//**************************************************************************
// Begin cell template for MSP_Cell
// load cell template - builds the cell topology, including inserting
// channels and synapses
begintemplate MSP_Cell
public is_art
public init, topol, basic_shape, subsets, geom, memb
public synlist, x, y, z, position, connect2target
public soma, dendrite, spine
public all, Prox_Dend, Mid_Dend, Dist_Dend
public leaf
public gaba, ampa, nmda, mglu, dr
create soma
create dendrite[55]
create spine[2]
objref synlist, leaf, gaba[300], ampa[300], nmda[300], mglu[300], dr[300]
proc init() {
topol()
subsets()
geom()
biophys()
forall {Ra = $1 CM = $2}
geom_nseg()
compts = 0
forall {print secname(), " ", nseg compts = compts + nseg}
print compts, " compartments"
synlist = new List()
leaf = new List()
synloops()
x = y = z = 0 // only change via position
}
proc topol() { local i
connect dendrite[0](0), soma(0.5)
connect dendrite[1](0), dendrite[0](1)
connect dendrite[2](0), dendrite[1](1)
connect dendrite[3](0), dendrite[2](1)
connect dendrite[4](0), dendrite[3](1)
connect dendrite[5](0), dendrite[4](1)
connect dendrite[6](0), dendrite[4](1)
connect dendrite[7](0), dendrite[3](1)
connect dendrite[8](0), dendrite[2](1)
connect dendrite[9](0), dendrite[1](1)
connect dendrite[10](0), dendrite[9](1)
connect dendrite[11](0), dendrite[9](1)
connect dendrite[12](0), dendrite[11](1)
connect dendrite[13](0), dendrite[11](1)
connect dendrite[14](0), dendrite[0](1)
connect dendrite[15](0), dendrite[14](1)
connect dendrite[16](0), dendrite[15](1)
connect dendrite[17](0), dendrite[15](1)
connect dendrite[18](0), dendrite[14](1)
connect dendrite[19](0), dendrite[18](1)
connect dendrite[20](0), dendrite[18](1)
connect dendrite[21](0), dendrite[20](1)
connect dendrite[22](0), dendrite[20](1)
connect dendrite[23](0), dendrite[14](1)
connect dendrite[24](0), soma(0.5)
connect dendrite[25](0), soma(0.5)
connect dendrite[26](0), dendrite[25](1)
connect dendrite[27](0), dendrite[25](1)
connect dendrite[28](0), soma(0.5)
connect dendrite[29](0), dendrite[28](1)
connect dendrite[30](0), dendrite[29](1)
connect dendrite[31](0), dendrite[29](1)
connect dendrite[32](0), dendrite[28](1)
connect dendrite[33](0), soma(0.5)
connect dendrite[34](0), soma(0.5)
connect dendrite[35](0), dendrite[34](1)
connect dendrite[36](0), dendrite[35](1)
connect dendrite[37](0), dendrite[36](1)
connect dendrite[38](0), dendrite[36](1)
connect dendrite[39](0), dendrite[35](1)
connect dendrite[40](0), dendrite[39](1)
connect dendrite[41](0), dendrite[39](1)
connect dendrite[42](0), dendrite[34](1)
connect dendrite[43](0), dendrite[42](1)
connect dendrite[44](0), dendrite[42](1)
connect dendrite[45](0), dendrite[44](1)
connect dendrite[46](0), dendrite[45](1)
connect dendrite[47](0), dendrite[45](1)
connect dendrite[48](0), dendrite[47](1)
connect dendrite[49](0), dendrite[47](1)
connect dendrite[50](0), dendrite[44](1)
connect dendrite[51](0), soma(0.5)
connect dendrite[52](0), dendrite[51](1)
connect dendrite[53](0), dendrite[51](1)
connect dendrite[54](0), dendrite[51](1)
connect spine[0](0), dendrite[1](0.5)
// connect spine[1](0), dendrite[4](0.5)
connect spine[1](0), dendrite[19](0.5)
basic_shape()
}
proc basic_shape() {
soma {
pt3dclear()
}
dendrite[0] {
pt3dclear()
pt3dadd(-4.380000,-9.370000,13.000000,1.860000)
pt3dadd(-5.700000,-14.830000,13.000000,1.730000)
pt3dadd(-7.700000,-19.360001,15.000000,1.730000)
}
dendrite[1] {
pt3dclear()
pt3dadd(-7.700000,-19.360001,15.000000,1.730000)
pt3dadd(-9.550000,-22.290001,17.000000,0.800000)
pt3dadd(-9.960000,-24.240000,17.000000,0.800000)
}
dendrite[2] {
pt3dclear()
pt3dadd(-9.960000,-24.240000,17.000000,0.800000)
pt3dadd(-10.220000,-25.889999,17.000000,0.800000)
pt3dadd(-11.150000,-28.150000,17.000000,0.800000)
pt3dadd(-11.320000,-28.530001,17.000000,0.800000)
}
dendrite[3] {
pt3dclear()
pt3dadd(-11.320000,-28.530001,17.000000,0.800000)
pt3dadd(-12.350000,-29.040001,17.000000,0.800000)
}
dendrite[4] {
pt3dclear()
pt3dadd(-12.350000,-29.040001,17.000000,0.800000)
pt3dadd(-14.870000,-29.620001,17.000000,0.800000)
pt3dadd(-15.660000,-31.219999,16.000000,0.800000)
pt3dadd(-18.190001,-35.080002,15.000000,0.800000)
pt3dadd(-18.190001,-37.209999,15.000000,0.800000)
pt3dadd(-18.320000,-39.470001,15.000000,0.800000)
}
dendrite[5] {
pt3dclear()
pt3dadd(-18.320000,-39.470001,15.000000,0.800000)
pt3dadd(-21.510000,-40.740002,15.000000,0.800000)
pt3dadd(-21.510000,-40.869999,15.000000,0.800000)
pt3dadd(-26.820000,-42.869999,13.000000,0.800000)
pt3dadd(-30.540001,-45.400002,13.000000,0.800000)
pt3dadd(-30.400000,-48.730000,13.000000,0.800000)
pt3dadd(-30.540001,-48.730000,13.000000,0.800000)
pt3dadd(-33.990002,-51.259998,13.000000,0.800000)
pt3dadd(-37.580002,-56.060001,13.000000,0.800000)
pt3dadd(-40.759998,-57.790001,13.000000,0.800000)
pt3dadd(-44.880001,-61.919998,10.000000,0.660000)
pt3dadd(-48.200001,-62.990002,10.000000,0.660000)
pt3dadd(-51.119999,-64.980003,10.000000,0.660000)
pt3dadd(-51.650002,-67.650002,10.000000,0.660000)
pt3dadd(-55.369999,-67.120003,8.000000,0.660000)
pt3dadd(-60.680000,-66.449997,7.000000,0.660000)
pt3dadd(-61.610001,-69.779999,5.000000,0.660000)
pt3dadd(-66.660004,-72.180000,3.000000,0.660000)
pt3dadd(-69.709999,-74.709999,1.000000,0.660000)
pt3dadd(-71.169998,-75.809998,1.000000,0.660000)
pt3dadd(-72.629997,-77.510002,-1.000000,0.660000)
pt3dadd(-74.489998,-78.209999,-1.000000,0.660000)
pt3dadd(-76.879997,-79.110001,-3.000000,0.660000)
pt3dadd(-80.870003,-79.500000,-3.000000,0.660000)
pt3dadd(-81.800003,-80.440002,-6.000000,0.660000)
pt3dadd(-83.129997,-80.099998,-9.000000,0.660000)
pt3dadd(-84.720001,-81.040001,-11.000000,0.660000)
pt3dadd(-86.180000,-81.169998,-12.000000,0.660000)
pt3dadd(-86.839996,-81.570000,-14.000000,0.660000)
pt3dadd(-87.769997,-81.300003,-16.000000,0.660000)
}
dendrite[6] {
pt3dclear()
pt3dadd(-18.320000,-39.470001,15.000000,0.800000)
pt3dadd(-13.140000,-41.869999,14.000000,0.800000)
pt3dadd(-9.290000,-45.869999,14.000000,0.800000)
pt3dadd(-8.630000,-50.660000,12.000000,0.800000)
pt3dadd(-9.550000,-55.060001,12.000000,0.800000)
pt3dadd(-3.580000,-56.930000,12.000000,0.800000)
pt3dadd(0.010000,-61.189999,9.000000,0.660000)
pt3dadd(2.660000,-65.580002,9.000000,0.660000)
pt3dadd(4.920000,-68.910004,6.000000,0.660000)
pt3dadd(8.110000,-71.110001,4.000000,0.660000)
pt3dadd(11.830000,-72.839996,3.000000,0.660000)
pt3dadd(13.950000,-73.910004,2.000000,0.660000)
pt3dadd(15.280000,-75.910004,-1.000000,0.660000)
pt3dadd(13.550000,-78.839996,-3.000000,0.660000)
pt3dadd(13.820000,-81.239998,-6.000000,0.660000)
pt3dadd(12.760000,-82.440002,-6.000000,0.660000)
pt3dadd(10.100000,-83.099998,-6.000000,0.660000)
pt3dadd(5.190000,-86.959999,-6.000000,0.660000)
}
dendrite[7] {
pt3dclear()
pt3dadd(-12.350000,-29.040001,17.000000,1.060000)
pt3dadd(-11.820000,-31.170000,17.000000,1.060000)
pt3dadd(-11.550000,-33.279999,17.000000,1.060000)
pt3dadd(-10.090000,-38.740002,17.000000,0.930000)
pt3dadd(-10.220000,-38.740002,17.000000,0.930000)
pt3dadd(-10.880000,-45.799999,17.000000,0.930000)
pt3dadd(-9.950000,-50.599998,17.000000,0.930000)
pt3dadd(-10.350000,-53.529999,19.000000,0.800000)
pt3dadd(-9.820000,-57.259998,19.000000,0.800000)
pt3dadd(-12.480000,-62.189999,20.000000,0.800000)
pt3dadd(-15.130000,-64.720001,17.000000,0.800000)
pt3dadd(-17.120001,-68.449997,17.000000,0.800000)
pt3dadd(-17.389999,-71.650002,17.000000,0.660000)
pt3dadd(-18.190001,-75.639999,15.000000,0.660000)
pt3dadd(-17.660000,-78.570000,15.000000,0.660000)
pt3dadd(-17.520000,-82.500000,12.000000,0.660000)
pt3dadd(-15.130000,-84.629997,12.000000,0.660000)
pt3dadd(-15.270000,-84.629997,12.000000,0.660000)
pt3dadd(-16.190001,-87.559998,9.000000,0.660000)
