Network propagation: a universal amplifier of genetic associations

Abstract

Biological networks are powerful resources for the discovery of genes and genetic modules that drive disease. Fundamental to network analysis is the concept that genes underlying the same phenotype tend to interact; this principle can be used to combine and to amplify signals from individual genes. Recently, numerous bioinformatic techniques have been proposed for genetic analysis using networks, based on random walks, information diffusion and electrical resistance. These approaches have been applied successfully to identify disease genes, genetic modules and drug targets. In fact, all these approaches are variations of a unifying mathematical machinery - network propagation - suggesting that it is a powerful data transformation method of broad utility in genetic research.

Keywords

BiologyComputational biologyGene regulatory networkBiological networkGeneGenetic networkPhenotypeTransformation (genetics)GeneticsComputer science

MeSH Terms

AlgorithmsComputational BiologyDiseaseGene Regulatory NetworksGenetic Association StudiesHumansProtein Interaction MapsProteinsSoftware

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Publication Info

Year: 2017
Type: review
Volume: 18
Issue: 9
Pages: 551-562
Citations: 687
Access: Closed

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APA Style

                            
                                
                                    Lenore Cowen, 
                                
                                    Trey Ideker, 
                                
                                    Benjamin J. Raphael
                                
                                et al.
                            
                            (2017). 
                            Network propagation: a universal amplifier of genetic associations. 
                            Nature Reviews Genetics
                            , 18
                            (9)
                            , 551-562.
                            https://doi.org/10.1038/nrg.2017.38
                        

Identifiers

DOI: 10.1038/nrg.2017.38
PMID: 28607512

Data Quality

Data completeness: 86%