Factors contribution to GDP-induced [Cl-]i transients (Lombardi et al 2019)

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Accession:253369
This models are used to evaluate which factors influence the GDP (giant depolarizing potential) induced [Cl-]I transients based on a initial model of P. Jedlicka
Reference:
1 . Lombardi A, Jedlicka P, Luhmann HJ, Kilb W (2019) Interactions Between Membrane Resistance, GABA-A Receptor Properties, Bicarbonate Dynamics and Cl-Transport Shape Activity-Dependent Changes of Intracellular Cl- Concentration Int J of Mol Sci [PubMed]
Citations  Citation Browser
Model Information (Click on a link to find other models with that property)
Model Type: Neuron or other electrically excitable cell; Dendrite; Synapse;
Brain Region(s)/Organism: Mouse; Hippocampus;
Cell Type(s): Hippocampus CA3 pyramidal GLU cell;
Channel(s):
Gap Junctions:
Receptor(s): GabaA;
Gene(s):
Transmitter(s): Gaba;
Simulation Environment: NEURON;
Model Concept(s): Synaptic Plasticity;
Implementer(s):
Search NeuronDB for information about:  Hippocampus CA3 pyramidal GLU cell; GabaA; Gaba;
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LombardiEtAl2019
Isolated_Dendrite_pGABA _HCO3__Fig5u7
cldif_CA3.mod *
cldif_CA3_NKCC1_HCO3.mod *
gabaA_Cl_HCO3.mod *
VDpas.mod *
vecevent.mod *
cell_isolated_dendrite.hoc *
GABA-Stim_PSC_isolated_dendrite_gGABA-0.000789_Var_pGABA.hoc *
GABA-Stim_PSC_isolated_dendrite_gGABA-0.0789_pGABA-018_Cli-30-var_tauHCO3_spatiotemp.hoc
GABA-Stim_PSC_isolated_dendrite_gGABA-0.0789_var-tauHCO3_Var-pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-10min_gGABA-0.00789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-10min_gGABA-0.0789_Var_pGABA .hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-10min_Var-gGABA_Var-pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-1s_gGABA-0.00789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-1s_gGABA-0.0789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-5ms_gGABA-0.00789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_tauHCO3-5ms_gGABA-0.0789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_Var_pGABA.hoc *
GABA-Stim_PSC_isolated_dendrite_woCl_gGABA-0.000789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_woCl_gGABA-0.00789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_woCl_gGABA-0.0789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_woHCO3_gGABA-0.000789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_woHCO3_gGABA-0.00789_Var_pGABA.hoc
GABA-Stim_PSC_isolated_dendrite_woHCO3_Var-gGABA_Var-pGABA.hoc
init_Cldif_isolated_dendrite.hoc *
init_Cldif_woHCO3_isolated_dendrite.hoc
Isolated_Dendrite.ses *
start_GABA-Stim_PSC_isolated_dendrite_gGABA-0.0789_pGABA-018_Cli-30-var_tauHCO3_spatiotemp.hoc
start_GABA-Stim_PSC_isolated_dendrite_gGABA-0.0789_var-tauHCO3_Var-pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_tauHCO3-10min__Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_tauHCO3-10min_Var-gGABA_Var-pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_tauHCO3-1s__Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_tauHCO3-5ms__Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_woCl_gGABA-0.0789_Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_woCl_Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_woHCO3_Var_pGABA.hoc
start_GABA-Stim_PSC_isolated_dendrite_woHCO3_Var-gGABA_Var-pGABA.hoc
                            
{load_file("nrngui.hoc")}
objectvar save_window_, rvp_
objectvar scene_vector_[5]
objectvar ocbox_, ocbox_list_, scene_, scene_list_
{ocbox_list_ = new List()  scene_list_ = new List()}
{pwman_place(2022,912,1)}
{
save_window_ = new Graph(0)
save_window_.size(0,200,-75,-35)
scene_vector_[2] = save_window_
{save_window_.view(0, -75, 200, 40, 462, 12, 956.7, 200.8)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addexpr("dend.v( 0.5 )", 1, 1, 0.8, 0.9, 2)
save_window_.addexpr("dend.ecl( 0.5 )", 2, 1, 0.8, 0.9, 2)
}
{
xpanel("RunControl", 0)
v_init = -60
xvalue("Init","v_init", 1,"stdinit()", 1, 1 )
xbutton("Init & Run","run()")
xbutton("Stop","stoprun=1")
runStopAt = 0
xvalue("Continue til","runStopAt", 1,"{continuerun(runStopAt) stoprun=1}", 1, 1 )
runStopIn = 0.5
xvalue("Continue for","runStopIn", 1,"{continuerun(t + runStopIn) stoprun=1}", 1, 1 )
xbutton("Single Step","steprun()")
t = 200
xvalue("t","t", 2 )
tstop = 200
xvalue("Tstop","tstop", 1,"tstop_changed()", 0, 1 )
dt = 0.025
xvalue("dt","dt", 1,"setdt()", 0, 1 )
steps_per_ms = 40
xvalue("Points plotted/ms","steps_per_ms", 1,"setdt()", 0, 1 )
screen_update_invl = 0.05
xvalue("Scrn update invl","screen_update_invl", 1,"", 0, 1 )
realtime = 1.45
xvalue("Real Time","realtime", 0,"", 0, 1 )
xpanel(24,144)
}
{
save_window_ = new Graph(0)
save_window_.size(0,210,20,40)
scene_vector_[3] = save_window_
{save_window_.view(0, 20, 210, 20, 462, 324, 961.2, 200.8)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addexpr("dend.cli( 0.5 )", 1, 1, 0.8, 0.9, 2)
}
{
save_window_ = new Graph(0)
save_window_.size(0,210,10,30)
scene_vector_[4] = save_window_
{save_window_.view(0, 10, 210, 20, 465, 660, 956.7, 200.8)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addexpr("dend.hco3i( 0.5 )", 1, 1, 0.8, 0.9, 2)
}
{
xpanel("gaba[0] at dend(0.5)", 0)
xlabel("gaba[0] at dend(0.5)")
gabasyn.tau1 = 0.1
xvalue("tau1","gabasyn.tau1", 1,"", 0, 1 )
gabasyn.tau2 = 80
xvalue("tau2","gabasyn.tau2", 1,"", 0, 1 )
gabasyn.P = 0
xvalue("P","gabasyn.P", 1,"", 0, 1 )
gabasyn.icl = -0.014253
xvalue("icl","gabasyn.icl", 0,"", 0, 1 )
gabasyn.ihco3 = -0
xvalue("ihco3","gabasyn.ihco3", 0,"", 0, 1 )
gabasyn.i = -0.014253
xvalue("i","gabasyn.i", 0,"", 0, 1 )
gabasyn.g = 0.0154885
xvalue("g","gabasyn.g", 0,"", 0, 1 )
gabasyn.e = -0
xvalue("e","gabasyn.e", 0,"", 0, 1 )
gabasyn.A = 9.88131e-324
xvalue("A","gabasyn.A", 0,"", 0, 1 )
gabasyn.B = 0.0154837
xvalue("B","gabasyn.B", 0,"", 0, 1 )
xpanel(30,577)
}
objectvar scene_vector_[1]
{doNotify()}