// This model generated automatically from SBML // unit definitions import nsrunit; unit conversion off; // SBML property definitions property sbmlRole=string; property sbmlName=string; property sbmlCompartment=string; // SBML reactions // vGLT: Glcout => Glcin // vHEX: Glcin MgATP => Glc6P MgADP // vGPI: Glc6P => Fru6P // vPFK: Fru6P MgATP => Fru16P2 MgADP // vALD: Fru16P2 => GraP // vTPI: DHAP => GraP // vGAPDH: GraP Phi NAD => Gri13P2 NADH // vPGK: Gri13P2 MgADP => Gri3P MgATP // vBPGM: Gri13P2 => Gri23P2f // vBPGP: Gri23P2f => Gri3P Phi // vPGM: Gri3P => Gri2P // vENO: Gri2P => PEP // vPK: PEP MgADP => Pyr MgATP // vLDHNADH: Pyr NADH => Lac NAD // vLDHNADPH: Pyr NADPHf => Lac NADPf // vATPase: MgATP => MgADP Phi // vAK: MgATP AMPf => MgADP ADPf // vG6PDH: Glc6P NADPf => GlcA6P NADPHf // vPGLDH: GlcA6P NADPf => Rul5P NADPHf // vGSSGRD: GSSG NADPHf => 2GSH NADPf // vGSHox: 2GSH => GSSG // vRibPepi: Rul5P => Xul5P // vRibPiso: Rul5P => Rib5P // vTrKet1: Rib5P Xul5P => GraP Sed7P // vTrAld: Sed7P GraP => E4P Fru6P // vPPRPPS: Rib5P MgATP => PRPP MgAMP // vTrKet2: E4P Xul5P => GraP Fru6P // vPhiexch: Phiex => Phi // vLacexch: Lacex => Lac // vPyrexch: Pyrex => Pyr // vMgATP: MgATP => ATPf Mgf // vMgADP: MgADP => ADPf Mgf // vMgAMP: MgAMP => AMPf Mgf // vMgGri23P2: MgGri23P2 => Gri23P2f Mgf // vP1NADP: P1NADP => P1f NADPf // vP1NADPH: P1NADPH => P1f NADPHf // vP2NADP: P2NADP => P2f NADPf // vP2NADPH: P2NADPH => P2f NADPHf math main { realDomain time second; time.min=0; extern time.max; extern time.delta; // variable definitions real compartment = 1 L; real Vmaxv0 = 33.6; real KMoutv0 = 1.7; real KMinv0 = 6.9; real alfav0 = .54; real Keqv0 = 1; real Vmax1v1 = 15.8; real Vmax2v1 = 33.2; real KMGlcv1 = .1; real KMgATPv1 = 1.44; real KMgv1 = 1.03; real KMgATPMgv1 = 1.14; real K23P2Gv1 = 2.7; real KMg23P2Gv1 = 3.44; real KGlc6Pv1 = .0045; real Keqv1 = 3900; real Inhibv1 = 1; real Vmaxv2 = 935; real KGlc6Pv2 = .182; real KFru6Pv2 = .071; real Keqv2 = .3925; real Vmaxv3 = 239; real KFru6Pv3 = .1; real KMgATPv3 = .068; real KMgv3 = .44; real KAMPv3 = .033; real KATPv3 = .01; real L0v3 = .001072; real Keqv3 = 1E5; real Vmaxv4 = 98.91000366; real KFru16P2v4 = .0071; real KGraPv4 = .1906; real KDHAPv4 = .0364; real KiGraPv4 = .0572; real KiiGraPv4 = .176; real Keqv4 = .114; real Vmaxv5 = 5456.600098; real KDHAPv5 = .838; real KGraPv5 = .428; real Keqv5 = .0407; real Vmaxv6 = 4300; real KNADv6 = .05; real KGraPv6 = .005; real KPv6 = 3.9; real KNADHv6 = .0083; real K13P2Gv6 = .0035; real Keqv6 = 1.92E-4; real Vmaxv7 = 5E3; real KMgADPv7 = .35; real K13P2Gv7 = .002; real KMgATPv7 = .48; real K3PGv7 = 1.2; real Keqv7 = 1455; real kDPGMv8 = 76000; real K23P2Gv8 = .04; real Keqv8 = 1E5; real Vmaxv9 = .53; real K23P2Gv9 = .2; real Keqv9 = 1E5; real Vmaxv10 = 2E3; real K3PGv10 = 5; real K2PGv10 = 1; real Keqv10 = .145; real Vmaxv11 = 1500; real K2PGv11 = 1; real KPEPv11 = 1; real Keqv11 = 1.7; real Vmaxv12 = 570; real KPEPv12 = .225; real KMgADPv12 = .474; real KFru16P2v12 = .005; real KATPv12 = 3.39; real L0v12 = 19; real Keqv12 = 13790; real Vmaxv13 = 2.8E6; real Keqv13 = 9090; real kLDHv14 = 243.4; real Keqv14 = 14181.8; real kATPasev15 = 1.68; real Vmaxv16 = 1380; real KATPv16 = .09; real KAMPv16 = .08; real KADPv16 = .11; real Keqv16 = .25; real Vmaxv17 = 162; real KG6Pv17 = .0667; real KNADPv17 = .00367; real KATPv17 = .749; real KNADPHv17 = .00312; real KPGA23v17 = 2.289; real Keqv17 = 2E3; real Vmaxv18 = 1575; real K6PG1v18 = .01; real K6PG2v18 = .058; real KPGA23v18 = .12; real KNADPv18 = .018; real KNADPHv18 = .0045; real KATPv18 = .154; real Keqv18 = 141.7; real Vmaxv19 = 90; real KGSSGv19 = .0652; real KNADPHv19 = .00852; real KNADPv19 = .07; real KGSHv19 = 20; real Keqv19 = 1.04; real Kv20 = .03; real Vmaxv21 = 4634; real KRu5Pv21 = .19; real KX5Pv21 = .5; real Keqv21 = 2.7; real Vmaxv22 = 730; real KRu5Pv22 = .78; real KR5Pv22 = 2.2; real Keqv22 = 3; real Vmaxv23 = 23.5; real K1v23 = .4177; real K2v23 = .3055; real K3v23 = 12.432; real K4v23 = .00496; real K5v23 = .41139; real K6v23 = .00774; real K7v23 = 48.8; real Keqv23 = 1.05; real Vmaxv24 = 27.2; real K1v24 = .00823; real K2v24 = .04765; real K3v24 = .1733; real K4v24 = .006095; real K5v24 = .8683; real K6v24 = .4653; real K7v24 = 2.524; real Keqv24 = 1.05; real Vmaxv25 = 1.1; real KATPv25 = .03; real KR5Pv25 = .57; real Keqv25 = 1E5; real Vmaxv26 = 23.5; real K1v26 = .00184; real K2v26 = .3055; real K3v26 = .0548; real K4v26 = 3E-4; real K5v26 = .0287; real K6v26 = .122; real K7v26 = .215; real Keqv26 = 1.2; real Vmaxv27 = 100; real Keqv27 = 1; real Vmaxv28 = 1E4; real Keqv28 = 1; real Vmaxv29 = 1E4; real Keqv29 = 1; real Atot = 2; real NADtot = .0655; real NADPtot = .052; real GStotal = 3.114; real Mgtot = 2.8; real protein1 = .024; real protein2 = .024; real Kd1 = 2E-4; real Kd2 = 1E-5; real Kd3 = 1E-5; real Kd4 = 2E-4; real KdATP = .072; real KdADP = .76; real KdAMP = 16.64; real Kd23P2G = 1.667; real EqMult = 1E7; real Glcout = 5 M; real Glcin(time) M; real MgATP(time) M; real Glc6P(time) M; real MgADP(time) M; real Mgf(time) M; real Gri23P2f(time) M; real MgGri23P2(time) M; real Fru6P(time) M; real Fru16P2(time) M; real ATPf(time) M; real AMPf(time) M; real MgAMP(time) M; real GraP(time) M; real DHAP(time) M; real Phi(time) M; real NAD(time) M; real Gri13P2(time) M; real NADH(time) M; real Gri3P(time) M; real Gri2P(time) M; real PEP(time) M; real Pyr(time) M; real Lac(time) M; real NADPHf(time) M; real NADPf(time) M; real ADPf(time) M; real GlcA6P(time) M; real Rul5P(time) M; real GSSG(time) M; real GSH(time) M; real Xul5P(time) M; real Rib5P(time) M; real Sed7P(time) M; real E4P(time) M; real PRPP = 1 M; real Phiex = 