有机磷对抗拟除虫菊酯家蝇的毒力

测定敏感、抗溴氰菊酯(Del-R)、抗氯菊酯(2Cl-R)的家蝇品系对有机磷杀虫剂敌敌畏、辛硫磷及马拉硫磷的LD₅₀,α-乙酸萘酯（α-NA）酯酶动力学,酯酶的活性和酯酶的抑制作用。Del-R和2Cl-R的家蝇品系对三种有机磷杀虫剂的抗性倍数为0.966～7.190倍,均为低抗水平。三个家蝇品系的羧酸酯酶活性水平与抑制中浓度存在正相关性,说明羧酸酯酶在抗拟除虫菊酯家蝇对有机磷杀虫剂的抗性中起一定的作用。     

拟除虫菊酯对家蝇Ca—ATPase和Ca—Mg—ATPase的抑制作用

通过对家蝇神经系统的Ca-ATPase、Ca-Mg-ATPase性质的研究,表明Ca-ATPase、Ca-Mg-AT-Pase反应的适宜pH值分别为7.0-8.5和6.5。适温皆为35-40℃;底物（ATP）最适浓度均为0.5mmol/L。比较测定了家蝇三个品系中两种ATPase的活性及拟除虫菊酯对该酶的抑制作用,实验证明,敏感与Del-R、2Cl-R品系间Ca-ATPase、Ca-Mg-ATPase活力无明显的差异。溴氰菊酯、氯菊酯可部分地抑制敏感品系家蝇Ca-ATPase活性,而对拟除虫菊酯抗性品系Ca-ATPase无抑制作用,从而证明,Del-R、2Cl-B品系Ca-ATPase对拟除虫菊酯的敏感性已明显降低,这可能能是击倒抗性机制之一。实验还表明,拟除虫菊酯对Ca-Mg-ATPase基本上无抑制作用,这说明在家蝇中,Ca-Mg-ATPase并不是拟除虫菊酯的一个靶标位点。     

拟除虫菊酯对家蝇Na-K-ATPase抑制作用的研究

通过对家蝇神经系统Na-K-ATPase性质的研究,表明Na-K-ATPase反应的适宜pH值为7.0～8.0,适温为35～40℃,K_m为0.22 mmol/L,V_max为555.56 nmol/(mg·min)。比较测定了家蝇敏感品系、Del-R、2Cl-R抗性品系的Na-K-ATPase活性及溴氰菊酯和氯菊酯对该酶的抑制作用。实验证明,敏感与抗性品系间Na-K-ATPase活力无显著的差异,但溴氰菊酯和氯菊酯对不同家蝇品系Na-K-ATPase的抑制作用有明显区别,两种拟除虫菊酯可抑制敏感家蝇品系Na-K-ATPase的活性,而对抗性品系无明显的抑制作用。     

云南烟蚜抗药性机制研究

通过比较云南烟蚜敏感品系和抗性品系的解毒酶(α-乙酸萘酯羧酸酯酶、β-乙酸萘酯羧酸酯酶)和靶标酶(乙酰胆碱酯酶)的活力,研究了烟蚜对有机磷、拟除虫菊酯和氨基甲酸酯类杀虫剂抗性的生化机制,并通过酯酶基因扩增检测和钠离子通道突变检测,研究了其抗性的分子机制。结果表明:α-乙酸萘酯羧酸酯酶活力增强是烟蚜对有机磷类、氨基甲酸酯类杀虫剂及拟除虫菊酯类杀虫剂的抗性机制之一;乙酰胆碱酯酶在烟蚜对有机磷杀虫剂抗性中起重要作用;3个抗性品系烟蚜均没有发生酯酶基因扩增,抗拟除虫菊酯品系烟蚜发生了钠离子通道突变。     

家蝇对DDT和拟除虫菊酯的重要抗性机制——中枢神经系统的不敏感性

本文以电生理技术研究了四个品系的家蝇Musca domestica vicina Macq.中枢神经系统(CNS)对DDT、二氯苯醚菊酯和澳氰菊酯的敏感性,结果表明:三种抗性家蝇,DDT高抗品系(DDT-R)、二氯苯醚菊酯高抗品系(2C1-R)和溴氰菊酯高抗品系(Dec-R)的中枢神经系统(CNS)对三种杀虫剂的敏感性与敏感家蝇相比均明显降低,而且,GNS的不敏感性随杀虫剂LD₅₀的升高有逐渐上升的趋势.我们认为,CNS不敏感性是家蝇对DDT相拟除虫菊酯产生抗性的一个重要机制,也是产生交互抗性的一个重要原因.     

