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  1. 2017
  2. Coats, B. R., Schoenfelt, K. Q., Barbosa-Lorenzi, V. C., Peris, E., Cui, C., Hoffman, A., ... Becker, L. (2017). Metabolically Activated Adipose Tissue Macrophages Perform Detrimental and Beneficial Functions during Diet-Induced Obesity. Cell Reports, 20(13), 3149-3161. https://doi.org/10.1016/j.celrep.2017.08.096
  3. Meitzler, J. L., Makhlouf, H. R., Antony, S., Wu, Y., Butcher, D., Jiang, G., ... Doroshow, J. H. (2017). Decoding NADPH Oxidase 4 Expression in Human Tumors. Redox Biology, 13, 182–195. https://doi.org/10.1016/j.redox.2017.05.016
  4. Viswambharan, H., Yuldasheva, N. Y., Sengupta, A., Imrie, H., Gage, M. C., Haywood, N., ... Kearney, M. T. (2017). Selective Enhancement of Insulin Sensitivity in the Endothelium in Vivo Reveals a Novel Proatherosclerotic Signaling Loop. Circulation Research, 120(5), 784-798. https://doi.org/10.1161/CIRCRESAHA.116.309678
  5. Nakada, Y., Canseco, D. C., Thet, S., Abdisalaam, S., Asaithamby, A., Xavier Da Costa Dos Santos, C. S., ... Sadek, H. A. (2017). Hypoxia induces heart regeneration in adult mice. NATURE, 541(7636), 222-227. https://doi.org/10.1038/nature20173
  6. Guentsch, A., Beneke, A., Swain, L., Farhat, K., Nagarajan, S., Wielockx, B., ... Katschinski, D. M. (2017). PHD2 is a regulator for glycolytic reprogramming in macrophages. Molecular and Cellular Biology, 37(1), [e00236-16]. https://doi.org/10.1128/MCB.00236-16
  7. 2016
  8. Swain, L., Kesemeyer, A., Meyer-Roxlau, S., Vettel, C., Zieseniss, A., Güntsch, A., ... Katschinski, D. M. (2016). Redox Imaging Using Cardiac Myocyte-Specific Transgenic Biosensor Mice. Circulation Research, 119(9), 1004-1016. https://doi.org/10.1161/CIRCRESAHA.116.309551
  9. Trevelin, S. C., Dos Santos, C. X., Ferreira, R. G., de Sá Lima, L., Silva, R. L., Scavone, C., ... Cunha, F. Q. (2016). Apocynin and Nox2 regulate NF-κB by modifying thioredoxin-1 redox-state. Scientific Reports, 6, [34581]. https://doi.org/10.1038/srep34581
  10. Prior, K-K., Leisegang, M. S., Josipovic, I., Löwe, O., Shah, A. M., Weissmann, N., ... Brandes, R. P. (2016). CRISPR/Cas9-mediated knockout of p22phox leads to loss of Nox1 and Nox4, but not Nox5 activity. Redox Biology, 9, 287–295. https://doi.org/10.1016/j.redox.2016.08.013
  11. Ackland, G. L., Whittle, J., Toner, A., Machhada, A., Del Arroyo, A. G., Sciuso, A., ... Gourine, A. V. (2016). Molecular mechanisms linking autonomic dysfunction and impaired cardiac contractility in critical illness. Critical Care Medicine, 44(8), e614-e624. https://doi.org/10.1097/CCM.0000000000001606
  12. Prior, K. K., Wittig, I., Leisegang, M. S., Groenendyk, J., Weissmann, N., Michalak, M., ... Brandes, R. P. (2016). The endoplasmic reticulum chaperone calnexin is a NADPH oxidase NOX4 interacting protein. Journal of Biological Chemistry, 291(13), 7045-7059. https://doi.org/10.1074/jbc.M115.710772
  13. Antonopoulos, A. S., Margaritis, M., Verheule, S., Recalde, A., Sanna, F., Herdman, L., ... Antoniades, C. (2016). Mutual regulation of epicardial adipose tissue and myocardial redox state by PPAR-γ/adiponectin signalling. Circulation Research, 118(5), 842-855. https://doi.org/10.1161/CIRCRESAHA.115.307856
  14. Cubbon, R. M., Ruff, N., Groves, D., Eleuteri, A., Denby, C., Kearney, L., ... Kearney, M. T. (2016). Ambulatory heart rate range predicts mode-specific mortality and hospitalisation in chronic heart failure. Heart, 102(3), 223-229. https://doi.org/10.1136/heartjnl-2015-308428
  15. 2015
  16. Schürmann, C., Rezende, F., Kruse, C., Yasar, Y., Löwe, O., Fork, C., ... Schröder, K. (2015). The NADPH oxidase Nox4 has anti-atherosclerotic functions. European Heart Journal, 36(48), 3447-3456. https://doi.org/10.1093/eurheartj/ehv460
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