Internal spatiotemporal population dynamics of infection with three Wolbachia strains in the adzuki bean beetle,Callosobruchus chinensis (Coleoptera: Bruchidae)

The adzuki bean beetle, Callosobruchus chinensis, is infected with three distinct lineages of endosymbiotic bacteria belonging to the genus Wolbachia, which were designated wBruCon, wBruOri, and wBruAus. In an attempt to understand the mechanisms underlying the infection with these three organisms, the spatiotemporal infection dynamics of the three Wolbachia strains was investigated in detail by using a quantitative PCR technique. During the development of C. chinensis, the wBruCon, wBruOri, and wBruAus infection levels consistently increased but the growth patterns were different. The levels of infection plateaued at the pupal stage at approximately 3 x 10(8), 2 x 10(8), and 5 x 10(7) wsp copy equivalents per insect for wBruCon, wBruOri, and wBruAus, respectively. At the whole-insect level, the population densities of the three Wolbachia types did not show remarkable differences between adult males and females. At the tissue level, however, the total densities and relative levels of the three Wolbachia types varied significantly when different tissues and organs were compared and when the same tissues derived from males and females were compared. The histological data obtained by in situ hybridization and electron microscopy were concordant with the results of quantitative PCR analyses. Based on the histological data and the peculiar Wolbachia composition commonly found in nurse tissues and oocytes, we suggest that the Wolbachia strains are vertically transmitted to oocytes not directly, but by way of nurse tissue. On the basis of our results, we discuss interactions among the three coinfecting Wolbachia types, reproductive strategies of Wolbachia, and factors involved in the different cytoplasmic incompatibility phenotypes.     

Internal Spatiotemporal Population Dynamics of Infection with Three Wolbachia Strains in the Adzuki Bean Beetle, Callosobruchus chinensis (Coleoptera: Bruchidae)

The adzuki bean beetle, Callosobruchus chinensis, is infected with three distinct lineages of endosymbiotic bacteria belonging to the genus Wolbachia, which were designated wBruCon, wBruOri, and wBruAus. In an attempt to understand the mechanisms underlying the infection with these three organisms, the spatiotemporal infection dynamics of the three Wolbachia strains was investigated in detail by using a quantitative PCR technique. During the development of C. chinensis, the wBruCon, wBruOri, and wBruAus infection levels consistently increased but the growth patterns were different. The levels of infection plateaued at the pupal stage at approximately 3 × 10⁸, 2 × 10⁸, and 5 × 10⁷ wsp copy equivalents per insect for wBruCon, wBruOri, and wBruAus, respectively. At the whole-insect level, the population densities of the three Wolbachia types did not show remarkable differences between adult males and females. At the tissue level, however, the total densities and relative levels of the three Wolbachia types varied significantly when different tissues and organs were compared and when the same tissues derived from males and females were compared. The histological data obtained by in situ hybridization and electron microscopy were concordant with the results of quantitative PCR analyses. Based on the histological data and the peculiar Wolbachia composition commonly found in nurse tissues and oocytes, we suggest that the Wolbachia strains are vertically transmitted to oocytes not directly, but by way of nurse tissue. On the basis of our results, we discuss interactions among the three coinfecting Wolbachia types, reproductive strategies of Wolbachia, and factors involved in the different cytoplasmic incompatibility phenotypes.     

Wolbachia infections of the whitefly Bemisia tabaci

We report the first systematic survey for the presence of Wolbachia endosymbionts in aphids and whiteflies, particularly different populations and biotypes of Bemisia tabaci. Additional agriculturally important species included were predator species, leafhoppers, and lepidopterans. We used a polymerase chain reaction (PCR)-based detection assay with ribosomal 16S rDNA and Wolbachia cell surface protein (wsp) gene primers. Wolbachia were detected in a number of whitefly populations and species, whitefly predators, and one leafhopper species; however, none of the aphid species tested were found infected. Single, double, and triple infections were detected in some of the B. tabaci populations. PCR and phylogenetic analysis of wsp gene sequences indicated that all Wolbachia strains found belong to group B. Topologies of the optimal tree derived by maximum likelihood (ML) and a ML tree in which Wolbachia sequences from B. tabaci are constrained to be monophyletic are significantly different. Our results indicate that there have been at least four independent Wolbachia infection events in B. tabaci. The importance of the presence of Wolbachia infections in B. tabaci is discussed.     

