Meyer, K.J.; Singh, A.J.; Cameron, A.; Tan, A.S.; Leahy, D.C.; O’Sullivan, D.; Joshi, P.; La Flamme, A.C.; Northcote, P.T.; Berridge, M.V.;
et al. Mitochondrial Genome-Knockout Cells Demonstrate a Dual Mechanism of Action for the Electron Transport Complex I Inhibitor Mycothiazole. Mar. Drugs 2012, 10, 900-917.
https://doi.org/10.3390/md10040900
AMA Style
Meyer KJ, Singh AJ, Cameron A, Tan AS, Leahy DC, O’Sullivan D, Joshi P, La Flamme AC, Northcote PT, Berridge MV,
et al. Mitochondrial Genome-Knockout Cells Demonstrate a Dual Mechanism of Action for the Electron Transport Complex I Inhibitor Mycothiazole. Marine Drugs. 2012; 10(4):900-917.
https://doi.org/10.3390/md10040900
Chicago/Turabian Style
Meyer, Kirsten J., A. Jonathan Singh, Alanna Cameron, An S. Tan, Dora C. Leahy, David O’Sullivan, Praneta Joshi, Anne C. La Flamme, Peter T. Northcote, Michael V. Berridge,
and et al. 2012. "Mitochondrial Genome-Knockout Cells Demonstrate a Dual Mechanism of Action for the Electron Transport Complex I Inhibitor Mycothiazole" Marine Drugs 10, no. 4: 900-917.
https://doi.org/10.3390/md10040900
APA Style
Meyer, K. J., Singh, A. J., Cameron, A., Tan, A. S., Leahy, D. C., O’Sullivan, D., Joshi, P., La Flamme, A. C., Northcote, P. T., Berridge, M. V., & Miller, J. H.
(2012). Mitochondrial Genome-Knockout Cells Demonstrate a Dual Mechanism of Action for the Electron Transport Complex I Inhibitor Mycothiazole. Marine Drugs, 10(4), 900-917.
https://doi.org/10.3390/md10040900