Wolbachia在山楂双叶螨中的感染及对寄主生殖的影响

【目的】共生菌Wolbachia在多种叶螨寄主中引起细胞质不亲和及适合度改变,影响寄主的生物学特性。山楂双叶螨Amphitetranychus viennensis是重要的果树害螨,常暴发成灾。本研究旨在明确Wolbachia在山楂双叶螨中的感染情况及对寄主生殖的影响。【方法】采集自然种群的山楂双叶螨,运用多位点序列分型技术（multilocus sequence typing, MLST）对其体内Wolbachia感染率及株系进行分析;通过杂交试验及生物学观察,分析感染Wolbachia对山楂双叶螨单雌产卵量、后代孵化率、性比及死亡率的影响。【结果】山楂双叶螨自然种群感染一种株系的Wolbachia （wVie）,该Wolbachia株系与小黑花椿象Orius strigicollis和丽蝇蛹集金小蜂Nasonia vitripennis中的Wolbachia株系亲缘关系较近,而与叶螨属Tetranychus叶螨感染的Wolbachia株系亲缘关系较远。Wolbachia与4种分化较小的线粒体单倍型相关联。Wolbachia感染雌虫与不感染雌虫产卵量没有显著差异（P>0.05）。不感染雌虫与感染雄虫交配,卵孵化率显著低于其他杂交组合 (P<0.05),但孵化率仍达近75%。各交配组合的后代性比及死亡率变化不明显（P>0.05）。【结论】Wolbachia在山楂双叶螨种群中的侵染历史较短,对山楂双叶螨的产卵力、后代性比、死亡率没有影响。Wolbachia在山楂双叶螨中诱导产生弱的CI表型。     

二斑叶螨两种群中Wolbachia诱导的胞质不亲和作用的影响因子比较研究

Wolbachia诱导胞质不亲和（cytoplasmic incompatibility, CI）是对寄主的生殖调控中最常见的一种方式,在不同种群中CI表达的差异较大。以二斑叶螨Tetranychus urticae辽宁兴城（LN）和江苏徐州（JS）两个地理种群为实验材料,经筛选获得100%感染Wolbachia和不感染Wolbachia的品系,通过杂交实验和实时定量PCR的方法研究寄主遗传背景、雄螨日龄、温度以及雄螨体内Wolbachia菌量等因子对我国二斑叶螨体内Wolbachia诱导CI能力的影响。结果表明：1,3,5和7日龄的雄螨诱导的CI的强度没有差异,表明雄螨日龄对我国二斑叶螨体内Wolbachia诱导CI的能力没有影响。二斑叶螨分别放在20℃的低温、 25℃的适温和30℃的高温条件下饲养时,Wolbachia诱导CI的能力也没有任何变化,表明温度对我国二斑叶螨体内Wolbachia诱导CI的能力也没有影响。江苏徐州种群所感染Wolbachia菌量显著高于辽宁兴城种群,并且这两个种群感染Wolbachia菌量都随着雄螨日龄的增大而显著增加,表明Wolbachia菌量对我国二斑叶螨体内Wolbachia诱导CI的能力没有影响;江苏徐州种群内Wolbachia不能诱导CI可能是Wolbachia株系与寄主的遗传背景共同作用的结果。研究结果为进一步了解Wolbachia的生殖调控机理提供了重要依据。     

Wolbachia对苹果蠹蛾生殖调控的作用

【背景】苹果蠹蛾是重要的果树害虫和检疫对象。研究显示,苹果蠹蛾体内所含的Wolbachia属于具有诱导胞质不亲和(CI)现象的A组中Dor亚组。本研究目的在于摸清苹果蠹蛾体内的Wolbachia对宿主的生殖调控是否具有诱导胞质不亲和的功能。【方法】通过饲喂抗生素消除苹果蠹蛾体内的Wolbachia,比较感染与消除Wolbachia的苹果蠹蛾生态适合度以及Wolbachia感染对苹果蠹蛾生殖的影响。【结果】消除Wolbachia后,苹果蠹蛾F_1、F_2代各虫态的发育历期、产卵量、孵化率和蛹的存活率与对照无显著差异;Wolbachia对苹果蠹蛾成虫的寿命、产卵前期、平均产卵量和性别比例均无影响。不同处理苹果蠹蛾之间的杂交试验结果表明,4种杂交的苹果蠹蛾都能产卵,且卵可以正常孵化。【结论与意义】在自然状态下苹果蠹蛾体内的Wolbachia不能诱导其宿主的胞质不亲和现象。     

