A novel point mutation of acetylcholinesterase in a trichlorfon-resistant strain of the oriental fruit fly Bactrocera dorsalis (Diptera: Tephritidae)

Acetylcholinesterase (AChE) is the target enzyme of organophosphorus and carbamate insecticides. We applied trichlorfon to select resistant strains of Bactrocera dorsalis Hendel in the laboratory. Two trichlorfon-resistant strains, the Tri-R1 strain with 18.23-fold resistance and the Tri-R2 strain with 69.5-fold resistance, were obtained. Three known mutations, I159V, G433S and Q588R were identified in AChE of two resistant strains, and a novel mutation, G365A, was identified in the more resistant Tri-R2 strain. The modeled 3-D-structure of AChE showed that G365A and G433S are closely adjacent in the gorge above the catalytic site S235. Mutations of G365A and G433S resulted in a steric hindrance by stronger Van der Waals force between two sites. Such a minor structural change might block insecticides from squeezing through the gorge to reach the active site, but not the natural substrate. Compared with the susceptible strain, the AChE activity of the Tri-R1 strain and the Tri-R2 strain was 0.87- and 0.67-fold, the K m value of the Tri-R1 strain and the Tri-R2 strain was 0.11- and 0.10-fold, the V max value of two resistant strains was 0.26- and 0.15-fold, whereas, the I 50 to trichlorfon significantly increased by 9.07- and 13.19-fold. These results suggested that the novel point mutation G365A of AChE might be involved in increasing resistance to trichlorfon in the resistant strain of oriental fruit fly.