• Title of article

    An abstract cell model that describes the self-organization of cell function in living systems

  • Author/Authors

    Wolkenhauer، نويسنده , , Olaf and Hofmeyr، نويسنده , , Jan-Hendrik S.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    16
  • From page
    461
  • To page
    476
  • Abstract
    The principal aim of systems biology is to search for general principles that govern living systems. We develop an abstract dynamic model of a cell, rooted in Mesarović and Takaharaʹs general systems theory. In this conceptual framework the function of the cell is delineated by the dynamic processes it can realize. We abstract basic cellular processes, i.e., metabolism, signalling, gene expression, into a mapping and consider cell functions, i.e., cell differentiation, proliferation, etc. as processes that determine the basic cellular processes that realize a particular cell function. We then postulate the existence of a ‘coordination principle’ that determines cell function. These ideas are condensed into a theorem: If basic cellular processes for the control and regulation of cell functions are present, then the coordination of cell functions is realized autonomously from within the system. ed by Robert Rosenʹs notion of closure to efficient causation, introduced as a necessary condition for a natural system to be an organism, we show that for a mathematical model of a self-organizing cell the associated category must be cartesian closed. Although the semantics of our cell model differ from Rosenʹs (M,R)-systems, the proof of our theorem supports (in parts) Rosenʹs argument that living cells have non-simulable properties. Whereas models that form cartesian closed categories can capture self-organization (which is a, if not the, fundamental property of living systems), conventional computer simulations of these models (such as virtual cells) cannot. Simulations can mimic living systems, but they are not like living systems.
  • Keywords
    Coordination principle , Cartesian closed categories , Systems Biology , Causal entailment , cell function , self-organization , Functional organization
  • Journal title
    Journal of Theoretical Biology
  • Serial Year
    2007
  • Journal title
    Journal of Theoretical Biology
  • Record number

    1538554