Author
Listed:
- Bin Yan
(University of Hong Kong)
- Daogang Guan
(Hong Kong Baptist University
Hong Kong Baptist University)
- Chao Wang
(Hong Kong Baptist University
Hong Kong Baptist University)
- Junwen Wang
(Arizona State University)
- Bing He
(Hong Kong Baptist University
Hong Kong Baptist University)
- Jing Qin
(The Chinese University of Hong Kong)
- Kenneth R. Boheler
(University of Hong Kong
Johns Hopkins University School of Medicine)
- Aiping Lu
(Hong Kong Baptist University
Hong Kong Baptist University)
- Ge Zhang
(Hong Kong Baptist University
Hong Kong Baptist University)
- Hailong Zhu
(Hong Kong Baptist University
Hong Kong Baptist University)
Abstract
Modeling of transcriptional regulatory networks (TRNs) has been increasingly used to dissect the nature of gene regulation. Inference of regulatory relationships among transcription factors (TFs) and genes, especially among multiple TFs, is still challenging. In this study, we introduced an integrative method, LogicTRN, to decode TF–TF interactions that form TF logics in regulating target genes. By combining cis-regulatory logics and transcriptional kinetics into one single model framework, LogicTRN can naturally integrate dynamic gene expression data and TF-DNA-binding signals in order to identify the TF logics and to reconstruct the underlying TRNs. We evaluated the newly developed methodology using simulation, comparison and application studies, and the results not only show their consistence with existing knowledge, but also demonstrate its ability to accurately reconstruct TRNs in biological complex systems.
Suggested Citation
Bin Yan & Daogang Guan & Chao Wang & Junwen Wang & Bing He & Jing Qin & Kenneth R. Boheler & Aiping Lu & Ge Zhang & Hailong Zhu, 2017.
"An integrative method to decode regulatory logics in gene transcription,"
Nature Communications, Nature, vol. 8(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01193-0
DOI: 10.1038/s41467-017-01193-0
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