VP2 Gene-Based Molecular Evolutionary Patterns of Major Circulating Bluetongue Virus Serotypes Isolated during 2014-2018 from Telangana and Andhra Pradesh States of India.

INTRODUCTION: Bluetongue disease is an economically important viral disease of livestock caused by bluetongue virus (BTV) having multiple serotypes. It belongs to the genus Orbivirus of family Reoviridae and subfamily Sedoreovirinae. The genome of BTV is 10 segmented dsRNA that codes for 7 structural and 4 nonstructural proteins, of which VP2 was reported to be serotype-specific and a major antigenic determinant. OBJECTIVE: It is important to know the circulating serotypes in a particular geographical location for effective control of the disease. The present study unravels the molecular evolution of the circulating BTV serotypes during 2014-2018 in Telangana and Andhra Pradesh states of India. METHODS: Multiple sequence alignment with available BTV serotypes in GenBank and phylogenetic analysis were performed for the partial VP2 sequences of major circulating BTV serotypes during the study period. RESULTS: The multiple sequence alignment of circulating serotypes with respective reference isolates revealed variations in antigenic VP2. The phylogenetic analysis revealed that the major circulating serotypes were grouped into eastern topotypes (BTV-1, BTV-2, BTV-4, and BTV-16) and Western topotypes (BTV-5, BTV-12, and BTV-24). CONCLUSION: Our study strengthens the need for development of an effective vaccine, which can induce the immune response for a range of serotypes within and in between topotypes.

Complete genome sequence analysis of a reference strain of bluetongue virus serotype 16.

The entire genome of the reference strain of bluetongue virus (BTV) serotype 16 (strain RSArrrr/16) was sequenced (a total of 23,518 base pairs). The virus was obtained from the Orbivirus Reference Collection (ORC) at IAH, Pirbright, United Kingdom. The virus strain, which was previously provided by the Onderstepoort Veterinary Research Institute in South Africa, was originally isolated from the Indian subcontinent (Hazara, West Pakistan) in 1960. Previous phylogenetic comparisons show that BTV RNA sequences cluster according to the geographic origins of the virus isolate/lineage, identifying distinct BTV topotypes. Sequence comparisons of segments Seg-1 to Seg-10 show that RSArrrr/16 belongs to the major eastern topotype of BTV (BTV-16e) and can be regarded as a reference strain of BTV-16e for phylogenetic and molecular epidemiology studies. All 10 genome segments of RSArrrr/16 group closely with the vaccine strain of BTV-16 (RSAvvvv/16) that was derived from it, as well as those recently published for a Chinese isolate of BTV-16 (>99% nucleotide identity), suggesting a very recent common ancestry for all three viruses.

Genome sequence of a reassortant strain of bluetongue virus serotype 23 from western India.

The full genome sequence (19,177 bp) of an Indian strain (IND1988/02) of bluetongue virus (BTV) serotype 23 was determined. This virus was isolated from a sheep that had been killed during a severe bluetongue outbreak that occurred in Rahuri, Maharashtra State, western India, in 1988. Phylogenetic analyses of these data demonstrate that most of the genome segments from IND1988/02 belong to the major "eastern" BTV topotype. However, genome segment 5 belongs to the major "western" BTV topotype, demonstrating that IND1988/02 is a reassortant. This may help to explain the increased virulence that was seen during this outbreak in 1988. Genome segment 5 of IND1988/02 shows >99% sequence identity with some other BTV isolates from India (e.g., BTV-3 IND2003/08), providing further evidence of the existence and circulation of reassortant strains on the subcontinent.

The genome sequence of a reassortant bluetongue virus serotype 3 from India.

All 10 genome segments (Seg-1 to 10-a total of 19,188 bp) were sequenced from a strain of bluetongue virus serotype 3 (BTV-3) from India (strain IND2003/08). Sequence comparisons showed that nine of the genome segments from this virus group with other eastern topotype strains. Genome Seg-2 and Seg-6 group with eastern BTV-3 strains from Japan. However, Seg-5 (the NS1 gene) from IND2003/08 belongs to a western lineage, demonstrating that IND2003/08 is a reassortant between eastern and western topotype bluetongue viruses. This confirms that western BTV strains have been imported and are circulating within the subcontinent.

The genome sequence of bluetongue virus type 2 from India: evidence for reassortment between eastern and western topotype field strains.

Bluetongue virus type 2, isolated in India in 1982 (IND1982/01), was obtained from the Orbivirus Reference Collection at IAH Pirbright (http://www.reoviridae.org/dsRNA_virus_proteins/ReoID/btv-2.htm#IND1982/01). Full genome sequencing and phylogenetic analyses show that IND1982/01 is a reassortant virus containing genome segments derived from both eastern and western topotypes. These data will help to identify further reassortment events involving this or other virus lineages in the subcontinent.

