Yi, S. Y., Lee, M., Jeevan Rameneni, J., Lu, L., Kaur, C., & Lim, Y. P. (2021). Xanthine-derived metabolites enhance chlorophyll degradation in cotyledons and seedling growth during nitrogen deficient condition in Brassica rapa. Plant Signal Behav.
Citação norma ChicagoYi, So Young, Myungjin Lee, Jana Jeevan Rameneni, Lu Lu, Chetan Kaur, and Yong Pyo Lim. "Xanthine-derived Metabolites Enhance Chlorophyll Degradation in Cotyledons and Seedling Growth During Nitrogen Deficient Condition in Brassica Rapa." Plant Signal Behav 2021.
Citação norma MLAYi, So Young, et al. "Xanthine-derived Metabolites Enhance Chlorophyll Degradation in Cotyledons and Seedling Growth During Nitrogen Deficient Condition in Brassica Rapa." Plant Signal Behav 2021.
Nota: a formatação da citação pode não corresponder 100% ao definido pela respectiva norma.