XPP model
This model was converted from XPP ode format to SBML using sbmlutils-0.1.5a6
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#### Implemented by Tim C. Whalen (tim@timcwhalen.com) Mar 2016 ### Conductance-based model of pallidostriatal microcircuit ### Connects FSI model from Golomb et al 2007, GPe model from ### Fujita 2011, and MSN model from Mahon 2000, with minor changes ### Adds GABA synapses, passive excitation (constant or oscillating, line 686) ### TO RUN: ## In control case, change last table to "conntableF2Mv3.txt" ## set DD = 0 ## In DD case, change last table to "conntableF2MDDv3.txt" ## set DD = 1 ## ## Change "v3" to v1 or v2 to use other connectivity tables ## Table files should be in XPP home directory ## In command line, execute "xppaut Corbit_2016_basic_PS.ode -silent" ## Output will be .dat file with filename specified in option at end of file ## .dat file contains one row for each timestep, with columns "t MV1..40 GV1..8 FV1..8" ## ## Note that initial conditions are set randomly near end of file where ODEs appear ### Connectivity Tables ### table con_m2m conntableM2Mv3.txt table con_g2g conntableG2Gv3.txt table con_f2f conntableF2Fv3.txt table con_m2g conntableM2Gv3.txt table con_g2f conntableG2Fv3.txt table con_f2m conntableF2Mv3.txt p DD = 0 ### Global Functions # Function for steady states - additional "min" parameter acts as partial inactivation INFF(VV,theta,sigma,minx) = minx + (1.0-minx)/(1.0+exp((theta-VV)/sigma)) ### MSN's ### ## Time constant calculations # Inc. 1/tadj_fac as necessary for current to adjust to 37 from exp. temp MTADJF(temp0) = Mq10^((Mtemp1-temp0)/10) MTAUF_OMP(V,tau0,Vtau,ktau) = tau0/(exp(-(V-Vtau)/ktau)+exp((V-Vtau)/ktau)) # Constants for temperature adjustment. Temps in C p Mq10 = 2.5 p Mtemp1 = 37 # Capacitance, uF/cm^2 p MCm = 1 ## Current values/functions ## # All currents in uA/cm^2 # conductances in mS/cm^2 # potentials in mV # time in ms # Gating IC's rounded to nearest 0.05 to steady state value at given voltage IC, except when noted ## Applied current # Values previously used for excitation; now replaced with passive channel p MIapp = 0 ## Leak Current; passive p MV_L = -90 p Mg_leak = .075 ## Na Current (exception; also no temp change) p MV_na = 55 p Mg_na = 35 p MVa_m_na = -28, MKa_m_na = 1 p MVb_m_na = -53, MKb_m_na = 18 p MVa_h_na = -51, MKa_h_na = 20 p MVb_h_na = -21, MKb_h_na = 1 p Mph_h_na = 5 Ma_m_na[1..40] = (-0.1*(MV[j]-MVa_m_na)/MKa_m_na/(exp(-0.1*(MV[j]-MVa_m_na)/MKa_m_na)-1)) Mb_m_na[1..40] = 4*exp(-(MV[j]-MVb_m_na)/MKb_m_na) Ma_h_na[1..40] = 0.07*exp(-(MV[j]-MVa_h_na)/MKa_h_na) Mb_h_na[1..40] = 1/(1+exp(-0.1*(MV[j]-MVb_h_na)/MKb_h_na)) Mm_na[1..40] = Ma_m_na[j]/(Ma_m_na[j]+Mb_m_na[j]) aux Mm_naa[1..40] = Mm_na[j] Mhnf_na[1..40] = Ma_h_na[j]/(Ma_h_na[j]+Mb_h_na[j]) Mh_na[1..40](0) = 1 Mh_na[1..40]' = Mph_h_na*(Ma_h_na[j]*(1-Mh_na[j])-Mb_h_na[j]*Mh_na[j]) ## K Current (exception; also no temp change) p MV_k = -90 p Mg_k = 6 p MVa_n_k = -27, MKa_n_k = 1 p MVb_n_k = -37, MKb_n_k = 80 p Mph_n_k = 5 Ma_n_k[1..40] = (-0.01*(MV[j]-MVa_n_k)/MKa_n_k/(exp(-0.1*(MV[j]-MVa_n_k)/MKa_n_k)-1)) Mb_n_k[1..40] = 0.125*exp(-(MV[j]-MVb_n_k)/MKb_n_k) Mnnf_k[1..40] = Ma_n_k[j]/(Ma_n_k[j]+Mb_n_k[j]) Mn_k[1..40](0) = 0 Mn_k[1..40]'=Mph_n_k*(Ma_n_k[j]*(1-Mn_k[j])-Mb_n_k[j]*Mn_k[j]) ## Kir Current p MV_kir = -90 p Mg_kir = 0.15 # activation approximately instantaneous; no temp dependence p Mth_m_kir = -100, Mk_m_kir = -10 p MT0_m_kir = .01 MT_m_kir = MT0_m_kir Mmnf_kir[1..40] = INFF(MV[j],Mth_m_kir,Mk_m_kir,0) Mm_kir[1..40](0) = 0 Mm_kir[1..40]' = (Mmnf_kir[j] - Mm_kir[j])/MT_m_kir ## Kaf Current p MV_kaf = -73 p Mg_kaf = .09 p Mtemp_kaf = 22 p Mth_m_kaf = -33.1, Mk_m_kaf = 7.5 p MT0_m_kaf = 1.0 p Mth_h_kaf = -70.4, Mk_h_kaf = -7.6 p MT0_h_kaf = 25.0 MT_m_kaf = MT0_m_kaf/MTADJF(Mtemp_kaf) Mmnf_kaf[1..40] = INFF(MV[j],Mth_m_kaf,Mk_m_kaf,0) Mm_kaf[1..40](0) = 0 Mm_kaf[1..40]' = (Mmnf_kaf[j] - Mm_kaf[j])/MT_m_kaf MT_h_kaf = MT0_h_kaf/MTADJF(Mtemp_kaf) Mhnf_kaf[1..40] = INFF(MV[j],Mth_h_kaf,Mk_h_kaf,0) Mh_kaf[1..40](0) = .73 Mh_kaf[1..40]' = (Mhnf_kaf[j] - Mh_kaf[j])/MT_h_kaf # Proportionality constant between m_Kaf ove r m_K aux MK_o_Kaf[1..40] = Mn_k[j]/Mm_Kaf[j] aux MK_m_Kaf[1..40] = Mn_k[j]-Mm_Kaf[j] ## Kas Current p MV_kas = -85 p Mg_kas = .32 p Mtemp_kas = 22 p Mth_m_kas = -25.6, Mk_m_kas = 13.3 p MT0_m_kas = 131.4 p MvT_m_kas = -37.4, MkT_m_kas = 27.3 p Mth_h_kas = -78.8, Mk_h_kas = -10.4 p MvT_h_kas = -38.2, MkT_h_kas = 28 MT_m_kas[1..40] = MTAUF_OMP(MV[j],MT0_m_kas,MvT_m_kas,MkT_m_kas)/MTADJF(Mtemp_kas) Mmnf_kas[1..40] = INFF(MV[j],Mth_m_kas,Mk_m_kas,0) Mm_kas[1..40](0) = 0 Mm_kas[1..40]' = (Mmnf_kas[j] - Mm_kas[j])/MT_m_kas[j] # exception for h_kas tau MT_h_kas[1..40] = (1790+2930*exp(-((MV[j]-MvT_h_kas)/MkT_h_kas)^2)*((MV[j]-MvT_h_kas)/MkT_h_kas))/MTADJF(Mtemp_kas) Mhnf_kas[1..40] = INFF(MV[j],Mth_h_kas,Mk_h_kas,0) # IC from Mahon code Mh_kas[1..40](0) = .46 Mh_kas[1..40]' = (Mhnf_kas[j] - Mh_kas[j])/MT_h_kas[j] ## Krp Current p MV_krp = -77.5 p Mg_krp = 0.42 p Mtemp_krp = 22 p Mth_m_krp = -13.4, Mk_m_krp = 12.1 p MT0_m_krp = 206.2 p MvT_m_krp = -53.9, MkT_m_krp = 26.5 p Mth_h_krp = -55.0, Mk_h_krp = -19.0 p MvT_h_krp = -38.2, MkT_h_krp = 28 