The genome sequence of bluetongue virus type 10 from India: evidence for circulation of a western topotype vaccine strain.

Bluetongue virus is the type species of the genus Orbivirus in the family Reoviridae. We report the first complete genome sequence of an isolate (IND2004/01) of bluetongue virus serotype 10 (BTV-10) from Andhra Pradesh, India. This isolate, which is stored in the Orbivirus Reference Collection (ORC) at IAH Pirbright, shows >99% nucleotide identity in all 10 genome segments with a vaccine strain of BTV-10 from the United States.

Complete genome sequence of an isolate of bluetongue virus serotype 2, demonstrating circulation of a Western topotype in southern India.

Bluetongue virus serotype 2 (IND2003/02) was isolated in Tiruneveli City, Tamil Nadu State, India, and is stored in the Orbivirus Reference Collection at the Institute for Animal Health, Pirbright, United Kingdom. The entire genome of this isolate was sequenced, showing that it is composed of a total of 19,203 bp (all 10 genome segments). This is the first report of the entire genome sequence of a western strain of BTV-2 isolated in India, indicating that this virus has been introduced and is circulating in the region. These data will aid in the development of diagnostics and molecular epidemiology studies of BTV-2 in the subcontinent.

Full genome sequence of bluetongue virus serotype 1 from India.

We report the full-genome sequence of an Indian isolate of bluetongue virus serotype 1 (BTV-1), strain IND1992/01. This is the first report of the entire genome sequence (Seg-1 to Seg-10) of an Eastern (e) strain of BTV-1. These sequence data provide a reference for BTV-1e that will help to define the phylogenetic relationships and geographic origins of distinct Indian lineages of BTV-1 as well as their relationships with other BTV strains from around the world. The availability of data for all 10 genome segments of this strain will also help to identify reassortment events involving this and other virus lineages.

Novel bluetongue virus serotype from Kuwait.

Sheep and goats sampled in Kuwait during February 2010 were seropositive for bluetongue virus (BTV). BTV isolate KUW2010/02, from 1 of only 2 sheep that also tested positive for BTV by real-time reverse transcription-PCR, caused mild clinical signs in sheep. Nucleotide sequencing identified KUW2010/02 as a novel BTV serotype.

Transmission pathways of foot-and-mouth disease virus in the United Kingdom in 2007.

Foot-and-mouth disease (FMD) virus causes an acute vesicular disease of domesticated and wild ruminants and pigs. Identifying sources of FMD outbreaks is often confounded by incomplete epidemiological evidence and the numerous routes by which virus can spread (movements of infected animals or their products, contaminated persons, objects, and aerosols). Here, we show that the outbreaks of FMD in the United Kingdom in August 2007 were caused by a derivative of FMDV O(1) BFS 1860, a virus strain handled at two FMD laboratories located on a single site at Pirbright in Surrey. Genetic analysis of complete viral genomes generated in real-time reveals a probable chain of transmission events, predicting undisclosed infected premises, and connecting the second cluster of outbreaks in September to those in August. Complete genome sequence analysis of FMD viruses conducted in real-time have identified the initial and intermediate sources of these outbreaks and demonstrate the value of such techniques in providing information useful to contemporary disease control programmes.

Epizootic hemorrhagic disease in cattle, Western Turkey.

In 2007, an outbreak of epizootic hemorrhagic disease (EHD) occurred in Turkey. On the basis of clinical investigation, 41 cattle were suspected to have EHD. Reverse transcription-PCR and sequence analyses indicated that the virus belonged to EHD virus serotype 6, thus confirming EHD virus infection of cattle in Turkey.

A European field strain of bluetongue virus derived from two parental vaccine strains by genome segment reassortment.

Since 1998, nine bluetongue virus (BTV) strains from serotypes 1, 2, 4, 8, 9 and 16 have invaded Europe, killing >2 million animals (mainly sheep). Live vaccine strains of BTV-2, 4, 9 and 16 have also been used in the region. The BTV genome is composed of ten linear-segments of dsRNA, and events in Europe have provided opportunities for different strains to exchange/reassort genome segments, generating novel progeny-viruses. Genome segment 2 (Seg-2) encodes outer capsid protein VP2, the primary determinant of virus serotype, while Seg-5 encodes NS1, which forms 'tubules' within the cell-cytoplasm. Seg-2 and Seg-5 from 15 European isolates, and vaccine/reference strains, of BTV-2 and BTV-16, were sequenced. Isolates from the same serotype showed >92% nt identity in Seg-5, but <84% identity between types. However, published data for Seg-5 of BTV-16 from Italy 2002 showed <83% nt identity with other BTV-16 strains, but was identical to the BTV-2 vaccine strain (used in Italy during 2002, and annually in a multivalent vaccine in Israel since 1995) indicating that ITL2002 is a reassortant between the BTV-2 and BTV-16 vaccine strains. This represents the first detection of a reassortant BTV strain within Europe, highlighting concerns about the use of live BTV vaccines in the region.

