Safiulina et al 2010


  1. 135 sections; 943 segments
      1. 135 sections; 943 segments
        1. Longest dx is 44.7271 at apical_dendrite[0] with nseg=1
        2. nseg not consistent under constant dx=50 assumption
        3. Greatest dlambda is 0.109785 at dendrite[7] with nseg=1
        4. nseg not consistent under constant dlambda=0.1 assumption
            1. axon[0].Ra = 50
            2. 134 Ra = 150
        2. cm = 1.41
          1. g_pas = 3.94166e-05
          2. e_pas = -64
        4. ena = 55
        5. ek = -90
        6. ca_ion
        7. gbar_KahpM95 = 0.003
            1. 119 or more distinct values
          2. tau_cacum = 100
          3. cai0_cacum = 5e-05
        9. gbar_cagk = 0.01
          1. gcalbar_cal = 0.003
          2. ggk_cal = 0
        11. gcanbar_can = 0.0003
        12. gcatbar_cat = 0.003
          1. ghdbar_hd = 0.0001
          2. vhalfl_hd = -73
          1. sh_kap = 6
          2. gkabar_kap = 0.008
          1. gkdrbar_kdr = 0.003
          2. sh_kdr = 6
          1. gbar_km = 0.0001
          2. sh_km = 6
          1. sh_na3 = 6
          2. gbar_na3 = 0.01
          3. ar_na3 = 1
          1. cm = 1.41
          2. g_pas = 3.94166e-05
          3. e_pas = -64
          4. ena = 55
          5. ek = -90
          6. sh_kap = 6
          7. gkabar_kap = 0.008
          8. gkdrbar_kdr = 0.003
          9. sh_kdr = 6
          10. sh_na3 = 6
          11. gbar_na3 = 0.01
          12. ar_na3 = 1
          1. Ra = 150
          2. gbar_KahpM95 = 0.003
          3. tau_cacum = 100
          4. cai0_cacum = 5e-05
          5. gbar_cagk = 0.01
          6. gcalbar_cal = 0.003
          7. ggk_cal = 0
          8. gcanbar_can = 0.0003
          9. gcatbar_cat = 0.003
          10. ghdbar_hd = 0.0001
          11. vhalfl_hd = -73
        3. ModelViewParmSubset[3] (1 sections)
          1. depth_cacum = 0.2
          1. depth_cacum = 0.3
          1. depth_cacum = 0.45
          1. depth_cacum = 0.65
          1. Ra = 50
          2. }
          1. depth_cacum = 0.156362
          2. }
          1. depth_cacum = 0.156875
          2. }
          1. depth_cacum = 0.169559
          2. }
          1. depth_cacum = 0.170271
          2. }
          1. depth_cacum = 0.194615
          2. }
          1. depth_cacum = 0.196351
          2. }
          1. depth_cacum = 0.199565
          2. }
          1. depth_cacum = 0.203827
          2. }
          1. depth_cacum = 0.20799
          2. }
          1. depth_cacum = 0.208584
          2. }
          1. depth_cacum = 0.208775
          2. }
          1. depth_cacum = 0.210193
          2. }
          1. depth_cacum = 0.210296
          2. }
          1. depth_cacum = 0.211825
          2. }
          1. depth_cacum = 0.214238
          2. }
          1. depth_cacum = 0.216169
          2. }
          1. depth_cacum = 0.216252
          2. }
          1. depth_cacum = 0.216336
          2. }
          1. depth_cacum = 0.219472
          2. }
          1. depth_cacum = 0.219755
          2. }
          1. depth_cacum = 0.222724
          2. }
          1. depth_cacum = 0.224863
          2. }
          1. depth_cacum = 0.229494
          2. }
          1. depth_cacum = 0.232961
          2. }
          1. depth_cacum = 0.245579