MT_m_krp[1..40] = MTAUF_OMP(MV[j],MT0_m_krp,MvT_m_krp,MkT_m_krp)/MTADJF(Mtemp_krp) Mmnf_krp[1..40] = INFF(MV[j],Mth_m_krp,Mk_m_krp,0) Mm_krp[1..40](0) = 0 Mm_krp[1..40]' = (Mmnf_krp[j] - Mm_krp[j])/MT_m_krp[j] # exception for h_krp tau MT_h_krp[1..40] = 3*(1790+2930*exp(-((MV[j]-MvT_h_krp)/MkT_h_krp)^2)*((MV[j]-MvT_h_krp)/MkT_h_krp))/MTADJF(Mtemp_krp) Mhnf_krp[1..40] = INFF(MV[j],Mth_h_krp,Mk_h_krp,0) # IC from Mahon code Mh_krp[1..40](0) = .7647 Mh_krp[1..40]' = (Mhnf_krp[j] - Mh_krp[j])/MT_h_krp[j] ## NaP Current p MV_nap = 45 p Mg_nap = 0.02 p Mtemp_nap = 22 p Mth_m_nap = -47.8, Mk_m_nap = 3.1 p MT0_m_nap = 1.0 MT_m_nap = MT0_m_nap/MTADJF(Mtemp_nap) Mmnf_nap[1..40] = INFF(MV[j],Mth_m_nap,Mk_m_nap,0) Mm_nap[1..40](0) = 0 Mm_nap[1..40]' = (Mmnf_nap[j] - Mm_nap[j])/MT_m_nap ## NaS Current p MV_nas = 40 p Mg_nas = 0.11 p Mtemp_nas = 21 p Mth_m_nas = -16.0, Mk_m_nas = 9.4 p MT0_m_nas = 637.8 p MvT_m_nas = -33.5, MkT_m_nas = 26.3 MT_m_nas[1..40] = MTAUF_OMP(MV[j],MT0_m_nas,MvT_m_nas,MkT_m_nas)/MTADJF(Mtemp_nas) Mmnf_nas[1..40] = INFF(MV[j],Mth_m_nas,Mk_m_nas,0) Mm_nas[1..40](0) = 0 Mm_nas[1..40]' = (Mmnf_nas[j] - Mm_nas[j])/MT_m_nas[j] ### GPe Neurons ### ## Time constant calculations # sigma (Fujita) -> s GTAUF(VV,tau0,tau1,phi,s0,s1) = tau0 + (tau1-tau0)/(exp((phi-VV)/s0) + exp((phi-VV)/s1)) # For GPe NaP s gate GTAU_SF(VV,A,B,K) = (A*VV+B)/(1-exp((VV+B/A)/K)) # Capacitance, uF/cm^2 p GCm = 1 ## All currents in uA/cm^2 # Applied current # Previously used for excitation, replaced with passive channel p GIapp = 0 ## Leak Current; passive p GV_L = -60 # All conductances in mS/cm^2 p Gg_leak = .068 # Defaults: mi (min) = 0, ph (phi) = 0, s0,1 = 1 ## Na Currents p GV_Na = 50 ## NaF Current p Gg_naf = 50 p Gth_m_naf = -39, Gk_m_naf = 5.0 p GT0_m_naf = 0.028, GT1_m_naf = 0.028 p Gph_m_naf = 0, Gmi_m_naf = 0.0 p Gs0_m_naf = 1, Gs1_m_naf = 1 p Gth_h_naf = -48, Gk_h_naf = -2.8 p GT0_h_naf = 0.25, GT1_h_naf = 4.0 p Gph_h_naf = -43, Gmi_h_naf = 0.0 p Gs0_h_naf = 10, Gs1_h_naf = -5.0 p Gth_s_naf = -40, Gk_s_naf = -5.4 p GT0_s_naf = 10, GT1_s_naf = 1000 p Gph_s_naf = -40, Gmi_s_naf = 0.15 p Gs0_s_naf = 18.3, Gs1_s_naf = -10 Gmnf_naf[1..8] = INFF(GV[j],Gth_m_naf,Gk_m_naf,Gmi_m_naf) Ghnf_naf[1..8] = INFF(GV[j],Gth_h_naf,Gk_h_naf,Gmi_h_naf) Gsnf_naf[1..8] = INFF(GV[j],Gth_s_naf,Gk_s_naf,Gmi_s_naf) Gm_T_naf[1..8] = GTAUF(GV[j], GT0_m_naf, GT1_m_naf, Gph_m_naf, Gs0_m_naf, Gs1_m_naf) Gh_T_naf[1..8] = GTAUF(GV[j], GT0_h_naf, GT1_h_naf, Gph_h_naf, Gs0_h_naf, Gs1_h_naf) Gs_T_naf[1..8] = GTAUF(GV[j], GT0_s_naf, GT1_s_naf, Gph_s_naf, Gs0_s_naf, Gs1_s_naf) Gm_naf[1..8](0) = 0.02 Gh_naf[1..8](0) = 0.97 Gs_naf[1..8](0) = 0.97 Gm_naf[1..8]' = (Gmnf_naf[j] - Gm_naf[j]) / Gm_T_naf[j] Gh_naf[1..8]' = (Ghnf_naf[j] - Gh_naf[j]) / Gh_T_naf[j] Gs_naf[1..8]' = (Gsnf_naf[j] - Gs_naf[j]) / Gs_T_naf[j] ## NaP Current p Gg_nap = 0.1 p Gth_m_nap = -57.7, Gk_m_nap = 5.7 p GT0_m_nap = 0.03, GT1_m_nap = 0.146 p Gph_m_nap = -42.6, Gmi_m_nap = 0.0 p Gs0_m_nap = 14.4, Gs1_m_nap = -14.4 p Gth_h_nap = -57, Gk_h_nap = -4 p GT0_h_nap = 10, GT1_h_nap = 17 p Gph_h_nap = -34, Gmi_h_nap = 0.154 p Gs0_h_nap = 26, Gs1_h_nap = -31.9 # s gate modulated by different eq's; # REMOVED in reduced version # p Gth_s_nap = -10, Gk_s_nap = -4.9 # p Gmi_s_nap = 0 # p GAa_s_nap = -.00000288 GBa_s_nap = -.000049 # p GAb_s_nap = .00000694 GBb_s_nap = .000447 # p GKa_s_nap = 4.63 GKb_s_nap = -2.63 Gmnf_nap[1..8] = INFF(GV[j],Gth_m_nap,Gk_m_nap,Gmi_m_nap) Ghnf_nap[1..8] = INFF(GV[j],Gth_h_nap,Gk_h_nap,Gmi_h_nap) #Gsnf_nap[1..8] = INFF(GV[j],Gth_s_nap,Gk_s_nap,Gmi_s_nap) Gm_T_nap[1..8] = GTAUF(GV[j], GT0_m_nap, GT1_m_nap, Gph_m_nap, Gs0_m_nap, Gs1_m_nap) Gh_T_nap[1..8] = GTAUF(GV[j], GT0_h_nap, GT1_h_nap, Gph_h_nap, Gs0_h_nap, Gs1_h_nap) #Gs_T_nap[1..8] = 1/(GTAU_SF(GV[j],GAa_s_nap,GBa_s_nap,GKa_s_nap)+GTAU_SF(GV[j],GAb_s_nap,GBb_s_nap,GKb_s_nap)) Gm_nap[1..8](0) = .48 Gh_nap[1..8](0) = .68 #Gs_nap[1..8](0) = .39 Gm_nap[1..8]' = (Gmnf_nap[j] - Gm_nap[j]) / Gm_T_nap[j] Gh_nap[1..8]' = (Ghnf_nap[j] - Gh_nap[j]) / Gh_T_nap[j] #Gs_nap[1..8]' = (Gsnf_nap[j] - Gs_nap[j]) / Gs_T_nap[j] ## K Currents p GV_K = -90 # Kv2 Current p Gg_kv2 = 0.1 p Gth_m_kv2 = -33.2, Gk_m_kv2 = 9.1 p GT0_m_kv2 = 0.1, GT1_m_kv2 = 3.0 p Gph_m_kv2 = -33.2, Gmi_m_kv2 = 0.0 p Gs0_m_kv2 = 21.7, Gs1_m_kv2 = -13.9 p Gth_h_kv2 = -20, Gk_h_kv2 = -10 p GT0_h_kv2 = 3400, GT1_h_kv2 = 3400 p Gph_h_kv2 = 0, Gmi_h_kv2 = 0.2 p Gs0_h_kv2 = 1, Gs1_h_kv2 = 1 Gmnf_kv2[1..8] = INFF(GV[j],Gth_m_kv2,Gk_m_kv2,Gmi_m_kv2) Ghnf_kv2[1..8] = INFF(GV[j],Gth_h_kv2,Gk_h_kv2,Gmi_h_kv2) Gm_T_kv2[1..8] = GTAUF(GV[j], GT0_m_kv2, GT1_m_kv2, Gph_m_kv2, Gs0_m_kv2, Gs1_m_kv2) Gh_T_kv2[1..8] = GTAUF(GV[j], GT0_h_kv2, GT1_h_kv2, Gph_h_kv2, Gs0_h_kv2, Gs1_h_kv2) Gm_kv2[1..8](0) = 0.06 Gh_kv2[1..8](0) = 1 Gm_kv2[1..8]' = (Gmnf_kv2[j] - Gm_kv2[j]) / Gm_T_kv2[j] Gh_kv2[1..8]' = (Ghnf_kv2[j] - Gh_kv2[j]) / Gh_T_kv2[j] # Kv3 Current p Gg_kv3 = 10 p Gth_m_kv3 = -26, Gk_m_kv3 = 7.8 p GT0_m_kv3 = 0.1, GT1_m_kv3 = 14 p Gph_m_kv3 = -26, Gmi_m_kv3 = 0 p Gs0_m_kv3 = 13, Gs1_m_kv3 = -12 p Gth_h_kv3 = -20, Gk_h_kv3 = -10 p GT0_h_kv3 = 7.0, GT1_h_kv3 = 33 p Gph_h_kv3 = 0, Gmi_h_kv3 = 0.6 p Gs0_h_kv3 = 10, Gs1_h_kv3 = -10 Gmnf_kv3[1..8] = INFF(GV[j],Gth_m_kv3,Gk_m_kv3,Gmi_m_kv3) Ghnf_kv3[1..8] = INFF(GV[j],Gth_h_kv3,Gk_h_kv3,Gmi_h_kv3) Gm_T_kv3[1..8] = GTAUF(GV[j], GT0_m_kv3, GT1_m_kv3, Gph_m_kv3, Gs0_m_kv3, Gs1_m_kv3) Gh_T_kv3[1..8] = GTAUF(GV[j], GT0_h_kv3, GT1_h_kv3, Gph_h_kv3, Gs0_h_kv3, Gs1_h_kv3) Gm_kv3[1..8](0) = 