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BMC Bioinformatics


Title:TF-centered downstream gene set enrichment analysis: Inference of causal regulators by integrating TF-DNA interactions and protein post-translational modifications information
Author(s):Liu Q; Tan Y; Huang T; Ding G; Tu Z; Liu L; Li Y; Dai H; Xie L;
Address:"School of Life Sciences & Biotechnology, Shanghai Jiao Tong University, Shanghai, 200240, China. liuqi@sjtu.edu.cn"
Journal Title:BMC Bioinformatics
Year:2010
Volume:20101214
Issue:Suppl 11
Page Number:S5 -
DOI: 10.1186/1471-2105-11-S11-S5
ISSN/ISBN:1471-2105 (Electronic) 1471-2105 (Linking)
Abstract:"BACKGROUND: Inference of causal regulators responsible for gene expression changes under different conditions is of great importance but remains rather challenging. To date, most approaches use direct binding targets of transcription factors (TFs) to associate TFs with expression profiles. However, the low overlap between binding targets of a TF and the affected genes of the TF knockout limits the power of those methods. RESULTS: We developed a TF-centered downstream gene set enrichment analysis approach to identify potential causal regulators responsible for expression changes. We constructed hierarchical and multi-layer regulation models to derive possible downstream gene sets of a TF using not only TF-DNA interactions, but also, for the first time, post-translational modifications (PTM) information. We verified our method in one expression dataset of large-scale TF knockout and another dataset involving both TF knockout and TF overexpression. Compared with the flat model using TF-DNA interactions alone, our method correctly identified five more actual perturbed TFs in large-scale TF knockout data and six more perturbed TFs in overexpression data. Potential regulatory pathways downstream of three perturbed regulators- SNF1, AFT1 and SUT1 -were given to demonstrate the power of multilayer regulation models integrating TF-DNA interactions and PTM information. Additionally, our method successfully identified known important TFs and inferred some novel potential TFs involved in the transition from fermentative to glycerol-based respiratory growth and in the pheromone response. Downstream regulation pathways of SUT1 and AFT1 were also supported by the mRNA and/or phosphorylation changes of their mediating TFs and/or 'modulator' proteins. CONCLUSIONS: The results suggest that in addition to direct transcription, indirect transcription and post-translational regulation are also responsible for the effects of TFs perturbation, especially for TFs overexpression. Many TFs inferred by our method are supported by literature. Multiple TF regulation models could lead to new hypotheses for future experiments. Our method provides a valuable framework for analyzing gene expression data to identify causal regulators in the context of TF-DNA interactions and PTM information"
Keywords:"DNA/metabolism Fermentation Gene Deletion Gene Expression Profiling *Gene Expression Regulation *Gene Regulatory Networks Glycerol/metabolism Models, Genetic *Protein Processing, Post-Translational Transcription Factors/genetics/*metabolism/physiology;"
Notes:"MedlineLiu, Qi Tan, Yejun Huang, Tao Ding, Guohui Tu, Zhidong Liu, Lei Li, Yixue Dai, Hongyue Xie, Lu eng Research Support, Non-U.S. Gov't England 2011/01/05 BMC Bioinformatics. 2010 Dec 14; 11 Suppl 11(Suppl 11):S5. doi: 10.1186/1471-2105-11-S11-S5"

 
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