Institute of Genomics and Bioinformatics
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Model:
Name: Nielsen_1998_Glycolysis
Description:
Keywords:
References:
Biophysical Chemistry, Volume 72, Issues 1-2 , 5 May 1998, Pages 49-62 Sustained oscillations in glycolysis: an experimental and theoretical study of chaotic and complex periodic behavior and of quenching of simple oscillations. K. Nielsen, P. G. Sørensen, F. Hynne and H. -G. Busse Department of Chemistry and CATS, H.C. Ørsted Institute, University of Copenhagen, Universitetsparken 5, DK-2100 Copenhagen, Denmark
Le Novère N., Bornstein B., Broicher A., Courtot M., Donizelli M., Dharuri H., Li L., Sauro H., Schilstra M., Shapiro B., Snoep J.L., Hucka M.(2006) BioModels Database: A Free, Centralized Database of Curated, Published, Quantitative Kinetic Models of Biochemical and Cellular Systems. Nucleic Acids Res., 34: D689-D691.
Comment:
Reactants:
ATP
ADP
AMP
GLC
F6P
FBP
GAP
NAD
NADH
DPG
PEP
PYR
ACA
EtOH
P
Reactions:
ATP Creation
ADP Creation
NADH Creation
NAD Creation
GLC Creation
GLC to F6P
F6P to F6P
GAP to DPG
PEP to PYR
PYR to ACA
F6P Annihilation
FBP Annihilation
GAP Annihilation
DPG Annihilation
PEP Annihilation
PYR Annihilation
ACA Annihilation
EtOH Annihilation
AMP Annihilation
P Annihilation
F6P to P
FBP tp GAP
DPG to PEP
ACA to EtOH
AMP and ATP to ADP
ATP Creation
ADP Creation
NADH Creation
NAD Creation
GLC Creation
F6P Annihilation
FBP Annihilation
GAP Annihilation
DPG Annihilation
PEP Annihilation
PYR Annihilation
ACA Annihilation
EtOH Annihilation
AMP Annihilation
P Annihilation
GLC to F6P
F6P to F6P
FBP tp GAP
GAP to DPG
DPG to PEP
PEP to PYR
PYR to ACA
ACA to EtOH
AMP and ATP to ADP
F6P to P