Detection of Wolbachia DNA in blood from dogs infected with Dirofilaria immitis

Dirofilaria immitis is the causative agent of heartworm disease in canines and felines, and pulmonary dirofilariasis in man. It harbors a symbiotic intracellular bacterium from the genus Wolbachia that plays an important role in its biology and contributes to the inflammatory pathology of the heartworm. This endosymbiont is sensitive to the tetracycline family of antibiotics prompting its use in the treatment of filariasis. To track Wolbachia during treatment, primers were designed based on the FtsZ gene from Wolbachia. These primers amplify a single PCR product with the expected size from DNA samples derived from various species of worms that harbor Wolbachia (D. immitis, Brugia malayi and Brugia pahangy). The detection limit of Wolbachia DNA in the assay was 80 pg of D. immitis DNA. Furthermore, the primer set successfully amplified the expected PCR product using blood samples from dogs harboring the heartworm and circulating microfilariae.     

Effects of crowding and temperature on Wolbachia infection density among life cycle stages of Aedes albopictus

Species of the genus Wolbachia are a group of Rickettsia-like, maternally-inherited bacteria (gram negative), which cause various reproductive alterations in their arthropod and nematode hosts including cytoplasmic incompatibility (CI), male-killing, parthenogenesis and feminization. They can be divided into supergroups such as A and B based on phylogenetic analysis of 16S rDNA sequences. In this study, we examined the relative infection densities of Wolbachia strains among life cycle stages in the mosquito, Aedes albopictus in terms of crowding effect and temperature effect. A. albopictus is known to be superinfected with both A- and B-supergroup Wolbachia which cause CI. The relative Wolbachia densities within each individual mosquito were determined and quantified by using real-time quantitative PCR assay based on the wsp gene. We found that B-supergroup Wolbachia strain densities in this host species were consistently and significantly higher than in the A-supergroup. Larval crowding also reduced adult size of mosquitoes. Our results show clearly that the higher densities of mosquito larvae cause lower densities of Wolbachia strains. Examination of the effect of temperature on Wolbachia density in each stage of the mosquito clearly revealed a significant decrease in bacterial density following exposure to elevated temperature (37 °C) in both males and females.     

Phylogenetically distinct Wolbachia gene and pseudogene sequences obtained from the African onchocerciasis vector Simulium squamosum

Wolbachia are intracellular bacteria mostly found in a diverse range of arthropods and filarial nematodes. They have been classified into seven distinct ‘supergroups’ and other lineages on the basis of molecular phylogenetics. The arthropod-infecting Wolbachia are usually regarded as reproductive parasites because they manipulate their host species’ sexing system to enhance their own spread, and this has led to their investigation as potential agents of genetic control in medical entomology. We report 12 partial Wolbachia gene sequences from: aspC, aspS, dnaA, fbpA, ftsZ, GroEL, hcpA, IDA, rpoB, rpe, TopI and wsp as well as a single ftsZ pseudogene sequence, which have all been PCR-amplified from Simulium squamosum (Diptera: Simuliidae). To our knowledge this is the first such report from Simuliidae. Uninterrupted open-reading frame sequences were obtained from all 12 genes, covering ∼6.2 kb of unique DNA sequence. Phylogenetic analyses with the different coding genes gave consistent results suggesting that the Wolbachia sequences obtained here do not derive from any of the known Wolbachia supergroups or lineages. Consistent with a unique genetic status for the S. squamosumWolbachia, the hypervariable regions of the Wolbachia-specific wsp gene were distinct from all previous records in both sequence and length. As well as potential implications for newly emerging Wolbachia-based disease control methods, the results may be relevant to some problems experienced in the laboratory colonisation of Simulium damnosum sensu lato and why it is such a diverse species complex.     

Pervasive associations between Cybaeus spiders and the bacterial symbiont Cardinium

Cardinium is a recently discovered maternally transmitted bacterial endosymbiont in the Bacteroidetes that has thus far been documented in five arthropod orders. While its effects on his hosts are largely unknown, a few strains have been shown to manipulate host reproduction in parasitic wasps and in mites, either by transforming males into females, or by causing mating incompatibilities between infected males and uninfected males. Cardinium has recently been reported to be widespread in spiders, and in this study, we document pervasive infections in Cybaeus spiders, which are some of the most abundant yet understudied spiders in the understory of moist Western North American forests. 12/20 species, as well as 96% of individuals in a local population of Cybaeus signifer were infected. Phylogenetic analysis revealed three closely related symbiont haplotypes within Cybaeus. Haplotypes clustered within geographically close species, suggesting that horizontal transmission might be quite high in this symbiont lineage.     

Mycobiota associated with the ambrosia beetle Scolytodes unipunctatus (Coleoptera: Curculionidae, Scolytinae)

Ambrosia beetles (Coleoptera: Scolytinae) are associated with strictly entomochoric and mutualistic fungi. We studied the mycobiota associated with Scolytodes unipunctatus, ambrosia beetles that infest Cecropia trees in Central America. Isolates were characterized using morphology and rDNA sequences (ITS region, LSU, and SSU rDNA). Four species are described here: Raffaelea scolytodis sp. nov. (Ophiostomatales), Gondwanamyces scolytodis sp. nov., Custingophora cecropiae sp. nov., and Graphium sp. (Microascales). The genus Custingophora is emended to include Knoxdaviesia anamorphs of Gondwanamyces based on uniformity of DNA sequences and phenotype.     