pt3dadd(-15.800000,-90.099998,9.000000,0.660000)
pt3dadd(-15.530000,-92.360001,9.000000,0.660000)
pt3dadd(-14.870000,-94.620003,9.000000,0.660000)
pt3dadd(-14.870000,-96.889999,9.000000,0.660000)
pt3dadd(-13.800000,-98.349998,9.000000,0.660000)
pt3dadd(-13.800000,-98.489998,9.000000,0.660000)
pt3dadd(-14.070000,-100.889999,9.000000,0.660000)
pt3dadd(-14.470000,-103.150002,9.000000,0.660000)
pt3dadd(-14.340000,-105.809998,9.000000,0.660000)
pt3dadd(-15.400000,-107.680000,9.000000,0.660000)
pt3dadd(-15.530000,-107.680000,9.000000,0.660000)
pt3dadd(-16.330000,-110.610001,9.000000,0.530000)
pt3dadd(-18.049999,-112.870003,9.000000,0.530000)
pt3dadd(-19.910000,-113.540001,9.000000,0.530000)
pt3dadd(-20.309999,-114.209999,9.000000,0.530000)
pt3dadd(-21.110001,-115.540001,9.000000,0.530000)
pt3dadd(-21.639999,-117.400002,6.000000,0.530000)
}
dendrite[8] {
pt3dclear()
pt3dadd(-11.320000,-28.530001,17.000000,0.800000)
pt3dadd(-10.390000,-30.330000,32.000000,1.200000)
pt3dadd(-9.590000,-33.000000,34.000000,1.060000)
pt3dadd(-9.860000,-36.459999,37.000000,1.060000)
pt3dadd(-10.390000,-42.849998,43.000000,1.060000)
pt3dadd(-12.510000,-46.180000,50.000000,1.060000)
pt3dadd(-14.110000,-44.189999,54.000000,1.060000)
pt3dadd(-15.700000,-44.320000,60.000000,1.060000)
pt3dadd(-18.219999,-43.389999,65.000000,0.800000)
pt3dadd(-18.620001,-45.119999,71.000000,0.800000)
pt3dadd(-16.500000,-46.450001,77.000000,0.800000)
}
dendrite[9] {
pt3dclear()
pt3dadd(-9.960000,-24.240000,17.000000,0.800000)
pt3dadd(-13.550000,-25.580000,17.000000,0.660000)
pt3dadd(-16.070000,-26.910000,22.000000,0.530000)
pt3dadd(-20.190001,-28.510000,21.000000,0.530000)
pt3dadd(-23.900000,-29.440001,22.000000,0.530000)
pt3dadd(-28.150000,-29.020000,22.000000,0.530000)
pt3dadd(-33.189999,-28.549999,22.000000,0.530000)
}
dendrite[10] {
pt3dclear()
pt3dadd(-33.189999,-28.549999,22.000000,0.660000)
pt3dadd(-37.709999,-28.480000,21.000000,0.660000)
pt3dadd(-44.349998,-27.150000,21.000000,0.660000)
pt3dadd(-49.529999,-28.750000,20.000000,0.530000)
pt3dadd(-54.709999,-29.820000,18.000000,0.530000)
pt3dadd(-60.680000,-31.410000,18.000000,0.530000)
pt3dadd(-61.349998,-32.880001,18.000000,0.530000)
pt3dadd(-66.389999,-34.349998,17.000000,0.530000)
pt3dadd(-70.110001,-32.750000,17.000000,0.530000)
pt3dadd(-72.769997,-35.279999,15.000000,0.530000)
pt3dadd(-75.290001,-39.009998,15.000000,0.530000)
pt3dadd(-79.010002,-41.939999,14.000000,0.400000)
pt3dadd(-81.800003,-46.599998,12.000000,0.400000)
pt3dadd(-83.389999,-48.330002,12.000000,0.400000)
pt3dadd(-83.389999,-54.590000,10.000000,0.400000)
pt3dadd(-83.519997,-59.520000,10.000000,0.400000)
pt3dadd(-82.459999,-62.320000,10.000000,0.400000)
pt3dadd(-81.970001,-66.209999,8.000000,0.130000)
pt3dadd(-83.690002,-68.199997,8.000000,0.130000)
pt3dadd(-84.489998,-68.739998,8.000000,0.130000)
pt3dadd(-91.260002,-69.000000,8.000000,0.130000)
pt3dadd(-95.910004,-70.199997,12.000000,0.130000)
}
dendrite[11] {
pt3dclear()
pt3dadd(-33.189999,-28.549999,22.000000,0.660000)
pt3dadd(-36.380001,-25.219999,22.000000,0.660000)
pt3dadd(-38.639999,-22.420000,22.000000,0.660000)
pt3dadd(-43.820000,-19.889999,22.000000,0.660000)
pt3dadd(-48.070000,-16.030001,22.000000,0.660000)
pt3dadd(-50.189999,-14.560000,20.000000,0.660000)
pt3dadd(-53.110001,-12.960000,20.000000,0.660000)
pt3dadd(-56.959999,-8.840000,19.000000,0.660000)
pt3dadd(-59.889999,-8.170000,16.000000,0.660000)
pt3dadd(-61.880001,-5.640000,16.000000,0.660000)
pt3dadd(-65.459999,-4.970000,13.000000,0.660000)
pt3dadd(-68.519997,-3.510000,13.000000,0.660000)
pt3dadd(-73.830002,-5.240000,13.000000,0.660000)
pt3dadd(-78.739998,-6.840000,13.000000,0.660000)
pt3dadd(-80.599998,-8.170000,13.000000,0.530000)
pt3dadd(-81.400002,-10.970000,13.000000,0.530000)
pt3dadd(-85.250000,-13.900000,14.000000,0.530000)
pt3dadd(-88.040001,-15.360000,14.000000,0.530000)
pt3dadd(-90.029999,-16.959999,16.000000,0.530000)
pt3dadd(-93.620003,-18.160000,19.000000,0.530000)
pt3dadd(-96.669998,-18.530001,19.000000,0.530000)
pt3dadd(-101.449997,-19.459999,19.000000,0.530000)
pt3dadd(-105.169998,-21.200001,19.000000,0.530000)
pt3dadd(-109.820000,-21.860001,19.000000,0.530000)
pt3dadd(-115.680000,-23.389999,19.000000,0.530000)
}
dendrite[12] {
pt3dclear()
pt3dadd(-115.680000,-23.389999,19.000000,0.530000)
pt3dadd(-123.910004,-23.250000,19.000000,0.270000)
pt3dadd(-132.139999,-22.990000,19.000000,0.130000)
pt3dadd(-137.039993,-23.459999,19.000000,0.130000)
pt3dadd(-142.479996,-23.059999,19.000000,0.130000)
pt3dadd(-148.460007,-23.730000,19.000000,0.130000)
pt3dadd(-154.440002,-24.389999,19.000000,0.130000)
pt3dadd(-159.369995,-23.520000,19.000000,0.130000)
pt3dadd(-164.130005,-21.059999,19.000000,0.130000)
pt3dadd(-168.250000,-18.930000,19.000000,0.130000)
pt3dadd(-173.559998,-15.470000,19.000000,0.130000)
pt3dadd(-177.429993,-12.200000,19.000000,0.130000)
}
dendrite[13] {
pt3dclear()
pt3dadd(-115.680000,-23.389999,19.000000,0.530000)
pt3dadd(-120.839996,-26.020000,20.000000,0.530000)
pt3dadd(-123.360001,-27.350000,20.000000,0.530000)
pt3dadd(-127.349998,-29.480000,22.000000,0.530000)
pt3dadd(-132.000000,-30.549999,22.000000,0.270000)
pt3dadd(-137.839996,-29.879999,25.000000,0.270000)
}
dendrite[14] {
pt3dclear()
pt3dadd(-7.700000,-19.360001,15.000000,1.730000)
pt3dadd(-5.700000,-24.020000,19.000000,1.590000)
}
dendrite[15] {
pt3dclear()
pt3dadd(-5.700000,-24.020000,19.000000,1.590000)
pt3dadd(-5.970000,-27.950001,23.000000,1.060000)
pt3dadd(-10.090000,-30.219999,23.000000,1.060000)
pt3dadd(-13.940000,-30.549999,26.000000,1.060000)
pt3dadd(-19.780001,-30.680000,26.000000,0.930000)
pt3dadd(-23.230000,-31.610001,26.000000,0.930000)
pt3dadd(-24.559999,-31.680000,26.000000,0.930000)
pt3dadd(-27.480000,-34.009998,26.000000,0.800000)
pt3dadd(-33.990002,-35.209999,28.000000,0.800000)
pt3dadd(-39.299999,-36.939999,28.000000,0.660000)
pt3dadd(-39.830002,-38.279999,28.000000,0.660000)
pt3dadd(-43.680000,-39.070000,28.000000,0.660000)
pt3dadd(-45.150002,-40.009998,33.000000,0.660000)
pt3dadd(-49.130001,-42.410000,33.000000,0.660000)
pt3dadd(-50.310001,-43.139999,33.000000,0.660000)
}
dendrite[16] {
pt3dclear()
pt3dadd(-50.310001,-43.139999,33.000000,0.660000)
pt3dadd(-52.570000,-41.680000,33.000000,0.270000)
pt3dadd(-56.549999,-44.139999,33.000000,0.270000)
pt3dadd(-64.120003,-45.869999,42.000000,0.270000)
pt3dadd(-69.430000,-48.540001,49.000000,0.270000)
pt3dadd(-69.559998,-48.540001,49.000000,0.270000)
pt3dadd(-71.019997,-54.259998,49.000000,0.270000)
pt3dadd(-71.160004,-54.259998,49.000000,0.270000)
pt3dadd(-72.620003,-60.930000,55.000000,0.270000)
pt3dadd(-72.750000,-60.930000,55.000000,0.270000)
pt3dadd(-77.660004,-67.050003,64.000000,0.270000)
pt3dadd(-77.800003,-67.050003,64.000000,0.270000)
pt3dadd(-83.239998,-70.779999,71.000000,0.270000)
pt3dadd(-92.940002,-75.309998,75.000000,0.130000)
}
dendrite[17] {
pt3dclear()
pt3dadd(-50.310001,-43.139999,33.000000,0.660000)
pt3dadd(-51.250000,-44.400002,33.000000,0.660000)
pt3dadd(-52.450001,-51.459999,33.000000,0.530000)
pt3dadd(-52.450001,-52.660000,33.000000,0.530000)
pt3dadd(-53.110001,-55.459999,33.000000,0.530000)
pt3dadd(-53.380001,-57.990002,33.000000,0.530000)
pt3dadd(-57.230000,-61.049999,35.000000,0.400000)
pt3dadd(-62.939999,-62.650002,35.000000,0.400000)
pt3dadd(-67.849998,-62.650002,35.000000,0.400000)
pt3dadd(-69.849998,-63.450001,35.000000,0.400000)
pt3dadd(-73.300003,-64.489998,35.000000,0.400000)
pt3dadd(-76.489998,-64.779999,37.000000,0.400000)
pt3dadd(-82.199997,-64.779999,37.000000,0.400000)
pt3dadd(-84.190002,-66.779999,37.000000,0.400000)
pt3dadd(-89.099998,-67.419998,37.000000,0.400000)
pt3dadd(-95.080002,-67.849998,37.000000,0.400000)
pt3dadd(-101.320000,-64.889999,37.000000,0.400000)
