COMMENT kv.mod Potassium channel, Hodgkin-Huxley style kinetics Kinetic rates based roughly on Sah et al. and Hamill et al. (1991) Author: Zach Mainen, Salk Institute, 1995, zach@salk.edu added myexp from Arnd Roth; P.V. 24.7.98 ENDCOMMENT INDEPENDENT {t FROM 0 TO 1 WITH 1 (ms)} NEURON { SUFFIX kv USEION k READ ek WRITE ik RANGE n, gk, gbar RANGE ninf, ntau GLOBAL Ra, Rb GLOBAL q10, temp, tadj, vmin, vmax } UNITS { (mA) = (milliamp) (mV) = (millivolt) (pS) = (picosiemens) (um) = (micron) } PARAMETER { gbar = 5 (pS/um2) : 0.03 mho/cm2 v (mV) tha = 25 (mV) : v 1/2 for inf qa = 9 (mV) : inf slope Ra = 0.02 (/ms) : max act rate Rb = 0.002 (/ms) : max deact rate dt (ms) celsius (degC) temp = 23 (degC) : original temp q10 = 2.3 : temperature sensitivity vmin = -120 (mV) vmax = 100 (mV) } ASSIGNED { a (/ms) b (/ms) ik (mA/cm2) gk (pS/um2) ek (mV) ninf ntau (ms) tadj } STATE { n } INITIAL { trates(v) n = ninf } BREAKPOINT { SOLVE states gk = tadj*gbar*n ik = (1e-4) * gk * (v - ek) } LOCAL nexp PROCEDURE states() { :Computes state variable n trates(v) : at the current v and dt. n = n + nexp*(ninf-n) VERBATIM return 0; ENDVERBATIM } PROCEDURE trates(v) { :Computes rate and other constants at current v. :Call once from HOC to initialize inf at resting v. LOCAL tinc TABLE ninf, nexp DEPEND dt, celsius, temp, Ra, Rb, tha, qa FROM vmin TO vmax WITH 199 rates(v): not consistently executed from here if usetable_hh == 1 tadj = q10^((celsius - temp)/10) tinc = -dt * tadj nexp = 1 - myexp(tinc/ntau) } FUNCTION myexp(x) { if (x < -100) { myexp = 0 }else{ myexp = exp(x) } } PROCEDURE rates(v) { :Computes rate and other constants at current v. :Call once from HOC to initialize inf at resting v. a = Ra * (v - tha) / (1 - exp(-(v - tha)/qa)) b = -Rb * (v - tha) / (1 - exp((v - tha)/qa)) ntau = 1/(a+b) ninf = a*ntau }