Cite
Repurposing of the Antipsychotic Trifluoperazine Induces SLC7A11/GPX4- Mediated Ferroptosis of Oral Cancer via the ROS/Autophagy Pathway.
MLA
Sheng-Chieh Tsai, et al. “Repurposing of the Antipsychotic Trifluoperazine Induces SLC7A11/GPX4- Mediated Ferroptosis of Oral Cancer via the ROS/Autophagy Pathway.” International Journal of Biological Sciences, vol. 20, no. 15, Nov. 2024, pp. 6090–113. EBSCOhost, https://doi.org/10.7150/ijbs.99859.
APA
Sheng-Chieh Tsai, Po-Chih Chang, Yu Tong Lin, Po-Tsang Huang, Yi-Fu Chen, J., Chang-Shen Lin, Bin-Nan Wu, Hui-Min Chang, Wan-Ju Wu, Chi-I Chang, & Chien-Hsing Lee. (2024). Repurposing of the Antipsychotic Trifluoperazine Induces SLC7A11/GPX4- Mediated Ferroptosis of Oral Cancer via the ROS/Autophagy Pathway. International Journal of Biological Sciences, 20(15), 6090–6113. https://doi.org/10.7150/ijbs.99859
Chicago
Sheng-Chieh Tsai, Po-Chih Chang, Yu Tong Lin, Po-Tsang Huang, Jeff Yi-Fu Chen, Chang-Shen Lin, Bin-Nan Wu, et al. 2024. “Repurposing of the Antipsychotic Trifluoperazine Induces SLC7A11/GPX4- Mediated Ferroptosis of Oral Cancer via the ROS/Autophagy Pathway.” International Journal of Biological Sciences 20 (15): 6090–6113. doi:10.7150/ijbs.99859.