TITLE N-type calcium channel : used in somatic and dendritic regions : After Borg : Updated by Maria Markaki 03/12/03 NEURON { SUFFIX cancr USEION ca READ cai, eca WRITE ica RANGE gcabar, ica, po GLOBAL hinf, minf, s_inf } UNITS { (mA) = (milliamp) (mV) = (millivolt) (molar) = (1/liter) (mM) = (millimolar) FARADAY = (faraday) (coulomb) R = (k-mole) (joule/degC) } PARAMETER { :parameters that can be entered when function is called in cell-setup gcabar = 0 (mho/cm2) : initialized conductance ki = 0.025 (mM) :test middle point of inactivation fct zetam = -3.4 zetah = 2 vhalfm =-21 (mV) vhalfh =-40 (mV) tm0=1.5(ms) th0=75(ms) taumin = 2 (ms) : minimal value of the time cst } ASSIGNED { : parameters needed to solve DE v (mV) celsius (degC) ica (mA/cm2) po cai (mM) :5e-5 initial internal Ca++ concentration eca (mV) minf hinf s_inf } FUNCTION h2(cai(mM)) { h2 = ki/(ki+cai) } STATE { m h s } INITIAL { rates(v,cai) m = minf h = hinf s = s_inf } BREAKPOINT { SOLVE states METHOD cnexp po = m*m*h ica = gcabar *po*h2(cai) * (v - eca) } FUNCTION ghk(v(mV), ci(mM), co(mM)) (.001 coul/cm3) { LOCAL z, eci, eco z = (1e-3)*2*FARADAY*v/(R*(celsius+273.15)) eco = co*efun(z) eci = ci*efun(-z) :high cao charge moves inward :negative potential charge moves inward ghk = (.001)*2*FARADAY*(eci - eco) } FUNCTION efun(z) { if (fabs(z) < 1e-4) { efun = 1 - z/2 }else{ efun = z/(exp(z) - 1) } } DERIVATIVE states { rates(v,cai) m' = (minf -m)/tm0 h'= (hinf - h)/th0 s' = (s_inf-s)/taumin } PROCEDURE rates(v (mV), cai(mM)) { LOCAL a, b, alpha2 a = alpm(v) minf = 1/(1+a) b = alph(v) hinf = 1/(1+b) alpha2 = (ki/cai)^2 s_inf = alpha2 / (alpha2 + 1) } FUNCTION alpm(v(mV)) { UNITSOFF alpm = exp(1.e-3*zetam*(v-vhalfm)*9.648e4/(8.315*(273.16+celsius))) UNITSON } FUNCTION alph(v(mV)) { UNITSOFF alph = exp(1.e-3*zetah*(v-vhalfh)*9.648e4/(8.315*(273.16+celsius))) UNITSON }