显微注射青霉素G获得单感染Wolbachia和单感染Cardinium白背飞虱品系

Wolbachia和Cardinium都是广泛存在于节肢动物体内的一类母系遗传的共生细菌, 可以通过不同方式操纵寄主的生殖行为。Wolbachia和Cardinium感染同一寄主在自然界比较常见, 但是在某些可以同时感染Wolbachia和Cardinium的寄主中其单感染品系较难发现。本研究检测了云南文山(YN)、 海南三亚(HN)这2个不同地理种群中Wolbachia和Cardinium的感染情况; 以双感染Wolbachia和Cardinium的白背飞虱Sogatella furcifera海南种群为实验材料, 运用显微注射方法对双感染Wolbachia和Cardinium的白背飞虱若虫注射不同浓度青霉素G以获得单感染品系。结果表明： 白背飞虱自然种群中单感染Wolbachia比率极低, 本实验用到的海南种群未检测到单感染Wolbachia成虫; 通过显微注射青霉素G的方法可以从白背飞虱双感染品系中筛选获得单感染品系, 当青霉素G注射浓度为0.2%(w/v), 注射龄期为5龄时得到单感染品系效率最高; F5代的检测结果显示显微注射得到的单感染品系可以稳定遗传。本研究为获得单感染品系白背飞虱提供了快捷方法, 同时为其他双感染Wolbachia和Cardinium节肢动物不同感染品系的筛选提供参考。     

转染从灰飞虱提取的Wolbachia对豆叶螨繁殖适合度和寿命的影响

【目的】Wolbachia是广泛存在于节肢动物体内的一类母系遗传的共生菌, 能够通过多种机制调节节肢动物的生殖。近年来, 为了更进一步地探究Wolbachia与寄主之间的互作机制, 许多研究者展开了Wolbachia的人工转染研究。【方法】我们在实验室条件下将灰飞虱Laodelphax striatellus (Fallén)感染的Wolbachia提取纯化后, 利用显微注射的方法导入豆叶螨Tetranychus phaselus Ehara体内。研究了注入从灰飞虱提取的Wolbachia和豆叶螨自然感染Wolbachia对豆叶螨繁殖适合度和寿命的影响, 并测定了两种Wolbachia的密度随豆叶螨日龄增长的变化情况。【结果】结果显示, 外源Wolbachia在豆叶螨体内的拷贝数极低, 仅为自然感染豆叶螨体内Wolbachia拷贝数的0.5%左右。与自然感染的Wolbachia不同, 外源Wolbachia在豆叶螨种群中不能引起胞质不亲和, 但能够显著降低雌螨的产卵量。【结论】本研究表明, 来自灰飞虱的Wolbachia具有抑制豆叶螨种群扩张的潜在能力, 对豆叶螨生物防治具有一定的应用价值。     

孤雌产雌生殖品系松毛虫赤眼蜂产卵强度 对Wolbachia诱导的其生殖表型的影响

【目的】松毛虫赤眼蜂Trichogramma dendrolimi是一种用于鳞翅目害虫生物防治的重要卵期寄生蜂。本研究旨在明确孤雌产雌生殖品系松毛虫赤眼蜂的产卵强度对其体内Wolbachia滴度及Wolbachia诱导的孤雌产雌生殖表型的影响。【方法】在室内调查了3个处理组松毛虫赤眼蜂雌蜂不同产卵强度(每日仅1 h供寄主卵、隔日24 h供寄主卵和持续供寄主卵)对其生物学指标包括7 d内逐日子代雄性比、逐日产卵量、累积子代雄性比和累积产卵量的影响;采用实时荧光定量PCR方法检测未产卵雌蜂(对照)以及每日仅1 h供寄主卵和持续供寄主卵的雌蜂体内Wolbachia滴度(wsp基因拷贝数)。【结果】持续供寄主卵的雌蜂累积子代雄性比显著高于每日仅1 h供寄主卵,但与隔日24 h供寄主卵相比无显著差异。3个处理组雌蜂逐日子代雄性比随日龄的增加均显著上升,其中持续供寄主卵的处理组的上升幅度最高。持续供寄主卵的雌蜂累计产卵量显著高于每日仅1 h供寄主卵和隔日24 h供寄主卵。3个处理组雌蜂逐日产卵量随日龄的增加而显著下降,其中持续供寄主卵的处理组的下降幅度最高。未产卵的雌蜂体内Wolbachia滴度显著高于持续提供寄主卵的雌蜂体内的滴度,但与每日仅1 h供寄主卵的雌蜂体内的滴度相比无显著差异。【结论】结果说明,当松毛虫赤眼蜂雌蜂产卵不受限制时,Wolbachia滴度减少,宿主孤雌产雌表型减弱;而限制雌蜂产卵有助于维持Wolbachia滴度和宿主孤雌产雌表型。研究结果为认识Wolbachia与宿主赤眼蜂之间的互作以及应用孤雌产雌生殖品系松毛虫赤眼蜂防控害虫提供一定的参考。     

