Network inference through synergistic subnetwork evolution
Lipi Acharya, Robert Reynolds, Dongxiao Zhu

TL;DR
This paper introduces a new method for reconstructing signaling networks from gene sets, improving understanding of cell signaling and disease mechanisms.
Contribution
A novel computational approach for inferring signaling network structures from overlapping gene sets using synergistic active paths.
Findings
The algorithm accurately reconstructs network structures from unordered gene sets.
Evaluation on KEGG-derived data shows high accuracy and precision in recovering true active paths.
The method effectively captures edge overlapping to define synergy in signaling networks.
Abstract
Study of signaling networks is important for a better understanding of cell behaviors e.g., growth, differentiation, metabolism, proptosis, and gaining deeper insights into the molecular mechanisms of complex diseases. While there have been many successes in developing computational approaches for identifying potential genes and proteins involved in cell signaling, new methods are needed for identifying network structures that depict underlying signal cascading mechanisms. In this paper, we propose a new computational approach for inferring signaling network structures from overlapping gene sets related to the networks. In the proposed approach, a signaling network is represented as a directed graph and is viewed as a union of many active paths representing linear and overlapping chains of signal cascading activities in the network. Gene sets represent the sets of genes participating in…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsBioinformatics and Genomic Networks · Gene Regulatory Network Analysis · Gene expression and cancer classification
