// 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 // vAGPase: G1Pam ATPam => ADPGam PPam // vStSynth: ADPGam xstarch => ADPam // vpPPase: PPam => 2Pam // vStPase: xstarch Pam => G1Pam // vdegr: xstarch => Glucoseam // vGexp: Glucoseam => Glucosecyt // vG6Pexp: G6Pam Pcyt => G6Pcyt Pam // vpPGM: G1Pam => G6Pam // vcPGM: G1Pcyt => G6Pcyt // vPGI: G6Pcyt => F6Pcyt // vPFK: F6Pcyt ATPcyt => F16BPcyt ADPcyt // vPFP: F6Pcyt PPcyt => F16BPcyt Pcyt // vald: F16BPcyt => GAPcyt DHAPcyt // vTPI: DHAPcyt => GAPcyt // vGAPDH: 6GAPcyt 17ADPcyt 17Pcyt => 6PGA3cyt 17ATPcyt // vPGA3imp: PGA3cyt G6Pam => PGA3am G6Pcyt // vPGlyM: PGA3cyt => PGA2cyt // veno: PGA2cyt => PEPcyt // vPK: PEPcyt ADPcyt => xpyruvate ATPcyt // vUGPase: G1Pcyt UTPcyt => UDPGcyt PPcyt // vSPSSPP: F6Pcyt UDPGcyt => Sucrose Pcyt UDPcyt // vSSynth: Fructose UDPGcyt => Sucrose UDPcyt // vSucUpt: xsucrose => Sucrose // vinv: Sucrose => Fructose Glucosecyt // vFK: Fructose ATPcyt => F6Pcyt ADPcyt // vHK: Glucosecyt ATPcyt => G6Pcyt ADPcyt // vNDPK: ATPcyt UDPcyt => ADPcyt UTPcyt // vAT: ADPam ATPcyt => ATPam ADPcyt // vPexp: Pam => Pcyt // vATPcons: ATPcyt => ADPcyt Pcyt math main { realDomain time second; time.min=0; extern time.max; extern time.delta; // variable definitions real compartment = 1 L; real VmaxAGPase = 312; real KmG1PAGPase = 100; real KmATPAGPase = 180; real KmADPGAGPase = 280; real KmPPAGPase = 260; real KiPAGPase = 160; real KaPGA3AGPase = 10; real VmaxStSynth = 171; real KmADPGStSynth = 150; real VmaxpPPase = 500; real KeqpPPase = 7.5E5; real VforwardStPase = 200; real KmPStPase = 6200; real KmG1PStPase = 2600; real KeqStPase = .18; real Vmaxdegr = 114; real KiGlucosedegr = 100; real VGexp = 1; real kforwardGexp = .001; real kbackwardGexp = .001; real VG6Pexp = 1; real kforwardG6Pexp = .01; real kbackwardG6Pexp = .01; real VmaxpPGM = 1542; real KeqpPGM = 17; real VmaxcPGM = 1842; real KeqcPGM = 17; real VmaxPGI = 1086; real KmG6PPGI = 270; real KmF6PPGI = 150; real KeqPGI = .25; real KiPEPPGI = 1100; real KiF16BPPGI = 7500; real VmaxPFK = 135; real KmF6PPFK = 290; real KiPEPPFK = 18; real nPFK = 2; real LPFK = 1; real VmaxPFP = 1266; real KmF6PPFP = 500; real KmPPPFP = 25; real KmF16BPPFP = 10; real KmPPFP = 10; real KeqPFP = 3.3; real Vmaxald = 430; real Keqald = 81; real KmF16BPald = 6; real KmGAPald = 100; real KmDHAPald = 100; real KiGAPald = 1E3; real VmaxTPI = 4438; real KeqTPI = .0455; real KmGAPTPI = 440; real KmDHAPTPI = 880; real VmaxGAPDH = 301; real KeqGAPDH = 1.724; real VPGA3imp = 1; real kforwardPGA3imp = .01; real kbackwardPGA3imp = .01; real VmaxPGlyM = 541; real KeqPGlyM = .16; real KmPGA3PGlyM = 330; real KmPGA2PGlyM = 60; real