Publications of Gayle McEwen

Journal Article (6)

2018
Journal Article
Weiner, J. 3.; Maertzdorf, J.; Sutherland, J. S.; Duffy, F. J.; Thompson, E.; Suliman, S.; McEwen, G.; Thiel, B.; Parida, S. K.; Zyla, J. et al.; Hanekom, W. A.; Mohney, R. P.; Boom, W. H.; Mayanja-Kizza, H.; Howe, R.; Dockrell, H. M.; Ottenhoff, T. H.M.; Scriba, T. J.; Zak, D. E.; Walzl, G.; Kaufmann, S. H. E.: Metabolite changes in blood predict the onset of tuberculosis. Nature Communications 9 (1), 5208 (2018)
2017
Journal Article
Zimmermann, M.; Kogadeeva, M.; Gengenbacher, M.; McEwen, G.; Mollenkopf, H.-J.; Zamboni, N.; Kaufmann, S. H. E.; Sauer, U.: Integration of Metabolomics and Transcriptomics Reveals a Complex Diet of Mycobacterium tuberculosis during Early Macrophage Infection. mSystems 2 (4), e00057-17 (2017)
2016
Journal Article
Streata, I.; Weiner, J. 3.; Iannaccone, M.; McEwen, G.; Ciontea, M. S.; Olaru, M.; Capparelli, R.; Ioana, M.; Kaufmann, S. H. E.; Dorhoi, A.: Correction: The CARD9 Polymorphisms rs4077515, rs10870077 and rs10781499 Are Uncoupled from Susceptibility to and Severity of Pulmonary Tuberculosis. PLoS One 11 (10), e0165853 (2016)
Journal Article
Streata, I.; Weiner, J. 3.; Iannaconne, M.; McEwen, G.; Ciontea, M. S.; Olaru, M.; Capparelli, R.; Ioana, M.; Kaufmann, S. H. E.; Dorhoi, A.: The CARD9 Polymorphisms rs4077515, rs10870077 and rs10781499 Are Uncoupled from Susceptibility to and Severity of Pulmonary Tuberculosis. PLoS One 11 (9), e0163662 (2016)
Journal Article
Maertzdorf, J.; McEwen, G.; Weiner, J. 3.; Tian, S.; Lader, E.; Schriek, U.; Mayanja‐Kizza, H.; Ota, M.; Kenneth, J.; Kaufmann, S. H. E.: Concise gene signature for point‐of‐care classification of tuberculosis. EMBO Molecular medicine 8 (2), pp. 86 - 95 (2016)
2014
Journal Article
Nouailles, G.; Dorhoi, A.; Koch, M.; Zerrahn, J.; Weiner, J. 3.; Faé, K. C.; Arrey, F.; Kuhlmann, S.; Bandermann, S.; Loewe, D. et al.; Mollenkopf, H.-J.; Vogelzang, A.; Meyer-Schwesinger, C.; Mittrücker, H.-W.; McEwen, G.; Kaufmann, S. H. E.: CXCL5-secreting pulmonary epithelial cells drive destructive neutrophilic inflammation in tuberculosis. The Journal of Clinical Investigation 124 (3), pp. 1268 - 1282 (2014)
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