0.02 Gh_kv3[1..8](0) = 0.99 Gm_kv3[1..8]' = (Gmnf_kv3[j] - Gm_kv3[j]) / Gm_T_kv3[j] Gh_kv3[1..8]' = (Ghnf_kv3[j] - Gh_kv3[j]) / Gh_T_kv3[j] # Kv4f Current # COMBINED into Kv4s in reduced version # p Gg_kvf = 2.0 # p Gth_m_kvf = -49, Gk_m_kvf = 12.5 # p GT0_m_kvf = 0.25, GT1_m_kvf = 7.0 # p Gph_m_kvf = -49, Gmi_m_kvf = 0 # p Gs0_m_kvf = 29, Gs1_m_kvf = -29 # p Gth_h_kvf = -83, Gk_h_kvf = -10 # p GT0_h_kvf = 7.0, GT1_h_kvf = 21 # p Gph_h_kvf = -83, Gmi_h_kvf = 0 # p Gs0_h_kvf = 10, Gs1_h_kvf = -10 # Gmnf_kvf[1..8] = INFF(GV[j],Gth_m_kvf,Gk_m_kvf,Gmi_m_kvf) # Ghnf_kvf[1..8] = INFF(GV[j],Gth_h_kvf,Gk_h_kvf,Gmi_h_kvf) # Gm_T_kvf[1..8] = GTAUF(GV[j], GT0_m_kvf, GT1_m_kvf, Gph_m_kvf, Gs0_m_kvf, Gs1_m_kvf) # Gh_T_kvf[1..8] = GTAUF(GV[j], GT0_h_kvf, GT1_h_kvf, Gph_h_kvf, Gs0_h_kvf, Gs1_h_kvf) # Gm_kvf[1..8](0) = .32 # Gh_kvf[1..8](0) = .08 # Gm_kvf[1..8]' = (Gmnf_kvf[j] - Gm_kvf[j]) / Gm_T_kvf[j] # Gh_kvf[1..8]' = (Ghnf_kvf[j] - Gh_kvf[j]) / Gh_T_kvf[j] # Kv4s Current (before Kv4s added, g = 1.0) p Gg_kvs = 3.0 p Gth_m_kvs = -49, Gk_m_kvs = 12.5 p GT0_m_kvs = 0.25, GT1_m_kvs = 7.0 p Gph_m_kvs = -49, Gmi_m_kvs = 0 p Gs0_m_kvs = 29, Gs1_m_kvs = -29 p Gth_h_kvs = -83, Gk_h_kvs = -10 # Combined tau's of Kv4f (7-21) and Kv4 (50-121) p GT0_h_kvs = 15, GT1_h_kvs = 100 p Gph_h_kvs = -83, Gmi_h_kvs = 0 p Gs0_h_kvs = 10, Gs1_h_kvs = -10 Gmnf_kvs[1..8] = INFF(GV[j],Gth_m_kvs,Gk_m_kvs,Gmi_m_kvs) Ghnf_kvs[1..8] = INFF(GV[j],Gth_h_kvs,Gk_h_kvs,Gmi_h_kvs) Gm_T_kvs[1..8] = GTAUF(GV[j], GT0_m_kvs, GT1_m_kvs, Gph_m_kvs, Gs0_m_kvs, Gs1_m_kvs) Gh_T_kvs[1..8] = GTAUF(GV[j], GT0_h_kvs, GT1_h_kvs, Gph_h_kvs, Gs0_h_kvs, Gs1_h_kvs) Gm_kvs[1..8](0) = .32 Gh_kvs[1..8](0) = .08 Gm_kvs[1..8]' = (Gmnf_kvs[j] - Gm_kvs[j]) / Gm_T_kvs[j] Gh_kvs[1..8]' = (Ghnf_kvs[j] - Gh_kvs[j]) / Gh_T_kvs[j] # KCNQ Current (g = .2 in Fujita, altered to better match published traces) p Gg_kv7 = 0.15 p Gth_m_kv7 = -61, Gk_m_kv7 = 19.5 p GT0_m_kv7 = 6.7, GT1_m_kv7 = 100 p Gph_m_kv7 = -61, Gmi_m_kv7 = 0 p Gs0_m_kv7 = 35, Gs1_m_kv7 = -25 Gmnf_kv7[1..8] = INFF(GV[j],Gth_m_kv7,Gk_m_kv7,Gmi_m_kv7) Gm_T_kv7[1..8] = GTAUF(GV[j], GT0_m_kv7, GT1_m_kv7, Gph_m_kv7, Gs0_m_kv7, Gs1_m_kv7) Gm_kv7[1..8](0) = .53 Gm_kv7[1..8]' = (Gmnf_kv7[j] - Gm_kv7[j]) / Gm_T_kv7[j] # HCN Current p GV_hcn = -30 p Gg_hcn = 0.1 p Gth_m_hcn = -76.4, Gk_m_hcn = -3.3 p GT0_m_hcn = 0, GT1_m_hcn = 3625 p Gph_m_hcn = -76.4, Gmi_m_hcn = 0 p Gs0_m_hcn = 6.56, Gs1_m_hcn = -7.48 Gmnf_hcn[1..8] = INFF(GV[j],Gth_m_hcn,Gk_m_hcn,Gmi_m_hcn) Gm_T_hcn[1..8] = GTAUF(GV[j], GT0_m_hcn, GT1_m_hcn, Gph_m_hcn, Gs0_m_hcn, Gs1_m_hcn) Gm_hcn[1..8](0) = 0 Gm_hcn[1..8]' = (Gmnf_hcn[j] - Gm_hcn[j]) / Gm_T_hcn[j] # CAH Current p GV_Ca = 130 p Gg_cah = 0.3 p Gth_m_cah = -20, Gk_m_cah = 7.0 p GT0_m_cah = 0.2, GT1_m_cah = 0.2 p Gph_m_cah = 0, Gmi_m_cah = 0 p Gs0_m_cah = 1, Gs1_m_cah = 1 Gmnf_cah[1..8] = INFF(GV[j],Gth_m_cah,Gk_m_cah,Gmi_m_cah) Gm_T_cah[1..8] = GTAUF(GV[j], GT0_m_cah, GT1_m_cah, Gph_m_cah, Gs0_m_cah, Gs1_m_cah) Gm_cah[1..8](0) = 0 Gm_cah[1..8]' = (Gmnf_cah[j] - Gm_cah[j]) / Gm_T_cah[j] # Current needed to calculate Ca conc. GI_cah[1..8] = (GV[j]-GV_Ca) * Gg_cah * Gm_cah[j] # Ca Conc. p's # cm^-1, surface area / volume, aka gamma p Gav = 3000 # Faraday constant s*A/mol p F = 96485 p Z = 2.0 # ms^-1 p Gk_Ca = 0.4 # All concentrations in uM p Gc_Ca0 = .01, Gc_Ca50 = 0.35 p Gc_Ca_sat = 5.0 p Hcoeff = 4.6 Gcan[1..8] = (Gc_Ca[j]/10^6)^Hcoeff !Gcan50 = (Gc_Ca50/10^6)^Hcoeff Gc_Ca[1..8](0) = .01 Gc_Ca[1..8]' = -GI_cah[j]*Gav/(Z*F) - Gk_Ca*(Gc_Ca[j] - Gc_Ca0) ## KSK Current (Ca-dependent) p Gg_ksk = 0.4 p Gm_T0_ksk = 4.0, Gm_T1_ksk = 76 Gmnf_ksk[1..8] = Gcan[j]/(Gcan[j] + Gcan50) Gm_T_ksk[1..8] = if(Gc_Ca[j]<Gc_Ca_sat) then(Gm_T1_ksk-(Gm_T1_ksk-Gm_T0_ksk)*Gc_Ca[j]/Gc_Ca_sat) else(Gm_T0_ksk) Gm_ksk[1..8](0) = 0 Gm_ksk[1..8]' = (Gmnf_ksk[j] - Gm_ksk[j]) / Gm_T_ksk[j] ### FS Interneurons ### p FC=1.0 ## Applied current # Previously used for excitaiton; now replaced with passive channel p FIapp = 0 # Golomb: 3.35 ## Leak current p FV_L = -70.0 p Fg_L = 0.25 ## Na Current p FV_Na = 50.0 p Fg_na = 112.5 p Fth_m_na = -24.0, Fk_m_na = 11.5 p Fth_h_na = -58.3, Fk_h_na = -6.7 # Theta and k for tau p FtT_h_na = -60, FkT_h_na = -12.0 FT_h_na[1..8] = 0.5+14.0*INFF(FV[j],FtT_h_na,FkT_h_na,0) Fm_na[1..8] = INFF(FV[j],Fth_m_na,Fk_m_na,0) Fhnf_na[1..8] = INFF(FV[j],Fth_h_na,Fk_h_na,0) #Fm_na = Fmnf_na Fh_na[1..8](0) = 0.8522 Fh_na[1..8]' = (Fhnf_na[j]-Fh_na[j])/FT_h_na[j] ## K Currents p FV_K=-90.0 ## Kv3 Current (delayed rectifier) p Fg_kv3 = 225.0 p Fth_n_kv3 = -12.4, Fk_n_kv3=6.8 # Theta and k for tau (a and b sets) p FtA_n_kv3 = -14.6, FkA_n_kv3 = -8.6 p FtB_n_kv3 = 1.3, FkB_n_kv3 = 18.7 FT_n_kv3[1..8] = (0.087+11.4*INFF(FV[j],FtA_n_kv3,FkA_n_kv3,0))*(0.087+11.4*INFF(FV[j],FtB_n_kv3,FkB_n_kv3,0)) Fnnf_kv3[1..8] = INFF(FV[j],Fth_n_kv3,Fk_n_kv3,0) Fn_kv3[1..8](0) = 0.000208 Fn_kv3[1..8]' = (Fnnf_kv3[j]-Fn_kv3[j])/FT_n_kv3[j] # Kv1 Current (d-type) # Conductance chosen to put cell in tonic firing mode (Golomb) p Fg_Kv1 = 0.1 p Fth_m_kv1 = -50, Fk_m_kv1 = 20 p Fth_h_kv1 = -70, Fk_h_kv1 = -6 p FT_m_kv1 = 2, FT_h_kv1 = 150, Fmnf_kv1[1..8] = INFF(FV[j],Fth_m_kv1,Fk_m_kv1,0) Fhnf_kv1[1..8] = INFF(FV[j],Fth_h_kv1,Fk_h_kv1,0) Fm_kv1[1..8](0) = 