家蝇对DDT和拟除虫菊酯的重要抗性机制——中枢神经系统的不敏感性

本文以电生理技术研究了四个品系的家蝇Musca domestica vicina Macq.中枢神经系统(CNS)对DDT、二氯苯醚菊酯和澳氰菊酯的敏感性,结果表明:三种抗性家蝇,DDT高抗品系(DDT-R)、二氯苯醚菊酯高抗品系(2C1-R)和溴氰菊酯高抗品系(Dec-R)的中枢神经系统(CNS)对三种杀虫剂的敏感性与敏感家蝇相比均明显降低,而且,GNS的不敏感性随杀虫剂LD₅₀的升高有逐渐上升的趋势.我们认为,CNS不敏感性是家蝇对DDT相拟除虫菊酯产生抗性的一个重要机制,也是产生交互抗性的一个重要原因.     

家蝇中乙酰胆碱酯酶、羧酸酯酶和多功能氧化酶活性与抗药性的关系

本文对几种抗药性和敏感性家蝇品系的乙酰胆碱酯酶(AChE)、羧酸酯酶及多功能氧化酶(MFO)进行了测定.结果表明:①抗药性品系和敏感性品系的AChE活力差异不大, 有机磷抗性品系的AChE对对氧磷的不敏感性比敏感性家蝇明显增大.②某些抗药性家蝇的羧酸酯酶活力比敏感性家蝇大.③抗药性家蝇的MFO活力(O-脱甲基和环氧化)比敏感性家蝇均有不同程度的增高.④二氯苯醚菊酯抗性家蝇对有机磷有负交互抗性.     

家蝇对拟除虫菊酯抗性机理研究进展

本文概述了家蝇对拟除虫菊酯的抗性机制 ,特别是结合我国室内培育的抗拟除虫菊酯家蝇品系 (Dec R和 2Cl R) ,探讨了Na+通道、神经递质释放、ATPase、蛋白质磷酸化等与家蝇Kdr抗性的关系 ,从多方面证明了神经敏感性降低是家蝇对拟除虫菊酯产生抗性的重要机制。     

家蝇对二氯苯醚菊酯的抗性及增效磷的增效作用Ⅰ:水解代谢

水解代谢在家蝇对二氯苯醚菊酯抗性中起重要作用。正常家蝇和抗性家蝇酯酶在对SV₁、SV₂等抑制剂的敏感性和电泳性质上存在着差异。抗性家蝇酯酶水解二氯苯醚菊酯的活性较高,水解乙酸-α-萘酯的活性相对比正常家蝇要低。SV₁及其在体内的代谢产物SV₂在离体和活体情况下对家蝇酯酶都有明显的抑制作用。SV₁和SV₂抑制相同的酯酶电泳条带,但SV₁的抑制作用相对小一些。SV_t对酯酶的抑制是它在家蝇体内对二氯苯醚菊酯增效的机理之一。     

不同种群棉铃虫三龄幼虫酯酶活性频率分布与抗药性的关系

选用室内饲养的棉铃虫Helicoverpa armigera偃师和湖北2个敏感品系、对辛硫磷高抗的PCP20品系、对氰戊菊酯高抗的YG45品系及1999或2000年采自山东阳谷、河北邯郸和河南安阳的田间高抗种群,江苏徐州、湖北武汉的田间中等抗性水平种群和新疆沙湾的田间敏感种群,采用酶标板酶动力学法测定了各品系（种群）的3龄幼虫个体酯酶活性频率分布和平均酯酶活性。结果表明,偃师敏感品系、湖北敏感品系和新疆沙湾田间敏感种群的酯酶活性个体频率分布相似,三个品系（种群）的平均酯酶活性相近,分别为991、1 138、1 055 mOD·min^-1·larva^-1。室内选育的PCP20抗性品系、YG45抗性品系及山东阳谷、河北邯郸 、河南安阳田间高抗种群的高酯酶活性（活性在1 800 mOD·min^-1·larva^-1以上）个体频率明显高于三个敏感品系（种群）,平均酯酶活性在1 510～2 482 mOD·min^-1·larva^-1之间。江苏徐州、湖北武汉的田间中抗水平种群高酯酶活性个体频率及平均酯酶活性都介于敏感和高抗品系（种群）之间,平均酯酶活性为1 258～1.404 mOD·min^-1·larva^-1。棉铃虫各品系（种群）平均酯酶活性与对拟除虫菊酯类杀虫剂抗性个体频率的相关性要比对有机磷类的高,相关系数分别为0.82和0.42。分析各品系（种群）高酯酶活性个体频率与棉铃虫对拟除虫菊酯类、有机磷类杀虫剂抗性个体频率的相关性,得到相似的结果。考虑到酯酶并不是棉铃虫对拟除虫菊酯抗性的主要机理,建议酯酶活性可作为棉铃虫抗药性生化检测的一个参考指标。本文还讨论了酯酶与棉铃虫对拟除虫菊酯类杀虫剂及有机磷类杀虫剂抗性的关系。     

