begin name
arnold11
end name

begin reactions
AGPase {1.0}HeP + {1.0}ATP = {1.0}$EXTERNAL
ATPS {1.0}$EXTERNAL = {1.0}ATP
F26BPcP {1.0}F26BPc = {1.0}HePc
F6PTK {1.0}HeP + {1.0}TP = {1.0}E4P + {1.0}PeP
F6PcK {1.0}HePc + {1.0}$ATPc = {1.0}F26BPc
FBPA {2.0}TP = {1.0}FBP
FBPase {1.0}FBP = {1.0}HeP
FBPcA {2.0}TPc = {1.0}FBPc
FBPcase {1.0}FBPc = {1.0}HePc
GAPDH {1.0}DPGA + {1.0}$NADPH = {1.0}TP + {1.0}$NADP
GCAcOx {1.0}GCAc = {1.0}GOAc
GCEADH {1.0}HPRc + {1.0}$NADH = {1.0}GCEAc + {1.0}$NAD
GCEAK {1.0}ATP + {1.0}GCEA = {1.0}PGA
GLUcGOAcAT {1.0}$GLUc + {1.0}GOAc = {1.0}$KGc + {1.0}GLYc
GLYcDC {2.0}GLYc = {1.0}SERc
GPTGCA {1.0}GCA = {1.0}GCAc
GPTGCAc {1.0}GCAc = {1.0}GCA
GPTGCEA {1.0}GCEA = {1.0}GCEAc
GPTGCEAc {1.0}GCEAc = {1.0}GCEA
PGAK {1.0}PGA + {1.0}ATP = {1.0}DPGA
PGAcDeg {1.0}PGAc = {1.0}$EXTERNAL
PGCAP {1.0}PGCA = {1.0}GCA
Ru5PK {1.0}PeP + {1.0}ATP = {1.0}RuBP
RuBisCOCO2 {1.0}RuBP = {2.0}PGA
RuBisCOO2 {1.0}RuBP = {1.0}PGA + {1.0}PGCA
S7PTK {1.0}TP + {1.0}S7P = {2.0}PeP
SBPA {1.0}TP + {1.0}E4P = {1.0}SBP
SBPase {1.0}SBP = {1.0}S7P
SERcGOAcAT {1.0}SERc + {1.0}GOAc = {1.0}HPRc + {1.0}GLYc
SucPcP {1.0}SucPc = {1.0}Succ
SucPcS {1.0}HePc + {1.0}UDPGc = {1.0}SucPc
SuccDeg {1.0}Succ = {1.0}$EXTERNAL
TPTDHAP {1.0}TP = {1.0}TPc
TPTGAP {1.0}TP = {1.0}TPc
TPTPGA {1.0}PGA = {1.0}PGAc
UGPase {1.0}HePc + {1.0}$UTPc = {1.0}UDPGc
end reactions

