Artículo de revista
Cell cycle and protein complex dynamics in discovering signaling pathways
Fecha
2019Registro en:
Journal of Bioinformatics and Computational Biology, Volumen 17, Issue 3, 2019,
17576334
02197200
10.1142/S0219720019500112
Autor
Inostroza, Daniel
Hernández, Cecilia
Seco, Diego
Navarro, Gonzalo
Olivera-Nappa, Alvaro
Institución
Resumen
Signaling pathways are responsible for the regulation of cell processes, such as monitoring the external environment, transmitting information across membranes, and making cell fate decisions. Given the increasing amount of biological data available and the recent discoveries showing that many diseases are related to the disruption of cellular signal transduction cascades, in silico discovery of signaling pathways in cell biology has become an active research topic in past years. However, reconstruction of signaling pathways remains a challenge mainly because of the need for systematic approaches for predicting causal relationships, like edge direction and activation/inhibition among interacting proteins in the signal flow. We propose an approach for predicting signaling pathways that integrates protein interactions, gene expression, phenotypes, and protein complex information. Our method first finds candidate pathways using a directed-edge-based algorithm and then defines a graph model to include causal activation relationships among proteins, in candidate pathways using cell cycle gene expression and phenotypes to infer consistent pathways in yeast. Then, we incorporate protein complex coverage information for deciding on the final predicted signaling pathways. We show that our approach improves the predictive results of the state of the art using different ranking metrics.