Keyphrases
Particulate
100%
Mutagenicity
100%
Diesel
100%
DNA Adducts
100%
Circulating Tumor DNA (ctDNA)
100%
Vehicle Exhaust
100%
Semi-volatiles
100%
Gasoline
83%
Polyurethane Foam
50%
High Dose
33%
DNA Binding
33%
Nitro-polycyclic Aromatic Hydrocarbons
33%
Gasoline Emissions
33%
Xanthine Oxidase
33%
Reductive Activation
33%
Rat Liver S9
33%
Passenger Car
16%
High Concentration
16%
Enzyme Activity
16%
Aromatic Compounds
16%
Diesel Exhaust
16%
Exhaust Particles
16%
Organic Matter
16%
Reaction Conditions
16%
Complex Interactions
16%
Salmonella Enterica Serovar Typhimurium (S. Typhimurium)
16%
In Vitro Incubation
16%
Semi-volatile Compounds
16%
Diesel Particulate Matter
16%
Benzo(a)pyrene
16%
TA98
16%
Activation System
16%
Salmonella mutagenicity Assay
16%
DNA Adduct Formation
16%
Gasoline Exhaust
16%
Mutagenic Potential
16%
Oxidative Activation
16%
Soluble Organic Matter
16%
Linear Dose Response
16%
INIS
comparative evaluations
100%
vehicles
100%
particulates
100%
gasoline
100%
dna adducts
100%
calves
100%
thymus
100%
dna
62%
doses
50%
foams
37%
polyurethanes
37%
efficiency
25%
levels
25%
concentration
25%
emission
25%
liver
25%
filters
25%
oxidases
25%
aromatic hydrocarbons
25%
rats
25%
adducts
25%
xanthines
25%
enzymes
12%
cars
12%
passengers
12%
data
12%
interactions
12%
enzyme activity
12%
inhibition
12%
strains
12%
oxidation
12%
particles
12%
in vitro
12%
bacteria
12%
capacity
12%
incubation
12%
organic matter
12%
metabolites
12%
mutations
12%
salmonella
12%
salmonella typhimurium
12%
pyrene
12%
aromatic compounds
12%
srm
12%
Pharmacology, Toxicology and Pharmaceutical Science
Mutagenicity
100%
Polyurethan Foam
100%
Xanthine Oxidase
66%
Aromatic Hydrocarbon
66%
Benzo(a)pyrene
33%
Salmonella
33%
Salmonella Enterica Serovar Typhimurium
33%
Aromatic Compound
33%