TITLE Ca L-type channel with high treshold of activation : inserted in distal dendrites to account for distally : restricted initiation of Ca++ spikes : uses channel conductance (not permeability) : written by Yiota Poirazi, 1/8/00 poirazi@LNC.usc.edu : : Updated to use Cvode - Carl Gold, 08/10/03 : Updated by Yiota Poirazi 1/3/2005 NEURON { SUFFIX calH USEION ca READ cai, cao WRITE ica RANGE gcalbar, m, h, ica RANGE inf, fac, tau } UNITS { (mA) = (milliamp) (mV) = (millivolt) (molar) = (1/liter) (mM) = (millimolar) FARADAY = (faraday) (coulomb) R = (k-mole) (joule/degC) } PARAMETER { ki = 0.1 (mM) : middle point of inactivation fct gcalbar = 0 (mho/cm2) : initialized conductance } ASSIGNED { : parameters needed to solve DE ica (mA/cm2) inf[2] : inf/tau[0] = m tau[2] (ms) : inf/tau[1] = h v (mV) celsius (degC) ecan (mV) : Ca++ reversal potential cai (mM) : initial internal Ca++ concentration cao (mM) : initial external Ca++ concentration } STATE { m h } INITIAL { rates(v) m = 0 : initial activation parameter value h = 1 : initial inactivation parameter value } FUNCTION h2(cai(mM)) { h2 = ki/(ki+cai) } BREAKPOINT { SOLVE states METHOD cnexp ecan = (1e3) * (R*(celsius+273.15))/(2*FARADAY) * log (cao/cai) ica = gcalbar*m*m*m*h*h2(cai)*(v - ecan) } DERIVATIVE states { rates(v) m' = (inf[0]-m)/tau[0] h' = (inf[1]-h)/tau[1] } PROCEDURE rates(v(mV)) {LOCAL a, b :rest = -70 FROM i=0 TO 1 { tau[i] = vartau(v,i) inf[i] = varss(v,i) } } FUNCTION varss(v(mV), i) { if (i==0) { : varss = 1 / (1 + exp((v+37)/(-1(mV)))) : Ca activation varss = 1 / (1 + exp((v+37.7)/(-1(mV)))) : Ca activation } else if (i==1) { varss = 1 / (1 + exp((v+41)/(0.5(mV)))) : Ca inactivation } } FUNCTION vartau(v(mV), i) (ms){ if (i==0) { : vartau = 3.6(ms) : activation variable time constant vartau = 3.5(ms) : activation variable time constant } else if (i==1) { : vartau = 29(ms) : inactivation variable time constant vartau = 20(ms) : inactivation variable time constant } }