白背飞虱中的Wolbachia和Cardinium双重感染特性

为了明确自然种群白背飞虱Sogatella furcifera中Wolbachia和Cardinium的感染情况以及Wolbachia与其特有的WO噬菌体之间的关系, 以采自中国7个省区9个地点的白背飞虱为研究材料, 运用PCR检测的方法调查了Wolbachia, Cardinium以及WO噬菌体在各飞虱种群中的感染率和组织分布特点。结果表明： 白背飞虱广泛双重感染Wolbachia和Cardinium, 并且都表现出很高的感染率。白背飞虱各种群Cardinium的感染率几乎均为100%; Wolbachia的感染率也较高, 但雌雄虫感染率差异较大, 雌虫的感染率几乎均为100％, 而雄虫的感染率从22.2%~95.0%不等。另外, 通过不同DNA聚合酶、 不同提取方法的对比, 揭示了DNA粗提样品在基于PCR技术的胞内共生菌检测中的不足之处。对白背飞虱头部、 胸部、 腹部、 足和翅5个不同部位组织的检测结果表明, 不仅在含有生殖组织的腹部有这两类共生菌的感染, 在其他非生殖组织中同样也感染了这两类共生菌; 虽然Wolbachia和Cardinium在寄主的各个组织中均有分布, 但是两者在白背飞虱成虫（尤其是雄虫）阶段的动态变化有明显的差异。进一步对Wolbachia宿主特异性WO噬菌体的检测结果表明, 自然种群雄虫中Wolbachia的感染率与不感染个体中WO噬菌体的比率呈明显的负相关。因此推测, 雄虫中Wolbachia感染率相对较低的原因可能是由于Wolbachia基因组中溶原性的WO噬菌体受到某种因素的诱导已转化为裂解性噬菌体。研究结果为进一步揭示Wolbachia和Cardinium双重感染条件下对寄主的生殖调控作用及其机制、 垂直传播规律、 两者之间的相互关系以及进一步的应用研究等方面提供了重要的理论基础。     

Wolbachia与昆虫寄主关系研究进展

Wolbachia pipientis是一种广泛存在于节肢动物和线虫生殖组织中的细胞内共生菌,通过母系生殖细胞在寄主种群内垂直传播。据分析,Wolbachia在昆虫中的感染率大约为66%,是昆虫中分布最广泛的胞内共生菌。Wolbachia能够以多种方式调控寄主的生殖行为,包括诱导细胞质不亲和、诱导孤雌生殖、雌性化、杀雄作用等。近10年来,Wolbachia的研究在多个领域都取得了长足进展。本文介绍了Wolbachia的多样性与分布、对寄主生殖行为的影响、基因组结构,以及其与寄主在基因组水平上的相互作用等领域的最新研究成果,并展望了Wolbachia研究的发展趋势。     

寄生蜂体内共生菌Wolbachia研究进展

Wolbachia是广泛分布在节肢动物生殖组织中的细胞质遗传细菌,在寄生蜂中可以通过诱导胞质不亲和、孤雌生殖、雄性雌性化和杀雄等多种方式调节寄主的生殖.本文在综述了寄生蜂体内共生菌Wolbachia的类群和分化、传播方式及其对寄主生物学特性的影响、温度通过对Wolbachia的作用而影响寄生蜂的表现等基础上,讨论了如何...     

