Corrias Alberto albertocorrias@nus.edu.sg National University of Singapore Division of BioEngineering 2008-03-01 National University of Singapore keyword electrophysiology gastric ICC 18276830 Corrias Alberto Buist Martin L Quantitative cellular description of gastric slow wave activity 2008 Am J Physiol Gastrointest Liver Physiol 294 G989 G995 Control ICC simulation bdf newton dense 0.1 0.1 0.0 300

Time (s)

Membrane potential (mV)

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FoRT F R T RToF R T F T_correction_Ca Q10Ca T T_exp 10 T_correction_K Q10K T T_exp 10 T_correction_Na Q10Na T T_exp 10 T_correction_BK 1.1 T T_exp

V_cyto Vol P_cyto time Vm 11 Cm I_Na I_Ltype I_VDDR I_kv11 I_ERG I_BK I_CaCl I_NSCC I_bk J_PMCA 210000001000000 F V_cyto time Ca_i fc 1 I_Ltype 1 I_VDDR 210000001000000 F V_cyto J_leak 1 J_PMCA

d_inf_Ltype 1 1 Vm 17 4.3 tau_d_Ltype T_correction_Ca 0.001 time d_Ltype d_inf_Ltype d_Ltype tau_d_Ltype

f_inf_Ltype 1 1 Vm 43 8.9 tau_f_Ltype T_correction_Ca 0.086 time f_Ltype f_inf_Ltype f_Ltype tau_f_Ltype

f_ca_inf_Ltype 1 1 1 Ca_i 0.0001 0.000214 0.0000131 tau_f_ca_Ltype T_correction_Ca 0.002 time f_ca_Ltype f_ca_inf_Ltype f_ca_Ltype tau_f_ca_Ltype

E_Ca 0.5 RToF Ca_o Ca_i I_Ltype G_max_Ltype f_Ltype d_Ltype f_ca_Ltype Vm E_Ca

J_PMCA J_max_PMCA 1 1 0.000298 Ca_i

d_inf_VDDR 1 1 Vm 26 6 tau_d_VDDR T_correction_Ca 0.006 time d_VDDR d_inf_VDDR d_VDDR tau_d_VDDR

f_inf_VDDR 1 1 Vm 66 6 tau_f_VDDR T_correction_Ca 0.04 time f_VDDR f_inf_VDDR f_VDDR tau_f_VDDR

E_Ca 0.5 RToF Ca_o Ca_i I_VDDR G_max_VDDR f_VDDR d_VDDR Vm E_Ca

d_inf_CaCl 1 1 0.00014 Ca_i 3 time d_CaCl d_inf_CaCl d_CaCl tau_d_CaCl

E_Cl RToF Cl_i Cl_o I_CaCl G_max_CaCl d_CaCl Vm E_Cl

d_BK 1 1 Vm 17 2 Ca_i 0.001

E_K RToF K_o K_i I_BK G_max_BK T_correction_BK d_BK Vm E_K

E_K RToF K_o K_i I_bk G_max_bk Vm E_K

d_inf_ERG 0.2 0.8 1 Vm 20 1.8 tau_d_ERG T_correction_K 0.003 time d_ERG d_inf_ERG d_ERG tau_d_ERG

E_K RToF K_o K_i I_ERG G_max_ERG d_ERG Vm E_K

d_inf_kv11 1 1 Vm 25 7.7 tau_d_kv11 T_correction_K 0.005 time d_kv11 d_inf_kv11 d_kv11 tau_d_kv11

f_inf_kv11 0.5 0.5 1 Vm 44.8 4.4 tau_f_kv11 T_correction_K 0.005 time f_kv11 f_inf_kv11 f_kv11 tau_f_kv11

E_K RToF K_o K_i I_kv11 G_max_kv11 f_kv11 d_kv11 Vm E_K

d_inf_Na 1 1 Vm 47 4.8 tau_d_Na T_correction_Na 0.003 time d_Na d_inf_Na d_Na tau_d_Na

f_inf_Na 1 1 Vm 78 7 tau_f_Na T_correction_Na 0.0016 time f_Na f_inf_Na f_Na tau_f_Na

E_Na RToF Na_o Na_i I_Na G_max_Na f_Na d_Na Vm E_Na

d_inf_NSCC 1 1 0.0000745 Ca_PU 85 time d_NSCC d_inf_NSCC d_NSCC tau_d_NSCC

E_NSCC RToF K_o Na_o NaPerm_o_Kperm K_i Na_i NaPerm_o_Kperm I_NSCC G_max_NSCC d_NSCC Vm E_NSCC

