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nca.mod
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nca.mod
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TITLE nca.mod
COMMENT
konduktivitas valtozas hatasa- somaban
ENDCOMMENT
UNITS {
(mA) =(milliamp)
(mV) =(millivolt)
(uF) = (microfarad)
(molar) = (1/liter)
(nA) = (nanoamp)
(mM) = (millimolar)
(um) = (micron)
FARADAY = 96520 (coul)
R = 8.3134 (joule/degC)
}
? interface
NEURON {
SUFFIX nca
USEION nca READ enca WRITE inca VALENCE 2
RANGE gnca
RANGE gncabar
RANGE cinf, ctau, dinf, dtau, inca
}
INDEPENDENT {t FROM 0 TO 100 WITH 100 (ms)}
PARAMETER {
v (mV)
celsius = 6.3 (degC)
dt (ms)
gncabar (mho/cm2)
}
STATE {
c d
}
ASSIGNED {
gnca (mho/cm2)
inca (mA/cm2)
enca (mV)
cinf dinf
ctau (ms) dtau (ms)
cexp dexp
}
? currents
BREAKPOINT {
SOLVE states
gnca = gncabar*c*c*d
inca = gnca*(v-enca)
}
UNITSOFF
INITIAL {
trates(v)
c = cinf
d = dinf
}
? states
PROCEDURE states() { :Computes state variables m, h, and n
trates(v) : at the current v and dt.
c = c + cexp*(cinf-c)
d = d + dexp*(dinf-d)
VERBATIM
return 0;
ENDVERBATIM
}
LOCAL q10
? rates
PROCEDURE rates(v) { :Computes rate and other constants at current v.
:Call once from HOC to initialize inf at resting v.
LOCAL alpha, beta, sum
q10 = 3^((celsius - 6.3)/10)
:"c" NCa activation system
alpha = -0.19*vtrap(v-19.88,-10)
beta = 0.046*exp(-v/20.73)
sum = alpha+beta
ctau = 1/sum cinf = alpha/sum
:"d" NCa inactivation system
alpha = 0.00016/exp(-v/48.4)
beta = 1/(exp((-v+39)/10)+1)
sum = alpha+beta
dtau = 1/sum dinf = alpha/sum
}
PROCEDURE trates(v) { :Computes rate and other constants at current v.
:Call once from HOC to initialize inf at resting v.
LOCAL tinc
TABLE cinf, cexp, dinf, dexp, ctau, dtau
DEPEND dt, celsius FROM -100 TO 100 WITH 200
rates(v) : not consistently executed from here if usetable_hh == 1
: so don't expect the tau values to be tracking along with
: the inf values in hoc
tinc = -dt * q10
cexp = 1 - exp(tinc/ctau)
dexp = 1 - exp(tinc/dtau)
}
FUNCTION vtrap(x,y) { :Traps for 0 in denominator of rate eqns.
if (fabs(x/y) < 1e-6) {
vtrap = y*(1 - x/y/2)
}else{
vtrap = x/(exp(x/y) - 1)
}
}
UNITSON