Author:
Duque Jonny E.,Urbina Diana L.,Vesga Luis C.,Ortiz-Rodríguez Luis A.,Vanegas Thomas S.,Stashenko Elena E.,Mendez-Sanchez Stelia C.
Abstract
AbstractSearching for new bioactive molecules to design insecticides is a complex process since pesticides should be highly selective, active against the vector, and bio-safe for humans. Aiming to find natural compounds for mosquito control, we evaluated the insecticidal activity of essential oils (EOs) from 20 American native plants againstAedes aegyptilarvae using bioassay, biochemical, and in silico analyses. The highest larvicide activity was exhibited by EOs fromSteiractinia aspera(LC50 = 42.4 µg/mL),Turnera diffusa(LC50 = 70.9 µg/mL),Piper aduncum(LC50 = 55.8 µg/mL),Lippia origanoides(chemotype thymol/carvacrol) (LC50 = 61.9 µg/mL),L. origanoides(chemotype carvacrol/thymol) (LC50 = 59.8 µg/mL),Hyptis dilatata(LC50 = 61.1 µg/mL),Elaphandra quinquenervis(LC50 = 61.1 µg/mL), andCalycolpus moritzianus(LC50 = 73.29 µg/mL) after 24 h. This biological activity may be related to the disruption of the electron transport chain through the mitochondrial protein complexes. We hypothesized that the observed EOs' effect is due to their major components, where computational approaches such as homology modeling and molecular docking may suggest the possible binding pose of secondary metabolites that inhibit the mitochondrial enzymes and acetylcholinesterase activity (AChE). Our results provided insights into the possible mechanism of action of EOs and their major compounds for new insecticide designs targeting the mitochondria and AChE activity inA. aegyptifor effective and safe insecticide.
Publisher
Springer Science and Business Media LLC
Cited by
18 articles.
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