Metabolic Flux Balancing: Basic Concepts, Scientific and Practical Use
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[1] J. Field. Energy metabolism of the cell. , 1947, Stanford medical bulletin.
[2] M. Savageau. Biochemical systems analysis. II. The steady-state solutions for an n-pool system using a power-law approximation. , 1969, Journal of theoretical biology.
[3] D Garfinkel,et al. Computer applications to biochemical kinetics. , 1970, Annual review of biochemistry.
[4] R Heinrich,et al. Metabolic regulation and mathematical models. , 1977, Progress in biophysics and molecular biology.
[5] C L Cooney,et al. Computer‐aided material balancing for prediction of fermentation parameters , 1977, Biotechnology and bioengineering.
[6] M. R. Watson. Metabolic maps for the Apple II , 1984 .
[7] E. Papoutsakis. Equations and calculations for fermentations of butyric acid bacteria , 1984, Biotechnology and bioengineering.
[8] E. Papoutsakis,et al. Equations and calculations of product yields and preferred pathways for butanediol and mixed‐acid fermentations , 1985, Biotechnology and bioengineering.
[9] E. Papoutsakis,et al. Fermentation equations for propionic‐acid bacteria and production of assorted oxychemicals from various sugars , 1985, Biotechnology and bioengineering.
[10] B Sonnleitner,et al. Growth of Saccharomyces cerevisiae is controlled by its limited respiratory capacity: Formulation and verification of a hypothesis , 1986, Biotechnology and bioengineering.
[11] D. Fell,et al. Fat synthesis in adipose tissue. An examination of stoichiometric constraints. , 1986, The Biochemical journal.
[12] M. R. Watson,et al. A discrete model of bacterial metabolism , 1986, Comput. Appl. Biosci..
[13] F. Neidhardt,et al. Escherichia Coli and Salmonella: Typhimurium Cellular and Molecular Biology , 1987 .
[14] G N Stephanopoulos,et al. Intelligent Sensors in Biotechnology , 1987, Annals of the New York Academy of Sciences.
[15] R. Bajpai,et al. Control of Bacterial Fermentations , 1987, Annals of the New York Academy of Sciences.
[16] Y. H. Lee,et al. Application of metabolic pathway stoichiometry to statistical analysis of bioreactor measurement data , 1988, Biotechnology and bioengineering.
[17] B. Palsson,et al. Metabolic dynamics in the human red cell. Part I--A comprehensive kinetic model. , 1989, Journal of theoretical biology.
[18] M. Domach,et al. Simple constrained‐optimization view of acetate overflow in E. coli , 1990, Biotechnology and bioengineering.
[19] G. Stephanopoulos,et al. FLUX DETERMINATION IN CELLULAR BIOREACTION NETWORKS: APPLICATIONS TO LYSINE FERMENTATIONS , 1990 .
[20] A. Cornish-Bowden,et al. Control of Metabolic Processes , 1990, NATO ASI Series.
[21] J. Bailey,et al. Toward a science of metabolic engineering , 1991, Science.
[22] G. Stephanopoulos,et al. Network rigidity and metabolic engineering in metabolite overproduction , 1991, Science.
[23] B. Palsson,et al. Network analysis of intermediary metabolism using linear optimization. I. Development of mathematical formalism. , 1992, Journal of theoretical biology.
[24] B. Palsson,et al. Network analysis of intermediary metabolism using linear optimization. II. Interpretation of hybridoma cell metabolism. , 1992, Journal of theoretical biology.
[25] B. Palsson,et al. Stoichiometric interpretation of Escherichia coli glucose catabolism under various oxygenation rates , 1993, Applied and environmental microbiology.
[26] A J Sinskey,et al. Metabolic engineering--methodologies and future prospects. , 1993, Trends in biotechnology.
[27] M M Ataai,et al. Analysis of metabolic fluxes in batch and continuous cultures of Bacillus subtilis , 1993, Biotechnology and bioengineering.
[28] B. Palsson,et al. Biochemical production capabilities of escherichia coli , 1993, Biotechnology and bioengineering.
[29] B. Palsson,et al. Metabolic capabilities of Escherichia coli: I. synthesis of biosynthetic precursors and cofactors. , 1993, Journal of theoretical biology.
[30] G. Stephanopoulos,et al. Metabolic flux distributions in Corynebacterium glutamicum during growth and lysine overproduction , 2000, Biotechnology and bioengineering.
[31] W. Bentley,et al. An integrated metabolic modeling approach to describe the energy efficiency of Escherichia coli fermentations under oxygen‐limited conditions: Cellular energetics, carbon flux, and acetate production , 1993, Biotechnology and Bioengineering.
[32] B. Palsson,et al. Metabolic Capabilities of Escherichia coli II. Optimal Growth Patterns , 1993 .
[33] M. Ataai,et al. Utilization of glucose and amino acids in insect cell cultures: Quantifying the metabolic flows within the primary pathways and medium development , 1993, Biotechnology and bioengineering.
[34] D. I. Wang,et al. Stoichiometric analysis of animal cell growth and its application in medium design , 1994, Biotechnology and bioengineering.
[35] B O Palsson,et al. Predictions for oxygen supply control to enhance population stability of engineered production strains , 1994, Biotechnology and bioengineering.
[36] H. Kacser,et al. The control of flux. , 1995, Biochemical Society transactions.