          2. }
          1. depth_cacum = 0.246603
          2. }
          1. depth_cacum = 0.25
          2. }
          1. depth_cacum = 0.257256
          2. }
          1. depth_cacum = 0.259174
          2. }
          1. depth_cacum = 0.266123
          2. }
          1. depth_cacum = 0.27805
          2. }
          1. depth_cacum = 0.278447
          2. }
          1. depth_cacum = 0.279459
          2. }
          1. depth_cacum = 0.283939
          2. }
          1. depth_cacum = 0.284589
          2. }
          1. depth_cacum = 0.285627
          2. }
          1. depth_cacum = 0.286504
          2. }
          1. depth_cacum = 0.287101
          2. }
          1. depth_cacum = 0.287671
          2. }
          1. depth_cacum = 0.288887
          2. }
          1. depth_cacum = 0.288993
          2. }
          1. depth_cacum = 0.289034
          2. }
          1. depth_cacum = 0.289197
          2. }
          1. depth_cacum = 0.292282
          2. }
          1. depth_cacum = 0.293167
          2. }
          1. depth_cacum = 0.293612
          2. }
          1. depth_cacum = 0.295386
          2. }
          1. depth_cacum = 0.296363
          2. }
          1. depth_cacum = 0.296784
          2. }
          1. depth_cacum = 0.298366
          2. }
          1. depth_cacum = 0.299707
          2. }
          1. depth_cacum = 0.301357
          2. }
          1. depth_cacum = 0.30167
          2. }
          1. depth_cacum = 0.302436
          2. }
          1. depth_cacum = 0.303082
          2. }
          1. depth_cacum = 0.303412
          2. }
          1. depth_cacum = 0.304053
          2. }
          1. depth_cacum = 0.308544
          2. }
          1. depth_cacum = 0.309738
          2. }
          1. depth_cacum = 0.314053
          2. }
          1. depth_cacum = 0.314617
          2. }
          1. depth_cacum = 0.314962
          2. }
          1. depth_cacum = 0.319342
          2. }
          1. depth_cacum = 0.319694
          2. }
          1. depth_cacum = 0.320043
          2. }
          1. depth_cacum = 0.326371
          2. }
          1. depth_cacum = 0.329198
          2. }
          1. depth_cacum = 0.35
          2. }
          1. depth_cacum = 0.358041
          2. }
          1. depth_cacum = 0.375
          2. }
          1. depth_cacum = 0.381649
          2. }
          1. depth_cacum = 0.384594
          2. }
          1. depth_cacum = 0.385853
          2. }
          1. depth_cacum = 0.399187
          2. }
          1. depth_cacum = 0.4
          2. }
          1. depth_cacum = 0.402843
          2. }
          1. depth_cacum = 0.417265
          2. }
          1. depth_cacum = 0.41789
          2. }
          1. depth_cacum = 0.435663
          2. }
          1. depth_cacum = 0.442021
          2. }
          1. depth_cacum = 0.442402
          2. }
          1. depth_cacum = 0.466384
          2. }
          1. depth_cacum = 0.468121
          2. }
          1. depth_cacum = 0.474078
          2. }
          1. depth_cacum = 0.481575
          2. }
          1. depth_cacum = 0.522254
          2. }
          1. depth_cacum = 0.52963
          2. }
          1. depth_cacum = 0.55
          2. }
          1. depth_cacum = 0.569498
          2. }
