Abstract
AbstractMosquitoes are vectors for a variety of infectious illnesses, and chemical synthetic insecticides have made it possible to control them effectively. Mosquito repellents are a typical means of keeping mosquitos at bay. Because of its main effectiveness of skin permeability, N,N-Diethyl-meta-toluamide (DEET) is one of the most extensively used mosquito repellents but a dangerous synthetic chemical. DEET was identified about a decade ago to inhibit mosquito's Odorant Binding Protein 1 (OBP1), impairing the mosquito's ability to recognise the host body odour. OBP1 has been identified as a possible target for the development of new mosquito repellents since its discovery. Essential oils from different plants, on the other hand, have been used to repel mosquitos since antiquity. One essential oil from the Curcuma longa (Zingiberales: Zingiberaceae) rhizome display mosquito repellent properties, according to the literature. Furthermore, one of the phytochemicals found in abundance in C. longa essential oil, ar-turmerone, exhibits mosquito repellency as comparable to synthetic DEET. Till date studies on in-silico interaction of natural ar-turmerone with OBP1, which we depict in our current work are scarce. Further, there exist no published reports demonstrating the literary evidence on detailed insights of interaction of DEET with OBP1 along with Molecular Dynamics (MD) simulation studies. We further performed detailed molecular investigations using pharmacophore analysis of ar-turmerone and compared it with DEET, where our findings in the current manuscript unveils for the first time that ar-turmerone is a functional, structural and pharmacophoric analogue of DEET.
Publisher
Springer Science and Business Media LLC
Reference60 articles.
1. Gertler, S. N,N-Diethylbenzamide as an insect repellent. Google Patents 1 (1944).
2. Deletre, E., Martin, T., Duménil, C. & Chandre, F. Insecticide resistance modifies mosquito response to DEET and natural repellents. Parasit. Vectors 12, 1–10 (2019).
3. Abd-Ella, A. et al. The repellent DEET potentiates carbamate effects via insect muscarinic receptor interactions: An alternative strategy to control insect vector-borne diseases. PLoS ONE 10, e0126406 (2015).
4. Swale, D. R. & Bloomquist, J. R. Is DEET a dangerous neurotoxicant?. Pest Manag. Sci. 75, 2068–2070 (2019).
5. Costanzo, S. D., Watkinson, A. J., Murby, E. J., Kolpin, D. W. & Sandstrom, M. W. Is there a risk associated with the insect repellent DEET (N, N-diethyl-m-toluamide) commonly found in aquatic environments?. Sci. Total Environ. 384, 214–220 (2007).
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