共生菌Cardinium对朱砂叶螨的生殖调控作用

为了了解共生菌Cardinium对朱砂叶螨Tetranychus cinnabarinus (Boisduval)的生殖调控作用,从检测到感染Cardinium的种群中选取山西运城和甘肃兰州2个感染率较高的种群作为实验材料,对Cardinium在寄主生殖调控方面的作用进行研究。通过人工培养100%感染Cardinium的种群和100%不感染的种群,并从中挑取不同感染类型的雌雄螨单独进行杂交实验,设立感染Cardinium(♀)×感染Cardinium(♂),感染Cardinium(♀)×不感染(♂),不感染(♀)×感染Cardinium(♂),不感染(♀)×不感染(♂) 4种杂交组合。结果发现,抗生素处理后不感染的雌螨和受感染雄螨的交配表现出了单向的胞质不亲和,而且2个种群表现出了2种类型：在山西种群不亲和的组合中,CI表现为卵孵化率显著降低,多数雌螨都产生出F₁雌螨后代,但是F₁代雌螨数量相对于其他3种组合明显减少; 而在甘肃种群不亲和的组合中则表现为卵全部孵化且幼螨100%存活,但全部为雄螨后代。2个种群中Cardinium的亲缘关系非常相近,而它们却能够在不同的地理种群中表现出不同的CI表型,这提示亲缘关系非常接近的品系也可以产生不同的表型。研究结果为深入揭示Cardinium的感染机制和生殖调控作用提供重要基础。     

Cardinium symbionts cause cytoplasmic incompatibility in spider mites

Intracellular symbiotic bacteria belonging to the Cytophaga-Flavobacterium-Bacteroides lineage have recently been described and are widely distributed in arthropod species. The newly discovered bacteria, named Cardinium sp, cause the expression of various reproductive alterations in their arthropod hosts, including cytoplasmic incompatibility (CI), induction of parthenogenesis and feminization of genetic males. We detected 16S ribosomal DNA sequences similar to those of Cardinium from seven populations of five spider mite species, suggesting a broad distribution of infection of Cardinium in spider mites. To clarify the effect of Cardinium on the reproductive traits of the infected spider mites, infected mites were crossed with uninfected mites for each population. In one of the populations, Eotetranychus suginamensis, CI was induced when infected males were crossed with uninfected females. The other six populations of four species showed no reproductive abnormalities in the F(1) generation, but the possibility of CI effects in the F(2) generation remains to be tested. One species of spider mite, Tetranychus pueraricola, harbored both Cardinium and Wolbachia, but these symbionts seemed to have no effect on the reproduction of the host, even when the host was infected independently with each symbiont.     

Influence of aging on cytoplasmic incompatibility, sperm modification and Wolbachia density in Culex pipiens mosquitoes

Wolbachia are maternally inherited endocellular bacteria, widespread in invertebrates and capable of altering several aspects of host reproduction. Cytoplasmic incompatibility (CI) is commonly found in arthropods and induces hatching failure of eggs from crosses between Wolbachia-infected males and uninfected females (or females infected by incompatible strains). Several factors such as bacterial and host genotypes or bacterial density contribute to CI strength and it has been proposed, mostly from Drosophila data, that older males have a lower Wolbachia load in testes which, thus, induces a lighter CI. Here, we challenge this hypothesis using different incompatible Culex pipiens mosquito strains and show that CI persists at the same intensity throughout the mosquito life span. Embryos from incompatible crosses showed even distributions of abortive phenotypes over time, suggesting that host ageing does not reduce the sperm-modification induced by Wolbachia. CI remained constant when sperm was placed in the spermathecae of incompatible females, indicating that sperm modification is also stable over time. The capacity of infected females to rescue CI was independent of age. Last, the density of Wolbachia in whole testes was highly strain-dependent and increased dramatically with age. Taken together, these data stress the peculiarity of the C.pipiens/Wolbachia interaction and suggest that the bacterial dosage model should be rejected in the case of this association.     

