TITLE SK2 multi-state model Cerebellum Golgi Cell Model
COMMENT
Author:Sergio Solinas, Lia Forti, Egidio DAngelo
Based on data from: Hirschberg, Maylie, Adelman, Marrion J Gen Physiol 1998
Last revised: May 2007
Published in:
Sergio M. Solinas, Lia Forti, Elisabetta Cesana,
Jonathan Mapelli, Erik De Schutter and Egidio D`Angelo (2008)
Computational reconstruction of pacemaking and intrinsic
electroresponsiveness in cerebellar golgi cells
Frontiers in Cellular Neuroscience 2:2
ENDCOMMENT
NEURON{
SUFFIX Golgi_SK2
USEION ca READ cai
USEION k READ ek WRITE ik
RANGE gkbar, g, ik, tcorr
}
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
(molar) = (1/liter)
(mM) = (millimolar)
}
PARAMETER {
celsius (degC)
cai (mM)
gkbar = 0.038 (mho/cm2)
Q10 = 3
diff = 3 (1) : diffusion factor
: rates ca-indipendent
invc1 = 80e-3 ( /ms)
invc2 = 80e-3 ( /ms)
invc3 = 200e-3 ( /ms)
invo1 = 1 ( /ms)
invo2 = 100e-3 ( /ms)
diro1 = 160e-3 ( /ms)
diro2 = 1.2 ( /ms)
: rates ca-dipendent
dirc2 = 200 ( /ms-mM )
dirc3 = 160 ( /ms-mM )
dirc4 = 80 ( /ms-mM )
}
ASSIGNED{
v (mV)
ek (mV)
g (mho/cm2)
ik (mA/cm2)
invc1_t ( /ms)
invc2_t ( /ms)
invc3_t ( /ms)
invo1_t ( /ms)
invo2_t ( /ms)
diro1_t ( /ms)
diro2_t ( /ms)
dirc2_t ( /ms)
dirc3_t ( /ms)
dirc4_t ( /ms)
tcorr (1)
dirc2_t_ca ( /ms-mM)
dirc3_t_ca ( /ms-mM)
dirc4_t_ca ( /ms-mM)
}
STATE {
c1
c2
c3
c4
o1
o2
}
BREAKPOINT{
SOLVE kin METHOD sparse
g = gkbar*(o1+o2) :(mho/cm2)
ik = g*(v-ek) :(mA/cm2)
}
INITIAL{
rate(celsius)
SOLVE kin STEADYSTATE sparse
}
KINETIC kin{
rates(cai/diff)
~c1<->c2 (dirc2_t_ca, invc1_t)
~c2<->c3 (dirc3_t_ca, invc2_t)
~c3<->c4 (dirc4_t_ca, invc3_t)
~c3<->o1 (diro1_t, invo1_t)
~c4<->o2 (diro2_t, invo2_t)
CONSERVE c1+c2+c3+c4+o2+o1=1
}
FUNCTION temper (Q10, celsius (degC)) {
temper = Q10^((celsius -23(degC)) / 10(degC))
}
PROCEDURE rates(cai(mM)){
dirc2_t_ca = dirc2_t*cai
dirc3_t_ca = dirc3_t*cai
dirc4_t_ca = dirc4_t*cai
}
PROCEDURE rate (celsius(degC)) {
tcorr = temper (Q10,celsius)
invc1_t = invc1*tcorr
invc2_t = invc2*tcorr
invc3_t = invc3*tcorr
invo1_t = invo1*tcorr
invo2_t = invo2*tcorr
diro1_t = diro1*tcorr
diro2_t = diro2*tcorr
dirc2_t = dirc2*tcorr
dirc3_t = dirc3*tcorr
dirc4_t = dirc4*tcorr
}