// P6RSacell3D.p // Format of file : // x,y,z,dia are in microns, all other units are SI (Meter Kilogram Sec Amp) // In polar mode 'r' is in microns, theta and phi in degrees // Control line options start with a '*' // The format for each compartment parameter line is : //name parent r theta phi d ch dens ... //in polar mode, and in cartesian mode : //name parent x y z d ch dens ... // For channels, "dens" = maximum conductance per unit area of compartment // For spike elements, "dens" is the spike threshold // Coordinate mode *absolute *relative *cartesian *asymmetric *set_global RM 0.3333333 *set_global EREST_ACT -0.07 *set_compt_param ELEAK -0.0594 // Specifying constants *set_compt_param RM 5.0 //0.33333 *set_compt_param RA 2.50 //0.3 *set_compt_param CM 0.009 //0.01 *set_compt_param ELEAK -0.0666 // -0.068 //SOMA ************************************************************* // For the soma, use the leakage potential (-0.07 + 0.0106) for Em //*set_compt_param ELEAK -0.0594 // Actually, after Traub et al. J Neurophys 2003;89:909-921, will maintain soma none 0 0 15 16 Ca_s12 -2.58626798e15 NaF12 2000 \ NaP12 0.8 KDR12 1700 \ KA12 1190 K212 1.0 \ KM12 42 CaL12 1.0 \ CaH12 2.0 KCs12 150 \ AR12 2.5 KAHPs12 2.0 *set_compt_param RA 2.5 *set_compt_param CM 0.018 *set_compt_param ELEAK -0.0666 *set_compt_param RM 2.5 //APICAL DENDRITE COMPARTMENTS *************************************** // apdend1 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend1 soma 0 0 50 3 Ca_d12 -1.65521236e17 NaF12 3000 \ NaP12 1.2 KDR12 2400 \ KA12 2380 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apdend2 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend2 apdend1 0 0 50 2.8 Ca_d12 -1.88092836e17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 4 \ CaH12 2 KCd12 300 \ AR12 5 KAHPd12 4.0 // apdend3 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend3 apdend2 0 0 50 2.8 Ca_d12 -2.22818969E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend4 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend4 apdend3 0 0 50 2.6 Ca_d12 -2.22818969e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend5 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend5 apdend4 0 0 50 2.40 Ca_d12 -2.41385133e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend6 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend6 apdend5 0 0 50 2 Ca_d12 -3.31042301e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 40 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend7 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend7 apdend6 0 0 50 1.8 Ca_d12 -3.67824744e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 40 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend8 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend8 apdend7 0 0 50 1.6 Ca_d12 -4.1380285e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 40 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend9 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend9 apdend8 0 0 50 1.4 Ca_d12 -5.32033542e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 40 KCd12 0 \ AR12 5 KAHPd12 4.0 // apdend10 Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apdend10 apdend9 0 0 40 1.2 Ca_d12 -6.8967142e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 40 KCd12 0 \ AR12 5 KAHPd12 4.0 //APICAL OBLIQUE DENDRITE COMPARTMENTS *************************************** // apobdistRa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistRa apdend3 42.4 42.4 0 1.24 Ca_d12 -6.1180627e17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobdistRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistRb apobdistRa 42.4 42.4 0 1.24 Ca_d12 -6.1180971e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobdistRc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistRc apobdistRb 42.4 42.4 0 1.24 Ca_d12 -6.1180994e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobdistLa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistLa apdend3 -42.4 -42.4 0 1.24 Ca_d12 -6.1180627e17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobdistLb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistLb apobdistLa -42.4 -42.4 0 1.24 Ca_d12 -6.11809714e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobdistLc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobdistLc apobdistLb -42.4 -42.4 0 1.24 Ca_d12 -6.1180994e17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobmidRa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidRa apdend2 42.4 -42.4 0 1.24 Ca_d12 -6.1180483E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobmidRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidRb apobmidRa 42.4 -42.4 0 1.24 Ca_d12 -6.118106E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobmidRc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidRc apobmidRb 42.4 -42.4 0 1.24 Ca_d12 -6.1179686E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobmidLa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidLa apdend2 -42.4 42.4 0 1.24 Ca_d12 -6.1180483E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobmidLb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidLb apobmidLa -42.4 42.4 0 1.24 