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ARTS-based anticancer therapy: Taking aim at cancer stem cells
Ronit Elhasid,
Sarit Larisch
Department of Human Biology
Department of Biology
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Article
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peer-review
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Dive into the research topics of 'ARTS-based anticancer therapy: Taking aim at cancer stem cells'. Together they form a unique fingerprint.
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Keyphrases
Apoptosis
100%
Normal Stem Cells
100%
Anticancer Therapy
100%
Cancer Stem Cells
100%
Stem Cells
50%
Signaling Pathway
50%
Septin
50%
Promote Apoptosis
50%
Anticancer
50%
Cellular Targets
25%
Enhanced Resistance
25%
Cancer Risk
25%
Cell-to-cell
25%
Gene-deficient Mice
25%
Induced Apoptosis
25%
Apoptosis-related Proteins
25%
TGF Signaling
25%
Human Patients
25%
Poor Prognosis
25%
Cancer Types
25%
Pro-apoptotic
25%
Tumorigenesis
25%
In Vitro Study
25%
Phenotypic Markers
25%
Tumor Protein p53 (TP53)
25%
Mouse Tumor Model
25%
Direct Binding
25%
Stem Cell Maintenance
25%
Progenitor Cells
25%
Patient Tumor
25%
Stem number
25%
Tumor Risk
25%
First-loss
25%
Stem Cell Targeting
25%
Tumor Susceptibility
25%
Stem Cell Development
25%
Medicine and Dentistry
Programmed Cell Death
100%
Cancer Treatment
100%
Cancer Stem Cell
100%
Malignant Neoplasm
62%
Normal Stem Cell
50%
Septin
25%
Cell Signaling Pathway
25%
Stem Cell
25%
In Vitro
12%
Neoplasm
12%
Cancer
12%
Cancer Risk
12%
Carcinogenesis
12%
Cell Maturation
12%
Cancer Susceptibility
12%
Progenitor Cell
12%
Tumor Model
12%
Tumor Suppressor Protein
12%
Biochemistry, Genetics and Molecular Biology
Anticancer
100%
Cancer Stem Cell
100%
Programmed Cell Death
100%
Stem Cell
75%
X-Linked Inhibitory Apoptosis Protein
25%
Septin
25%
Progenitor Cell
12%
Isoform
12%
Carcinogenesis
12%
Tumor Suppressor Protein
12%
Cell Maturation
12%
In Vitro Study
12%
Pharmacology, Toxicology and Pharmaceutical Science
Malignant Neoplasm
100%
Septin
28%
Neoplasm
14%
Carcinogenesis
14%
Cancer Susceptibility
14%
Tumor Model
14%
Tumor Suppressor Protein
14%