ABSTRACT
The need for targeted pest control strategies has led to the development of juvenile hormone (JH) mimics that selectively disrupt the life cycles of harmful insect species. Present study focuses on the synthesis, characterization and evaluation of sulfonyl-acetohydrazide derivatives (H1-H8) as novel JH mimics on two different insect species, with an emphasis on their insect-specific action. The yellow fever mosquito, Aedes aegypti and cabbage leaf borer, Spodoptera litura, were selected for this investigation. Our results indicate that while these compounds exhibit negligible effects on the development of Aedes aegypti, they demonstrate a potent and specific action against Spodoptera litura. The sulfonyl-acetohydrazide derivatives induced significant developmental abnormalities and increased mortality rates in Spodoptera litura larvae, leading to a marked disruption in their life cycle. Additionally, Density Functional Theory methods were employed to elucidate the electronic structure and corelate the reactivity of the synthesized compounds with the insect growth regulating activity (IGR). The DNA-binding study of synthesized JH analogs has been carried out using UV-vis spectroscopy for toxicity assessment against biomolecule DNA. All the synthesized JH analogs (H1-H8) show IGR action and exhibit better reactivity and reduced toxicity as compared to the commercial in use IGR, pyriproxyfen.