TITLE na3
: Na current
: from Jeff M.
: ---------- modified -------M.Migliore may97
NEURON {
SUFFIX na3
USEION na READ ena WRITE ina
RANGE gbar, ar2,ina
GLOBAL minf, hinf, mtau, htau, sinf, taus,qinf, thinf
}
PARAMETER {
gbar = 0.010 (mho/cm2)
tha = -25(mV) : v 1/2 for act
qa = 7.2 (mV) : act slope (4.5)
Ra = 0.4(/ms) : open (v)
Rb = 0.124 (/ms) : close (v)
thi1 = -45 (mV) : v 1/2 for inact
thi2 = -45 (mV) : v 1/2 for inact
qd = 1.5 (mV) : inact tau slope
qg = 1.5 (mV)
mmin=0.02
hmin=0.5
q10=2
Rg = 0.01 (/ms) : inact recov (v)
Rd = .03 (/ms) : inact (v)
qq = 10 (mV)
tq = -55 (mV)
thinf = -50 (mV) : inact inf slope
:qinf = 4 (mV) : inact inf slope
qinf = 1(mV) : inact inf slope
vhalfs=-60 (mV) : slow inact.
a0s=0.0003 (ms) : a0s=b0s
zetas=12 (1)
gms=0.2 (1)
smax=10 (ms)
vvh=-58 (mV)
vvs=2 (mV)
ar2=1 (1) : 1=no inact., 0=max inact.
ena (mV) : must be explicitly def. in hoc
celsius
v (mV)
}
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
(pS) = (picosiemens)
(um) = (micron)
}
ASSIGNED {
ina (mA/cm2)
thegna (mho/cm2)
minf hinf
mtau (ms) htau (ms)
sinf (ms) taus (ms)
}
STATE { m h s}
BREAKPOINT {
SOLVE states METHOD cnexp
thegna = gbar*m*m*m*h*s
ina = thegna * (v - ena)
}
INITIAL {
trates(v,ar2)
m=minf
h=hinf
s=sinf
}
FUNCTION alpv(v(mV)) {
LOCAL Arg
Arg=(v-vvh)/vvs
if (Arg<-50) {alpv=1}
else if (Arg>50) {alpv=0}
else {alpv=1/(1+exp(Arg))}
}
FUNCTION alps(v(mV)) {
LOCAL Arg
Arg=1.e-3*zetas*(v-vhalfs)*9.648e4/(8.315*(273.16+celsius))
if (Arg<-50) {alps=0}
else if (Arg>50) {alps=exp(50)}
else {alps=exp(Arg)}
}
FUNCTION bets(v(mV)) {
LOCAL Arg
Arg=1.e-3*zetas*gms*(v-vhalfs)*9.648e4/(8.315*(273.16+celsius))
if (Arg<-50) {bets=0}
else if (Arg>50) {bets=exp(50)}
else {bets=exp(Arg)}
}
LOCAL mexp, hexp, sexp
DERIVATIVE states {
trates(v,ar2)
m' = (minf-m)/mtau
h' = (hinf-h)/htau
s' = (sinf - s)/taus
}
PROCEDURE trates(vm,a2) {
LOCAL a, b, c, qt, Arg
qt=q10^((celsius-24)/10)
a = trap0(vm,tha,Ra,qa)
b = trap0(-vm,-tha,Rb,qa)
mtau = 1/(a+b)/qt
if (mtau<mmin) {mtau=mmin}
minf = a/(a+b)
a = trap0(vm,thi1,Rd,qd)
b = trap0(-vm,-thi2,Rg,qg)
htau = 1/(a+b)/qt
if (htau<hmin) {htau=hmin}
Arg=(vm-thinf)/qinf
if (Arg<-50) {hinf=1}
else if (Arg>50) {hinf=0}
else {hinf=1/(1+exp(Arg))}
c=alpv(vm)
sinf = c+a2*(1-c)
taus = bets(vm)/(a0s*(1+alps(vm)))
if (taus<smax) {taus=smax}
}
FUNCTION trap0(v,th,a,q) {
LOCAL Arg
if (fabs(v-th) > 1e-6) {
Arg=-(v-th)/q
if (Arg<-50) {trap0=a*(v-th)}
else if (Arg>50) {trap0=0}
else {trap0=a*(v-th)/(1-exp(Arg))}
} else {
trap0 = a * q
}
}