Rattlesnake Phospholipase A2 Increases CFTR-Chloride Channel Current and Corrects ∆F508CFTR Dysfunction: Impact in Cystic Fibrosis.

MLA

Faure, Grazyna, et al. “Rattlesnake Phospholipase A2 Increases CFTR-Chloride Channel Current and Corrects ∆F508CFTR Dysfunction: Impact in Cystic Fibrosis.” Journal of Molecular Biology, vol. 428, no. 14, July 2016, pp. 2898–915. EBSCOhost, https://doi.org/10.1016/j.jmb.2016.05.016.

APA

Faure, G., Bakouh, N., Lourdel, S., Odolczyk, N., Premchandar, A., Servel, N., Hatton, A., Ostrowski, M. K., Xu, H., Saul, F. A., Moquereau, C., Bitam, S., Pranke, I., Planelles, G., Teulon, J., Herrmann, H., Roldan, A., Zielenkiewicz, P., Dadlez, M., … Edelman, A. (2016). Rattlesnake Phospholipase A2 Increases CFTR-Chloride Channel Current and Corrects ∆F508CFTR Dysfunction: Impact in Cystic Fibrosis. Journal of Molecular Biology, 428(14), 2898–2915. https://doi.org/10.1016/j.jmb.2016.05.016

Chicago

Faure, Grazyna, Naziha Bakouh, Stéphane Lourdel, Norbert Odolczyk, Aiswarya Premchandar, Nathalie Servel, Aurélie Hatton, et al. 2016. “Rattlesnake Phospholipase A2 Increases CFTR-Chloride Channel Current and Corrects ∆F508CFTR Dysfunction: Impact in Cystic Fibrosis.” Journal of Molecular Biology 428 (14): 2898–2915. doi:10.1016/j.jmb.2016.05.016.