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。     

Studies on intestinal adenosine triphosphatases. II. Stabilitiies in different rat subcellular fractions.

Subcellular fraction (brush border, mitochondria, microsomes and plasma membranes) are isolated from the rat intestinal epithelial cells. A comparison was made between the effect of cold storage, freeze-thawing, heating and of some chemicals (DMSO, DTT, glycerol, sucrose) on the stability of Mg2+ and (Na+-K+) dependent ATPases in these fractions in order to determine possible difference linked to the localization in the enterocyte. Enzymatic activities were found more stable at -20 degrees C than at +4 degrees C. Microsomal (Na+-K+)-ATPase increased in activity until the 8th day, then declined. Brush border (Na+-K+)-ATPase was the least resistant of all fractions. For Mg2+-ATPase, that from mitochondria was that had lost much more activity (84%) in 15 days at +4 degrees C. With freeze-thawing there was a comparable decrease in all activities (20-35%). by heating between 35 and 60 degrees C, Mg2+-ATPase was shown to be more heat resistant than (Na+-K+)-ATPase. The addition of some stabilizing chemicals (DMSO, glycerol, sucrose) improved the heat stability of the two enzymes: better results were obtained with glycerol for Mg2+-ATPase and sucrose for (Na+-K+)-ATPase. These differences might be due to the compositon in membraine lipids or to the nature of the enzymes studied.     

Age-dependent response to insecticides and enzymatic variation in susceptible and resistant codling moth larvae

Insecticide resistance in the codling moth, Cydia pomonella, partly results from increased metabolic detoxification. The aim of this study was to follow the age variations in larval susceptibility to deltamethrin and teflubenzuron in one susceptible (S) strain, and two resistant (Rv and Rt) ones selected for resistance to deltamethrin and diflubenzuron, respectively. The age variation of the activities of cytochrome P450-dependent monooxygenase (MFO), glutathione S-transferases (GST), and esterases in S and both resistant strains were simultaneously investigated. The highest levels of insecticide resistance were recorded in late instars in both resistant strains, although Rv neonates exhibited enhanced resistance to deltamethrin. The involvement of an additional deltamethrin-specific mechanism of resistance, which could be mainly expressed in early instars, was supported by previous demonstration of a kdr point mutation in the Rv strain. The cross-resistance between deltamethrin and teflubenzuron indicated the involvement of non-specific metabolic pathways in resistance to teflubenzuron, rather than target site modification. A positive correlation between enhanced GST activities and deltamethrin resistance suggested that this mechanism might take place into the adaptive response of C. pomonella to pyrethroids treatments. Enhanced MFO activity was recorded in each instar of the two resistant strains compared to the susceptible one. But these activities were not correlated to the responses to deltamethrin nor to teflubenzuron. In the light of these findings, studying age-dependence of responses to selection is central to the implementation of monitoring tests of resistances, especially if the target instars are difficult to collect in the field.     

Biochemical characterization of hydrolytic and oxidative enzymes in insecticide resistant and susceptible strains of the German cockroach (Dictyoptera: Blattellidae).

