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1. Experimental Study On Repair Of Myocardial Injury By Stem Cells
2. Generation Of Immune Tolerant And Immune Compatib Human Pluripotent Stem Cell For Cell Therapy
3. Establishment Of Human IPS Cell Lines And Exploration Of ABCG2's Absence In Human Pluripotent Stem Cells
4. Study On The Generation And Characterization Of Pediatric Leukemia Patient's Specific IPSCs Like Cell Line
5. Expression Of Nanog And Ultrastructure Of Rat Tracheal Epithelium During The Recovery Of Injury Induced By 5-FU In Vitro
6. Expression And Significance Of OCT3/4 In The Repair Process Of Rat Trachea Epithelium Cell
7. Establishing Of The Optimization Of Mouse STO Cell Lines Reprogram To Pluripotent Stem Cells
8. Cell Reprogramming And Transplantation For Treatment Of Optic Nerve Injury
9. The Establishment Of Overexpression Of CEBPα Combined With PU.1 In Jurkat Cell Line And The Exploration Of Its Biology
10. Azithromycin Drives Macrophage To M2 Polarization Through ATF4-GPT2-α-KG/Succinate-HIF-1α Pathway
11. The Mechanism Of Oxidized ATM On Invasion And Metastasis Of Hypoxic Breast Cancer Cell Via Glucose Metabolism
12. Platelets Reprogram The Immunosuppressive Microenvironment Of Ovarian Cancer Via Upregulating The Expression Of PD-L1 In Cancer-associated Fibroblasts
13. The Mechanism By Which PCB Regulates TAMs Functions To Reprogram Tumor Microenvironment
14. Small Molecules Compound VCR Induce Rat Fibroblasts To Reprogram Into Neural Progenitor Cells Under Hypoxia And Its Therapeutic Effect On Parkinson’s Disease
15. Biomimetic Gold Nanorods For Controlled Release No To Reprogram Immunosuppressive Microenvironment And Enhance Anticancer Photoimmunotherapy
16. Targeting CAMKⅡ To Reprogram Tumor-associated Macrophages And Inhibit Tumor Cells With An Injectable Hybrid Peptide Hydrogel
17. Fatty Acid Receptor CD36 Promotes Hepatocellular Carcinoma Progression And Related Mechanisms By Affecting Aerobic Glycolysis
18. Streptococcus Pneumoniae Endopeptidase O(PepO) Suppresses Triple Negative Breast Cancer Growth By Inducing Tumor Associated Macrophage To Reprogram Into Tumoricidal M1-like Macrophage
19. The Mechanism Of Ginseng-derived Nanoparticles(GDNPs) Reprogram Macrophages Through Toll-like Receptor 4
20. GOLPH3 Regulates Glycometabolism Reprogram To Affect The Stemness Of Tumor Cells In Chemotherapy Resistance Of Breast Cancer
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