AP initiation and propagation in type II cochlear ganglion cell (Hossain et al 2005)

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Accession:54903
The model of type II cochlear ganglion cell was based on the immunostaining of the mouse auditory pathway. Specific antibodies were used to map the distribution of voltage-dependent sodium channels along the two unmyelinated axon-like processes of the bipolar ganglion cells. Three distinct hot spots were detected. A high density of sodium channels was present over the entire trajectory of sensory endings beneath the outer hair cells (the most distal portion of the peripheral axon). The other two hot spots were localized in the initial segments of both of the axons that flank the unmyelinated bipolar ganglion cell bodies. A biophysical model indicates that all three hot spots might play important roles in action potential initiation and propagation. For instance, the hot spot in the receptor segment is important for transforming the receptor potentials into a full blown action potential (Supplemental Fig. 1). The hot spots in the two paraganglionic axon initial segments are there to ensure the successful propagation of action potentials from the peripheral to the central axon through the cell body. The Readme.txt file provides step by step instructions on how to recreate Figures 6 and 7 of Hossain et al., 2005 paper.
Reference:
1 . Hossain WA, Antic SD, Yang Y, Rasband MN, Morest DK (2005) Where is the spike generator of the cochlear nerve? Voltage-gated sodium channels in the mouse cochlea. J Neurosci 25:6857-68 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Neuron or other electrically excitable cell;
Brain Region(s)/Organism:
Cell Type(s): Cochlear ganglion cell Type II;
Channel(s): I Na,t; I K; I M;
Gap Junctions:
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment: NEURON;
Model Concept(s): Action Potential Initiation; Dendritic Action Potentials; Audition;
Implementer(s): Antic, Srdjan [antic at neuron.uchc.edu];
Search NeuronDB for information about:  I Na,t; I K; I M;
load_file("nrngui.hoc")
objectvar save_window_, rvp_
objectvar scene_vector_[7]
objectvar ocbox_, ocbox_list_, scene_, scene_list_
{ocbox_list_ = new List()  scene_list_ = new List()}
{pwman_place(0,0,0)}

//Begin CellBuild[0]
{
load_file("celbild.hoc", "CellBuild")
}
{ocbox_ = new CellBuild(1)}
{object_push(ocbox_)}
{
version(5.1)
continuous = 1
}
{object_push(topol)}
{
first = 0
slist.remove_all()
sname = "HairBud"
objref tobj
}
{
tobj = new CellBuildSection("soma",0, 0, tobj, 0) slist.append(tobj)
  tobj.position(260.3,281.3,260.3,281.3) tobj.lx=271.221 tobj.ly=292.076 tobj.i3d=2
tobj = new CellBuildSection("soma",1, 0, tobj, 0.5) slist.append(tobj)
tobj.parent=slist.object(0)
  tobj.position(260.3,281.3,255,287.1) tobj.lx=259.425 tobj.ly=285.999 tobj.i3d=5
tobj = new CellBuildSection("soma",2, 0, tobj, 0.5) slist.append(tobj)
tobj.parent=slist.object(0)
  tobj.position(260.3,281.3,265.6,275.7) tobj.lx=268.736 tobj.ly=285.02 tobj.i3d=5
tobj = new CellBuildSection("funnel_C",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(1)
  tobj.position(255,287.1,250.4,291.6) tobj.lx=252.7 tobj.ly=289.35 tobj.i3d=2
tobj = new CellBuildSection("funnel_P",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(2)
  tobj.position(265.6,275.7,267.1,273.3) tobj.lx=266.35 tobj.ly=274.5 tobj.i3d=2
tobj = new CellBuildSection("InitSeg_C",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(3)
  tobj.position(250.4,291.6,246.9,294.5) tobj.lx=248.65 tobj.ly=293.05 tobj.i3d=2
tobj = new CellBuildSection("funnel_P",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(4)
  tobj.position(267.1,273.3,267.2,271.9) tobj.lx=267.15 tobj.ly=272.6 tobj.i3d=2