Vmaxeno = 448; real Keqeno = 6.3; real KmPGA2eno = 150; real KmPEPeno = 150; real VmaxPK = 127; real KmPEPPK = 20; real KmADPPK = 20; real KmpyruvatePK = 1E3; real KmATPPK = 86; real VforwardUGPase = 8100; real KmG1PUGPase = 80; real KmUTPUGPase = 120; real KmUDPGUGPase = 140; real KmPPUGPase = 130; real KeqUGPase = .15; real VmaxSPS = 1E3; real KmF6PSPS = 5E3; real KmUDPGSPS = 3E3; real KiUDPSPS = 1E3; real KiPSPP = 4E3; real VappSPSSPP = 797; real KmF6PSPSSPP = 900; real KmUDPGSPSSPP = 2E3; real KiSucroseSPSSPP = 5E3; real KeqSPSSPP = 7770; real VratioSPSSPP = 1E3; real VmaxSSynth = 100; real KeqSSynth = 2.4; real KmSSynthFructose = 5900; real KmSSynthUDPG = 1650; real KmSSynthSucrose = 55000; real KmSSynthUDP = 140; real KiSSynthGlucose = 12000; real VSucUpt = 1; real kforwardSucUpt = .01; real kbackwardSucUpt = .01; real Vmaxinv = 33; real KmSucroseinv = 28000; real KiFructoseinv = 180; real KiGlucoseinv = 1E3; real VmaxFK = 376; real KmFructoseFK = 90; real KmATPFK = 35; real KiFructoseFK = 5E3; real KmADPFK = 13; real KmF6PFK = 1300; real KmGlucoseHK1 = 41; real KmFructoseHK1 = 11000; real KmATPHK1 = 80; real KiADPHK1 = 20; real KiG6PHK1 = 4100; real VmaxHK1 = 80; real VmaxHK2 = 80; real VmaxGK = 160; real KmGlucoseHK2 = 130; real KmFructoseHK2 = 22000; real KmATPHK2 = 280; real KiADPHK2 = 100; real VNDPK = 1; real kforwardNDPK = .001; real kbackwardNDPK = .001; real VAT = 1; real kforwardAT = .002; real kbackwardAT = .002; real VPexp = 1; real kforwardPexp = .3; real kbackwardPexp = .1; real VATPcons = 1; real kATPcons = 3; real G1Pam(time) M; real ATPam(time) M; real ADPGam(time) M; real PPam(time) M; real PGA3am(time) M; real Pam(time) M; real xstarch = 1E6 M; real ADPam(time) M; real Glucoseam(time) M; real Glucosecyt(time) M; real G6Pam(time) M; real Pcyt(time) M; real G6Pcyt(time) M; real G1Pcyt(time) M; real F6Pcyt(time) M; real F16BPcyt(time) M; real PEPcyt(time) M; real ATPcyt(time) M; real ADPcyt(time) M; real PPcyt(time) M; real GAPcyt(time) M; real DHAPcyt(time) M; real PGA3cyt(time) M; real PGA2cyt(time) M; real xpyruvate = 10 M; real UTPcyt(time) M; real UDPGcyt(time) M; real Sucrose(time) M; real UDPcyt(time) M; real Fructose(time) M; real xsucrose = 9E4 M; real vAGPase(time) katal; real vStSynth(time) katal; real vpPPase(time) katal; real vStPase(time) katal; real vdegr(time) katal; real vGexp(time) katal; real vG6Pexp(time) katal; real vpPGM(time) katal; real vcPGM(time) katal; real vPGI(time) katal; real vPFK(time) katal; real vPFP(time) katal; real vald(time) katal; real vTPI(time) katal; real vGAPDH(time) katal; real vPGA3imp(time) katal; real vPGlyM(time) katal; real veno(time) katal; real