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We apply our method to investigate gene expression in the response to osmotic stress of Arabidopsis thaliana<\/jats:italic>. In the proposed network representation, the most important genes for the plant response turn out to be the nodes with highest centrality in appropriately reconstructed networks. We also performed a target experiment, in which the predicted genes were artificially induced one by one and the growth of the corresponding phenotypes compared to that of the wild-type. The joint application of the network reconstruction method and of the in vivo experiments allowed identifying 15 previously unknown key genes and provided models of their mutual relationships. 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