TITLE HH k channel channel
: Hodgkin - Huxley k channel
: The model used in Safronov et al. 2000
NEURON {
SUFFIX B_A
USEION k READ ek WRITE ik
RANGE gkbar, ik
GLOBAL inf
}
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
}
INDEPENDENT {t FROM 0 TO 1 WITH 1 (ms)}
PARAMETER {
v (mV)
dt (ms)
gkbar=0 (mho/cm2) <0,1e9>
ek = -84 (mV)
celsius = 37 (degC)
}
STATE {
n h
}
ASSIGNED {
ik (mA/cm2)
inf[2]
}
LOCAL fac[2]
INITIAL {
rate(v*1(/mV))
n = inf[0]
h = inf[1]
}
BREAKPOINT {
SOLVE states
ik = gkbar*n*n*n*n*h*(v - ek)
}
PROCEDURE states() { : exact when v held constant
rate(v*1(/mV))
n = n + fac[0]*(inf[0] - n)
h = h + fac[1]*(inf[1] - h)
VERBATIM
return 0;
ENDVERBATIM
}
UNITSOFF
FUNCTION alp(v(mV),i) { LOCAL a,b,c,q10 :rest=-70 order n,h
v = v
q10 = 3^((celsius - 23)/10)
if (i==0) {
alp = q10 * .032*expM1(-v - 64 - 0 , 6)
}else if (i==1){
alp = q10 * 0.05/(exp((v + 86 + 0)/10)+1)
}
}
FUNCTION bet(v,i) { LOCAL a,b,c,q10 :rest=-70 order n,h
v = v
q10 = 3^((celsius - 23)/10)
if (i==0) {
bet = q10*0.203*exp((-v - 40 - 0)/24)
}else if (i==1){
bet = q10 * 0.05/(exp((-v - 86 - 0)/10)+1)
}
}
FUNCTION expM1(x,y) {
if (fabs(x/y) < 1e-6) {
expM1 = y*(1 - x/y/2)
}else{
expM1 = x/(exp(x/y) - 1)
}
}
PROCEDURE rate(v) {LOCAL a, b, tau :rest = -70
TABLE inf, fac DEPEND dt, celsius FROM -160 TO 100 WITH 200
FROM i=0 TO 1 {
a=alp(v,i) b=bet(v,i)
tau = 1/(a+b)
inf[i] = a/(a+b)
fac[i] = (1 - exp(-dt/tau))
}
}
UNITSON