1 M; real Lacex = 1.68 M; real Pyrex = .084 M; real P1NADP(time) M; real P1f(time) M; real P1NADPH(time) M; real P2NADP(time) M; real P2f(time) M; real P2NADPH(time) M; real vGLT(time) katal; real vHEX(time) katal; real vGPI(time) katal; real vPFK(time) katal; real vALD(time) katal; real vTPI(time) katal; real vGAPDH(time) katal; real vPGK(time) katal; real vBPGM(time) katal; real vBPGP(time) katal; real vPGM(time) katal; real vENO(time) katal; real vPK(time) katal; real vLDHNADH(time) katal; real vLDHNADPH(time) katal; real vATPase(time) katal; real vAK(time) katal; real vG6PDH(time) katal; real vPGLDH(time) katal; real vGSSGRD(time) katal; real vGSHox(time) katal; real vRibPepi(time) katal; real vRibPiso(time) katal; real vTrKet1(time) katal; real vTrAld(time) katal; real vPPRPPS(time) katal; real vTrKet2(time) katal; real vPhiexch(time) katal; real vLacexch(time) katal; real vPyrexch(time) katal; real vMgATP(time) katal; real vMgADP(time) katal; real vMgAMP(time) katal; real vMgGri23P2(time) katal; real vP1NADP(time) katal; real vP1NADPH(time) katal; real vP2NADP(time) katal; real vP2NADPH(time) katal; // equations when (time=time.min) Glcin = 4.5663; Glcin:time = (vGLT + -1*vHEX)/compartment; when (time=time.min) MgATP = 1.4; MgATP:time = (-1*vHEX + -1*vPFK + vPGK + vPK + -1*vATPase + -1*vAK + -1*vPPRPPS + -1*vMgATP)/compartment; when (time=time.min) Glc6P = .0394; Glc6P:time = (vHEX + -1*vGPI + -1*vG6PDH)/compartment; when (time=time.min) MgADP = .1; MgADP:time = (vHEX + vPFK + -1*vPGK + -1*vPK + vATPase + vAK + -1*vMgADP)/compartment; when (time=time.min) Mgf = .8; Mgf:time = (vMgATP + vMgADP + vMgAMP + vMgGri23P2)/compartment; when (time=time.min) Gri23P2f = 2.0601; Gri23P2f:time = (vBPGM + -1*vBPGP + vMgGri23P2)/compartment; when (time=time.min) MgGri23P2 = .5; MgGri23P2:time = (-1*vMgGri23P2)/compartment; when (time=time.min) Fru6P = .0153; Fru6P:time = (vGPI + -1*vPFK + vTrAld + vTrKet2)/compartment; when (time=time.min) Fru16P2 = .0097; Fru16P2:time = (vPFK + -1*vALD)/compartment; when (time=time.min) ATPf = .25; ATPf:time = (vMgATP)/compartment; when (time=time.min) AMPf = 0; AMPf:time = (-1*vAK + vMgAMP)/compartment; when (time=time.min) MgAMP = 0; MgAMP:time = (vPPRPPS + -1*vMgAMP)/compartment; when (time=time.min) GraP = .0061; GraP:time = (vALD + vTPI + -1*vGAPDH + vTrKet1 + -1*vTrAld + vTrKet2)/compartment; when (time=time.min) DHAP = .1492; DHAP:time = (-1*vTPI)/compartment; when (time=time.min) Phi = .9992; Phi:time = (-1*vGAPDH + vBPGP + vATPase + vPhiexch)/compartment; when (time=time.min) NAD = .0653; NAD:time = (-1*vGAPDH + vLDHNADH)/compartment; when (time=time.min) Gri13P2 = 5E-4; Gri13P2:time = (vGAPDH + -1*vPGK + -1*vBPGM)/compartment; when (time=time.min) NADH = 2E-4; NADH:time = (vGAPDH + -1*vLDHNADH)/compartment; when (time=time.min) Gri3P = .0658; Gri3P:time = (vPGK + vBPGP + -1*vPGM)/compartment; when (time=time.min) Gri2P = .0084; Gri2P:time = (vPGM + -1*vENO)/compartment; when (time=time.min) PEP = .0109; PEP:time = (vENO + -1*vPK)/compartment; when (time=time.min) Pyr = .084; Pyr:time = (vPK + -1*vLDHNADH + -1*vLDHNADPH + vPyrexch)/compartment; when (time=time.min) Lac = 1.6803; Lac:time = (vLDHNADH + vLDHNADPH + vLacexch)/compartment; when (time=time.min) NADPHf = .004; NADPHf:time = (-1*vLDHNADPH + vG6PDH + vPGLDH + -1*vGSSGRD + vP1NADPH + vP2NADPH)/compartment; when (time=time.min) NADPf = 0; NADPf:time = (vLDHNADPH + -1*vG6PDH + -1*vPGLDH + vGSSGRD + vP1NADP + vP2NADP)/compartment; when (time=time.min) ADPf = .25; ADPf:time = (vAK + vMgADP)/compartment; when (time=time.min) GlcA6P = .025; GlcA6P:time = (vG6PDH + -1*vPGLDH)/compartment; when (time=time.min) Rul5P = .0047; Rul5P:time = (vPGLDH + -1*vRibPepi + -1*vRibPiso)/compartment; when (time=time.min) GSSG = 4E-4; GSSG:time = (-1*vGSSGRD + vGSHox)/compartment; when (time=time.min) GSH = 3.1136; GSH:time = (2*vGSSGRD + -2*vGSHox)/compartment; when (time=time.min) Xul5P = .0127; Xul5P:time = (vRibPepi + -1*vTrKet1 + -1*vTrKet2)/compartment; when (time=time.min) Rib5P = .014; Rib5P:time = (vRibPiso + -1*vTrKet1 + -1*vPPRPPS)/compartment; when (time=time.min) Sed7P = .0154; Sed7P:time = (vTrKet1 + -1*vTrAld)/compartment; when (time=time.min) E4P = .0063; E4P:time = (vTrAld + -1*vTrKet2)/compartment; when (time=time.min) P1NADP = 0; P1NADP:time = (-1*vP1NADP)/compartment; when (time=time.min) P1f = 0; P1f:time = (vP1NADP + vP1NADPH)/compartment; when (time=time.min) P1NADPH = .024; P1NADPH:time = (-1*vP1NADPH)/compartment; when (time=time.min) P2NADP = 0; P2NADP:time = (-1*vP2NADP)/compartment; when (time=time.min) P2f = 0; P2f:time = (vP2NADP + vP2NADPH)/compartment; when (time=time.min) P2NADPH = .024; P2NADPH:time = (-1*vP2NADPH)/compartment; vGLT = Vmaxv0/KMoutv0*(Glcout-Glcin/Keqv0)/(1+Glcout/KMoutv0+Glcin/KMinv0+alfav0*Glcout*Glcin/KMoutv0/KMinv0); vHEX = Inhibv1*Glcin/(Glcin+KMGlcv1)*(Vmax1v1/KMgATPv1)*(MgATP+Vmax2v1/Vmax1v1*MgATP*Mgf/KMgATPMgv1-Glc6P*MgADP/Keqv1)/(1+MgATP/KMgATPv1*(1+Mgf/KMgATPMgv1)+Mgf/KMgv1+(1.55+Glc6P/KGlc6Pv1)*(1+Mgf/KMgv1)+(Gri23P2f+MgGri23P2)/K23P2Gv1+Mgf*(Gri23P2f+MgGri23P2)/(KMgv1*KMg23P2Gv1)); vGPI = Vmaxv2*(Glc6P-Fru6P/Keqv2)/(Glc6P+KGlc6Pv2*(1+Fru6P/KFru6Pv2)); vPFK = Vmaxv3*(Fru6P*MgATP-Fru16P2*MgADP/Keqv3)/((Fru6P+KFru6Pv3)*(MgATP+KMgATPv3)*(1+L0v3*((1+ATPf/KATPv3)*(1+Mgf/KMgv3)/((1+(AMPf+MgAMP)/KAMPv3)*(1+Fru6P/KFru6Pv3)))^4)); vALD = Vmaxv4/KFru16P2v4*(Fru16P2-GraP*DHAP/Keqv4)/(1+Fru16P2/KFru16P2v4+GraP/KiGraPv4+DHAP*(GraP+KGraPv4)/(KDHAPv4*KiGraPv4)+Fru16P2*GraP/(KFru16P2v4*KiiGraPv4)); vTPI = Vmaxv5*(DHAP-GraP/Keqv5)/(DHAP+KDHAPv5*(1+GraP/KGraPv5)); vGAPDH = Vmaxv6/(KNADv6*KGraPv6*KPv6)*(NAD*GraP*Phi-Gri13P2*NADH/Keqv6)/((1+NAD/KNADv6)*(1+GraP/KGraPv6)*(1+Phi/KPv6)+(1+NADH/KNADHv6)*(1+Gri13P2/K13P2Gv6)-1); vPGK = Vmaxv7/(KMgADPv7*K13P2Gv7)*(MgADP*Gri13P2-MgATP*Gri3P/Keqv7)/((1+MgADP/KMgADPv7)*(1+Gri13P2/K13P2Gv7)+(1+MgATP/KMgATPv7)*(1+Gri3P/K3PGv7)-1); vBPGM = kDPGMv8*(Gri13P2-(Gri23P2f+MgGri23P2)/Keqv8)/(1+(Gri23P2f+MgGri23P2)/K23P2Gv8); vBPGP = Vmaxv9*(Gri23P2f+MgGri23P2-Gri3P/Keqv9)/(Gri23P2f+MgGri23P2+K23P2Gv9); vPGM = Vmaxv10*(Gri3P-Gri2P/Keqv10)/(Gri3P+K3PGv10*(1+Gri2P/K2PGv10)); vENO = Vmaxv11*(Gri2P-PEP/Keqv11)/(Gri2P+K2PGv11*(1+PEP/KPEPv11)); vPK = Vmaxv12*(PEP*MgADP-Pyr*MgATP/Keqv12)/((PEP+KPEPv12)*(MgADP+KMgADPv12)*(1+L0v12*(1+(ATPf+MgATP)/KATPv12)^4/((1+PEP/KPEPv12)^4*(1+Fru16P2/KFru16P2v12)^4))); vLDHNADH = Vmaxv13*(Pyr*NADH-Lac*NAD/Keqv13); vLDHNADPH = kLDHv14*(Pyr*NADPHf-Lac*NADPf/Keqv14); vATPase = kATPasev15*MgATP; vAK = Vmaxv16/(KATPv16*KAMPv16)*(MgATP*AMPf-MgADP*ADPf/Keqv16)/((1+MgATP/KATPv16)*(1+AMPf/KAMPv16)+(MgADP+ADPf)/KADPv16+MgADP*ADPf/KADPv16^2); vG6PDH = Vmaxv17/KG6Pv17/KNADPv17*(Glc6P*NADPf-GlcA6P*NADPHf/Keqv17)/(1+NADPf*(1+Glc6P/KG6Pv17)/KNADPv17+(ATPf+MgATP)/KATPv17+NADPHf/KNADPHv17+(Gri23P2f+MgGri23P2)/KPGA23v17); vPGLDH = Vmaxv18/K6PG1v18/KNADPv18*(GlcA6P*NADPf-Rul5P*NADPHf/Keqv18)/((1+NADPf/KNADPv18)*(1+GlcA6P/K6PG1v18+(Gri23P2f+MgGri23P2)/KPGA23v18)+(ATPf+MgATP)/KATPv18+NADPHf*(1+GlcA6P/K6PG2v18)/KNADPHv18); vGSSGRD = Vmaxv19*(GSSG*NADPHf/(KGSSGv19*KNADPHv19)-GSH^2/KGSHv19^2*NADPf/(KNADPv19*Keqv19))/(1+NADPHf*(1+GSSG/KGSSGv19)/KNADPHv19+NADPf/KNADPv19*(1+GSH*(1+GSH/KGSHv19)/KGSHv19)); vGSHox = Kv20*GSH; vRibPepi = Vmaxv21*(Rul5P-Xul5P/Keqv21)/(Rul5P+KRu5Pv21*(1+Xul5P/KX5Pv21)); vRibPiso = Vmaxv22*(Rul5P-Rib5P/Keqv22)/(Rul5P+KRu5Pv22*(1+Rib5P/KR5Pv22)); vTrKet1 = Vmaxv23*(Rib5P*Xul5P-GraP*Sed7P/Keqv23)/((K1v23+Rib5P)*Xul5P+(K2v23+K6v23*Sed7P)*Rib5P+(K3v23+K5v23*Sed7P)*GraP+K4v23*Sed7P+K7v23*Xul5P*GraP); vTrAld = Vmaxv24*(Sed7P*GraP-E4P*Fru6P/Keqv24)/((K1v24+GraP)*Sed7P+(K2v24+K6v24*Fru6P)*GraP+(K3v24+K5v24*Fru6P)*E4P+K4v24*Fru6P+K7v24*Sed7P*E4P); vPPRPPS = Vmaxv25*(Rib5P*MgATP-PRPP*MgAMP/Keqv25)/((KATPv25+MgATP)*(KR5Pv25+Rib5P)); vTrKet2 = Vmaxv26*(E4P*Xul5P-GraP*Fru6P/Keqv26)/((K1v26+E4P)*Xul5P+(K2v26+K6v26*Fru6P)*E4P+(K3v26+K5v26*Fru6P)*GraP+K4v26*Fru6P+K7v26*Xul5P*GraP); vPhiexch = Vmaxv27*(Phiex-Phi/Keqv27); vLacexch = Vmaxv28*(Lacex-Lac/Keqv28); vPyrexch = Vmaxv29*(Pyrex-Pyr/Keqv29); vMgATP = EqMult*(MgATP-Mgf*ATPf/KdATP); vMgADP = EqMult*(MgADP-Mgf*ADPf/KdADP); vMgAMP = EqMult*(MgAMP-Mgf*AMPf/KdAMP); vMgGri23P2 = EqMult*(MgGri23P2-Mgf*Gri23P2f/Kd23P2G); vP1NADP = EqMult*(P1NADP-P1f*NADPf/Kd1); vP1NADPH = EqMult*(P1NADPH-P1f*NADPHf/Kd3); vP2NADP = EqMult*(P2NADP-P2f*NADPf/Kd2); vP2NADPH = EqMult*(P2NADPH-P2f*NADPHf/Kd4); // variable properties