Wolbachia在我国不同地理种群的玉米螟赤眼蜂中的分布

Wolbachia是一类可以引起寄主生殖行为改变的共生菌,广泛存在于节肢动物内。玉米螟赤眼蜂Trichogramma ostriniae Pang et Chen是我国亚洲玉米螟Ostrinia furnacalis(Guene)卵寄生蜂的优势种。本文利用Wolbachia的16SrDNA基因特异性引物进行PCR扩增以及克隆测序,对我国14个地区的玉米螟赤眼蜂种群中Wolbachia的感染情况做了详细的调查。结果发现,被测的1412头野生玉米螟赤眼蜂全部感染有Wolbachia。系统发育分析表明,北京柳沟、山东菏泽、河南郑州、河南驻马店、湖南长沙5个种群存在超感染现象。这是Wolbachia在玉米螟赤眼蜂种群内分布情况的首次报道。     

卷蛾赤眼蜂体内共生Wolbachia对寄主产雌孤雌生殖行为的影响

在30℃的条件下,连续饲养卷蛾赤眼蜂 Trichogramma cacoeciae Marchall 10代,观察每代蜂的生物学特性,并进行Wolbachia的wsp基因的分子检测,以研究卷蛾赤眼蜂产雌孤雌生殖行为与其体内共生菌Wolbachia的关系.结果表明,高温下卷蛾赤眼蜂体内的Wolbachia被抑制,4代以后wsp基因的PCR检测结果变为阴性;同时赤眼蜂的产雌孤雌生殖行为的改变程度也随着世代的增加呈递增趋势.这显示卷蛾赤眼蜂的产雌孤雌生殖行为与其体内的共生菌Wolbachia具有一定程度的相关性.     

卷蛾赤眼蜂体内共生菌Wolbachia对寄主产雌孤雌生殖行为的影响

在30℃的条件下,连续饲养卷蛾赤眼蜂Trichogramma cacoeciaeMarchall10代,观察每代蜂的生物学特性,并进行Wolbachia的wsp基因的分子检测,以研究卷蛾赤眼蜂产雌孤雌生殖行为与其体内共生菌Wolbachia的关系。结果表明,高温下卷蛾赤眼蜂体内的Wolbachia被抑制,4代以后wsp基因的PCR检测结果变为阴性;同时赤眼蜂的产雌孤雌生殖行为的改变程度也随着世代的增加呈递增趋势。这显示卷蛾赤眼蜂的产雌孤雌生殖行为与其体内的共生菌Wolbachia具有一定程度的相关性。     

Wolbachia在螟黄赤眼蜂种群内的分布及其遗传稳定性

本文通过对Wolbachia的wsp及16S rDNA基因的PCR扩增及克隆测序,明确了Wolbachia在华南、华北不同作物田间螟黄赤眼蜂Trichogramma chilonis种群内的分布情况.结果表明,在所有检测的螟黄赤眼蜂个体内都存在着Kue和Pip两组Wolbachia,双重感染率达到了100%.在不同温度下用米蛾Corcyra cephalonica Stainton卵饲养多代后,螟黄赤眼蜂体内的Wolbachia类型及感染率未发生改变,表明Wolbachia能够在螟黄赤眼蜂体内稳定遗传,不受环境温度的直接影响.本研究中螟黄赤眼蜂为两性生殖或孤雌产雄生殖,Wolbachia未能引起赤眼蜂的产雌孤雌生殖.首次报道了Wolbachia在我国螟黄赤眼蜂野生种群内的分布情况及其遗传稳定性.     

