Cite
Phosphoproteomics identifies dual-site phosphorylation in an extended basophilic motif regulating FILIP1-mediated degradation of filamin-C.
MLA
Reimann, Lena, et al. “Phosphoproteomics Identifies Dual-Site Phosphorylation in an Extended Basophilic Motif Regulating FILIP1-Mediated Degradation of Filamin-C.” Communications Biology, vol. 3, no. 1, May 2020, pp. 1–19. EBSCOhost, https://doi.org/10.1038/s42003-020-0982-5.
APA
Reimann, L., Schwäble, A. N., Fricke, A. L., Mühlhäuser, W. W. D., Leber, Y., Lohanadan, K., Puchinger, M. G., Schäuble, S., Faessler, E., Wiese, H., Reichenbach, C., Knapp, B., Peikert, C. D., Drepper, F., Hahn, U., Kreutz, C., van der Ven, P. F. M., Radziwill, G., Djinović-Carugo, K., & Fürst, D. O. (2020). Phosphoproteomics identifies dual-site phosphorylation in an extended basophilic motif regulating FILIP1-mediated degradation of filamin-C. Communications Biology, 3(1), 1–19. https://doi.org/10.1038/s42003-020-0982-5
Chicago
Reimann, Lena, Anja N. Schwäble, Anna L. Fricke, Wignand W. D. Mühlhäuser, Yvonne Leber, Keerthika Lohanadan, Martin G. Puchinger, et al. 2020. “Phosphoproteomics Identifies Dual-Site Phosphorylation in an Extended Basophilic Motif Regulating FILIP1-Mediated Degradation of Filamin-C.” Communications Biology 3 (1): 1–19. doi:10.1038/s42003-020-0982-5.