Whole genome sequence analysis of circulating Bluetongue virus serotype 11 strains from the United States including two domestic canine isolates
Natasha N. GaudreaultDane C. JaspersonEdward J. DuboviDonna J. JohnsonEileen N. OstlundWilliam C. Wilson
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Abstract:
Bluetongue virus (BTV) is a vector-transmitted pathogen that typically infects and causes disease in domestic and wild ruminants. BTV is also known to infect domestic canines as discovered when dogs were vaccinated with a BTV-contaminated vaccine. Canine BTV infections have been documented through serological surveys, and natural infection by the Culicoides vector has been suggested. The report of isolation of BTV serotype 11 (BTV-11) from 2 separate domestic canine abortion cases in the states of Texas in 2011 and Kansas in 2012, were apparently unrelated to BTV-contaminated vaccination or consumption of BTV-contaminated raw meat as had been previously speculated. To elucidate the origin and relationship of these 2 domestic canine BTV-11 isolates, whole genome sequencing was performed. Six additional BTV-11 field isolates from Texas, Florida, and Washington, submitted for diagnostic investigation during 2011 and 2013, were also fully sequenced and analyzed. The phylogenetic analysis indicates that the BTV-11 domestic canine isolates are virtually identical, and both share high identity with 2 BTV-11 isolates identified from white-tailed deer in Texas in 2011. The results of the current study further support the hypothesis that a BTV-11 strain circulating in the Midwestern states could have been transmitted to the dogs by the infected Culicoides vector. Our study also expands the short list of available BTV-11 sequences, which may aid BTV surveillance and epidemiology.Keywords:
Culicoides
Many species of malaria and related haemosporidian parasites (Haemosporida) are responsible for diseases in wild and domestic animals. These pathogens are exclusively transmitted by blood-sucking dipteran insects (Diptera). Traditional vector studies, which are based mainly on experimental infection and subsequent dissection of insects, are time-consuming, so progress in the identification of the vectors has been slow. Since the discovery of haemosporidians in wildlife by V. Danilewsky in 1884, it took over 70 years to determine the main vector groups of these parasites. However, precise vector–parasite relationships remain insufficiently investigated in wildlife, particularly at the species level of haemosporidians and their vectors. Molecular tools have provided innovative opportunities to speed such research. In this issue of Molecular Ecology, Martínez-de la Puente et al. (2011) collected, for the first time, a significant PCR-based set of data on the presence of lineages of the pigment-forming haemosporidians (species of Haemoproteus and Plasmodium) in biting midges (Culicoides). They identified numerous associations between Culicoides spp. and Haemoproteus spp., indicating directions for future targeting vector studies of haemoproteids.
Haemoproteus
Culicoides
Plasmodium (life cycle)
Molecular marker
Identification
Molecular Ecology
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Culicoides
Ceratopogonidae
Orbivirus
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Blacklight traps were used to collect Culicoides biting midges weekly between September 1996 and August 1998 at 40 sites distributed equidistantly across South Africa. The seasonal and geographic prevalences of 86 species of Culicoides were elucidated simultaneously, and included C. imicola Kieffer and C. bolitinos Meiswinkel the principal vectors of bluetongue (BT) and African horse sickness (AHS) in the region. These two species were amongst the most prevalent Culicoides to be found and, together, comprised >50% of the more than three million biting midges captured. The data are presented as coloured matrices, and are transformed also into inverse distance weighting (IDW) interpolative maps. The data reveal that the prevalence of each vector is somewhat fractured and it is posited that this is (in part) due to significant differences in their respective breeding habitats. The results illustrate also that the presence of multiple vectors (in any region of the world) will complicate both the epidemiology of the orbiviral diseases they transmit and the formulation of rational livestock movement and disease control strategies. This is especially true for southern Europe where the recent devastating cycle of BT has been shown to involve at least three vectors. Finally, the influence that man has on the development of large foci of vector Culicoides around livestock may be less important than previously suggested but must be investigated further.
African horse sickness
Culicoides
Ceratopogonidae
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A total of 95 Bacillus thuringiensis strains isolated from Japan and belonging to H serotypes 10, 18 and 24, were examined for their H antigenic subfactors. Of 84 H serotype 10 isolates, 83 were identified as the H serotype 10a: 10b (serovar darmstadiensis) and only one isolate was assigned to the H serotype 10a: 10c (serovar londrina). Among five isolates belonging to the H serotype 18, three were allocated to the H serotype 18a: 18b (serovar kumamotoensis), while two isolates did not react to antisera against the two known H antigenic subfactors, 18b and 18c. All of the six H serotype 24 isolates were assigned to the H serotype 24a: 24b (serovar neoleonensis).
