MicrocircuitDB: Cerebellar cortex oscil. robustness from Golgi cell gap jncs (Simoes de Souza and De Schutter 2011)

TITLE Cerebellum Granule Cell Model

COMMENT
        Kir channel

	Author: E.D'Angelo, T.Nieus, A. Fontana
	Last revised: 8.10.2000
	Old values:
			gkbar = 0.0003 (mho/cm2)

ENDCOMMENT

NEURON {
	SUFFIX GRC_KIR
	USEION k READ ek WRITE ik
	RANGE gkbar, ik, g, alpha_d, beta_d
	RANGE Aalpha_d, Kalpha_d, V0alpha_d
	RANGE Abeta_d, Kbeta_d, V0beta_d
	RANGE d_inf, tau_d
}

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

PARAMETER {
	Aalpha_d = 0.13289 (/ms)

	:Kalpha_d = -0.041 (/mV)
	Kalpha_d = -24.3902 (mV)

	V0alpha_d = -83.94 (mV)
	Abeta_d = 0.16994 (/ms)

	:Kbeta_d = 0.028 (/mV)
	Kbeta_d = 35.714 (mV)

	V0beta_d = -83.94 (mV)
	v (mV)
	gkbar = 0.0009 (mho/cm2)
	ek = -84.69 (mV)
	celsius = 30 (degC)
}

STATE {
	d
}

ASSIGNED {
	ik (mA/cm2)
	d_inf
	tau_d (ms)
	g (mho/cm2)
	alpha_d (/ms)
	beta_d (/ms)
}

INITIAL {
	rate(v)
	d = d_inf
}

BREAKPOINT {
	SOLVE states METHOD derivimplicit
	g = gkbar*d   : primo ordine!!!
	ik = g*(v - ek)
	alpha_d = alp_d(v)
	beta_d = bet_d(v)
}

DERIVATIVE states {
	rate(v)
	d' =(d_inf - d)/tau_d
}

FUNCTION alp_d(v(mV))(/ms) { LOCAL Q10
	Q10 = 3^((celsius-20(degC))/10(degC))
	alp_d = Q10*Aalpha_d*exp((v-V0alpha_d)/Kalpha_d)
}

FUNCTION bet_d(v(mV))(/ms) { LOCAL Q10
	Q10 = 3^((celsius-20(degC))/10(degC))
	bet_d = Q10*Abeta_d*exp((v-V0beta_d)/Kbeta_d)
}

PROCEDURE rate(v (mV)) {LOCAL a_d, b_d
	TABLE d_inf, tau_d
	DEPEND Aalpha_d, Kalpha_d, V0alpha_d,
	       Abeta_d, Kbeta_d, V0beta_d, celsius FROM -100 TO 30 WITH 13000
	a_d = alp_d(v)
	b_d = bet_d(v)
	tau_d = 1/(a_d + b_d)
	d_inf = a_d/(a_d + b_d)
}