Interaction of leak and IMI conductance on the STG over broad temperature range (Stadele et al 2015)

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The ZIP file contains a Hodgkin-Huxley based circuit model and the simulation environment MadSim used to study the interaction of leak and IMI on the gastric mill network of the crab (Cancer borealis) as represented in (C. Städele, S. Heigele and W. Stein, 2015) MadSim, the simulation environment used for this study, is freeware and included in the package.
1 . Stein W, Straub O, Ausborn J, Mader W, Wolf H (2008) Motor pattern selection by combinatorial code of interneuronal pathways. J Comput Neurosci 25:543-61 [PubMed]
2 . Ausborn J, Stein W, Wolf H (2007) Frequency control of motor patterning by negative sensory feedback. J Neurosci 27:9319-28 [PubMed]
3 . Städele C, Heigele S, Stein W (2015) Neuromodulation to the Rescue: Compensation of Temperature-Induced Breakdown of Rhythmic Motor Patterns via Extrinsic Neuromodulatory Input. PLoS Biol 13:e1002265 [PubMed]
4 . Daur N, Diehl F, Mader W, Stein W (2012) The stomatogastric nervous system as a model for studying sensorimotor interactions in real-time closed-loop conditions. Front Comput Neurosci 6:13 [PubMed]
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Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network;
Brain Region(s)/Organism: Stomatogastric ganglion;
Cell Type(s): Stomatogastric Ganglion (STG) Lateral Gastric (LG) cell;
Channel(s): I MI;
Gap Junctions:
Transmitter(s): CabTRP 1a;
Simulation Environment: MadSim;
Model Concept(s): Temporal Pattern Generation; Invertebrate; Neuromodulation;
Search NeuronDB for information about:  I MI; CabTRP 1a;
madSim 6.11
! bloss oinr.knl *
1 kanal.knl *
dialog texte de.txt
dialog texte en.txt
form parameter.txt
form parameter.xls * * *
gb-parameter.txt *
gb-parameter.xls * * * *
ioTabelle langsam.txt *
ioTabelle normal.txt *
ioTabelle.txt *
izhikevich-typen.txt *
izhikevich-typen.txt.orig *
meldung texte de.txt
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neuronParameter.xls * * *
reizFuerServerBetrieb kurz.txt *
reizFuerServerBetrieb original.txt *
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standardap 2000ms.TXT *
standardap 200ms.txt *
standardap original.TXT *
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swim example.txt * * * *
tooltip texte de.txt
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userDef SWIM kanal original.txt *
anzahl user-SWIM-kanaele=1
neuron 0 user-SWIM-kanal 0 gleichgewichtspotential=-0.01
neuron 0 user-SWIM-kanal 0 leitfaehigkeit=3.71e-008
neuron 0 user-SWIM-kanal 0 power=1
neuron 0 user-SWIM-kanal 0 torvariable initialwert=0.0457132
neuron 0 user-SWIM-kanal 0 form alpha=24
neuron 0 user-SWIM-kanal 0 rate alpha=1
neuron 0 user-SWIM-kanal 0 V0 alpha=-0.07
neuron 0 user-SWIM-kanal 0 schrittweite alpha=0.007
neuron 0 user-SWIM-kanal 0 form beta=5
neuron 0 user-SWIM-kanal 0 rate beta=0.33
neuron 0 user-SWIM-kanal 0 V0 beta=-0.11
neuron 0 user-SWIM-kanal 0 schrittweite beta=0.013
neuron 0 user-SWIM-kanal 0 berechnungsmodus fuer A und B=2
neuron 0 user-SWIM-kanal 0 bezeichnung=iH (postinhibitory rebound)
neuron 0 user-SWIM-kanal 0 ende=1