Font Size: a A A
Keyword [CDK9]
Result: 1 - 20 | Page: 1 of 2
1. Cdk9 Small Molecule Inhibitor Design And Discovery
2. Study Of Pharmacokinetics And Hypolipidemic, Hypoglycemic Effects Of Sanhuang Formula
3. Proteomic Study On Serum Protein Biomarkers Of Atherosclerosis And Relationship Of CDK9 With Atherosclerosis
4. The Effect Of Cyclin-dependent Kinase 9 On Allotransplantation Rejection And Molecular Mechanism
5. The Role Of CDKI-73 In The Treatment Of Hypophaiyngeal Squamous Cell Carcinoma And Its Underlying Mechanism:A Preliminary Study
6. Molecular Simulations Based On Selective CDK9 Inhibitors
7. Impact Of CDK9 Inhibition For T Cells On TLR5-Targeting Monitoring During Allorejection
8. Discovery And Mechanistic Study Of Dual Inhibitors For ALK/EGFR Kinases
9. The Function Of CDK9 In The Aggressive Progress Of Ovarian Cancer And The Preliminary Study About The Impact On Biological Behavior In Ovarian Cancer Cells
10. The Experimental Study Of The Regulation Of HEXIM1 Protein On The Dormancy And Activation Of Stem Cell In Head And Neck Squamous Cell
11. Design,Synthesis And Bioactivity Evaluation Of Flavonoid Derivatives Targeting RXR? And Nur77
12. The Expression And Transformation Mechanism Of BRD4 And PD-L1 In Tongue Squamous Cell Carcinoma
13. LMO4,as A Nuclear Transcription Factor,Regulates Proliferation Of Prostate Cancer Cells
14. Design,Synthesis And Biological Activity Evaluation Of CDK9 Inhibitor And Degradation Agent
15. The Role And Underlying Mechanism Of Cyclin-dependent Kinase 9 (CDK9) In Pulmonary Hypertension
16. Screening And Functional Study Of Small Molecule Inhibitors Targeting Cyclin-dependent Kinase 9(CDK9) In Clear Cell Renal Cell Carcinoma
17. The Value Of CDK9 In The Diagnosis And Severity Of Coronary Atherosclerosis
18. The Effects Of Long Non-coding RNA HOTAIR On Malignant Biological Behavior Of Gastric Cancer Cells
19. Analyse de la localisation genomique et identification de nouvelles fonctions des sous-unites Rpb4/Rpb7 de l'ARN polymerase II et des facteurs TFIIF, TFIIS et UBR5
20. Nuclear MiR-199b-5p Aggravates Myocardial Fibrosis Via Promoting CDK9-mediated Smad3 Activation
  <<First  <Prev  Next>  Last>>  Jump to