V_MITO Vol P_mito V_PU Vol P_PU V_ER Vol P_ER J_ERout Jmax_IP3 IP3 IP3 d_IP3 3 Ca_PU Ca_PU d_ACT 3 h 3 J_ERleak Ca_ER Ca_PU J_SERCA Jmax_serca Ca_PU 2 k_serca 2 Ca_PU 2 MWC conc Ca_PU K_trans 1 Ca_PU K_trans 3 1 Ca_PU K_trans 4 L 1 Ca_PU K_act na J_uni Jmax_uni MWC Ca_m 2 FoRT deltaPsi deltaPsi_star 2 FoRT deltaPsi deltaPsi_star 1 2 FoRT deltaPsi deltaPsi_star J_NaCa Jmax_NaCa b FoRT deltaPsi deltaPsi_star 1 K_Na Na_i n 1 K_Ca Ca_m J_leak J_max_leak Ca_PU Ca_i A_res RToF K_res NADH_m NAD_m J_o rho_res 0.5 ra 10 6 deltapH rc1 6 deltaPsi_B FoRT A_res FoRT 1 ra g 6 FoRT deltaPsi rc2 FoRT A_res FoRT deltaPsi 6 g 1 r1 FoRT A_res FoRT deltaPsi_B 6 r2 r3 FoRT A_res FoRT deltaPsi g 6 J_Hres rho_res 3.966 ra 10 6 deltapH FoRT A_res rb 10 6 deltapH 1 ra rb g FoRT deltaPsi 6 1 r1 FoRT A_res 6 FoRT deltaPsi_B r2 r3 FoRT A_res g 6 FoRT deltaPsi J_glyTotal beta_max 1 beta1 Glc beta2 Glc ATP_i 1 beta3 ATP_i 1 beta4 ATP_i beta5 Glc 1 beta6 ATP_i beta7 Glc f_PDHa 1 1 u2 1 u1 1 Ca_m KCa_PDH 2 J_red J_red_basal 6.3944 f_PDHa J_glyTotal J_pTCA J_red_basal 3 0.84 f_PDHa J_glyTotal A_F1 RToF K_F1 ATP_m ADP_mfree Pi_m J_pF1 rho_F1 1 pa 10 3 deltapH pc1 3 FoRT deltaPsi_B FoRT A_F1 1 pa 3 FoRT deltaPsi pc2 FoRT A_F1 3 FoRT deltaPsi 1 p1 FoRT A_F1 3 FoRT deltaPsi_B p2 p3 FoRT A_F1 3 FoRT deltaPsi J_HF1 1 rho_F1 3 pa 10 3 deltapH FoRT A_F1 pb 10 3 deltapH 1 pa pb 3 FoRT deltaPsi 1 p1 FoRT A_F1 3 FoRT deltaPsi_B p2 p3 FoRT A_F1 3 FoRT deltaPsi J_ANT Jmax_ANT 1 ATP4_i ADP3_m ADP3_i ATP4_m 1 FoRT deltaPsi 1 ATP4_i ADP3_i 1 frac FoRT deltaPsi 1 ADP3_m ATP4_m PMF deltaPsi 2.303 RToF deltapH J_Hleak g_H PMF J_pGly 0.15 J_glyTotal J_hydSS J_hyd_max 1 K_Glc Glc nhyd J_hyd K_hyd ATP_i J_hydSS time NADH_m J_red J_o NAD_m total_NAD_m NADH_m time ADP_m J_ANT 1 J_pTCA 1 J_pF1 ATP_m total_ANP_m ADP_m ADP_mfree 0.8 ADP_m ADP3_m 0.45 ADP_mfree ATP4_m 0.05 ATP_m time ADP_i 1 J_ANT V_MITO V_cyto J_hyd 1 J_pGly ATP_i total_ANP_i ADP_i ADP_ifree 0.3 ADP_i ADP3_i 0.45 ADP_ifree MgADP_i 0.55 ADP_ifree ATP4_i 0.05 ATP_i time Ca_PU fc J_NaCa J_uni V_MITO V_PU J_ERout J_SERCA V_ER V_PU 1 J_leak V_cyto V_PU time Ca_m fm J_uni J_NaCa time Ca_ER fe J_SERCA J_ERout time deltaPsi 1 F V_MITO 10000001 Cmito J_Hleak 1 J_Hres J_ANT J_HF1 2 J_uni time h 1 d_INH h Ca_PU d_INH tauh