pt3dadd(-107.300003,-63.320000,37.000000,0.400000)
pt3dadd(-113.400002,-64.620003,37.000000,0.400000)
pt3dadd(-120.709999,-65.160004,37.000000,0.400000)
pt3dadd(-126.019997,-65.290001,37.000000,0.400000)
pt3dadd(-132.259995,-65.449997,39.000000,0.400000)
}
dendrite[18] {
pt3dclear()
pt3dadd(-5.700000,-24.020000,19.000000,1.590000)
pt3dadd(-5.310000,-25.090000,22.000000,1.460000)
pt3dadd(-1.850000,-28.549999,23.000000,1.200000)
pt3dadd(3.060000,-32.549999,27.000000,1.200000)
pt3dadd(6.380000,-34.209999,31.000000,1.060000)
pt3dadd(7.440000,-36.480000,35.000000,0.930000)
}
dendrite[19] {
pt3dclear()
pt3dadd(7.440000,-36.480000,35.000000,0.930000)
pt3dadd(7.440000,-42.410000,35.000000,0.800000)
pt3dadd(7.580000,-46.799999,38.000000,0.800000)
pt3dadd(9.440000,-50.400002,41.000000,0.800000)
pt3dadd(9.570000,-52.400002,41.000000,0.800000)
pt3dadd(11.560000,-58.119999,41.000000,0.800000)
pt3dadd(13.730000,-63.130001,41.000000,0.800000)
pt3dadd(17.010000,-69.180000,46.000000,0.800000)
pt3dadd(17.709999,-73.779999,46.000000,0.800000)
pt3dadd(19.400000,-78.110001,42.000000,0.800000)
pt3dadd(19.400000,-78.239998,42.000000,0.800000)
pt3dadd(18.600000,-81.970001,42.000000,0.660000)
}
dendrite[20] {
pt3dclear()
pt3dadd(7.440000,-36.480000,35.000000,0.930000)
pt3dadd(7.970000,-37.139999,35.000000,0.930000)
pt3dadd(12.760000,-38.340000,35.000000,0.930000)
pt3dadd(15.010000,-38.740002,37.000000,0.930000)
pt3dadd(20.190001,-37.939999,44.000000,0.930000)
pt3dadd(25.370001,-38.209999,48.000000,0.930000)
pt3dadd(29.360001,-36.540001,52.000000,0.930000)
pt3dadd(33.580002,-38.930000,52.000000,0.930000)
}
dendrite[21] {
pt3dclear()
pt3dadd(33.580002,-38.930000,52.000000,0.930000)
pt3dadd(35.200001,-39.209999,60.000000,0.930000)
pt3dadd(40.689999,-36.490002,60.000000,0.930000)
pt3dadd(44.889999,-36.009998,62.000000,0.930000)
pt3dadd(50.779999,-34.619999,62.000000,0.930000)
pt3dadd(57.419998,-33.950001,62.000000,0.930000)
pt3dadd(60.169998,-33.080002,65.000000,0.930000)
pt3dadd(65.919998,-31.959999,65.000000,0.930000)
pt3dadd(71.570000,-30.520000,65.000000,0.930000)
pt3dadd(78.349998,-29.590000,65.000000,0.930000)
pt3dadd(83.139999,-29.020000,71.000000,0.660000)
pt3dadd(89.900002,-27.590000,71.000000,0.660000)
pt3dadd(95.480003,-26.930000,71.000000,0.660000)
pt3dadd(100.800003,-25.750000,75.000000,0.660000)
pt3dadd(105.839996,-28.440001,65.000000,0.630000)
pt3dadd(109.949997,-29.059999,65.000000,0.630000)
pt3dadd(114.070000,-27.900000,67.000000,0.630000)
pt3dadd(118.190002,-27.590000,67.000000,0.630000)
pt3dadd(123.769997,-28.170000,70.000000,0.630000)
pt3dadd(123.629997,-28.170000,70.000000,0.630000)
}
dendrite[22] {
pt3dclear()
pt3dadd(33.580002,-38.930000,52.000000,0.930000)
pt3dadd(36.900002,-42.799999,52.000000,0.800000)
pt3dadd(39.150002,-48.119999,52.000000,0.800000)
pt3dadd(42.279999,-48.869999,52.000000,0.800000)
pt3dadd(46.189999,-51.990002,52.000000,0.660000)
pt3dadd(47.590000,-55.669998,52.000000,0.660000)
pt3dadd(49.250000,-59.849998,52.000000,0.400000)
}
dendrite[23] {
pt3dclear()
pt3dadd(-5.700000,-24.020000,19.000000,1.590000)
pt3dadd(-2.980000,-23.920000,22.000000,0.660000)
pt3dadd(0.470000,-22.450001,21.000000,0.660000)
pt3dadd(4.590000,-22.190001,20.000000,0.660000)
pt3dadd(9.630000,-20.990000,20.000000,0.660000)
pt3dadd(13.350000,-20.059999,18.000000,0.660000)
pt3dadd(17.740000,-17.660000,17.000000,0.660000)
pt3dadd(21.320000,-14.860000,15.000000,0.530000)
pt3dadd(27.700001,-13.790000,12.000000,0.400000)
pt3dadd(29.160000,-13.790000,12.000000,0.400000)
pt3dadd(33.410000,-13.660000,12.000000,0.270000)
pt3dadd(38.189999,-12.460000,10.000000,0.270000)
pt3dadd(48.410000,-12.400000,10.000000,0.270000)
}
dendrite[24] {
pt3dclear()
pt3dadd(-5.970000,2.420000,1.000000,1.060000)
pt3dadd(-9.420000,7.080000,1.000000,1.060000)
pt3dadd(-13.940000,12.010000,0.000000,0.930000)
pt3dadd(-17.260000,14.280000,-2.000000,0.800000)
pt3dadd(-17.520000,15.210000,-2.000000,0.800000)
pt3dadd(-15.000000,17.070000,-3.000000,0.800000)
pt3dadd(-11.550000,18.270000,-4.000000,0.800000)
pt3dadd(-6.900000,19.870001,-5.000000,0.800000)
pt3dadd(-4.240000,22.000000,-8.000000,0.530000)
pt3dadd(1.600000,20.010000,-10.000000,0.530000)
pt3dadd(5.850000,18.940001,-12.000000,0.530000)
pt3dadd(10.370000,21.200001,-14.000000,0.530000)
pt3dadd(14.750000,23.200001,-14.000000,0.530000)
pt3dadd(18.600000,24.129999,-16.000000,0.530000)
pt3dadd(24.570000,23.139999,-16.000000,0.530000)
pt3dadd(32.009998,21.940001,-16.000000,0.400000)
pt3dadd(40.910000,20.870001,-16.000000,0.400000)
pt3dadd(45.160000,22.000000,-16.000000,0.400000)
pt3dadd(51.959999,21.340000,-24.000000,0.400000)
pt3dadd(61.389999,18.940001,-23.000000,0.400000)
pt3dadd(61.529999,11.610000,-23.000000,0.130000)
}
basic_shape2()
}
proc basic_shape2() {
dendrite[25] {
pt3dclear()
pt3dadd(-6.900000,-4.110000,1.000000,0.660000)
pt3dadd(-12.740000,-1.840000,1.000000,0.660000)
pt3dadd(-17.520000,0.290000,1.000000,0.660000)
pt3dadd(-24.830000,1.620000,1.000000,0.660000)
pt3dadd(-31.870001,1.360000,1.000000,0.530000)
pt3dadd(-34.520000,2.150000,-1.000000,0.530000)
pt3dadd(-37.970001,0.690000,0.000000,0.530000)
pt3dadd(-41.029999,0.960000,0.000000,0.530000)
pt3dadd(-45.410000,1.620000,0.000000,0.530000)
pt3dadd(-47.139999,1.950000,1.000000,0.530000)
pt3dadd(-50.860001,3.950000,2.000000,0.530000)
pt3dadd(-53.779999,5.550000,2.000000,0.530000)
pt3dadd(-55.639999,7.020000,2.000000,0.530000)
pt3dadd(-58.820000,9.550000,2.000000,0.530000)
pt3dadd(-60.680000,10.210000,3.000000,0.530000)
pt3dadd(-64.400002,9.810000,3.000000,0.530000)
pt3dadd(-66.529999,9.280000,3.000000,0.530000)
pt3dadd(-70.510002,10.080000,4.000000,0.530000)
pt3dadd(-71.570000,9.950000,4.000000,0.530000)
}
dendrite[26] {
pt3dclear()
pt3dadd(-71.570000,9.950000,4.000000,0.660000)
pt3dadd(-73.169998,7.750000,7.000000,0.660000)
pt3dadd(-77.019997,8.150000,7.000000,0.530000)
pt3dadd(-77.550003,5.350000,7.000000,0.530000)
pt3dadd(-78.209999,4.950000,9.000000,0.530000)
pt3dadd(-79.139999,5.490000,12.000000,0.530000)
pt3dadd(-79.940002,2.950000,12.000000,0.530000)
pt3dadd(-81.529999,1.090000,12.000000,0.530000)
pt3dadd(-85.650002,0.160000,13.000000,0.530000)
pt3dadd(-87.769997,-3.040000,16.000000,0.400000)
pt3dadd(-87.910004,-6.500000,18.000000,0.270000)
pt3dadd(-87.379997,-9.300000,21.000000,0.270000)
pt3dadd(-87.379997,-10.900000,22.000000,0.270000)
pt3dadd(-85.379997,-12.900000,25.000000,0.270000)
pt3dadd(-85.379997,-13.160000,25.000000,0.270000)
pt3dadd(-85.519997,-16.500000,25.000000,0.270000)
pt3dadd(-84.989998,-18.360001,27.000000,0.270000)
pt3dadd(-84.989998,-18.629999,27.000000,0.270000)
pt3dadd(-86.839996,-18.760000,27.000000,0.270000)
pt3dadd(-86.980003,-21.959999,30.000000,0.270000)
pt3dadd(-87.110001,-21.959999,30.000000,0.270000)
pt3dadd(-89.500000,-23.959999,33.000000,0.270000)
pt3dadd(-89.629997,-24.090000,33.000000,0.270000)
pt3dadd(-91.629997,-27.950001,36.000000,0.270000)
pt3dadd(-94.680000,-29.549999,41.000000,0.270000)
pt3dadd(-96.540001,-31.680000,41.000000,0.270000)
pt3dadd(-97.599998,-33.410000,44.000000,0.270000)
pt3dadd(-99.989998,-34.349998,44.000000,0.270000)
pt3dadd(-101.449997,-36.480000,48.000000,0.130000)
pt3dadd(-103.180000,-37.810001,48.000000,0.130000)
pt3dadd(-104.769997,-41.270000,51.000000,0.130000)
pt3dadd(-106.500000,-43.540001,54.000000,0.130000)
pt3dadd(-109.290001,-45.669998,54.000000,0.130000)
pt3dadd(-113.669998,-48.730000,57.000000,0.130000)
}
dendrite[27] {
pt3dclear()
pt3dadd(-71.570000,9.950000,4.000000,0.530000)
pt3dadd(-74.489998,10.880000,4.000000,0.530000)
pt3dadd(-77.680000,10.480000,4.000000,0.530000)
pt3dadd(-79.269997,12.350000,6.000000,0.530000)
pt3dadd(-81.269997,13.680000,6.000000,0.530000)
pt3dadd(-83.129997,14.080000,4.000000,0.530000)
