Keyphrases
Mode of Action
100%
Reactive Oxygen Species
100%
Anticancer Drug Candidates
100%
Iridium(I)
100%
Cancer Cells
50%
Strong Interaction
50%
Biological Activity
50%
Cl 2
50%
Adaptation
50%
Synthetic Methods
50%
Mechanism of Action
50%
IC50 Value
50%
Oligonucleotides
50%
Incubation
50%
Cytochrome c (Cyt c)
50%
Superoxide
50%
MCF-7
50%
MCF-7 Cells
50%
Hexamer
50%
Most Complex
50%
Lysozyme
50%
Model Proteins
50%
Biomolecules
50%
HT-29
50%
Species Ratio
50%
Active Compounds
50%
Triazole
50%
Carbenes
50%
Redox-mediated
50%
Thiazole
50%
N-heterocyclic Carbene Ligands
50%
Pharmacology, Toxicology and Pharmaceutical Science
Reactive Oxygen Metabolite
100%
Anticarcinogen
100%
Biological Activity
50%
Superoxide
50%
Cytochrome C
50%
IC50
50%
Carbene
50%
Oligonucleotide
50%
Lysozyme
50%
Carbenoid
50%
Triazole
50%
Thiazole
50%
Chemistry
Chemical Oxygen Demand
100%
Iridium
100%
Reactive Oxygen Species
33%
Carbene
16%
N-Heterocyclic Carbene
16%
IC50
16%
Cytochrome C
16%
Inorganic Peroxide
16%
Oligonucleotide
16%
Bioactivity
16%
Thiazole
16%
Lysozyme
16%
Triazole
16%
Biochemistry, Genetics and Molecular Biology
Anticancer
100%
Chemical Oxygen Demand
100%
Cytochrome C
16%
IC50
16%
Oligonucleotide
16%
Lysozyme
16%
Thiazole
16%
Biological Activity
16%