ModelDB: Dendritic Impedance in Neocortical L5 PT neurons (Kelley et al. 2021)

TITLE I-h channel from Harnett 2015 - J Neurosci

UNITS {
    (mA) = (milliamp)
    (mV) = (millivolt)
}

PARAMETER {
    v                       (mV)
    celsius                 (degC)
    erev     = -30          (mV)
    gbar     = 0.0001       (mho/cm2)
    vhalf    = -100.6       (mV)
    k        = 6.4
    bAct       = 9.63 : for activation tau - (note - only 1 tau)
    bD       = 1.30 : for deactivation tau
    mAct       = 0.0458 : for activation tau
    mD       = -0.0447 : for deactivation tau
    q10      = 2.2
    taumin	= 2.0	(ms)		: minimal value of time constant
}

NEURON {
    SUFFIX h15
    NONSPECIFIC_CURRENT i
    RANGE gbar, g, m
    GLOBAL taumin, k, bAct, bD, mAct, mD, vhalf, minf, tau
}

STATE {
    m
}

ASSIGNED {
    i       (mA/cm2)
    minf
    tau
    g
}

INITIAL {
    rate(v)
    m = minf
}

BREAKPOINT {
    SOLVE states METHOD cnexp
    g       = gbar*m
    i       = g*(v-erev)
}

DERIVATIVE states {     : exact when v held constant; integrates over dt step
    rate(v)
    m' = (minf - m) / tau
}

PROCEDURE rate(v (mV)) { :callable from hoc - leads to segfault in python
    LOCAL qt
    qt = q10^((celsius-26.0)/10.0)

    if(v <= -92.0046199111992) {
      tau = exp(bAct + mAct * v) / qt
    } else {
      tau = exp(bD + mD * v) / qt
    }
    if(tau < taumin) { tau = taumin }

    minf = 1.0/(1.0 + exp((v-vhalf)/k))
}