pt3dadd(-83.919998,16.480000,4.000000,0.530000)
pt3dadd(-85.120003,17.670000,4.000000,0.530000)
pt3dadd(-89.099998,17.940001,4.000000,0.530000)
pt3dadd(-88.970001,17.940001,4.000000,0.530000)
pt3dadd(-90.029999,19.540001,2.000000,0.530000)
pt3dadd(-92.290001,19.010000,1.000000,0.530000)
pt3dadd(-95.610001,20.070000,-1.000000,0.530000)
pt3dadd(-97.730003,20.600000,-2.000000,0.400000)
pt3dadd(-100.919998,21.000000,-3.000000,0.400000)
pt3dadd(-104.769997,21.400000,-4.000000,0.400000)
pt3dadd(-108.760002,20.740000,-4.000000,0.270000)
pt3dadd(-111.940002,17.139999,-4.000000,0.270000)
pt3dadd(-114.440002,14.970000,-4.000000,0.270000)
pt3dadd(-117.790001,12.610000,-7.000000,0.270000)
pt3dadd(-119.750000,9.770000,-7.000000,0.270000)
pt3dadd(-122.040001,6.220000,-7.000000,0.130000)
pt3dadd(-124.830002,3.690000,-7.000000,0.130000)
}
dendrite[28] {
pt3dclear()
pt3dadd(5.220000,1.680000,5.000000,1.200000)
pt3dadd(9.340000,2.610000,7.000000,1.200000)
pt3dadd(12.390000,2.610000,9.000000,1.060000)
pt3dadd(15.310000,3.810000,10.000000,0.930000)
pt3dadd(17.969999,7.140000,11.000000,0.930000)
pt3dadd(19.870001,7.320000,11.000000,0.930000)
}
dendrite[29] {
pt3dclear()
pt3dadd(19.870001,7.320000,11.000000,0.930000)
pt3dadd(22.879999,7.410000,13.000000,0.800000)
pt3dadd(25.940001,10.740000,13.000000,0.800000)
pt3dadd(33.369999,14.870000,15.000000,0.660000)
pt3dadd(36.160000,18.459999,18.000000,0.530000)
pt3dadd(39.619999,23.120001,21.000000,0.530000)
pt3dadd(40.849998,23.440001,21.000000,0.530000)
}
dendrite[30] {
pt3dclear()
pt3dadd(40.849998,23.440001,21.000000,0.530000)
pt3dadd(42.400002,23.719999,21.000000,0.530000)
pt3dadd(42.799999,23.719999,21.000000,0.530000)
pt3dadd(45.590000,26.660000,21.000000,0.530000)
pt3dadd(50.110001,26.260000,28.000000,0.400000)
pt3dadd(57.680000,26.389999,30.000000,0.400000)
pt3dadd(62.590000,27.049999,37.000000,0.270000)
pt3dadd(68.959999,28.190001,37.000000,0.270000)
pt3dadd(69.099998,28.190001,37.000000,0.270000)
pt3dadd(73.750000,31.920000,37.000000,0.270000)
pt3dadd(74.809998,34.450001,37.000000,0.270000)
pt3dadd(77.599998,35.779999,37.000000,0.270000)
pt3dadd(77.860001,35.779999,37.000000,0.270000)
pt3dadd(85.430000,35.779999,37.000000,0.270000)
pt3dadd(90.209999,35.180000,37.000000,0.270000)
pt3dadd(96.320000,35.049999,37.000000,0.270000)
pt3dadd(101.370003,34.509998,37.000000,0.270000)
pt3dadd(106.809998,34.509998,37.000000,0.130000)
pt3dadd(106.949997,34.380001,37.000000,0.130000)
pt3dadd(111.860001,34.110001,37.000000,0.130000)
pt3dadd(117.040001,33.119999,37.000000,0.130000)
pt3dadd(117.300003,32.980000,37.000000,0.130000)
pt3dadd(121.160004,30.980000,37.000000,0.130000)
pt3dadd(121.290001,30.850000,37.000000,0.130000)
pt3dadd(122.879997,29.920000,37.000000,0.130000)
pt3dadd(129.389999,28.590000,37.000000,0.130000)
pt3dadd(137.089996,23.120001,37.000000,0.130000)
}
dendrite[31] {
pt3dclear()
pt3dadd(40.849998,23.440001,21.000000,0.530000)
pt3dadd(40.990002,29.170000,30.000000,0.530000)
pt3dadd(43.240002,34.090000,30.000000,0.400000)
pt3dadd(47.230000,41.419998,33.000000,0.400000)
pt3dadd(49.009998,46.060001,33.000000,0.400000)
pt3dadd(49.799999,49.660000,33.000000,0.400000)
pt3dadd(51.340000,54.880001,33.000000,0.130000)
pt3dadd(45.419998,60.049999,33.000000,0.130000)
pt3dadd(40.380001,66.180000,33.000000,0.130000)
pt3dadd(34.660000,71.910004,33.000000,0.130000)
pt3dadd(29.750000,76.040001,33.000000,0.130000)
pt3dadd(24.309999,81.099998,33.000000,0.130000)
pt3dadd(19.340000,85.650002,33.000000,0.130000)
}
dendrite[32] {
pt3dclear()
pt3dadd(19.870001,7.320000,11.000000,0.930000)
pt3dadd(23.459999,11.580000,20.000000,0.530000)
pt3dadd(23.990000,18.910000,27.000000,0.530000)
pt3dadd(23.990000,19.180000,27.000000,0.530000)
pt3dadd(21.459999,22.900000,27.000000,0.400000)
pt3dadd(20.590000,27.549999,27.000000,0.400000)
pt3dadd(21.730000,32.900002,31.000000,0.400000)
pt3dadd(16.020000,37.160000,33.000000,0.400000)
pt3dadd(12.490000,40.470001,33.000000,0.400000)
pt3dadd(9.250000,43.150002,39.000000,0.400000)
pt3dadd(8.720000,50.209999,45.000000,0.400000)
}
dendrite[33] {
pt3dclear()
pt3dadd(0.930000,-8.790000,-9.000000,1.330000)
pt3dadd(0.660000,-13.990000,-9.000000,1.330000)
pt3dadd(-0.130000,-17.980000,-9.000000,1.200000)
pt3dadd(-1.200000,-18.780001,-15.000000,1.200000)
pt3dadd(-1.200000,-18.920000,-15.000000,1.200000)
pt3dadd(-1.330000,-22.250000,-15.000000,1.200000)
pt3dadd(-2.520000,-25.180000,-17.000000,1.200000)
pt3dadd(-4.120000,-26.910000,-17.000000,1.200000)
pt3dadd(-4.120000,-30.370001,-20.000000,1.200000)
pt3dadd(-3.320000,-33.169998,-20.000000,1.060000)
pt3dadd(-4.650000,-35.570000,-22.000000,1.060000)
pt3dadd(-6.510000,-37.029999,-21.000000,1.060000)
}
dendrite[34] {
pt3dclear()
pt3dadd(7.870000,-2.780000,-11.000000,1.330000)
pt3dadd(10.000000,-2.780000,-11.000000,1.060000)
}
dendrite[35] {
pt3dclear()
pt3dadd(10.000000,-2.780000,-11.000000,1.060000)
pt3dadd(13.320000,-2.510000,-11.000000,1.060000)
pt3dadd(17.700001,-2.910000,-11.000000,0.930000)
pt3dadd(23.410000,-4.510000,-8.000000,0.660000)
pt3dadd(27.400000,-3.310000,-8.000000,0.660000)
pt3dadd(27.400000,-3.440000,-8.000000,0.660000)
pt3dadd(32.439999,-4.370000,-5.000000,0.660000)
pt3dadd(36.430000,-4.640000,-1.000000,0.660000)
}
dendrite[36] {
pt3dclear()
pt3dadd(36.430000,-4.640000,-1.000000,0.660000)
pt3dadd(38.150002,-4.570000,-1.000000,0.660000)
}
dendrite[37] {
pt3dclear()
pt3dadd(38.150002,-4.570000,-1.000000,0.660000)
pt3dadd(43.330002,-4.370000,1.000000,0.660000)
pt3dadd(51.299999,-6.370000,3.000000,0.660000)
pt3dadd(56.349998,-7.040000,3.000000,0.660000)
pt3dadd(60.070000,-7.170000,3.000000,0.660000)
pt3dadd(60.070000,-7.310000,3.000000,0.660000)
pt3dadd(62.990002,-6.640000,4.000000,0.660000)
pt3dadd(67.500000,-7.170000,4.000000,0.660000)
pt3dadd(67.500000,-7.310000,4.000000,0.660000)
pt3dadd(72.419998,-9.570000,4.000000,0.660000)
pt3dadd(76.360001,-12.590000,7.000000,0.660000)
pt3dadd(76.230003,-12.590000,7.000000,0.660000)
pt3dadd(83.790001,-16.980000,11.000000,0.660000)
pt3dadd(82.730003,-16.980000,11.000000,0.660000)
pt3dadd(88.309998,-21.510000,13.000000,0.660000)
pt3dadd(93.489998,-27.900000,17.000000,0.660000)
pt3dadd(93.889999,-33.500000,20.000000,0.660000)
pt3dadd(97.769997,-37.709999,20.000000,0.660000)
pt3dadd(101.059998,-40.830002,23.000000,0.660000)
pt3dadd(100.930000,-40.830002,23.000000,0.660000)
pt3dadd(103.180000,-42.419998,26.000000,0.660000)
pt3dadd(107.199997,-45.439999,26.000000,0.660000)
pt3dadd(111.150002,-49.619999,30.000000,0.660000)
pt3dadd(118.320000,-54.410000,34.000000,0.530000)
pt3dadd(124.699997,-60.540001,37.000000,0.530000)
pt3dadd(132.130005,-65.599998,35.000000,0.530000)
}
dendrite[38] {
pt3dclear()
pt3dadd(38.150002,-4.570000,-1.000000,0.660000)
pt3dadd(41.740002,-6.840000,-1.000000,0.400000)
pt3dadd(46.790001,-8.900000,3.000000,0.130000)
pt3dadd(52.099998,-10.100000,3.000000,0.130000)
pt3dadd(56.610001,-10.370000,3.000000,0.130000)
pt3dadd(60.459999,-13.830000,3.000000,0.130000)
}
dendrite[39] {
pt3dclear()
pt3dadd(36.430000,-4.640000,-1.000000,0.660000)
pt3dadd(40.410000,-0.380000,-1.000000,0.400000)
pt3dadd(40.410000,-0.110000,-1.000000,0.400000)
pt3dadd(45.459999,0.150000,4.000000,0.400000)
pt3dadd(55.020000,7.610000,14.000000,0.400000)
pt3dadd(62.060001,12.540000,18.000000,0.400000)
pt3dadd(66.669998,14.490000,18.000000,0.400000)
pt3dadd(70.419998,16.809999,23.000000,0.400000)
pt3dadd(70.559998,16.809999,23.000000,0.400000)
pt3dadd(75.169998,20.090000,23.000000,0.400000)
pt3dadd(79.059998,23.799999,23.000000,0.400000)
pt3dadd(79.059998,24.070000,23.000000,0.400000)
pt3dadd(86.360001,28.200001,23.000000,0.400000)
pt3dadd(91.059998,29.750000,23.000000,0.400000)
}
dendrite[40] {
pt3dclear()
pt3dadd(91.059998,29.750000,23.000000,0.400000)
