Biochemical systems theory with applications to metabolic control

Michael A. Savageau

Biochemical systems theory with applications to metabolic control

Michael A. Savageau

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The power-law formalism is an example of a canonical nonlinear representation which provides the basis for a theory of intact biochemical systems called biochemical systems theory. The author (1) reviews its origins as a local nonlinear representation, (2) presents a recasting algorithm that allows a wide class of nonlinear functions to be systematically transformed into this canonical form, (3) discusses the advantages of numerical methods that take advantage of this regular structure, and (4) reviews application of these techniques to problems of metabolic control.

Original language	English (US)
Title of host publication	Proceedings of the Annual Conference on Engineering in Medicine and Biology
Place of Publication	Piscataway, NJ, United States
Publisher	Publ by IEEE
Pages	953-954
Number of pages	2
Edition	pt 3
ISBN (Print)	0879425598
State	Published - 1990
Externally published	Yes
Event	Proceedings of the 12th Annual International Conference of the IEEE Engineering in Medicine and Biology Society - Philadelphia, PA, USA Duration: Nov 1 1990 → Nov 4 1990

Other

Other	Proceedings of the 12th Annual International Conference of the IEEE Engineering in Medicine and Biology Society
City	Philadelphia, PA, USA
Period	11/1/90 → 11/4/90

ASJC Scopus subject areas

Bioengineering

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Cite this

Savageau, MA 1990, Biochemical systems theory with applications to metabolic control. in Proceedings of the Annual Conference on Engineering in Medicine and Biology. pt 3 edn, Publ by IEEE, Piscataway, NJ, United States, pp. 953-954, Proceedings of the 12th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Philadelphia, PA, USA, 11/1/90.

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AB - The power-law formalism is an example of a canonical nonlinear representation which provides the basis for a theory of intact biochemical systems called biochemical systems theory. The author (1) reviews its origins as a local nonlinear representation, (2) presents a recasting algorithm that allows a wide class of nonlinear functions to be systematically transformed into this canonical form, (3) discusses the advantages of numerical methods that take advantage of this regular structure, and (4) reviews application of these techniques to problems of metabolic control.

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