不同地区尖音库蚊复合组抗药性的分子特征

通过生物测定、蛋白质电泳和单个蚊虫基因组Southern杂交三种方法对三个不同地区的尖音库蚊复合组蚊虫Culexpipienscomplex的抗性水平、抗性相关基因在种群中的分布及抗性分子特征进行了研究。采自山东高密、北京和云南昆明的尖音库蚊复合组蚊虫 4龄幼虫对敌敌畏、对硫磷 (有机磷类 )和仲丁威 (氨基甲酸酯类 )的抗性水平的测定结果表明 :与北京敏感系相比 ,高密种群对敌敌畏、对硫磷的抗性水平很高 ,北京种群对敌敌畏的抗性水平也很高 (约 30倍 ) ,三个种群对仲丁威的抗性与北京敏感系没有明显的区别。淀粉电泳的结果表明 :高密和北京种群中存在过量产生的非特异性酯酶Estβ11,昆明种群中存在过量产生的非特异性酯酶Estα2和Estβ2 ,单个蚊虫基因组Southern杂交的结果表明 :酯酶Estβ11、Estα2和Estβ2的结构基因发生了不同程度的扩增导致酯酶的过量产生     

不同地区尖音库蚊复合组抗药笥的分子特征

通过生物测定、蛋白质电泳和单个蚊虫基因组Southern杂交三种方法对三个不同地区的尖音库蚊复合组蚊虫Culex pipiens complex的抗性水平、抗性相关基因在处群中的分布及抗性分子特征进行了研究。采自山东高密、北京和云南昆明的尖音库蚊复合组蚊虫4龄幼虫对敌敌畏的抗性水平也很高（约30倍）,三个种群对仲丁威的抗性与北京第三系没有明显的区别。淀粉电泳的结果表明：高密和北京种群中存在过量产生的非特异性酯酶Estβ1^1,昆明种群中存在过量产生的非特异性酯酶Estα2和Estβ2,单个蚊虫基因组Southern杂交的结果表明：酯酶Estβ1^1、Estα2和Estβ2的结构基因发生了不同程度的扩增导致酯酶的过量产生。     

中国尖音库蚊复合组杂交的研究

本文对分布在我国的尖音库蚊复合组的尖音库蚊,致倦库蚊和淡色库蚊进行杂交研究,结果表明致倦库蚊与尖音库蚊及淡色库蚊以及两者尖交可以产生能育的Ｆ１代,它们之间没有传统意义上的生殖隔离,致倦库蚊应为尖音库蚊是的一个亚种,而不是如国外有些学者认为的独立种,另外,杂种Ｆ２代成活率很低,这有可能是尖音库蚊（广义）种下分化在遗传学上的反映。     

不同地理种群尖音库蚊复组抗性动态和遗传多样性

通过生物测定、蛋白质电泳和等位酶分析等方法对5个不同地区的尖音库蚊复组蚊虫Culex pipiens complex的抗性水平、种群中非特异性酯酶基因表型分布和种群遗传多样性进行了研究。不同地理种群的抗性检测结果表明：5个种群分别对敌敌畏、对硫磷、氯菊酯和溴氰菊酯的抗性较高,对残杀威、巴沙和胺菊酯的抗性较低;朝阳种群对敌敌畏抗性最高（55.7倍）,武汉种群次之;佛山种群对氯菊酯和溴氰菊酯的抗性比率高达123倍和23.9倍。酯酶电泳结果显示：5个种群间酯酶多态性存在差异,广州和佛山两个库蚊种群酯酶表型多态性最高,有B1,A2-B2,A8-B8,A9-B9,B10和A11-B11等6种酯酶表型,提示高活性酯酶是主要的抗性机制。群体遗传学研究表明：每位点平均等位基因数（A）为2.76,平均多态位点百分率（P）为64.45％,平均预期杂合度（He）为0.1943,种群间遗传分化系数（Fst）值为0.10,平均基因流(Nm)＝2.57,说明5个种群有较丰富的遗传多样性,种群内遗传多样性高于种群之间。据此推测,种群间可以通过迁徙等方式进行基因交流,使得遗传结构、抗性水平朝一致性方向变化。本研究对我国尖音库蚊复组蚊虫的综合治理有一定指导意义。     

中国尖音库蚊复合组支序系统学的研究

本文应用支序系统学原理和方法,采用形态和生态性状,对尖音库蚊复合组的４个成员进行了支序系统学研究,提出在尖音库蚊复合组中,尖音库蚊是原始的类群,骚扰库蚊为较进化的类群,而致倦库蚊和淡色库蚊是最为进化的类群。     