pt3dadd(94.730003,31.790001,23.000000,0.400000)
pt3dadd(99.209999,39.000000,23.000000,0.400000)
pt3dadd(102.389999,45.930000,23.000000,0.400000)
pt3dadd(105.080002,50.779999,23.000000,0.400000)
pt3dadd(109.830002,53.660000,23.000000,0.400000)
pt3dadd(113.849998,57.040001,23.000000,0.400000)
}
dendrite[41] {
pt3dclear()
pt3dadd(91.059998,29.750000,23.000000,0.400000)
pt3dadd(94.379997,27.219999,13.000000,0.270000)
pt3dadd(94.250000,27.219999,13.000000,0.270000)
pt3dadd(97.169998,24.420000,7.000000,0.270000)
pt3dadd(102.349998,20.290001,7.000000,0.270000)
pt3dadd(105.930000,17.360001,7.000000,0.270000)
pt3dadd(112.309998,11.360000,7.000000,0.270000)
pt3dadd(115.360001,4.570000,7.000000,0.270000)
pt3dadd(115.230003,4.440000,7.000000,0.270000)
pt3dadd(120.410004,-1.960000,2.000000,0.270000)
pt3dadd(125.449997,-5.890000,1.000000,0.270000)
pt3dadd(128.850006,-10.800000,1.000000,0.270000)
pt3dadd(133.020004,-15.750000,0.000000,0.270000)
pt3dadd(138.869995,-19.080000,-6.000000,0.270000)
pt3dadd(143.910004,-25.200001,-6.000000,0.270000)
pt3dadd(147.630005,-29.670000,0.000000,0.270000)
}
dendrite[42] {
pt3dclear()
pt3dadd(10.000000,-2.780000,-11.000000,1.060000)
pt3dadd(12.790000,-0.710000,-11.000000,0.800000)
pt3dadd(15.710000,-0.710000,-11.000000,0.800000)
pt3dadd(19.160000,0.350000,-11.000000,0.800000)
pt3dadd(21.420000,1.820000,-11.000000,0.660000)
pt3dadd(25.270000,1.820000,-14.000000,0.660000)
pt3dadd(25.270000,1.550000,-14.000000,0.660000)
pt3dadd(30.980000,3.150000,-9.000000,0.660000)
pt3dadd(39.480000,3.420000,-7.000000,0.660000)
pt3dadd(46.790001,3.680000,-3.000000,0.660000)
pt3dadd(52.169998,4.190000,-3.000000,0.660000)
}
dendrite[43] {
pt3dclear()
pt3dadd(52.169998,4.190000,-3.000000,0.660000)
pt3dadd(55.279999,4.480000,-3.000000,0.660000)
pt3dadd(63.119999,5.280000,-1.000000,0.660000)
pt3dadd(67.500000,5.080000,-1.000000,0.660000)
pt3dadd(77.059998,5.880000,-1.000000,0.660000)
pt3dadd(83.300003,7.580000,-1.000000,0.660000)
pt3dadd(86.230003,8.810000,-1.000000,0.660000)
pt3dadd(86.360001,8.810000,-1.000000,0.660000)
pt3dadd(92.459999,11.710000,-1.000000,0.660000)
pt3dadd(95.790001,13.080000,-1.000000,0.660000)
}
dendrite[44] {
pt3dclear()
pt3dadd(52.169998,4.190000,-3.000000,0.660000)
pt3dadd(55.889999,2.590000,0.000000,0.400000)
pt3dadd(65.580002,0.330000,7.000000,0.400000)
pt3dadd(73.309998,-4.120000,7.000000,0.400000)
}
dendrite[45] {
pt3dclear()
pt3dadd(73.309998,-4.120000,7.000000,0.400000)
pt3dadd(75.540001,-5.530000,12.000000,0.400000)
pt3dadd(80.169998,-7.150000,12.000000,0.400000)
}
dendrite[46] {
pt3dclear()
pt3dadd(80.169998,-7.150000,12.000000,0.530000)
pt3dadd(84.309998,-8.930000,14.000000,0.400000)
pt3dadd(90.470001,-12.940000,14.000000,0.400000)
pt3dadd(99.449997,-15.590000,26.000000,0.400000)
pt3dadd(106.410004,-18.930000,26.000000,0.400000)
pt3dadd(113.790001,-21.920000,32.000000,0.400000)
pt3dadd(121.910004,-24.910000,35.000000,0.270000)
pt3dadd(128.720001,-29.719999,35.000000,0.270000)
pt3dadd(135.589996,-33.169998,42.000000,0.270000)
pt3dadd(143.949997,-37.299999,48.000000,0.270000)
pt3dadd(149.169998,-41.580002,48.000000,0.270000)
pt3dadd(155.509995,-46.220001,53.000000,0.270000)
pt3dadd(159.660004,-45.970001,53.000000,0.270000)
pt3dadd(164.399994,-45.220001,53.000000,0.270000)
pt3dadd(169.580002,-46.549999,53.000000,0.270000)
pt3dadd(169.580002,-46.820000,53.000000,0.270000)
}
dendrite[47] {
pt3dclear()
pt3dadd(80.169998,-7.150000,12.000000,0.400000)
pt3dadd(86.940002,-6.350000,22.000000,0.130000)
pt3dadd(98.629997,-6.750000,28.000000,0.130000)
pt3dadd(106.599998,-8.220000,31.000000,0.130000)
pt3dadd(118.809998,-9.680000,31.000000,0.130000)
pt3dadd(126.519997,-9.680000,31.000000,0.130000)
pt3dadd(135.679993,-11.420000,31.000000,0.130000)
pt3dadd(142.320007,-10.880000,31.000000,0.130000)
pt3dadd(142.190002,-10.620000,31.000000,0.130000)
pt3dadd(149.360001,-10.620000,31.000000,0.130000)
pt3dadd(149.220001,-10.620000,31.000000,0.130000)
pt3dadd(159.850006,-12.350000,41.000000,0.130000)
pt3dadd(167.550003,-15.150000,41.000000,0.130000)
}
dendrite[48] {
pt3dclear()
pt3dadd(167.550003,-15.150000,41.000000,0.130000)
pt3dadd(175.779999,-19.080000,41.000000,0.130000)
pt3dadd(180.169998,-24.400000,41.000000,0.130000)
}
dendrite[49] {
pt3dclear()
pt3dadd(167.550003,-15.150000,41.000000,0.130000)
pt3dadd(174.850006,-14.410000,41.000000,0.130000)
pt3dadd(182.559998,-12.950000,41.000000,0.130000)
pt3dadd(188.669998,-8.150000,41.000000,0.130000)
pt3dadd(191.320007,-3.360000,41.000000,0.130000)
pt3dadd(191.190002,-3.360000,41.000000,0.130000)
}
dendrite[50] {
pt3dclear()
pt3dadd(73.309998,-4.120000,7.000000,0.400000)
pt3dadd(73.580002,4.000000,14.000000,0.400000)
pt3dadd(74.510002,12.930000,0.000000,0.400000)
pt3dadd(71.580002,22.920000,0.000000,0.400000)
pt3dadd(66.010002,30.110001,-1.000000,0.400000)
pt3dadd(63.349998,38.639999,-2.000000,0.400000)
pt3dadd(62.820000,46.099998,-2.000000,0.400000)
pt3dadd(62.950001,46.230000,-2.000000,0.400000)
pt3dadd(65.739998,48.759998,-2.000000,0.400000)
pt3dadd(66.010002,48.759998,-2.000000,0.400000)
pt3dadd(71.180000,49.660000,-2.000000,0.400000)
pt3dadd(75.129997,51.619999,2.000000,0.400000)
pt3dadd(76.760002,56.320000,2.000000,0.400000)
pt3dadd(79.379997,60.740002,2.000000,0.400000)
pt3dadd(79.379997,62.209999,2.000000,0.400000)
pt3dadd(79.910004,70.070000,2.000000,0.400000)
}
dendrite[51] {
pt3dclear()
pt3dadd(4.600000,-6.800000,39.000000,0.930000)
pt3dadd(4.600000,-6.930000,39.000000,0.930000)
pt3dadd(7.250000,-8.400000,39.000000,0.930000)
}
dendrite[52] {
pt3dclear()
pt3dadd(7.250000,-8.400000,39.000000,0.930000)
pt3dadd(9.510000,-9.730000,45.000000,0.930000)
pt3dadd(11.370000,-11.330000,48.000000,0.930000)
pt3dadd(16.950001,-13.330000,56.000000,0.530000)
pt3dadd(16.950001,-13.460000,56.000000,0.530000)
pt3dadd(24.040001,-12.150000,56.000000,0.530000)
pt3dadd(31.820000,-11.860000,65.000000,0.530000)
pt3dadd(38.060001,-14.530000,65.000000,0.530000)
pt3dadd(42.459999,-11.940000,71.000000,0.530000)
pt3dadd(48.169998,-8.010000,78.000000,0.530000)
pt3dadd(54.049999,-8.820000,78.000000,0.530000)
pt3dadd(59.730000,-8.810000,81.000000,0.270000)
}
dendrite[53] {
pt3dclear()
pt3dadd(7.250000,-8.400000,39.000000,0.930000)
pt3dadd(8.580000,-10.930000,28.000000,0.400000)
pt3dadd(8.320000,-14.530000,31.000000,0.400000)
pt3dadd(8.320000,-14.660000,31.000000,0.400000)
pt3dadd(18.139999,-18.120001,40.000000,0.400000)
pt3dadd(26.030001,-17.750000,40.000000,0.400000)
pt3dadd(32.490002,-18.260000,31.000000,0.400000)
}
dendrite[54] {
pt3dclear()
pt3dadd(7.250000,-8.400000,39.000000,0.930000)
pt3dadd(14.290000,-7.730000,39.000000,0.400000)
pt3dadd(20.139999,3.860000,39.000000,0.400000)
}
spine[0] {
pt3dclear()
}
spine[1] {
pt3dclear()
}
}
objref all, Prox_Dend, Mid_Dend, Dist_Dend
proc subsets() { local i
objref all, Prox_Dend, Mid_Dend, Dist_Dend
all = new SectionList()
soma all.append()
for i=0, 54 dendrite[i] all.append()
for i=0, 1 spine[i] all.append()
//*******************prox*******************
Prox_Dend = new SectionList()
dendrite[0] Prox_Dend.append()
dendrite[24] Prox_Dend.append()
dendrite[25] Prox_Dend.append()
dendrite[28] Prox_Dend.append()
dendrite[33] Prox_Dend.append()
dendrite[34] Prox_Dend.append()
dendrite[51] Prox_Dend.append()
//dendrite[1] Prox_Dend.append()
//dendrite[14] Prox_Dend.append()
//dendrite[26] Prox_Dend.append()
//dendrite[27] Prox_Dend.append()
//dendrite[29] Prox_Dend.append()
//dendrite[32] Prox_Dend.append()
//dendrite[35] Prox_Dend.append()
//dendrite[42] Prox_Dend.append()
//dendrite[52] Prox_Dend.append()
//dendrite[53] Prox_Dend.append()
//dendrite[54] Prox_Dend.append()
//*******************Mid*******************
Mid_Dend = new SectionList()