0.2686 Fh_kv1[1..8](0) = 0.5016 Fm_kv1[1..8]' = (Fmnf_kv1[j]-Fm_kv1[j])/FT_m_kv1 Fh_kv1[1..8]' = (Fhnf_kv1[j]-Fh_kv1[j])/FT_h_kv1 ### Synapses ### # Chloride reversal - condensed since all -80 p V_I = -80 # Heaviside parameters (theta, sigma) p th_Hg = -57.8, s_Hg = 2.0 # Synaptic values (functions from Terman et al. 2002) # Assume all GABA synapses have same time course as G->G # th_g's adjusted to keep s = 0 pre-spike as desired, with no side-effects # a & b in ms^-1 # From perspective of pre-synaptic cell: # Gertler 2008 p g_m2m = .14 p a_m2m = 2.0, b_m2m = .13 p th_g_m2m = 52 # Bugaysen 2013 p g_g2g = .13 p a_g2g = 2.0, b_g2g = .09 p th_g_g2g = 47 # Gittis 2010 p g_f2f = .11 p a_f2f = 2.0, b_f2f = .18 p th_g_f2f = 57 # Miguelez 2012 p g_m2g = .1 p a_m2g = 2.0, b_m2g = .09 p th_g_m2g = 57 # Corbit 2016 p g_g2f = .13 p a_g2f = 2.0, b_g2f = .09 p th_g_g2f = 47 # Gittis 2010 p g_f2m = .15 p a_f2m = 2.0, b_f2m = .1 p th_g_f2m = 57 # INFF used for smooth approximation of Heaviside s_m2m[1..40]'= a_m2m*INFF(MV[j]-th_g_m2m,th_Hg,s_Hg,0)*(1-s_m2m[j]) - b_m2m*s_m2m[j] s_g2g[1..8]' = a_g2g*INFF(GV[j]-th_g_g2g,th_Hg,s_Hg,0)*(1-s_g2g[j]) - b_g2g*s_g2g[j] s_f2f[1..8]' = a_f2f*INFF(FV[j]-th_g_f2f,th_Hg,s_Hg,0)*(1-s_f2f[j]) - b_f2f*s_f2f[j] s_m2g[1..40]'= a_m2g*INFF(MV[j]-th_g_m2g,th_Hg,s_Hg,0)*(1-s_m2g[j]) - b_m2g*s_m2g[j] s_g2f[1..8]' = a_g2f*INFF(GV[j]-th_g_g2f,th_Hg,s_Hg,0)*(1-s_g2f[j]) - b_g2f*s_g2f[j] s_f2m[1..8]' = a_f2m*INFF(FV[j]-th_g_f2m,th_Hg,s_Hg,0)*(1-s_f2m[j]) - b_f2m*s_f2m[j] ## Connectivity # From perspective of postsynaptic cell, summing synapses from tables at top i_m2m[1..40]=g_m2m*(MV[j]-V_I)*(sum(0,13)of(shift(s_m2m1,con_m2m(14*([j]-1)+i')-1))) aux i_m2ma[1..40] = i_m2m[j] i_g2g[1..8]=g_g2g*(GV[j]-V_I)*(sum(0,1)of(shift(s_g2g1,con_g2g(2*([j]-1)+i')-1))) aux i_g2ga[1..8] = i_g2g[j] i_f2f[1..8]=g_f2f*(FV[j]-V_I)*(sum(0,4)of(shift(s_f2f1,con_f2f(5*([j]-1)+i')-1))) aux i_f2fa[1..8] = i_f2f[j] i_m2g[1..8]=g_m2g*(GV[j]-V_I)*(sum(0,14)of(shift(s_m2g1,con_m2g(15*([j]-1)+i')-1))) aux i_m2ga[1..8] = i_m2g[j] i_g2f[1..8]=g_g2f*(FV[j]-V_I)*(sum(0,2)of(shift(s_g2f1,con_g2f(3*([j]-1)+i')-1))) aux i_g2fa[1..8] = i_g2f[j] i_f2m[1..40]=g_f2m*(MV[j]-V_I)*(sum(0,3*DD+2)of(shift(s_f2m1,con_f2m(3*(DD+1)*([j]-1)+i')-1))) aux i_f2ma[1..40] = i_f2m[j] ### Excitatory Input ### # x indicates excitatory (cortical or STN) p V_X = 0 ### Passive excitation ## Constant !g_x2m = .066*(DD==0) + .083*(DD==1) p g_x2g = 0.02 p g_x2f = .095 ### Spike counters (cumulative) p Mspks[1..40] = 0 global 1 MV[1..40] {Mspks[j] = Mspks[j]+1} aux Mspksa[1..40] = Mspks[j] p Gspks[1..8] = 0 global 1 GV[1..8] {Gspks[j] = Gspks[j]+1} aux Gspksa[1..8] = Gspks[j] p Fspks[1..8] = 0 global 1 FV[1..8] {Fspks[j] = Fspks[j]+1} aux Fspksa[1..8] = Fspks[j] ### Population spike counters (cumulative) aux Mprate = sum(0,39)of(shift(Mspks1,i'))/40 aux Gprate = sum(0,7)of(shift(Gspks1,i'))/8 aux Fprate = sum(0,7)of(shift(Fspks1,i'))/8 ### Membrane Potentials ### MV[1..40](0)=ran(40)-80 MV[1..40]'=1/MCm*(MIapp \ -(MV[j]-MV_L) * Mg_leak \ -(MV[j]-MV_na) * Mg_na * Mm_na[j]^3 * Mh_na[j] \ -(MV[j]-MV_k) * Mg_k * Mn_k[j]^4 \ -(MV[j]-MV_kir) * Mg_kir * Mm_kir[j] \ -(MV[j]-MV_kaf) * Mg_kaf * Mm_kaf[j] * Mh_kaf[j] \ -(MV[j]-MV_kas) * Mg_kas * Mm_kas[j] * Mh_kas[j] \ -(MV[j]-MV_krp) * Mg_krp * Mm_krp[j] * Mh_krp[j] \ -(MV[j]-MV_nap) * Mg_nap * Mm_nap[j] \ -(MV[j]-MV_nas) * Mg_nas * Mm_nas[j] \ -i_m2m[j] \ -i_f2m[j] \ -(MV[j]-V_X) * g_x2m) GV[1..8](0)=ran(40)-80 GV[1..8]'= 1/GCm* (GIapp \ -(GV[j]-GV_L) * Gg_leak \ -(GV[j]-GV_Na) * Gg_naf * Gm_naf[j]^3 * Gh_naf[j] * Gs_naf[j] \ -(GV[j]-GV_Na) * Gg_nap * Gm_nap[j]^3 * Gh_nap[j] \ -(GV[j]-GV_K) * Gg_kv2 * Gm_kv2[j]^4 * Gh_kv2[j] \ -(GV[j]-GV_K) * Gg_kv3 * Gm_kv3[j]^4 * Gh_kv3[j] \ -(GV[j]-GV_K) * Gg_kvs * Gm_kvs[j]^4 * Gh_kvs[j] \ -(GV[j]-GV_K) * Gg_kv7 * Gm_kv7[j]^4 \ -(GV[j]-GV_hcn)* Gg_hcn * Gm_hcn[j] \ -GI_cah[j] \ -(GV[j]-GV_K) * Gg_ksk * Gm_ksk[j] \ -i_g2g[j] \ -i_m2g[j] \ -(GV[j]-V_X) * g_x2g) FV[1..8](0)=ran(40)-80 FV[1..8]' = 1/FC * (FIapp \ -(FV[j]-FV_L) * Fg_L \ -(FV[j]-FV_Na) * Fg_Na * Fm_na[j]^3 * Fh_na[j] \ -(FV[j]-FV_K) * Fg_Kv3 * Fn_kv3[j]^2 \ -(FV[j]-FV_k) * Fg_kv1 * Fm_kv1[j]^3 * Fh_kv1[j] \ -i_f2f[j] \ -i_g2f[j] \ -(FV[j]-V_X) * g_x2f) # Add more desired output variables here only t only MV[1..40] only GV[1..8] only FV[1..8] # XPP options for command line run @ OUTPUT=tcw031016_basic_all_9_cont_tab3.dat @ TOTAL=2000 @ BOUND=10000 @ METH=qualrk @ MAXSTOR=100000 @ TRANS=0 @ DT=.1000 @ XP=t,YP=MV1,XLO=0,XHI=2000,YLO=-80,YHI=20
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Copyright © 2017 Matthias Koenig
Redistribution and use of any part of this model, with or without modification, are permitted provided that the following conditions are met:
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Model :
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type | FunctionDefinitions [9] | name | math | sbo | cvterm |
---|---|---|---|---|---|
FunctionDefinition | max
|
minimum | |||
FunctionDefinition | min
|
maximum | |||
FunctionDefinition | heav
|
heavyside | |||
FunctionDefinition | mod
|
modulo | |||
FunctionDefinition | inff
|
||||
FunctionDefinition | mtadjf
|
||||
FunctionDefinition | mtauf_omp
|
||||
FunctionDefinition | gtauf
|
||||
