The roles of the biochemical and molecular changes in resistance of Tetranychus urticae populations selected with spiromesifen+abamectin mixture

IF 1.3 3区农林科学 Q2 ENTOMOLOGY

Systematic and Applied Acarology Pub Date : 2024-01-08 DOI:10.11158/saa.29.1.3

R. Ay, Bayram Çevik, Safiye Alsay

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引用次数: 0

Abstract

The physiological changes in Tetranychus urticae selected with spiromesifen+abamectin (S+A) mixture formulation were demonstrated by biochemical and molecular methods. The susceptible (GSS) population of T. urticae, was selected with S+A and made resistant with increasing doses of the mixture formulation. The resistant population was divided into two, and selection pressure was terminated in one population which is named IR (Interrupt resistant). In the other population, the selection with S+A was continued and the population named IR2. Activities of some detoxification enzymes (esterase, glutathione-S-transferase (GST) and cytochrome P450) were investigated in the GSS and IR populations. The activity of esterase, GST and P450 enzymes were increased by 1.77, 2.57 and 2.58-fold, respectively, in the IR population compared to the GSS population. Also, investigation of synergistic effects with esterase inhibitor (TTP), GST inhibitor (DEM) and P450 inhibitor (PBO) in this population revealed that all three synergists showed significant synergistic effects in IR population. In molecular studies, when the population was screened for the presence of two previously identified glutamate channel mutations (G314D and G326E) by qPCR with TaqMan probes no mutations could be detected in glutamate channels. and the CTD domain of acetyl coenzyme-A carboxylase (ACCase). Furthermore, possible genetic mutations in the biotin carboxylase domain (BCD) and carboxyl transferase domain (CTD) of the ACCase target sites were determined by sequencing. Although a single amino acid mutation G37D in the BCD of the ACCase gene of the IR and IR2 populations was detected, its association with spiromesifen resistance was not confirmed. The results indicated that increased detoxification and possible target site mutation may be responsible for the S+A resistance in the IR and IR2 populations.

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使用螺旋霉素+阿维菌素混合物选育的荨麻卷叶螟种群抗性的生化和分子变化作用

通过生化和分子方法证明了使用螺旋霉素+阿维菌素（S+A）混合制剂筛选出的荨麻蠹蛾的生理变化。用 S+A 选育出易感（GSS）的 T. urticae 群体，并通过增加混合制剂的剂量使其产生抗性。抗性种群被分为两个，其中一个种群的选择压力被终止，命名为 IR（中断抗性）。在另一个群体中，继续用 S+A 进行选择，该群体被命名为 IR2。研究了 GSS 和 IR 群体中一些解毒酶（酯酶、谷胱甘肽-S-转移酶（GST）和细胞色素 P450）的活性。与 GSS 群体相比，IR 群体中酯酶、谷胱甘肽转移酶和 P450 酶的活性分别增加了 1.77 倍、2.57 倍和 2.58 倍。此外，对该人群中酯酶抑制剂（TTP）、GST 抑制剂（DEM）和 P450 抑制剂（PBO）的协同效应进行调查后发现，这三种增效剂在 IR 人群中均显示出显著的协同效应。在分子研究中，当使用 TaqMan 探针通过 qPCR 筛选人群是否存在之前确定的两种谷氨酸通道突变（G314D 和 G326E）时，在谷氨酸通道和乙酰辅酶-A 羧化酶（ACCase）的 CTD 结构域中均未检测到突变。此外，还通过测序确定了 ACCase 目标位点的生物素羧化酶结构域（BCD）和羧基转移酶结构域（CTD）中可能存在的基因突变。虽然在 IR 和 IR2 群体的 ACCase 基因 BCD 中检测到了一个单氨基酸突变 G37D，但其与螺旋霉素抗性的关系并未得到证实。结果表明，解毒能力的增强和可能的靶点突变可能是 IR 和 IR2 群体对 S+A 产生抗性的原因。

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来源期刊

Systematic and Applied Acarology ENTOMOLOGY-

CiteScore

2.20

自引率

33.30%

发文量

152

期刊介绍： Systematic and Applied Acarology (SAA) is an international journal of the Systematic and Applied Acarology Society (SAAS). The journal is intended as a publication outlet for all acarologists in the world. There is no page charge for publishing in SAA. If the authors have funds to publish, they can pay US$20 per page to enable their papers published for open access. SAA publishes papers reporting results of original research on any aspects of mites and ticks. Due to the recent increase in submissions, SAA editors will be more selective in manuscript evaluation: (1) encouraging more high quality non-taxonomic papers to address the balance between taxonomic and non-taxonomic papers, and (2) discouraging single species description (see new special issues for single new species description) while giving priority to high quality systematic papers on comparative treatments and revisions of multiple taxa. In addition to review papers and research articles (over 4 printed pages), we welcome short correspondence (up to 4 printed pages) for condensed version of short papers, comments on other papers, data papers (with one table or figure) and short reviews or opinion pieces. The correspondence format will save space by omitting the abstract, key words, and major headings such as Introduction.