The deficiency of acetylcholinesterase gene in Aleuroglyphus ovatus increases its susceptibility to phoxim and natural pyrethrins and inhibits its reproduction

Acetylcholinesterase (AChE), an essential neurotransmitter hydrolase, is targeted by organophosphorus and carbamate pesticides, and its number varies among species. In Aleuroglyphus ovatus, a pest mite that endangers health and economy, Aoace1 and Aoace2 have been identified encoding 590 and 460 amino acids, respectively, with characteristic structures, including catalytic triads, oxyanion holes, acyl pockets, peripheral anion, and catalytic anion sites. Phylogenetic analysis reveals distinct clusters for each gene. Expression patterns indicate that Aoace1 predominates in eggs, while Aoace2 is substantially expressed in adults. Experiments on the response of the Aoace genes to phoxim and natural pyrethrins showed that except for the Aoace2 gene responded to natural pyrethrins, all the experimental groups showed a significant increase at LC₃₀ agent concentration. RNA interference with Aoace1 and Aoace2 significantly reduced AChE activity, and increased mortality with LC₃₀ concentrations of phoxim by 15.8 % and 31.5 %, while increased mortality with LC₃₀ concentrations of natural pyrethrins by 43.4 % and 40.4 %, respectively. Knockdown of ace gene significantly decreased fecundity and vitellogenin gene expression. These findings suggest that Aoace1 and Aoace2 are involved in cholinergic and non-cholinergic functions, with Aoace2 being more influential, offering new insights for A. ovatus control strategies.