vPK(time) katal; real vUGPase(time) katal; real vSPSSPP(time) katal; real vSSynth(time) katal; real vSucUpt(time) katal; real vinv(time) katal; real vFK(time) katal; real vHK(time) katal; real vNDPK(time) katal; real vAT(time) katal; real vPexp(time) katal; real vATPcons(time) katal; // equations when (time=time.min) G1Pam = 30; G1Pam:time = (-1*vAGPase + vStPase + -1*vpPGM)/compartment; when (time=time.min) ATPam = 150; ATPam:time = (-1*vAGPase + vAT)/compartment; when (time=time.min) ADPGam = 100; ADPGam:time = (vAGPase + -1*vStSynth)/compartment; when (time=time.min) PPam = 5; PPam:time = (vAGPase + -1*vpPPase)/compartment; when (time=time.min) PGA3am = 160; PGA3am:time = (vPGA3imp)/compartment; when (time=time.min) Pam = 2E3; Pam:time = (2*vpPPase + -1*vStPase + vG6Pexp + -1*vPexp)/compartment; when (time=time.min) ADPam = 100; ADPam:time = (vStSynth + -1*vAT)/compartment; when (time=time.min) Glucoseam = 3E3; Glucoseam:time = (vdegr + -1*vGexp)/compartment; when (time=time.min) Glucosecyt = 150; Glucosecyt:time = (vGexp + vinv + -1*vHK)/compartment; when (time=time.min) G6Pam = 550; G6Pam:time = (-1*vG6Pexp + vpPGM + -1*vPGA3imp)/compartment; when (time=time.min) Pcyt = 2E3; Pcyt:time = (-1*vG6Pexp + vPFP + -17*vGAPDH + vSPSSPP + vPexp + vATPcons)/compartment; when (time=time.min) G6Pcyt = 500; G6Pcyt:time = (vG6Pexp + vcPGM + -1*vPGI + vPGA3imp + vHK)/compartment; when (time=time.min) G1Pcyt = 30; G1Pcyt:time = (-1*vcPGM + -1*vUGPase)/compartment; when (time=time.min) F6Pcyt = 160; F6Pcyt:time = (vPGI + -1*vPFK + -1*vPFP + -1*vSPSSPP + vFK)/compartment; when (time=time.min) F16BPcyt = 1; F16BPcyt:time = (vPFK + vPFP + -1*vald)/compartment; when (time=time.min) PEPcyt = 10; PEPcyt:time = (veno + -1*vPK)/compartment; when (time=time.min) ATPcyt = 200; ATPcyt:time = (-1*vPFK + 17*vGAPDH + vPK + -1*vFK + -1*vHK + -1*vNDPK + -1*vAT + -1*vATPcons)/compartment; when (time=time.min) ADPcyt = 180; ADPcyt:time = (vPFK + -17*vGAPDH + -1*vPK + vFK + vHK + vNDPK + vAT + vATPcons)/compartment; when (time=time.min) PPcyt = 1; PPcyt:time = (-1*vPFP + vUGPase)/compartment; when (time=time.min) GAPcyt = 1; GAPcyt:time = (vald + vTPI + -6*vGAPDH)/compartment; when (time=time.min) DHAPcyt = 5; DHAPcyt:time = (vald + -1*vTPI)/compartment; when (time=time.min) PGA3cyt = 150; PGA3cyt:time = (6*vGAPDH + -1*vPGA3imp + -1*vPGlyM)/compartment; when (time=time.min) PGA2cyt = 20; PGA2cyt:time = (vPGlyM + -1*veno)/compartment; when (time=time.min) UTPcyt = 20; UTPcyt:time = (-1*vUGPase + vNDPK)/compartment; when (time=time.min) UDPGcyt = 870; UDPGcyt:time = (vUGPase + -1*vSPSSPP + -1*vSSynth)/compartment; when (time=time.min) Sucrose = 