//Created by libAntimony v2.4 model cui_2008__environment(time_) // Variable initializations: time_ = ; end model cui_2008__BMK1(BMK1, v10a, v10b, time_) // Rate Rules: BMK1' = v10b - v10a; // Variable initializations: BMK1 = 0.012; v10a = ; v10b = ; time_ = ; end model cui_2008__MRNA(MRNA, v18, v19, time_) // Rate Rules: MRNA' = v19 - v18; // Variable initializations: MRNA = 3.33E-4; v18 = ; v19 = ; time_ = ; end model cui_2008__NFATc(NFATc, v1, v14, v15, time_) // Rate Rules: NFATc' = v14 - (v1 + v15); // Variable initializations: NFATc = 2E-5; v1 = ; v14 = ; v15 = ; time_ = ; end model cui_2008__NFATn(NFATn, v1, v16, v17, v18, time_) // Rate Rules: NFATn' = (v1 + v16) - (v17 + v18); // Variable initializations: NFATn = 4.99E-4; v1 = ; v16 = ; v17 = ; v18 = ; time_ = ; end model cui_2008__NFATpc(NFATpc, v2, v9, v14, v15, time_) // Rate Rules: NFATpc' = (v2 + v15) - (v9 + v14); // Variable initializations: NFATpc = 4.94E-3; v2 = ; v9 = ; v14 = ; v15 = ; time_ = ; end model cui_2008__NFATpn(NFATpn, v2, v16, v17, time_) // Rate Rules: NFATpn' = v17 - (v2 + v16); // Variable initializations: NFATpn = 8.01E-5; v2 = ; v16 = ; v17 = ; time_ = ; end model cui_2008__GSK3betac(GSK3betac, v3, v12a, v12b, v15a, v15b, time_) // Rate Rules: GSK3betac' = (v12b + v15b) - (v3 + v12a + v15a); // Variable initializations: GSK3betac = 0.17; v3 = ; v12a = ; v12b = ; v15a = ; v15b = ; time_ = ; end model cui_2008__GSK3betan(GSK3betan, v3, v17a, v17b, time_) // Rate Rules: GSK3betan' = (v3 + v17b) - v17a; // Variable initializations: GSK3betan = 0.339; v3 = ; v17a = ; v17b = ; time_ = ; end model cui_2008__CaNc(CaNc, v6, time_) // Rate Rules: CaNc' = - v6; // Variable initializations: CaNc = 0.91; v6 = ; time_ = ; end model cui_2008__CaNc_star(CaNc_star, v4, v6, v7, v11a, v11b, v13a, v13b, v14a, v14b, time_) // Rate Rules: CaNc_star' = (v6 + v11b + v13b + v14b) - (v4 + v7 + v11a + v13a + v14a); // Variable initializations: CaNc_star = 0.0275; v4 = ; v6 = ; v7 = ; v11a = ; v11b = ; v13a = ; v13b = ; v14a = ; v14b = ; time_ = ; end model cui_2008__CaNn_star(CaNn_star, v4, v16a, v16b, time_) // Rate Rules: CaNn_star' = (v4 + v16b) - v16a; // Variable initializations: CaNn_star = 0.0568; v4 = ; v16a = ; v16b = ; time_ = ; end model cui_2008__CaNn(CaNn, v6, time_) // Rate Rules: CaNn' = - v6; // Variable initializations: CaNn = 0.0057; v6 = ; time_ = ; end model cui_2008__CaM(CaM, v5, time_) // Rate Rules: CaM' = - v5; // Variable initializations: CaM = 25.2; v5 = ; time_ = ; end model cui_2008__CaMCa(CaMCa, v5, v6, time_) // Rate Rules: CaMCa' = v5 - v6; // Variable initializations: CaMCa = 7.88E-7; v5 = ; v6 = ; time_ = ; end model cui_2008__MCIP(MCIP, v7, v10, v11, v19, time_) // Rate Rules: MCIP' = v11 - (v7 + v10 + v19); // Variable initializations: MCIP = 2.15E-4; v7 = ; v10 = ; v11 = ; v19 = ; time_ = ; end model cui_2008__MCIPp(MCIPp, v10, v11, v12, v13, time_) // Rate Rules: MCIPp' = (v10 + v13) - (v11 + v12); // Variable initializations: MCIPp = 7.76E-3; v10 = ; v11 = ; v12 = ; v13 = ; time_ = ; end model cui_2008__MCIPpp(MCIPpp, v8, v12, v13, time_) // Rate Rules: MCIPpp' = v12 - (v8 + v13); // Variable initializations: MCIPpp = 0.0798; v8 = ; v12 = ; v13 = ; time_ = ; end model cui_2008__Comp1(Comp1, v7, time_) // Rate Rules: Comp1' = v7; // Variable initializations: Comp1 = 5.21E-3; v7 = ; time_ = ; end model cui_2008__Comp2(Comp2, v8, time_) // Rate Rules: Comp2' = v8; // Variable initializations: Comp2 = 0.283; v8 = ; time_ = ; end model cui_2008__Comp3(Comp3, v9, time_) // Rate Rules: Comp3' = v9; // Variable initializations: Comp3 = 0.014; v9 = ; time_ = ; end model cui_2008__P1433(P1433, v8, v9, time_) // Rate Rules: P1433' = -(v8 + v9); // Variable initializations: P1433 = 0.708; v8 = ; v9 = ; time_ = ; end model cui_2008__MCIP_BMK1(MCIP_BMK1, v10a, v10b, time_) // Rate Rules: MCIP_BMK1' = v10a - v10b; // Variable initializations: MCIP_BMK1 = 2.14E-5; v10a = ; v10b = ; time_ = ; end model cui_2008__MCIPp_CaNc_star(MCIPp_CaNc_star, v11a, v11b, time_) // Rate Rules: MCIPp_CaNc_star' = v11a - v11b; // Variable initializations: MCIPp_CaNc_star = 1.07E-4; v11a = ; v11b = ; time_ = ; end model cui_2008__MCIPp_GSK3betac(MCIPp_GSK3betac, v12a, v12b, time_) // Rate Rules: MCIPp_GSK3betac' = v12a - v12b; // Variable initializations: MCIPp_GSK3betac = 1.1E-3; v12a = ; v12b = ; time_ = ; end model cui_2008__MCIPpp_CaNc_star(MCIPpp_CaNc_star, v13a, v13b, time_) // Rate Rules: MCIPpp_CaNc_star' = v13a - v13b; // Variable initializations: MCIPpp_CaNc_star = 1.1E-3; v13a = ; v13b = ; time_ = ; end model cui_2008__NFATpc_CaNc_star(NFATpc_CaNc_star, v14a, v14b, time_) // Rate Rules: NFATpc_CaNc_star' = v14a - v14b; // Variable initializations: NFATpc_CaNc_star = 8.15E-5; v14a = ; v14b = ; time_ = ; end model cui_2008__NFATc_GSK3betac(NFATc_GSK3betac, v15a, v15b, time_) // Rate Rules: NFATc_GSK3betac' = v15a - v15b; // Variable initializations: NFATc_GSK3betac = 1.36E-6; v15a = ; v15b = ; time_ = ; end model cui_2008__NFATpn_CaNn_star(NFATpn_CaNn_star, v16a, v16b, time_) // Rate Rules: NFATpn_CaNn_star' = v16a - v16b; // Variable initializations: NFATpn_CaNn_star = 2.27E-6; v16a = ; v16b = ; time_ = ; end model cui_2008__NFATn_GSK3betan(NFATn_GSK3betan, v17a, v17b, time_) // Rate Rules: NFATn_GSK3betan' = v17a - v17b; // Variable initializations: NFATn_GSK3betan = 8.46E-5; v17a = ; v17b = ; time_ = ; end model cui_2008__v1(v1, NFATc, k29) // Assignment Rules: v1 := k29 * NFATc; // Variable initializations: NFATc = ; k29 = ; end model cui_2008__v2(v2, NFATpn, k30) // Assignment Rules: v2 := k30 * NFATpn; // Variable