High incidence of the maternally inherited bacterium Cardinium in spiders

Inherited bacteria are now recognized as important players in arthropod evolution and ecology. Here, we test spiders, a group recently identified as possessing inherited bacteria commonly, for the presence of two reproductive parasites, Cardinium hertigii (Bacteroidetes group) and Wolbachia (α-proteobacteria), estimating incidence, prevalence, any sex bias in infection, and infection diversity, for a panel of field-collected specimens. We identify spiders as a hotspot for Cardinium . Present in 22% of the sampled species, incidence was significantly higher than that previously recorded in insects. Where present, Cardinium infection occurred at medium prevalence without evidence of sex bias in prevalence that would indicate sex-ratio distortion activity. Wolbachia was present in 37% of species, but revealed a gradation from being rare to very common. In one case, Wolbachia was found significantly more commonly in females than males, indicating it may act as a sex-ratio distorter in some species. Breeding work conducted on two species confirmed that Wolbachia and Cardinium were transmitted maternally, which represents the first proof of inheritance of these symbionts in spiders. Overall, this study demonstrates that the majority of spider species are infected with inherited bacteria, and their role in host biology clearly requires determination.     

Wolbachia distribution and cytoplasmic incompatibility based on a survey of 42 spider mite species (Acari: Tetranychidae) in Japan

Wolbachia are a group of maternally inherited bacteria that infect a wide range of arthropods. Wolbachia infections are known to result in the expression of various abnormal reproductive phenotypes, the best known being cytoplasmic incompatibility. The first systematic survey of 42 spider mite species in Japan revealed that seven species (16.7%) were infected with Wolbachia. Wolbachia in the spider mites were grouped into three subgroups in supergroup B by phylogenetic analyses of the wsp gene. Most spider mites did not show cytoplasmic incompatibility when infected males were crossed with uninfected females. However, all infected populations of Panonychus mori and Oligonychus gotohi (five and four populations, respectively) possessed modification-positive strains of Wolbachia, and the cytoplasmic incompatibility decreased egg hatchability and female ratio of the spider mites. Thus, some Wolbachia strains cause sex ratio distortion in their hosts.     

Diversity and recombination in <Emphasis Type="Italic">Wolbachia</Emphasis> and <Emphasis Type="Italic">Cardinium</Emphasis> from <Emphasis Type="Italic">Bryobia</Emphasis>spider mites

BACKGROUND: Wolbachia and Cardinium are endosymbiotic bacteria infecting many arthropods and manipulating host reproduction. Although these bacteria are maternally transmitted, incongruencies between phylogenies of host and parasite suggest an additional role for occasional horizontal transmission. Consistent with this view is the strong evidence for recombination in Wolbachia, although it is less clear to what extent recombination drives diversification within single host species and genera. Furthermore, little is known concerning the population structures of other insect endosymbionts which co-infect with Wolbachia, such as Cardinium. Here, we explore Wolbachia and Cardinium strain diversity within nine spider mite species (Tetranychidae) from 38 populations, and quantify the contribution of recombination compared to point mutation in generating Wolbachia diversity. RESULTS: We found a high level of genetic diversity for Wolbachia, with 36 unique strains detected (64 investigated mite individuals). Sequence data from four Wolbachia genes suggest that new alleles are 7.5 to 11 times more likely to be generated by recombination than point mutation. Consistent with previous reports on more diverse host samples, our data did not reveal evidence for co-evolution of Wolbachia with its host. Cardinium was less frequently found in the mites, but also showed a high level of diversity, with eight unique strains detected in 15 individuals on the basis of only two genes. A lack of congruence among host and Cardinium phylogenies was observed. CONCLUSIONS: We found a high rate of recombination for Wolbachia strains obtained from host species of the spider mite family Tetranychidae, comparable to rates found for horizontally transmitted bacteria. This suggests frequent horizontal transmission of Wolbachia and/or frequent horizontal transfer of single genes. Our findings strengthens earlier reports of recombination for Wolbachia, and shows that high recombination rates are also present on strains from a restrictive host range. Cardinium was found co-infecting several spider mite species, and phylogenetic comparisons suggest also horizontal transmission of Cardinium among hosts.     