FunctionDefinition | gtau_sf
|
type | Parameters [443] | name | constant | value | unit | derived unit | sbo | cvterm |
---|---|---|---|---|---|---|---|---|
Parameter | dd
|
dd = 0 | F | 0.0 | None | |||
Parameter | mq10
|
mq10 = 2.5 | F | 2.5 | None | |||
Parameter | mtemp1
|
mtemp1 = 37 | F | 37.0 | None | |||
Parameter | mcm
|
mcm = 1 | F | 1.0 | None | |||
Parameter | miapp
|
miapp = 0 | F | 0.0 | None | |||
Parameter | mv_l
|
mv_l = -90 | F | -90.0 | None | |||
Parameter | mg_leak
|
mg_leak = .075 | F | 0.075 | None | |||
Parameter | mv_na
|
mv_na = 55 | F | 55.0 | None | |||
Parameter | mg_na
|
mg_na = 35 | F | 35.0 | None | |||
Parameter | mva_m_na
|
mva_m_na = -28 | F | -28.0 | None | |||
Parameter | mka_m_na
|
mka_m_na = 1 | F | 1.0 | None | |||
Parameter | mvb_m_na
|
mvb_m_na = -53 | F | -53.0 | None | |||
Parameter | mkb_m_na
|
mkb_m_na = 18 | F | 18.0 | None | |||
Parameter | mva_h_na
|
mva_h_na = -51 | F | -51.0 | None | |||
Parameter | mka_h_na
|
mka_h_na = 20 | F | 20.0 | None | |||
Parameter | mvb_h_na
|
mvb_h_na = -21 | F | -21.0 | None | |||
Parameter | mkb_h_na
|
mkb_h_na = 1 | F | 1.0 | None | |||
Parameter | mph_h_na
|
mph_h_na = 5 | F | 5.0 | None | |||
Parameter | mh_na[1..40] = 1 | F | 1.0 | None | ||||
Parameter | mv_k
|
mv_k = -90 | F | -90.0 | None | |||
Parameter | mg_k
|
mg_k = 6 | F | 6.0 | None | |||
Parameter | mva_n_k
|
mva_n_k = -27 | F | -27.0 | None | |||
Parameter | mka_n_k
|
mka_n_k = 1 | F | 1.0 | None | |||
Parameter | mvb_n_k
|
mvb_n_k = -37 | F | -37.0 | None | |||
Parameter | mkb_n_k
|
mkb_n_k = 80 | F | 80.0 | None | |||
Parameter | mph_n_k
|
mph_n_k = 5 | F | 5.0 | None | |||
Parameter | mn_k[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mv_kir
|
mv_kir = -90 | F | -90.0 | None | |||
Parameter | mg_kir
|
mg_kir = 0.15 | F | 0.15 | None | |||
Parameter | mth_m_kir
|
mth_m_kir = -100 | F | -100.0 | None | |||
Parameter | mk_m_kir
|
mk_m_kir = -10 | F | -10.0 | None | |||
Parameter | mt0_m_kir
|
mt0_m_kir = .01 | F | 0.01 | None | |||
Parameter | mm_kir[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mv_kaf
|
mv_kaf = -73 | F | -73.0 | None | |||
Parameter | mg_kaf
|
mg_kaf = .09 | F | 0.09 | None | |||
Parameter | mtemp_kaf
|
mtemp_kaf = 22 | F | 22.0 | None | |||
Parameter | mth_m_kaf
|
mth_m_kaf = -33.1 | F | -33.1 | None | |||
Parameter | mk_m_kaf
|
mk_m_kaf = 7.5 | F | 7.5 | None | |||
Parameter | mt0_m_kaf
|
mt0_m_kaf = 1.0 | F | 1.0 | None | |||
Parameter | mth_h_kaf
|
mth_h_kaf = -70.4 | F | -70.4 | None | |||
Parameter | mk_h_kaf
|
mk_h_kaf = -7.6 | F | -7.6 | None | |||
Parameter | mt0_h_kaf
|
mt0_h_kaf = 25.0 | F | 25.0 | None | |||
Parameter | mm_kaf[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mh_kaf[1..40] = .73 | F | 0.73 | None | ||||
Parameter | mv_kas
|
mv_kas = -85 | F | -85.0 | None | |||
Parameter | mg_kas
|
mg_kas = .32 | F | 0.32 | None | |||
Parameter | mtemp_kas
|
mtemp_kas = 22 | F | 22.0 | None | |||
Parameter | mth_m_kas
|
mth_m_kas = -25.6 | F | -25.6 | None | |||
Parameter | mk_m_kas
|
mk_m_kas = 13.3 | F | 13.3 | None | |||
Parameter | mt0_m_kas
|
mt0_m_kas = 131.4 | F | 131.4 | None | |||
Parameter | mvt_m_kas
|
mvt_m_kas = -37.4 | F | -37.4 | None | |||
Parameter | mkt_m_kas
|
mkt_m_kas = 27.3 | F | 27.3 | None | |||
Parameter | mth_h_kas
|
mth_h_kas = -78.8 | F | -78.8 | None | |||
Parameter | mk_h_kas
|
mk_h_kas = -10.4 | F | -10.4 | None | |||
Parameter | mvt_h_kas
|
mvt_h_kas = -38.2 | F | -38.2 | None | |||
Parameter | mkt_h_kas
|
mkt_h_kas = 28 | F | 28.0 | None | |||
Parameter | mm_kas[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mh_kas[1..40] = .46 | F | 0.46 | None | ||||
Parameter | mv_krp
|
mv_krp = -77.5 | F | -77.5 | None | |||
Parameter | mg_krp
|
mg_krp = 0.42 | F | 0.42 | None | |||
Parameter | mtemp_krp
|
mtemp_krp = 22 | F | 22.0 | None | |||
Parameter | mth_m_krp
|
mth_m_krp = -13.4 | F | -13.4 | None | |||
Parameter | mk_m_krp
|
mk_m_krp = 12.1 | F | 12.1 | None | |||
Parameter | mt0_m_krp
|
mt0_m_krp = 206.2 | F | 206.2 | None | |||
Parameter | mvt_m_krp
|
mvt_m_krp = -53.9 | F | -53.9 | None | |||
Parameter | mkt_m_krp
|
mkt_m_krp = 26.5 | F | 26.5 | None | |||
Parameter | mth_h_krp
|
mth_h_krp = -55.0 | F | -55.0 | None | |||
Parameter | mk_h_krp
|
mk_h_krp = -19.0 | F | -19.0 | None | |||
Parameter | mvt_h_krp
|
mvt_h_krp = -38.2 | F | -38.2 | None | |||
Parameter | mkt_h_krp
|
mkt_h_krp = 28 | F | 28.0 | None | |||
Parameter | mm_krp[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mh_krp[1..40] = .7647 | F | 0.7647 | None | ||||
Parameter | mv_nap
|
mv_nap = 45 | F | 45.0 | None | |||
Parameter | mg_nap
|
mg_nap = 0.02 | F | 0.02 | None | |||
Parameter | mtemp_nap
|
mtemp_nap = 22 | F | 22.0 | None | |||
Parameter | mth_m_nap
|
mth_m_nap = -47.8 | F | -47.8 | None | |||
Parameter | mk_m_nap
|
mk_m_nap = 3.1 | F | 3.1 | None | |||
Parameter | mt0_m_nap
|
mt0_m_nap = 1.0 | F | 1.0 | None | |||
Parameter | mm_nap[1..40] = 0 | F | 0.0 | None | ||||
Parameter | mv_nas
|
mv_nas = 40 | F | 40.0 | None | |||
Parameter | mg_nas
|
mg_nas = 0.11 | F | 0.11 | None | |||
Parameter | mtemp_nas
|
mtemp_nas = 21 | F | 21.0 | None | |||
Parameter | mth_m_nas
|
mth_m_nas = -16.0 | F | -16.0 | None | |||
Parameter | mk_m_nas
|
mk_m_nas = 9.4 | F | 9.4 | None | |||
Parameter | mt0_m_nas