Development and evaluation of loop-mediated isothermal amplification assay for rapid detection of Capripoxvirus.

AIM: The present study was undertaken to develop a nucleic acid-based diagnostic assay loop-mediated isothermal amplification assay (LAMP) targeting highly conserved genomic regions of Capripoxvirus (CaPVs) and its comparative evaluation with real-time polymerase chain reaction (PCR). MATERIAL AND METHODS: Lyophilized vaccine strain of sheeppox virus (SPPV) was used for optimization of LAMP assay. The LAMP assay was designed using envelope immunogenic protein (P32) coding gene targeting highly conserved genomic regions of CaPV responsible for causing sheep pox, goat pox, and lumpy skin disease in sheep, goat and cattle respectively. Serial tenfold dilution of SPPV recombinant plasmid DNA was used for a calculating limit of detection. Analytical sensitivity and specificity were performed. RESULTS: The test described is quick (30 min), sensitive and specific for detection of CaPVs. The described assay did not show any cross-reactivity to other related viruses that cause apparently similar clinical signs. It was found to be ten times more sensitive than conventional PCR however, 100 times less sensitive than quantitative PCR (qPCR). LAMP assay results were monitored by color change method using picogreen dye and agarose gel electrophoresis. CONCLUSION: LAMP assay can be a very good alternative for CaPV detection to other molecular techniques requiring sophisticated equipments.

A quantitative real-time reverse transcription PCR (qRT-PCR) assay to detect genome segment 9 of all 26 bluetongue virus serotypes.

Bluetongue (BT) is an arboviral disease, which can often be fatal in naïve sheep and white tailed deer, but is usually less severe, or unapparent in other ruminants. Twenty-six bluetongue virus (BTV) serotypes have been recognised so far, two of which (BTV-25 and BTV-26) were recently identified by phylogenetic comparisons of genome-segment/outer-capsid protein VP2 (subsequently confirmed by serological 'virus-neutralisation' assays). Rapid, sensitive, reliable and quantitative diagnostic-assays for detection and identification of BTV represent important components of effective surveillance and control strategies. The BTV genome comprises 10 linear segments of dsRNA. We describe a 'TaqMan' fluorescence-probe based quantitative real-time RT-PCR assay, targeting the highly conserved genome-segment-9 (encoding the viral-helicase 'VP6' and NS4). The assay detected Seg-9 from isolates of all 26 BTV types, as well as from clinical samples derived from BTV-6w and BTV-8w outbreaks (in Europe), BTV-25 from Switzerland, BTV-26 from Kuwait, BTV-1w, BTV-4w and BTV-8w from Spain, BTV-4w, BTV-8, BTV-10 and BTV-16 from Brazil. Assay efficiency was evaluated with RNA derived from the reference strain of BTV-1w [RSArrrr/01] and was 99.6%, detecting down to 4 copies per reaction. Samples from uninfected insect or mammalian cell-cultures, hosts-species (uninfected sheep blood) or vector-insects, all gave negative results. The assay failed to detect RNA from heterologous but related Orbivirus species (including the nine African horse sickness virus [AHSV] and seven epizootic haemorrhagic disease virus [EHDV] serotypes).

Genetic characterization of the tick-borne orbiviruses.

The International Committee for Taxonomy of Viruses (ICTV) recognizes four species of tick-borne orbiviruses (TBOs): Chenuda virus, Chobar Gorge virus, Wad Medani virus and Great Island virus (genus Orbivirus, family Reoviridae). Nucleotide (nt) and amino acid (aa) sequence comparisons provide a basis for orbivirus detection and classification, however full genome sequence data were only available for the Great Island virus species. We report representative genome-sequences for the three other TBO species (virus isolates: Chenuda virus (CNUV); Chobar Gorge virus (CGV) and Wad Medani virus (WMV)). Phylogenetic comparisons show that TBOs cluster separately from insect-borne orbiviruses (IBOs). CNUV, CGV, WMV and GIV share low level aa/nt identities with other orbiviruses, in 'conserved' Pol, T2 and T13 proteins/genes, identifying them as four distinct virus-species. The TBO genome segment encoding cell attachment, outer capsid protein 1 (OC1), is approximately half the size of the equivalent segment from insect-borne orbiviruses, helping to explain why tick-borne orbiviruses have a ~1 kb smaller genome.

Full-Genome Sequencing as a Basis for Molecular Epidemiology Studies of Bluetongue Virus in India.

