Abstract
It is known that a single mutation exerts moderate resistance to pesticide, while double mutations (DM) cause severe resistance problem through synergistic effect, and even result in failure application of pesticides. However, little is known about how double mutations would synergistically cause much high resistance level. In this work, computational studies were performed on the interaction of fipronil with N. lugens RDL-GABA receptors, to see how single and double mutations changed receptor structure properties and then conferred distinct resistance levels. The A2′S mutation displayed relative weak influence on receptor structure properties. The R0′Q mutation, which has not been detected in the absence of A2′S, however could deeply alter the electrostatic potential around the inner pore region and significantly narrow the bottom region around -2′Pro. For the DM system, the synergistic effect of two mutations lead to similar pore diameters to the WT system, except for the slightly reduced middle part. Docking study and binding free energy calculation revealed that fipronil displayed binding potencies in the order of WT > A2′S > R0′Q > DM systems, coinciding well with the reported fipronil sensitivity trends and resistance levels.
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