三色书虱体内共生微生物Wolbachia的wsp基因的分子检测

采用常规PCR和巢式PCR方法对三色书虱Liposcelis tricolor体内的共生微生物Wolbachia的wsp基因进行分子检测;通过Wolbachia的通用引物以及A、B亚群引物分别比较了常规PCR和巢式PCR对wsp基因扩增的灵敏性。从三色书虱体内扩增出了610bp的Wolbachia的wsp基因片段,500bp的WolbachiaA亚群的wsp基因片段和450bp的Wolbachia B亚群的wsp基因片段。扩增结果说明三色书虱被A和B两个亚群的Wolbachia混合感染;巢式PCR比常规PCR更为灵敏。     

Diversity and phylogeny of Wolbachia infecting Bactrocera dorsalis (Diptera: Tephritidae) populations from China

Wolbachia are a common and widespread group of symbiotic bacteria found in the reproductive tissues of arthropods. Bactrocera dorsalis (Hendel) is an important pest causing considerable economic losses of fruits and vegetables in several southern provinces of China. In this study, polymerase chain reaction (PCR) with general Wolbachia surface protein (wsp) primers was used to test the presence of Wolbachia in 1,500 individuals of B. dorsalis from five geographical populations of China. We detected 19 individuals of B. dorsalis infected by Wolbachia, and the infection rates of different populations varied. Comparison of wsp gene sequences from 19 individuals and search of the GenBank identified four new sequences, probably representing four Wolbachia strains. Sequence comparison showed that the four Wolbachia strains from B. dorsalis in China belonged to three groups (Kue, Mel, and Cuc). Phylogenetic analysis of the wsp sequences suggests that geographical isolation of Wolbachia exists among the populations of B. dorsalis in China, and gene flow of Wolbachia might have occurred between B. dorsalis populations of China and Thailand. Phylogenetic analysis performed on the host mitochondrial cytochrome oxidase I (COI) gene and wsp gene suggests that host has coevolved with Wolbachia.     

茶尺蠖和灰茶尺蠖内共生菌Wolbachia的分子检测及序列分析

【目的】对茶尺蠖Ectropis obliqua及其近缘种灰茶尺蠖E.grisescens体内共生菌Wolbachia进行分子鉴定,确定两者体内Wolbachia的感染率及其进化地位,为进一步探讨其对茶尺蠖和灰茶尺蠖的潜在影响提供科学依据。【方法】采用Wolbachia的16S r RNA、fts Z和wsp基因特异性引物,通过PCR扩增法检测了我国3个茶尺蠖地理种群(浙江杭州、余杭和江苏无锡)和3个灰茶尺蠖地理种群(浙江新昌、湖北浠水和江西南昌)中Wolbachia的感染情况,并进行测序和序列分析。【结果】茶尺蠖和灰茶尺蠖都感染了Wolbachia,灰茶尺蠖的Wolbachia感染率为100%,但茶尺蠖的Wolbachia感染率在22%~95%,且PCR产物电泳得到的条带微弱。wsp序列在茶尺蠖和灰茶尺蠖种间、种内无差异;但16S r RNA序列在茶尺蠖和灰茶尺蠖种间、种内差异为0.362%~0.727%之间;茶尺蠖样本未成功扩增出fts Z序列,灰茶尺蠖样本获得2条fts Z基因序列差异为1.647%。基于Wolbachia的16S r RNA和wsp基因构建的系统发育树表明,本研究中茶尺蠖和灰茶尺蠖种群所感染的Wolbachia全部属于B组的Pip亚组。【结论】茶尺蠖和灰茶尺蠖均被B组Pip亚组的Wolbachia感染,但感染率相差很大,这为研究Wolbachia对茶尺蠖和灰茶尺蠖生物学及生态学的影响奠定了基础。     