我国尖音库蚊复合组蚊虫的杂交及其与Wolbachia感染的关系

为了了解我国尖音库蚊复合组蚊虫间杂交卵的不孵化现象和明确该现象与共生微生物Wolbachia感染的关系,对该复合组实验室种群4个亚种进行了笼内杂交和抗生素处理后的杂交。试验表明: 在复合组蚊虫中骚扰库蚊Culex pipiens molestus与淡色库蚊Cx. Pipiens pallens、致倦库蚊Cx. Ipiens quinquefasciatus与尖音库蚊Cx. Pipiens pipiens之间存在有单向胞质不融合现象,骚扰库蚊的雄虫与尖音库蚊、致倦库蚊和淡色库蚊的雌虫杂交卵的孵化率分别为0.06%、0.46%和0.19%;该胞质不融合现象可以通过抗生素处理而消除,处理后骚扰库蚊雄虫与其余3个亚种雌虫F₃杂交卵的孵化率均有提高,分别为89.49%（t=3.90×10^-28＜t_0.01=2.704）、23.39%（t=9.15×10^-7＜t_0.01=2.660_）和22.27%（t=5.08×10^-4＜t_0.01=2.750）,并可因抗生素处理而产生新的不融合类型。     

中国尖音库蚊复合组生物分类学的研究：雄蚊阳茎DV／D的数值分析

本文报道了我国23个不同地区的尖音库蚊复合组(Culex pipiens complex)雄蚊阳茎DV/D的数值分析结果。经过多元相关与回归分析发现,雄蚊阳茎DV/D的比值与纬度、经度之间存在着负相关的关系,并建立了DV/D与纬度的单元回归方程,以及DV/D与纬度、经度之间的多元回归方程。根据DV/D=0.5为区分淡色库蚊和致倦库蚊的一般标准,从回归方程中求得北纬30°左右为我国淡色库蚊和致倦库蚊地理分布的理论分界线。     

不同地理株尖音库蚊复组雄蚊尾器的光学镜和扫描电镜观察

本研究对烟台、济南、徐州、镇江、杭州、福州及厦门等不同纬度地区尖音库蚊复组的雄蚊尾器在光学镜下进行了观察。结果表明:在杭州以南地区,致倦库蚊为本复组的唯一成员,属南方组;而徐州及镇江地区的本复组成员中,尚包括淡色库蚊及中间型,与武汉地区的类似,统属中介组。济南以北地区的本复组蚊虫,仅有淡色库蚊,属于北方组。 通过光学显微镜和扫描电镜观察,进一步揭示了本复组雄蚊尾器的形态随纬度发生递交的现象;阳茎侧板中叶的形态特征是我国古北界与东洋界交错过渡地带本复组蚊虫的可靠鉴别依据。在过渡地带,所谓纯的淡色库蚊或致倦库蚊是很难得到的,这一假想在蚊虫抗性试验中具有实际意义。在扫描电镜下,还发现了在光学显微镜下未见过的一些特征,它们在分类学上的地位及其生理意义有待进一步探讨。但是,尾器的感觉毛数量多、分布广,可能在完成交配行为中具有重要意义。     

尖音库蚊复合组杂交子一代4龄幼虫形态性状的研究

对我国尖音库蚊复合组（Culex pipiens complex）中的尖音库蚊Cx. Pipiens pipiens、淡色库蚊Cx. Pipiens pallens和致倦库蚊Cx. Pipiens quinquefasciatus之间杂交的F₁代幼虫形态进行了方差和典型变量分析,结果发现杂交组F₁代4龄幼虫在呼吸管指数、1-S第1对毛和第2对毛的分枝数3个性状上与亲本有明显的差异,而且介于两亲本之间。     

几株球形芽孢杆菌二元毒素基因的检测及对敏感和抗性尖音库蚊的毒性

根据Bacillus sphaericus 2362二元毒素基因核苷酸序列合成的一组寡聚核苷酸为引物,通过PCR扩增出1.1 kb的DNA片段作探针检测了C₃-41、IAB881、IAB872、BS-197和lPl-G菌株中二元毒素基因。Southern杂交表明C₃-41、IAB881、IAB872和BS-197菌株中3.5kb Hind III及LPl-G中4.7kb Hind III的酶切片段分别带有与探针有高度同源性的二元毒素基因。SDS-PAGE和Western印迹杂交表明所有菌株都能产生41.9kD和51.4kD的毒素蛋白。C₃.41、IAB881、BS.197和2362的全发酵液和碱抽提液对敏感尖音库蚊Culex pipienssubsp.Pipiens幼虫毒性高,但对抗性幼虫几乎无毒,LPl-G对敏感和抗性蚊幼虫具有相同的中度毒杀作用;IAB872对敏感幼虫毒性高,对抗性幼虫的毒力同LPl-G相似。这两株菌对抗性蚊幼虫的毒性可能是由Mtx毒素蛋白所导致的。     

