Integrative inference of gene-regulatory networks in Escherichia coli using information theoretic concepts and sequence analysis

Although Escherichia coli is one of the best studied model organisms, a comprehensive understanding of its gene regulation is not yet achieved. There exist many approaches to reconstruct regulatory interaction networks from gene expression experiments. Mutual information based approaches are most us...

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Bibliographic Details
Published in:BMC systems biology 2010-08, Vol.4 (1), p.116-116, Article 116
Main Authors: Kaleta, Christoph, Göhler, Anna, Schuster, Stefan, Jahreis, Knut, Guthke, Reinhard, Nikolajewa, Swetlana
Format: Article
Language:English
Subjects:
Analysis
Base Sequence
Bioinformatics
Biology
Colleges & universities
E coli
Escherichia coli
Escherichia coli - genetics
Escherichia coli - metabolism
Escherichia coli Proteins - genetics
Escherichia coli Proteins - metabolism
Gene expression
Gene Regulatory Networks
Genes
Genetic aspects
Genetic regulation
Genomes
Genomics
Natural products
Physiological aspects
Random variables
Reproducibility of Results
Sequence Analysis, DNA
Systems Biology - methods
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Summary:Although Escherichia coli is one of the best studied model organisms, a comprehensive understanding of its gene regulation is not yet achieved. There exist many approaches to reconstruct regulatory interaction networks from gene expression experiments. Mutual information based approaches are most useful for large-scale network inference. We used a three-step approach in which we combined gene regulatory network inference based on directed information (DTI) and sequence analysis. DTI values were calculated on a set of gene expression profiles from 19 time course experiments extracted from the Many Microbes Microarray Database. Focusing on influences between pairs of genes in which one partner encodes a transcription factor (TF) we derived a network which contains 878 TF - gene interactions of which 166 are known according to RegulonDB. Afterward, we selected a subset of 109 interactions that could be confirmed by the presence of a phylogenetically conserved binding site of the respective regulator. By this second step, the fraction of known interactions increased from 19% to 60%. In the last step, we checked the 44 of the 109 interactions not yet included in RegulonDB for functional relationships between the regulator and the target and, thus, obtained ten TF - target gene interactions. Five of them concern the regulator LexA and have already been reported in the literature. The remaining five influences describe regulations by Fis (with two novel targets), PhdR, PhoP, and KdgR. For the validation of our approach, one of them, the regulation of lipoate synthase (LipA) by the pyruvate-sensing pyruvate dehydrogenate repressor (PdhR), was experimentally checked and confirmed. We predicted a set of five novel TF - target gene interactions in E. coli. One of them, the regulation of lipA by the transcriptional regulator PdhR was validated experimentally. Furthermore, we developed DTInfer, a new R-package for the inference of gene-regulatory networks from microarrays using directed information.
ISSN:1752-0509
1752-0509
DOI:10.1186/1752-0509-4-116