dendrite[1] Mid_Dend.append()
dendrite[14] Mid_Dend.append()
dendrite[26] Mid_Dend.append()
dendrite[27] Mid_Dend.append()
dendrite[29] Mid_Dend.append()
dendrite[32] Mid_Dend.append()
dendrite[35] Mid_Dend.append()
dendrite[42] Mid_Dend.append()
dendrite[52] Mid_Dend.append()
dendrite[53] Mid_Dend.append()
dendrite[54] Mid_Dend.append()
//***
dendrite[2] Mid_Dend.append()
dendrite[9] Mid_Dend.append()
dendrite[15] Mid_Dend.append()
dendrite[18] Mid_Dend.append()
dendrite[23] Mid_Dend.append()
dendrite[30] Mid_Dend.append()
dendrite[31] Mid_Dend.append()
dendrite[36] Mid_Dend.append()
dendrite[39] Mid_Dend.append()
dendrite[43] Mid_Dend.append()
dendrite[44] Mid_Dend.append()
//*******************Dist*******************
Dist_Dend = new SectionList()
dendrite[3] Dist_Dend.append()
dendrite[8] Dist_Dend.append()
dendrite[10] Dist_Dend.append()
dendrite[11] Dist_Dend.append()
dendrite[16] Dist_Dend.append()
dendrite[17] Dist_Dend.append()
dendrite[19] Dist_Dend.append()
dendrite[20] Dist_Dend.append()
dendrite[37] Dist_Dend.append()
dendrite[38] Dist_Dend.append()
dendrite[40] Dist_Dend.append()
dendrite[41] Dist_Dend.append()
dendrite[45] Dist_Dend.append()
dendrite[50] Dist_Dend.append()
//***
dendrite[4] Dist_Dend.append()
dendrite[7] Dist_Dend.append()
dendrite[12] Dist_Dend.append()
dendrite[13] Dist_Dend.append()
dendrite[21] Dist_Dend.append()
dendrite[22] Dist_Dend.append()
dendrite[46] Dist_Dend.append()
dendrite[47] Dist_Dend.append()
//**
dendrite[5] Dist_Dend.append()
dendrite[6] Dist_Dend.append()
dendrite[48] Dist_Dend.append()
dendrite[49] Dist_Dend.append()
}
// Wilson 1992 Single Neuron Computation
// dendritic diam(um) * (1+spine/dend ratio)
// also O'Donnell 1993 Synapse
// Koch/Segev Methods in Neuronal Modeling pg 122-3, 1998
proc geom() {
// forsec Prox_Dend { L = 20 diam = 2.25 }
// forsec Mid_Dend {L = 24.23 diam = 1.10} // { L = 20 diam = 1 * (1+0.3) }
// forsec Dist_Dend {L = 395.2 diam = 0.72} // { L = 190 diam = 0.5 * (1+2) }
soma { L = 16 diam = 16 }
}
//**********
// use d_lambda function (see neuron website) to assign segments/nodes
func lambda_f() { local i, x1, x2, d1, d2, lam
if (n3d() < 2) {
return 1e5*sqrt(diam/(4*PI*$1*Ra*cm))
}
// above was too inaccurate with large variation in 3d diameter
// so now we use all 3-d points to get a better approximate lambda
x1 = arc3d(0)
d1 = diam3d(0)
lam = 0
for i=1, n3d()-1 {
x2 = arc3d(i)
d2 = diam3d(i)
lam += (x2 - x1)/sqrt(d1 + d2)
x1 = x2 d1 = d2
}
// length of the section in units of lambda
lam *= sqrt(2) * 1e-5*sqrt(4*PI*$1*Ra*cm)
return L/lam
}
proc geom_nseg() {
freq = 100 // Hz, frequency at which AC length constant will be computed
d_lambda = 0.15
forall { nseg = int((L/(d_lambda*lambda_f(freq))+0.9)/2)*2 + 1 }
}
//**********
proc biophys() {
forsec Prox_Dend {
insert pas
insert naf
insert nap
insert kir
insert kas
insert kaf
insert bkkca
insert skkca
insert caldyn
insert caL
insert caL13
insert cadyn
insert can
insert caq
insert car
insert cat
//insert er
}
forsec Mid_Dend {
insert pas
insert naf
insert nap
insert kir
insert kas
insert kaf
insert bkkca
insert skkca
insert caldyn
insert caL
insert caL13
insert cadyn
insert can
insert caq
insert car
insert cat
//insert DR
//insert er
}
forsec Dist_Dend {
insert pas
insert naf
insert nap
insert kir
insert kas
insert kaf
insert bkkca
insert skkca
insert caldyn
insert caL
insert caL13
insert cadyn
insert can
insert caq
insert car
insert cat
//insert er
}
soma {
insert pas
insert naf
insert nap
insert kir
insert kas
insert kaf
insert krp
insert bkkca
insert skkca
insert caldyn
insert caL
insert caL13
insert cadyn
insert can
insert caq
insert car
insert cat
//insert er
}
forsec "spine"{
insert pas
insert naf
insert nap
insert kir
insert kas
insert kaf
insert bkkca
insert skkca
insert caldyn
insert caL
insert caL13
insert cadyn
insert can
insert caq
insert car
insert cat
nseg=1
diam=1
L=1.273
}
}
proc position() { local i
soma for i = 0, n3d()-1 {
pt3dchange(i, $1-x+x3d(i), $2-y+y3d(i), $3-z+z3d(i), diam3d(i))
}
x = $1 y = $2 z = $3
}
proc connect2target() { //$o1 target point process, $o2 returned NetCon
soma $o2 = new NetCon(&v(1), $o1)
}
func is_art() { return 0 }
proc synloops() {
//***************************
//Build AMPA synapses
// Inner dends AMPA
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[0] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[24] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[25] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[28] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[33] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[34] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[51] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
//Second level dends
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[1] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[14] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[26] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[27] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[29] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[32] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[35] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[42] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[52] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[53] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[54] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[2] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[9] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[15] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[18] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[23] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[30] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[31] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[36] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[39] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[43] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[44] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
//Outer_level Dends
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[3] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[8] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[10] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[11] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[16] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[17] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[19] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[20] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[37] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[38] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[40] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[41] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[45] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[50] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[4] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[7] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[12] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[13] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[21] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[22] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[46] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[47] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[5] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[6] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[48] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[49] ampa[i] = new AMPAt(onode) synlist.append(ampa[i])
}
for i = 0, 0 { // 4 in each distal dend
spine[0] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