We have identified resistance mechanisms in the German cockroach, Blattella germanica (L.), for propoxur and chlorpyrifos in strains of cockroaches that display multiresistance to several organophosphate and carbamate insecticides. The resistance mechanisms involve the combined effects of increased oxidative and hydrolytic metabolism and both strains are resistant to chlorpyrifos and propoxur. Experiments designed to test for similarity in metabolic enzymes suggest that, although the mechanisms involve similar processes, the enzymes responsible for insecticide detoxification are different in the two strains. Both resistant strains exhibited enhanced activity toward alpha-naphtholic esters relative to a standard susceptible strain; however, analysis of the progeny from resistant X susceptible crosses suggests that this general esterase activity is inherited differently than propoxur or chlorpyrifos resistance. Hybrids of the propoxur-resistant strain displayed the highest activity of all cockroaches tested, in contrast to hybrids of the chlorpyrifos-resistant strain, which were similar to the susceptible strain. Native gel electrophoresis of cytosolic preparations provided further evidence for differences in the pattern of hydrolytic enzymes and inheritance of resistance in the two strains. Analysis of components of the cytochrome P450-dependent monooxygenase system and activities toward model substrates indicate that the two resistance mechanisms also involve different oxidative processes. The propoxur-resistant strain displayed significantly higher levels of total cytochrome P450, but no other components were correlated with resistance. In contrast with the chlopyrifos-resistant strain, which was similar to the susceptible strain in all parameters measured, activity toward model substrates was higher in the propoxur-resistant strain than in any of the other strains and hybrids tested.(ABSTRACT TRUNCATED AT 250 WORDS)     

High expression of Cyp6g1, a cytochrome P450 gene, does not necessarily confer DDT resistance in Drosophila melanogaster

Cytochrome P450 monooxygenases, a family of detoxifying enzymes, are thought to confer resistance to various insecticides including DDT. Daborn et al. [Daborn, P., Yen, J.L., Bogwitz, M., Le Goff, G., Feil, et al. 2002. A single p450 allele associated with insecticide resistance in Drosophila. Science 297, 2253-2256.] suggested that the Accord transposable element causes overexpression of a Cyp6g1 allele, which has spread globally and is the basis of DDT resistance in Drosophila melanogaster populations. To determine whether the same phenomenon also operates in other Drosophila strains, we investigated 91-R, 91-C, ry(506), Wisconsin, Canton-SH and Hikone-RH strains. While the LC(50) values for the 91-R and Wisconsin strains are 8348 microg and 447 microg of DDT, respectively, values for the other four strains range between 0.74 to 20.9 microg. As expected, the susceptible ry(506) and 91-C strains have about 16-33-fold lower levels of CYP6G1 mRNA than the resistant 91-R and Wisconsin strains. Surprisingly, CYP6G1 mRNA and protein levels in the Canton-SH and Hikone-RH strains are as high as in the two resistant strains, yet they are as susceptible as the 91-C strain. The susceptible phenotype of the Canton-SH and Hikone-RH strains is not due to mutation in the Cyp6g1 gene; sequence analysis showed that Cyp6g1 alleles of resistant and susceptible strains are very similar and cannot be classified into resistant and susceptible alleles. As observed by others, we also found that only the 5'-upstream DNA of overexpressing alleles of Cyp6g1 has an insertional DNA, which is similar to Accord and Ninja elements. To examine the role of Cyp6g1 in DDT resistance, we substituted the Cyp6g1 allele of the 91-R strain with the allele from the susceptible 91-C strain via recombination and synthesized three recombinant lines. All three lines lacked Accord insertion and showed low expression of Cyp6g1 like the 91-C strain, yet they were as highly resistant as the 91-R strain. We conclude a strain may not have to have Accord insertion in the Cyp6g1 gene and the Cyp6g1 itself may not have to be overexpressed for DDT resistance to occur.     

取食不同寄主植物对棉蚜后代抗药性的影响

测定了5种药剂对棉蚜Aphis gossypii抗氰戊菊酯、吡虫啉品系和敏感品系取食棉花、黄瓜和石榴的后代的毒力,并对它们的后代体内乙酰胆碱酯酶和羧酸酯酶的比活力做了初步探索。结果表明,氰戊菊酯抗性品系取食棉花比取食黄瓜的后代对氰戊菊酯的抗性大76.4倍,对灭多威、氧乐果、硫丹和吡虫啉的抗性也大0.5～4.6倍;取食石榴的后代对5种药剂的抗性介于取食棉花和黄瓜的之间。吡虫啉抗性品系的测定结果与氰戊菊酯抗性品系基本一致。敏感品系取食黄瓜比取食棉花的后代对5种药剂的敏感性更高。3个品系取食不同植物的后代相比,其体内乙酰胆碱酯酶的比活力,取食棉花的为取食黄瓜的2.4～2.8倍;羧酸酯酶的比活力,取食棉花的为取食黄瓜的1.8～2.4倍。证明棉蚜的抗性和敏感品系取食的寄主植物不同,可引起对药剂敏感性的变化。乙酰胆碱酯酶和羧酸酯酶活力的变化均是引起这种变化的重要因素。     

Properties of Escherichia coli mutants with alterations in Mg2+-adenosine triphosphatase.