小麦和大豆蚜虫中内共生菌Wolbachia的感染检测和系统发育分析

Wolbachia是一类在节肢动物中广泛感染的胞内共生菌。为了了解其在我国蚜虫中的感染情况, 本研究通过扩增wsp基因片段对采集自我国多个地区的3种小麦蚜虫（荻草谷网蚜Sitobion miscanthi、 麦二叉蚜Schizaphis graminum和禾谷缢管蚜Rhopalosiphum padi）和1种大豆蚜虫（大豆蚜Aphis glycines）样品进行了内共生菌Wolbachia的感染检测。结果显示： 3种小麦蚜虫中均未检测出Wolabchia。大豆蚜也仅在采集自北京和杭州的种群中发现了Wolbachia的感染, 感染率分别为95.8%和22.9%, 并且所检测的个体均为单株系感染。wsp基因序列的比对分析显示, 大豆蚜感染的Wolbachia株系与多个亲缘关系较远的昆虫物种中所感染的Wolbachia株系间具有高度一致的基因序列。wsp基因序列构建的系统发育关系和序列一致性均表明大豆蚜感染的Wolbachia株系属于B大组CauB组。本研究为今后探讨Wolbachia在我国蚜虫中的寄主范围和株系多样性提供了数据支持。     

苹果蠹蛾体内wolbachia wsp基因克隆与序列分析

【目的】对苹果蠹蛾Cydia pomonella L.体内共生菌Wolbachia进行分子生物学鉴定,确定该虫体内Wolbachia的进化位置,为进一步探讨Wolbachia对其生殖作用的调控机制提供理论依据。【方法】应用Wolbachia的wsp基因特异引物,通过PCR扩增法检测了苹果蠹蛾10个地理种群(新疆伊犁、吐鲁番、和田、石河子、奎屯、哈密、库尔勒、阿拉尔、喀什、和甘肃张掖)感染Wolbachia的状况,并对阿拉尔种群体内的Wolbachia的wsp基因进行测序和序列分析。【结果】苹果蠹蛾10个地理种群全部感染了tWolbachia,利用wsp基因的特异性引物从阿拉尔种群体内扩增出了617 bp的Wolbachia的wsp基因片段(GenBank登录号为KC832324),系统发育分析结果表明,苹果蠹蛾体内感染的Wolbachia属于A群Dor亚群,与锤角细蜂亲缘关系较近。【结论】苹果蠹蛾体内普遍感染了Wolbachia,属于A群Dor亚群。     

水稻二化螟内共生菌杀雄菌属和沃尔巴克氏体的检测与分析

应用杀雄菌属(Arsenophonus)23S rDNA基因和沃尔巴克氏体(Wolbachia) wsp基因的特异引物,通过PCR扩增的方法对我国20个水稻二化螟地理种群感染两类内共生菌的情况进行了检测.结果表明: 我国水稻二化螟不同地理种群的Arsenophonus和Wolbachia感染率不一致,哈尔滨、惠水、吉林、南阳和扬州5个地理种群的Arsenophonus感染率为5.0%～50.0%;汉中、南宁和扬州3个地理种群的Wolbachia感染率为25.0%～40.0%,其他地理种群中没有检测到这两种共生菌的存在.水稻二化螟不同地理种群感染的Arsenophonus 23S rDNA基因序列完全一致,将该基因株型命名为csArs.但所检测到的Wolbachia wsp基因序列不一致,分别为wChisup1、wChisup5和wChisup6,其中wChisup1属于A群,其他属于B群.这说明水稻二化螟感染的Arsenophonus为同一株型,而感染的Wolbachia株型较为复杂.通过构建系统发育树发现,水稻二化螟体内的Arsenophonus23S rDNA基因和Wolbachia wsp基因与其他物种体内相关序列完全一致或高度相似.     