begin rate equations
AGPase = chloroplast*function10[AGPaseVm, G1P, ATP[t], AGPaseK1, AGPaseK2, ADP, AGPaseKR1, Pi, AGPaseKA1, PGA[t], AGPaseKA2, F6P, AGPaseKA3, FBP[t]]
ATPS = chloroplast*function4[ADP, Pi, ATP[t], ATPSq, ATPSKs1, ATPSKs2, ATPSKp1, ATPSVm]
F26BPcP = cytosol*function16[F26BPcPVm, F26BPc[t], Pic, F26BPcPKr1, F6Pc, F26BPcPKr2, F26BPcPKs1]
F6PTK = chloroplast*function6[F6PTKVm, F6P, GAP, X5P, E4P[t], F6PTKKs1, F6PTKKs2, X5P, F6PTKKr1, E4P[t], F6PTKKr2, F6PTKq]
F6PcK = cytosol*function15[F6PcKVm, F6Pc, ATPc, F26BPc[t], ADPc, F6PcKq, F6PcKKs1, F26BPc[t], F6PcKKr1, DHAPc, F6PcKKr2, F6PcKKs2, ADPc, F6PcKKr3]
FBPA = chloroplast*function4[GAP, DHAP, FBP[t], FBPAq, FBPAKs1, FBPAKs2, FBPAKp1, FBPAVm]
FBPase = chloroplast*function5[FBPaseVm, FBP[t], F6P, Pi, FBPaseq, FBPaseKs1, F6P, FBPaseKr1, Pi, FBPaseKr2]
FBPcA = cytosol*function4[GAPc, DHAPc, FBPc[t], FBPcAq, FBPcAKs1, FBPcAKs2, FBPcAKp1, FBPcAVm]
FBPcase = cytosol*function12[FBPc[t], F6Pc, Pic, FBPcaseq, K52a, FBPcaseKp1, FBPcaseKp2, FBPcaseVm]
GAPDH = chloroplast*function3[GAPDHVm, DPGA[t], NADPH, GAPDHK1, GAPDHK2]
GCAcOx = cytosol*function17[GCAc[t], GCAcOxKm, GCAcOxV]
GCEADH = function21[GCEADHVm, HPRc[t], NADH, GCEAc[t], NAD, GCEADHq, GCEADHKs1, HPRc[t], GCEADHKr1]
GCEAK = chloroplast*function20[GCEAKVm, ATP[t], GCEA[t], PGA[t], ADP, GCEAKq, GCEAKKs1, PGA[t], GCEAKKr1, GCEAKKs2]
GLUcGOAcAT = cytosol*function20[GLUcGOAcATVm, GLUc, GOAc[t], KGc, GLYc[t], GLUcGOAcATq, GLUcGOAcATKs1, GLYc[t], GLUcGOAcATKr1, GLUcGOAcATKs2]
GLYcDC = cytosol*function22[GLYcDCVm, GLYc[t], GLYcDCKs1, SERc[t], GLYcDCKr1]
GPTGCA = function18[GCA[t], GCEA[t], GPTGCAKm, GPTGCAV, GPTGCAKi]
GPTGCAc = function18[GCAc[t], GCEAc[t], GPTGCAcKm, GPTGCAcV, GPTGCAcKi]
GPTGCEA = function18[GCEA[t], GCA[t], GPTGCEAKm, GPTGCEAV, GPTGCEAKi]
GPTGCEAc = function18[GCEAc[t], GCAc[t], GPTGCEAcKm, GPTGCEAcV, GPTGCEAcKi]
PGAK = chloroplast*function2[PGAKVm, PGA[t], ATP[t], PGAKKs1, PGAKKs2, ADP, PGAKKr1]
