Isolation, characterization and docking analysis of insecticidal compound from Ocimum canum methanolic leaf extracts and its potential against three mosquito vectors

Abstract

Vector management is an important challenge and burden to developing countries. Frequent and indiscriminate application of chemical insecticides for vector control has resulted in the development of resistance and undesirable effects on beneficial organisms. Hence an alternative approach is needed for the mosquito control programme. The present study investigated the insecticidal activity and spectral analysis of Ocimum canum methanol leaf extract against three mosquito species. One out of four fractions (F1-F4), the 4th fraction, revealed showed good insecticidal activity in larva and adult Cx. quinquefasciatus, Ae. aegypti and An. stephensi (0.114, 0.325 and 0.173 ppm) and (1.798, 1.061 and 0.871 ppm). The mortality was found to be dosage dependant. Spectral analysis of ¹H NMR and ¹³C NMR indicates the presence of 6 protons at δH value of 7.45 (s) and 3 protons at δH value of 7.85 (s) ppm. FT-IR identified the possible band near the capping region at 3417.16 cm^-1. LC-MS confirmed the eugenol compound with 99.79% purity at the molecular weight of 164. Further, eugenol docking analysis revealed high homology similarity with insect odorant binding protein 3OGN and AchE protein 2BG9. Overall, the result suggests that isolated eugenol compounds were found to be effective for the eco-friendly management of mosquito vectors. These findings could be useful for designing an efficient mosquitocidal compound in the future.