|
mt0_m_nas = 637.8 | F | 637.8 | None | |||
Parameter | mvt_m_nas
|
mvt_m_nas = -33.5 | F | -33.5 | None | |||
Parameter | mkt_m_nas
|
mkt_m_nas = 26.3 | F | 26.3 | None | |||
Parameter | mm_nas[1..40] = 0 | F | 0.0 | None | ||||
Parameter | gcm
|
gcm = 1 | F | 1.0 | None | |||
Parameter | giapp
|
giapp = 0 | F | 0.0 | None | |||
Parameter | gv_l
|
gv_l = -60 | F | -60.0 | None | |||
Parameter | gg_leak
|
gg_leak = .068 | F | 0.068 | None | |||
Parameter | gv_na
|
gv_na = 50 | F | 50.0 | None | |||
Parameter | gg_naf
|
gg_naf = 50 | F | 50.0 | None | |||
Parameter | gth_m_naf
|
gth_m_naf = -39 | F | -39.0 | None | |||
Parameter | gk_m_naf
|
gk_m_naf = 5.0 | F | 5.0 | None | |||
Parameter | gt0_m_naf
|
gt0_m_naf = 0.028 | F | 0.028 | None | |||
Parameter | gt1_m_naf
|
gt1_m_naf = 0.028 | F | 0.028 | None | |||
Parameter | gph_m_naf
|
gph_m_naf = 0 | F | 0.0 | None | |||
Parameter | gmi_m_naf
|
gmi_m_naf = 0.0 | F | 0.0 | None | |||
Parameter | gs0_m_naf
|
gs0_m_naf = 1 | F | 1.0 | None | |||
Parameter | gs1_m_naf
|
gs1_m_naf = 1 | F | 1.0 | None | |||
Parameter | gth_h_naf
|
gth_h_naf = -48 | F | -48.0 | None | |||
Parameter | gk_h_naf
|
gk_h_naf = -2.8 | F | -2.8 | None | |||
Parameter | gt0_h_naf
|
gt0_h_naf = 0.25 | F | 0.25 | None | |||
Parameter | gt1_h_naf
|
gt1_h_naf = 4.0 | F | 4.0 | None | |||
Parameter | gph_h_naf
|
gph_h_naf = -43 | F | -43.0 | None | |||
Parameter | gmi_h_naf
|
gmi_h_naf = 0.0 | F | 0.0 | None | |||
Parameter | gs0_h_naf
|
gs0_h_naf = 10 | F | 10.0 | None | |||
Parameter | gs1_h_naf
|
gs1_h_naf = -5.0 | F | -5.0 | None | |||
Parameter | gth_s_naf
|
gth_s_naf = -40 | F | -40.0 | None | |||
Parameter | gk_s_naf
|
gk_s_naf = -5.4 | F | -5.4 | None | |||
Parameter | gt0_s_naf
|
gt0_s_naf = 10 | F | 10.0 | None | |||
Parameter | gt1_s_naf
|
gt1_s_naf = 1000 | F | 1000.0 | None | |||
Parameter | gph_s_naf
|
gph_s_naf = -40 | F | -40.0 | None | |||
Parameter | gmi_s_naf
|
gmi_s_naf = 0.15 | F | 0.15 | None | |||
Parameter | gs0_s_naf
|
gs0_s_naf = 18.3 | F | 18.3 | None | |||
Parameter | gs1_s_naf
|
gs1_s_naf = -10 | F | -10.0 | None | |||
Parameter | gm_naf[1..8] = 0.02 | F | 0.02 | None | ||||
Parameter | gh_naf[1..8] = 0.97 | F | 0.97 | None | ||||
Parameter | gs_naf[1..8] = 0.97 | F | 0.97 | None | ||||
Parameter | gg_nap
|
gg_nap = 0.1 | F | 0.1 | None | |||
Parameter | gth_m_nap
|
gth_m_nap = -57.7 | F | -57.7 | None | |||
Parameter | gk_m_nap
|
gk_m_nap = 5.7 | F | 5.7 | None | |||
Parameter | gt0_m_nap
|
gt0_m_nap = 0.03 | F | 0.03 | None | |||
Parameter | gt1_m_nap
|
gt1_m_nap = 0.146 | F | 0.146 | None | |||
Parameter | gph_m_nap
|
gph_m_nap = -42.6 | F | -42.6 | None | |||
Parameter | gmi_m_nap
|
gmi_m_nap = 0.0 | F | 0.0 | None | |||
Parameter | gs0_m_nap
|
gs0_m_nap = 14.4 | F | 14.4 | None | |||
Parameter | gs1_m_nap
|
gs1_m_nap = -14.4 | F | -14.4 | None | |||
Parameter | gth_h_nap
|
gth_h_nap = -57 | F | -57.0 | None | |||
Parameter | gk_h_nap
|
gk_h_nap = -4 | F | -4.0 | None | |||
Parameter | gt0_h_nap
|
gt0_h_nap = 10 | F | 10.0 | None | |||
Parameter | gt1_h_nap
|
gt1_h_nap = 17 | F | 17.0 | None | |||
Parameter | gph_h_nap
|
gph_h_nap = -34 | F | -34.0 | None | |||
Parameter | gmi_h_nap
|
gmi_h_nap = 0.154 | F | 0.154 | None | |||
Parameter | gs0_h_nap
|
gs0_h_nap = 26 | F | 26.0 | None | |||
Parameter | gs1_h_nap
|
gs1_h_nap = -31.9 | F | -31.9 | None | |||
Parameter | gm_nap[1..8] = .48 | F | 0.48 | None | ||||
Parameter | gh_nap[1..8] = .68 | F | 0.68 | None | ||||
Parameter | gv_k
|
gv_k = -90 | F | -90.0 | None | |||
Parameter | gg_kv2
|
gg_kv2 = 0.1 | F | 0.1 | None | |||
Parameter | gth_m_kv2
|
gth_m_kv2 = -33.2 | F | -33.2 | None | |||
Parameter | gk_m_kv2
|
gk_m_kv2 = 9.1 | F | 9.1 | None | |||
Parameter | gt0_m_kv2
|
gt0_m_kv2 = 0.1 | F | 0.1 | None | |||
Parameter | gt1_m_kv2
|
gt1_m_kv2 = 3.0 | F | 3.0 | None | |||
Parameter | gph_m_kv2
|
gph_m_kv2 = -33.2 | F | -33.2 | None | |||
Parameter | gmi_m_kv2
|
gmi_m_kv2 = 0.0 | F | 0.0 | None | |||
Parameter | gs0_m_kv2
|
gs0_m_kv2 = 21.7 | F | 21.7 | None | |||
Parameter | gs1_m_kv2
|
gs1_m_kv2 = -13.9 | F | -13.9 | None | |||
Parameter | gth_h_kv2
|
gth_h_kv2 = -20 | F | -20.0 | None | |||
Parameter | gk_h_kv2
|
gk_h_kv2 = -10 | F | -10.0 | None | |||
Parameter | gt0_h_kv2
|
gt0_h_kv2 = 3400 | F | 3400.0 | None | |||
Parameter | gt1_h_kv2
|
gt1_h_kv2 = 3400 | F | 3400.0 | None | |||
Parameter | gph_h_kv2
|
gph_h_kv2 = 0 | F | 0.0 | None | |||
Parameter | gmi_h_kv2
|
gmi_h_kv2 = 0.2 | F | 0.2 | None | |||
Parameter | gs0_h_kv2
|
gs0_h_kv2 = 1 | F | 1.0 | None | |||
Parameter | gs1_h_kv2
|
gs1_h_kv2 = 1 | F | 1.0 | None | |||
Parameter | gm_kv2[1..8] = 0.06 | F | 0.06 | None | ||||
Parameter | gh_kv2[1..8] = 1 | F | 1.0 | None | ||||
Parameter | gg_kv3
|
gg_kv3 = 10 | F | 10.0 | None | |||
Parameter | gth_m_kv3
|
gth_m_kv3 = -26 | F | -26.0 | None | |||
Parameter | gk_m_kv3
|
gk_m_kv3 = 7.8 | F | 7.8 | None | |||
Parameter | gt0_m_kv3
|
gt0_m_kv3 = 0.1 | F | 0.1 | None | |||
Parameter | gt1_m_kv3
|
gt1_m_kv3 = 14 | F | 14.0 | None | |||
Parameter | gph_m_kv3
|
gph_m_kv3 = -26 | F | -26.0 | None | |||
Parameter | gmi_m_kv3
|
gmi_m_kv3 = 0 | F | 0.0 | None | |||
Parameter | gs0_m_kv3
|
gs0_m_kv3 = 13 | F | 13.0 | None | |||
Parameter | gs1_m_kv3
|
gs1_m_kv3 = -12 | F | -12.0 | None | |||