tobj = new CellBuildSection("InitSeg_C",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(5)
  tobj.position(246.9,294.5,243,297.5) tobj.lx=244.95 tobj.ly=296 tobj.i3d=2
tobj = new CellBuildSection("funnel_P",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(6)
  tobj.position(267.2,271.9,267.1,269.6) tobj.lx=267.15 tobj.ly=270.75 tobj.i3d=2
tobj = new CellBuildSection("InitSeg_C",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(7)
  tobj.position(243,297.5,236.4,303.3) tobj.lx=239.7 tobj.ly=300.4 tobj.i3d=3
tobj = new CellBuildSection("InitSeg_P",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(8)
  tobj.position(267.1,269.6,264.8,265.8) tobj.lx=265.95 tobj.ly=267.7 tobj.i3d=3
tobj = new CellBuildSection("Axon_C",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(9)
  tobj.position(236.4,303.3,231.9,307.4) tobj.lx=226.981 tobj.ly=302.25 tobj.i3d=2
tobj = new CellBuildSection("InitSeg_P",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(10)
  tobj.position(264.8,265.8,263.2,260.9) tobj.lx=264 tobj.ly=263.35 tobj.i3d=2
tobj = new CellBuildSection("Axon_C",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(11)
  tobj.position(231.9,307.4,228.1,311.1) tobj.lx=224.4 tobj.ly=307.327 tobj.i3d=3
tobj = new CellBuildSection("InitSeg_P",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(12)
  tobj.position(263.2,260.9,259.3,255.4) tobj.lx=261.25 tobj.ly=258.15 tobj.i3d=2
tobj = new CellBuildSection("Axon_C",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(13)
  tobj.position(228.1,311.1,228.1,326.9) tobj.lx=228.1 tobj.ly=319 tobj.i3d=4
tobj = new CellBuildSection("InitSeg_P",3, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(14)
  tobj.position(259.3,255.4,257.8,250.8) tobj.lx=258.55 tobj.ly=253.1 tobj.i3d=2
tobj = new CellBuildSection("Axon_C",3, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(15)
  tobj.position(228.1,326.9,221.6,351.7) tobj.lx=224.85 tobj.ly=339.3 tobj.i3d=4
tobj = new CellBuildSection("Axon_P",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(16)
  tobj.position(257.8,250.8,255.9,236.2) tobj.lx=256.85 tobj.ly=243.5 tobj.i3d=3
tobj = new CellBuildSection("Axon_C",4, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(17)
  tobj.position(221.6,351.7,212.1,364.9) tobj.lx=216.85 tobj.ly=358.3 tobj.i3d=6
tobj = new CellBuildSection("Axon_P",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(18)
  tobj.position(255.9,236.2,254.2,220.9) tobj.lx=255.05 tobj.ly=228.55 tobj.i3d=3
tobj = new CellBuildSection("Axon_C",5, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(19)
  tobj.position(212.1,364.9,199.6,382.9) tobj.lx=205.85 tobj.ly=373.9 tobj.i3d=5
tobj = new CellBuildSection("Axon_P",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(20)
  tobj.position(254.2,220.9,246.3,195.3) tobj.lx=250.25 tobj.ly=208.1 tobj.i3d=7
tobj = new CellBuildSection("Axon_C",6, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(21)
  tobj.position(199.6,382.9,163.6,380.2) tobj.lx=181.6 tobj.ly=381.55 tobj.i3d=4
tobj = new CellBuildSection("Axon_P",3, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(22)
  tobj.position(246.3,195.3,249.3,168.7) tobj.lx=247.8 tobj.ly=182 tobj.i3d=6
}
{
tobj = new CellBuildSection("Axon_C",7, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(23)
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tobj = new CellBuildSection("Axon_P",4, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(24)
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tobj = new CellBuildSection("Axon_C",8, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(25)
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tobj = new CellBuildSection("Axon_P",5, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(26)
