TITLE ka : Kalium stroom type A : twee gates met elk twee toestanden: open of dicht : : uit: Traub et al. : A branching dendritic model of a rodent CA3 : pyramidal neurone. UNITS { (molar) = (1/liter) (mV) = (millivolt) (mA) = (milliamp) (mM) = (millimolar) } INDEPENDENT {t FROM 0 TO 1 WITH 100 (ms)} NEURON { SUFFIX ka USEION k READ ek WRITE ik RANGE gkbar, ik, qk GLOBAL shiftm, shifth } UNITS { PI = (pi) (1) FARADAY = 96485.309 (coul) R = (k-mole) (joule/degC) } PARAMETER { celsius (degC) gkbar=1e-3 (cm/s) : Maximum Permeability .2e-3*5 hans shiftm = 0 (mV) shifth = 0 (mV) } ASSIGNED { ik (mA/cm2) v (mV) ek (mV) diam (um) } STATE { am ac bm bc qk } : fraction of states, m=fraction in open state. BREAKPOINT { SOLVE kstate METHOD sparse ik = gkbar*am*am*bm*(v-ek) } INITIAL { am=a_inf(v) ac=1-am bm=b_inf(v) bc=1-bm qk=0 ik = gkbar*am*am*bm*(v-ek) } LOCAL a1,a2,b1,b2 KINETIC kstate { a1 = a_m(v) a2 = a_c(v) b1 = b_m(v) b2 = b_c(v) ~ ac <-> am (a1, a2) ~ bc <-> bm (b1, b2) CONSERVE am + ac = 1 CONSERVE bm + bc = 1 COMPARTMENT diam*diam*PI/4 { qk } ~ qk << ((-ik*diam )*PI*(1e4)/FARADAY ) } FUNCTION a_m(v(mV)) { LOCAL shift TABLE DEPEND shiftm FROM -150 TO 150 WITH 200 shift=-30+shiftm a_m=0.02*(13.1-v-70-shift)/(exp((13.1-v-70-shift)/10)-1) } FUNCTION a_c(v(mV)) { LOCAL shift TABLE DEPEND shiftm FROM -150 TO 150 WITH 200 shift=-30+shiftm a_c=0.0175*(v-40.1+70+shift)/(exp((v-40.1+70+shift)/10)-1) } FUNCTION b_m(v(mV)) { TABLE DEPEND shifth FROM -150 TO 150 WITH 200 b_m = 0.016*exp((-13-v-70-shifth)/18) } FUNCTION b_c(v(mV)) { TABLE DEPEND shifth FROM -150 TO 150 WITH 200 b_c = 0.5/(1+exp((10.1-v-70-shifth)/5)) } FUNCTION a_inf(v(mV)) { a_inf = a_m(v) / ( a_m(v) + a_c(v) ) } FUNCTION b_inf(v(mV)) { b_inf = b_m(v) / ( b_m(v) + b_c(v) ) } FUNCTION window(v(mV)) { window=gkbar*a_inf(v)*a_inf(v)*b_inf(v)*(v-ek) } FUNCTION ghk(v(mV), ci(mM), co(mM)) (.001 coul/cm3) { LOCAL z, eci, eco z = (1e-3)*1*FARADAY*v/(R*(celsius+273.11247574)) eco = co*efun(z) eci = ci*efun(-z) :high kao charge moves inward, mogelijke fouten vanwege oorsprong Ca(2+)! :negative potential charge moves inward ghk = (.001)*1*FARADAY*(eci - eco) } FUNCTION efun(z) { if (fabs(z) < 1e-4) { efun = 1 - z/2 }else{ efun = z/(exp(z) - 1) } }