Wang, P.; Du, L.; Li, Y.; Xu, Z.; Ye, L.; Dai, S.; Xu, L.; Yan, J.; Xie, X.; Cao, Q.;
et al. High-Intensity Pulse Magnetic Fields Affect Redox Homeostasis and Survival Rate of Escherichia coli According to Initial Level of Intracellular Glucose. Biomolecules 2025, 15, 1550.
https://doi.org/10.3390/biom15111550
AMA Style
Wang P, Du L, Li Y, Xu Z, Ye L, Dai S, Xu L, Yan J, Xie X, Cao Q,
et al. High-Intensity Pulse Magnetic Fields Affect Redox Homeostasis and Survival Rate of Escherichia coli According to Initial Level of Intracellular Glucose. Biomolecules. 2025; 15(11):1550.
https://doi.org/10.3390/biom15111550
Chicago/Turabian Style
Wang, Pengbo, Limeng Du, Yunchong Li, Zitang Xu, Luona Ye, Shuhan Dai, Li Xu, Jinyong Yan, Xiaoman Xie, Quanliang Cao,
and et al. 2025. "High-Intensity Pulse Magnetic Fields Affect Redox Homeostasis and Survival Rate of Escherichia coli According to Initial Level of Intracellular Glucose" Biomolecules 15, no. 11: 1550.
https://doi.org/10.3390/biom15111550
APA Style
Wang, P., Du, L., Li, Y., Xu, Z., Ye, L., Dai, S., Xu, L., Yan, J., Xie, X., Cao, Q., Yang, M., Han, X., & Yan, Y.
(2025). High-Intensity Pulse Magnetic Fields Affect Redox Homeostasis and Survival Rate of Escherichia coli According to Initial Level of Intracellular Glucose. Biomolecules, 15(11), 1550.
https://doi.org/10.3390/biom15111550