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tobj = new CellBuildSection("Axon_C",9, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(27)
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tobj = new CellBuildSection("Axon_P",6, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(28)
  tobj.position(254.6,114.1,255.8,94.57) tobj.lx=255.2 tobj.ly=104.335 tobj.i3d=6
tobj = new CellBuildSection("Axon_C",10, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(29)
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tobj = new CellBuildSection("Receptor",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(30)
  tobj.position(255.8,94.57,262.7,60.1) tobj.lx=259.25 tobj.ly=77.335 tobj.i3d=6
tobj = new CellBuildSection("Axon_C",11, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(31)
  tobj.position(41.85,328.2,28.08,309.6) tobj.lx=34.965 tobj.ly=318.9 tobj.i3d=4
tobj = new CellBuildSection("Receptor",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(32)
  tobj.position(262.7,60.1,248.4,39.8) tobj.lx=255.55 tobj.ly=49.95 tobj.i3d=5
tobj = new CellBuildSection("Axon_C",12, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(33)
  tobj.position(28.08,309.6,24.08,286.5) tobj.lx=26.08 tobj.ly=298.05 tobj.i3d=3
tobj = new CellBuildSection("Receptor",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(34)
  tobj.position(248.4,39.8,227.2,11.46) tobj.lx=237.8 tobj.ly=25.63 tobj.i3d=6
tobj = new CellBuildSection("Axon_C",13, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(35)
  tobj.position(24.08,286.5,25.41,273.1) tobj.lx=24.745 tobj.ly=279.8 tobj.i3d=2
tobj = new CellBuildSection("Receptor",3, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(36)
  tobj.position(227.2,11.46,177.5,12.88) tobj.lx=202.35 tobj.ly=12.17 tobj.i3d=6
tobj = new CellBuildSection("Receptor",4, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(38)
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tobj = new CellBuildSection("Receptor",5, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(39)
  tobj.position(135.8,23.21,97.15,41.39) tobj.lx=116.475 tobj.ly=32.3 tobj.i3d=2
tobj = new CellBuildSection("Receptor",6, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(40)
  tobj.position(97.15,41.39,78.94,47.65) tobj.lx=74.8759 tobj.ly=24.0775 tobj.i3d=4
tobj = new CellBuildSection("Receptor",7, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(41)
  tobj.position(78.94,47.65,57.95,61.75) tobj.lx=52.2762 tobj.ly=44.7119 tobj.i3d=3
tobj = new CellBuildSection("Receptor",8, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(42)
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tobj = new CellBuildSection("HairBud",0, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(43)
  tobj.position(51.69,68.18,55.25,73.08) tobj.lx=71.4368 tobj.ly=83.5244 tobj.i3d=2
tobj = new CellBuildSection("Receptor",9, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(43)
  tobj.position(51.69,68.18,47.89,71.79) tobj.lx=19.3593 tobj.ly=36.8512 tobj.i3d=2
tobj = new CellBuildSection("HairBud",1, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(45)
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tobj = new CellBuildSection("Receptor",10, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(45)
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tobj = new CellBuildSection("HairBud",2, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(47)
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tobj = new CellBuildSection("Receptor",11, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(47)
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{
tobj = new CellBuildSection("HairBud",3, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(49)
