Salgado-Medrano, N.; Millán-Pacheco, C.; Rodríguez-López, V.; Corona-Sánchez, L.; Mesnard, F.; Molinié, R.; León-Álvarez, E.; Villarreal, M.L.; Cardoso-Taketa, A.T.
Antioxidant Active Phytochemicals in Ternstroemia lineata Explained by Aquaporin Mechanisms. Plants 2024, 13, 2223.
https://doi.org/10.3390/plants13162223
AMA Style
Salgado-Medrano N, Millán-Pacheco C, Rodríguez-López V, Corona-Sánchez L, Mesnard F, Molinié R, León-Álvarez E, Villarreal ML, Cardoso-Taketa AT.
Antioxidant Active Phytochemicals in Ternstroemia lineata Explained by Aquaporin Mechanisms. Plants. 2024; 13(16):2223.
https://doi.org/10.3390/plants13162223
Chicago/Turabian Style
Salgado-Medrano, Nahim, César Millán-Pacheco, Verónica Rodríguez-López, Lucía Corona-Sánchez, François Mesnard, Roland Molinié, Eleazar León-Álvarez, María Luisa Villarreal, and Alexandre Toshirrico Cardoso-Taketa.
2024. "Antioxidant Active Phytochemicals in Ternstroemia lineata Explained by Aquaporin Mechanisms" Plants 13, no. 16: 2223.
https://doi.org/10.3390/plants13162223
APA Style
Salgado-Medrano, N., Millán-Pacheco, C., Rodríguez-López, V., Corona-Sánchez, L., Mesnard, F., Molinié, R., León-Álvarez, E., Villarreal, M. L., & Cardoso-Taketa, A. T.
(2024). Antioxidant Active Phytochemicals in Ternstroemia lineata Explained by Aquaporin Mechanisms. Plants, 13(16), 2223.
https://doi.org/10.3390/plants13162223
