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。     

Wolbachia strains in cryptic species of the Anastrepha fraterculus complex (Diptera,Tephritidae) along the Neotropical Region

Infection by Wolbachia was described previously in eleven species of Anastrepha fruit flies some of which are important pests of fruticulture. One such species is the nominal Anastrepha fraterculus, the South American fruit fly, which actually comprises a complex of cryptic species. The suggestions of using Wolbachia for the control of these pest species, make imperative a more precise characterization of the existing strains of the bacteria. In this study, population samples of the A. fraterculus complex from Brazil, Argentina, Peru, Ecuador, Colombia, Guatemala and Mexico were analyzed for Wolbachia infection. The bacteria were genotyped by the MLST and WSP Typing methodologies. All samples were infected with Wolbachia of supergroup “A”. For each of the five MLST genes, unique as well as already known alleles were detected. Nineteen sequence types for the concatenated sequences of the five MLST genes, and twenty wsp alleles were found in the samples. Host-specific haplotypes, shared strains among distinct hosts, and more than one strain of Wolbachia were found in some population samples. Recombination among the MLST genes and intragenic recombination between wsp haplotypes was rare. Phylogenetic analysis showed a great similarity among the Wolbachia strains in the A. fraterculus complex. However, some strains of Wolbachia are found throughout the Neotropical Region and there are specific strains in determined geographical areas.     

Insight into the routes of Wolbachia invasion: high levels of horizontal transfer in the spider genus Agelenopsis revealed by Wolbachia strain and mitochondrial DNA diversity

The pandemic distribution of Wolbachia (alpha-proteobacteria) across arthropods is largely due to the ability of these maternally inherited endosymbionts to successfully shift hosts across species boundaries. Yet it remains unclear whether Wolbachia has preferential routes of transfer among species. Here, we examined populations of eight species of the North American funnel-web spider genus Agelenopsis to evaluate whether Wolbachia show evidence for host specificity and the relative contribution of horizontal vs. vertical transmission of strains within and among related host species. Wolbachia strains were characterized by multilocus sequence typing (MLST) and Wolbachia surface protein (WSP) sequences, and analysed in relation to host phylogeny, mitochondrial diversity and geographical range. Results indicate that at least three sets of divergent Wolbachia strains invaded the genus Agelenopsis. After each invasion, the Wolbachia strains preferentially shuffled across species of this host genus by horizontal transfer rather than cospeciation. Decoupling of Wolbachia and host mitochondrial haplotype (mitotypes) evolutionary histories within single species reveals an extensive contribution of horizontal transfer also in the rapid dispersal of Wolbachia among conspecific host populations. These findings provide some of the strongest evidence to support the association of related Wolbachia strains with related hosts by means of both vertical and horizontal strain transmission. Similar analyses across a broader range of invertebrate taxa are needed, using sensitive methods for strain typing such as MLST, to determine if this pattern of Wolbachia dispersal is peculiar to Agelenopsis (or spiders), or is in fact a general pattern in arthropods.     

<Emphasis Type="Italic">Wolbachia</Emphasis> Are Present in Southern African Scorpions and Cluster with Supergroup F

The presence and distribution of the intracellular bacteria Wolbachia in the arthropod subphylum Chelicerata (including class Arachnida) has not been extensively explored. Here we report the discovery of Wolbachia in scorpions. Five strains found in host species of the genus Opistophthalmus (Southern African burrowing scorpions) have been characterized by Multilocus Sequence Typing and by Wolbachia Surface Protein. Phylogenetic analyses indicate clustering in the supergroup F and a high genetic relatedness among all scorpion strains as a result of a potential transmission within the host genus. The F-group is an uncommon lineage compared to the A and B supergroups, although it is present in a broad range of hosts (including insects, filarial nematodes, and now arachnids) and across a large geographical area (e.g., North America, Africa, Europe, and Australia). It also shows no evidence of recombination and has a significantly higher genetic diversity than supergroup A and B. Overall, this pattern suggests an older radiation of F-strains with respect to A and B-strains, followed by limited horizontal transmission across host genera and reduced genetic flux among strains. A more extensive sampling of supergroup F-strains is required to confirm this scenario.     

199株猪链球菌临床分离株血清型、毒力基因及多位点序列分型分析

【背景】猪链球菌（Streptococcus suis,SS）血清型、基因型众多,毒力因子复杂。【目的】了解SS临床分离株血清型、毒力基因分布、分子分型特征及其之间的相关性。【方法】针对199株SS临床分离株,应用PCR技术进行血清分型和毒力基因检测,采用多位点序列分型方法（multilocus sequence typing,MLST）进行基因分型,并分析SS血清型、毒力基因型和序列型（sequence type,ST型）的流行特点及其关联性。【结果】199株SS临床分离株分属于16种血清型（1、2、3、4、6、7、8、9、10、12、15、16、21、24、29和30型）,主要以2、4、3型为主,分别占26.13%（52/199）、14.57%（29/199）和12.06%（24/199）,未定型（NT）菌株占21.61%（43/199）。共鉴定出72种ST型,其中ST1、ST94、ST117、ST7、ST28和ST87为主要ST型,分别占12.56%（25/199）、11.56%（23/199）、9.56%（19/199）、9.04%（18/199）、6.03%（12/199）和3.01%（6/199）,另有24种新发现的ST型（ST1224—ST1227,ST1229—ST1235,ST1241—ST1242,ST1300—ST1310）;分为12个克隆群（cloning complexes,CC）和32个单个ST型。199株SS分离株中毒力基因fbps的检出率最高,为96.98%（193/199）;共有19种毒力基因型,其中66株（33.17%）epf-/mrp-/sly-/gapdh+/fbps+/orf2+型SS为优势毒力基因型。【结论】近年来SS的优势血清型为2、4和3型;ST型具有明显的遗传异质性,种内分化程度较高且与ST型存在一定交叉性;毒力基因分布情况存在差异,毒力基因型呈现多样化。本研究对SS临床分离株的流行特征进行探究,为猪SS病诊断、治疗和制定防控措施提供科学依据。     

儿童感染青霉素耐药肺炎链球菌的 多位点序列分型

目的对儿童感染的青霉素耐药肺炎链球菌进行多位点序列分型,了解厦门地区肺炎链球菌青霉素耐药菌株遗传背景。方法采用多位点序列分型法对2012年1月至2014年12月期间分离的60株青霉素耐药肺炎链球菌进行分子分型。结果 60株青霉素耐药肺炎链球菌MLST法共检出24个ST型,其中发现6个新的ST型,分别被命名为ST10004、ST10005、ST10006、ST10007、ST10008和ST10009。存在一个优势型别ST271,占31.7%(19/60),发现了4个克隆群和20种单一克隆,其中主要克隆群为国际流行耐药克隆群Taiwan19F-14,占41.7%(25/60)。结论本地区分离的儿童青霉素耐药肺炎链球菌主要以ST271型为主,属国际流行耐药克隆群Taiwan19F-14,是引起儿童呼吸道感染肺炎链球菌多重耐药的主要原因。