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tobj = new CellBuildSection("Receptor",12, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(49)
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tobj = new CellBuildSection("Receptor",13, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(51)
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tobj = new CellBuildSection("HairBud",4, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(52)
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tobj = new CellBuildSection("HairBud",5, 0, tobj, 1) slist.append(tobj)
tobj.parent=slist.object(52)
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all_init()
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41.85 328.2 0.0054278 0.697
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25.41 273.1 0.00542819 0.5404
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177.5 12.88 1.005 0.798
177.5 12.88 1.005 0.798
164.1 15.99 1.005 0.86
153 18.44 1.005 0.88
135.8 23.21 1.005 0.7382
135.8 23.21 1.005 0.7382
97.15 41.39 1.005 0.88
97.15 41.39 1.005 0.88
95 41.82 1.005 0.76
88.41 43.81 1.005 0.78
78.94 47.65 1.005 1.02
78.94 47.65 1.005 1.02
67.98 54.07 1.005 0.86
57.95 61.75 1.005 0.7
57.95 61.75 1.005 0.7
51.69 68.18 1.005 0.89
51.69 68.18 1.005 0.89
55.25 73.08 0.998 1.515
51.69 68.18 1.005 0.89
47.89 71.79 1.005 0.84
47.89 71.79 1.005 0.84
50.24 76.14 0.998 1.702
47.89 71.79 1.005 0.84
38.84 77.85 1.005 0.81
38.84 77.85 1.005 0.81
40.12 81.08 0.998 1.218
38.84 77.85 1.005 0.81
33.66 80.97 1.005 0.86
33.66 80.97 1.005 0.86
34.04 81.36 1.005 1.62
33.77 84.47 1.005 1.32
33.66 80.97 1.005 0.86
24.21 85.89 1.005 0.62
24.21 85.89 1.005 0.62
19.57 90.23 1.005 0.76
16.26 94.37 1.005 0.99
16.26 94.37 1.005 0.99
16.69 94.8 1.005 1.18
17.75 96.62 1.005 1.9
16.26 94.37 1.005 0.99
13.44 96.62 1.005 0.72
12.98 99.07 1.005 1.98
13.41 100.3 1.005 3.04
13.61 101.3 1.005 1.36
{object_pop()}
{
}
{object_push(subsets)}
{first = 0}
{tobj = new SNList("SOMA_JUNCTIONs") snlist.append(tobj)}
for i=0,6 tobj.add(bild.topol.slist.object(fscan()))
0
1
2
3
4
6
8
{tobj = new SNList("INIT_SEG_PER") snlist.append(tobj)}
for i=0,2 tobj.add(bild.topol.slist.object(fscan()))
12
14
16
{tobj = new SNList("INIT_SEG_CENT") snlist.append(tobj)}
for i=0,2 tobj.add(bild.topol.slist.object(fscan()))
5
7
9
{tobj = new SNList("AXONS") snlist.append(tobj)}
for i=0,20 tobj.add(bild.topol.slist.object(fscan()))
11
13
15
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
33
35
37
{tobj = new SNList("REC_NEU_BUDS") snlist.append(tobj)}
for i=0,19 tobj.add(bild.topol.slist.object(fscan()))
32
34
36
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
{consist()}
{object_pop()}
{
}
{object_push(geom)}
{
first = 0
tobj = new GeoSpec(4)
tobj.value = 1
bild.subsets.snlist.object(1).geo.append(tobj)
tobj = new GeoSpec(4)
tobj.value = 3
bild.subsets.snlist.object(2).geo.append(tobj)
tobj = new GeoSpec(4)
tobj.value = 3
bild.subsets.snlist.object(3).geo.append(tobj)
tobj = new GeoSpec(4)
tobj.value = 5
bild.subsets.snlist.object(4).geo.append(tobj)
tobj = new GeoSpec(4)
tobj.value = 3
bild.subsets.snlist.object(5).geo.append(tobj)
set_default()
}
{object_pop()}
{
}
{object_push(memb)}
{first=0}
{
tobj = new GeoSpec(0)
tobj.value = 70
tobj.set_default()
tobj = new MStanWrap(tobj, 0)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new GeoSpec(1)
tobj.value = 1
tobj.set_default()
tobj = new MStanWrap(tobj, 0)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new MechanismStandard("pas")
tobj.set("g_pas", 2e-05, 0)
tobj.set("e_pas", -70, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new MechanismStandard("km")
tobj.set("gbar_km", 70, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new MechanismStandard("kv")
