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Ostaszewski, M.; Niarakis, A.; Mazein, A.; Kuperstein, I.; Phair, R.; Orta-Resendiz, A.; Singh, V.; Aghamiri, S. S.; Acencio, M. L.; Glaab, E.; Ruepp, A.; Fobo, G.; Montrone, C.; Brauner, B.; Frishman, G.; Gomez, L. C. M.; Somers, J.; Hoch, M.; Gupta, S. K.; Scheel, J.; Borlinghaus, H.; Czauderna, T.; Schreiber, F.; Montagud, A.; de Leon, M. P.; Funahashi, A.; Hiki, Y.; Hiroi, N.; Yamada, T. G.; Drager, A.; Renz, A.; Naveez, M.; Bocskei, Z.; Messina, F.; Bornigen, D.; Fergusson, L.; Conti, M.; Rameil, M.; Nakonecnij, V.; Vanhoefer, J.; Schmiester, L.; Wang, M. Y.; Ackerman, E. E.; Shoemaker, J. E.; Zucker, J.; Oxford, K.; Teuton, J.; Kocakaya, E.; Summak, G. Y.; Hanspers, K.; Kutmon, M.; Coort, S.; Eijssen, L.; Ehrhart, F.; Rex, D. A. B.; Slenter, D.; Martens, M.; Pham, N.; Haw, R.; Jassal, B.; Matthews, L.; Orlic-Milacic, M.; Senff-Ribeiro, A.; Rothfels, K.; Shamovsky, V.; Stephan, R.; Sevilla, C.; Varusai, T.; Ravel, J. M.; Fraser, R.; Ortseifen, V.; Marchesi, S.; Gawron, P.; Smula, E.; Heirendt, L.; Satagopam, V.; Wu, G. M.; Riutta, A.; Golebiewski, M.; Owen, S.; Goble, C.; Hu, X. M.; Overall, R. W.; Maier, D.; Bauch, A.; Gyori, B. M.; Bachman, J. A.; Vega, C.; Groues, V.; Vazquez, M.; Porras, P.; Licata, L.; Iannuccelli, M.; Sacco, F.; Nesterova, A.; Yuryev, A.; de Waard, A.; Turei, D.; Luna, A.; Babur, O.; Soliman, S.; Valdeolivas, A.; Esteban-Medina, M.; Pena-Chilet, M.; Rian, K.; Helikar, T.; Puniya, B. L.; Modos, D.; Treveil, A.; Olbei, M.; De Meulder, B.; Ballereau, S.; Dugourd, A.; Naldi, A.; Noel, V.; Calzone, L.; Sander, C.; Demir, E.; Korcsmaros, T.; Freeman, T. C.; Auge, F.; Beckmann, J. S.; Hasenauer, J.; Wolkenhauer, O.; Willighagen, E. L.; Pico, A. R.; Evelo, C. T.; Gillespie, M. E.; Stein, L. D.; Hermjakob, H.; D'Eustachio, P.; Saez-Rodriguez, J.; Dopazo, J.; Valencia, A.; Kitano, H.; Barillot, E.; Auffray, C.; Balling, R.; Schneider, R.; Community, Covid- Dis Map.
Molecular Systems Biology ; 17(12):2, 2021.
Article in English | Web of Science | ID: covidwho-1589729
Database (Oxford) ; 20202020 01 01.
Article in English | MEDLINE | ID: covidwho-933843


The current coronavirus disease of 2019 (COVID-19) pandemic, caused by the severe acute respiratory syndrome coronavirus (SARS-CoV)-2, has spurred a wave of research of nearly unprecedented scale. Among the different strategies that are being used to understand the disease and develop effective treatments, the study of physical molecular interactions can provide fine-grained resolution of the mechanisms behind the virus biology and the human organism response. We present a curated dataset of physical molecular interactions focused on proteins from SARS-CoV-2, SARS-CoV-1 and other members of the Coronaviridae family that has been manually extracted by International Molecular Exchange (IMEx) Consortium curators. Currently, the dataset comprises over 4400 binarized interactions extracted from 151 publications. The dataset can be accessed in the standard formats recommended by the Proteomics Standards Initiative (HUPO-PSI) at the IntAct database website ( and will be continuously updated as research on COVID-19 progresses.

Betacoronavirus , Coronaviridae , Coronavirus Infections , Host-Pathogen Interactions , Pandemics , Pneumonia, Viral , Protein Interaction Maps , COVID-19 , Humans , Organ Specificity , Proteomics , SARS-CoV-2 , Viral Proteins