TITLE Mouse Ventricular Myocyte Model
COMMENT
16-state Nav Markov model (w/o FHF)
ENDCOMMENT
NEURON {
SUFFIX NAV_noF
USEION na READ ena WRITE ina
RANGE gnabar, ina, g, Oapp, Capp, Iapp
RANGE gamma, delta, Con, Coff, Oon, Ooff
RANGE Aalfa, Valfa, Abeta, Vbeta, Agamma, Adelta, ACon, ACoff, AOon, AOoff, Vshift
RANGE n1, n2, n3, n4, n5, n6, s1, s2, s3, s4, s5, s6, V_threshold, use_threshold
}
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
}
PARAMETER {
v (mV)
Vshift = -57.5 (mV)
celsius = 25 (degC)
ena = 87.39 (mV)
gnabar = 0.036 (mho/cm2)
Aalfa = 2.44375 ( /ms)
Valfa = 9 ( /mV)
Abeta = 0.01325 ( /ms)
Vbeta = 9 ( /mV)
Agamma = 150 ( /ms)
Adelta = 40 ( /ms)
ACon = 0.025 ( /ms)
ACoff = 0.005 ( /ms)
AOon = 1.3 ( /ms)
AOoff = 0.0005 ( /ms)
n1 = 100
n2 = 20
n3 = 20
n4 = 3
n5 = 1.5
n6 = 0.75
s1 = 0.5
s2 = 0.5
s3 = 0.5
s4 = 1.5
s5 = 1.5
s6 = 1.5
V_threshold = -85 (mV)
use_threshold = 0
}
ASSIGNED {
ina (mA/cm2)
g (mho/cm2)
Oapp
Iapp
Capp
gamma
delta
Con
Coff
Oon
Ooff
a
b
Q10gate
Q10cond
}
STATE {
C1
C2
C3
C4
C5
C6
C7
O
I1
I2
I3
I4
I5
I6
I7
I8
}
INITIAL {
: C1=1
: C2=0
: C3=0
: C4=0
: C5=0
: C6=0
: C7=0
: O=0
: I1=0
: I2=0
: I3=0
: I4=0
: I5=0
: I6=0
: I7=0
: I8=0
Q10gate =2.3^((celsius-32.76(degC))/10 (degC))
Q10cond =1.4^((celsius-25 (degC))/10 (degC))
gamma = Q10gate * Agamma
delta = Q10gate * Adelta
Con = Q10gate * ACon
Coff = Q10gate * ACoff
Oon = Q10gate * AOon
Ooff = Q10gate * AOoff
a = (Oon/Con)^0.16667
b = (Ooff/Coff)^0.16667
SOLVE kstates STEADYSTATE sparse
}
BREAKPOINT {
if ( use_threshold ) {
if (v < V_threshold) {
delta = 1e10
gamma = 1e-10
:printf("%f\t",v)
} else {
delta = Q10gate * Adelta
gamma = Q10gate * Agamma
}
}
SOLVE kstates METHOD sparse
g = Q10cond * gnabar * O : (mho/cm2)
ina = g * (v - ena) : (mA/cm2)
Oapp = O*(ACon+ACoff)/ACoff
Capp = (C1+C2+C3+C4+C5+C6+C7)*(ACon+ACoff)/ACoff
Iapp = 1-Oapp-Capp
}
FUNCTION alfa(v(mV))(/ms){
alfa = Q10gate*Aalfa*exp((v-Vshift)/Valfa)
}
FUNCTION beta(v(mV))(/ms){
beta = Q10gate*Abeta*exp((-v+Vshift)/Vbeta)
}
KINETIC kstates {
: 1st row
~ C1 <-> C2 (n1*alfa(v),n6*beta(v))
~ C2 <-> C3 (n2*alfa(v),n5*beta(v))
~ C3 <-> C4 (n3*alfa(v),n4*beta(v))
~ C4 <-> C5 (n4*alfa(v),n3*beta(v))
~ C5 <-> C6 (n5*alfa(v),n2*beta(v))
~ C6 <-> C7 (n6*alfa(v),n1*beta(v))
~ C7 <-> O (gamma,delta)
: 2nd row
~ I1 <-> I2 (n1*alfa(v)*a^s1,n6*beta(v)*b^s1)
~ I2 <-> I3 (n2*alfa(v)*a^s2,n5*beta(v)*b^s2)
~ I3 <-> I4 (n3*alfa(v)*a^s3,n4*beta(v)*b^s3)
~ I4 <-> I5 (n4*alfa(v)*a^s4,n3*beta(v)*b^s4)
~ I5 <-> I6 (n5*alfa(v)*a^s5,n2*beta(v)*b^s5)
~ I6 <-> I7 (n6*alfa(v)*a^s6,n1*beta(v)*b^s6)
~ I7 <-> I8 (gamma,delta)
: connect 1st row with 2nd row
~ C1 <-> I1 (Con,Coff)
~ C2 <-> I2 (Con*a^s1,Coff*b^s1)
~ C3 <-> I3 (Con*a^(s1+s2),Coff*b^(s1+s2))
~ C4 <-> I4 (Con*a^(s1+s2+s3),Coff*b^(s1+s2+s3))
~ C5 <-> I5 (Con*a^(s1+s2+s3+s4),Coff*b^(s1+s2+s3+s4))
~ C6 <-> I6 (Con*a^(s1+s2+s3+s4+s5),Coff*b^(s1+s2+s3+s4+s5))
~ C7 <-> I7 (Con*a^(s1+s2+s3+s4+s5+s6),Coff*b^(s1+s2+s3+s4+s5+s6))
~ O <-> I8 (Oon,Ooff)
CONSERVE C1+C2+C3+C4+C5+C6+C7+O+I1+I2+I3+I4+I5+I6+I7+I8=1
}