溴氰菊酯对不同品系家蝇脑突触体膜蛋白磷酸化及ATP酶活性的影响

以敏感品系家蝇和溴氰菊酯抗性品系家蝇(Musca domestica L.)为材料,研究和比较了神经毒剂溴氰菊酯对其脑突触体蛋白磷酸化作用的影响。结果表明,浓度为10^-5 mol/L溴氰菊酯抑制了敏感品系家蝇脑突触体蛋白磷酸化作用,而对抗性品系家蝇脑突触体蛋白磷酸化作用无明显影响。若反应体系中加入2.5×10^-6 mol/L的cAMP显著激活了敏感品系家蝇脑突触体蛋白磷酸化水平,但是当0.6 mmol/Lca²⁺或0.6 mmol/L Ca²⁺加10^-5 mol/L钙调蛋白时明显增强了抗性品系家蝇脑突触体蛋白磷酸化水平,甚至超过了其对敏感品系的作用水平。此外,还发现不同浓度的溴氰菊酯可抑制突触膜上的Na/K-ATP酶和Ca-ATP酶活力,浓度越高抑制作用也越大,并且敏感品系家蝇对溴氰菊酯的敏感度要高于抗性品系。     

神经递质释放与家蝇对拟除虫菊酯抗性关系研究

通过生物测定比较溴氰菊酯、氯菊酯和DDT对Dec-R,2C1-R,DDT-R和敏感(SP)家蝇Musca domestica vicina的毒力,表明三个抗性品系对溴氰菊酯、氯菊酯和DDT均有很高的抗性,抗性倍数分别达120 912,6 032和112.2倍,并对上述三种杀虫剂有明显的交互抗性和抗击倒效应。杂交试验表明Dec-R对溴氰菊酯的抗性是一个隐性基因,电生理试验表明抗性家蝇中枢神经系统(CNS)对药剂敏感度的降低是其产生抗性和交互抗性的重要机制。研究结果表明Dec-R和2CLR家蝇品系中存在有击倒抗性因子(Kdr)。当用1×10^-7mol/L溴氰菊酯对SP家蝇脑突触体在提高K+浓度去极化后,可加强3H-胆碱的释放,而在Dec-R品系中,溴氰菊酯浓度提高到1×10^-4m0l/L也未能加强³H-胆碱的释放,表明溴氰菊酯与神经递质的释放和钠通道亲和性的降低是抗性的主要机制。     

神经递质3H-去甲肾上腺素释放与家蝇对拟除虫菊酯抗性的关系

在用K⁺去极化条件下,研究了溴氰菊酯和氯菊酯分别对敏感、抗溴氰菊酯和抗氯菊酯家蝇Musca domestica 品系脑突触体释放神经递质去甲肾上腺素的影响。结果表明：在用K⁺去极化后,神经递质去甲肾上腺素的释放在抗溴氰菊酯和抗氯菊酯家蝇品系中比敏感品系分别下降47.0%和51.0%;当用10^-5 mol/L溴氰菊酯预处理家蝇脑突触体,用K+去极化后对敏感、抗溴氰菊酯和抗氯菊酯家蝇品系释放去甲肾上腺素的加强作用分别提高80.3%、26.5%和70.5%;用10^-5 mol/L氯菊酯预处理3个家蝇品系的突触体对去甲肾上腺素释放均无加强作用。由此表明,家蝇对溴氰菊酯的抗性是与Na+通道的亲和性降低有关,而氯菊酯的抗性与Na+通道的亲和性关系不大。     

棉蚜抗吡虫啉品系和敏感品系主要解毒酶活性比较

通过生物测定和生物化学方法比较了棉蚜 Aphis gossypii 对吡虫啉抗性（约为7倍）和敏感品系几种主要解毒酶的活性。结果表明：氧化胡椒基丁醚对两个品系均无明显增效作用。抗性品系中羧酸酯酶和谷胱甘肽S-转移酶的比活力均明显高于敏感品系,抗性品系中羧酸酯酶的K_m值也显著高于敏感品系,说明抗性品系羧酸酯酶与底物的亲和力明显高于敏感品系。上述结果证明羧酸酯酶和谷胱甘肽S-转移酶活力增强在棉蚜对吡虫啉的抗性中起重要作用。     

