TITLE T-calcium channel
: T-type calcium channel for Mala Shah
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
(molar) = (1/liter)
(mM) = (millimolar)
FARADAY = 96520 (coul)
R = 8.3134 (joule/degC)
KTOMV = .0853 (mV/degC)
}
PARAMETER {
v (mV)
celsius = 25 (degC)
gcatbar=.003 (mho/cm2)
cao = 2 (mM)
q10 = 5
mmin=0.2
hmin=10
a0h =0.015
zetah = 3.5
vhalfh = -75
gmh=0.6
a0m =0.04
zetam = 2
vhalfm = -28
gmm=0.61
vhm=-60
vhh=-85
mfactor=1
hfactor=1
}
NEURON {
SUFFIX cat
USEION ca READ cai,cao WRITE ica
RANGE gcatbar, ica, gcat, vhm, vhh, mtau, htau
GLOBAL hinf,minf
}
STATE {
m h
}
ASSIGNED {
ica (mA/cm2)
gcat (mho/cm2)
hinf
htau
minf
mtau
cai (mM)
}
INITIAL {
cai=50e-6
rates(v)
m = minf
h = hinf
}
BREAKPOINT {
SOLVE states METHOD cnexp
gcat = gcatbar*m*m*h
ica = gcat*ghk(v,cai,cao)
}
DERIVATIVE states { : exact when v held constant
rates(v)
m' = (minf - m)/mtau
h' = (hinf - h)/htau
}
FUNCTION ghk(v(mV), ci(mM), co(mM)) (mV) {
LOCAL nu,f
f = KTF(celsius)/2
nu = v/f
ghk=-f*(1. - (ci/co)*exp(nu))*efun(nu)
}
FUNCTION KTF(celsius (DegC)) (mV) {
KTF = ((25./293.15)*(celsius + 273.15))
}
FUNCTION efun(z) {
if (fabs(z) < 1e-4) {
efun = 1 - z/2
}else{
efun = z/(exp(z) - 1)
}
}
FUNCTION alph(v(mV)) {
alph = exp(0.0378*zetah*(v-vhalfh))
}
FUNCTION beth(v(mV)) {
beth = exp(0.0378*zetah*gmh*(v-vhalfh))
}
FUNCTION alpmt(v(mV)) {
alpmt = exp(0.0378*zetam*(v-vhalfm))
}
FUNCTION betmt(v(mV)) {
betmt = exp(0.0378*zetam*gmm*(v-vhalfm))
}
PROCEDURE rates(v (mV)) { :callable from hoc
LOCAL a,b, qt
qt=q10^((celsius-25)/10)
minf = (1/(1 + exp(-(v-vhm)/10)))
mtau = mfactor*(betmt(v)/(qt*a0m*(1+alpmt(v))))
if (mtau<mmin) {mtau=mmin}
hinf = (1/(1 + exp((v-vhh)/10)))
htau = hfactor*(beth(v)/(a0h*(1+alph(v))))
if (htau<hmin) {htau=hmin}
}