安荔赤眼蜂在中国野外首次发现及其体内Wolbachia的检测

【目的】为丰富赤眼蜂Trichogramma的种类资源,明确野外新采集的一种赤眼蜂的种类,探明该赤眼蜂所感染Wolbachia的类型。【方法】采用挂米蛾Corcyra cephalonica卵卡法在华南农业大学树木园诱集到两批赤眼蜂,通过形态鉴定和PCR扩增ITS2序列并测序分析的分子鉴定手段对野外采集的赤眼蜂材料进行种类鉴定;通过PCR扩增Wolbachia的外膜蛋白基因(wsp)序列,检测赤眼蜂体内Wolbachia的感染情况;通过PCR扩增wsp序列和多位点序列分型(multilocus sequence typing, MLST)对检测到的赤眼蜂体内的Wolbachia进行同源性分析。【结果】所诱集到的两批赤眼蜂均被鉴定为安荔赤眼蜂Trichogramma oleae Voegelé & Pointel,体内Wolbachia的感染率达100%。该Wolbachia株系与安荔赤眼蜂(前南斯拉夫品系)、短管赤眼蜂T. pretiosum(乌拉圭品系)以及T. deion(荷兰品系)体内Wolbachia亲缘关系较近,属于B超组Sib亚组,对应MLST序列型为ST486。【结论】安荔赤眼蜂T. oleae为中国野外首次发现,是完全感染Wolbachia的产雌孤雌生殖品系。本研究为害虫生物防治提供了一种新的天敌种类资源,并为进一步探明Wolbachia与赤眼蜂的互作提供了研究材料。     

亚洲不同地理种群褐飞虱内共生菌Wolbachia的分子检测

褐飞虱Nilaparvata lugens Stl是水稻的重要害虫,而Wolbachia是其重要的次生共生细菌之一。为了解褐飞虱种群感染Wolbachia的情况,本研究对采自世界褐飞虱主要分布区的22个地理种群感染Wolbachia的情况进行了检测和分析。qPCR结果表明,除杭州2009年种群没有检测出Wolbachia外,其它21个种群中都有不同程度的Wolbachia感染。对Wolbachia的wsp基因序列的比较和进化分析表明,褐飞虱各地理种群Wolbachia都属于B群,并可进一步分为Ori和Con两个亚群。其中18个褐飞虱种群中的Wolbachia属于Ori亚群,广东清远和浙江桐乡褐飞虱种群中的Wolbachia则属于Con亚群,而菲律宾Iloilo褐飞虱种群分别检测到同时有2个亚群Wolbachia感染。本结果可为进一步研究褐飞虱与共生菌的共生关系、褐飞虱致害性变异和迁飞路线分析及利用Wolbachia防治褐飞虱提供依据。     

温度通过影响Wolbachia滴度调控赤眼蜂生殖方式

【目的】揭示温度对宿主体内Wolbachia滴度及其调控宿主生殖作用的影响。【方法】以感染Wolbachia且营孤雌产雌生殖的食胚赤眼蜂Trichogramma embryophagum为对象,在22,25,28和31℃4个梯度温度下连续培养5代,观察生殖方式、性比等生物学特性;采用实时荧光定量PCR以Wolbachia特异基因——外膜蛋白基因(wsp)、二磷酸果糖醛缩酶基因(fbp A)和酰胺转移酶基因(gat B)为靶标对内生菌进行定量分析。【结果】22和25℃条件下连续培养5代,食胚赤眼蜂生殖方式均未发生改变(无雄蜂出现),且5代赤眼蜂群体Wolbachia滴度没有明显差异;28℃下,食胚赤眼蜂在F3代开始有雄蜂出现,至F5代雄蜂比例明显增多,且体内Wolbachia滴度在F2代开始下降,至F5代显著下降;31℃下,F2代即有雄蜂出现,至F5代已经恢复成产雄孤雌生殖,体内Wolbachia滴度也在F2代开始下降,F3代开始显著降低,到F5代Wolbachia滴度极小甚至检测不到。【结论】高温可改变营孤雌产雌生殖赤眼蜂的生殖方式及体内Wolbachia滴度,且随着处理代数的增加以及温度的升高作用显著,即高温对营孤雌产雌生殖赤眼蜂生殖方式改变程度与其体内Wolbachia滴度呈负相关。     

Wolbachia属共生菌及其对节肢动物宿主适合度的影响

Wolbachia是广泛分布于节肢动物体生殖组织内呈母质遗传的一类共生细菌。近30多年来,大量的研究主要集中于Wolbachia对宿主生殖方式的调控方面;近年来的研究发现,Wolbachia对节肢动物宿主的适合度具有不同程度的影响。现对Wolbachia的宿主分布、存在部位及其对节肢动物宿主种群适合度的影响等方面进行了综述,探讨了Wolbachia在该领域的研究意义和潜在的应用价值。     

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...     