PGAcDeg = cytosol*function17[PGAc[t], PGAcDegKm, PGAcDegV]
PGCAP = chloroplast*function19[PGCAPVm, PGCA[t], PGCAPKs1, GCA[t], PGCAPKr1, Pi, PGCAPKr2]
Ru5PK = chloroplast*function9[Ru5PKVm, Ru5P, ATP[t], RuBP[t], ADP, Ru5PKq, Ru5PKKs1, PGA[t], Ru5PKKr1, RuBP[t], Ru5PKKr2, Pi, Ru5PKKr3, ADP, Ru5PKKr41, Ru5PKKs2, Ru5PKKr42]
RuBisCOCO2 = chloroplast*function1[Wcmin, RuBP[t], RuBisCOCO2K, PGA[t], RuBisCOCO2KR1, FBP[t], RuBisCOCO2KR2, SBP[t], RuBisCOCO2KR3, Pi, RuBisCOCO2KR4, NADPH, RuBisCOCO2KR5]
RuBisCOO2 = chloroplast*function1[Womin, RuBP[t], RuBisCOO2K, PGA[t], RuBisCOO2KR1, FBP[t], RuBisCOO2KR2, SBP[t], RuBisCOO2KR3, Pi, RuBisCOO2KR4, NADPH, RuBisCOO2KR5]
S7PTK = chloroplast*function6[S7PTKVm, GAP, S7P[t], X5P, R5P, S7PTKKs1, S7PTKKs2, X5P, S7PTKKr1, R5P, S7PTKKr2, S7PTKq]
SBPA = chloroplast*function7[SBPAVm, DHAP, E4P[t], SBP[t], SBPAq, SBPAKs1, SBPAKs2]
SBPase = chloroplast*function8[SBPaseVm, SBP[t], S7P[t], Pi, SBPaseq, SBPaseKs1, Pi, SBPaseKr1]
SERcGOAcAT = function20[SERcGOAcATVm, SERc[t], GOAc[t], HPRc[t], GLYc[t], SERcGOAcATq, SERcGOAcATKs1, GLYc[t], SERcGOAcATKr1, SERcGOAcATKs2]
SucPcP = cytosol*function8[SucPcPVm, SucPc[t], Succ[t], Pic, SucPcPq, SucPcPKs1, Succ[t], SucPcPKr1]
SucPcS = cytosol*function14[SucPcSVm, F6Pc, UDPGc[t], SucPc[t], UDPc, SucPcSq, SucPcSKs1, FBPc[t], SucPcSKr1, SucPcSKs2, UDPc, SucPcSKr2, SucPc[t], SucPcSKr3, Succ[t], SucPcSKr4, Pic, SucPcSKr5]
SuccDeg = cytosol*function17[Succ[t], SuccDegKm, SuccDegV]
TPTDHAP = function11[TPTDHAPVm, DHAP, TPTDHAPKA, Pic, TPTDHAPK, Pi, TPTDHAPKR1, PGA[t], TPTDHAPKR2, GAP, TPTDHAPKR3]
TPTGAP = function11[TPTGAPVm, GAP, TPTGAPKA, Pic, TPTGAPK, Pi, TPTGAPKR1, PGA[t], TPTGAPKR2, DHAP, TPTGAPKR3]
TPTPGA = function11[TPTPGAVm, PGA[t], TPTPGAKA, Pic, TPTPGAK, Pi, TPTPGAKR1, GAP, TPTPGAKR2, DHAP, TPTPGAKR3]
UGPase = cytosol*function13[G1Pc, UTPc, UDPGc[t], PiPic, UGPaseq, UGPaseKs1, UGPaseKs2, UGPaseKp1, UGPaseKp2, UGPaseVm]
end rate equations

