// Created by libAntimony v2.8.0 function vAK(ADP, AMP, ATP, k1, k2) k1*ADP^2 - AMP*ATP*k2; end function v2sub2prod(Vfmax, Keq, S1, Ks1, S2, Ks2, P1, Kp1, P2, Kp2) (Vfmax*S1*S2*(1 - (P1*P2)/(Keq*S1*S2)))/(Ks1*Ks2*(1 + S1/Ks1 + P1/Kp1)*(1 + S2/Ks2 + P2/Kp2)); end function v1sub(Vfmax, S, Ks) (Vfmax*S)/(Ks*(1 + S/Ks)); end function v2sub2prod_compinhib(Vfmax, Keq, S1, Ks1, S2, Ks2, P1, Kp1, P2, Kp2, I1, Ki1, I2, Ki2) (Vfmax*S1*S2*(1 - (P1*P2)/(Keq*S1*S2)))/(Ks1*Ks2*(1 + S1/Ks1 + P1/Kp1)*(1 + S2/Ks2 + P2/Kp2 + I1/Ki1 + I2/Ki2)); end function mass_action_rev(k1, S, k2, P) k1*S - k2*P; end function v1sub1prod(Vfmax, Keq, S, Ks, P, Kp) (Vfmax*S*(1 - P/(Keq*S)))/(Ks*(1 + S/Ks + P/Kp)); end function mass_action_irrev(k, S) k*S; end model *MODEL1401310002() // Compartments and Species: compartment cytosol, glycosome, default; species $Fru_e in default, _2PGA_c in cytosol, Fru_g in glycosome, Fru_c in cytosol; species DHAP_c in cytosol, ATP_g in glycosome, DHAP_g in glycosome, ADP_g in glycosome; species Glc6P_g in glycosome, ADP_c in cytosol, _3PGA_c in cytosol, NADPH_c in cytosol; species Fru6P_g in glycosome, $Fru6P_c in cytosol, $Pi_g in glycosome, $O2_c in default; species NADP_c in cytosol, ATP_c in cytosol, NADP_g in glycosome, _6PG_g in glycosome; species $CO2_c in cytosol, Rul5P_c in cytosol, _6PG_c in cytosol, Rul5P_g in glycosome; species Glc6P_c in cytosol, $Rib5P_c in cytosol, _13BPGA_g in glycosome; species Glc_c in cytosol, Rib5P_g in glycosome, Glc_g in glycosome, $Glc_e in default; species NADPH_g in glycosome, $Rib_g in glycosome, Pyr_c in cytosol, $Pyr_e in default; species NAD_g in glycosome, Fru16BP_g in glycosome, GA3P_g in glycosome; species $Gly_e in default, TSH2_c in cytosol, $CO2_g in glycosome, Gly3P_c in cytosol; species Gly3P_g in glycosome, _6PGL_c in cytosol, TS2_c in cytosol, _6PGL_g in glycosome; species PEP_c in cytosol, AMP_g in glycosome, _3PGA_g in glycosome, AMP_c in cytosol; species