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The Dynamics of Canalizing Boolean Networks

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  • Elijah Paul
  • Gleb Pogudin
  • William Qin
  • Reinhard Laubenbacher

Abstract

Boolean networks are a popular modeling framework in computational biology to capture the dynamics of molecular networks, such as gene regulatory networks. It has been observed that many published models of such networks are defined by regulatory rules driving the dynamics that have certain so-called canalizing properties. In this paper, we investigate the dynamics of a random Boolean network with such properties using analytical methods and simulations. From our simulations, we observe that Boolean networks with higher canalizing depth have generally fewer attractors, the attractors are smaller, and the basins are larger, with implications for the stability and robustness of the models. These properties are relevant to many biological applications. Moreover, our results show that, from the standpoint of the attractor structure, high canalizing depth, compared to relatively small positive canalizing depth, has a very modest impact on dynamics. Motivated by these observations, we conduct mathematical study of the attractor structure of a random Boolean network of canalizing depth one (i.e., the smallest positive depth). For every positive integer , we give an explicit formula for the limit of the expected number of attractors of length in an n -state random Boolean network as n goes to infinity.

Suggested Citation

  • Elijah Paul & Gleb Pogudin & William Qin & Reinhard Laubenbacher, 2020. "The Dynamics of Canalizing Boolean Networks," Complexity, Hindawi, vol. 2020, pages 1-14, January.
  • Handle: RePEc:hin:complx:3687961
    DOI: 10.1155/2020/3687961
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    Cited by:

    1. Mario Rubio-Chavarría & Cristina Santamaría & Belén García-Mora & Gregorio Rubio, 2021. "Modelling Biological Systems: A New Algorithm for the Inference of Boolean Networks," Mathematics, MDPI, vol. 9(4), pages 1-22, February.

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