begin parameters
E = 1.456965457
cA = 1.5
cAc = 1.0
cNc = 0.87
cP = 15.0
cPc = 15.0
cUc = 1.5
ATPc = 0.35
CO2 = 0.009
GLUc = 24.0
KGc = 0.4
NAD = 0.4
NADH = 0.47
NADP = 0.29
NADPH = 0.21
O2 = 0.2646
UTPc = 0.75
RuBisCOCO2K = 0.02
RuBisCOCO2KR1 = 0.84
RuBisCOCO2KR2 = 0.04
RuBisCOCO2KR3 = 0.075
RuBisCOCO2KR4 = 0.9
RuBisCOCO2KR5 = 0.07
PGAKVm = 30.1408
PGAKKs1 = 0.24
PGAKKs2 = 0.39
PGAKKr1 = 0.23
GAPDHVm = 4.03948
GAPDHK1 = 0.004
GAPDHK2 = 0.1
FBPAq = 7.1
FBPAKs1 = 0.3
FBPAKs2 = 0.4
FBPAKp1 = 0.02
FBPAVm = 1.21889
FBPaseVm = 0.72626
FBPaseq = 666000.0
FBPaseKs1 = 0.033
FBPaseKr1 = 0.7
FBPaseKr2 = 12.0
F6PTKVm = 3.12207
F6PTKKs1 = 0.1
F6PTKKs2 = 0.1
F6PTKKr1 = 0.1
F6PTKKr2 = 0.1
F6PTKq = 10.0
SBPAVm = 1.21889
SBPAq = 1.017
SBPAKs1 = 0.4
SBPAKs2 = 0.2
SBPaseVm = 0.324191
SBPaseq = 666000.0
SBPaseKs1 = 0.05
SBPaseKr1 = 12.0
S7PTKVm = 3.12207
S7PTKKs1 = 0.072
S7PTKKs2 = 0.46
S7PTKKr1 = 0.1
S7PTKKr2 = 1.5
S7PTKq = 1.17647
Ru5PKVm = 10.8348
Ru5PKq = 6846.0
Ru5PKKs1 = 0.05
Ru5PKKr1 = 2.0
Ru5PKKr2 = 0.7
Ru5PKKr3 = 4.0
Ru5PKKr41 = 2.5
Ru5PKKs2 = 0.059
Ru5PKKr42 = 0.4
ATPSq = 5.734
ATPSKs1 = 0.014
ATPSKs2 = 0.3
ATPSKp1 = 0.3
ATPSVm = 15.0
AGPaseVm = 0.266843
AGPaseK1 = 0.08
AGPaseK2 = 0.08
AGPaseKR1 = 10.0
AGPaseKA1 = 0.1
AGPaseKA2 = 0.02
AGPaseKA3 = 0.02
TPTPGAVm = 1.24333
TPTPGAKA = 0.74
TPTPGAK = 0.25
TPTPGAKR1 = 0.63
TPTPGAKR2 = 0.075
TPTPGAKR3 = 0.077
TPTGAPVm = 1.24333
TPTGAPKA = 0.74
TPTGAPK = 0.075
TPTGAPKR1 = 0.63
TPTGAPKR2 = 0.25
TPTGAPKR3 = 0.077
TPTDHAPVm = 1.24333
TPTDHAPKA = 0.74
TPTDHAPK = 0.077
TPTDHAPKR1 = 0.63
TPTDHAPKR2 = 0.25
TPTDHAPKR3 = 0.075
FBPcAq = 12.0
FBPcAKs1 = 0.3
FBPcAKs2 = 0.4
FBPcAKp1 = 0.02
FBPcAVm = 0.107377
FBPcaseq = 6663.0
FBPcaseKp1 = 0.7
FBPcaseKp2 = 12.0
FBPcaseVm = 0.063979
UGPaseq = 0.31
UGPaseKs1 = 0.14
UGPaseKs2 = 0.1
UGPaseKp1 = 0.12
UGPaseKp2 = 0.11
UGPaseVm = 0.115403
SucPcSVm = 0.0555034
SucPcSq = 10.0
SucPcSKs1 = 0.8
SucPcSKr1 = 0.8
SucPcSKs2 = 2.4
SucPcSKr2 = 0.7
SucPcSKr3 = 0.4
SucPcSKr4 = 50.0
SucPcSKr5 = 11.0
SucPcPVm = 0.555034
SucPcPq = 780.0
SucPcPKs1 = 0.35
SucPcPKr1 = 80.0
F6PcKVm = 0.100915
F6PcKq = 590.0
F6PcKKs1 = 0.5
F6PcKKr1 = 0.021
F6PcKKr2 = 0.7
F6PcKKs2 = 0.5
F6PcKKr3 = 0.16
F26BPcPVm = 0.0168192
F26BPcPKr1 = 0.5
F26BPcPKr2 = 0.1
F26BPcPKs1 = 0.032
SuccDegKm = 5.0
SuccDegV = 2.0
PGAcDegKm = 1.0
PGAcDegV = 0.5
GPTGCEAcKm = 0.39
GPTGCEAcV = 5.0
GPTGCEAcKi = 0.28
GPTGCEAKm = 0.39
GPTGCEAV = 5.0
GPTGCEAKi = 0.28
GPTGCAKm = 0.2
GPTGCAV = 6.0
GPTGCAKi = 0.22
GPTGCAcKm = 0.2
GPTGCAcV = 6.0
GPTGCAcKi = 0.22
RuBisCOO2K = 0.02
RuBisCOO2KR1 = 0.84
RuBisCOO2KR2 = 0.04
RuBisCOO2KR3 = 0.075
RuBisCOO2KR4 = 0.9
RuBisCOO2KR5 = 0.07
PGCAPVm = 52.4199
PGCAPKs1 = 0.026
PGCAPKr1 = 94.0
PGCAPKr2 = 2.55
GCEAKVm = 5.71579
GCEAKq = 300.0
GCEAKKs1 = 0.21
GCEAKKr1 = 0.36
GCEAKKs2 = 0.25
GCAcOxKm = 0.1
GCAcOxV = 1.45611
SERcGOAcATVm = 3.30619
SERcGOAcATq = 0.24
SERcGOAcATKs1 = 2.7
SERcGOAcATKr1 = 33.0
SERcGOAcATKs2 = 0.15
GCEADHVm = 10.0098
GCEADHq = 250000.0
GCEADHKs1 = 0.09
GCEADHKr1 = 12.0
GLUcGOAcATVm = 2.74582
GLUcGOAcATq = 607.0
GLUcGOAcATKs1 = 1.7
GLUcGOAcATKr1 = 2.0
GLUcGOAcATKs2 = 0.15
GLYcDCVm = 2.49475
GLYcDCKs1 = 6.0
GLYcDCKr1 = 4.0
chloroplast = 1.0
cytosol = 1.0
end parameters

