• Title of article

    Cellular signaling identifiability analysis: A case study

  • Author/Authors

    Roper، نويسنده , , Ryan T. and Pia Saccomani، نويسنده , , Anna Maria and Vicini، نويسنده , , Paolo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2010
  • Pages
    10
  • From page
    528
  • To page
    537
  • Abstract
    Two primary purposes for mathematical modeling in cell biology are (1) simulation for making predictions of experimental outcomes and (2) parameter estimation for drawing inferences from experimental data about unobserved aspects of biological systems. While the former purpose has become common in the biological sciences, the latter is less common, particularly when studying cellular and subcellular phenomena such as signaling—the focus of the current study. Data are difficult to obtain at this level. Therefore, even models of only modest complexity can contain parameters for which the available data are insufficient for estimation. In the present study, we use a set of published cellular signaling models to address issues related to global parameter identifiability. That is, we address the following question: assuming known time courses for some model variables, which parameters is it theoretically impossible to estimate, even with continuous, noise-free data? Following an introduction to this problem and its relevance, we perform a full identifiability analysis on a set of cellular signaling models using DAISY (Differential Algebra for the Identifiability of SYstems). We use our analysis to bring to light important issues related to parameter identifiability in ordinary differential equation (ODE) models. We contend that this is, as of yet, an under-appreciated issue in biological modeling and, more particularly, cell biology.
  • Keywords
    Global identifiability , Mathematical Modeling , Parameter estimation , Mitogen-activated protein kinase pathway
  • Journal title
    Journal of Theoretical Biology
  • Serial Year
    2010
  • Journal title
    Journal of Theoretical Biology
  • Record number

    1540128