tobj.set("gbar_kv", 60, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new MechanismStandard("na")
tobj.set("gbar_na", 120, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(0).ml.append(tobj)
}
{
tobj = new MechanismStandard("hh")
tobj.set("gnabar_hh", 0, 0)
tobj.set("gkbar_hh", 0, 0)
tobj.set("gl_hh", 0, 0)
tobj.set("el_hh", -54.3, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(2).ml.append(tobj)
}
{
tobj = new MechanismStandard("hh")
tobj.set("gnabar_hh", 0.12, 0)
tobj.set("gkbar_hh", 0, 0)
tobj.set("gl_hh", 0, 0)
tobj.set("el_hh", -54.3, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(3).ml.append(tobj)
}
{
tobj = new MechanismStandard("hh")
tobj.set("gnabar_hh", 0.12, 0)
tobj.set("gkbar_hh", 0, 0)
tobj.set("gl_hh", 0, 0)
tobj.set("el_hh", -54.3, 0)
tobj = new MStanWrap(tobj, 1)
bild.subsets.snlist.object(5).ml.append(tobj)
}
{object_pop()}
{
}
{object_push(manage)}
{
first = 0
classname = "Cell"
etop=1 esub=1 egeom=1 emem=1
itop=1 isub=0 igeom=0 imem=0
bild.topol.names_off = 0
bild.topol.circles_off = 1
output_index = 0  output_x = 1
}
{object_pop()}
{
cexport()
}
{object_pop()}
{
save_window_=ocbox_.gtopol
save_window_.size(-222.272,532.272,-40,440)
scene_vector_[2] = save_window_
ocbox_.gtopol = save_window_
save_window_.save_name("ocbox_.gtopol")
}
{
ocbox_.map("CellBuild[0]", -206, 643, 912.6, 769.5)
}
objref ocbox_
//End CellBuild[0]


//Begin PointProcessManager
{
load_file("pointman.hoc")
}
{
HairBud[1] ocbox_ = new PointProcessManager(0)
}
{object_push(ocbox_)}
{
mt.select("AlphaSynapse") i = mt.selected()
ms[i] = new MechanismStandard("AlphaSynapse")
ms[i].set("onset", 50, 0)
ms[i].set("tau", 5, 0)
ms[i].set("gmax", 0.002, 0)
ms[i].set("e", 0, 0)
mt.select("AlphaSynapse") i = mt.selected() maction(i)
hoc_ac_ = 0.5
sec.sec move() d1.flip_to(0)
}
{object_pop() doNotify()}
{
ocbox_ = ocbox_.v1
ocbox_.map("PointProcessManager", 300, 128, 215.1, 334.8)
}
objref ocbox_
//End PointProcessManager

{
xpanel("forall Ra=global_ra", 0)
global_ra = 70
xvalue("global Ra","global_ra", 1,"set_ra()", 1, 1 )
xpanel(717,2)
}
{
xpanel("Temperature", 0)
celsius = 30
xvalue("celsius","celsius", 1,"", 0, 1 )
xpanel(448,2)
}
{
xpanel("RunControl", 0)
v_init = -76
xvalue("Init","v_init", 1,"stdinit()", 1, 1 )
xbutton("Init & Run","run()")
xbutton("Stop","stoprun=1")
runStopAt = 5
xvalue("Continue til","runStopAt", 1,"{continuerun(runStopAt) stoprun=1}", 1, 1 )
runStopIn = 1
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 )
xcheckbox("Quiet",&stdrun_quiet,"")
realtime = 3
xvalue("Real Time","realtime", 0,"", 0, 1 )
xpanel(4,105)
}
{
save_window_ = new Graph(0)
save_window_.size(40,90,-80,40)
scene_vector_[4] = save_window_
{save_window_.view(40, -80, 50, 120, 1039, 21, 300.6, 331.3)}
graphList[0].append(save_window_)
save_window_.save_name("graphList[0].")
save_window_.addvar("soma[1].v( 0.5 )", 1, 1, 0.719162, 0.943465, 2)
save_window_.addexpr("Receptor[5].v( 0.5 )", 2, 1, 0.671257, 1.03583, 2)
}
{
save_window_ = new Graph(0)
save_window_.size(40,90,-80,40)
scene_vector_[5] = save_window_
{save_window_.view(40, -80, 50, 120, 1045, 548, 300.6, 329.5)}
graphList[0].append(save_window_)
save_window_.save_name("graphList[0].")
save_window_.addvar("Axon_P[2].v( 0.1 )", 1, 1, 0.698204, 0.973748, 2)
}
{
save_window_ = new Graph(0)
save_window_.size(48,68,-80,40)
scene_vector_[6] = save_window_
{save_window_.view(48, -80, 20, 120, 603, 121, 300.6, 331.3)}
graphList[0].append(save_window_)
save_window_.save_name("graphList[0].")
save_window_.addexpr("Receptor[5].v( 0.5 )", 2, 1, 0.674251, 0.99508, 2)
save_window_.addvar("soma[1].v( 0.5 )", 1, 1, 0.728144, 0.967914, 2)
}
objectvar scene_vector_[1]
{doNotify()}

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