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Literature DB >> 18082936

Evolutionary modelling of feed forward loops in gene regulatory networks.

Max B Cooper¹, Matthew Loose, John F Y Brookfield.

Abstract

Feed forward loops (FFLs) are gene regulatory network motifs. They exist in different types, defined by the signs of the effects of genes in the motif on one another. We examine 36 feed forward loops in Escherichia coli, using evolutionary simulations to predict the forms of FFL expected to evolve to generate the pattern of expression of the output gene. These predictions are tested using likelihood ratios, comparing likelihoods of the observed FFL structures with their likelihoods under null models. The very high likelihood ratios generated, of over 10(11), suggest that evolutionary simulation is a valuable component in the explanation of FFL structure.

Entities: Species

Mesh：

Year: 2007 PMID： 18082936 DOI： 10.1016/j.biosystems.2007.09.004

Source DB: PubMed Journal: Biosystems ISSN： 0303-2647 Impact factor: 1.973

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Cited

5 in total

Evolutionary modelling of feed forward loops in gene regulatory networks.

1. Different cell fates from cell-cell interactions: core architectures of two-cell bistable networks.

2. Design of a dynamic model of genes with multiple autonomous regulatory modules by evolutionary computations.

Review 3. Using evolutionary computations to understand the design and evolution of gene and cell regulatory networks.

4. Systematic analysis of noise reduction properties of coupled and isolated feed-forward loops.

5. Inferring malaria parasite population structure from serological networks.