1. Treatment with paraquat affects the expression of ferroptosis-related genes
    Xiaogang Ge et al, 2023, Human & Experimental Toxicology CrossRef
  2. Exploring a ferroptosis and oxidative stress-based prognostic model for clear cell renal cell carcinoma
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  3. Heat stress exposure cause alterations in intestinal microbiota, transcriptome, and metabolome of broilers
    Xuan Liu et al, 2023, Frontiers in Microbiology CrossRef
  4. CHAC1 as a Novel Contributor of Ferroptosis in Retinal Pigment Epithelial Cells with Oxidative Damage
    Ye Liu et al, 2023, International Journal of Molecular Sciences CrossRef
  5. MIA3 promotes the degradation of GSH (glutathione) by binding to CHAC1, thereby promoting the progression of hepatocellular carcinoma
    Zhou Wanbiao et al, 2023, Molecular and Cellular Biochemistry CrossRef
  6. Molecular mechanisms of ferroptosis and its role in prostate cancer therapy
    Shaokun Wang et al, 2022, Critical Reviews in Oncology/Hematology CrossRef
  7. Self‐Assembled Acid‐Responsive Nanosystem for Synergistic Anti‐Angiogenic/Photothermal/Ferroptosis Therapy against Esophageal Cancer
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  8. CHAC1 exacerbates arsenite cytotoxicity by lowering intracellular glutathione levels
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  9. The role of ferroptosis in prostate cancer: a novel therapeutic strategy
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  10. Ferroptosis and ferroptosis-inducing nanomedicine as a promising weapon in combination therapy of prostate cancer
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  11. Integrating Pharmacogenomics Data-Driven Computational Drug Prediction with Single-Cell RNAseq to Demonstrate the Efficacy of a NAMPT Inhibitor against Aggressive, Taxane-Resistant, and Stem-like Cells in Lethal Prostate Cancer
    Suman Mazumder et al, 2022, Cancers CrossRef
  12. Flavonoid 4,4′-dimethoxychalcone induced ferroptosis in cancer cells by synergistically activating Keap1/Nrf2/HMOX1 pathway and inhibiting FECH
    Changmei Yang et al, 2022, Free Radical Biology and Medicine CrossRef
  13. Unlocking ferroptosis in prostate cancer — the road to novel therapies and imaging markers
    Pham Hong Anh Cao et al, 2024, Nature Reviews Urology CrossRef
  14. Gene Expression Profiling Elucidates Cellular Responses to NCX4040 in Human Ovarian Tumor Cells: Implications in the Mechanisms of Action of NCX4040
    Birandra K. Sinha et al, 2022, Cancers CrossRef
  15. Ferroptosis: a novel regulated cell death participating in cellular stress response, radiotherapy, and immunotherapy
    Xiaogang Zheng et al, 2023, Experimental Hematology & Oncology CrossRef
  16. Culture of Cancer Cells at Physiological Oxygen Levels Affects Gene Expression in a Cell-Type Specific Manner
    Ricardo Alva et al, 2022, Biomolecules CrossRef
  17. Ferroptosis landscape in prostate cancer from molecular and metabolic perspective
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  18. ChaC1 upregulation reflects poor prognosis in a variety of cancers: analysis of the major missense SNPs of ChaC1 as an aid to refining prognosis
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  19. Roles of ferroptosis in urologic malignancies
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  20. Bromocriptine monotherapy overcomes prostate cancer chemoresistance in preclinical models
    Lijuan Bai et al, 2023, Translational Oncology CrossRef