References
1. H. Kishino, P.J. Waddell, Correspondence analysis of genes and tissue types and finding genetic links from microarray data, Genome Inform. 11, 83–95 (2000).
2. J. Schäfer, K. Strimmer, An empirical Bayes approach to inferring large-scale gene association networks, Bioinformatics 21, 754–764 (2005).
3. J. Schäfer, K. Strimmer, A shrinkage approach to large-scale covariance matrix estimation and implications for functional genomics, Stat. Appl. Genet. Mol. Biol. 4, Article 32 (2005).
4. L. Glass, and S.A. Kauffman, The logical analysis of continuous non-linear biochemical control networks, J. Theor. Biol. 39, 103–129 (1973).
5. S.A. Kauffman, Metabolic stability and epigenesis in randomly constructed genetic nets, J. Theor. Biol. 22, 437–467 (1969).
6. H. Lähdesmäki, I. Shmulevich, O. Yli-Harja, On learning gene regulatory networks under the Boolean network model, Mach. Learn. 147–167 (2003).
7. I. Shmulevich, E.R. Dougherty, S. Kim, W. Zhang, Probabilistic Boolean networks: a rule-based uncertainty model for gene regulatory networks, Bioinformatics 18(2), 261–274 (2002).
8. N. Friedman, M. Linial, I. Nachman, D. Peer, Using Bayesian networks to analyze expression data, J. Comput. Biol. 7, 601–620 (2000).
9. E. Segal, M. Shapira, A. Regev, D. Pe'er, D. Botstein, D. Koller, N. Friedman, Module networks: identifying regulatory modules and their condition-specific regulators from gene expression data, Nat. Genet. 34, 166–176 (2003).
10. T.S. Gardner, D. di Bernardo, D. ...
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