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  4. In vitroAnti-colorectal Cancer Potential of the Medicinal MushroomGanoderma neo-japonicumImazeki in Hyperglycemic Condition: Impact on Oxidative Stress, Cell Cycle and Apoptosis
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  6. MARK2/4 promotes Warburg effect and cell growth in non-small cell lung carcinoma through the AMPKα1/mTOR/HIF-1α signaling pathway
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  7. Effect of Glucose on GLUT1-Dependent Intracellular Ascorbate Accumulation and Viability of Thyroid Cancer Cells
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  8. Contemporary Perspectives on the Warburg Effect Inhibition in Cancer Therapy
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  9. MicroRNA-124 suppresses proliferation and glycolysis in non–small cell lung cancer cells by targeting AKT–GLUT1/HKII
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  10. Crosstalk between Metabolic Alterations and Altered Redox Balance in PTC-Derived Cell Lines
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  11. Chronic exposure to field-realistic doses of imidacloprid resulted in biphasic negative effects on honey bee physiology
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  13. Regulatory Mechanism on Anti-Glycolytic and Anti-Metastatic Activities Induced by Strobilanthes crispus in Breast Cancer, In Vitro
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  14. The prognostic value of GLUT-1 staining in the detection of malignant transformation in oral mucosa
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  15. Impaired Glucose Metabolism, Anti-Diabetes Medications, and Risk of Thyroid Cancer
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  16. D‑allose enhances the efficacy of hydroxychloroquine against Lewis lung carcinoma cell growth by inducing autophagy
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  17. Transcriptional activation of glucose transporter 1 in orthodontic tooth movement-associated mechanical response
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  18. Effects of sterol-type elicitors on biochemical characterization of polysaccharides from Antrodia cinnamomea
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  19. GLUT1 production in cancer cells: a tragedy of the commons
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  20. Leptin receptor mediates the proliferation and glucose metabolism of pancreatic cancer cells via AKT pathway activation
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  21. Small‐Molecule Inhibition of Glucose Transporters GLUT‐1–4
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