TITLE Second Sodium transient current for Traub RD et al 2005
COMMENT
This sodium current was present in Gabaergic interneurons and spiny stellate
cells in the Traub et al 2005 model: deepaxax, deepbask, deepLTS, spinstell,
supaxax, supbask, supLTS, nRT
Tom Morse 3/8/2006
Modified from the
Implementation of naf by Maciej Lazarewicz 2003 (mlazarew@seas.upenn.edu)
made for RD Traub, J Neurophysiol 89:909-921, 2003
ENDCOMMENT
INDEPENDENT { t FROM 0 TO 1 WITH 1 (ms) }
UNITS {
(mV) = (millivolt)
(mA) = (milliamp)
}
NEURON {
SUFFIX naf2
USEION na READ ena WRITE ina
RANGE gbar, ina,m, h, df, fastNa_shift, a, b, c, d, minf, mtau
}
PARAMETER {
fastNa_shift = 0 : orig -3.5 (mV)
a = 0 (1)
b = 0 (1)
c = 0 (1)
d = 0 (1)
gbar = 0.0 (mho/cm2)
v (mV) ena (mV)
}
ASSIGNED {
ina (mA/cm2)
minf hinf (1)
mtau (ms) htau (ms)
df (mV)
}
STATE {
m h
}
BREAKPOINT {
SOLVE states METHOD cnexp
ina = gbar * m * m * m * h * ( v - ena )
df = v - ena
}
INITIAL {
settables( v )
m = minf
m = 0
h = hinf
}
DERIVATIVE states {
settables( v )
m' = ( minf - m ) / mtau
h' = ( hinf - h ) / htau
}
UNITSOFF
PROCEDURE settables(v1(mV)) {
TABLE minf, hinf, mtau, htau FROM -120 TO 40 WITH 641
minf = 1 / ( 1 + exp( ( - ( v1 + fastNa_shift ) - 38 ) / 10 ) )
if( ( v1 + fastNa_shift ) < -30.0 ) {
mtau = 0.0125 + 0.1525 * exp( ( ( v1 + fastNa_shift ) + 30 ) / 10 )
} else{
mtau = 0.02 + a + (0.145+ b) * exp( ( - ( v1 + fastNa_shift +d ) - 30 ) / (10+c) )
}
: hinf, and htau are shifted 3.5 mV comparing to the paper
hinf = 1 / ( 1 + exp( ( ( v1 + fastNa_shift * 0 ) + 58.3 ) / 6.7 ) )
htau = 0.225 + 1.125 / ( 1 + exp( ( ( v1 + fastNa_shift * 0 ) + 37 ) / 15 ) )
}
UNITSON