RPB2 sequences reveal a close phylogenetic relationship between tetraploid Hordelymus and diploid Hordeum species in Triticeae (Poaceae)

The origin of Hordelymus genome has been debated for years, and no consensus conclusion was reached. In this study, we sequenced and analyzed the RPB2 (RNA polymerase subunit II) gene from Hordelymus europaeus (L.) Harz, and its potential diploid ancestor species those were suggested in previous studies. The focus of this study was to examine the phylogenetic relationship of Hordelymus genomes with its potential donor Hordeum, Psathyrostachys, and Taeniatherum species. Two distinguishable copies of sequences were obtained from H. europaeus. The obvious difference between the two copies of sequences is a 24 bp indel (insertion/deletion). Phylogenetic analysis showed a strong affinity between Hordeum genome and Hordelymus with 85% bootstrap support. These results suggested that one genome in tetraploid H. europaeus closely related to the genome in Hordeum species. Another genome in H. europaeus is sister to the genomes in Triticeae species examined here, which corresponds well with the recently published EF-G data. No obvious relationship was found between Hordelymus and either Ta genome donor, Taeniatherum caput-medusae or Ns genome donor, Psathyrostachys juncea. Our data does not support the presence of Ta and Ns genome in H. europaeus, and further confirms that H. europaeus is allopolyploid.     

Conservation of the Type IV Secretion System throughout Wolbachia evolution

The Type IV Secretion System (T4SS) is an efficient pathway with which bacteria can mediate the transfer of DNA and/or proteins to eukaryotic cells. In Wolbachia pipientis, a maternally inherited obligate endosymbiont of arthropods and nematodes, two operons of vir genes, virB3-B6 and virB8-D4, encoding a T4SS were previously identified and characterized at two separate genomic loci. Using the largest data set of Wolbachia strains studied so far, we show that vir gene sequence and organization are strictly conserved among 37 Wolbachia strains inducing various phenotypes such as cytoplasmic incompatibility, feminization, or oogenesis in their arthropod hosts. In sharp contrast, extensive variation of genomic sequences flanking the virB8-D4 operon suggested its distinct location among Wolbachia genomes. Long term conservation of the T4SS may imply maintenance of a functional effector translocation system in Wolbachia, thereby suggesting the importance for the T4SS in Wolbachia biology and survival inside host cells.     

The ITS region as a taxonomic discriminator between Fusarium verticillioides and Fusarium proliferatum

The maize pathogens Fusarium verticillioides (Fv) and Fusarium proliferatum (Fp) are morphologically very similar to one another, so Fp isolates have been often mistaken as Fusarium moniliforme (the former name of Fv). The only presently accepted morphological discriminator between these species is the presence/absence of polyphialides. Here, a collection of 100 Fusarium strains, isolated from infected maize kernels on plants grown in north-western Italy, were assigned as Fv or Fp on the basis of the presence/absence of polyphialides. This classification was tested on a subset of isolates by sexual crosses, ITS and calmodulin sequencing and AFLP profiling. An ITS-RFLP assay was extended to the full collection and to a number of Fv and Fp isolates of different geographical origin and hosts. The ITS region is proposed as taxonomically informative for distinguishing between Fp and Fv.     

Brugia malayi: In vitro effects of ivermectin and moxidectin on adults and microfilariae

The effect of ivermectin and moxidectin on the motility of Brugia malayi adults and microfilariae and on the fertility of B. malayi females was examined. Motility was reduced in adults after exposure to both drugs and worms were non-motile and dead within eight days. The motility of microfilariae was significantly reduced at all drug concentrations and ceased at concentrations of 2500 and 5000 μg/mL. The motility of microfilariae released by females was reduced after exposure to both drugs, however ivermectin had a greater effect at concentrations between 170 and 5000 μg/mL. Both drugs reduced the number of microfilariae released by females and within four days their release was inhibited. The presence of the bacterial endosymbiont Wolbachia was examined in adults and microfilariae after exposure to increasing concentrations of ivermectin and moxidectin. A decrease in wsp expression was correlated with increasing drug concentration.     

The morphological distinction between the postcranial skeleton of Cervalces/Alces and Megaloceros giganteus and comparison between the two Alceini genera from the Upper Pliocene-Holocene of Western Europe

Alces alces, Cervalces and Megaloceros giganteus are deer of approximately the same size whose limb bones could be exchanged if fragmentary so morphological features are needed, enabling identification of postcranials remains. In this work the limb bone features described by Pfeiffer (1999a) as distinguishing Cervalces latifrons from M. giganteus are re-analyzed and further developed, considering also the vertebral column, the articular girdles and the carpals and tarsal elements. This analysis is extended to the other Cervalces species (C. gallicus, C. carnutorum and C. scotti) and to the present-day moose Alces alces. It results in a substantial uniformity in the postcranial skeleton of the species of the genus Cervalces, confirming what has already been stated by Sher (1987), that the Alceini, in the Upper Pliocene, constituted an already well-defined morphological type that did not undergo further structural postcranial remodeling.