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29 June 2005 Modeling gene regulatory systems by random Boolean networks
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Abstract
A random Boolean network is a synchronous Boolean automaton with n vertices. The parameters of an RBN can be tuned so that its statistical features match the characteristics of the gene regulatory system. The number of vertices of the RBN represents the number of genes in the cell. The number of cycles in the RBN's state space, called attractors, corresponds the number of different cell types. Attractor's length corresponds to the cell cycle time. Sensitivity of the attractors to different kind of perturbations, modeled by changing the state of a particular vertex, associated Boolean function, or network edge, reflects the stability of the cell to damage, mutations and virus attacks. In order to evaluate the attractors, their number and length have to be re-computed repeatedly. For large RBN's, searching for attractors in the O(2n) state space is an infeasible task. Fortunately, only a subset of vertices of an RBN, called relevant vertices, determines its dynamics. The remaining vertices are redundant. In this paper, we present an algorithm for identifying redundant vertices in RBNs which allows us to reduce the search space for computing attractors from O(2 n) to Θ2√n. We also show how RBNs can be used for studying evolution.
© (2005) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Elena Dubrova "Modeling gene regulatory systems by random Boolean networks", Proc. SPIE 5839, Bioengineered and Bioinspired Systems II, (29 June 2005); https://doi.org/10.1117/12.607825
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