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The author describes some of the factors controlling the infection and transmission of bluetongue (BT) virus (BTV) by vector species of Culicoides. Also outlined are certain important features of the recent BT epizootic in the Mediterranean Basin, concentrating on those aspects involving vector transmission and overwintering of the virus. The regions affected by the outbreaks and the BTV serotypes involved are set out, the distribution of the major vector, C. imicola is described and the impact of novel vector species of Culicoides and a possible overwintering mechanism for the virus in Europe, are discussed.
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Culicoides
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Orbivirus
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Culicoides is a genus of biting midges in the family Ceratopogonidae, representing a big threat, giving that several species serve as biological vectors of pathogens of veterinary importance. BTV distribution and persistence is thought to be almost entirely dependent upon the presence or absence of Culicoides adults vector. In this study, biting midges were collected during 2015-2016, once a week, from April to December. In the first year, 2617 BTV vector specimens were collected and identified as Culicoides obsoletus (41.2%; 95% CI: 39-43), Culicoides pulicaris (58%; 95% CI: 56-59) and Culicoides nubeculosus (0.8%; 95% CI: 0.4-1.1). In the second year, 165 BTV vector specimens were collected and identified as Culicoides obsoletus (44.25%; 95% CI: 36-51), Culicoides pulicaris (50.3%; 95% CI: 42-57), Culicoides dewulfi (4.84%; 95% CI: 1.5-8.1) and Culicoides nubeculosus (0.61%; 95% CI: 0.5-1.7). Culicoides pulicaris and Culicoides obsoletus complex were especially abundant within the two collection sites in Iași County. Our data on post-epidemic occurrence and composition of BTV vector species in the studied area will facilitate a better understanding of Culicoides vectors distribution and the possible role in bluetongue virus overwintering.
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Abstract Switzerland is historically recognized by the Office Internationale des Epizooties as free from bluetongue disease (BT) because of its latitude and climate. With bluetongue virus (BTV) moving north from the Mediterranean, an entomological survey was conducted in Switzerland in 2003 to assess the potential of the BTV vectors present. A total of 39 cattle farms located in three geographical regions, the Ticino region, the Western region and the region of the Grisons, were monitored during the vector season. Farms were located in areas at high risk of vector introduction and establishment based on the following characteristics: annual average temperature > 12.5°C, average annual humidity ≥ 60%, cattle farm. Onderstepoort black light traps were operated at the cattle farms generally for one night in July and one night in September. A total of 56 collections of Culicoides (Diptera: Ceratopogonidae) were identified morphologically. Only one single individual of Culicoides ( Avaritia ) imicola , the major Old World vector of BTV, was found in July 2003 in the Ticino region, one of the southernmost regions of Switzerland. In the absence of further specimens of C. imicola from Switzerland it is suggested that this individual may be a vagrant transported by wind from regions to the south of the country where populations of this species are known to occur. Alternative potential BTV vectors of the Culicoides ( Culicoides ) pulicaris and Culicoides ( Avaritia ) obsoletus complexes were abundant in all sampled regions with individual catches exceeding 70 000 midges per trap night.
Ceratopogonidae
Culicoides
African horse sickness
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Culicoides
Ceratopogonidae
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Bluetongue virus (BTV) causes a viral, non-contagious disease that mainly affects sheep, cattle, and wild and farmed ruminants causing damage to these animals and significant economic losses. Culicoides insignis Lutz, the major BTV vector in South America, is one of the most abundant species in Argentina and commonly associated with cattle farms. The morphological identification of Culicoides spp. is routinely carried out with the aid of morphological keys, which mainly refer to the wing patterns, sensillae of palpi, and antennal flagella. Molecular tools applied to taxonomy provide a rapid and efficient method of identification of vector species. An easy protocol for the extraction of total DNA from single midges is herein described, and a forward primer for rapid and reliably test detection by polymerase chain reaction of C. insignis is developed.
Ceratopogonidae
Culicoides
Orbivirus
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Culicoides biting midges play an important role in the epidemiology of many vector-borne infections, including bluetongue virus, an internationally important virus of ruminants. The territory of the Russian Federation includes regions with diverse climatic conditions and a wide range of habitats suitable for Culicoides. This review summarizes available data on Culicoides studied in the Russian Federation covering geographically different regions, as well as findings from adjacent countries. Previous literature on species composition, ranges of dominant species, breeding sites, and host preferences is reviewed and suggestions made for future studies to elucidate vector-virus relationships.
Ceratopogonidae
Culicoides
Biting
Orbivirus
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