Keyphrases
Overexpression
100%
Human Prostate Cancer Cells
100%
Adrenomedullin
100%
Inhibits Proliferation
100%
Prostate Cancer Cells
18%
Epithelial Cells
18%
PC-3 Cells
18%
Flow Cytometry
9%
Gene Expression
9%
Prostate
9%
Transfected Cells
9%
Malignancy
9%
In Vivo Experiment
9%
In Vitro Study
9%
Paracrine Mechanism
9%
Ectopic Expression
9%
Cells in Culture
9%
Physiologically Relevant
9%
Functional Peptides
9%
Cell Cycle Arrest
9%
Culture Dish
9%
Prostate Cancer Progression
9%
Soft Agar Assay
9%
Anchorage-independent Growth
9%
Conditioned Medium
9%
Peptide Hormone
9%
Human Prostate Cancer Cell Lines
9%
Gene Expression Vectors
9%
Xenograft Mice
9%
Medicine and Dentistry
Prostate Cancer
100%
In Vitro
100%
Cancer Cell
100%
Adrenomedullin
100%
Gene Expression
18%
Epithelial Cell
18%
Cell Cycle Arrest
9%
Cancer Growth
9%
Tumor Xenograft
9%
Agar
9%
Flow Cytometry
9%
Prostate Cancer Cell Line
9%
Anchorage Independent Growth
9%
Expression Vector
9%
Cancer
9%
Ectopic Expression
9%
Peptide Hormone
9%
Immunology and Microbiology
Cancer Cell
100%
Gene Expression
66%
Xenograft
33%
Prostate
33%
Nude Mouse
33%
Cell Cycle Arrest
33%
Expression Vector
33%
Agar
33%
Prostate Cancer Cell Line
33%
Anchorage Independent Growth
33%
Ectopic Expression
33%
Neuroscience
In Vivo
100%
In Vitro
100%
Adrenomedullin
100%
Epithelial Cells
18%
Gene Expression
18%
Prostate
18%
Cell Line
9%
Peptide Hormone
9%
Flow Cytometry
9%
Cell Cycle Arrest
9%
Agar
9%
Anchorage Independent Growth
9%
Expression Vector
9%
Ectopic Expression
9%
Biochemistry, Genetics and Molecular Biology
Adrenomedullin
100%
Cancer Cell
100%
Gene Expression
18%
Ectopic Expression
9%
Multifunctional Peptides
9%
In Vitro Study
9%
Flow Cytometry
9%
Nude Mouse
9%
Agar
9%
Cell Cycle Arrest
9%
Anchorage Independent Growth
9%
Expression Vector
9%
Peptide Hormone
9%
Pharmacology, Toxicology and Pharmaceutical Science
Prostate Cancer
100%
Adrenomedullin
100%
Nude Mouse
9%
Flow Cytometry
9%
Cancer Growth
9%
Agar
9%
Neoplasm
9%
Peptide Hormone
9%