Since 1998 there have been significant changes in the global distribution of bluetongue virus (BTV). Ten previously exotic BTV serotypes have been detected in Europe, causing severe disease outbreaks in naïve ruminant populations. Previously exotic BTV serotypes were also identified in the USA, Israel, Australia and India. BTV is transmitted by biting midges (Culicoides spp.) and changes in the distribution of vector species, climate change, increased international travel and trade are thought to have contributed to these events. Thirteen BTV serotypes have been isolated in India since first reports of the disease in the country during 1964. Efficient methods for preparation of viral dsRNA and cDNA synthesis, have facilitated full-genome sequencing of BTV strains from the region. These studies introduce a new approach for BTV characterization, based on full-genome sequencing and phylogenetic analyses, facilitating the identification of BTV serotype, topotype and reassortant strains. Phylogenetic analyses show that most of the equivalent genome-segments of Indian BTV strains are closely related, clustering within a major eastern BTV 'topotype'. However, genome-segment 5 (Seg-5) encoding NS1, from multiple post 1982 Indian isolates, originated from a western BTV topotype. All ten genome-segments of BTV-2 isolates (IND2003/01, IND2003/02 and IND2003/03) are closely related (>99% identity) to a South African BTV-2 vaccine-strain (western topotype). Similarly BTV-10 isolates (IND2003/06; IND2005/04) show >99% identity in all genome segments, to the prototype BTV-10 (CA-8) strain from the USA. These data suggest repeated introductions of western BTV field and/or vaccine-strains into India, potentially linked to animal or vector-insect movements, or unauthorised use of 'live' South African or American BTV-vaccines in the country. The data presented will help improve nucleic acid based diagnostics for Indian serotypes/topotypes, as part of control strategies.

Genome Sequence of Bluetongue Virus Type 2 from India: Evidence for Reassortment between Outer Capsid Protein Genes.

Southern Indian isolate IND1994/01 of bluetongue virus serotype 2 (BTV-2), from the Orbivirus Reference Collection at the Pirbright Institute (http://www.reoviridae.org/dsRNA_virus_proteins/ReoID/btv-2.htm#IND1994/01), was sequenced. Its genome segment 6 (Seg-6) [encoding VP5(OCP2)] is identical to that of the Indian BTV-1 isolate (IND2003/05), while Seg-5 and Seg-9 are closely related to isolates from South Africa and the United States, respectively.

Isolation and molecular characterization of contagious pustular dermatitis virus from Rajasthan, India.

This article describes the isolation and identification of contagious pustular dermatitis virus/orf virus (ORFV) from an outbreak of contagious pustular dermatitis (orf) in flocks of goats, in the north western region of India (Rajasthan). The virus was isolated in Vero cell cultures from scab and swab suspensions and has been identified using GIF/IL-2 and B2L gene specific primers in PCR and sequencing. The virus showed high nucleotide identity with previously reported Chinese, far eastern, Brazilian and Indian isolates. This report described the use of molecular tools for fast, reliable and confirmatory diagnosis of ORFV infection.

Full genome characterization of the culicoides-borne marsupial orbiviruses: Wallal virus, Mudjinbarry virus and Warrego viruses.

Viruses belonging to the species Wallal virus and Warrego virus of the genus Orbivirus were identified as causative agents of blindness in marsupials in Australia during 1994/5. Recent comparisons of nucleotide (nt) and amino acid (aa) sequences have provided a basis for the grouping and classification of orbivirus isolates. However, full-genome sequence data are not available for representatives of all Orbivirus species. We report full-genome sequence data for three additional orbiviruses: Wallal virus (WALV); Mudjinabarry virus (MUDV) and Warrego virus (WARV). Comparisons of conserved polymerase (Pol), sub-core-shell 'T2' and core-surface 'T13' proteins show that these viruses group with other Culicoides borne orbiviruses, clustering with Eubenangee virus (EUBV), another orbivirus infecting marsupials. WARV shares <70% aa identity in all three conserved proteins (Pol, T2 and T13) with other orbiviruses, consistent with its classification within a distinct Orbivirus species. Although WALV and MUDV share <72.86%/67.93% aa/nt identity with other orbiviruses in Pol, T2 and T13, they share >99%/90% aa/nt identities with each other (consistent with membership of the same virus species - Wallal virus). However, WALV and MUDV share <68% aa identity in their larger outer capsid protein VP2(OC1), consistent with membership of different serotypes within the species - WALV-1 and WALV-2 respectively.

Full genome sequence of a Western reference strain of bluetongue virus serotype 16 from Nigeria.

The genome of NIG1982/10, a Nigerian bluetongue virus serotype 16 (BTV-16) strain, was sequenced (19,193 bp). Comparisons to BTV strains from other areas of the world show that all 10 genome segments of NIG1982/10 are derived from a western lineage (w), indicating that it represents a suitable reference strain of BTV-16w.