Font Size: a A A
Keyword [Serous ovarian cancer]
Result: 41 - 60 | Page: 3 of 5
41. IQGAP3 Promotes Cancer Proliferation And Metastasis In High Grade Serous Ovarian Cancer
42. Biological Function And Clinical Characteristics Of PRC1 In High-grade Serous Ovarian Cancer
43. The Study On The Biological Function And Related Mechanism Of RECQL4 In Serous Ovarian Cancer
44. Screening And Identification Of LncRNA That Related To The Invasion And Metastasis Of High Grade Serous Ovarian Cancer
45. Correlation Analysis Of Prognosis Of Serous Ovarian Cancer
46. Expression And Significance Of Phosphorylation Of PRser190,FOXO1A And FOXO3A In Human Ovarian Serous Carcinoma
47. The Analysis Of Chemotherapy Sensitivity And Prognosis Factors In Advanced Serous Ovarian Cancer
48. The Protein Expression And Clinical Significance Of FAK,PDK1 And MDM2 In Serous Ovarian Cancer
49. Expression Of LIMK2 In Ovarian Cancer And Its Effect On Cell Biological Behavior
50. Bioinformatic Screening And Prognostic Analysis Of Platinum Resistance-associated Genes In High-grade Serous Ovarian Cancer
51. Application Of P53 In The Origin Of Serous Ovarian Cancer
52. The Correlation Between Preoperative NLR And Prognosis Of Serous Ovarian Cancer
53. MicroRNA-335 Regulation Of FANCA Enhanced Response To Cisplatin And PARP Inhibition In Serous Ovarian Cancer
54. Identifying Genes As Potential Prognostic Indicators In Patients With Serous Ovarian Cancer Resistant To Carboplatin Using Integrated Bioinformatics Analysis
55. Studies On Function And Molecular Mechanisms Of Ceramide Synthase 6 In Serous Ovarian Cancer
56. Expression Of EMP1 Is Associated With Prognosis In Patient Withserous Ovarian Cancer:A Study Based On TCGA Data
57. Clinical Efficacy And Adverse Reactions Of Different Chemotherapy Regimens In The Treatment Of Recurrent Serous Ovarian Cancer
58. Analysis Of WES Data In 12 Patients With High-Grade Serous Ovarian Cancer
59. Mutation Of DNA Damage Repair Pathway-related Genes In High-grade Serous Ovarian Cancer By Whole-exome Sequencing
60. ALPL Reduces The Potential Of Migration And Invasion In High Grade Serous Ovarian Cancer Via Down-regulating A FZD2/STAT3 Signaling Pathway
  <<First  <Prev  Next>  Last>>  Jump to