An 18-gene RNA signature detects severe cases among young Cambodian secondary-infected dengue patients and yields insights into the underlying pathogenesis. We present evidence that the detection is robust for peripheral blood mononuclear cells and whole blood and different experimental techniques.
MotivationMost computational approaches for the analysis of omics data in the context of interaction networks have very long running times, provide single or partial, often heuristic, solutions and/or contain user-tuneable parameters.ResultsWe introduce local enrichment analysis (LEAN) for the identification of dysregulated subnetworks from genome-wide omics datasets. By substituting the common subnetwork model with a simpler local subnetwork model, LEAN allows exact, parameter-free, efficient and exhaustive identification of local subnetworks that are statistically dysregulated, and directly implicates single genes for follow-up experiments.Evaluation on simulated and biological data suggests that LEAN generally detects dysregulated subnetworks better, and reflects biological similarity between experiments more clearly than standard approaches. A strong signal for the local subnetwork around Von Willebrand Factor (VWF), a gene which showed no change on the mRNA level, was identified by LEAN in transcriptome data in the context of the genetic disease Cerebral Cavernous Malformations (CCM). This signal was experimentally found to correspond to an unexpected strong cellular effect on the VWF protein. LEAN can be used to pinpoint statistically significant local subnetworks in any genome-scale dataset.Availability and ImplementationThe R-package LEANR implementing LEAN is supplied as supplementary material and available on CRAN (https://cran.r-project.org).Supplementary information Supplementary data are available at Bioinformatics online.
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