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dc.contributor.author Werhli, Adriano Velasque
dc.contributor.author Husmeier, Dirk
dc.date.accessioned 2014-12-04T23:13:02Z
dc.date.available 2014-12-04T23:13:02Z
dc.date.issued 2008
dc.identifier.citation WERHLI, Adriano Velasque; HUSMEIER, Dirk. Gene regulatory netwok reconstrution by bayesian integration of prior knowledge and/ordifferent experimental conditions. Journal of Bioinformatics and Computational Biology, v. 6, n. 3 p. 543-572, 2008. Disponível em: <http://www.worldscientific.com/doi/abs/10.1142/S0219720008003539>. Acesso em: 04 nov. 2014. pt_BR
dc.identifier.issn 1757-6334
dc.identifier.uri http://repositorio.furg.br/handle/1/4696
dc.description.abstract There have been various attempts to improve the reconstruction of gene regulatory networks from microarray data by the systematic integration of biological prior knowledge. Our approach is based on pioneering work by Imoto et al.11 where the prior knowledge is expressed in terms of energy functions, from which a prior distribution over network structures is obtained in the form of a Gibbs distribution. The hyperparameters of this distribution represent the weights associated with the prior knowledge relative to the data. We have derived and tested a Markov chain Monte Carlo (MCMC) scheme for sampling networks and hyperparameters simultaneously from the posterior distribution, thereby automatically learning how to trade off information from the prior knowledge and the data. We have extended this approach to a Bayesian coupling scheme for learning gene regulatory networks from a combination of related data sets, which were obtained under different experimental conditions and are therefore potentially associated with different active subpathways. The proposed coupling scheme is a compromise between (1) learning networks from the different subsets separately, whereby no information between the different experiments is shared; and (2) learning networks from a monolithic fusion of the individual data sets, which does not provide any mechanism for uncovering differences between the network structures associated with the different experimental conditions. We have assessed the viability of all proposed methods on data related to the Raf signaling pathway, generated both synthetically and in cytometry experiments. pt_BR
dc.language.iso eng pt_BR
dc.rights open access pt_BR
dc.subject Gene regulatory networks pt_BR
dc.subject Bayesian networks pt_BR
dc.subject Bayesian inference pt_BR
dc.subject Markov chain Monte Carlo pt_BR
dc.subject Raf pathway pt_BR
dc.subject KEGG pt_BR
dc.subject Data integration pt_BR
dc.subject Gene expression data pt_BR
dc.title Gene regulatory netwok reconstrution by bayesian integration of prior knowledge and/ordifferent experimental conditions pt_BR
dc.type article pt_BR
dc.identifier.doi 10.1142/S0219720008003539 pt_BR


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