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Keyword [breast cancer progression]
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1. Expression And Significance Of BAD,p-BAD And P-ERK Protein In Breast Cancer Progression
2. Expression And Significance Of P-BAD,p-AKT Protein In The Breast Cancer Progression
3. With Clec - 1 In The Study Of The Role Of The Microglia Activation With Clec - 1 And Promote The Progress Of Breast Cancer Research
4. Study Of The Regulation Role Of Prosaposin On Breast Cancer Progression And Estrogen Receptor Alpha
5. Tudor-SN Protein Function In The Breast Cancer Progression And Adipocytes Differentiation
6. LincRNA-ROR Induces Epithelial-Mesenchymal Transition In Human Mammary Epithelial Cells And Contributes To Breast Cancer Progression
7. Tumor Suppressive MicroRNA-193b Promotes Breast Cancer Progression Via Targeting DNAJC13and RAN22A
8. The Role Of MCPIP1/MALT1 Axis In Control Of Breast Cancer Progression
9. The Mechanisms Of Huaier Inhibiting Breast Cancer Progression
10. SOX4Induces Epithelial-Mesenchymal Transition In Human Mammary Epithelial Cells And Contributes To Breast Cancer Progression
11. CDK5is Essential For TGF-β1-induced Epithelial-mesenchymal Transition And Breast Cancer Progression
12. The Function And Mechallism Of OPN Transcripts On Breast Cancer Progression
13. The Correlation Study Of Parathyroid Hormone Related Protein With Breast Cancer Progression And Bone Metastases
14. Experimental Study Of MiR-17 Regulation Balb/c Mice Breast Cancer Progression And Metastasis In Vivo
15. Preliminary Study Of PiRNA In Man Spermatogenesis And Molecular Mechanism Of MiR-96 Promote Breast Cancer Progression
16. Functional Roles Of Sialylation In Breast Cancer Progression Through MiR-26a/26b Targeting ST8SIA4
17. The Molecular Mechanisms Of Huaier Inhibiting Breast Cancer Progression Through LncRNA-H19
18. AKR1B1 Promotes Basal-like Breast Cancer Progression By A Positive Feedback Loop That Activates The EMT Program
19. MiR-340 Inhibits Triple-negative Breast Cancer Progression By Reversing EZH2 Mediated MiRNAs Dysregulated Expressions
20. The Effect Of 4-hydroxytamoxifen On Gene Expression Profile Of Breast Cancer Cell And Mechanism Of 4-hydroxytamoxifen Inhibiting Breast Cancer Progression
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