不同杀虫剂选育对家蝇抗药性水平及kdr基因频率的影响

采用杀虫剂（溴氰菊酯和甲基嘧啶磷）筛选及不接触药物自然衰退的方法,研究了家蝇Musca domestica氯氟氰菊酯高抗品系(Cyh-R)对杀虫剂的抗性变化,探讨蝇类抗药性治理的方法。用点滴法测定氯氟氰菊酯对不同家蝇品系的毒力,比较抗药性的变化,结合特异性等位基因PCR扩增（PASA）技术检测了不同家蝇品系的kdr基因频率,探讨kdr基因频率与抗性水平之间的关系。结果表明:甲基嘧啶磷筛选后,氯氟氰菊酯对第2~8代Cyh-R品系的LD₅₀呈递减趋势,从F₀的2.8434 μg/蝇降为F₈的0.4404 μg/蝇,但第8~18代Cyh-R品系的LD₅₀呈逐代递增趋势;溴氰菊酯筛选后,氯氟氰菊酯对Cyh-R品系第2~16代的LD₅₀呈上升趋势,从F₀的2.8434 μg/蝇升至F₁₆的24.3249 μg/蝇;表明了施用有机磷杀虫剂可降低其对氯氟氰菊酯的抗药性,而施用拟除虫菊酯药剂则有助于其对氯氟氰菊酯抗药性的增长;不使用任何杀虫剂也能降低其对氯氟氰菊酯的抗药性,但下降速率低于甲基嘧啶磷。PASA技术检测表明Cyh-R品系的kdr抗性基因频率为88.8%,不经过任何药剂筛选其kdr抗性基因频率下降程度最大,达到69.7%;甲基嘧啶磷筛选后其结果降为78.8%,而经溴氰菊酯筛选后kdr抗性基因频率则明显升高,达到98.9%。通过对kdr抗性基因频率和抗性水平进行相关和回归分析表明kdr抗性基因频率与家蝇对氯氟氰菊酯的LD₅₀呈对数关系,即LD₅₀值高的品系其kdr抗性基因频率相应的也较高。建议在家蝇防治中考虑轮换用药。     

家蝇（Musca domestica）对三氟氯氰菊酯的抗药性遗传

研究了家蝇对三氟氯氰菊酯抗性的遗传,通过对抗性品系和敏感品系杂交后代的抗性遗传分析发现家蝇对三氟氯氰菊酯的抗性受多因子控制,抗性显性率为－0．102,为不完全隐性。其对三氟氯氰菊酯的抗性现实遗传力为0．120。     

二点叶螨对甲氰菊酯、氧乐果和四螨嗪抗药性的选育、衰退和恢复

以兰州吐鲁沟公园的二点叶螨Tetranychus urticae 为敏感品系,分别用氧乐果、甲氰菊酯、四螨嗪喷雾处理15次,其抗性水平分别为38.5、479.8和67.3倍。将抗性品系分别与敏感品系进行杂交和回交的结果表明：抗氧乐果品系的显性系数DRS（R♀×S♂）为0.4700、D_SR（S♀×R♂）为0.4749;抗甲氰菊酯品系的DRS（R♀×S♂）为0.5155, DSR为0.5237;抗四螨嗪品系的DRS为0.3134, DSR为0.2466。表明二点叶螨对这3种药剂的抗性均是由单个不完全显性基因所控制。在连续10个月不接触药剂的情况下,3个抗性品系的抗药性都有下降,抗氧乐果品系的抗性下降最快,只有敏感品系的抗性倍数的3.6倍;抗甲氰菊酯种群的抗性下降较慢,为敏感品系的95.9倍。再经甲氰菊酯、氧乐果、四螨嗪分别连续15次喷雾处理后,3个抗性种群的抗性水平又再度回升,抗甲氰菊酯品系回升较快,抗性为敏感品系的523.5倍,抗四螨嗪品系次之,抗氧乐果的品系抗性恢复最慢。     