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。     

Addition of wsp Sequences to the Wolbachia Phylogenetic Tree and Stability of the Classification

Wolbachia are symbiotic bacteria altering reproductive characters of numerous arthropods. Their most recent phylogeny and classification are based on sequences of the wsp gene. We sequenced wsp gene from six Wolbachia strains infecting six Trichogramma species that live as egg parasitoids on many insects. This allows us to test the effect of the addition of sequences on the Wolbachia phylogeny and to check the classification of Wolbachia infecting Trichogramma. The six Wolbachia studied are classified in the B supergroup. They confirm the monophyletic structure of the B Wolbachia in Trichogramma but introduce small differences in the Wolbachia classification. Modifications include the definition of a new group, Sem, for Wolbachia of T. semblidis and the merging of the two closely related groups, Sib and Kay. Specific primers were determined and tested for the Sem group.     

米蛾体内Wolbachia的wsp基因序列测定与系统发育分析

Wolbachia是广泛分布于节肢动物体内的一类共生菌, 它们参与多种调控寄主的生殖活动机制。通过对wsp基因的特异性扩增和测序,发现了Wolbachia在米蛾Corcyra cephalonica (Stainton)体内的感染。利用所测序列和其他已发表的序列建立系统树,结果表明米蛾体内Wolbachia属于B大组的Pip类群,与其寄生物茧蜂及赤眼蜂中的Wolbachia各株系遗传距离相差较远。据此推测米蛾体内感染的Wolbachia不是由寄生物（茧蜂、赤眼蜂）水平传播所致。     

Wolbachia在玉米螟赤眼蜂内的三重感染

Wolbachia是一类广泛存在于节肢动物体内的共生菌。玉米螟赤眼蜂Trichogramma ostriniae是我国玉米田间的优势赤眼蜂种, 据报道, 赤眼蜂种内有Wolbachia感染。本文利用Wolbachia的16s rDNA和wsp基因引物通过PCR方法对玉米螟赤眼蜂的野生种群进行了调查, 发现以wsp基因为鉴定依据, 检测的所有个体都感染了3种Wolbachia ［wOstGDAa (GenBank accession no. EU157103), wOstGDAb (GenBank accession no. EU157104) 和 wOstGDB (GenBank accession no. EU157105)］。本文首次报道了野生赤眼蜂种群内Wolbachia的三重感染率几乎为100%。根据本研究的结果, 可以推测当不同种赤眼蜂寄生同一寄主时, Wolbachia可能会在不同赤眼蜂种间进行横向传播。     

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。     

Use of tetracycline in larval diet to study the effect of Wolbachia on host fecundity and clarify taxonomic status of Trichogramma species in cured bisexual lines

Endosymbionts of the genus Wolbachia were efficiently cured from Trichogramma species by incorporating 0.02% tetracycline into the artificial diet used to rear larvae. Use of this technique yielded stable cured lines (bisexual and arrhenotokous lines) in which no Wolbachia organisms were detected by PCR for up to 14 generations after curing. Four cured strains of Trichogramma pretiosum showed a significantly lower total fecundity compared to their Wolbachia-infected counterpart. However, the fecundity of a single cured strain of Trichogramma evanescens was similar to its Wolbachia-infected counterpart. These differences in the effect on fecundity may be due to differences between the Wolbachia strains infecting T. pretiosum or T. evanescens, providing additional evidence for the hypothesis that a specific interaction exists between some Trichogramma species and their Wolbachia symbionts. Tetracycline in larval diet was also used to generate bisexual strains of Trichogramma oleae and Trichogramma cordubensis so that these species could be crossed with the closely related species, respectively, T. pretiosum and T. evanescens, to test their compatibility. These crosses showed a lack of compatibility, validating maintenance of these as distinct species.     

