TITLE gsquid.mod squid sodium, potassium, and leak channels
COMMENT
ENDCOMMENT
UNITS {
(molar) = (1/liter)
(S) = (siemens)
(mA) = (milliamp)
(mV) = (millivolt)
F = (faraday) (coulomb)
R = (mole k) (mV-coulomb/degC)
(mM) = (millimolar)
}
NEURON {
SUFFIX hh3
USEION na READ nai WRITE ina
USEION k WRITE ik
RANGE gnabar, gkhhbar,gkabar, ina, ikhh,ika,ik,ena,miv,hiv,htv1,htv2
GLOBAL minf, hinf, ninf
}
INDEPENDENT {t FROM 0 TO 1 WITH 1 (ms)}
PARAMETER {
v (mV)
celsius = 35.0 (degC)
dt (ms)
gnabar = 5500.0e-6 (S/cm2)
gkhhbar = 1000.0e-6 (S/cm2)
gkabar = 100.0e-6 (S/cm2)
ek = -100 (mV)
nao = 145 (mM)
nai (mM)
miv = 44.6 (mV)
hiv = 66.8 (mV)
htv1 = 39.0 (mV)
htv2 = 59.0 (mV)
}
STATE {
m <1e-4> h <1e-4> n <1e-4> p <1e-4> q <1e-4>
}
ASSIGNED {
ina (mA/cm2)
ik (mA/cm2)
ika (mA/cm2)
ikhh (mA/cm2)
ena (mV)
minf hinf ninf qinf pinf
}
BREAKPOINT {
SOLVE states METHOD cnexp
ena = R*(celsius+273.15)/F*log(nao/nai)
ina = gnabar*m*m*m*h*(v - ena)
ikhh = gkhhbar*n*n*n*(v - ek)
ika = gkabar*p*p*p*q*(v - ek)
ik = ika + ikhh
}
UNITSOFF
INITIAL {
m = boltz(v,-26.6,5.0)
h = boltz(v,-38.8,-7.8)
n = boltz(v,-30,8.0)
p = boltz(v,-42,4.0)
q = boltz(v,-63,-4.0)
}
DERIVATIVE states { :Computes state variables m, h, and n
LOCAL minf,hinf,ninf,pinf,qinf,mtau,htau,ntau,ptau,qtau
minf = boltz(v,-miv,6.0)
hinf = boltz(v,-hiv,-7.8)
ninf = boltz(v,-35,12.0)
pinf = boltz(v,-42,4.0)
qinf = boltz(v,-63,-4.0)
mtau = boltz(v,-45.0,-1.5) - boltz(v,-65.0,-0.5) +0.04
htau = 56.0*boltz(v,-htv1,-4.5) - 56.0*boltz(v,-htv2,-2.0) +1.0
ntau = 10.0
ptau = 5.5*exp(-(v+42)*(v+42)/100)+4.0
qtau = 50.0
m' = (minf-m)/mtau
h' = (hinf-h)/htau
n' = (ninf-n)/ntau
p' = (pinf-p)/ptau
q' = (qinf-q)/qtau
}
FUNCTION boltz(x,y,z) {
boltz = 1/(1 + exp(-(x - y)/z))
}
UNITSON