Steady state and (bi-) stability evaluation of simple protease signalling networks
Eissing, T. and Waldherr, S. and Allgöwer, F. and Scheurich, P. and Bullinger, Eric (2007) Steady state and (bi-) stability evaluation of simple protease signalling networks. Biosystems, 90 (3). pp. 591-601. (https://doi.org/10.1016/j.biosystems.2007.01.003)
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Abstract
Signal transduction networks are complex, as are their mathematical models. Gaining a deeper understanding requires a system analysis. Important aspects are the number, location and stability of steady states. In particular, bistability has been recognised as an important feature to achieve molecular switching. This paper compares different model structures and analysis methods particularly useful for bistability analysis. The biological applications include proteolytic cascades as, for example, encountered in the apoptotic signalling pathway or in the blood clotting system. We compare three model structures containing zero-order, inhibitor and cooperative ultrasensitive reactions, all known to achieve bistability. The combination of phase plane and bifurcation analysis provides an illustrative and comprehensive understanding of how bistability can be achieved and indicates how robust this behaviour is. Experimentally, some so-called “inactive” components were shown to have a residual activity. This has been mostly ignored in mathematical models. Our analysis reveals that bistability is only mildly affected in the case of zero-order or inhibitor ultrasensitivity. However, the case where bistability is achieved by cooperative ultrasensitivity is severely affected by this perturbation.
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Item type: Article ID code: 11998 Dates: DateEvent2007Published14 January 2007Published OnlineSubjects: Technology > Electrical engineering. Electronics Nuclear engineering Department: Faculty of Engineering > Electronic and Electrical Engineering Depositing user: Strathprints Administrator Date deposited: 18 Oct 2011 13:39 Last modified: 19 Dec 2024 01:12 URI: https://strathprints.strath.ac.uk/id/eprint/11998