          1. depth_cacum = 0.569975
          2. }
          1. depth_cacum = 0.611296
          2. }
          1. depth_cacum = 0.614214
          2. }
          1. depth_cacum = 0.635444
          2. }
          1. depth_cacum = 0.658962
          2. }
          1. depth_cacum = 0.683077
          2. }
          1. depth_cacum = 0.701461
          2. }
          1. depth_cacum = 0.709766
          2. }
          1. depth_cacum = 0.714817
          2. }
          1. depth_cacum = 0.75
          2. }
          1. depth_cacum = 0.825791
          2. }
          1. depth_cacum = 0.835474
          2. }
          1. depth_cacum = 0.868575
          2. }
          1. depth_cacum = 0.9
          2. }
          1. depth_cacum = 0.944412
          2. }
          1. depth_cacum = 1.24711
          2. }
          1. depth_cacum = 1.46081
          2. }
          1. depth_cacum = 1.91291
          2. }
          1. depth_cacum = 1.91321
          2. }
          1. depth_cacum = 1.97071
          2. }
          1. depth_cacum = 2.45398
          2. }
          1. depth_cacum = 2.65768
          2. }
          1. depth_cacum = 2.86856
          2. }
          1. depth_cacum = 2.95558
          2. }
          1. depth_cacum = 4.50173
          2. }
          1. depth_cacum = 6.605
          2. gbar_km = 0.0001
          3. sh_km = 6
          4. }
            1. 30 tau1 = 0.4
            2. 30 tau1 = 1.4
            1. 30 tau2 = 4.8
            2. 30 tau2 = 27
            1. 30 e = -44
            2. 30 e = 0
          1. n = 0
          2. thresh = 0
          3. time = 0
      1. interval = 50
      2. number = 10
      3. start = 20
      4. noise = 1
    2. Global parameters for Artificial Cells
  4. 0 NetCon objects
  5. 0 LinearMechanism objects
      1. Ra
      2. capacitance
      3. pas
      4. na_ion
      5. k_ion
      6. ca_ion
      7. KahpM95
      8. cacum
      9. cagk
      10. cal
      11. can
      12. cat
      13. hd
      14. kap
      15. kdr
      16. km
      17. na3
      1. cm = 1.41
      2. g_pas = 3.94166e-05
      3. e_pas = -64
      4. ena = 55
      5. ek = -90
      6. gbar_KahpM95 = 0.003
      7. tau_cacum = 100
      8. cai0_cacum = 5e-05
      9. gbar_cagk = 0.01
      10. gcalbar_cal = 0.003
      11. ggk_cal = 0
      12. gcanbar_can = 0.0003
      13. gcatbar_cat = 0.003
      14. ghdbar_hd = 0.0001
      15. vhalfl_hd = -73
      16. sh_kap = 6
      17. gkabar_kap = 0.008
      18. gkdrbar_kdr = 0.003
      19. sh_kdr = 6
      20. gbar_km = 0.0001
      21. sh_km = 6
      22. sh_na3 = 6
      23. gbar_na3 = 0.01
      24. ar_na3 = 1
        1. axon[0].Ra = 50
        2. 134 Ra = 150
        1. 119 or more distinct values
        1. nai0_na_ion = 10
        2. nao0_na_ion = 140
        1. ki0_k_ion = 54.4
        2. ko0_k_ion = 2.5
        1. cai0_ca_ion = 5e-05
        2. cao0_ca_ion = 2
        1. n_KahpM95 = 4
        2. a0_KahpM95 = 1e+08
        3. b0_KahpM95 = 0.005
        4. q10_KahpM95 = 3
        5. inf_KahpM95 = 0
        6. tau_KahpM95 = 0
        1. irest_cacum = 0
        1. d1_cagk = 0.84
        2. d2_cagk = 1
        3. k1_cagk = 0.00048
        4. k2_cagk = 1.3e-07
        5. abar_cagk = 0.28
        6. bbar_cagk = 0.48
        7. st_cagk = 1
        8. oinf_cagk = 0