运用α-氰代酯荧光底物检测抗性棉蚜羧酸酯酶代谢活性

为了研究抗性和敏感棉蚜Aphis gossypii品系对菊酯类药剂代谢的差异, 本实验合成了溴氰菊酯和高效氯氰菊酯报告荧光底物, 应用这两种底物水解后生成具有荧光化合物的特性,测定了不同品系棉蚜羧酸酯酶的代谢活性。结果表明: 氧化乐果棉蚜抗性和敏感品系羧酸酯酶对溴氰菊酯报告荧光底物的代谢活性分别为10.0和3.4 pmol/min·mg; 对高效氯氰菊酯报告荧光底物的代谢活性分别为4.0和2.4 pmol/min·mg, 抗性品系羧酸酯酶对溴氰菊酯和高效氯氰菊酯报告荧光底物的代谢活性分别为敏感品系的2.9和1.7倍; 溴氰菊酯棉蚜抗性和敏感品系羧酸酯酶对溴氰菊酯报告荧光底物的代谢活性分别为7.6和6.2 pmol/min·mg; 对高效氯氰菊酯报告荧光底物的代谢活性分别为9.3和5.2 pmol/min·mg, 抗性品系羧酸酯酶对溴氰菊酯和高效氯氰菊酯报告荧光底物的代谢活性分别为敏感品系的1.2和1.8倍。这种衍生的报告荧光底物能够用来检测抗性棉蚜羧酸酯酶的水解活性, 表明羧酸酯酶可能参与棉蚜对溴氰菊酯和氧化乐果抗性的形成。     

淡色库蚊对敌百虫抗性的研究——水解酶同敌百虫抗性关系

本文利用离体水解酶测定和聚丙烯酰胺圆盘电泳技术研究了淡色库蚊(Culex pipiens pallensCop.)对敌百虫抗性和水解酶的关系。实验结果表明:(1)抗性品系的羧酸酯酶活力远比敏感的大,并随着对敌百虫抗性水平的升降而增减。(2)酯酶同功酶谱表明,抗性品系有一染色强度很深的特征性羧酸酯酶带E₅,该带在抗性和敏感品系的杂交子代F₁中也发现,但强度不如抗性品系,这同F₁代的抗性水平下降相平行。(3)无论胆碱酯酶或是磷酸酯酶活力,在二品系中未见到明显差异。抗性和敏感品系的胆碱酯酶对敌百虫和敌敌畏的敏感度相似。     

棉铃虫对菊酯类杀虫剂抗药性的神经电生理研究

本文用神经电生理方法研究了氰戊菊酯、氯菊酯对棉铃虫Helicoverpa armigera(Hubner)相对敏感(HD-S)种群和抗性(HJ-R)种群的神经毒理作用。10^-5mol/L的氰戊菊酯、10^-5mol/L的氯菊酯诱发腹神经索自发发放频率的增加和随后的神经传导阻断,10-^-5mol/l的氯菊酯抑制HD-S种群的神经兴奋,直接阻断神经传导。以兴奋时间、神经传导阻断时间、对药剂作用反应时间的个体分布频率3个参数比较两种群对杀虫剂的反应,均发现HJ-R种群比相对HD-S种群表现了2～3倍的神经不敏感机制,并且发现这种神经不敏感机制对毒理I型和Ⅱ型拟除虫菊酯同样有作用。     

Biotic performances of thelytokous and arrhenotokous strains of <Emphasis Type="Italic">Thrips tabaci</Emphasis> (Thysanoptera: Thripidae) showing resistance to cypermethrin

Two distinct reproductive types of Thrips tabaci Lindeman, one thelytokous and one arrhenotokous, have been shown to develop target-insensitive cypermethrin resistance conferred by sodium channel mutation (T929I). In this study, we examined the relation between cypermethrin resistance and biotic performances of these reproductive types. Among the T. tabaci strains examined, resistant arrhenotokous strains became adults more quickly after hatching than resistant thelytokous strains. Female adults of resistant thelytokous strains exhibited shorter longevity and oviposited fewer eggs than those of susceptible strains of the same reproductive type. Resistant arrhenotokous strains exhibited similar longevity and fecundity to susceptible thelytokous strains. We further examined the relation between reproductive types and T929I using a total of 85 strains. All 53 arrhenotokous strains encoding T929I were judged to be cypermethrin resistant. Among 32 thelytokous strains with T929I, only four were regarded as cypermethrin resistant. Based on the results, we discuss possible mechanisms accounting for the recent prominence of arrhenotoky T. tabaci in Japan.     

