Nested Effects Models for Learning Signaling Networks from Perturbation Data

Overview

Journal Biom J

Specialty Public Health

Date 2009 Apr 10

PMID 19358219

Citations 14

Authors

Holger Frohlich

Achim Tresch

Tim Beissbarth

Affiliations

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Abstract

Targeted gene perturbations have become a major tool to gain insight into complex cellular processes. In combination with the measurement of downstream effects via DNA microarrays, this approach can be used to gain insight into signaling pathways. Nested Effects Models were first introduced by Markowetz et al. as a probabilistic method to reverse engineer signaling cascades based on the nested structure of downstream perturbation effects. The basic framework was substantially extended later on by Fröhlich et al., Markowetz et al., and Tresch and Markowetz. In this paper, we present a review of the complete methodology with a detailed comparison of so far proposed algorithms on a qualitative and quantitative level. As an application, we present results on estimating the signaling network between 13 genes in the ER-alpha pathway of human MCF-7 breast cancer cells. Comparison with the literature shows a substantial overlap.

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Learning signaling networks from combinatorial perturbations by exploiting siRNA off-target effects.

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Expectation propagation for large scale Bayesian inference of non-linear molecular networks from perturbation data.

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Linear effects models of signaling pathways from combinatorial perturbation data.

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