// $Id: params.hoc,v 1.126 1995/11/29 18:38:27 billl Exp $
//* General Parameters
celsius = 34 // temperature from Hug,jnphys71:2576,1994
dt = 0.025
tstop = 500
seed = 125437
v_init = 1000 // initial voltage
vrestRE = -70
vrestTC = -69
vrange = 1 // gives +/- 5 mV
v_potassium = -95 // potassium reversal potential
v_sodium = 50 // sodium reversal potential
v_calcium = 120 // calcium reversal potential
v_glutamate = 0 // excitatory synaptic reversal potential
v_gaba = -80 // inhibitory synaptic reversal potential
camin = 1e-8 // minimal intracellular concentration
shift = 2 // shift for screening charge
Rax = 100
batch_flag = 0 // batch mode: 1=batch, 0=interactive
nstep_steprun = 10
print_flag = 0 // necessary to avoid erasing files
graph_flag = 0
//* TC cells
forsec "TC" {
insert Pass // leak current
erev_Pass = 100 // to be set
g_Pass = 5e-5
insert hh2 // Hodgkin-Huxley INa and IK
ek = v_potassium
ena = v_sodium
vtraub_hh2 = -55
gnabar_hh2 = 0.03
gkbar_hh2 = 0.002
insert it // reticular IT current
cai = 2.4e-4
cao = 2
eca = 120
shift_it = 2
gcabar_it = 0.001
insert iar // Ih current
eh=-43
nexp_iar = 2
cac_iar = 5e-4
k2_iar = 4e-4
ghbar_iar = 1.2e-4
insert cad // calcium pump
kd_cad = 1e-4
kt_cad = 1e-4
depth_cad = 1
taur_cad = 1e10
}
//* RE cells
forsec "RE" {
insert Pass // leak current
erev_Pass = 100 // to be set
g_Pass = 5e-5
insert hh2 // Hodgkin-Huxley INa and IK
ek = v_potassium
ena = v_sodium
vtraub_hh2 = -55
gnabar_hh2 = 0.1
gkbar_hh2 = 0.01
insert it2 // reticular IT current
cai = 2.4e-4
cao = 2
eca = 120
shift_it2 = 2
gcabar_it2 = 0.00175
insert iahp // slow IAHP
cac_iahp = 0.025
beta_iahp = 0.03
taumin_iahp = 0.1
ek=v_potassium
gkbar_iahp = 0.005
insert ican // slow ICAN
cac_ican = 0.01
beta_ican = 0.002
taumin_ican = 0.1
en=-20
gbar_ican = 0.00035
insert cad // calcium pump
kd_cad = 1e-4
kt_cad = 1e-4
depth_cad = 1
taur_cad = 1e10
}
//* Synapses
//** change GABAB1 into GABAB2
//*** old params with long cdur, little alpha
Cdur_GABAB1 = 150
Alpha_GABAB1 = 0.01
Beta_GABAB1 = 0.005
Erev_GABAB1 = -95
Deadtime_GABAB1 = 0
GMAX_GABAB1 = 1
DELAY_GABAB1 = 50
//*** new params with brief cdur, big alpha
// Cdur_GABAB1 = 50
// Alpha_GABAB1 = 0.05
// Beta_GABAB1 = 0.005
// Erev_GABAB1 = -95
// Deadtime_GABAB1 = 0
// GMAX_GABAB1 = 1
// DELAY_GABAB1 = 50
//** Altering GABALOW decay to simulate CZP
// Otis and Mody, Modulation of Decay Kinetics ..., Neuroscience 49:13-32, 1992
// Fig. 10 (p. 22)
// alpha is so fast, cannot detect that it changes appreciably
q10_GABALOW = 2.1
exptemp_GABALOW = 34
Erev_GABALOW = -85
//*** control
Alpha_GABALOW = 1/0.38
Beta_GABALOW = 1/8.28
q10_GABAA = 2.1
exptemp_GABAA = 34
Erev_GABAA = -85
//*** control
Alpha_GABAA = 1/0.38
Beta_GABAA = 1/8.28
//*** CZP
// Alpha_GABAA = 1/0.52
// Beta_GABAA = 1/16.31
//** TC postsynaptic
tmplist = new List("TC")
for ii = 0,tmplist.count-1{
for jj = 0,tmplist.object(ii).gabaa.nsyn-1 {
tmplist.object(ii).gabaa.gmax(jj,0.5e-3)
tmplist.object(ii).gabaa.delay(jj,0.5)
}}
for ii = 0,tmplist.count-1{
for jj = 0,tmplist.object(ii).gabab.nsyn-1 {
tmplist.object(ii).gabab.gmax(jj,60e-6)
tmplist.object(ii).gabab.delay(jj,0.5)
}}
//** RE postsynaptic
tmplist = new List("RE")
// RE->RE
for ii = 0,tmplist.count-1{
for jj = 0,tmplist.object(ii).gabaa.nsyn-1 {
tmplist.object(ii).gabaa.gmax(jj,plmin(140e-6,40e-6))
tmplist.object(ii).gabaa.delay(jj,0.5)
}
// TC->RE and stim
for jj = 0,tmplist.object(ii).ampa.nsyn-1 {
tmplist.object(ii).ampa.gmax(jj,0.5e-3)
tmplist.object(ii).ampa.delay(jj,0.5)
}
}
for ii = 0,tmplist.count-1 { // reset the stim which is the last entry
jj = plmin(1,0.5)
tmplist.object(ii).ampa.delay(-1,jj+2.5)
tmplist.object(ii).gabaa.delay(-1,jj+2.5)
tmplist.object(ii).inj.delay(0,jj)
tmplist.object(ii).inj.amp = plmin(5,2)
tmplist.object(ii).inj.dur = plmin(0.5,0.3)
}
//** stimulation
pg[0].fast_invl = 0
pg[0].slow_invl = 20
pg[0].burst_len = 1
pg[0].start = 5
pg[0].end = 10
pg[0].noise = 0
seed_gen = 931345