27 results on '"Chang, Hyo Won"'
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2. Supplementary Figure S1 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
3. Supplementary Figure S4 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
4. Supplementary Methods from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
5. Supplementary Figure S5 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
6. Supplementary Figure S2 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
7. Supplementary Figure S3 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
8. Data from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
9. Supplementary Figure S3 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
10. Supplementary Figure Legends from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
11. Supplementary Figure S6 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
12. Supplementary Figure Legends from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
13. Supplementary Figure S1 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
14. Supplementary Figure S4 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
15. Data from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
16. Supplementary Figure S6 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
17. Supplementary Figure S5 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
18. Supplementary Figure S2 from Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
19. Abstract 2405: P53-dependent mitophagy controls glycolytic shift in radioresistant head and neck cancer cells
20. Abstract 3940: Activation of HER2 changes the cetuximab sensitivity in radioresisitant head and neck cancer cells
21. Abstract 4904: β-catenin silencing enhances radiation sensitivity through antagonizing effect of AMPK against Ku70/80 in head and neck cancer cells
22. Radioresistant Cancer Cells Can Be Conditioned to Enter Senescence by mTOR Inhibition
23. Abstract 81: Rapamycin increases radiosensitivity of cancer cells by induction of premature senescence.
24. Abstract 2283: β-catenin silencing induces both apoptotic and autophagic cell death through LKB1/AMPK signal in head and neck cancer cells
25. Abstract 1226: p53 signaling pathway acts as rescue mechanism to β1 integrin silencing in head and neck cancer cell line
26. Abstract 508: Synergistic effect of β-catenin knockdown and radiation combination toward AMC-HN9 head and neck cancer cells is associated with down-regulation of Ku expression.
27. Abstract 2278: Tumor microenvironment might be more important than pro-angiogenic chemotactic factors for tumor angiogenesis
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