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Biochemical systems theory is a
mathematical model A mathematical model is a description of a system using mathematical concepts and language. The process of developing a mathematical model is termed mathematical modeling. Mathematical models are used in the natural sciences (such as physics, ...
ling framework for biochemical systems, based on ordinary
differential equation In mathematics, a differential equation is an equation that relates one or more unknown functions and their derivatives. In applications, the functions generally represent physical quantities, the derivatives represent their rates of change, a ...
s (ODE), in which biochemical processes are represented using power-law expansions in the variables of the system. This framework, which became known as Biochemical Systems Theory, has been developed since the 1960s by Michael Savageau, Eberhard Voit and others for the
systems analysis Systems analysis is "the process of studying a procedure or business to identify its goal and purposes and create systems and procedures that will efficiently achieve them". Another view sees system analysis as a problem-solving technique tha ...
of
biochemical Biochemistry or biological chemistry is the study of chemical processes within and relating to living organisms. A sub-discipline of both chemistry and biology, biochemistry may be divided into three fields: structural biology, enzymology ...
processes. According to Cornish-Bowden (2007) they "regarded this as a general theory of
metabolic Metabolism (, from el, μεταβολή ''metabolē'', "change") is the set of life-sustaining chemical reactions in organisms. The three main functions of metabolism are: the conversion of the energy in food to energy available to run cel ...
control, which includes both metabolic control analysis and flux-oriented theory as special cases". Athel Cornish-Bowden
Metabolic control analysis FAQ
website 18 April 2007.


Representation

The dynamics of a species is represented by a differential equation with the structure:
\frac=\sum_j \mu_ \cdot \gamma_j \prod_k X_k^\,
where ''X''''i'' represents one of the ''n''''d'' variables of the model (metabolite concentrations, protein concentrations or levels of gene expression). ''j'' represents the ''n''''f'' biochemical processes affecting the dynamics of the species. On the other hand, \mu''ij'' (stoichiometric coefficient), \gamma''j'' (rate constants) and ''f''''jk'' (kinetic orders) are two different kinds of parameters defining the dynamics of the system. The principal difference of
power-law In statistics, a power law is a functional relationship between two quantities, where a relative change in one quantity results in a proportional relative change in the other quantity, independent of the initial size of those quantities: one ...
models with respect to other ODE models used in biochemical systems is that the kinetic orders can be non-integer numbers. A kinetic order can have even negative value when inhibition is modeled. In this way, power-law models have a higher flexibility to reproduce the non-linearity of biochemical systems. Models using power-law expansions have been used during the last 35 years to model and analyze several kinds of biochemical systems including metabolic networks, genetic networks and recently in cell signalling.


See also

*
Dynamical systems In mathematics, a dynamical system is a system in which a function describes the time dependence of a point in an ambient space. Examples include the mathematical models that describe the swinging of a clock pendulum, the flow of water in ...
*
Ludwig von Bertalanffy Karl Ludwig von Bertalanffy (19 September 1901 – 12 June 1972) was an Austrian biologist known as one of the founders of general systems theory (GST). This is an interdisciplinary practice that describes systems with interacting components, ap ...
*
Systems theory Systems theory is the interdisciplinary study of systems, i.e. cohesive groups of interrelated, interdependent components that can be natural or human-made. Every system has causal boundaries, is influenced by its context, defined by its structu ...


References


Literature

Books: * M.A. Savageau, ''Biochemical systems analysis: a study of function and design in molecular biology'', Reading, MA, Addison–Wesley, 1976. * E.O. Voit (ed), ''Canonical Nonlinear Modeling. S-System Approach to Understanding Complexity'', Van Nostrand Reinhold, NY, 1991. * E.O. Voit, ''Computational Analysis of Biochemical Systems. A Practical Guide for Biochemists and Molecular Biologists'', Cambridge University Press, Cambridge, U.K., 2000. * N.V. Torres and E.O. Voit, ''Pathway Analysis and Optimization in Metabolic Engineering'', Cambridge University Press, Cambridge, U.K., 2002. Scientific articles: * M.A. Savageau, ''Biochemical systems analysis: I. Some mathematical properties of the rate law for the component enzymatic reactions'' in: J. Theor. Biol. 25, pp. 365–369, 1969. * M.A. Savageau, ''Development of fractal kinetic theory for enzyme-catalysed reactions and implications for the design of biochemical pathways'' in: Biosystems 47(1-2), pp. 9–36, 1998. * M.R. Atkinson et al., ''Design of gene circuits using power-law models'', in: Cell 113, pp. 597–607, 2003. * F. Alvarez-Vasquez et al., ''Simulation and validation of modelled sphingolipid metabolism in Saccharomyces cerevisiae'', ''Nature'' 27, pp. 433(7024), pp. 425–30, 2005. *J. Vera et al., ''Power-Law models of signal transduction pathways'' in: Cellular Signalling ), 2007. * Eberhart O. Voit
''Applications of Biochemical Systems Theory''
2006.


External links



Savageau Lab at UC Davis

Voit Lab at GA Tech {{DEFAULTSORT:Biochemical Systems Theory Systems biology