Metabolism of the insecticidally active GABAA receptor antagonist 4-sec-[3,4-3H2]butyl-1-(4-cyanophenyl)-2,6,7-trioxabicyclo[2.2.2]octane

“…3-Phenoxybenzaldehyde and its 11 metabolites were detected (189); the metabolism of the insecticidally active GABAA receptor antagonist was investigated (190); radioactive cinmethylin and its degradation products were detected (191); 14 C-8-hexachlorocyclohexane was identified after TLC separation (192); and the chromatographic behavior of chlorotoluron and its metabolites was investigated (193). 3-Phenoxybenzaldehyde and its 11 metabolites were detected (189); the metabolism of the insecticidally active GABAA receptor antagonist was investigated (190); radioactive cinmethylin and its degradation products were detected (191); 14 C-8-hexachlorocyclohexane was identified after TLC separation (192); and the chromatographic behavior of chlorotoluron and its metabolites was investigated (193).…”

Pesticides

“…3-Phenoxybenzaldehyde and its 11 metabolites were detected (189); the metabolism of the insecticidally active GABAA receptor antagonist was investigated (190); radioactive cinmethylin and its degradation products were detected (191); 14 C-8-hexachlorocyclohexane was identified after TLC separation (192); and the chromatographic behavior of chlorotoluron and its metabolites was investigated (193). 3-Phenoxybenzaldehyde and its 11 metabolites were detected (189); the metabolism of the insecticidally active GABAA receptor antagonist was investigated (190); radioactive cinmethylin and its degradation products were detected (191); 14 C-8-hexachlorocyclohexane was identified after TLC separation (192); and the chromatographic behavior of chlorotoluron and its metabolites was investigated (193).…”

Pesticides

Role of Human GABAA Receptor β3 Subunit in Insecticide Toxicity

Unique insecticide specificity of human homomeric ρ1 GABAC receptor