// cond_report.hoc conductance report program // Displays the conductance densities (and equiv resistances) when called proc cond_report() { soma distance() // reset distance measurements to 0 at soma access soma g_prox_report() access apic[13] g_dist_report() // includes proximal a-type current access apic[33] g_dist_report() // includes distal a-type current access apic[43] g_dist_report() } proc g_prox_report() { g_common_report() // common currents print " gka_kap = ",gka_kap(0.5)," resistance = ", 1/(gka_kap(0.5)+1e-30) print " driving force = ", v-ek print " specific current = ",gka_kap(0.5)*(v-ek) print "-------------------------------------------------" } proc g_dist_report() { g_common_report() // common currents print " gka_kad = ",gka_kad(0.5)," resistance = ", 1/(gka_kad(0.5)+1e-30) print " driving force = ", v-ek print " current = ", gka_kad(0.5)*(v-ek) print "-------------------------------------------------" } proc g_common_report() { print "Location ",secname()," distance = ", distance(0.5) print " e_pas = ", g_pas(0.5), " resistance = ", 1/g_pas(0.5) print " driving force = ", v(0.5)-e_pas(0.5), " (negative depolarizes cell)" print " specific current = ", g_pas(0.5)*(v-e_pas(0.5)) print "H" print " ghd_hd = ",ghd_hd(0.5), " resistance = ",1/ghd_hd(0.5) print " driving force = ", v(0.5) - ehd_hd print " specific current = ",ghd_hd(0.5)*( v(0.5) - ehd_hd) print "na3" print " g_na3 = ", thegna_na3(0.5), " resistance = ", 1/thegna_na3(0.5) print " driving force = ", v-ena print " specific current = ",thegna_na3(0.5)*(v-ena) print "K currents" print "KDR" print " g_kdr = ", gkdr_kdr(0.5), " resistance = ", 1/gkdr_kdr(0.5) print " driving force = ",(v-ek), " (negative depolarizes cell)" print " specific current = ", gkdr_kdr(0.5)*(v-ek) print "A-type" }