compartment.sbmlRole="compartment"; Vmaxv0.sbmlRole="parameter"; KMoutv0.sbmlRole="parameter"; KMinv0.sbmlRole="parameter"; alfav0.sbmlRole="parameter"; Keqv0.sbmlRole="parameter"; Vmax1v1.sbmlRole="parameter"; Vmax2v1.sbmlRole="parameter"; KMGlcv1.sbmlRole="parameter"; KMgATPv1.sbmlRole="parameter"; KMgv1.sbmlRole="parameter"; KMgATPMgv1.sbmlRole="parameter"; K23P2Gv1.sbmlRole="parameter"; KMg23P2Gv1.sbmlRole="parameter"; KGlc6Pv1.sbmlRole="parameter"; Keqv1.sbmlRole="parameter"; Inhibv1.sbmlRole="parameter"; Vmaxv2.sbmlRole="parameter"; KGlc6Pv2.sbmlRole="parameter"; KFru6Pv2.sbmlRole="parameter"; Keqv2.sbmlRole="parameter"; Vmaxv3.sbmlRole="parameter"; KFru6Pv3.sbmlRole="parameter"; KMgATPv3.sbmlRole="parameter"; KMgv3.sbmlRole="parameter"; KAMPv3.sbmlRole="parameter"; KATPv3.sbmlRole="parameter"; L0v3.sbmlRole="parameter"; Keqv3.sbmlRole="parameter"; Vmaxv4.sbmlRole="parameter"; KFru16P2v4.sbmlRole="parameter"; KGraPv4.sbmlRole="parameter"; KDHAPv4.sbmlRole="parameter"; KiGraPv4.sbmlRole="parameter"; KiiGraPv4.sbmlRole="parameter"; Keqv4.sbmlRole="parameter"; Vmaxv5.sbmlRole="parameter"; KDHAPv5.sbmlRole="parameter"; KGraPv5.sbmlRole="parameter"; Keqv5.sbmlRole="parameter"; Vmaxv6.sbmlRole="parameter"; KNADv6.sbmlRole="parameter"; KGraPv6.sbmlRole="parameter"; KPv6.sbmlRole="parameter"; KNADHv6.sbmlRole="parameter"; K13P2Gv6.sbmlRole="parameter"; Keqv6.sbmlRole="parameter"; Vmaxv7.sbmlRole="parameter"; KMgADPv7.sbmlRole="parameter"; K13P2Gv7.sbmlRole="parameter"; KMgATPv7.sbmlRole="parameter"; K3PGv7.sbmlRole="parameter"; Keqv7.sbmlRole="parameter"; kDPGMv8.sbmlRole="parameter"; K23P2Gv8.sbmlRole="parameter"; Keqv8.sbmlRole="parameter"; Vmaxv9.sbmlRole="parameter"; K23P2Gv9.sbmlRole="parameter"; Keqv9.sbmlRole="parameter"; Vmaxv10.sbmlRole="parameter"; K3PGv10.sbmlRole="parameter"; K2PGv10.sbmlRole="parameter"; Keqv10.sbmlRole="parameter"; Vmaxv11.sbmlRole="parameter"; K2PGv11.sbmlRole="parameter"; KPEPv11.sbmlRole="parameter"; Keqv11.sbmlRole="parameter"; Vmaxv12.sbmlRole="parameter"; KPEPv12.sbmlRole="parameter"; KMgADPv12.sbmlRole="parameter"; KFru16P2v12.sbmlRole="parameter"; KATPv12.sbmlRole="parameter"; L0v12.sbmlRole="parameter"; Keqv12.sbmlRole="parameter"; Vmaxv13.sbmlRole="parameter"; Keqv13.sbmlRole="parameter"; kLDHv14.sbmlRole="parameter"; Keqv14.sbmlRole="parameter"; kATPasev15.sbmlRole="parameter"; Vmaxv16.sbmlRole="parameter"; KATPv16.sbmlRole="parameter"; KAMPv16.sbmlRole="parameter"; KADPv16.sbmlRole="parameter"; Keqv16.sbmlRole="parameter"; Vmaxv17.sbmlRole="parameter"; KG6Pv17.sbmlRole="parameter"; KNADPv17.sbmlRole="parameter"; KATPv17.sbmlRole="parameter"; KNADPHv17.sbmlRole="parameter"; KPGA23v17.sbmlRole="parameter"; Keqv17.sbmlRole="parameter"; Vmaxv18.sbmlRole="parameter"; K6PG1v18.sbmlRole="parameter"; K6PG2v18.sbmlRole="parameter"; KPGA23v18.sbmlRole="parameter"; KNADPv18.sbmlRole="parameter"; KNADPHv18.sbmlRole="parameter"; KATPv18.sbmlRole="parameter"; Keqv18.sbmlRole="parameter"; Vmaxv19.sbmlRole="parameter"; KGSSGv19.sbmlRole="parameter"; KNADPHv19.sbmlRole="parameter"; KNADPv19.sbmlRole="parameter"; KGSHv19.sbmlRole="parameter"; Keqv19.sbmlRole="parameter"; Kv20.sbmlRole="parameter"; Vmaxv21.sbmlRole="parameter"; KRu5Pv21.sbmlRole="parameter"; KX5Pv21.sbmlRole="parameter"; Keqv21.sbmlRole="parameter"; Vmaxv22.sbmlRole="parameter"; KRu5Pv22.sbmlRole="parameter"; KR5Pv22.sbmlRole="parameter"; Keqv22.sbmlRole="parameter"; Vmaxv23.sbmlRole="parameter"; K1v23.sbmlRole="parameter"; K2v23.sbmlRole="parameter"; K3v23.sbmlRole="parameter"; K4v23.sbmlRole="parameter"; K5v23.sbmlRole="parameter"; K6v23.sbmlRole="parameter"; K7v23.sbmlRole="parameter"; Keqv23.sbmlRole="parameter"; Vmaxv24.sbmlRole="parameter"; K1v24.sbmlRole="parameter"; K2v24.sbmlRole="parameter"; K3v24.sbmlRole="parameter"; K4v24.sbmlRole="parameter"; K5v24.sbmlRole="parameter"; K6v24.sbmlRole="parameter"; K7v24.sbmlRole="parameter"; Keqv24.sbmlRole="parameter"; Vmaxv25.sbmlRole="parameter"; KATPv25.sbmlRole="parameter"; KR5Pv25.sbmlRole="parameter"; Keqv25.sbmlRole="parameter"; Vmaxv26.sbmlRole="parameter"; K1v26.sbmlRole="parameter"; K2v26.sbmlRole="parameter"; K3v26.sbmlRole="parameter"; K4v26.sbmlRole="parameter"; K5v26.sbmlRole="parameter"; K6v26.sbmlRole="parameter"; K7v26.sbmlRole="parameter"; Keqv26.sbmlRole="parameter"; Vmaxv27.sbmlRole="parameter"; Keqv27.sbmlRole="parameter"; Vmaxv28.sbmlRole="parameter"; Keqv28.sbmlRole="parameter"; Vmaxv29.sbmlRole="parameter"; Keqv29.sbmlRole="parameter"; Atot.sbmlRole="parameter"; NADtot.sbmlRole="parameter"; NADPtot.sbmlRole="parameter"; GStotal.sbmlRole="parameter"; Mgtot.sbmlRole="parameter"; protein1.sbmlRole="parameter"; protein2.sbmlRole="parameter"; Kd1.sbmlRole="parameter"; Kd2.sbmlRole="parameter"; Kd3.sbmlRole="parameter"; Kd4.sbmlRole="parameter"; KdATP.sbmlRole="parameter"; KdADP.sbmlRole="parameter"; KdAMP.sbmlRole="parameter"; Kd23P2G.sbmlRole="parameter"; EqMult.sbmlRole="parameter"; Glcout.sbmlRole="species"; Glcout.sbmlCompartment="compartment"; Glcin.sbmlRole="species"; Glcin.sbmlCompartment="compartment"; MgATP.sbmlRole="species"; MgATP.sbmlCompartment="compartment"; Glc6P.sbmlRole="species"; Glc6P.sbmlCompartment="compartment"; MgADP.sbmlRole="species"; MgADP.sbmlCompartment="compartment"; Mgf.sbmlRole="species"; Mgf.sbmlCompartment="compartment"; Gri23P2f.sbmlRole="species"; Gri23P2f.sbmlCompartment="compartment"; MgGri23P2.sbmlRole="species"; MgGri23P2.sbmlCompartment="compartment"; Fru6P.sbmlRole="species"; Fru6P.sbmlCompartment="compartment"; Fru16P2.sbmlRole="species"; Fru16P2.sbmlCompartment="compartment"; ATPf.sbmlRole="species"; ATPf.sbmlCompartment="compartment"; AMPf.sbmlRole="species"; AMPf.sbmlCompartment="compartment"; MgAMP.sbmlRole="species"; MgAMP.sbmlCompartment="compartment"; GraP.sbmlRole="species"; GraP.sbmlCompartment="compartment"; DHAP.