Independent duplications of the acetylcholinesterase gene conferring insecticide resistance in the mosquito Culex pipiens

Gene duplication is thought to be the main potential source of material for the evolution of new gene functions. Several models have been proposed for the evolution of new functions through duplication, most based on ancient events (Myr). We provide molecular evidence for the occurrence of several (at least 3) independent duplications of the ace-1 locus in the mosquito Culex pipiens, selected in response to insecticide pressure that probably occurred very recently (<40 years ago). This locus encodes the main target of several insecticides, the acetylcholinesterase. The duplications described consist of 2 alleles of ace-1, 1 susceptible and 1 resistant to insecticide, located on the same chromosome. These events were detected in different parts of the world and probably resulted from distinct mechanisms. We propose that duplications were selected because they reduce the fitness cost associated with the resistant ace-1 allele through the generation of persistent, advantageous heterozygosis. The rate of duplication of ace-1 in C. pipiens is probably underestimated, but seems to be rather high.     

Preliminary report of knockdown resistance in Culex pipiens pallens and Aedes koreicus from Korea

Pyrethroid insecticides have been effective and powerful for controlling mosquitoes. However, abuse of these insecticides increases the number of resistant mosquitoes. In this study, Culex pipiens pallens and Aedes koreicus were collected from an artificial reservoir in the vicinity of a populated area in Korea, which is also a migratory bird catchment area. To monitor resistance to pyrethroid insecticides in mosquitoes, genomic DNA from the collected mosquitoes was sequenced for the kdr mutation in the voltage‐gated sodium channel (VGSC) gene. As a result, three samples with homozygous resistance (17.6%) and one with heterozygous resistance (5.9%) were found among 17 Cx. pipiens pallens specimens. One of the samples had a unique sequence at the amplified VGSC region. Of the 15 Ae. koreicus, no insecticide resistant individuals were found. In Korea, this is the first report of kdr genetic traits in Ae. koreicus and Cx. pipiens pallens and of a unique VGSC allele in Cx. pipiens pallens. Further investigation is needed to monitor the kdr resistance of these species in Korea and to determine how the unique sequence found in Cx. pipiens pallens is related to insecticide resistance.     

High Wolbachia density correlates with cost of infection for insecticide resistant Culex pipiens mosquitoes

In the mosquito Culex pipiens, insecticide resistance genes alter many life-history traits and incur a fitness cost. Resistance to organophosphate insecticides involves two loci, with each locus coding for a different mechanism of resistance (degradation vs. insensitivity to insecticides). The density of intracellular Wolbachia bacteria has been found to be higher in resistant mosquitoes, regardless of the mechanism involved. To discriminate between costs of resistance due to resistance genes from those associated with elevated Wolbachia densities, we compared strains of mosquito sharing the same genetic background but differing in their resistance alleles and Wolbachia infection status. Life-history traits measured included strength of insecticide resistance, larval mortality, adult female size, fecundity, predation avoidance, mating competition, and strength of cytoplasmic incompatibility (CI). We found that: (1) when Wolbachia are removed, insecticide resistance genes still affect some life-history traits; (2) Wolbachia are capable of modifying the cost of resistance; (3) the cost of Wolbachia infections increases with their density; (4) different interactions occurred depending on the resistance alleles involved; and (5) high densities of Wolbachia do not increase the strength of CI or maternal transmission efficiency relative to low Wolbachia densities. Insecticide resistance genes generated variation in the costs of Wolbachia infections and provided an interesting opportunity to study how these costs evolve, a process generally operating when Wolbachia colonizes a new host.     

淡色库蚊中抗性相关羧酸酯酶的纯化及其生化性质

在库蚊Culex pipiens品系中,非专一性酯酶活性的升高是对有机磷杀虫剂产生抗性的重要机理之一。应用SDS/PAGE,比较淡色库蚊Culex pipiens pallens抗敌百虫品系(RD)、敏感型品系(S)和抗苄呋菊酯品系(PY)中可溶性总蛋白质带型,显示RD中含有一条特异蛋白带,其它两个品系中未检出。在RD成虫匀浆液总蛋白中含量高达2.1%。分子量测定为66 kD。应用柱层析法分离得到了较纯的纯品。以α-NA为底物测得K_m=64.1 mmol/L,V_max=249.8 mmol/(L·mg·min)。与羧酸酯酶相比较：其K_m值小于已报道的抗性品系及非抗性品系A-酯酶和B-酯酶。V_max值比已报道抗性品系A-酯酶低,比B-酯酶高。较高浓度的敌百虫并不能抑制其酶活,属于A-酯酶。在昆虫体内可能主要通过结合隔离作用(sequestration)提高昆虫对有机磷的耐受性,对有机磷杀虫剂水解作用的可能性也不能排除。