甜菜夜蛾对氰戊菊酯和顺式氯氰菊酯的抗性机理

通过对活体增效作用进行测定和生化分析,探讨了甜菜夜蛾对氰戊菊酯和顺式氯氰菊酯的抗性机理.结果表明:增效醚(PBO)、增效磷(SV1)、磷酸三苯酯(TPP)和顺丁烯二酸二乙酯(DEM)对甜菜夜蛾抗氰戊菊酯品系(Fen-R)和敏感品系(S)的增效倍数之比分别为10.2、7.8、12.5和1.1,对抗顺式氯氰菊酯品系(Cyp-R)和敏感品系(S)的增效倍数之比分别为21.6、15.5、8.6和1.2.PBO、SV1和TPP对氰戊菊酯和顺式氯氰菊酯均有显著增效作用,表明多功能氧化酶和羧酸酯酶均参与了甜菜夜蛾对氰戊菊酯和顺式氯氰菊酯的抗性.Fen-R品系和Cyp-R品系4龄幼虫羧酸酯酶的活性分别是S品系的1.9和2.2倍,而谷胱甘肽-S-转移酶活性与S品系差异不显著,表明羧酸酯酶活性的提高是甜菜夜蛾对氰戊菊酯和顺式氯氰菊酯产生抗性的重要原因,谷胱甘肽-S-转移酶与两种药剂的抗性无关.Fen-R品系和Cyp-R品系的Na-K-ATPase活性与S品系均无显著差异,但在相同浓度下氰戊菊酯和顺式氯氰菊酯对S品系Na-K-ATPase的抑制作用显著高于抗性品系,表明抗性品系Na-K-ATPase对杀虫剂的敏感性已明显降低.     

Monooxygenases Play Only a Minor Role in Resistance to Synthetic Pyrethroids in the Cattle Tick, Boophilus Microplus

We investigated the role of monooxygenases in resistance to synthetic pyrethroids (SPs) in the cattle tick, Boophilus microplus. We found that monooxygenases play only a minor role in resistance to SPs in both resistant and susceptible strains of B. microplus. We blocked the monooxygenases with piperonyl butoxide (PBO) and simultaneously applied the SPs, flumethrin and cypermethrin to larval B. microplus. PBO increased the effect of flumethrin (synergism ratios 2.7–8.9) more than it increased the effect of cypermethrin (synergism ratios 1.9–3.1). Of the four strains tested, Parkhurst, which is resistant to SPs, was the least affected by the addition of PBO (synergism ratios after cypermethrin was applied 1.9; after flumethrin 2.7) whereas N.R.F.S., the strain susceptible to SPs, was the most affected by synergism between PBO and SPs (synergism ratio after cypermethrin was applied 3.1; after flumethrin 8.9). We hypothesize that B. microplus lacks monooxygenases capable of conferring resistance to SPs because it and its recent ancestors were blood-feeders rather than herbivores.     

Factors affecting the toxicity of diazinon to Musca domestica L

Processes affecting the toxicity of diazinon to a susceptible and a resistant strain of houseflies were examined. More evidence was obtained to show that slower penetration of diazinon through the integument of resistant flies is a cause of resistance. Small amounts of two decomposition products were found in both strains. The decomposition mechanisms, in these strains were differently distributed and, although detoxication of diazinon in the two strains is quantitatively similar and small, it may contribute to resistance. Traces of diazoxon were detected when diazinon was incubated with tissue extracts of either strain. Tissue extracts of resistant, but not of susceptible, flies decomposed significant amounts of diazinon in 1 hr. and the ability to decompose diazoxon seems to be an important cause of resistance. Tissues of both strains sorbed diazinon from aqueous solution similarly; the quantities sorbed were large and suggest that sorption may increase the amount of poison needed inside the insects to kill, by between five and forty times.     

Identification of factors responsible for insecticide resistance in Helicoverpa armigera

Moth larvae (Helicoverpa armigera Hübner) collected from field crops were tested for resistance to cypermethrin, fenvalerate, endosulfan, monocrotophos and quinolphos. Larvae were treated with a dose of the pesticide that would kill 99% of the susceptible insects. The percent survival of the resistant strains was determined. Highest seasonal average percentage survival was recorded by fenvalerate (65.0%) followed by cypermethrin (62.4%). Acetylcholinesterase of resistant larvae was less sensitive to monocrotophos and methyl paraoxon. Resistant larvae showed higher activities of esterases, phosphatases and methyl paraoxon hydrolase compared with susceptible larvae. The presence of high activity of esterases was attributed to appearance of extra bands of esterases in native PAGE. The presence of P-glycoprotein expression was detected in resistant larvae using P-gp antibodies; this was not detected in the susceptible larvae. Our results indicate that the high level of resistance detected in the field pests could be because of a combined effect of decreased sensitivity to AChE, higher levels of esterases, phosphatases and the expression of P-gp.     

