%0 Journal Article %A Xiao Liang %A William Chad Young %A Ling-Hong Hung %A Adrian E. Raftery %A Ka Yee Yeung %T Integration of multiple data sources for gene network inference using genetic perturbation data %D 2017 %R 10.1101/158394 %J bioRxiv %P 158394 %X Background The inference of gene regulatory networks is of great interest and has various applications. The recent advances in high-throughout biological data collection have facilitated the construction and understanding of gene regulatory networks in many model organisms. However, the inference of gene networks from large-scale human genomic data can be challenging. Generally, it is difficult to identify the correct regulators for each gene in the large search space, given that the high dimensional gene expression data only provides a small number of observations for each gene.Results We present a Bayesian approach integrating external data sources with knockdown data from human cell lines to infer gene regulatory networks. In particular, we assemble multiple data sources including gene expression data, genome-wide binding data, gene ontology, known pathways and use a supervised learning framework to compute prior probabilities of regulatory relationships. We show that our integrated method improves the accuracy of inferred gene networks. We apply our method to two different human cell lines, which illustrates the general scope of our method.Conclusions We present a flexible and systematic framework for external data integration that improves the accuracy of human gene network inference while retaining efficiency. Integrating various data sources of biological information also provides a systematic way to build on knowledge from existing literature. %U https://www.biorxiv.org/content/biorxiv/early/2017/07/02/158394.full.pdf