A mutant Escherichia coli, selected for resistance to the antibiotic neomycin, was unable to utilize nonfermentable carbon sources for growth. Two strains were selected from this mutant on the basis of their ability to grow utilizing succinate as a carbon source. All three strains had approximately equal amounts of the Mg2+-adenosine triphosphatase (ATPase) (EC 3.6.1.3) protein, but the activity of the enzyme differed in each strain. The Mg2+-ATPase from each of the three strains lost activity upon solubilization and appeared to undergo rapid dissociation once solubilized. This dissociation is similar to that described for the wild type after cold exposure.     

Effect of synergists on the oral and topical toxicity of azamethiphos to organophosphate-resistant houseflies (Diptera: Muscidae).

Dermal and oral toxicities of azamethiphos were determined in two organophosphate-resistant and one susceptible strain of houseflies, Musca domestica L. The 594vb strain was 1,967-fold more resistant to azamethiphos when compared with the susceptible Chemical Specialties Manufacturers Association (CSMA) strain by dermal application. When the compound was administered orally to the 594vb strain, we observed only a 15-fold resistance. In contrast, the Yachiyo strain, which show 1,500-fold resistance to diazinon and which has known multiple mechanisms for organophosphate resistance, showed only 6-fold resistance to azamethiphos by topical application and 4-fold resistance by oral administration. Azamethiphos administered dermally and orally was equally toxic to the CSMA and Yachiyo strains. However, when azamethiphos was administered to the 594vb strain, the insecticide was 71 times more toxic orally than by the dermal route. This result indicated involvement of a cuticular penetration factor in the resistance mechanism. The effect on azamethiphos toxicity of piperonyl butoxide (PB), an inhibitor of the monooxygenases, and tributylphosphorotrithioate (DEF), an esterase inhibitor, was investigated in the three strains. Pretreatment of the flies with PB, DEF, or PB+DEF before topical application of azamethiphos resulted in a significant decrease in LD50s in all the strains. The degree of synergism, however, varied depending upon the strains and the synergists. Similar results were obtained when azamethiphos was administered orally following pretreatment of the flies with PB+DEF. We attribute the high level of azamethiphos resistance in the 594vb strain partly to increased degradation by oxidative and hydrolytic enzymes. The hydrolytic enzymes are more important, but other factors including reduced cuticular penetration and insensitive acetylcholinesterase may be involved.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Effects of L-phenylalanine on acetylcholinesterase, (Na+,K+)-ATPase and Mg2+-ATPase activities in adult rat whole brain and frontal cortex

The effect of different L-phenylalanine (Phe) concentrations (0.12-12.1 mM) on acetylcholinesterase (AChE), (Na+,K+)-ATPase and Mg2+-ATPase activities was investigated in homogenates of adult rat whole brain and frontal cortex at 37 degrees C. AChE, (Na+,K+)-ATPase and Mg2+-ATPase activities were determined after preincubation with Phe. AChE activity in both tissues showed a decrease up to 18% (p<0.01) with Phe. Whole brain Na+,K+-ATPase was stimulated by 30-35% (p<0.01) with high Phe concentrations, while frontal cortex Na+,K+-ATPase was stimulated by 50-55% (p<0.001). Mg2+-ATPase activity was increased only in frontal cortex with high Phe concentrations. It is suggested that: a) The inhibitory effect of Phe on brain AChE is not influenced by developmental factors, while the stimulation of Phe on brain Na+,K+-ATPase is indeed affected; b) The stimulatory effect of Phe on rat whole brain Na+,K+-ATPase is decreased with age; c) Na+,K+-ATPase is selectively more stimulated by high Phe concentrations in frontal cortex than in whole brain homogenate; d) High (toxic) Phe concentrations can affect Mg2+-ATPase activity in frontal cortex, but not in whole brain, thus modulating the amount of intracellular Mg2+.