/A MΩ
AP 1 Delay Mean N/A ms
AP 1 Delay SD N/A ms
AP 2 Delay Mean N/A ms
AP 2 Delay SD N/A ms
Burst 1 ISI Mean N/A ms
Burst 1 ISI SD N/A ms
Initial Accommodation Mean N/A %
Steady State Accommodation Mean N/A %
Accommodation Rate to Steady State N/A %/ms
Accommodation at Steady State Mean N/A %
Accommodation Rate Mean at Steady State N/A ms
ISI CV N/A
ISI Median N/A ms
ISI Burst Mean Change N/A %
Spike Rate (Strong Stimulation) N/A Hz
AP 1 Delay Mean (Strong Stimulation) N/A ms
AP 1 Delay SD (Strong Stimulation) N/A ms
AP 2 Delay Mean (Strong Stimulation) N/A ms
AP 2 Delay SD (Strong Stimulation) N/A ms
Burst 1 ISI Mean (Strong Stimulation) N/A ms
Burst 1 ISI SD (Strong Stimulation) N/A ms
Ramp First Spike Time N/A ms
Frequency Filter Type N/A
Frequency Filter Pass Above N/A Hz
Frequency Filter Pass Below N/A Hz
3D Structure and Propagation of Activity
L-Measure Properties
Soma Surface 0.0 µm2
Number of Stems 0.0
Number of Bifurcations 154.0
Number of Branches 308.0
Overall Width 318.441 µm
Overall Height 355.69 µm
Overall Depth 45.18 µm
Average Diameter 0.48645 µm
Total Length 6779.6 µm
Total Surface 8981.45 µm2
Total Volume 1391.58 µm3
Max Euclidean Distance 259.031 µm
Max Path Distance 462.263 µm
Max Branch Order 27.0
Average Contraction 0.854909
Total Fragmentation 4837.0
Partition Asymmetry 0.602141
Average Rall's Ratio 0.857564
Average Bifurcation Angle Local 81.0934 °
Average Bifurcation Angle Remote 86.5377 °
Fractal Dimension 1.05331
Complexity Summary
Relative Complexity N/A HH
State Equations 345
Optimal Time-Step N/A ms
Model Size
Sections 319
Compartments 319
State Equations 345
Variable Time-Step Complexity
CVODE Steady State Step Frequency N/A Hz
CVODE Steps Per AP N/A
CVODE Benchmark Run Time N/A HH
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