Salazar, K.; Espinoza, F.; Cerda-Gallardo, G.; Ferrada, L.; Magdalena, R.; Ramírez, E.; Ulloa, V.; Saldivia, N.; Troncoso, N.; Oviedo, M.J.;
et al. SVCT2 Overexpression and Ascorbic Acid Uptake Increase Cortical Neuron Differentiation, Which Is Dependent on Vitamin C Recycling between Neurons and Astrocytes. Antioxidants 2021, 10, 1413.
https://doi.org/10.3390/antiox10091413
AMA Style
Salazar K, Espinoza F, Cerda-Gallardo G, Ferrada L, Magdalena R, Ramírez E, Ulloa V, Saldivia N, Troncoso N, Oviedo MJ,
et al. SVCT2 Overexpression and Ascorbic Acid Uptake Increase Cortical Neuron Differentiation, Which Is Dependent on Vitamin C Recycling between Neurons and Astrocytes. Antioxidants. 2021; 10(9):1413.
https://doi.org/10.3390/antiox10091413
Chicago/Turabian Style
Salazar, Katterine, Francisca Espinoza, Gustavo Cerda-Gallardo, Luciano Ferrada, Rocío Magdalena, Eder Ramírez, Viviana Ulloa, Natalia Saldivia, Ninoschka Troncoso, María José Oviedo,
and et al. 2021. "SVCT2 Overexpression and Ascorbic Acid Uptake Increase Cortical Neuron Differentiation, Which Is Dependent on Vitamin C Recycling between Neurons and Astrocytes" Antioxidants 10, no. 9: 1413.
https://doi.org/10.3390/antiox10091413
APA Style
Salazar, K., Espinoza, F., Cerda-Gallardo, G., Ferrada, L., Magdalena, R., Ramírez, E., Ulloa, V., Saldivia, N., Troncoso, N., Oviedo, M. J., Barahona, M. J., Martínez, F., & Nualart, F.
(2021). SVCT2 Overexpression and Ascorbic Acid Uptake Increase Cortical Neuron Differentiation, Which Is Dependent on Vitamin C Recycling between Neurons and Astrocytes. Antioxidants, 10(9), 1413.
https://doi.org/10.3390/antiox10091413