Parameter | gth_h_kv3
|
gth_h_kv3 = -20 | F | -20.0 | None | |||
Parameter | gk_h_kv3
|
gk_h_kv3 = -10 | F | -10.0 | None | |||
Parameter | gt0_h_kv3
|
gt0_h_kv3 = 7.0 | F | 7.0 | None | |||
Parameter | gt1_h_kv3
|
gt1_h_kv3 = 33 | F | 33.0 | None | |||
Parameter | gph_h_kv3
|
gph_h_kv3 = 0 | F | 0.0 | None | |||
Parameter | gmi_h_kv3
|
gmi_h_kv3 = 0.6 | F | 0.6 | None | |||
Parameter | gs0_h_kv3
|
gs0_h_kv3 = 10 | F | 10.0 | None | |||
Parameter | gs1_h_kv3
|
gs1_h_kv3 = -10 | F | -10.0 | None | |||
Parameter | gm_kv3[1..8] = 0.02 | F | 0.02 | None | ||||
Parameter | gh_kv3[1..8] = 0.99 | F | 0.99 | None | ||||
Parameter | gg_kvs
|
gg_kvs = 3.0 | F | 3.0 | None | |||
Parameter | gth_m_kvs
|
gth_m_kvs = -49 | F | -49.0 | None | |||
Parameter | gk_m_kvs
|
gk_m_kvs = 12.5 | F | 12.5 | None | |||
Parameter | gt0_m_kvs
|
gt0_m_kvs = 0.25 | F | 0.25 | None | |||
Parameter | gt1_m_kvs
|
gt1_m_kvs = 7.0 | F | 7.0 | None | |||
Parameter | gph_m_kvs
|
gph_m_kvs = -49 | F | -49.0 | None | |||
Parameter | gmi_m_kvs
|
gmi_m_kvs = 0 | F | 0.0 | None | |||
Parameter | gs0_m_kvs
|
gs0_m_kvs = 29 | F | 29.0 | None | |||
Parameter | gs1_m_kvs
|
gs1_m_kvs = -29 | F | -29.0 | None | |||
Parameter | gth_h_kvs
|
gth_h_kvs = -83 | F | -83.0 | None | |||
Parameter | gk_h_kvs
|
gk_h_kvs = -10 | F | -10.0 | None | |||
Parameter | gt0_h_kvs
|
gt0_h_kvs = 15 | F | 15.0 | None | |||
Parameter | gt1_h_kvs
|
gt1_h_kvs = 100 | F | 100.0 | None | |||
Parameter | gph_h_kvs
|
gph_h_kvs = -83 | F | -83.0 | None | |||
Parameter | gmi_h_kvs
|
gmi_h_kvs = 0 | F | 0.0 | None | |||
Parameter | gs0_h_kvs
|
gs0_h_kvs = 10 | F | 10.0 | None | |||
Parameter | gs1_h_kvs
|
gs1_h_kvs = -10 | F | -10.0 | None | |||
Parameter | gm_kvs[1..8] = .32 | F | 0.32 | None | ||||
Parameter | gh_kvs[1..8] = .08 | F | 0.08 | None | ||||
Parameter | gg_kv7
|
gg_kv7 = 0.15 | F | 0.15 | None | |||
Parameter | gth_m_kv7
|
gth_m_kv7 = -61 | F | -61.0 | None | |||
Parameter | gk_m_kv7
|
gk_m_kv7 = 19.5 | F | 19.5 | None | |||
Parameter | gt0_m_kv7
|
gt0_m_kv7 = 6.7 | F | 6.7 | None | |||
Parameter | gt1_m_kv7
|
gt1_m_kv7 = 100 | F | 100.0 | None | |||
Parameter | gph_m_kv7
|
gph_m_kv7 = -61 | F | -61.0 | None | |||
Parameter | gmi_m_kv7
|
gmi_m_kv7 = 0 | F | 0.0 | None | |||
Parameter | gs0_m_kv7
|
gs0_m_kv7 = 35 | F | 35.0 | None | |||
Parameter | gs1_m_kv7
|
gs1_m_kv7 = -25 | F | -25.0 | None | |||
Parameter | gm_kv7[1..8] = .53 | F | 0.53 | None | ||||
Parameter | gv_hcn
|
gv_hcn = -30 | F | -30.0 | None | |||
Parameter | gg_hcn
|
gg_hcn = 0.1 | F | 0.1 | None | |||
Parameter | gth_m_hcn
|
gth_m_hcn = -76.4 | F | -76.4 | None | |||
Parameter | gk_m_hcn
|
gk_m_hcn = -3.3 | F | -3.3 | None | |||
Parameter | gt0_m_hcn
|
gt0_m_hcn = 0 | F | 0.0 | None | |||
Parameter | gt1_m_hcn
|
gt1_m_hcn = 3625 | F | 3625.0 | None | |||
Parameter | gph_m_hcn
|
gph_m_hcn = -76.4 | F | -76.4 | None | |||
Parameter | gmi_m_hcn
|
gmi_m_hcn = 0 | F | 0.0 | None | |||
Parameter | gs0_m_hcn
|
gs0_m_hcn = 6.56 | F | 6.56 | None | |||
Parameter | gs1_m_hcn
|
gs1_m_hcn = -7.48 | F | -7.48 | None | |||
Parameter | gm_hcn[1..8] = 0 | F | 0.0 | None | ||||
Parameter | gv_ca
|
gv_ca = 130 | F | 130.0 | None | |||
Parameter | gg_cah
|
gg_cah = 0.3 | F | 0.3 | None | |||
Parameter | gth_m_cah
|
gth_m_cah = -20 | F | -20.0 | None | |||
Parameter | gk_m_cah
|
gk_m_cah = 7.0 | F | 7.0 | None | |||
Parameter | gt0_m_cah
|
gt0_m_cah = 0.2 | F | 0.2 | None | |||
Parameter | gt1_m_cah
|
gt1_m_cah = 0.2 | F | 0.2 | None | |||
Parameter | gph_m_cah
|
gph_m_cah = 0 | F | 0.0 | None | |||
Parameter | gmi_m_cah
|
gmi_m_cah = 0 | F | 0.0 | None | |||
Parameter | gs0_m_cah
|
gs0_m_cah = 1 | F | 1.0 | None | |||
Parameter | gs1_m_cah
|
gs1_m_cah = 1 | F | 1.0 | None | |||
Parameter | gm_cah[1..8] = 0 | F | 0.0 | None | ||||
Parameter | gav
|
gav = 3000 | F | 3000.0 | None | |||
Parameter | f
|
f = 96485 | F | 96485.0 | None | |||
Parameter | z
|
z = 2.0 | F | 2.0 | None | |||
Parameter | gk_ca
|
gk_ca = 0.4 | F | 0.4 | None | |||
Parameter | gc_ca0
|
gc_ca0 = .01 | F | 0.01 | None | |||
Parameter | gc_ca50
|
gc_ca50 = 0.35 | F | 0.35 | None | |||
Parameter | gc_ca_sat
|
gc_ca_sat = 5.0 | F | 5.0 | None | |||
Parameter | hcoeff
|
hcoeff = 4.6 | F | 4.6 | None | |||
Parameter | gc_ca[1..8] = .01 | F | 0.01 | None | ||||
Parameter | gg_ksk
|
gg_ksk = 0.4 | F | 0.4 | None | |||
Parameter | gm_t0_ksk
|
gm_t0_ksk = 4.0 | F | 4.0 | None | |||
Parameter | gm_t1_ksk
|
gm_t1_ksk = 76 | F | 76.0 | None | |||
Parameter | gm_ksk[1..8] = 0 | F | 0.0 | None | ||||
Parameter | fc
|
fc = 1.0 | F | 1.0 | None | |||
Parameter | fiapp
|
fiapp = 0 | F | 0.0 | None | |||
Parameter | fv_l
|
fv_l = -70.0 | F | -70.0 | None | |||
Parameter | fg_l
|
fg_l = 0.25 | F | 0.25 | None | |||
Parameter | fv_na
|
fv_na = 50.0 | F | 50.0 | None | |||
Parameter | fg_na
|
fg_na = 112.5 | F | 112.5 | None | |||
Parameter | fth_m_na
|
fth_m_na = -24.0 | F | -24.0 | None | |||
Parameter | fk_m_na
|
fk_m_na = 11.5 | F | 11.5 | None | |||
Parameter | fth_h_na
|
fth_h_na = -58.3 | F | -58.3 | None | |||
Parameter | fk_h_na
|
fk_h_na = -6.7 | F | -6.7 | None | |||
Parameter | ftt_h_na
|
ftt_h_na = -60 | F | -60.0 | None | |||
Parameter | fkt_h_na
|
fkt_h_na = -12.0 | F | -12.0 | None | |||
Parameter | fh_na[1..8] = 0.8522 | F | 0.8522 | None | ||||
