David A. Fell conducted interdisciplinary study in his works that combined Biochemistry and Cell biology. David A. Fell carries out multidisciplinary research, doing studies in Cell biology and Biochemistry. His Organic chemistry study frequently links to other fields, such as Metabolic engineering. His Flux (metallurgy) study frequently draws connections to adjacent fields such as Organic chemistry. In his articles, David A. Fell combines various disciplines, including Metabolic network and Systems biology. David A. Fell undertakes interdisciplinary study in the fields of Systems biology and Computational biology through his works. His study connects Metabolic network and Computational biology. In his research, David A. Fell undertakes multidisciplinary study on Metabolic pathway and Citric acid cycle. David A. Fell merges Citric acid cycle with Metabolic pathway in his research.
His Metabolic control analysis course of study focuses on Insulin and Endocrinology. His study ties his expertise on Insulin together with the subject of Endocrinology. In his work, he performs multidisciplinary research in Biochemistry and Biological system. His research on Organic chemistry often connects related areas such as Flux (metallurgy). In most of his Flux (metallurgy) studies, his work intersects topics such as Organic chemistry. He undertakes multidisciplinary studies into Enzyme and Serine in his work. David A. Fell conducts interdisciplinary study in the fields of Gene and Escherichia coli through his research. He conducts interdisciplinary study in the fields of Escherichia coli and Gene through his works. In his articles, David A. Fell combines various disciplines, including Metabolism and Flux balance analysis.
As part of his studies on Biochemistry, David A. Fell frequently links adjacent subjects like Alkane. As part of his studies on Organic chemistry, he often connects relevant areas like Carbon monoxide. He merges many fields, such as Enzyme and Protein engineering, in his writings. His study in Food science extends to Fermentation with its themes. His research on Food science frequently connects to adjacent areas such as Xylose. His Xylose study frequently draws connections between adjacent fields such as Fermentation. His research on Agronomy frequently links to adjacent areas such as Biomass (ecology). He combines topics linked to Agronomy with his work on Biomass (ecology). His Flux (metallurgy) study typically links adjacent topics like Organic chemistry.
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Understanding the Control of Metabolism
The small world inside large metabolic networks
Andreas Wagner;David A. Fell.
Proceedings of The Royal Society B: Biological Sciences (2001)
A general definition of metabolic pathways useful for systematic organization and analysis of complex metabolic networks.
Stefan Schuster;David A. Fell;Thomas Dandekar;Thomas Dandekar.
Nature Biotechnology (2000)
Metabolic control analysis: a survey of its theoretical and experimental development.
D A Fell.
Biochemical Journal (1992)
Detection of elementary flux modes in biochemical networks: a promising tool for pathway analysis and metabolic engineering
Stefan Schuster;Thomas Dandekar;Thomas Dandekar;David A. Fell.
Trends in Biotechnology (1999)
The small world of metabolism.
David A. Fell;Andreas Wagner.
Nature Biotechnology (2000)
Metabolic pathways in the post-genome era.
Jason A. Papin;Nathan D. Price;Sharon J. Wiback;David A. Fell.
Trends in Biochemical Sciences (2003)
Control of glucose utilization in working perfused rat heart.
Y Kashiwaya;K Sato;N Tsuchiya;S Thomas.
Journal of Biological Chemistry (1994)
Metabolic control and its analysis. Additional relationships between elasticities and control coefficients.
David A. Fell;Herbert M. Sauro.
FEBS Journal (1985)
Fat synthesis in adipose tissue: an examination of stoichiometric constraints
D A Fell;J R Small.
Biochemical Journal (1986)
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