Keyphrases
B-cell Lymphoma 2 (Bcl-2)
100%
C-Jun N-terminal Kinase
100%
Prostate Cancer Cells
100%
Fas-mediated Apoptosis
100%
Mitochondria-mediated Apoptosis
100%
Proteasomal Degradation
100%
Tetrandrine
100%
C-FLIPL
100%
JNK1
36%
Apoptosis
18%
Reactive Oxygen Species Production
18%
Mitochondrial Membrane Potential
18%
Cell Death
18%
Reactive Oxygen Species
18%
Procaspase-8
18%
Induced Apoptosis
9%
N-acetylcysteine
9%
Antioxidant
9%
Molecular Mechanism
9%
Phosphorylation
9%
Apoptotic Cell Death
9%
Mitochondria
9%
Prostate Cancer
9%
Ligand-independent
9%
Caspase-3 Activation
9%
Signaling Effect
9%
Proteasomal Pathway
9%
Ubiquitin
9%
Induced Cell Death
9%
Cytochrome c (Cyt c)
9%
Bcl-2 Family Proteins
9%
Normal Prostate
9%
DU145
9%
Human Prostate Cancer Cells
9%
Intrinsic Pathway
9%
Cytosolic Release
9%
Extrinsic Pathway
9%
Smac
9%
Mitochondrial Pathway
9%
Spike Protein
9%
Chinese Herbs
9%
Stephania Tetrandra
9%
Biochemistry, Genetics and Molecular Biology
Kinase
100%
Phosphotransferase
100%
Cancer Cell
100%
Mitochondrion
100%
N-Terminus
100%
Tetrandrine
100%
C-Jun
100%
Cell Death
27%
Mitochondrial Membrane Potential
18%
Ubiquitin
9%
Caspase 3
9%
Apoptosis
9%
Stephania tetrandra
9%
Chinese Herb
9%
Sensitization
9%
Cysteine
9%
Cytochrome C
9%
Immunology and Microbiology
Amino Terminal Sequence
100%
Mitochondrion
100%
Cancer Cell
100%
Cell Death
75%
Mitochondrial Membrane Potential
50%
Caspase
25%
Sensitization
25%
Stephania tetrandra
25%
Apoptosis
25%
Chinese Herb
25%
Pharmacology, Toxicology and Pharmaceutical Science
Phosphotransferase
100%
Prostate Cancer
100%
Tetrandrine
100%
Reactive Oxygen Metabolite
36%
Procaspase 8
18%
Ubiquitin
9%
Antioxidant
9%
Acetic Acid Derivative
9%
Caspase 3
9%
Cytochrome C
9%
Cysteine
9%
Stephania tetrandra
9%
Chinese Herb
9%
Vitronectin
9%