Kretzmer, C.; Reger, K.; Balassi, V.; Pham, Q.L.; Johns, M.; Peters, S.T.; Petersen, A.; Mahadevan, J.; Gustin, J.; Borgschulte, T.;
et al. Chemical and Genetic Modulation of Complex I of the Electron Transport Chain Enhances the Biotherapeutic Protein Production Capacity of CHO Cells. Cells 2023, 12, 2661.
https://doi.org/10.3390/cells12222661
AMA Style
Kretzmer C, Reger K, Balassi V, Pham QL, Johns M, Peters ST, Petersen A, Mahadevan J, Gustin J, Borgschulte T,
et al. Chemical and Genetic Modulation of Complex I of the Electron Transport Chain Enhances the Biotherapeutic Protein Production Capacity of CHO Cells. Cells. 2023; 12(22):2661.
https://doi.org/10.3390/cells12222661
Chicago/Turabian Style
Kretzmer, Corey, Kelsey Reger, Vincent Balassi, Quang Long Pham, Michael Johns, Samuel T. Peters, Amber Petersen, Jana Mahadevan, Jason Gustin, Trissa Borgschulte,
and et al. 2023. "Chemical and Genetic Modulation of Complex I of the Electron Transport Chain Enhances the Biotherapeutic Protein Production Capacity of CHO Cells" Cells 12, no. 22: 2661.
https://doi.org/10.3390/cells12222661
APA Style
Kretzmer, C., Reger, K., Balassi, V., Pham, Q. L., Johns, M., Peters, S. T., Petersen, A., Mahadevan, J., Gustin, J., Borgschulte, T., & Razafsky, D.
(2023). Chemical and Genetic Modulation of Complex I of the Electron Transport Chain Enhances the Biotherapeutic Protein Production Capacity of CHO Cells. Cells, 12(22), 2661.
https://doi.org/10.3390/cells12222661
