Detection of Wolbachia pipientis, including a new strain containing the wsp gene,in two sister species of Paraphlebotomus sandflies,potential vectors of zoonotic cutaneous leishmaniasis

Individual, naturally occurring Phlebotomus mongolensis and Phlebotomus caucasicus from Iran were screened for infections with the maternally inherited intracellular Rickettsia-like bacterium Wolbachia pipientis via targeting a major surface protein gene (wsp). The main objective of this study was to determine if W. pipientis could be detected in these species. The sandflies were screened using polymerase chain reaction to amplify a fragment of the Wolbachia surface protein gene. The obtained sequences were edited and aligned with database sequences to identify W. pipientis haplotypes. Two strains of Wolbachia were found. Strain Turk 54 (accession {"type":"entrez-nucleotide","attrs":{"text":"EU780683","term_id":"212725653","term_text":"EU780683"}}EU780683) is widespread and has previously been reported in Phlebotomus papatasi and other insects. Strain Turk 07 (accession {"type":"entrez-nucleotide","attrs":{"text":"KC576916","term_id":"499068248","term_text":"KC576916"}}KC576916) is a novel strain, found for first time in the two sister species. A-group strains of W. pipientis occur throughout much of the habitat of these sandflies. It is possible that Wolbachia is transferred via horizontal transmission. Horizontal transfer could shed light on sandfly control because Wolbachia is believed to drive a deleterious gene into sandflies that reduces their natural population density. With regard to our findings in this study, we can conclude that one species of sandfly can be infected with different Wolbachia strains and that different species of sandflies can be infected with a common strain.     

First report on Wolbachia endosymbiosis in freshwater Aphelocheirus aestivalis (Heteroptera: Aphelocheiridae) and its potential impact on genetic diversity of host

Alphaproteobacteria Wolbachia have been described as endosymbionts of approximately half of all aquatic insect species. These bacteria might affect not only reproduction but also the genetic diversity of its hosts. In the present study we identified Wolbachia endosymbiosis in freshwater true bug Aphelocheirus aestivalis F., 1794 (Heteroptera: Aphelocheiridae). Despite the fact that A. aestivalis is widely distributed in Europe, it occurs rather locally, often in isolated populations. Taking into account that Wolbachia, close relationships and past demographic phenomena could affect the genetic diversity of its host, we analyzed mitochondrial (COI and 16S) and nuclear (internal transcribed spacer 2) markers determined for A. aestivalis individuals collected from five populations. Moreover, we compared obtained COI sequences with those deposited in GenBank. Analyses revealed low genetic differentiation among samples tested, as well as low variation among determined COI sequences and those downloaded from the database. Although Wolbachia infection could correlate with decreasing mitochondrial diversity of its host, we suggest that low genetic variation observed in tested A. aestivalis samples (at both mitochondrial and nuclear levels) is a result of populations’ close relationships, past demographic phenomena or is characteristic for this species. Detailed analysis of the wsp gene fragment revealed two distinct strains of Wolbachia infecting A. aestivalis. Both of them belong to supergroup A, also found in other arthropods.     

High levels of multiple Wolbachia infection and recombination in the ant Formica exsecta

Wolbachia bacteria are intracellular symbionts of many arthropod species. Their spread through host populations is promoted by drastic alterations imposed on their hosts' reproductive physiology. In the present study, we analyzed the association between Wolbachia strains and host mitochondrial haplotypes in a Swiss population of the ant Formica exsecta. In this species, female dispersal is extremely limited and the mitochondrial haplotypes are strongly differentiated between and within subpopulations. Our study revealed exceptionally high levels of multiple infection, with all ants harboring four or five distinct Wolbachia strains. Four of these strains were present in all ants analyzed. A fifth strain was associated with only three of the five mitochondrial haplotypes. An analysis of the Wolbachia gene wsp further revealed an unexpected high rate of recombination, with three of the five Wolbachia strains appearing to have arisen by homologous recombination.     

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.     

Negative evidence of parthenogenesis induction by Wolbachia in a gallwasp species, Dryocosmus kuriphilus