Parameter | fv_k
|
fv_k = -90.0 | F | -90.0 | None | |||
Parameter | fg_kv3
|
fg_kv3 = 225.0 | F | 225.0 | None | |||
Parameter | fth_n_kv3
|
fth_n_kv3 = -12.4 | F | -12.4 | None | |||
Parameter | fk_n_kv3
|
fk_n_kv3 = 6.8 | F | 6.8 | None | |||
Parameter | fta_n_kv3
|
fta_n_kv3 = -14.6 | F | -14.6 | None | |||
Parameter | fka_n_kv3
|
fka_n_kv3 = -8.6 | F | -8.6 | None | |||
Parameter | ftb_n_kv3
|
ftb_n_kv3 = 1.3 | F | 1.3 | None | |||
Parameter | fkb_n_kv3
|
fkb_n_kv3 = 18.7 | F | 18.7 | None | |||
Parameter | fn_kv3[1..8] = 0.000208 | F | 0.000208 | None | ||||
Parameter | fg_kv1
|
fg_kv1 = 0.1 | F | 0.1 | None | |||
Parameter | fth_m_kv1
|
fth_m_kv1 = -50 | F | -50.0 | None | |||
Parameter | fk_m_kv1
|
fk_m_kv1 = 20 | F | 20.0 | None | |||
Parameter | fth_h_kv1
|
fth_h_kv1 = -70 | F | -70.0 | None | |||
Parameter | fk_h_kv1
|
fk_h_kv1 = -6 | F | -6.0 | None | |||
Parameter | ft_m_kv1
|
ft_m_kv1 = 2 | F | 2.0 | None | |||
Parameter | ft_h_kv1
|
ft_h_kv1 = 150 | F | 150.0 | None | |||
Parameter | fm_kv1[1..8] = 0.2686 | F | 0.2686 | None | ||||
Parameter | fh_kv1[1..8] = 0.5016 | F | 0.5016 | None | ||||
Parameter | v_i
|
v_i = -80 | F | -80.0 | None | |||
Parameter | th_hg
|
th_hg = -57.8 | F | -57.8 | None | |||
Parameter | s_hg
|
s_hg = 2.0 | F | 2.0 | None | |||
Parameter | g_m2m
|
g_m2m = .14 | F | 0.14 | None | |||
Parameter | a_m2m
|
a_m2m = 2.0 | F | 2.0 | None | |||
Parameter | b_m2m
|
b_m2m = .13 | F | 0.13 | None | |||
Parameter | th_g_m2m
|
th_g_m2m = 52 | F | 52.0 | None | |||
Parameter | g_g2g
|
g_g2g = .13 | F | 0.13 | None | |||
Parameter | a_g2g
|
a_g2g = 2.0 | F | 2.0 | None | |||
Parameter | b_g2g
|
b_g2g = .09 | F | 0.09 | None | |||
Parameter | th_g_g2g
|
th_g_g2g = 47 | F | 47.0 | None | |||
Parameter | g_f2f
|
g_f2f = .11 | F | 0.11 | None | |||
Parameter | a_f2f
|
a_f2f = 2.0 | F | 2.0 | None | |||
Parameter | b_f2f
|
b_f2f = .18 | F | 0.18 | None | |||
Parameter | th_g_f2f
|
th_g_f2f = 57 | F | 57.0 | None | |||
Parameter | g_m2g
|
g_m2g = .1 | F | 0.1 | None | |||
Parameter | a_m2g
|
a_m2g = 2.0 | F | 2.0 | None | |||
Parameter | b_m2g
|
b_m2g = .09 | F | 0.09 | None | |||
Parameter | th_g_m2g
|
th_g_m2g = 57 | F | 57.0 | None | |||
Parameter | g_g2f
|
g_g2f = .13 | F | 0.13 | None | |||
Parameter | a_g2f
|
a_g2f = 2.0 | F | 2.0 | None | |||
Parameter | b_g2f
|
b_g2f = .09 | F | 0.09 | None | |||
Parameter | th_g_g2f
|
th_g_g2f = 47 | F | 47.0 | None | |||
Parameter | g_f2m
|
g_f2m = .15 | F | 0.15 | None | |||
Parameter | a_f2m
|
a_f2m = 2.0 | F | 2.0 | None | |||
Parameter | b_f2m
|
b_f2m = .1 | F | 0.1 | None | |||
Parameter | th_g_f2m
|
th_g_f2m = 57 | F | 57.0 | None | |||
Parameter | v_x
|
v_x = 0 | F | 0.0 | None | |||
Parameter | g_x2g
|
g_x2g = 0.02 | F | 0.02 | None | |||
Parameter | g_x2f
|
g_x2f = .095 | F | 0.095 | None | |||
Parameter | mspks[1..40] = 0 | F | 0.0 | None | ||||
Parameter | gspks[1..8] = 0 | F | 0.0 | None | ||||
Parameter | fspks[1..8] = 0 | F | 0.0 | None | ||||
Parameter | mv[1..40] | F | 0.0 | None | ||||
Parameter | gv[1..8] | F | 0.0 | None | ||||
Parameter | fv[1..8] | F | 0.0 | None | ||||
Parameter | mv[1..40] = ran(40)-80 | T | 0.0 | dimensionless | None | |||
Parameter | gv[1..8] = ran(40)-80 | T | 0.0 | dimensionless | None | |||
Parameter | fv[1..8] = ran(40)-80 | T | 0.0 | dimensionless | None | |||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | mt_m_kir
|
F | 0.0 | dimensionless | None | |||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | mt_m_kaf
|
F | 0.0 | dimensionless | None | |||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | mt_h_kaf
|
F | 0.0 | dimensionless | None | |||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | mt_m_nap
|
F | 0.0 | dimensionless | None | |||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | F | 0.0 | dimensionless | None | ||||
Parameter | mprate
|
F | 0.0 | dimensionless | None | |||
Parameter | gprate
|
F | 0.0 | dimensionless | None | |||
Parameter | fprate
|
F | 0.0 | dimensionless | None | |||
Parameter | t
|
model time | F | 0.0 | dimensionless | None |
type | InitialAssignments [3] | name | assignment | derived units | sbo | cvterm | |
---|---|---|---|---|---|---|---|
InitialAssignment | = | None | |||||
InitialAssignment | = | None | |||||
InitialAssignment | = | None |
type | Rules [130] | assignment | name | derived units | sbo | cvterm | |
---|---|---|---|---|---|---|---|
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | mt_m_kir
|
= | None | ||||
Rule | = | None | |||||
Rule | mt_m_kaf
|
= | None | ||||
Rule | = | None | |||||
Rule | mt_h_kaf
|
= | None | ||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | mt_m_nap
|
= | None | ||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | ||||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | = | None | |||||
Rule | mprate
|
= | None | ||||
Rule | gprate
|
= | None | ||||
Rule | fprate
|
= | None | ||||
Rule | t
|
= | None |
type | Events [3] | name | trigger | priority | delay | assignments | sbo | cvterm |
---|---|---|---|---|---|---|---|---|
Event | e0
|
None initialValue = False persistent = True |
= None |
|||||
Event | e1
|
None initialValue = False persistent = True |
= None |
|||||
Event | e2
|
None initialValue = False persistent = True |
= None |