Classical random Boolean networks (RBN) are not well suited to describe experimental data from time-course microarray, mainly because of the strict assumptions about the synchronicity of the regulatory mechanisms. In order to overcome this setback, a generalization of the RBN model is described and analyzed. Gene products (e.g., regulatory proteins) are introduced, with each one characterized by a specific decay time, thereby introducing a form of memory in the system. The dynamics of these networks is analyzed, and it is shown that the distribution of the decay times has a strong effect that can be adequately described and understood. The implications for the dynamical criticality of the networks are also discussed.
Dynamical properties of a Boolean model of gene regulatory network with memory / Graudenzi, G.; Serra, Roberto; Villani, Marco; Damiani, C.; Colacci, A.; Kauffman, S. A.. - In: JOURNAL OF COMPUTATIONAL BIOLOGY. - ISSN 1066-5277. - STAMPA. - 10:(2011), pp. 1291-1303. [10.1089/cmb.2010.0069]
Dynamical properties of a Boolean model of gene regulatory network with memory
SERRA, Roberto;VILLANI, Marco;
2011
Abstract
Classical random Boolean networks (RBN) are not well suited to describe experimental data from time-course microarray, mainly because of the strict assumptions about the synchronicity of the regulatory mechanisms. In order to overcome this setback, a generalization of the RBN model is described and analyzed. Gene products (e.g., regulatory proteins) are introduced, with each one characterized by a specific decay time, thereby introducing a form of memory in the system. The dynamics of these networks is analyzed, and it is shown that the distribution of the decay times has a strong effect that can be adequately described and understood. The implications for the dynamical criticality of the networks are also discussed.
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