The alpha‐proteobacteria of the genus Wolbachia is a widespread group of maternally inherited endosymbionts of arthropod and nematode hosts. Wolbachia infection induces a range of host phenotypes, including cytoplasmic incompatibility, male killing, feminization, and induction of thelytokous parthenogenesis. Heterogony (cyclical parthenogenesis) is a remarkable characteristic of oak gallwasps, Cynipini, the largest tribe of the Cynipidae. A few species of Cynipini are exceptional in that they are univoltine and exhibit thelytokous parthenogenesis, probably because they lost the arrhenotokous generation of their heterogonic ancestor species due to Wolbachia infection. In this study, the presence of Wolbachia was detected using polymerase chain reaction primers for the wsp genes in a thelytokous parthenogenetic species [Dryocosmus kuriphilus (Yasumatsu)] (Hymenoptera: Cynipidae: Cynipini). Approximately 29.8 and 87.1% of adults of the Zhuzhou and Fuzhou strains, respectively, were infected with Wolbachia while all females of the remaining four strains collected from other localities in China were Wolbachia free. The length of the wsp fragment of Zhuzhou and Fuzhou strains was found to be 573 and 561 bp, respectively. The nucleotide sequence of the bacterial wsp fragment indicated that the endosymbiotic bacteria of the Zhuzhou and Fuzhou strains are members of supergroup A, but belong to different clades; they probably originated from two independent infection events. In conclusion, thelytokous parthenogenesis of D. kuriphilus is not caused by Wolbachia infection and the deletion of the arrhenotokous generation is thus not associated with such an infection.     

Prevalence and evolutionary history of endosymbiont Wolbachia (Rickettsiales: Anaplasmataceae) in parasitoids (Hymenoptera: Braconidae) associated with Bactrocera fruit flies (Diptera: Tephritidae) infesting carambola

Wolbachia endosymbiont is a maternally inherited bacteria that infects a wide range of hosts, including parasitoids and their respective hosts. In this study, a total of 171 individuals of braconid endoparasitoids, consisting of Fopius arisanus, F. vandenboschi, Diachasmimorpha longicaudata, Psyttalia sp.1, Psyttalia sp.2, P. fletcheri and P. incisi, and their host tephritid fruit flies of Bactrocera dorsalis, B. papayae and B. carambolae infesting carambola were screened molecularly by the Wolbachia surface protein (wsp) gene. Interestingly, 21 (24.14%) wsp gene sequences were successfully isolated from 87 braconid samples tested, showing a low infection rate of Wolbachia. However, despite the close ecological contact between parasitoids and their hosts, none of the tephritid individuals were infected by Wolbachia. A comparison of wsp and host mitochondrial cytochrome c oxidase subunit I (COI) sequences found that braconids did not cluster in connection with Wolbachia infection, suggesting that selective sweep has not yet occurred because Wolbachia may have recently infected the braconid populations in Peninsular Malaysia (≈0.1 MYA). Despite of relatively recent infections of Wolbachia, the history of Wolbachia infection into F. arisanus populations of Peninsular Malaysia is complex, involving at least two independent occasions of infection and two secondary losses.     

Wolbachia在我国广赤眼蜂种群内的感染

Wolbachia是广泛分布于节肢动物生殖组织内的一类细胞内共生菌,它属于原细菌的α亚类,能够通过调控寄主的生殖活动而促进其在寄主种群中的扩散。通过对wsp 基因的克隆及PCR-RFLP分析确定了Wolbachia在我国广赤眼蜂种群内的存在,并发现有2种Wolbachia 菌系的感染,命名为wEvaA和wEvaB。经过克隆分离得到了这2种Wolbachia的wsp基因序列,在GenBank的登录号为AY390279和 AY390280 ,并由基于wsp基因的聚类树中发现,这两种Wolbachia菌系均属于A组。     

二斑叶螨体内感染的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扩增法检测了二斑叶螨Tetranychus urticae Koch 12个地理种群（辽宁兴城、河北昌黎、湖南长沙、河南郑州、江苏徐州、甘肃兰州、云南昆明、山东泰安、新疆石河子、宁夏银川、陕西眉县和上海）感染Wolbachia的状况。结果表明,12个地理种群全部感染了Wolbachia。克隆分离得到了它们的wsp基因序列,在GenBank的登录号依此为： AY585714、 AY585712、AY785376、AY785375、AY585713、AY785374、AY785371、AY712954、AY712955、AY785372、AY785377和AY785373。对序列进行系统发育分析,发现它们全部与B大组Ori组的Wolbachia株系十分相近或完全相同。总体来看,它们的聚类关系基本上呈平行交叉分布,在不同种群之间没有构成明显的地理分布聚集性。     

不同生物型烟粉虱体内Wolbachia共生菌的检测及其系统树分析

Wolbachia是广泛分布于节肢动物体内一类共生细菌,它能够通过多种机制调控宿主的生殖方式。近年来的研究表明,Wolbachia与许多外来生物的成功入侵相关。本文利用长PCR的方法特异扩增了不同生物型烟粉虱（共24个种群）体内Wolbachia的wsp基因,结果发现B型和Q型烟粉虱入侵种群体内均未检测到Wolbachia,而在非B/Q型的浙江种群和肯尼亚种群体内检测到了Wolbachia。对该wsp基因进行测序并和已知序列进行同源性分析发现,浙江烟粉虱种群的Wolbachia属于B组Con/Rug亚种群,而肯尼亚种群属于B组Btab1亚种群。Wolbachia的存在与否可能与烟粉虱的成功入侵有一定的关系。图2表2参23