Hidden Wolbachia diversity in field populations of the European cherry fruit fly, Rhagoletis cerasi (Diptera, Tephritidae)

The European cherry fruit fly Rhagoletis cerasi has been a field model for cytoplasmic incompatibility since the mid 1970s. Two Wolbachia strains were detected in this tephritid species and w Cer2 was described as the CI inducing agent dividing European populations into two unidirectional incompatible groups, i.e. southern females produce viable offspring with northern males, whereas the reciprocal cross results in incompatibility. We detected three new Wolbachia strains by sequencing a multitude of plasmids derived from Wolbachia surface protein gene ( wsp ) polymerase chain reaction (PCR) products. Strain-specific primers were developed allowing individual diagnosis without need for cloning. Hybridization of specific PCR products with a wsp oligonucleotide enhanced the detection limit significantly and revealed the presence of low-titre infections in some strains, in different ontogenetic stages and in adults of different age. We then performed a survey of strain prevalence and infection frequency in eight European regions. w Cer1 was fixed in all populations, whereas w Cer2 was detected only in the South. w Cer3 frequency was the lowest without a clear distribution pattern. The abundance of w Cer4 was homogenous across Europe. Like w Cer2, w Cer5 showed significant differences in spatial distribution. Our new findings of previously undetected and recombinant Wolbachia strains in R. cerasi reveal a major caveat to the research community not to overlook hidden Wolbachia diversity in field populations. Low-titres and geographical variability in Wolbachia diversity are expected to influence the outcome of Wolbachia population dynamics and Wolbachia- based insect population control and may create invasion barriers for expanding and artificially introduced Wolbachia strains.     

Feminizing Wolbachia in an insect,Ostrinia furnacalis (Lepidoptera: Crambidae)

Wolbachia, which forms a group of maternally inherited bacteria in arthropods, often cause reproduction alterations in their hosts, such as cytoplasmic incompatibility, parthenogenesis, male-killing, hybrid breakdown and feminization. To date, Wolbachia-induced feminization has been reported only in isopods. Here we report that a Wolbachia strain feminizes an insect host, Ostrinia furnacalis. Among 79 wild females of O. furnacalis examined, Wolbachia infection was detected in 13 females. Twelve of the 13 infected females produced all-female progenies, and this trait was maternally inherited. Tetracycline treatment of thelygenic matrilines resulted in the production of all-male progenies. The present findings indicate that the Wolbachia infection induces feminization of genetic males in O. furnacalis. Differences in the Wolbachia-induced feminization in O. furnacalis and that in isopods are discussed along with the differences in sex determination mechanisms between insects and isopods. Phylogenetic analysis of the wsp gene sequence of Wolbachia suggests independent evolutionary origins for the Wolbachia-induced feminizations in O. furnacalis and in isopods. Our findings over 5 years suggest that the infection has been maintained at a low prevalence in the O. furnacalis population.     

