TITLE transient and low threshold calcium current (T-current) COMMENT ********************************************* reference: Huguenard & McCormick (1992) J.Neurophysiology 68(4), 1373-1383 found in: thalamic relay neurons ********************************************* Assembled for MyFirstNEURON by Arthur Houweling ENDCOMMENT INDEPENDENT {t FROM 0 TO 1 WITH 1 (ms)} NEURON { SUFFIX iT USEION ca READ cai,cao USEION Ca WRITE iCa VALENCE 2 : The T-current does not activate calcium-dependent currents. : The construction with dummy ion Ca prevents the updating of the : internal calcium concentration. RANGE pcabar, m_inf, h_inf, tau_m, tau_h, iCa } UNITS { (mA) = (milliamp) (mV) = (millivolt) (mM) = (milli/liter) FARADAY = 96480 (coul) R = 8.314 (volt-coul/degC) } PARAMETER { v (mV) celsius (degC) dt (ms) cai (mM) cao (mM) pcabar= 0.0001 (cm/s) } STATE { m h } ASSIGNED { iCa (mA/cm2) tau_m (ms) tau_h (ms) m_inf h_inf tadjm tadjh } BREAKPOINT { SOLVE state :METHOD euler iCa = pcabar * m*m*h * ghk(v,cai,cao,2) } :DERIVATIVE state { : rates(v) : : m'= (m_inf-m) / tau_m : h'= (h_inf-h) / tau_h :} PROCEDURE state() { rates(v) m= m + (1-exp(-dt/tau_m))*(m_inf-m) h= h + (1-exp(-dt/tau_h))*(h_inf-h) } UNITSOFF INITIAL { tadjm= 3.55^((celsius-23.5)/10) tadjh= 2.8^((celsius-23.5)/10) rates(v) m = m_inf h = h_inf } FUNCTION ghk( v(mV), ci(mM), co(mM), z) (millicoul/cm3) { LOCAL e, w w = v * (.001) * z*FARADAY / (R*(celsius+273.16)) if (fabs(w)>1e-4) { e = w / (exp(w)-1) } else : denominator is small -> Taylor series { e = 1-w/2 } ghk = - (.001) * z*FARADAY * (co-ci*exp(w)) * e } UNITSOFF PROCEDURE rates(v(mV)) { tau_m = (1/(exp((v+131.6)/-16.7)+exp((v+16.8)/18.2)) + 0.612) / tadjm m_inf = 1 / (1+exp((v+60.5)/-6.2)) if (v<-80) { tau_h = exp((v+467)/66.6) / tadjh } else { tau_h = (exp((v+21.88)/-10.52)+28) / tadjh } h_inf = 1 / (1+exp((v+84)/4.03)) } UNITSON