for i = 0, 0 { // 4 in each distal dend
spine[1] ampa[i] = new AMPAt(0.5) synlist.append(ampa[i])
}
synloopsNMDA()
}
//***************************
proc synloopsNMDA(){
//***************************
//Build NMDA synapses
// Inner dends NMDA
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[0] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[24] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[25] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[28] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[33] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[34] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[51] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
//Second level dends
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[1] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[14] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[26] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[27] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[29] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[32] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[35] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[42] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[52] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[53] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[54] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[2] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[9] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[15] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[18] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[23] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[30] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[31] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[36] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[39] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[43] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[44] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
//Outer_level Dends
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[3] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[8] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[10] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[11] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[16] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[17] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[19] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[20] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[37] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[38] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[40] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[41] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[45] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[50] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[4] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[7] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[12] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[13] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[21] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[22] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[46] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[47] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[5] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[6] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[48] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[49] nmda[i] = new NMDAt(onode) synlist.append(nmda[i])
}
for i = 0, 0 { // 1 in each distal dend
spine[0] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
for i = 0, 0 { // 1 in each distal dend
spine[1] nmda[i] = new NMDAt(0.5) synlist.append(nmda[i])
}
//***************************
synloopsMGLU()
}
proc synloopsMGLU() {
//***************************
//Build MGLU synapses
// Inner dends MGLU
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[0] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[24] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[25] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[28] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[33] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[34] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[51] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
//Second level dends
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[1] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[14] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[26] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[27] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[29] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[32] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[35] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[42] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[52] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[53] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[54] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[2] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[9] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
//dendrite[15] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[18] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[23] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[30] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[31] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[36] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[39] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[43] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[44] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
//Outer_level dends
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[3] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[8] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[10] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[11] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[16] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[17] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[19] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[20] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[37] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[38] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[40] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[41] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[45] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[50] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[4] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[7] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[12] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[13] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[21] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[22] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[46] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[47] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[5] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[6] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[48] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[49] mglu[i] = new MGLUt(onode) synlist.append(mglu[i])
}
for i = 0, 1 { // 0 in soma, 1 in each prox dend
spine[0] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
for i = 0, 1 { // 0 in soma, 1 in each prox dend
spine[1] mglu[i] = new MGLUt(0.5) synlist.append(mglu[i])
}
//***************************
synloopsGABA()
}
proc synloopsGABA() {
//***************************
//Build GABA synapses
// soma GABA
for i = 0, 15 { // 16 in soma
soma gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
// Inner dends GABA
