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ERG oncoprotein inhibits ANXA2 expression and function in prostate cancer
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Dive into the research topics of 'ERG oncoprotein inhibits ANXA2 expression and function in prostate cancer'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
Mesenchymal-Epithelial Transition
100%
Cell Polarity
100%
Small Interfering RNA
50%
Promoter Region
50%
Actin
50%
Binding Protein
50%
Cell Function
50%
RNA
50%
Transcription Initiation Site
50%
Cofilin
50%
Chromosomal Translocation
50%
Carcinogenesis
50%
Cell Junction
50%
CDC42
50%
Refined Hydrothermolytic Oxidation Acid
50%
TMPRSS2
50%
Phospholipid
50%
Genomics
50%
Medicine and Dentistry
Prostate Cancer
100%
Oncoprotein
100%
Neoplasm
50%
Epithelial Cell
50%
Mesenchymal-Epithelial Transition
50%
Cell Polarity
50%
Promoter Region
25%
Small Interfering RNA
25%
Cell Function
25%
Transcription Initiation Site
25%
Immunohistochemistry
25%
Calcium Ion
25%
Biological Product
25%
Carcinogenesis
25%
Prostate Cell
25%
Actin Filament
25%
Phospholipid Binding Protein
25%
Prostate Epithelium
25%
Cell Junction
25%
Chromosome Translocation
25%
Cofilin
25%
Keyphrases
Annexin A2 (ANXA2)
100%
Prostate Cancer
100%
Oncoprotein
100%
Overexpression
16%
Tumor
16%
Transcriptional Repression
16%
Epithelial-mesenchymal Transition
16%
Poor Differentiation
16%
Knockdown
8%
Small Interfering RNA (siRNA)
8%
Ca2+ Dependence
8%
Protein Level
8%
Immunohistochemistry
8%
Differentiated Cells
8%
Cell Behavior
8%
Phospholipid-binding Protein
8%
MRNA Level
8%
Transcription Start Site
8%
Actin Filaments
8%
Cofilin
8%
Chromosomal Translocation
8%
Cdc42
8%
Prostate Epithelial Cells
8%
Prostate-specific
8%
Reciprocal Relationship
8%
Prostate Cells
8%
Primary Prostate Cancer
8%
Mechanistic Studies
8%
Epithelial Phenotype
8%
Prostate Epithelium
8%
Therapeutic Targeting
8%
Genomic Analysis
8%
Cell Polarity
8%
Well-differentiated
8%
Cell-cell Junctions
8%
Prostate Tumorigenesis
8%
TMPRSS2-ERG Fusion
8%
Epithelial Polarity
8%
Cell Formation
8%
Clinical Specimens
8%