        9. tau_cagk = 0
        1. ki_cal = 0.001
        2. q10_cal = 5
        3. mmin_cal = 0.2
        4. tfa_cal = 1
        5. a0m_cal = 0.1
        6. zetam_cal = 2
        7. vhalfm_cal = 4
        8. gmm_cal = 0.1
        9. minf_cal = 0
        10. tau_cal = 0
        1. ki_can = 0.001
        2. q10_can = 5
        3. mmin_can = 0.2
        4. hmin_can = 3
        5. a0m_can = 0.03
        6. zetam_can = 2
        7. vhalfm_can = -14
        8. gmm_can = 0.1
        9. minf_can = 0
        10. hinf_can = 0
        11. taum_can = 0
        12. tauh_can = 0
        1. q10_cat = 5
        2. mmin_cat = 0.2
        3. hmin_cat = 10
        4. a0h_cat = 0.015
        5. zetah_cat = 3.5
        6. vhalfh_cat = -75
        7. gmh_cat = 0.6
        8. a0m_cat = 0.04
        9. zetam_cat = 2
        10. vhalfm_cat = -28
        11. gmm_cat = 0.1
        12. hinf_cat = 0
        13. htau_cat = 0
        14. minf_cat = 0
        15. mtau_cat = 0
        1. ehd_hd = -30
        2. kl_hd = -8
        3. vhalft_hd = -75
        4. a0t_hd = 0.011
        5. zetat_hd = 2.2
        6. gmt_hd = 0.4
        7. q10_hd = 4.5
        8. qtl_hd = 1
        9. linf_hd = 0
        10. taul_hd = 0
        1. vhalfn_kap = 11
        2. vhalfl_kap = -56
        3. a0l_kap = 0.05
        4. a0n_kap = 0.05
        5. zetan_kap = -1.5
        6. zetal_kap = 3
        7. gmn_kap = 0.55
        8. gml_kap = 1
        9. lmin_kap = 2
        10. nmin_kap = 0.1
        11. pw_kap = -1
        12. tq_kap = -40
        13. qq_kap = 5
        14. q10_kap = 5
        15. qtl_kap = 1
        16. ninf_kap = 0
        17. linf_kap = 0
        18. taul_kap = 0
        19. taun_kap = 0
        1. vhalfn_kdr = 13
        2. a0n_kdr = 0.02
        3. zetan_kdr = -3
        4. gmn_kdr = 0.7
        5. nmax_kdr = 2
        6. q10_kdr = 1
        7. ninf_kdr = 0
        8. taun_kdr = 0
        1. vhalfl_km = -40
        2. kl_km = -10
        3. vhalft_km = -42
        4. a0t_km = 0.003
        5. zetat_km = 7
        6. gmt_km = 0.4
        7. q10_km = 5
        8. b0_km = 60
        9. st_km = 1
        10. inf_km = 0
        11. tau_km = 0
        1. tha_na3 = -30
        2. qa_na3 = 7.2
        3. Ra_na3 = 0.4
        4. Rb_na3 = 0.124
        5. thi1_na3 = -45
        6. thi2_na3 = -45
        7. qd_na3 = 1.5
        8. qg_na3 = 1.5
        9. mmin_na3 = 0.02
        10. hmin_na3 = 0.5
        11. q10_na3 = 2
        12. Rg_na3 = 0.01
        13. Rd_na3 = 0.03
        14. qq_na3 = 10
        15. tq_na3 = -55
        16. thinf_na3 = -50
        17. qinf_na3 = 4
        18. vhalfs_na3 = -60
        19. a0s_na3 = 0.0003
        20. zetas_na3 = 12
        21. gms_na3 = 0.2
        22. smax_na3 = 10
        23. vvh_na3 = -58
        24. vvs_na3 = 2
        25. minf_na3 = 0
        26. hinf_na3 = 0
        27. mtau_na3 = 0
        28. htau_na3 = 0
        29. sinf_na3 = 0
        30. taus_na3 = 0
    5. KSChan definitions for density mechanisms
          1. 30 tau1 = 0.4
          2. 30 tau1 = 1.4
          1. 30 tau2 = 4.8
          2. 30 tau2 = 27
          1. 30 e = -44
          2. 30 e = 0
        1. n = 0
        2. thresh = 0
        3. time = 0
    2. Global parameters for Point Processes
    3. KSChan definitions for Point Processes