Abstract
Signalling pathways provide a complex cellular information processing machinery that evaluates particular input stimuli and transfers them into the genome by means of regulation of specific genes expression. In this short paper, we provide a preliminary study targeting minimal models representing the topology of main signalling mechanisms. A special emphasis is given to distinguishing between monotonous (sustained) and non-monotonous (transient) time-course behaviour. A set of minimal parametrised ODE models is formulated and analysed in a workflow based on formal methods.
This work has been supported by the Czech Science Foundation grant No. GA15-11089S and by the Czech National Infrastructure grant LM2015055.
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Hajnal, M., Šafránek, D., Demko, M., Pastva, S., Krejčí, P., Brim, L. (2016). Toward Modelling and Analysis of Transient and Sustained Behaviour of Signalling Pathways. In: Cinquemani, E., Donzé, A. (eds) Hybrid Systems Biology. HSB 2016. Lecture Notes in Computer Science(), vol 9957. Springer, Cham. https://doi.org/10.1007/978-3-319-47151-8_4
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