Superinfection of Laodelphax striatellus with Wolbachia from Drosophila simulans

Wolbachia are maternally inherited, intracellular alpha-proteobacteria that infect a wide range of arthropods. They manipulate the reproduction of hosts to facilitate their spread into host populations, through ways such as cytoplasmic incompatibility (CI), parthenogenesis, feminization and male killing. The influence of Wolbachia infection on host populations has attracted considerable interest in their possible role in speciation and as a potential agent of biological control. In this study, we used both microinjection and nested PCR to show that the Wolbachia naturally infecting Drosophila simulans can be transferred into a naturally Wolbachia-infected strain of the small brown planthopper Laodelphax striatellus, with up to 30% superinfection frequency in the F(12) generation. The superinfected males of L. striatellus showed unidirectional CI when mated with the original single-infected females, while superinfected females of L. striatellus were compatible with superinfected or single-infected males. These results are, to our knowledge, the first to establish a superinfected horizontal transfer route for Wolbachia between phylogenetically distant insects. The segregation of Wolbachia from superinfected L. striatellus was observed during the spreading process, which suggests that Wolbachia could adapt to a phylogenetically distant host with increased infection frequency in the new host population; however, it would take a long time to establish a high-frequency superinfection line. This study implies a novel way to generate insect lines capable of driving desired genes into Wolbachia-infected populations to start population replacement.     

朱砂叶螨体内感染的Wolbachia的wsp基因序列测定与分析

应用Wolbachia的wsp基因特异引物,通过PCR扩增法对我国朱砂叶螨Tetranychus cinnabarinus7个地理种群进行了检测。在采自黑龙江佳木斯、安徽安庆、江苏镇江和浙江慈溪的4个地理种群中扩增出了596bp左右的Wolbachia的wsp基因片段,而在河北威县、山东滨州和湖北赤壁3个地理种群中未发现这个Wolbachia特征基因片段,表明 Wolbachia在我国朱砂叶螨中的侵染较为普遍。通过对我国朱砂叶螨体内感染的 Wolbachia的wsp基因序列进行系统发育分析,得出它们全部与B大组的Ori组的Wolbachia株十分相近或完全相同,提示它们可能是相近或相同的株。     

铃木氏果蝇不同地理种群中Wolbachia的检测和系统发育分析

铃木氏果蝇Drosophila suzukii是原产于东南亚地区的重要果树害虫, 近年来传入北美和欧洲等地区造成严重的危害。本研究利用Wolbachia的16S rDNA和wsp基因特异引物（分别为16S-F/16S-R和81F/691R）对铃木氏果蝇7个地理种群（中国的5个种群、 韩国的1个种群和美国的1个种群）的Wolbachia进行了PCR检测并对检测结果进行了比较; 对感染个体体内Wolbachia的16S rDNA基因片段进行测序, 确定了我国铃木氏果蝇体内Wolbachia的分类地位。基于Wolbachia的16S rDNA基因特异引物检测结果发现, 我国5个铃木氏果蝇种群广泛感染Wolbachia（感染率36.7%~80.0%）, 而韩国和美国2个种群均未检测到该菌的感染。而利用wsp基因特异引物无法检测到该菌。基于Wolbachia的16S rDNA基因构建系统发育树表明, 我国铃木氏果蝇种群感染的Wolbachia全部属于A组。这些结果为研究Wolbachia感染对铃木氏果蝇生物学及生态学的影响奠定了基础。     

Genetic structure of sibling butterfly species affected by Wolbachia infection sweep: evolutionary and biogeographical implications

It was recently recognized that in Japan, the common yellow butterfly, Eurema hecabe, consists of two sibling species, which have been unnamed yet and tentatively called yellow (Y) type and brown (B) type. We investigated the diversity of nuclear and mitochondrial genes in Japanese populations of Y type and B type of E. hecabe. The phylogeny based on nuclear genes agreed with the distinction between Y type and B type, which had been also supported by a wide array of biological data. However, the phylogeny based on mitochondrial genes did not reflect the distinction. PCR survey of Wolbachia revealed that B-type populations were all infected while Y-type populations contained both infected and uninfected individuals. A single genotype of Wolbachia, which was inferred to be a CI-inducing strain from their wsp gene sequence, was prevalent in these populations. Notably, the mitochondrial phylogeny was in perfect agreement with the pattern of Wolbachia infection, suggesting that the Wolbachia infection had affected the mitochondrial genetic structure of the host insects. Probably, the Wolbachia strain and the associated mitochondrial genomes have been occasionally introduced from B-type populations to Y-type populations through migration and subsequent interspecific hybridization, and CI-driven population sweep has been spreading the Wolbachia strain and the particular mitochondrial haplotypes, which originated from B-type populations, into Y-type populations. On the basis of these results together with the geological and biogeographical knowledge of the Japanese Archipelago, we proposed an evolutionary hypothesis on the invasion and spread of Wolbachia infection in B-type and Y-type of E. hecabe.     

