171 results on '"Yeh, Tien-Shun"'
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2. Yin Yang 1 is a target of microRNA-34 family and contributes to gastric carcinogenesis
3. Mitochondrial dysfunction decreases cisplatin sensitivity in gastric cancer cells through upregulation of integrated stress response and mitokine GDF15.
4. Growth differentiation factor 15 induces cisplatin resistance through upregulation of xCT expression and glutathione synthesis in gastric cancer
5. Supplementary Table 5 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
6. Supplementary Table 3 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
7. Supplementary Figure 3 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
8. Supplementary Table 1 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
9. Supplementary Figure 4 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
10. Supplementary Figure 2 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
11. Supplementary Table 4 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
12. Supplementary Figure 5 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
13. Supplementary Figure 1 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
14. Supplementary Figure Legend from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
15. Supplementary Table 2 from Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
16. Data from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
17. Supplementary Figure 6 from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
18. Supplementary Figures 1-5 from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
19. Supplementary Tables 1-2, Figure Legends 1-8 from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
20. Supplementary Figure 7 from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
21. Supplementary Figure 8 from The Activated Notch1 Signal Pathway Is Associated with Gastric Cancer Progression through Cyclooxygenase-2
22. Salubrinal Enhances Cancer Cell Death during Glucose Deprivation through the Upregulation of xCT and Mitochondrial Oxidative Stress
23. Downregulation of tumor suppressor MBP-1 by microRNA-363 in gastric carcinogenesis
24. DNAJA3/Tid1 Is Required for Mitochondrial DNA Maintenance and Regulates Migration and Invasion of Human Gastric Cancer Cells
25. Notch2-induced COX-2 expression enhancing gastric cancer progression
26. YAP regulates neuronal differentiation through Sonic hedgehog signaling pathway
27. Activation of the Notch1/STAT3/Twist signaling axis promotes gastric cancer progression
28. Mevalonate Pathway Enzyme HMGCS1 Contributes to Gastric Cancer Progression
29. Nonmuscle Myosin IIA (Myosin Heavy Polypeptide 9): A Novel Class of Signal Transducer Mediating the Activation of Gαh/Phospholipase C-δ1 Pathway
30. The CBF1-independent Notch1 signal pathway activates human c-myc expression partially via transcription factor YY1
31. Anti-heat shock protein 90 is increased in acute mania
32. Calcium Stimulates Mitochondrial Biogenesis in Human Granulosa Cells
33. Abnormal Mitochondrial Structure in Human Unfertilized Oocytes and Arrested Embryos
34. Deleted Mitochondrial DNA in Human Luteinized Granulosa Cells
35. Activated Integrated Stress Response Induced by Salubrinal Promotes Cisplatin Resistance in Human Gastric Cancer Cells via Enhanced xCT Expression and Glutathione Biosynthesis
36. MicroRNA‑23a/27a/24‑2 cluster promotes gastric cancer cell proliferation synergistically
37. Correlation between HGF/c-Met and Notch1 signaling pathways in human gastric cancer cells
38. CHAC1 degradation of glutathione enhances cystine-starvation-induced necroptosis and ferroptosis in human triple negative breast cancer cells via the GCN2-eIF2α-ATF4 pathway
39. Notch1-promoted TRPA1 expression in erythroleukemic cells suppresses erythroid but enhances megakaryocyte differentiation
40. miR-151-3p Targets TWIST1 to Repress Migration of Human Breast Cancer Cells
41. Alpha-mangostin from mangosteen (Garcinia mangostana Linn.) pericarp extract reduces high fat-diet induced hepatic steatosis in rats by regulating mitochondria function and apoptosis
42. Mitochondrial dysfunction enhances cisplatin resistance in human gastric cancer cells via the ROS-activated GCN2-eIF2α-ATF4-xCT pathway
43. Notch1 pathway-mediated microRNA-151-5p promotes gastric cancer progression
44. Energy metabolism determines the sensitivity of human hepatocellular carcinoma cells to mitochondrial inhibitors and biguanide drugs
45. The reciprocal regulation loop of Notch2 pathway and miR-23b in controlling gastric carcinogenesis
46. Abstract 5202: Yin Yang 1 is a target of miR-34 family and contributes to gastric carcinogenesis
47. Downregulation of tumor suppressor MBP-1 by microRNA-363 in gastric carcinogenesis
48. Galectin-1 Promotes Lung Cancer Progression and Chemoresistance by Upregulating p38 MAPK, ERK, and Cyclooxygenase-2
49. Diverse effects of type II collagen on osteogenic and adipogenic differentiation of mesenchymal stem cells
50. Notch2‐induced COX‐2 expression enhancing gastric cancer progression
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