Keyphrases
Mites
100%
Permethrin
100%
Malathion
100%
Pyrethroids
100%
Tetranychus Urticae
100%
Rhizoglyphus Robini
100%
Cyfluthrin
75%
T. Urticae
75%
Cis-isomer
50%
Fenpropathrin
50%
Diisopropylfluorophosphate
50%
Trans Isomers
25%
Inhibitory Effect
25%
Hydrolysis
25%
Esterase
25%
Metabolic Pathway
25%
Degradation Rate
25%
Cytochrome P450 (CYP450)
25%
Kinetic Parameters
25%
Vmax
25%
Organophosphorus Pesticides
25%
Pesticide Use
25%
Fast Degradation
25%
Spider Mite
25%
Microsomal Fraction
25%
Mite Species
25%
Epoxidation
25%
Microsomal Oxidation
25%
Profenofos
25%
Aldrin
25%
Chemistry
Permethrin
100%
Pyrethroid
100%
Cyfluthrin
100%
Malathion
100%
Cis Isomer
66%
Fenpropathrin
66%
Diisopropyl Fluorophosphate
66%
Trans Isomer
33%
Metabolic
33%
Pharmacokinetics
33%
Degradation Rate
33%
Vmax
33%
Km
33%
Enzymatic Hydrolysis
33%
Cytochrome P450
33%
epoxidation
33%
Trans-Permethrin
33%
Profenofos
33%
Organophosphorus Compound
33%
Pharmacology, Toxicology and Pharmaceutical Science
Permethrin
100%
Pyrethroid
100%
Tetranychus urticae
100%
Malathion
100%
Rhizoglyphus robini
100%
Urtica
75%
Cyfluthrin
75%
Fenpropathrin
50%
Dyflos
50%
Cytochrome P450
25%
Esterase
25%
Aldrin
25%
Profenofos
25%
Tetranychidae
25%
Biochemistry, Genetics and Molecular Biology
Malathion
100%
Rhizoglyphus robini
100%
Urtica
100%
Tetranychus urticae
100%
Cis Isomer
66%
Metabolic Pathway
33%
Enzymatic Hydrolysis
33%
Esterase
33%
Kinetic Parameter
33%
Maximum Reaction Velocity
33%
Trans Isomer
33%
Cytochrome P450
33%
Tetranychidae
33%
Epoxidation
33%