湖南三地区麦氏安瘿蜂体内Wolbachia 的感染及其wsp基因序列分析

为检测麦氏安瘿蜂Andricus mairei Kieffer有无Wolbachia感染, 本研究对其岳阳、 长沙和邵阳3种群雌、 雄成虫体内Wolbachia的wsp基因进行了PCR检测, 进而对获得的基因片段进行了序列分析。结果显示, 麦氏安瘿蜂岳阳、 长沙及邵阳种群雌、 雄成虫均有Wolbachia感染, 除邵阳种群雌成虫的感染率为80%之外, 其他均为100%。3个种群Wolbachia的wsp基因序列长度皆为561 bp, 且序列完全一致。麦氏安瘿蜂Wolbachia的wsp基因序列与已知瘿蜂族(Cynipini) Neuroterus macropterus、 Biorhiza pallida及Andricus solitarius （strain 1）以及Synergini族Synergus crassicornis感染的Wolbachia的一致性达95%。除Synergini族Ceroptres cerri感染的Wolbachia属于B群（B group）之外, 瘿蜂感染的Wolbachia均属于A群（A group）。在NJ系统树中, 麦氏安瘿蜂与瘿蜂族Neuroterus macropterus、 Biorhiza pallida和Andricus solitarius （strain 1）及Synergini族Synergus crassicornis感染的Wolbachia聚合在同一分支。此外, 麦氏安瘿蜂岳阳、 长沙和邵阳种群均获得了雌、 雄成虫, 其雌性率分别为15.3%, 12.1%和19.8%, 表现出明显的雄性比偏高。结果提示与瘿蜂族的其他已报道的种类一样, Wolbachia与麦氏安瘿蜂的共生并不诱导其营产雌孤雌生殖。     

Diversity of Wolbachia endosymbionts in heteropteran bugs

An extensive survey of Wolbachia endosymbionts in Japanese terrestrial heteropteran bugs was performed by PCR detection with universal primers for wsp and ftsZ genes of Wolbachia, cloning of the PCR products, restriction fragment length polymorphism analysis of infecting Wolbachia types, and molecular phylogenetic characterization of all the detected Wolbachia strains. Of 134 heteropteran species from 19 families examined, Wolbachia infection was detected in 47 species from 13 families. From the 47 species, 59 Wolbachia strains were identified. Of the 59 strains, 16 and 43 were assigned to A group and B group in the Wolbachia phylogeny, respectively. The 47 species of Wolbachia-infected bugs were classified into 8 species with A infection, 28 species with B infection, 2 species with AA infection, 3 species with AB infection, 5 species with BB infection, and 1 species with ABB infection. Molecular phylogenetic analysis showed little congruence between Wolbachia phylogeny and host systematics, suggesting frequent horizontal transfers of Wolbachia in the evolutionary course of the Heteroptera. The phylogenetic analysis also revealed several novel lineages of Wolbachia. Based on statistical analyses of the multiple infections, we propose a hypothetical view that, in the heteropteran bugs, interactions between coinfecting Wolbachia strains are generally not intense and that Wolbachia coinfections have been established through a stochastic process probably depending on occasional horizontal transfers.     

