1. Community-Reviewed Biological Network Models for Toxicology and Drug Discovery Applications.
- Author
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Alex Namasivayam, Aishwarya, Morales, Alejandro Ferreiro, Lacave, Angela Maria Fajardo, Tallam, Aravind, Simovic, Borislav, Alfaro, David Garrido, Bobbili, Dheeraj Reddy, Martin, Florian, Androsova, Ganna, Shvydchenko, Irina, Park, Jennifer, Calvo, Jorge Val, Hoeng, Julia, Peitsch, Manuel C., Racero, Manuel Gonzalez Velez, Biryukov, Maria, Talikka, Marja, Perez, Modesto Berraquero, Rohatgi, Neha, Diaz-Diaz, Noberto, Mandarapu, Rajesh, Ruiz, Ruben Amian, Davidyan, Sergey, Narayanasamy, Shaman, Boue, Stephanie, Guryanova, Svetlana, Arbas, Susana Martinez, Menon, Swapna, Xiang, Yang, Alex Namasivayam, Aishwarya, Morales, Alejandro Ferreiro, Lacave, Angela Maria Fajardo, Tallam, Aravind, Simovic, Borislav, Alfaro, David Garrido, Bobbili, Dheeraj Reddy, Martin, Florian, Androsova, Ganna, Shvydchenko, Irina, Park, Jennifer, Calvo, Jorge Val, Hoeng, Julia, Peitsch, Manuel C., Racero, Manuel Gonzalez Velez, Biryukov, Maria, Talikka, Marja, Perez, Modesto Berraquero, Rohatgi, Neha, Diaz-Diaz, Noberto, Mandarapu, Rajesh, Ruiz, Ruben Amian, Davidyan, Sergey, Narayanasamy, Shaman, Boue, Stephanie, Guryanova, Svetlana, Arbas, Susana Martinez, Menon, Swapna, and Xiang, Yang
- Abstract
Biological network models offer a framework for understanding disease by describing the relationships between the mechanisms involved in the regulation of biological processes. Crowdsourcing can efficiently gather feedback from a wide audience with varying expertise. In the Network Verification Challenge, scientists verified and enhanced a set of 46 biological networks relevant to lung and chronic obstructive pulmonary disease. The networks were built using Biological Expression Language and contain detailed information for each node and edge, including supporting evidence from the literature. Network scoring of public transcriptomics data inferred perturbation of a subset of mechanisms and networks that matched the measured outcomes. These results, based on a computable network approach, can be used to identify novel mechanisms activated in disease, quantitatively compare different treatments and time points, and allow for assessment of data with low signal. These networks are periodically verified by the crowd to maintain an up-to-date suite of networks for toxicology and drug discovery applications.
- Published
- 2016