A Fast and Flexible Framework for Network-Assisted Genomic Association

Summary: We present an accessible, fast, and customizable network propagation system for pathway boosting and interpretation of genome-wide association studies. This system—NAGA (Network Assisted Genomic Association)—taps the NDEx biological network resource to gain access to thousands of protein ne...

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Bibliographic Details
Main Authors: Daniel E. Carlin, Samson H. Fong, Yue Qin, Tongqiu Jia, Justin K. Huang, Bokan Bao, Chao Zhang, Trey Ideker
Format: Article
Language:English
Published: Elsevier 2019-06-01
Series:iScience
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004219301622
Description
Summary:Summary: We present an accessible, fast, and customizable network propagation system for pathway boosting and interpretation of genome-wide association studies. This system—NAGA (Network Assisted Genomic Association)—taps the NDEx biological network resource to gain access to thousands of protein networks and select those most relevant and performative for a specific association study. The method works efficiently, completing genome-wide analysis in under 5 minutes on a modern laptop computer. We show that NAGA recovers many known disease genes from analysis of schizophrenia genetic data, and it substantially boosts associations with previously unappreciated genes such as amyloid beta precursor. On this and seven other gene-disease association tasks, NAGA outperforms conventional approaches in recovery of known disease genes and replicability of results. Protein interactions associated with disease are visualized and annotated in Cytoscape, which, in addition to standard programmatic interfaces, allows for downstream analysis. : Biological Sciences; Genomics; Bioinformatics Subject Areas: Biological Sciences, Genomics, Bioinformatics
ISSN:2589-0042