Complex Sciences. First International Conference, Complex 2009, Shanghai, China, February 23-25, 2009. Revised Papers, Part 1

Research Article

The Results on the Stability of Glycolytic Metabolic Networks in Different Cells

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  • @INPROCEEDINGS{10.1007/978-3-642-02466-5_51,
    author={Qinghua Zhou and Gang Peng and Li Jin and Momiao Xiong},
    title={The Results on the Stability of Glycolytic Metabolic Networks in Different Cells},
    proceedings={Complex Sciences. First International Conference, Complex 2009, Shanghai, China, February 23-25, 2009. Revised Papers, Part 1},
    proceedings_a={COMPLEX PART 1},
    year={2012},
    month={5},
    keywords={stability metabolic networks glycolysis FBA methods},
    doi={10.1007/978-3-642-02466-5_51}
}
  • Qinghua Zhou
    Gang Peng
    Li Jin
    Momiao Xiong
    Year: 2012
    The Results on the Stability of Glycolytic Metabolic Networks in Different Cells
    COMPLEX PART 1
    Springer
    DOI: 10.1007/978-3-642-02466-5_51
Qinghua Zhou,*, Gang Peng1,*, Li Jin1,*, Momiao Xiong,*
  • 1: Fudan University
*Contact email: qinghua.zhou@gmail.com, gpengfd@gmail.com, ljin007@gmail.com, momiao@gmail.com

Abstract

Evolutionary forces will affect the structure of metabolic networks and their dynamic behaviors. To examine this hypothesis, in this work we investigate the relationship between the complexity of the metabolic glycolytic networks and the stability of the networks in different cells. By deriving the stoichiometrix from the FBA methods, we develop the models for Sce, Dmgr, Dsmi and Pic in fungi. Based on these models, we analyze the stability of the networks. The results show that the metabolic networks are more complicated with more stable ones.

Keywords
stability metabolic networks glycolysis FBA methods
Published
2012-05-11
http://dx.doi.org/10.1007/978-3-642-02466-5_51
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