Insecticide resistance in Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) collected from horticulture and cotton in Turkey

Abstract  The sensitivity of three reference strains of the western flower thrips Frankliniella occidentalis from Australia, Israel and Turkey was evaluated and their response did not differ significantly and so they are considered typical of susceptible F. occidentalis . Field strains of F. occidentalis from Antalya, Turkey were tested for resistance against five classes of insecticide during the years 2001–2003. Difference in the field strains response to abamectin, endosulfan, malathion and methomyl was low (<3.0-fold) and in many cases not significant. However, all strains were likely resistant to cypermethrin (1.6- to 12.2-fold at LC₅₀ (lethal concentration)). The established agricultural practices and ecosystem patterns in the Antalya province are assumed to contribute to delay in insecticide resistance in F. occidentalis .     

Impact of sequential exposure of <Emphasis Type="Italic">Beauveria bassiana</Emphasis> and imidacloprid against susceptible and resistant strains of <Emphasis Type="Italic">Musca domestica</Emphasis>

Insecticide resistance in the housefly Musca domestica is hampering pest management. However, entomopathogens, possibly in combination with insecticides, may have control potential against resistant houseflies. This study investigates the combination of the entomopathogenic fungus Beauveria bassiana and the neonicotinoid insecticide, imidacloprid against a susceptible and a resistant housefly strain, respectively under laboratory conditions. The fungus and insecticide were tested alone and in combinations at LC₃₀. Significant and synergistic interactions between B. bassiana and imidacloprid were observed with increased mortality rates of the combined treatment as compared to individual treatment in housefly strains 772a (susceptible) and 766b (resistant). Significant differences in the GST and P450 activities for both strains were found. Female 766b flies caused 15- to 237-fold increases in gene expression of xenobiotic response genes for B. bassiana and 23- to 120-fold changes for imidacloprid. The combination of B. bassiana and imidacloprid caused significant synergistic interaction when applied against two housefly strains irrespective of order of application. The effect was highest when the insecticide was applied first. The resistant housefly strain had elevated detoxification enzymes and higher expression of detoxification genes, but showed the same level of susceptibility to the combined fungus/insecticide treatment as the susceptible strain.     

Cyclodiene resistance at the insect GABA receptor/chloride channel complex confers broad cross resistance to convulsants and experimental phenylpyrazole insecticides

This study investigated the pharmacological profile of cyclodiene resistance in Drosophila melanogaster and the mode of action of a phenylpyrazole insecticide, JKU 0422. Toxicological studies were performed with a sucrose bait assay containing the synergist piperonyl butoxide. The Maryland strain of D. melanogaster was resistant to dieldrin, lindane, picrotoxinin, TBPS, p-CN-TBOB, and JKU 0422. In contrast, this strain was susceptible to cypermethrin and the avermectins MK-243, abamectin, and abamectin 8,9-oxide. Neurophysiological studies showed that both TBPS and JKU 0422 reversed the inhibitory action of GABA in central nerve preparations from susceptible D. melanogaster. However, the response to these compounds was attenuated in nerve preparations from the resistant Maryland strain, which indicated that the resistance was expressed at the level of the nerve. Topical toxicity bioassays with JKU 0422 on susceptible (CSMA) and cyclodiene-resistant (LPP) strains of German cockroach revealed a resistance ratio of 553-fold for this compound. These studies demonstrate that cyclodiene resistance in D. melanogaster confers broad cross resistance toward compounds thought to block the GABA-gated chloride channel in a manner similar to the cyclodienes. Moreover, the cross resistance extends to JKU 0422, and resistance to this compound is also present in a strain of cyclodiene-resistant German cockroach. These toxicological results, along with the neurophysiological studies, confirm that JKU 0422 has a mode of action that is similar to the cyclodienes and TBPS. These findings suggest that the introduction and use of new chloride channel antagonists as insecticides should be managed carefully in order to prevent the rapid development of resistance in the field. © 1994 Wiley-Liss, Inc.     

家蝇对敌百虫的抗性及增效磷(SV_1)对表皮穿透作用的增效机制研究(英语)

增效磷(SV_1)对抗敌百虫家蝇有明显的增效作用,能够延缓家蝇对敌百虫抗性的发展.测定了敌百虫对一个敏感和两个抗性品系家蝇的表皮穿透作用,结果表明抗性品系家蝇对敌百虫的穿透速率比敏感品系低,说明表皮穿透作用的降低和体内解毒速率的增强在家蝇对敌百虫的抗性中起重要作用.SV_1与敌百虫混用后,穿透速率明显提高,敌百虫对家蝇表皮穿透速率的增强和体内代谢速度的降低是SV_1在抗性家蝇体内对敌百虫增效的机制之一.