sbmlRole="species"; DHAP.sbmlCompartment="compartment"; Phi.sbmlRole="species"; Phi.sbmlCompartment="compartment"; NAD.sbmlRole="species"; NAD.sbmlCompartment="compartment"; Gri13P2.sbmlRole="species"; Gri13P2.sbmlCompartment="compartment"; NADH.sbmlRole="species"; NADH.sbmlCompartment="compartment"; Gri3P.sbmlRole="species"; Gri3P.sbmlCompartment="compartment"; Gri2P.sbmlRole="species"; Gri2P.sbmlCompartment="compartment"; PEP.sbmlRole="species"; PEP.sbmlCompartment="compartment"; Pyr.sbmlRole="species"; Pyr.sbmlCompartment="compartment"; Lac.sbmlRole="species"; Lac.sbmlCompartment="compartment"; NADPHf.sbmlRole="species"; NADPHf.sbmlCompartment="compartment"; NADPf.sbmlRole="species"; NADPf.sbmlCompartment="compartment"; ADPf.sbmlRole="species"; ADPf.sbmlCompartment="compartment"; GlcA6P.sbmlRole="species"; GlcA6P.sbmlCompartment="compartment"; Rul5P.sbmlRole="species"; Rul5P.sbmlCompartment="compartment"; GSSG.sbmlRole="species"; GSSG.sbmlCompartment="compartment"; GSH.sbmlRole="species"; GSH.sbmlCompartment="compartment"; Xul5P.sbmlRole="species"; Xul5P.sbmlCompartment="compartment"; Rib5P.sbmlRole="species"; Rib5P.sbmlCompartment="compartment"; Sed7P.sbmlRole="species"; Sed7P.sbmlCompartment="compartment"; E4P.sbmlRole="species"; E4P.sbmlCompartment="compartment"; PRPP.sbmlRole="species"; PRPP.sbmlCompartment="compartment"; Phiex.sbmlRole="species"; Phiex.sbmlCompartment="compartment"; Lacex.sbmlRole="species"; Lacex.sbmlCompartment="compartment"; Pyrex.sbmlRole="species"; Pyrex.sbmlCompartment="compartment"; P1NADP.sbmlRole="species"; P1NADP.sbmlCompartment="compartment"; P1f.sbmlRole="species"; P1f.sbmlCompartment="compartment"; P1NADPH.sbmlRole="species"; P1NADPH.sbmlCompartment="compartment"; P2NADP.sbmlRole="species"; P2NADP.sbmlCompartment="compartment"; P2f.sbmlRole="species"; P2f.sbmlCompartment="compartment"; P2NADPH.sbmlRole="species"; P2NADPH.sbmlCompartment="compartment"; vGLT.sbmlRole="rate"; vHEX.sbmlRole="rate"; vGPI.sbmlRole="rate"; vPFK.sbmlRole="rate"; vALD.sbmlRole="rate"; vTPI.sbmlRole="rate"; vGAPDH.sbmlRole="rate"; vPGK.sbmlRole="rate"; vBPGM.sbmlRole="rate"; vBPGP.sbmlRole="rate"; vPGM.sbmlRole="rate"; vENO.sbmlRole="rate"; vPK.sbmlRole="rate"; vLDHNADH.sbmlRole="rate"; vLDHNADPH.sbmlRole="rate"; vATPase.sbmlRole="rate"; vAK.sbmlRole="rate"; vG6PDH.sbmlRole="rate"; vPGLDH.sbmlRole="rate"; vGSSGRD.sbmlRole="rate"; vGSHox.sbmlRole="rate"; vRibPepi.sbmlRole="rate"; vRibPiso.sbmlRole="rate"; vTrKet1.sbmlRole="rate"; vTrAld.sbmlRole="rate"; vPPRPPS.sbmlRole="rate"; vTrKet2.sbmlRole="rate"; vPhiexch.sbmlRole="rate"; vLacexch.sbmlRole="rate"; vPyrexch.sbmlRole="rate"; vMgATP.sbmlRole="rate"; vMgADP.sbmlRole="rate"; vMgAMP.sbmlRole="rate"; vMgGri23P2.sbmlRole="rate"; vP1NADP.sbmlRole="rate"; vP1NADPH.sbmlRole="rate"; vP2NADP.sbmlRole="rate"; vP2NADPH.sbmlRole="rate"; }