INIS
regulations
100%
nucleotides
100%
oxidation
100%
glutathione
100%
excision repair
100%
hydrogen
45%
capacity
36%
dna adducts
18%
data
9%
doses
9%
humans
9%
nutrition
9%
assessments
9%
netherlands
9%
genes
9%
toxicity
9%
dna damages
9%
repair
9%
modifications
9%
universities
9%
health hazards
9%
risk analysis
9%
oxidants
9%
pyrene
9%
Keyphrases
Oxidative Stress
100%
Glutathione
100%
Nucleotide Excision Repair
100%
Hydrogen Peroxide
50%
Repair Capacity
40%
ERCC1 Expression
30%
Maastricht
20%
Stress-induced
20%
ERCC1
20%
ERCC4
20%
Netherlands
10%
Maastricht University
10%
DNA Damage
10%
Base Excision Repair
10%
Benzo(a)pyrene
10%
Incision
10%
Health Departments
10%
Nutrition Research
10%
Toxicology
10%
A549
10%
Bulky DNA Adducts
10%
Toxic Dose
10%
DNA Adducts
10%
Pulmonary Epithelial Cells
10%
Toxicology Research
10%
Health Risk Analysis
10%
GSH Depletion
10%
Intracellular Oxidative Stress
10%
Backup System
10%
ERCC5
10%
DNA Helix
10%
Repair Cell
10%
Fold Increase
10%
Phenotypical
10%
Biochemistry, Genetics and Molecular Biology
Oxidative Stress
100%
Glutathione
100%
Base Excision Repair
100%
Nucleotide Excision Repair
100%
ERCC1
45%
DNA Adduct
18%
Downregulation
9%
DNA Damage
9%
Upregulation
9%
DNA Helix
9%
XPA
9%
Toxic Dose
9%
Medicine and Dentistry
Oxidative Stress
100%
Glutathione
100%
Base Excision Repair
100%
DNA Adduct
18%
DNA Damage
9%
Epithelial Cell
9%
Oxidizing Agent
9%
Downregulation
9%
Health Hazard
9%
Incision
9%
Upregulation
9%
DNA Helix
9%
Benzo[a]pyrene
9%
Pharmacology, Toxicology and Pharmaceutical Science
Glutathione
100%
Benzo(a)pyrene
50%
Base
50%
Health Hazard
50%
Oxidizing Agent
50%
Immunology and Microbiology
Oxidative Stress
100%
Excision Repair
100%
DNA Adduct
18%
Downregulation
9%
Upregulation
9%
DNA Damage
9%
Toxic Dose
9%
DNA Helix
9%