begin initial conditions
ATP[0] = ATPi
DPGA[0] = DPGAi
E4P[0] = E4Pi
F26BPc[0] = F26BPci
FBP[0] = FBPi
FBPc[0] = FBPci
GCA[0] = GCAi
GCAc[0] = GCAci
GCEA[0] = GCEAi
GCEAc[0] = GCEAci
GLYc[0] = GLYci
GOAc[0] = GOAci
HPRc[0] = HPRci
HeP[0] = HePi
HePc[0] = HePci
PGA[0] = PGAi
PGAc[0] = PGAci
PGCA[0] = PGCAi
PeP[0] = PePi
RuBP[0] = RuBPi
S7P[0] = S7Pi
SBP[0] = SBPi
SERc[0] = SERci
SucPc[0] = SucPci
Succ[0] = Succi
TP[0] = TPi
TPc[0] = TPci
UDPGc[0] = UDPGci
end initial conditions

begin initial values
ATPi = 0.68
DPGAi = 0.0011
E4Pi = 0.05
F26BPci = 7.8e-06
FBPi = 0.669999999999999
FBPci = 2.0
GCAi = 0.36
GCAci = 0.36
GCEAi = 0.1812
GCEAci = 0.1812
GLYci = 1.8
GOAci = 0.028
HPRci = 0.0035
HePi = 2.2
HePci = 5.8
PGAi = 2.4
PGAci = 0.0
PGCAi = 0.0029
PePi = 0.25
RuBPi = 2.0
S7Pi = 2.0
SBPi = 0.3
SERci = 7.5
SucPci = 0.0
Succi = 0.0
TPi = 0.5
TPci = 2.3
UDPGci = 0.57
end initial values

begin assignment rules
Ru5P := 0.20029895366218237*PeP[t]
Pi := cP - ATP[t] - E4P[t] - HeP[t] - PeP[t] - PGA[t] - PGCA[t] - S7P[t] - 2*(DPGA[t] + FBP[t] + RuBP[t] + SBP[t]) - TP[t]
X5P := 0.2989536621823617*PeP[t]
G1P := 0.03885361449292246*HeP[t]
GAP := 0.047619047619047616*TP[t]
DHAP := 0.9523809523809523*TP[t]
G6P := 0.6698899050503873*HeP[t]
R5P := 0.5007473841554559*PeP[t]
K52a := 0.0025*(1 + (100000*F26BPc[t])/7)
ADPc := -ATPc + cAc
Womin := (0.34967170967999994*O2*(1 - Abs[1 - RuBP[t]/E] + RuBP[t]/E))/(0.222*(1 + 86.95652173913044*CO2) + O2)
UDPc := cUc - UTPc - UDPGc[t]
DHAPc := 0.9523809523809523*TPc[t]
G1Pc := 0.039111090405087465*HePc[t]
Wcmin := (1.456965457*CO2*(1 - Abs[1 - RuBP[t]/E] + RuBP[t]/E))/(CO2 + 0.0115*(1 + 4.504504504504505*O2))
PiPic := -Pic + PiTc
Pic := 6000000*(-1 + Sqrt[1 + PiTc/3000000])
F6Pc := 0.29117845745300375*HePc[t]
PiTc := -ATPc + cPc - UTPc - 2*(F26BPc[t] + FBPc[t]) - HePc[t] - PGAc[t] - SucPc[t] - TPc[t]
GAPc := 0.047619047619047616*TPc[t]
G6Pc := 0.6697104521419086*HePc[t]
ADP := cA - ATP[t]
F6P := 0.2912564804566901*HeP[t]
end assignment rules

