Cite
Nitrate consumption preserves HFD-induced skeletal muscle mitochondrial ADP sensitivity and lysine acetylation: A potential role for SIRT1.
MLA
Brunetta, Henver S., et al. “Nitrate Consumption Preserves HFD-Induced Skeletal Muscle Mitochondrial ADP Sensitivity and Lysine Acetylation: A Potential Role for SIRT1.” Redox Biology, vol. 52, June 2022, p. 102307. EBSCOhost, https://doi.org/10.1016/j.redox.2022.102307.
APA
Brunetta, H. S., Petrick, H. L., Momken, I., Handy, R. M., Pignanelli, C., Nunes, E. A., Piquereau, J., Mericskay, M., & Holloway, G. P. (2022). Nitrate consumption preserves HFD-induced skeletal muscle mitochondrial ADP sensitivity and lysine acetylation: A potential role for SIRT1. Redox Biology, 52, 102307. https://doi.org/10.1016/j.redox.2022.102307
Chicago
Brunetta, Henver S, Heather L Petrick, Iman Momken, Rachel M Handy, Christopher Pignanelli, Everson A Nunes, Jérôme Piquereau, Mathias Mericskay, and Graham P Holloway. 2022. “Nitrate Consumption Preserves HFD-Induced Skeletal Muscle Mitochondrial ADP Sensitivity and Lysine Acetylation: A Potential Role for SIRT1.” Redox Biology 52 (June): 102307. doi:10.1016/j.redox.2022.102307.