Chowbina, SudhirDeng, YoupingAi, JunmeiWu, XiaogangGuan, XinWilbanks, Mitchell S.Escalon, Barbara LynnMeyer, Sharon A.Perkins, Edward J.Chen, Jake Yue2020-04-272020-04-272010-12-01Chowbina, S., Deng, Y., Ai, J. et al. A new approach to construct pathway connected networks and its application in dose responsive gene expression profiles of rat liver regulated by 2,4DNT. BMC Genomics 11, S4 (2010). https://doi.org/10.1186/1471-2164-11-S3-S4https://hdl.handle.net/1805/22643Military and industrial activities have lead to reported release of 2,4-dinitrotoluene (2,4DNT) into soil, groundwater or surface water. It has been reported that 2,4DNT can induce toxic effects on humans and other organisms. However the mechanism of 2,4DNT induced toxicity is still unclear. Although a series of methods for gene network construction have been developed, few instances of applying such technology to generate pathway connected networks have been reported. Results Microarray analyses were conducted using liver tissue of rats collected 24h after exposure to a single oral gavage with one of five concentrations of 2,4DNT. We observed a strong dose response of differentially expressed genes after 2,4DNT treatment. The most affected pathways included: long term depression, breast cancer regulation by stathmin1, WNT Signaling; and PI3K signaling pathways. In addition, we propose a new approach to construct pathway connected networks regulated by 2,4DNT. We also observed clear dose response pathway networks regulated by 2,4DNT. Conclusions We developed a new method for constructing pathway connected networks. This new method was successfully applied to microarray data from liver tissue of 2,4DNT exposed animals and resulted in the identification of unique dose responsive biomarkers in regards to affected pathways.en-USAttribution 4.0 InternationalBreast Cancer RegulationArray NormalizationClear Dose ResponseRetinol MetabolismOutlier PixelA new approach to construct pathway connected networks and its application in dose responsive gene expression profiles of rat liver regulated by 2,4DNTArticle