Distribution of the endosymbiotic bacterium Cardinium in Chinese populations of the carmine spider mite Tetranychus cinnabarinus (Acari: Tetranychidae)

Abstract:  ' Candidatus Cardinium hertigii ( Cardinium )' from the Bacteroidetes group is a symbiont that has recently received attention as a reproductive manipulator of its arthropod hosts. Though the spatial distribution of symbionts depends heavily on that of their hosts, evidence has shown that dispersal limitations also have effect on some micro-organisms. In order to estimate the distribution of Cardinium in Chinese populations of the carmine spider mite, twenty seven geographical populations of Tetranychus cinnabarinus were collected and screened, using Cardinium -specific primers for the 16S ribosomal DNA. Six geographical populations collected between 30° and 36°N tested positive for the presence of Cardinium , whereas it could not be detected in populations collected between 19°–29°N and 37°–46°N, suggesting that the symbiont is not evenly distributed, comparing with a wider distribution of Wolbachia previously reported in the same populations. In addition, the infection rates of Cardinium seem to increase from the south to the north of China. All the six Cardinium -infected populations were found to be doubly infected with Wolbachia . Phylogenetic analysis based on the 16S rDNA gene sequence of Cardinium shows a close relationship between Cardinium in Chinese carmine spider mite and symbionts found in other species in the Tetranychidae.     

Wolbachia affects oviposition and mating behaviour of its spider mite host

Wolbachia bacteria are transmitted from mother to offspring via the cytoplasm of the egg. When mated to males infected with Wolbachia bacteria, uninfected females produce unviable offspring, a phenomenon called cytoplasmic incompatibility (CI). Current theory predicts that ‘sterilization’ of uninfected females by infected males confers a fitness advantage to Wolbachia in infected females. When the infection is above a threshold frequency in a panmictic population, CI reduces the fitness of uninfected females below that of infected females and, consequently, the proportion of infected hosts increases. CI is a mechanism that benefits the bacteria but, apparently, not the host. The host could benefit from avoiding incompatible mates. Parasite load and disease resistance are known to be involved in mate choice. Can Wolbachia also be implicated in reproductive behaviour? We used the two‐spotted spider mite – Wolbachia symbiosis to address this question. Our results suggest that uninfected females preferably mate to uninfected males while infected females aggregate their offspring, thereby promoting sib mating. Our data agrees with other results that hosts of Wolbachia do not necessarily behave as innocent bystanders – host mechanisms that avoid CI can evolve.     

Can cytoplasmic incompatibility inducing Wolbachia promote the evolution of mate preferences?

The maternally inherited bacterium, Wolbachia pipientis, manipulates host reproduction by rendering uninfected females reproductively incompatible with infected males (cytoplasmic incompatibility, CI). Hosts may evolve mechanisms, such as mate preferences, to avoid fitness costs of Wolbachia infection. Despite the potential importance of mate choice for Wolbachia population dynamics, this possibility remains largely unexplored. Here we model the spread of an allele encoding female mate preference for uninfected males alongside the spread of CI inducing Wolbachia. Mate preferences can evolve but the spread of the preference allele depends on factors associated with both Wolbachia infection and the preference allele itself. Incomplete maternal transmission of Wolbachia, fitness costs and low CI, improve the spread of the preference allele and impact on the population dynamics of Wolbachia. In addition, mate preferences are found in infected individuals. These results have important consequences for the fate of Wolbachia and studies addressing mate preferences in infected populations.     

Experimental induction and termination of non-reciprocal reproductive incompatibilities in a parahaploid mite

Two experiments were conducted to investigate the relationship between rearing temperatures, the presence or absence of Wolbachia endosymbionts, and non-reciprocal reproductive incompatibility in inbred lines of the parahaploid phytoseiid mite Metaseiulus occidentalis (Nesbitt) (Acari: Phytoseiidae).Heat-treated females crossed with infected males reared at room temperature produced few eggs and high proportions of shriveled eggs. No female progeny were produced. The reciprocal cross was normal. A second experiment showed that the incompatible cross from the first experiment could be made compatible if the infected line was heat-treated and those males crossed with the original heat-treated females. Furthermore, a new incompatibility was induced in a formerly compatible cross when the newly heat-treated females were crossed with males from their base colony. Heat-treatment was correlated with the loss of Wolbachia in both experiments. Wolbachia may thus affect non-reciprocal reproductive incompatibility in M. occidentalis, and may produce a unique incompatibility phenotype in this parahaploid species, including both reduced numbers of male progeny and a lack of female progeny.