88000; Sucrose:time = (vSPSSPP + vSSynth + vSucUpt + -1*vinv)/compartment; when (time=time.min) UDPcyt = 10; UDPcyt:time = (vSPSSPP + vSSynth + -1*vNDPK)/compartment; when (time=time.min) Fructose = 20; Fructose:time = (-1*vSSynth + vinv + -1*vFK)/compartment; vAGPase = VmaxAGPase*(G1Pam*ATPam-ADPGam*PPam)*(1+PGA3am/KaPGA3AGPase)/((KmG1PAGPase*(1+PPam/KmPPAGPase)+G1Pam)*(KmATPAGPase*(1+ADPGam/KmADPGAGPase)+ATPam))/(1+Pam/KiPAGPase); vStSynth = VmaxStSynth*ADPGam/(KmADPGStSynth+ADPGam); vpPPase = VmaxpPPase*(1-Pam*Pam/PPam/KeqpPPase); vStPase = VforwardStPase*(Pam-G1Pam/KeqStPase)/(KmPStPase+Pam+G1Pam*KmPStPase/KmG1PStPase); vdegr = Vmaxdegr/(1+Glucoseam/KiGlucosedegr); vGexp = VGexp*(kforwardGexp*Glucoseam-kbackwardGexp*Glucosecyt); vG6Pexp = VG6Pexp*(kforwardG6Pexp*G6Pam*Pcyt-kbackwardG6Pexp*G6Pcyt*Pam); vpPGM = VmaxpPGM*(1-G6Pam/G1Pam/KeqpPGM); vcPGM = VmaxcPGM*(1-G6Pcyt/G1Pcyt/KeqcPGM); vPGI = VmaxPGI*(G6Pcyt-F6Pcyt/KeqPGI)/(KmG6PPGI+G6Pcyt+F6Pcyt*KmG6PPGI/KmF6PPGI+F16BPcyt*KmG6PPGI/KiF16BPPGI+PEPcyt*KmG6PPGI/KiPEPPGI); vPFK = VmaxPFK*(F6Pcyt/KmF6PPFK)*(1+F6Pcyt/KmF6PPFK)^(nPFK-1)/((1+F6Pcyt/KmF6PPFK)^nPFK+LPFK*(1+PEPcyt/KiPEPPFK)^nPFK); vPFP = VmaxPFP*(1/KmF6PPFP/KmPPPFP)*(F6Pcyt*PPcyt-F16BPcyt*Pcyt/KeqPFP)/(1+F6Pcyt/KmF6PPFP+PPcyt/KmPPPFP+F16BPcyt/KmF16BPPFP+Pcyt/KmPPFP); vald = Vmaxald*(F16BPcyt/KmF16BPald)*(1-GAPcyt*DHAPcyt/F16BPcyt/Keqald)/(1+F16BPcyt/KmF16BPald+GAPcyt/KmGAPald+DHAPcyt/KmDHAPald+F16BPcyt*GAPcyt/(KmF16BPald*KiGAPald)+GAPcyt*DHAPcyt/(KmGAPald*KmDHAPald)); vTPI = VmaxTPI*(DHAPcyt-GAPcyt/KeqTPI)/(KmDHAPTPI+DHAPcyt+GAPcyt*KmGAPTPI/KmGAPTPI); vGAPDH = VmaxGAPDH/6*(1-PGA3cyt*ATPcyt/(GAPcyt*Pcyt*ADPcyt)/KeqGAPDH); vPGA3imp = VPGA3imp*(kforwardPGA3imp*PGA3cyt*G6Pam-kbackwardPGA3imp*PGA3am*G6Pcyt); vPGlyM = VmaxPGlyM*(PGA3cyt-PGA2cyt/KeqPGlyM)/(KmPGA3PGlyM+PGA3cyt+PGA2cyt*KmPGA3PGlyM/KmPGA2PGlyM); veno = Vmaxeno*(PGA2cyt-PEPcyt/Keqeno)/(KmPGA2eno+PGA2cyt+PEPcyt*KmPGA2eno/KmPEPeno); vPK = VmaxPK*PEPcyt*ADPcyt/(KmPEPPK*KmADPPK)/(1+PEPcyt/KmPEPPK+PEPcyt*ADPcyt/(KmPEPPK*KmADPPK)+ATPcyt/KmATPPK+xpyruvate*ATPcyt/(KmpyruvatePK*KmATPPK)); vUGPase = VforwardUGPase*(G1Pcyt*UTPcyt-UDPGcyt*PPcyt/KeqUGPase)/((KmG1PUGPase*(1+PPcyt/KmPPUGPase)+G1Pcyt)*(KmUTPUGPase*(1+UDPGcyt/KmUDPGUGPase)+UTPcyt)); vSPSSPP = VappSPSSPP*(F6Pcyt*UDPGcyt-UDPcyt*Pcyt/KeqSPSSPP)/(KmF6PSPSSPP*KmUDPGSPSSPP+F6Pcyt*UDPGcyt+UDPcyt*Pcyt*VratioSPSSPP/KeqSPSSPP+Sucrose*KmF6PSPSSPP*KmUDPGSPSSPP/KiSucroseSPSSPP); vSSynth = VmaxSSynth*(Fructose*UDPGcyt/(KmSSynthFructose*KmSSynthUDPG))*(1-Sucrose*UDPcyt/Fructose/UDPGcyt/KeqSSynth)/(1+Fructose*UDPGcyt/(KmSSynthFructose*KmSSynthUDPG)+Sucrose*UDPcyt/(KmSSynthSucrose*KmSSynthUDP))/(1+Glucosecyt/KiSSynthGlucose); vSucUpt = VSucUpt*(kforwardSucUpt*xsucrose-kbackwardSucUpt*Sucrose); vinv = Vmaxinv*(Sucrose/KmSucroseinv)/((1+Sucrose/KmSucroseinv+Fructose/KiFructoseinv)*(1+Glucosecyt/KiGlucoseinv)); vFK = VmaxFK*(Fructose*ATPcyt/(KmFructoseFK*KmATPFK))/((1+Fructose/KmFructoseFK)*(1+Fructose/KiFructoseFK)*(1+F6Pcyt/KmF6PFK)*(1+ATPcyt/KmATPFK+Fructose/KiFructoseFK+ADPcyt/KmADPFK)); vHK = VmaxGK/2*(Glucosecyt*ATPcyt/(KmGlucoseHK1*KmATPHK1))/((1+Glucosecyt/KmGlucoseHK1+Fructose/KmFructoseHK1)*(1+ATPcyt/KmATPHK1+ADPcyt/KiADPHK1)*(1+G6Pcyt/KiG6PHK1))+VmaxGK/2*(Glucosecyt*ATPcyt/(KmGlucoseHK2*KmATPHK2))/((1+Glucosecyt/KmGlucoseHK2+Fructose/KmFructoseHK2)*(1+ATPcyt/KmATPHK2+ADPcyt/KiADPHK2)); vNDPK = VNDPK*(kforwardNDPK*ATPcyt*UDPcyt-kbackwardNDPK*ADPcyt*UTPcyt); vAT = VAT*(kforwardAT*ATPcyt*ADPam-kbackwardAT*ATPam*ADPcyt); vPexp = VPexp*(kforwardPexp*Pam-kbackwardPexp*Pcyt); vATPcons = VATPcons*kATPcons*(ATPcyt/ADPcyt); // variable properties compartment.sbmlRole="compartment"; VmaxAGPase.sbmlRole="parameter"; KmG1PAGPase.sbmlRole="parameter"; KmATPAGPase.sbmlRole="parameter"; KmADPGAGPase.sbmlRole="parameter"; KmPPAGPase.sbmlRole="parameter"; KiPAGPase.sbmlRole="parameter"; KaPGA3AGPase.sbmlRole="parameter"; VmaxStSynth.sbmlRole="parameter"; KmADPGStSynth.sbmlRole="parameter"; VmaxpPPase.sbmlRole="parameter"; KeqpPPase.sbmlRole="parameter"; VforwardStPase.sbmlRole="parameter"; KmPStPase.sbmlRole="parameter"; KmG1PStPase.sbmlRole="parameter"; KeqStPase.sbmlRole="parameter"; Vmaxdegr.sbmlRole="parameter"; KiGlucosedegr.sbmlRole="parameter"; VGexp.sbmlRole="parameter"; kforwardGexp.sbmlRole="parameter"; kbackwardGexp.sbmlRole="parameter"; VG6Pexp.sbmlRole="parameter"; kforwardG6Pexp.sbmlRole="parameter"; kbackwardG6Pexp.sbmlRole="parameter"; VmaxpPGM.sbmlRole="parameter"; KeqpPGM.sbmlRole="parameter"; VmaxcPGM.sbmlRole="parameter"; KeqcPGM.sbmlRole="parameter"; VmaxPGI.sbmlRole="parameter"; KmG6PPGI.sbmlRole="parameter"; KmF6PPGI.sbmlRole="parameter"; KeqPGI.sbmlRole="parameter"; KiPEPPGI.sbmlRole="parameter"; KiF16BPPGI.sbmlRole="parameter"; VmaxPFK.sbmlRole="parameter"; KmF6PPFK.sbmlRole="parameter"; KiPEPPFK.sbmlRole="parameter"; nPFK.sbmlRole="parameter"; LPFK.sbmlRole="parameter"; VmaxPFP.sbmlRole="parameter"; KmF6PPFP.sbmlRole="parameter"; KmPPPFP.sbmlRole="parameter"; KmF16BPPFP.sbmlRole="parameter"; KmPPFP.sbmlRole="parameter"; KeqPFP.sbmlRole="parameter"; Vmaxald.sbmlRole="parameter"; Keqald.sbmlRole="parameter"; KmF16BPald.sbmlRole="parameter"; KmGAPald.sbmlRole="parameter"; KmDHAPald.sbmlRole="parameter"; KiGAPald.sbmlRole="parameter"; VmaxTPI.sbmlRole="parameter"; KeqTPI.sbmlRole="parameter"; KmGAPTPI.sbmlRole="parameter"; KmDHAPTPI.sbmlRole="parameter"; VmaxGAPDH.sbmlRole="parameter"; KeqGAPDH.sbmlRole="parameter"; VPGA3imp.sbmlRole="parameter"; kforwardPGA3imp.sbmlRole="parameter"; kbackwardPGA3imp.sbmlRole="parameter"; VmaxPGlyM.sbmlRole="parameter"; KeqPGlyM.sbmlRole="parameter"; KmPGA3PGlyM.sbmlRole="parameter"; KmPGA2PGlyM.sbmlRole="parameter"; Vmaxeno.sbmlRole="parameter"; Keqeno.sbmlRole="parameter"; KmPGA2eno.sbmlRole="parameter"; KmPEPeno.sbmlRole="parameter"; VmaxPK.sbmlRole="parameter"; KmPEPPK.sbmlRole="parameter"; KmADPPK.sbmlRole="parameter"; KmpyruvatePK.sbmlRole="parameter"; KmATPPK.sbmlRole="parameter"; VforwardUGPase.sbmlRole="parameter"; KmG1PUGPase.sbmlRole="parameter"; KmUTPUGPase.sbmlRole="parameter"; KmUDPGUGPase.sbmlRole="parameter"; KmPPUGPase.sbmlRole="parameter"; KeqUGPase.sbmlRole="parameter"; VmaxSPS.sbmlRole="parameter"; KmF6PSPS.sbmlRole="parameter"; KmUDPGSPS.sbmlRole="parameter"; KiUDPSPS.sbmlRole="parameter"; KiPSPP.sbmlRole="parameter"; VappSPSSPP.sbmlRole="parameter"; KmF6PSPSSPP.sbmlRole="parameter"; KmUDPGSPSSPP.sbmlRole="parameter"; KiSucroseSPSSPP.sbmlRole="parameter"; KeqSPSSPP.sbmlRole="parameter"; VratioSPSSPP.sbmlRole="parameter"; VmaxSSynth.sbmlRole="parameter"; KeqSSynth.sbmlRole="parameter"; KmSSynthFructose.sbmlRole="parameter"; KmSSynthUDPG.sbmlRole="parameter"; KmSSynthSucrose.sbmlRole="parameter"; KmSSynthUDP.sbmlRole="parameter"; KiSSynthGlucose.sbmlRole="parameter"; VSucUpt.sbmlRole="parameter"; kforwardSucUpt.sbmlRole="parameter"; kbackwardSucUpt.sbmlRole="parameter"; Vmaxinv.sbmlRole="parameter"; KmSucroseinv.sbmlRole="parameter"; KiFructoseinv.sbmlRole="parameter"; KiGlucoseinv.sbmlRole="parameter"; VmaxFK.sbmlRole="parameter"; KmFructoseFK.sbmlRole="parameter"; KmATPFK.sbmlRole="parameter"; KiFructoseFK.sbmlRole="parameter"; KmADPFK.sbmlRole="parameter"; KmF6PFK.sbmlRole="parameter"; KmGlucoseHK1.sbmlRole="parameter"; KmFructoseHK1.sbmlRole="parameter"; KmATPHK1.sbmlRole="parameter"; KiADPHK1.sbmlRole="parameter"; KiG6PHK1.sbmlRole="parameter"; VmaxHK1.sbmlRole="parameter"; VmaxHK2.sbmlRole="parameter"; VmaxGK.sbmlRole="parameter"; KmGlucoseHK2.sbmlRole="parameter"; KmFructoseHK2.sbmlRole="parameter"; KmATPHK2.sbmlRole="parameter"; KiADPHK2.sbmlRole="parameter"; VNDPK.sbmlRole="parameter"; kforwardNDPK.sbmlRole="parameter"; kbackwardNDPK.sbmlRole="parameter"; VAT.sbmlRole="parameter"; kforwardAT.sbmlRole="parameter"; kbackwardAT.sbmlRole="parameter"; VPexp.sbmlRole="parameter"; kforwardPexp.sbmlRole="parameter"; kbackwardPexp.sbmlRole="parameter"; VATPcons.sbmlRole="parameter"; kATPcons.sbmlRole="parameter"; G1Pam.sbmlRole="species"; G1Pam.sbmlCompartment="compartment"; ATPam.sbmlRole="species"; ATPam.sbmlCompartment="compartment"; ADPGam.sbmlRole="species"; ADPGam.sbmlCompartment="compartment"; PPam.sbmlRole="species"; PPam.sbmlCompartment="compartment"; PGA3am.sbmlRole="species"; PGA3am.sbmlCompartment="compartment"; Pam.sbmlRole="species"; Pam.sbmlCompartment="compartment"; xstarch.sbmlRole="species"; xstarch.sbmlCompartment="compartment"; ADPam.sbmlRole="species"; ADPam.sbmlCompartment="compartment"; Glucoseam.sbmlRole="species"; Glucoseam.sbmlCompartment="compartment"; Glucosecyt.sbmlRole="species"; Glucosecyt.sbmlCompartment="compartment"; G6Pam.sbmlRole="species"; G6Pam.sbmlCompartment="compartment"; Pcyt.sbmlRole="species"; Pcyt.sbmlCompartment="compartment"; G6Pcyt.sbmlRole="species"; G6Pcyt.sbmlCompartment="compartment"; G1Pcyt.sbmlRole="species"; G1Pcyt.sbmlCompartment="compartment"; F6Pcyt.sbmlRole="species"; F6Pcyt.sbmlCompartment="compartment"; F16BPcyt.sbmlRole="species"; F16BPcyt.sbmlCompartment="compartment"; PEPcyt.sbmlRole="species"; PEPcyt.sbmlCompartment="compartment"; ATPcyt.sbmlRole="species"; ATPcyt.sbmlCompartment="compartment"; ADPcyt.sbmlRole="species"; ADPcyt.sbmlCompartment="compartment"; PPcyt.sbmlRole="species"; PPcyt.sbmlCompartment="compartment"; GAPcyt.sbmlRole="species"; GAPcyt.sbmlCompartment="compartment"; DHAPcyt.sbmlRole="species"; DHAPcyt.sbmlCompartment="compartment"; PGA3cyt.sbmlRole="species"; PGA3cyt.sbmlCompartment="compartment"; PGA2cyt.sbmlRole="species"; PGA2cyt.sbmlCompartment="compartment"; xpyruvate.sbmlRole="species"; xpyruvate.sbmlCompartment="compartment"; UTPcyt.sbmlRole="species"; UTPcyt.sbmlCompartment="compartment"; UDPGcyt.sbmlRole="species"; UDPGcyt.sbmlCompartment="compartment"; Sucrose.sbmlRole="species"; Sucrose.sbmlCompartment="compartment"; UDPcyt.sbmlRole="species"; UDPcyt.sbmlCompartment="compartment"; Fructose.sbmlRole="species"; Fructose.sbmlCompartment="compartment"; xsucrose.sbmlRole="species"; xsucrose.sbmlCompartment="compartment"; vAGPase.sbmlRole="rate"; vStSynth.sbmlRole="rate"; vpPPase.sbmlRole="rate"; vStPase.sbmlRole="rate"; vdegr.sbmlRole="rate"; vGexp.sbmlRole="rate"; vG6Pexp.sbmlRole="rate"; vpPGM.sbmlRole="rate"; vcPGM.sbmlRole="rate"; vPGI.sbmlRole="rate"; vPFK.sbmlRole="rate"; vPFP.sbmlRole="rate"; vald.sbmlRole="rate"; vTPI.sbmlRole="rate"; vGAPDH.sbmlRole="rate"; vPGA3imp.sbmlRole="rate"; vPGlyM.sbmlRole="rate"; veno.sbmlRole="rate"; vPK.sbmlRole="rate"; vUGPase.sbmlRole="rate"; vSPSSPP.sbmlRole="rate"; vSSynth.sbmlRole="rate"; vSucUpt.sbmlRole="rate"; vinv.sbmlRole="rate"; vFK.sbmlRole="rate"; vHK.sbmlRole="rate"; vNDPK.sbmlRole="rate"; vAT.sbmlRole="rate"; vPexp.sbmlRole="rate"; vATPcons.sbmlRole="rate"; }