begin function definitions
function4[s1_,s2_,p1_,q_,Ks1_,Ks2_,Kp1_,Vm_] := ((-(p1/q) + s1*s2)*Vm)/(Ks1*Ks2*(p1/Kp1 + (1 + s1/Ks1)*(1 + s2/Ks2)))
function6[Vm_,s1_,s2_,p1_,p2_,Ks1_,Ks2_,r1_,Kr1_,r2_,Kr2_,q_] := ((-((p1*p2)/q) + s1*s2)*Vm)/((Ks1*(1 + r1/Kr1 + r2/Kr2) + s1)*(Ks2 + s2))
function16[Vm_,s1_,r1_,Kr1_,r2_,Kr2_,Ks1_] := (s1*Vm)/((1 + r1/Kr1)*(1 + r2/Kr2)*(Ks1 + s1))
function5[Vm_,s1_,p1_,p2_,q_,Ks1_,r1_,Kr1_,r2_,Kr2_] := ((-((p1*p2)/q) + s1)*Vm)/(Ks1*(1 + r1/Kr1 + r2/Kr2) + s1)
function17[substrate_,Km_,V_] := (substrate*V)/(Km + substrate)
function18[substrate_,Inhibitor_,Km_,V_,Ki_] := (substrate*V)/(Km + (Inhibitor*Km)/Ki + substrate)
function9[Vm_,s1_,s2_,p1_,p2_,q_,Ks1_,r1_,Kr1_,r2_,Kr2_,r3_,Kr3_,r4_,Kr41_,Ks2_,Kr42_] := ((-((p1*p2)/q) + s1*s2)*Vm)/((Ks1*(1 + r1/Kr1 + r2/Kr2 + r3/Kr3) + s1)*(Ks2*(1 + r4/Kr42) + (1 + r4/Kr41)*s2))
function12[s1_,p1_,p2_,q_,Ks1_,Kp1_,Kp2_,Vm_] := ((-((p1*p2)/q) + s1)*Vm)/(Ks1*((1 + p1/Kp1)*(1 + p2/Kp2) + s1/Ks1))
function8[Vm_,s1_,p1_,p2_,q_,Ks1_,r1_,Kr1_] := ((-((p1*p2)/q) + s1)*Vm)/(Ks1*(1 + r1/Kr1) + s1)
function15[Vm_,s1_,s2_,p1_,p2_,q_,Ks1_,r1_,Kr1_,r2_,Kr2_,Ks2_,r3_,Kr3_] := ((-((p1*p2)/q) + s1*s2)*Vm)/((Ks1*(1 + r1/Kr1)*(1 + r2/Kr2) + s1)*(Ks2*(1 + r3/Kr3) + s2))
function21[Vm_,s1_,s2_,p1_,p2_,q_,Ks1_,r1_,Kr1_] := ((-((p1*p2)/q) + s1*s2)*Vm)/(Ks1*(1 + r1/Kr1) + s1)
function14[Vm_,s1_,s2_,p1_,p2_,q_,Ks1_,r1_,Kr1_,Ks2_,r2_,Kr2_,r3_,Kr3_,r4_,Kr4_,r5_,Kr5_] := ((-((p1*p2)/q) + s1*s2)*Vm)/((Ks1*(1 + r1/Kr1) + s1)*(Ks2*(1 + r2/Kr2)*(1 + r3/Kr3)*(1 + r4/Kr4)*(1 + r5/Kr5) + s2))
function22[Vm_,s1_,Ks1_,r1_,Kr1_] := (s1*Vm)/(Ks1*(1 + r1/Kr1) + s1)
function3[Vm_,s1_,s2_,K1_,K2_] := (s1*s2*Vm)/((K1 + s1)*(K2 + s2))
function1[Vm_,S_,K_,R1_,KR1_,R2_,KR2_,R3_,KR3_,R4_,KR4_,R5_,KR5_] := (S*Vm)/(K*(1 + R1/KR1 + R2/KR2 + R3/KR3 + R4/KR4 + R5/KR5) + S)
function20[Vm_,s1_,s2_,p1_,p2_,q_,Ks1_,r1_,Kr1_,Ks2_] := ((-((p1*p2)/q) + s1*s2)*Vm)/((Ks1*(1 + r1/Kr1) + s1)*(Ks2 + s2))
function11[Vm_,S_,KA_,A_,K_,R1_,KR1_,R2_,KR2_,R3_,KR3_] := (S*Vm)/(K*(1 + (1 + KA/A)*(R1/KR1 + R2/KR2 + R3/KR3)) + (1 + KA/A)*S)
function7[Vm_,s1_,s2_,p1_,q_,Ks1_,Ks2_] := ((-(p1/q) + s1*s2)*Vm)/((Ks1 + s1)*(Ks2 + s2))
function19[Vm_,s1_,Ks1_,r1_,Kr1_,r2_,Kr2_] := (s1*Vm)/(Ks1*(1 + r1/Kr1)*(1 + r2/Kr2) + s1)
function10[Vm_,S1_,S2_,K1_,K2_,R1_,KR1_,R2_,KA1_,A1_,KA2_,A2_,KA3_,A3_] := (S1*S2*Vm)/((1 + R1/KR1)*(K1 + S1)*(K2*(1 + (K2*R2)/(A1*KA1 + A2*KA2 + A3*KA3)) + S2))
function2[Vm_,s1_,s2_,Ks1_,Ks2_,r1_,Kr1_] := (s1*s2*Vm)/((Ks1 + s1)*(Ks2*(1 + r1/Kr1) + s2))
function13[s1_,s2_,p1_,p2_,q_,Ks1_,Ks2_,Kp1_,Kp2_,Vm_] := ((-((p1*p2)/q) + s1*s2)*Vm)/(Ks1*Ks2*(-1 + (1 + p1/Kp1)*(1 + p2/Kp2) + (1 + s1/Ks1)*(1 + s2/Ks2)))
end function definitions

begin events
end events

begin process annotations
end process annotations

begin species annotations
ADPc http://identifiers.org/chebi/CHEBI:16761
ATPc http://identifiers.org/chebi/CHEBI:15422
Pic http://identifiers.org/chebi/CHEBI:43474
SucPc http://identifiers.org/chebi/CHEBI:16308
end species annotations

begin units
end units