Abstract
Abstract The discovery of porphyric insecticides was a direct fallout of the discovery and development of photodynamic herbicides. Tetrapyrrole-dependent photodynamic herbicides are compounds that force green plants to accumulate undesirable amounts of metabolic intermediates of the chlorophyll and heme metabolic pathways, namely, tetrapyrroles. In light, the accumulated tetrapyrroles photosensitize the formation of singlet oxygen that kills treated plants by oxidation of their cellular membranes. Demonstration of the potential for tetrapyrrole accumulation in insects was achieved by spraying T. ni larvae with δ-aminolevulinic acid (ALA) and 2,2-dipyridyl (Dpy). Treated larvae were placed overnight in darkness at 28°C in order to allow for tetrapyrrole accumulation. Extraction of treated, dark-incubated larvae with ammoniacal acetone, followed by spectrofluorometric examination of the larval extract, revealed the accumulation of massive amounts of protoporphyrin IX (Proto). A high degree of correlation wa...
Published Version
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