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Optimal adaptation of metabolic networks in dynamic equilibrium

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Original languageEnglish
Title of host publicationProceedings of the 2011 American Control Conference
Pages2897-2902
Number of pages6
DOIs
Publication statusPublished - 1 Jun 2011
Event2011 American Control Conference - San Francisco, United States
Duration: 29 Jun 20111 Jul 2011
http://acc2011.a2c2.org/index.php?r=1&page=Greetings&w=1920&b=3

Conference

Conference2011 American Control Conference
Abbreviated titleACC 2011
CountryUnited States
CitySan Francisco
Period29/06/111/07/11
Internet address

Abstract

We consider the dynamic optimization of enzyme expression rates to drive a metabolic network between two given equilibrium fluxes. The formulation is based on a nonlinear control-affine model for a metabolic network coupled with a linear model for enzyme expression and degradation, whereby the expression rates are regarded as control inputs to be optimized. The cost function is a quadratic functional that accounts for the deviation of the species concentrations and expression rates from their target values, together with the genetic effort required for enzyme synthesis. If the network is in dynamic equilibrium along the whole adaptation process, the metabolite levels are constant and the nonlinear dynamics can be recast as a nonregular descriptor system. The structure of the reduced system can be exploited to decouple the algebraic and differential parts of the dynamics, so as to parameterize the controls that satisfy the algebraic constraint in terms of a lower-dimensional control. The problem is then solved as a standard Linear Quadratic Regulator problem for an uncon strained lower dimensional system. This solution allows for a systematic computation of the optimal flux trajectories between two prescribed dynamic equilibrium regimes for networks with general topologies and kinetics.

    Research areas

  • algebra, biotechnology, enzymes, linear quadratic control, nonlinear control systems, nonlinear dynamical systems, quadratic programming, reduced order systems, dynamic equilibrium flux, metabolic networks, dynamic optimization, enzyme expression rates, nonlinear control affine model, linear model, enzyme degradation, cost function, quadratic functional, species concentration, enzyme synthesis, adaptation process, nonregular descriptor system, reduced system, differential parts, algebraic constraint, lower-dimensional control, standard linear quadratic regulator problem, unconstrained lower dimensional system, systematic computation, optimal flux trajectories, metabolite levels, nonlinear dynamics, Biochemistry, Steady-state, Optimization, Kinetic theory, Degradation, Equations

Event

2011 American Control Conference

29/06/111/07/11

San Francisco, United States

Event: Conference

ID: 81296048