Generating Boolean networks with a prescribed attractor structure

doi:10.1093/bioinformatics/bti664

Bioinformatics Advance Access originally published online on September 8, 2005
Bioinformatics 2005 21(21):4021-4025; doi:10.1093/bioinformatics/bti664

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Generating Boolean networks with a prescribed attractor structure

Ranadip Pal ¹, Ivan Ivanov ¹, Aniruddha Datta ¹, Michael L. Bittner ² and Edward R. Dougherty ¹^,2^,*

¹Department of Electrical Engineering, Texas A&M University College Station, TX 77843, USA
²Translational Genomics Research Institute 400 North Fifth Street, Suite 1600, Phoenix, AZ 85004, USA

^*To whom correspondence should be addressed.

Motivation: Dynamical modeling of gene regulation via networkmodels constitutes a key problem for genomics. The long-runcharacteristics of a dynamical system are critical and theirdetermination is a primary aspect of system analysis. In theother direction, system synthesis involves constructing a networkpossessing a given set of properties. This constitutes the inverseproblem. Generally, the inverse problem is ill-posed, meaningthere will be many networks, or perhaps none, possessing thedesired properties. Relative to long-run behavior, we may wishto construct networks possessing a desirable steady-state distribution.This paper addresses the long-run inverse problem pertainingto Boolean networks (BNs).

Results: The long-run behavior of a BN is characterized by itsattractors. The rest of the state transition diagram is partitionedinto level sets, the j-th level set being composed of all statesthat transition to one of the attractor states in exactly jtransitions. We present two algorithms for the attractor inverseproblem. The attractors are specified, and the sizes of thepredictor sets and the number of levels are constrained. Algorithmcomplexity and performance are analyzed. The algorithmic solutionshave immediate application. Under the assumption that samplingis from the steady state, a basic criterion for checking thevalidity of a designed network is that there should be concordancebetween the attractor states of the model and the data states.This criterion can be used to test a design algorithm: randomlyselect a set of states to be used as data states; generate aBN possessing the selected states as attractors, perhaps withsome added requirements such as constraints on the number ofpredictors and the level structure; apply the design algorithm;and check the concordance between the attractor states of thedesigned network and the data states.

Availability: The software and supplementary material is availableat http://gsp.tamu.edu/Publications/BNs/bn.htm

Contact: edward{at}ee.tamu.edu

Received on March 5, 2005; revised on August 9, 2005; accepted on September 5, 2005

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