Ca_d12 -6.118106E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobmidLc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobmidLc apobmidLb -42.4 42.4 0 1.24 Ca_d12 -6.1179686E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobproxRa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxRa apdend1 42.4 42.4 0 1.24 Ca_d12 -6.1180297E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobproxRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxRb apobproxRa 42.4 42.4 0 1.24 Ca_d12 -6.118106E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobproxRc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxRc apobproxRb 42.4 42.4 0 1.24 Ca_d12 -6.1181232E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobproxLa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxLa apdend1 -42.4 -42.4 0 1.24 Ca_d12 -6.1180297E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // apobproxLb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxLb apobproxLa -42.4 -42.4 0 1.24 Ca_d12 -6.118106E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // apobproxLc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 apobproxLc apobproxLb -42.4 -42.4 0 1.24 Ca_d12 -6.118106E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 *set_compt_param RA 2.5 *set_compt_param CM 0.018 *set_compt_param ELEAK -0.0666 *set_compt_param RM 2.5 //BASAL DENDRITE COMPARTMENTS ************************************************ // basalLsupera Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLsupera soma -26.8 -46.4 -27.2 1.7 Ca_d12 -4.05689382E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // basalLsuperb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLsuperb basalLsupera -26.8 -46.4 -27.2 1.7 Ca_d12 -4.05691135E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalLsuperc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLsuperc basalLsuperb -26.8 -46.4 -27.2 1.7 Ca_d12 -4.05691135E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 136 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalLmida Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLmida soma -19.3 33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // basalLmidb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLmidb basalLmida -19.3 33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalLmidc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalLmidc basalLmidb -19.3 33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalRsupera Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRsupera soma 26.8 46.4 -27.2 1.7 Ca_d12 -4.05689382E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 200 \ AR12 5 KAHPd12 4.0 // basalRsuperb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRsuperb basalRsupera 26.8 46.4 -27.2 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalRsuperc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRsuperc basalRsuperb 26.8 46.4 -27.2 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalRmida Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRmida soma 19.3 -33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // basalRmidb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRmidb basalRmida 19.3 -33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basalRmidc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basalRmidc basalRmidb 19.3 -33.4 -46.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basaldeepa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basaldeepa soma 0 0 -60.0 1.7 Ca_d12 -4.05689382E17 NaF12 1500 \ NaP12 0.6 KDR12 1500 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 300 \ AR12 5 KAHPd12 4.0 // basaldeepb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basaldeepb basaldeepa 0 0 -60.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // basaldeepc Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 basaldeepc basaldeepb 0 0 -60.0 1.7 Ca_d12 -4.05689382E17 NaF12 100 \ NaP12 0.04 KDR12 0 \ KA12 272 K212 2 \ KM12 84 CaL12 2 \ CaH12 4 KCd12 0 \ AR12 5 KAHPd12 4.0 // Specifying constants for axonal compartment RMCM=0.0024 (0.0009) *set_compt_param RM 0.10 //(0.1) *set_compt_param RA 1.00 //(1.00) *set_compt_param CM 0.009 //(0.009)(0.024) *set_compt_param ELEAK -0.0666 //AXONAL COMPARTMENTS *************************************** // axona Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axona soma 0 0 -25 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1 // axonb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axonb axona 0 0 -50 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1 // axonLa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axonLa axonb -8.7 0 -49.2 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1 // axonLb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axonLb axonLa -8.7 0 -49.2 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1 // axonRa Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axonRa axonb 8.7 0 -49.2 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1 // axonRb Fig A6 Traub et al. J. Neurophysiol 2005;93:2194-2232 // Differs from Traub et al., in that axon is vertical axonRb axonRa 8.7 0 -49.2 1.8 NaF12 4500 \ KDR12 4500 \ KA12 40 K212 1