initializations: NFATpn = ; k30 = ; end model cui_2008__v3(v3, GSK3betac, GSK3betan, k31, k32) // Assignment Rules: v3 := k31 * GSK3betac - k32 * GSK3betan; // Variable initializations: GSK3betac = ; GSK3betan = ; k31 = ; k32 = ; end model cui_2008__v4(v4, CaNc_star, CaNn_star, k33, k34) // Assignment Rules: v4 := k33 * CaNc_star - k34 * CaNn_star; // Variable initializations: CaNc_star = ; CaNn_star = ; k33 = ; k34 = ; end model cui_2008__v5(v5, CaM, Ca, CaMCa, k1, k2) // Assignment Rules: v5 := k1 * CaM * power(Ca, 4) - k2 * CaMCa; // Variable initializations: CaM = ; Ca = ; CaMCa = ; k1 = ; k2 = ; end model cui_2008__v6(v6, CaNc, CaNc_star, CaMCa, k3, k4) // Assignment Rules: v6 := k3 * CaMCa * CaNc - k4 * CaNc_star; // Variable initializations: CaNc = ; CaNc_star = ; CaMCa = ; k3 = ; k4 = ; end model cui_2008__v7(v7, MCIP, CaNc_star, Comp1, k5, k6) // Assignment Rules: v7 := k5 * CaNc_star * MCIP - k6 * Comp1; // Variable initializations: MCIP = ; CaNc_star = ; Comp1 = ; k5 = ; k6 = ; end model cui_2008__v8(v8, MCIPpp, P1433, Comp2, k19, k20) // Assignment Rules: v8 := k19 * P1433 * MCIPpp - k20 * Comp2; // Variable initializations: MCIPpp = ; P1433 = ; Comp2 = ; k19 = ; k20 = ; end model cui_2008__v9(v9, NFATpc, P1433, Comp3, k27, k28) // Assignment Rules: v9 := k27 * NFATpc * P1433 - k28 * Comp3; // Variable initializations: NFATpc = ; P1433 = ; Comp3 = ; k27 = ; k28 = ; end model cui_2008__v10(v10, v10a, v10b, BMK1, MCIP_BMK1, MCIP, k7, k8, k9) // Assignment Rules: v10 := v10a + v10b; v10a := k7 * MCIP * BMK1 - k8 * MCIP_BMK1; v10b := k9 * MCIP_BMK1; // Variable initializations: BMK1 = ; MCIP_BMK1 = ; MCIP = ; k7 = ; k8 = ; k9 = ; end model cui_2008__v11(v11, v11a, v11b, MCIPp_CaNc_star, CaNc_star, MCIPp, k10, k11, k12) // Assignment Rules: v11 := v11a + v11b; v11a := k10 * MCIPp * CaNc_star - k11 * MCIPp_CaNc_star; v11b := k12 * MCIPp_CaNc_star; // Variable initializations: MCIPp_CaNc_star = ; CaNc_star = ; MCIPp = ; k10 = ; k11 = ; k12 = ; end model cui_2008__v12(v12, v12a, v12b, MCIPp_GSK3betac, GSK3betac, MCIPp, k13, k14, k15) // Assignment Rules: v12 := v12a + v12b; v12a := k13 * MCIPp * GSK3betac - k14 * MCIPp_GSK3betac; v12b := k15 * MCIPp_GSK3betac; // Variable initializations: MCIPp_GSK3betac = ; GSK3betac = ; MCIPp = ; k13 = ; k14 = ; k15 = ; end model cui_2008__v13(v13, v13a, v13b, MCIPpp_CaNc_star, CaNc_star, MCIPpp, k16, k17, k18) // Assignment Rules: v13 := v13a + v13b; v13a := k16 * MCIPpp * CaNc_star - k17 * MCIPpp_CaNc_star; v13b := k18 * MCIPpp_CaNc_star; // Variable initializations: MCIPpp_CaNc_star = ; CaNc_star = ; MCIPpp = ; k16 = ; k17 = ; k18 = ; end model cui_2008__v14(v14, v14a, v14b, NFATpc_CaNc_star, CaNc_star, NFATpc, k21, k22, k23) // Assignment Rules: v14 := v14a + v14b; v14a := k21 * NFATpc * CaNc_star - k22 * NFATpc_CaNc_star; v14b := k23 * NFATpc_CaNc_star; // Variable initializations: NFATpc_CaNc_star = ; CaNc_star = ; NFATpc = ; k21 = ; k22 = ; k23 = ; end model cui_2008__v15(v15, v15a, v15b, NFATc_GSK3betac, GSK3betac, NFATc, k24, k25, k26) // Assignment Rules: v15 := v15a + v15b; v15a := k24 * NFATc * GSK3betac - k25 * NFATc_GSK3betac; v15b := k26 * NFATc_GSK3betac; // Variable initializations: NFATc_GSK3betac = ; GSK3betac = ; NFATc = ; k24 = ; k25 = ; k26 = ; end model cui_2008__v16(v16, v16a, v16b, NFATpn_CaNn_star, CaNn_star, NFATpn, k35, k36, k37) // Assignment Rules: v16 := v16a + v16b; v16a := k35 * NFATpn * CaNn_star - k36 * NFATpn_CaNn_star; v16b := k37 * NFATpn_CaNn_star; // Variable initializations: NFATpn_CaNn_star = ; CaNn_star = ; NFATpn = ; k35 = ; k36 = ; k37 = ; end model cui_2008__v17(v17, v17a, v17b, NFATn_GSK3betan, GSK3betan, NFATn, k38, k39, k40) // Assignment Rules: v17 := v17a + v17b; v17a := k38 * NFATn * GSK3betan - k39 * NFATn_GSK3betan; v17b := k40 * NFATn_GSK3betan; // Variable initializations: NFATn_GSK3betan = ; GSK3betan = ; NFATn = ; k38 = ; k39 = ; k40 = ; end model cui_2008__v18(v18, NFATn, MRNA, k41, k42) // Assignment Rules: v18 := k41 * NFATn - k42 * MRNA; // Variable initializations: NFATn = ; MRNA = ; k41 = ; k42 = ; end model cui_2008__v19(v19, t_half, MRNA, MCIP, k43) // Assignment Rules: v19 := k43 * MRNA - (ln(2.0) / t_half) * MCIP; // Variable initializations: t_half = ; MRNA = ; MCIP = ; k43 = ; end model cui_2008__model_parameters(k1, k2, k3, k4, k5, k6, k7, k8, k9, k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k40, k41, k42, k43, t_half, Ca) // Variable initializations: k1 = 5; k2 = 100; k3 = 2760; k4 = 0.072; k5 = 50; k6 = 0.0567; k7 = 5; k8 = 0.1; k9 = 0.5; k10 = 0.1; k11 = 0.1; k12 = 0.1; k13 = 0.5; k14 = 0.5; k15 = 0.1; k16 = 0.1; k17 = 0.1; k18 = 0.1; k19 = 0.5; k20 = 0.1; k21 = 0.15; k22 = 0.15; k23 = 0.15; k24 = 0.1; k25 = 0.15; k26 = 0.1; k27 = 0.4; k28 = 0.1; k29 = 0.4; k30 = 0.1; k31 = 0.1; k32 = 0.05; k33 = 0.114; k34 = 0.0552; k35 = 0.15; k36 = 0.1; k37 = 0.2; k38 = 0.1; k39 = 0.1; k40 = 0.1; k41 = 0.02; k42 = 0.03; k43 = 0.03; t_half = 15; Ca = 0.2; end model *cui_2008____main() // Sub-modules, and any changes to those submodules: environment: cui_2008__environment(time_); BMK1: cui_2008__BMK1(BMK10, v10a, v10b, time_); MRNA: cui_2008__MRNA(MRNA0, v180, v190, time_); NFATc: cui_2008__NFATc(NFATc0, v110, v140, v150, time_); NFATn: cui_2008__NFATn(NFATn0, v110, v160, v170, v180, time_); NFATpc: cui_2008__NFATpc(NFATpc0, v20, v90, v140, v150, time_); NFATpn: cui_2008__NFATpn(NFATpn0, v20, v160, v170, time_); GSK3betac: cui_2008__GSK3betac(GSK3betac0, v30, v12a, v12b, v15a, v15b, time_); GSK3betan: cui_2008__GSK3betan(GSK3betan0, v30, v17a, v17b, time_); CaNc: cui_2008__CaNc(CaNc0, v60, time_); CaNc_star: cui_2008__CaNc_star(CaNc_star0, v40, v60, v70, v11a, v11b, v13a, v13b, v14a, v14b, time_); CaNn_star: cui_2008__CaNn_star(CaNn_star0, v40, v16a, v16b, time_); CaNn: cui_2008__CaNn(CaNn0, v60, time_); CaM: cui_2008__CaM(CaM0, v50, time_); CaMCa: cui_2008__CaMCa(CaMCa0, v50, v60, time_); MCIP: cui_2008__MCIP(MCIP0, v70, v100, v111, v190, time_); MCIPp: cui_2008__MCIPp(MCIPp0, v100, v111, v120, v130, time_); MCIPpp: cui_2008__MCIPpp(MCIPpp0, v80, v120, v130, time_); Comp1: cui_2008__Comp1(Comp10, v70, time_); Comp2: cui_2008__Comp2(Comp20, v80, time_); Comp3: cui_2008__Comp3(Comp30, v90, time_); P1433: cui_2008__P1433(P14330, v80, v90, time_); MCIP_BMK1: cui_2008__MCIP_BMK1(MCIP_BMK10, v10a, v10b, time_); MCIPp_CaNc_star: cui_2008__MCIPp_CaNc_star(MCIPp_CaNc_star0, v11a, v11b, time_); MCIPp_GSK3betac: cui_2008__MCIPp_GSK3betac(MCIPp_GSK3betac0, v12a, v12b, time_); MCIPpp_CaNc_star: cui_2008__MCIPpp_CaNc_star(MCIPpp_CaNc_star0, v13a, v13b, time_); NFATpc_CaNc_star: cui_2008__NFATpc_CaNc_star(NFATpc_CaNc_star0, v14a, v14b, time_); NFATc_GSK3betac: cui_2008__NFATc_GSK3betac(NFATc_GSK3betac0, v15a, v15b, time_); NFATpn_CaNn_star: cui_2008__NFATpn_CaNn_star(NFATpn_CaNn_star0, v16a, v16b, time_); NFATn_GSK3betan: cui_2008__NFATn_GSK3betan(NFATn_GSK3betan0, v17a, v17b, time_); v1: cui_2008__v1(v110, NFATc0, k29); v2: cui_2008__v2(v20, NFATpn0, k30); v3: cui_2008__v3(v30, GSK3betac0, GSK3betan0, k31, k32); v4: cui_2008__v4(v40, CaNc_star0, CaNn_star0, k33, k34); v5: cui_2008__v5(v50, CaM0, Ca, CaMCa0, k1, k2); v6: cui_2008__v6(v60, CaNc0, CaNc_star0, CaMCa0, k3, k4); v7: cui_2008__v7(v70, MCIP0, CaNc_star0, Comp10, k5, k6); v8: cui_2008__v8(v80, MCIPpp0, P14330, Comp20, k19, k20); v9: cui_2008__v9(v90, NFATpc0, P14330, Comp30, k27, k28); v10: cui_2008__v10(v100, v10a, v10b, BMK10, MCIP_BMK10, MCIP0, k7, k8, k9); v11: cui_2008__v11(v111, v11a, v11b, MCIPp_CaNc_star0, CaNc_star0, MCIPp0, k10, k11, k12); v12: cui_2008__v12(v120, v12a, v12b, MCIPp_GSK3betac0, GSK3betac0, MCIPp0, k13, k14, k15); v13: cui_2008__v13(v130, v13a, v13b, MCIPpp_CaNc_star0, CaNc_star0, MCIPpp0, k16, k17, k18); v14: cui_2008__v14(v140, v14a, v14b, NFATpc_CaNc_star0, CaNc_star0, NFATpc0, k21, k22, k23); v15: cui_2008__v15(v150, v15a, v15b, NFATc_GSK3betac0, GSK3betac0, NFATc0, k24, k25, k26); v16: cui_2008__v16(v160, v16a, v16b, NFATpn_CaNn_star0, CaNn_star0, NFATpn0, k35, k36, k37); v17: cui_2008__v17(v170, v17a, v17b, NFATn_GSK3betan0, GSK3betan0, NFATn0, k38, k39, k40); v18: cui_2008__v18(v180, NFATn0, MRNA0, k41, k42); v19: cui_2008__v19(v190, t_half, MRNA0, MCIP0, k43); model_parameters: cui_2008__model_parameters(k1, k2, k3, k4, k5, k6, k7, k8, k9, k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k40, k41, k42, k43, t_half, Ca); end