首次发现沃尔巴克氏体Wolbachia对我国南亚果实蝇的感染现象

沃尔巴克氏体Wolbachia是广泛分布于节肢动物体生殖组织内的一类共生细菌,泰国等已发现Wolbachia感染南亚果实蝇Bactrocera(Zeugodacus)tau(Walker)的现象。利用沃尔巴克氏体wsp基因的1对通用引物(81F,691R)从我国南亚果实蝇的总DNA中扩增到1段500 bp左右的wsp基因片段,并克隆得到了Wolbachia相关序列,首次发现了沃尔巴克氏体对我国南亚果实蝇的感染现象。     

Super-infections of Wolbachia in byturid beetles and evidence for genetic transfer between A and B super-groups of Wolbachia

Wolbachia are maternally inherited bacteria responsible for altering host reproduction. The two main groups found in insects, A and B, are based on molecular characterization using ribosomal, ftsZ, wsp (Wolbachia surface protein) or groE genes. We have used the wsp and ftsZ genes to study Wolbachia in byturid beetles. Byturus affinis contained a single copy of the ftsZ gene which grouped with A ftsZ sequences and a single copy of the wsp gene which grouped with B wsp sequences. This suggests that genetic exchange between A and B groups has occurred in the Wolbachia of this beetle. FtsZ and wsp sequences that were identical or nearly identical to those of B. affinis were found in B. tomentosus, suggesting that it also contains the same recombinant Wolbachia genotype. Most other byturids had more than one wsp sequence with at least one from the A and B groups, suggesting multiple copies of bacterial genes or multiple infections. B. ochraceus and B. unicolor both had four distinct wsp gene sequences. All the byturids had a closely related A wsp sequence and most a closely related B wsp sequence. Therefore, there appears to be an association between specific A and B wsp types.     

The incidence and diversity of Wolbachia in gallwasps (Hymenoptera; Cynipidae) on oak

Wolbachia bacteria infect approximately 20% of all insect species, and cause a range of alterations to host reproduction, including imposition of thelytoky. The incidence and phenotypic impact of Wolbachia remains to be established in many insect taxa, and considerable research effort is currently focused on its association with particular reproductive modes and the relative importance of the various pathways via which infection occurs. Gallwasps represent an attractive system for addressing these issues for two reasons. First, they show a diversity of reproductive modes (including arrhenotoky, thelytoky and cyclical parthenogenesis) in which the impact of Wolbachia infection can be examined. Second, they occupy two intimately linked trophic niches (gall-inducers and inquilines) between which there is potential for the horizontal exchange of Wolbachia infection. In the arrhenotokous gallwasp lineages screened to date (the herb-galling 'Aylacini' and the rose-galling Diplolepidini), Wolbachia infection always induces thelytoky. The impact of Wolbachia in other arrhenotokous clades, and in the cyclically parthenogenetic clades remains unknown. Here we use polymerase chain reaction (PCR) screening and sequence data for two Wolbachia genes (wsp and ftsZ) to examine the prevalence and incidence of Wolbachia infection in 64 species (a total of 609 individuals) in two further tribes: the arrhenotokous inquilines (tribe Synergini), and the cyclically parthenogenetic oak gallwasps (tribe Cynipini). We ask: (i) whether Wolbachia infection has any apparent impact on host reproduction in the two tribes and (ii) whether there is any correlation between Wolbachia infection and the apparent lack of an arrhenotokous generation in many oak gallwasp life cycles. We show: (i) that Wolbachia infection is rare in the Cynipini. Infected species show no deviation from cyclical parthenogenesis, and infection is no more common in species known only from a thelytokous generation; (ii) that there is a higher incidence of infection within the arrhenotokous inquilines, and generally in gallwasp tribes without cyclical parthenogensis; (iii) all Wolbachia-positive inquiline species are known to possess males, implying either that Wolbachia infection does not result in loss of sex in this tribe or, more probably, that (as for some rose gallwasps) Wolbachia infection leads to loss of sex in specific populations; and (iv) although we find some inquilines and gall inducers to be infected with Wolbachia having the same wsp sequence, these hosts are not members of the same gall communities, arguing against frequent horizontal transmission between these two trophic groups. We suggest that exchange may be mediated by the generalist parasitoids common in oak galls.