for i = 0, 2 { // 3 each
dendrite[0] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[24] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[25] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[28] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[33] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[34] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 3 each
dendrite[51] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
//Second level dends
for i = 0, 2 { // 2 in each mid dend
dendrite[1] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[14] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[26] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[27] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[29] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[32] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[35] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[42] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[52] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[53] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[54] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[2] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[9] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[15] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[18] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[23] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[30] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[31] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[36] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[39] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[43] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 2 { // 2 in each mid dend
dendrite[44] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
//Outer_level Dends
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[3] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[8] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[10] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[11] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[16] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[17] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[19] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[20] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[37] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[38] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[40] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[41] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[45] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[50] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[4] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[7] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[12] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[13] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[21] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[22] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[46] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[47] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[5] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[6] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[48] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 1 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[49] gaba[i] = new GABAt(onode) synlist.append(gaba[i])
}
for i = 0, 0 { // 4 in each distal dend
spine[0] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
for i = 0, 0 { // 4 in each distal dend
spine[1] gaba[i] = new GABAt(0.5) synlist.append(gaba[i])
}
//**************************
synloopsDR()
} // end synloops()
proc synloopsDR() {
//***************************
//Build DR synapses
// Inner dends DR
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[0] dr[i] = new DRt(0.5) synlist.append(dr[i])
// setpointer dendrite[0].mu_caL(0.5),DAsyn[0].msg
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[24] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[25] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[28] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[33] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[34] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 0 { // 0 in soma, 1 in each prox dend
dendrite[51] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
//Second level dends
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[1] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[14] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[26] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[27] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[29] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[32] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[35] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[42] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[52] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[53] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[54] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[2] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[9] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
//dendrite[15] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[18] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[23] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[30] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[31] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[36] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[39] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[43] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 2 in each mid dend
onode = (i+1)/3 // 0.33, 0.66
dendrite[44] dr[i] = new DRt(onode) synlist.append(dr[i])
}
//Outer_level dends
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[3] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[8] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[10] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[11] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[16] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[17] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[19] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[20] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[37] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[38] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[40] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[41] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[45] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[50] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[4] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[7] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[12] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[13] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[21] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[22] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[46] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[47] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[5] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[6] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[48] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 3 { // 4 in each distal dend
onode = (i+1)/5 // 0.2, 0.4, 0.6, 0.8
dendrite[49] dr[i] = new DRt(onode) synlist.append(dr[i])
}
for i = 0, 1 { // 4 in each distal dend
spine[0] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
for i = 0, 1 { // 4 in each distal dend
spine[1] dr[i] = new DRt(0.5) synlist.append(dr[i])
}
//***************************
}
endtemplate MSP_Cell
//**************************************************************************
