The underlying mechanisms by which boron mitigates copper toxicity in Citrus sinensis leaves revealed by integrated analysis of transcriptome, metabolome and physiology.

MLA

Chen, Xu-Feng, et al. “The Underlying Mechanisms by Which Boron Mitigates Copper Toxicity in Citrus Sinensis Leaves Revealed by Integrated Analysis of Transcriptome, Metabolome and Physiology.” Tree Physiology, vol. 44, no. 9, Sept. 2024. EBSCOhost, https://doi.org/10.1093/treephys/tpae099.

APA

Chen, X.-F., Wu, B.-S., Yang, H., Shen, Q., Lu, F., Huang, W.-L., Guo, J., Ye, X., Yang, L.-T., & Chen, L.-S. (2024). The underlying mechanisms by which boron mitigates copper toxicity in Citrus sinensis leaves revealed by integrated analysis of transcriptome, metabolome and physiology. Tree Physiology, 44(9). https://doi.org/10.1093/treephys/tpae099

Chicago

Chen, Xu-Feng, Bi-Sha Wu, Hui Yang, Qian Shen, Fei Lu, Wei-Lin Huang, Jiuxin Guo, Xin Ye, Lin-Tong Yang, and Li-Song Chen. 2024. “The Underlying Mechanisms by Which Boron Mitigates Copper Toxicity in Citrus Sinensis Leaves Revealed by Integrated Analysis of Transcriptome, Metabolome and Physiology.” Tree Physiology 44 (9). doi:10.1093/treephys/tpae099.