A Survey of the bacteriophage WO in the endosymbiotic bacteria Wolbachia

Bacteriophages are common viruses infecting prokaryotes. In addition to their deadly effect, phages are also involved in several evolutionary processes of bacteria, such as coding functional proteins potentially beneficial to them, or favoring horizontal gene transfer through transduction. The particular lifestyle of obligatory intracellular bacteria usually protects them from phage infection. However, Wolbachia, an intracellular alpha-proteobacterium, infecting diverse arthropod and nematode species and best known for the reproductive alterations it induces, harbors a phage named WO, which has recently been proven to be lytic. Here, phage infection was checked in 31 Wolbachia strains, which induce 5 different effects in their hosts and infect 25 insect species and 3 nematodes. Only the Wolbachia infecting nematodes and Trichogramma were found devoid of phage infection. All the 25 detected phages were characterized by the DNA sequence of a minor capsid protein gene. Based on all data currently available, phylogenetic analyses show a lack of congruency between Wolbachia or insect and phage WO phylogenies, indicating numerous horizontal transfers of phage among the different Wolbachia strains. The absence of relation between phage phylogeny and the effects induced by Wolbachia suggests that WO is not directly involved in these effects. Implications on phage WO evolution are discussed.     

Effects of repeated thermic and antibiotic treatments on a Trichogramma (Hym., Trichogrammatidae) symbiont

Each individual of all populations of the thelytokous species Trichogramma cordubensis is infected by Wolbachia . Populations are composed of females, a few rare males and some intersexual or gynandromorphic individuals often capable of normal reproduction as females. Antibiotic (minocycline) and high temperature (30°C) treatments inactivate Wolbachia and induce male production. After these treatments, the sex ratio depending on the remaining frequency of thelytoky shows a genetic variability. Effect of cycles with and without treatments (minocycline or 30°C) on the thelytokous reproduction of 'individuals' (one 'individual' being one Trichogramma + n Wolbachia ) was studied. The resistance of thelytokous reproduction to 30°C but not to minocycline, probably due to Wolbachia genes, increased. It is concluded that potentialities of adaptation to high temperature exist in Wolbachia and can explain a part of the spreading of these symbionts among host populations.     

Natural interspecific and intraspecific horizontal transfer of parthenogenesis-inducing Wolbachia in Trichogramma wasps

The intracellular bacterium Wolbachia is one of the most common symbionts in arthropods and, because of its manipulative effects on host reproduction, is assumed to be an important factor in several evolutionary processes. These bacteria are mainly vertically transmitted from mother to daughter through the egg cytoplasm, and horizontal transmission is generally assumed to be rare. Here, we show natural inter- and intraspecific horizontal transfer of parthenogenesis-inducing Wolbachia between parasitoid wasps of the genus Trichogramma. Horizontal transfer was observed when infected and uninfected larvae shared the same host egg. This is the first report, to our knowledge, on interspecific horizontal transfer of Wolbachia between closely related sympatric species. Some originally uninfected immature wasps acquired Wolbachia while inside the host egg, but not all of these newly infected females exhibited the parthenogenesis phenotype. In general, intraspecific horizontal transfer was more successful than interspecific transfer. Wolbachia underwent vertical transmission in the new species but the infection tended to be lost within several generations. Our results have important implications for understanding the evolution of Wolbachia-host associations.     

Cytology of Wolbachia-induced parthenogenesis in Leptopilina clavipes (Hymenoptera: Figitidae).

Parthenogenesis induced by cytoplasmatically inherited Wolbachia bacteria has been found in a number of arthropod species, mainly Hymenoptera. Previously, two different forms of diploidy restoration have been reported to underlie parthenogenesis induction in Hymenoptera by Wolbachia. Both are a form of gamete duplication, but each differs in their timing. We investigated the cytology of the early embryonic development of a Wolbachia-infected strain of the parasitoid wasp Leptopilina clavipes and compared it with that of an uninfected sexual strain. Both strains have a similar meiosis. In the infected parthenogenetic strain, diploidy is restored by anaphase restitution during the first somatic mitosis, similar to Trichogramma, but not to Muscidifurax. Our results confirm the occurrence of different cytological mechanisms of diploidy restoration associated with parthenogenesis-inducing Wolbachia in the order Hymenoptera.