Kalyan
Vinnakota
myocyte
Human
The Vinnakota et al. 2006 model of muscle glycogenolysis featuring pH time course computation, pH-dependent reaction equilibria and enzyme kinetics.
1264
91
1287
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics
The Vinnakota et al. 2006 model of muscle glycogenolysis featuring pH time course computation, pH-dependent reaction equilibria and enzyme kinetics.
myocyte
Human
myocyte
The Vinnakota et al. 2006 model of muscle glycogenolysis featuring pH time course computation, pH-dependent reaction equilibria and enzyme kinetics.
Human
keyword
glycogenolysis
glycolysis
metabolism
muscle
This is the CellML description of Vinnakota et al.'s mathematical model of muscle glycogenolysis.
1264
91
1287
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics
Vinnakota
Kalyan
glycolysis
muscle
glycogenolysis
metabolism
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics (Experiment 29, 40% Glycogen Phosphorylase A)
Kushmeric
Martin
J
Geoffrey
Rogan
Nunns
keyword
Nunns
Geoffrey
Rogan
16617075
Nunns
Rogan
Geoffrey
gnunns1@jhu.edu
Kalyan
Vinnakota
This is the CellML description of Vinnakota et al.'s mathematical model of muscle glycogenolysis.
gnunns1@jhu.edu
L
Kemp
Melissa
16617075
keyword
The University of Auckland
Auckland Bioengineering Institute
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics (Experiment 45)
2006-03-27
metabolism
glycolysis
glycogenolysis
muscle
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics
1264
1287
91
Dynamics of Muscle Glycogenolysis Modeled with pH Time Course Computation and pH-Dependent Reaction Equilibria and Enzyme Kinetics (Experiment 29, 0.2% Glycogen Phosphorylase A)
16617075
Kushmeric
Martin
J
gnunns1@jhu.edu
Martin
Kushmeric
J
Biophysical Journal
Geoffrey Nunns
Biophysical Journal
Melissa
L
Kemp
2006-03-27
Geoffrey Nunns
Melissa
L
Kemp
Auckland Bioengineering Institute
The University of Auckland
2010-04-08
Biophysical Journal
2010-04-08
This is the CellML description of Vinnakota et al.'s mathematical model of muscle glycogenolysis.
The University of Auckland
Auckland Bioengineering Institute
2010-04-08
2006-03-27
Geoffrey Nunns