NADH_g in glycosome; // Reactions: TPI_g: DHAP_g -> GA3P_g; v1sub1prod(TPI_g_TPI_g_Vmax, TPI_g_TPI_g_Keq, DHAP_g, TPI_g_TPI_g_KmDHAP, GA3P_g, TPI_g_TPI_g_KmGA3P); PYK_c: PEP_c + ADP_c -> Pyr_c + ATP_c; (PYK_c_PYK_c_Vmax*ADP_c*(1 - (Pyr_c*ATP_c)/(PYK_c_PYK_c_Keq*PEP_c*ADP_c))*(PEP_c/(PYK_c_PYK_c_KmPEP*(1 + ADP_c/PYK_c_PYK_c_KiADP + ATP_c/PYK_c_PYK_c_KiATP)))^PYK_c_PYK_c_n)/(PYK_c_PYK_c_KmADP*(1 + (PEP_c/(PYK_c_PYK_c_KmPEP*(1 + ADP_c/PYK_c_PYK_c_KiADP + ATP_c/PYK_c_PYK_c_KiATP)))^PYK_c_PYK_c_n + Pyr_c/PYK_c_PYK_c_KmPyr)*(1 + ADP_c/PYK_c_PYK_c_KmADP + ATP_c/PYK_c_PYK_c_KmATP)); PFK_g: ATP_g + Fru6P_g -> Fru16BP_g + ADP_g; (PFK_g_PFK_g_Vmax*PFK_g_PFK_g_Ki1*Fru6P_g*ATP_g*(1 - (Fru16BP_g*ADP_g)/(PFK_g_PFK_g_Keq*Fru6P_g*ATP_g)))/(PFK_g_PFK_g_KmFru6P*PFK_g_PFK_g_KmATP*(Fru16BP_g + PFK_g_PFK_g_Ki1)*(PFK_g_PFK_g_KsATP/PFK_g_PFK_g_KmATP + Fru6P_g/PFK_g_PFK_g_KmFru6P + ATP_g/PFK_g_PFK_g_KmATP + ADP_g/PFK_g_PFK_g_KmADP + (Fru16BP_g*ADP_g)/(PFK_g_PFK_g_KmADP*PFK_g_PFK_g_Ki2) + (Fru6P_g*ATP_g)/(PFK_g_PFK_g_KmFru6P*PFK_g_PFK_g_KmATP))); G6PDH_g: Glc6P_g + NADP_g -> _6PGL_g + NADPH_g; v2sub2prod(G6PDH_g_G6PDH_g_Vmax, G6PDH_g_G6PDH_g_Keq, Glc6P_g, G6PDH_g_G6PDH_g_KmGlc6P, NADP_g, G6PDH_g_G6PDH_g_KmNADP, _6PGL_g, G6PDH_g_G6PDH_g_Km6PGL, NADPH_g, G6PDH_g_G6PDH_g_KmNADPH); PGAM_c: _3PGA_c -> _2PGA_c; v1sub1prod(PGAM_c_PGAM_c_Vmax, PGAM_c_PGAM_c_Keq, _3PGA_c, PGAM_c_PGAM_c_Km3PGA, _2PGA_c, PGAM_c_PGAM_c_Km2PGA); PyrT_c: Pyr_c => $Pyr_e; v1sub(PyrT_c_PyrT_c_Vmax, Pyr_c, PyrT_c_PyrT_c_KmPyr); G6PDH_c: Glc6P_c + NADP_c -> NADPH_c + _6PGL_c; v2sub2prod(G6PDH_c_G6PDH_c_Vmax, G6PDH_c_G6PDH_c_Keq, Glc6P_c, G6PDH_c_G6PDH_c_KmGlc6P, NADP_c, G6PDH_c_G6PDH_c_KmNADP, _6PGL_c, G6PDH_c_G6PDH_c_Km6PGL, NADPH_c, G6PDH_c_G6PDH_c_KmNADPH); ENO_c: _2PGA_c -> PEP_c; v1sub1prod(ENO_c_ENO_c_Vmax, ENO_c_ENO_c_Keq, _2PGA_c, ENO_c_ENO_c_Km2PGA, PEP_c, ENO_c_ENO_c_KmPEP); HXK_g: ATP_g + Glc_g -> Glc6P_g + ADP_g; v2sub2prod_compinhib(HXK_g_HXK_g_Vmax, HXK_g_HXK_g_Keq, Glc_g, HXK_g_HXK_g_KmGlc, ATP_g, HXK_g_HXK_g_KmATP, Glc6P_g, HXK_g_HXK_g_KmGlc6P, ADP_g, HXK_g_HXK_g_KmADP, Fru_g, HXK_g_HXK_g_KiFru, Fru6P_g, HXK_g_HXK_g_KiFru6P); RK_g: ADP_g + Rib5P_g -> ATP_g + $Rib_g; v2sub2prod(RK_g_RK_g_Vmax, RK_g_RK_g_Keq, Rib5P_g, RK_g_RK_g_KmRib5P, ADP_g, RK_g_RK_g_KmADP, Rib_g, RK_g_RK_g_KmRib, ATP_g, RK_g_RK_g_KmATP); _3PGAT_g: _3PGA_g -> _3PGA_c; mass_action_rev(_3PGAT_g__3PGAT_g_k, _3PGA_g, _3PGAT_g__3PGAT_g_k, _3PGA_c); NADPHu_c: NADPH_c => NADP_c; mass_action_irrev(NADPHu_c_NADPHu_c_k, NADPH_c); HXK_c: Glc_c + ATP_c -> Glc6P_c + ADP_c; v2sub2prod_compinhib(HXK_c_HXK_c_Vmax, HXK_c_HXK_c_Keq, Glc_c, HXK_c_HXK_c_KmGlc, ATP_c, HXK_c_HXK_c_KmATP, Glc6P_c, HXK_c_HXK_c_KmGlc6P, ADP_c, HXK_c_HXK_c_KmADP, Fru_c, HXK_c_HXK_c_KiFru, Fru6P_c, HXK_c_HXK_c_KiFru6P); NADPHu_g: NADPH_g => NADP_g; mass_action_irrev(NADPHu_g_NADPHu_g_k, NADPH_g); HXKfru_g: Fru_g + ATP_g -> ADP_g + Fru6P_g; v2sub2prod_compinhib(HXKfru_g_HXKfru_g_Vmax, HXKfru_g_HXKfru_g_Keq, Fru_g, HXKfru_g_HXKfru_g_KmFru, ATP_g, HXKfru_g_HXKfru_g_KmATP, Fru6P_g, HXKfru_g_HXKfru_g_KmFru6P, ADP_g, HXKfru_g_HXKfru_g_KmADP, Glc_g, HXKfru_g_HXKfru_g_KiGlc, Glc6P_g, HXKfru_g_HXKfru_g_KiGlc6P); G6PP_c: Glc6P_c -> Glc_c; v1sub1prod(G6PP_c_G6PP_c_Vmax, G6PP_c_G6PP_c_Keq, Glc6P_c, G6PP_c_G6PP_c_KmGlc6P, Glc_c, G6PP_c_G6PP_c_KmGlc); AK_c: 2ADP_c -> AMP_c + ATP_c; vAK(ADP_c, AMP_c, ATP_c, AK_c_AK_c_k1, AK_c_AK_c_k2); PGI_g: Glc6P_g -> Fru6P_g; (PGI_g_PGI_g_Vmax*Glc6P_g*(1 - Fru6P_g/(PGI_g_PGI_g_Keq*Glc6P_g)))/(PGI_g_PGI_g_KmGlc6P*(1 + Glc6P_g/PGI_g_PGI_g_KmGlc6P + Fru6P_g/PGI_g_PGI_g_KmFru6P + _6PG_g/PGI_g_PGI_g_Ki6PG)); HXKfru_c: Fru_c + ATP_c -> ADP_c + $Fru6P_c; v2sub2prod_compinhib(HXKfru_c_HXKfru_c_Vmax, HXKfru_c_HXKfru_c_Keq, Fru_c, HXKfru_c_HXKfru_c_KmFru, ATP_c, HXKfru_c_HXKfru_c_KmATP, Fru6P_c, HXKfru_c_HXKfru_c_KmFru6P, ADP_c, HXKfru_c_HXKfru_c_KmADP, Glc_c, HXKfru_c_HXKfru_c_KiGlc, Glc6P_c, HXKfru_c_HXKfru_c_KiGlc6P); TOX_c: TSH2_c => TS2_c; mass_action_irrev(TOX_c_TOX_c_k, TSH2_c); GDA_g: Gly3P_g + DHAP_c -> Gly3P_c + DHAP_g; Gly3P_g*GDA_g_GDA_g_k*DHAP_c - Gly3P_c*GDA_g_GDA_g_k*DHAP_g; FruT_g: Fru_c -> Fru_g; mass_action_rev(FruT_g_FruT_g_k1, Fru_c, FruT_g_FruT_g_k2, Fru_g); PGL_c: _6PGL_c -> _6PG_c; PGL_c_PGL_c_k*cytosol*(_6PGL_c - _6PG_c/PGL_c_PGL_c_Keq) + v1sub1prod(PGL_c_PGL_c_Vmax, PGL_c_PGL_c_Keq, _6PGL_c, PGL_c_PGL_c_Km6PGL, _6PG_c, PGL_c_PGL_c_Km6PG); FruT_c: $Fru_e -> Fru_c; (FruT_c_FruT_c_Vmax*(Fru_e - Fru_c))/(FruT_c_FruT_c_KmFru + Fru_e + Fru_c + (FruT_c_FruT_c_alpha*Fru_e*Fru_c)/FruT_c_FruT_c_KmFru); AK_g: 2ADP_g -> AMP_g + ATP_g; vAK(ADP_g, AMP_g, ATP_g, AK_g_AK_g_k1, AK_g_AK_g_k2); _6PGDH_c: NADP_c + _6PG_c -> $CO2_c + NADPH_c + Rul5P_c; v2sub2prod(_6PGDH_c__6PGDH_c_Vmax, _6PGDH_c__6PGDH_c_Keq, _6PG_c, _6PGDH_c__6PGDH_c_Km6PG, NADP_c, _6PGDH_c__6PGDH_c_KmNADP, Rul5P_c, _6PGDH_c__6PGDH_c_KmRul5P, NADPH_c, _6PGDH_c__6PGDH_c_KmNADPH); PPI_c: Rul5P_c -> $Rib5P_c; v1sub1prod(PPI_c_PPI_c_Vmax, PPI_c_PPI_c_Keq, Rul5P_c, PPI_c_PPI_c_KmRul5P, Rib5P_c, PPI_c_PPI_c_KmRib5P); PPI_g: Rul5P_g -> Rib5P_g; v1sub1prod(PPI_g_PPI_g_Vmax, PPI_g_PPI_g_Keq, Rul5P_g, PPI_g_PPI_g_KmRul5P, Rib5P_g, PPI_g_PPI_g_KmRib5P); _6PGDH_g: _6PG_g + NADP_g -> Rul5P_g + $CO2_g + NADPH_g; v2sub2prod(_6PGDH_g__6PGDH_g_Vmax, _6PGDH_g__6PGDH_g_Keq, _6PG_g, _6PGDH_g__6PGDH_g_Km6PG, NADP_g, _6PGDH_g__6PGDH_g_KmNADP, Rul5P_g, _6PGDH_g__6PGDH_g_KmRul5P, NADPH_g, _6PGDH_g__6PGDH_g_KmNADPH); GlcT_g: Glc_c -> Glc_g; mass_action_rev(GlcT_g_GlcT_g_k1, Glc_c, GlcT_g_GlcT_g_k2, Glc_g); GlcT_c: $Glc_e -> Glc_c; (GlcT_c_GlcT_c_Vmax*(Glc_e - Glc_c))/(GlcT_c_GlcT_c_KmGlc + Glc_e + Glc_c + (GlcT_c_GlcT_c_alpha*Glc_e*Glc_c)/GlcT_c_GlcT_c_KmGlc); PGL_g: _6PGL_g -> _6PG_g; glycosome*PGL_g_PGL_g_k*(_6PGL_g - _6PG_g/PGL_g_PGL_g_Keq) + v1sub1prod(PGL_g_PGL_g_Vmax, PGL_g_PGL_g_Keq, _6PGL_g, PGL_g_PGL_g_Km6PGL, _6PG_g, PGL_g_PGL_g_Km6PG); TR_c: TS2_c + NADPH_c -> NADP_c + TSH2_c; v2sub2prod(TR_c_TR_c_Vmax, TR_c_TR_c_Keq, TS2_c, TR_c_TR_c_KmTS2, NADPH_c, TR_c_TR_c_KmNADPH, TSH2_c, TR_c_TR_c_KmTSH2, NADP_c, TR_c_TR_c_KmNADP); PGK_g: _13BPGA_g + ADP_g -> _3PGA_g + ATP_g; v2sub2prod(PGK_g_PGK_g_Vmax, PGK_g_PGK_g_Keq, _13BPGA_g, PGK_g_PGK_g_Km13BPGA, ADP_g, PGK_g_PGK_g_KmADP, _3PGA_g, PGK_g_PGK_g_Km3PGA, ATP_g, PGK_g_PGK_g_KmATP); G3PDH_g: NADH_g + DHAP_g -> Gly3P_g + NAD_g; v2sub2prod(G3PDH_g_G3PDH_g_Vmax, G3PDH_g_G3PDH_g_Keq, DHAP_g, G3PDH_g_G3PDH_g_KmDHAP, NADH_g, G3PDH_g_G3PDH_g_KmNADH, Gly3P_g, G3PDH_g_G3PDH_g_KmGly3P, NAD_g, G3PDH_g_G3PDH_g_KmNAD); ATPu_c: ATP_c => ADP_c; (ATPu_c_ATPu_c_k*ATP_c)/ADP_c; GK_g: Gly3P_g + ADP_g -> $Gly_e + ATP_g; v2sub2prod(GK_g_GK_g_Vmax, GK_g_GK_g_Keq, Gly3P_g, GK_g_GK_g_KmGly3P, ADP_g, GK_g_GK_g_KmADP, Gly_e, GK_g_GK_g_KmGly, ATP_g, GK_g_GK_g_KmATP); ALD_g: Fru16BP_g -> GA3P_g + DHAP_g; (ALD_g_ALD_g_Vmax*Fru16BP_g*(1 - (GA3P_g*DHAP_g)/(Fru16BP_g*ALD_g_ALD_g_Keq)))/(ALD_g_ALD_g_KmFru16BP*(1 + ATP_g/ALD_g_ALD_g_KiATP + ADP_g/ALD_g_ALD_g_KiADP + AMP_g/ALD_g_ALD_g_KiAMP)*(1 + GA3P_g/ALD_g_ALD_g_KmGA3P + DHAP_g/ALD_g_ALD_g_KmDHAP + Fru16BP_g/(ALD_g_ALD_g_KmFru16BP*(1 + ATP_g/ALD_g_ALD_g_KiATP + ADP_g/ALD_g_ALD_g_KiADP + AMP_g/ALD_g_ALD_g_KiAMP)) + (GA3P_g*DHAP_g)/(ALD_g_ALD_g_KmGA3P*ALD_g_ALD_g_KmDHAP) + (Fru16BP_g*GA3P_g)/(ALD_g_ALD_g_KmFru16BP*ALD_g_ALD_g_KiGA3P*(1 + ATP_g/ALD_g_ALD_g_KiATP + ADP_g/ALD_g_ALD_g_KiADP + AMP_g/ALD_g_ALD_g_KiAMP)))); GAPDH_g: GA3P_g + NAD_g + $Pi_g -> NADH_g + _13BPGA_g; v2sub2prod(GAPDH_g_GAPDH_g_Vmax, GAPDH_g_GAPDH_g_Keq, GA3P_g, GAPDH_g_GAPDH_g_KmGA3P, NAD_g, GAPDH_g_GAPDH_g_KmNAD, _13BPGA_g, GAPDH_g_GAPDH_g_Km13BPGA, NADH_g, GAPDH_g_GAPDH_g_KmNADH); GPO_c: Gly3P_c => DHAP_c; v1sub(GPO_c_GPO_c_Vmax, Gly3P_c, GPO_c_GPO_c_KmGly3P); // Species initializations: Fru_e = 5; _2PGA_c = 0.1; Fru_g = 0.1; Fru_c = 0.1; DHAP_c = 2.23132912; ATP_g = 0.2405; DHAP_g = 8.483130623; ADP_g = 1.519; Glc6P_g = 0.5; ADP_c = 1.3165; _3PGA_c = 0.1; NADPH_c = 3.9; Fru6P_g = 0.5; Fru6P_c = 0.9; Pi_g = 0; O2_c = 1; NADP_c = 0.1; ATP_c = 0.3417; NADP_g = 0.1; _6PG_g = 0.0841958; CO2_c = 0; Rul5P_c = 0.41282; _6PG_c = 0.0841958; Rul5P_g = 0.41282; Glc6P_c = 0.5; Rib5P_c = 0.01; _13BPGA_g = 0.5; Glc_c = 0.1; Rib5P_g = 0.01; Glc_g = 0.1; Glc_e = 5; NADPH_g = 3.9; Rib_g = 0.01; Pyr_c = 10; Pyr_e = 0; NAD_g = 2; Fru16BP_g = 10; GA3P_g = 2.5; Gly_e = 0; TSH2_c = 0.01; CO2_g = 0; Gly3P_c = 2.76867088; Gly3P_g = 10.51686938; _6PGL_c = 0.0795278; TS2_c = 0.37; _6PGL_g = 0.0795278; PEP_c = 1; AMP_g = 4.2405; _3PGA_g = 0.1; AMP_c = 2.2418; NADH_g = 2; // Compartment initializations: cytosol = 5.4549; glycosome = 0.2451; default = 1; // Variable initializations: TPI_g_TPI_g_Vmax = 999.3; TPI_g_TPI_g_Keq = 0.046; TPI_g_TPI_g_KmDHAP = 1.2; TPI_g_TPI_g_KmGA3P = 0.25; PYK_c_PYK_c_Vmax = 1020; PYK_c_PYK_c_KmPEP = 0.34; PYK_c_PYK_c_KiATP = 0.57; PYK_c_PYK_c_KiADP = 0.64; PYK_c_PYK_c_n = 2.5; PYK_c_PYK_c_KmADP = 0.114; PYK_c_PYK_c_Keq = 10800; PYK_c_PYK_c_KmPyr = 50; PYK_c_PYK_c_KmATP = 15; PFK_g_PFK_g_Vmax = 1708; PFK_g_PFK_g_Ki1 = 15.8; PFK_g_PFK_g_KmFru6P = 0.999; PFK_g_PFK_g_KmATP = 0.0648; PFK_g_PFK_g_Keq = 1035; PFK_g_PFK_g_KsATP = 0.0393; PFK_g_PFK_g_KmADP = 1; PFK_g_PFK_g_Ki2 = 10.7; G6PDH_g_G6PDH_g_Vmax = 8.4; G6PDH_g_G6PDH_g_Keq = 5.02; G6PDH_g_G6PDH_g_KmGlc6P = 0.058; G6PDH_g_G6PDH_g_KmNADP = 0.0094; G6PDH_g_G6PDH_g_Km6PGL = 0.04; G6PDH_g_G6PDH_g_KmNADPH = 0.0001; PGAM_c_PGAM_c_Vmax = 225; PGAM_c_PGAM_c_Keq = 0.17; PGAM_c_PGAM_c_Km3PGA = 0.15; PGAM_c_PGAM_c_Km2PGA = 0.16; PyrT_c_PyrT_c_Vmax = 230; PyrT_c_PyrT_c_KmPyr = 1.96; G6PDH_c_G6PDH_c_Vmax = 8.4; G6PDH_c_G6PDH_c_Keq = 5.02; G6PDH_c_G6PDH_c_KmGlc6P = 0.058; G6PDH_c_G6PDH_c_KmNADP = 0.0094; G6PDH_c_G6PDH_c_Km6PGL = 0.04; G6PDH_c_G6PDH_c_KmNADPH = 0.0001; ENO_c_ENO_c_Vmax = 598; ENO_c_ENO_c_Keq = 4.17; ENO_c_ENO_c_Km2PGA = 0.054; ENO_c_ENO_c_KmPEP = 0.24; HXK_g_HXK_g_Vmax = 1774.68; HXK_g_HXK_g_Keq = 759; HXK_g_HXK_g_KmGlc = 0.1; HXK_g_HXK_g_KmATP = 0.116; HXK_g_HXK_g_KmGlc6P = 2.7; HXK_g_HXK_g_KmADP = 0.126; HXK_g_HXK_g_KiFru = 0.35; HXK_g_HXK_g_KiFru6P = 2.7; RK_g_RK_g_Vmax = 10; RK_g_RK_g_Keq = 0.0036; RK_g_RK_g_KmRib5P = 0.39; RK_g_RK_g_KmADP = 0.25; RK_g_RK_g_KmRib = 0.51; RK_g_RK_g_KmATP = 0.24; _3PGAT_g__3PGAT_g_k = 250; NADPHu_c_NADPHu_c_k = 2; HXK_c_HXK_c_Vmax = 154.32; HXK_c_HXK_c_Keq = 759; HXK_c_HXK_c_KmGlc = 0.1; HXK_c_HXK_c_KmATP = 0.116; HXK_c_HXK_c_KmGlc6P = 2.7; HXK_c_HXK_c_KmADP = 0.126; HXK_c_HXK_c_KiFru = 0.35; HXK_c_HXK_c_KiFru6P = 2.7; NADPHu_g_NADPHu_g_k = 2; HXKfru_g_HXKfru_g_Vmax = 1774.68; HXKfru_g_HXKfru_g_Keq = 631; HXKfru_g_HXKfru_g_KmFru = 0.35; HXKfru_g_HXKfru_g_KmATP = 0.116; HXKfru_g_HXKfru_g_KmFru6P = 2.7; HXKfru_g_HXKfru_g_KmADP = 0.126; HXKfru_g_HXKfru_g_KiGlc = 0.1; HXKfru_g_HXKfru_g_KiGlc6P = 2.7; G6PP_c_G6PP_c_Vmax = 28; G6PP_c_G6PP_c_Keq = 263; G6PP_c_G6PP_c_KmGlc6P = 5.6; G6PP_c_G6PP_c_KmGlc = 5.6; AK_c_AK_c_k1 = 480; AK_c_AK_c_k2 = 1000; PGI_g_PGI_g_Vmax = 1305; PGI_g_PGI_g_KmGlc6P = 0.4; PGI_g_PGI_g_Keq = 0.457; PGI_g_PGI_g_KmFru6P = 0.12; PGI_g_PGI_g_Ki6PG = 0.14; HXKfru_c_HXKfru_c_Vmax = 154.32; HXKfru_c_HXKfru_c_Keq = 631; HXKfru_c_HXKfru_c_KmFru = 0.35; HXKfru_c_HXKfru_c_KmATP = 0.116; HXKfru_c_HXKfru_c_KmFru6P = 2.7; HXKfru_c_HXKfru_c_KmADP = 0.126; HXKfru_c_HXKfru_c_KiGlc = 0.1; HXKfru_c_HXKfru_c_KiGlc6P = 2.7; TOX_c_TOX_c_k = 2; GDA_g_GDA_g_k = 600; FruT_g_FruT_g_k1 = 250000; FruT_g_FruT_g_k2 = 250000; PGL_c_PGL_c_Vmax = 28; PGL_c_PGL_c_Keq = 20000; PGL_c_PGL_c_Km6PGL = 0.05; PGL_c_PGL_c_Km6PG = 0.05; PGL_c_PGL_c_k = 0.055; FruT_c_FruT_c_Vmax = 69.1; FruT_c_FruT_c_KmFru = 3.91; FruT_c_FruT_c_alpha = 0.75; AK_g_AK_g_k1 = 480; AK_g_AK_g_k2 = 1000; _6PGDH_c__6PGDH_c_Vmax = 10.6; _6PGDH_c__6PGDH_c_Keq = 47; _6PGDH_c__6PGDH_c_Km6PG = 0.0035; _6PGDH_c__6PGDH_c_KmNADP = 0.001; _6PGDH_c__6PGDH_c_KmRul5P = 0.03; _6PGDH_c__6PGDH_c_KmNADPH = 0.0006; PPI_c_PPI_c_Vmax = 72; PPI_c_PPI_c_Keq = 5.6; PPI_c_PPI_c_KmRul5P = 1.4; PPI_c_PPI_c_KmRib5P = 4; PPI_g_PPI_g_Vmax = 72; PPI_g_PPI_g_Keq = 5.6; PPI_g_PPI_g_KmRul5P = 1.4; PPI_g_PPI_g_KmRib5P = 4; _6PGDH_g__6PGDH_g_Vmax = 10.6; _6PGDH_g__6PGDH_g_Keq = 47; _6PGDH_g__6PGDH_g_Km6PG = 0.0035; _6PGDH_g__6PGDH_g_KmNADP = 0.001; _6PGDH_g__6PGDH_g_KmRul5P = 0.03; _6PGDH_g__6PGDH_g_KmNADPH = 0.0006; GlcT_g_GlcT_g_k1 = 250000; GlcT_g_GlcT_g_k2 = 250000; GlcT_c_GlcT_c_Vmax = 111.7; GlcT_c_GlcT_c_KmGlc = 1; GlcT_c_GlcT_c_alpha = 0.75; PGL_g_PGL_g_Vmax = 5; PGL_g_PGL_g_Keq = 20000; PGL_g_PGL_g_Km6PGL = 0.05; PGL_g_PGL_g_Km6PG = 0.05; PGL_g_PGL_g_k = 0.055; TR_c_TR_c_Vmax = 252; TR_c_TR_c_Keq = 434; TR_c_TR_c_KmTS2 = 0.0069; TR_c_TR_c_KmNADPH = 0.00077; TR_c_TR_c_KmTSH2 = 0.0018; TR_c_TR_c_KmNADP = 0.081; PGK_g_PGK_g_Vmax = 2862; PGK_g_PGK_g_Keq = 3377; PGK_g_PGK_g_Km13BPGA = 0.003; PGK_g_PGK_g_KmADP = 0.1; PGK_g_PGK_g_Km3PGA = 1.62; PGK_g_PGK_g_KmATP = 0.29; G3PDH_g_G3PDH_g_Vmax = 465; G3PDH_g_G3PDH_g_Keq = 17085; G3PDH_g_G3PDH_g_KmDHAP = 0.1; G3PDH_g_G3PDH_g_KmNADH = 0.01; G3PDH_g_G3PDH_g_KmGly3P = 2; G3PDH_g_G3PDH_g_KmNAD = 0.4; ATPu_c_ATPu_c_k = 50; GK_g_GK_g_Vmax = 200; GK_g_GK_g_Keq = 0.000837; GK_g_GK_g_KmGly3P = 3.83; GK_g_GK_g_KmADP = 0.56; GK_g_GK_g_KmGly = 0.44; GK_g_GK_g_KmATP = 0.24; ALD_g_ALD_g_Vmax = 560; ALD_g_ALD_g_KmFru16BP = 0.009; ALD_g_ALD_g_KiATP = 0.68; ALD_g_ALD_g_KiADP = 1.51; ALD_g_ALD_g_KiAMP = 3.65; ALD_g_ALD_g_Keq = 0.084; ALD_g_ALD_g_KmGA3P = 0.067; ALD_g_ALD_g_KmDHAP = 0.015; ALD_g_ALD_g_KiGA3P = 0.098; GAPDH_g_GAPDH_g_Vmax = 720.9; GAPDH_g_GAPDH_g_Keq = 0.066; GAPDH_g_GAPDH_g_KmGA3P = 0.15; GAPDH_g_GAPDH_g_KmNAD = 0.45; GAPDH_g_GAPDH_g_Km13BPGA = 0.1; GAPDH_g_GAPDH_g_KmNADH = 0.02; GPO_c_GPO_c_Vmax = 368; GPO_c_GPO_c_KmGly3P = 1.7; // Other declarations: const cytosol, glycosome, default; // Unit definitions: unit volume = 1e-6 litre; unit length = metre; unit substance = 1e-9 mole; unit time_unit = 60 second; unit area = metre^2; end