Publications

The Pirbright Institute publication directory contains details of selected publications written by our researchers.

There were a total of 2599 results for your search.
Maan N S, Maan S, Guimera M, Nomikou K, Morecroft E, Pullinger G, Belaganahalli M N, Mertens P P C (2012)

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

Journal of Virology 86 (11), 6375-6376

Abstract

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.

Abstract

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.

Abstract

Bluetongue virus type 2, isolated in India in 1982 (IND1982/01), was obtained from the Orbivirus Reference Collection at IAH Pirbright. 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.
Maan N S, Maan S, Nomikou K, Prasad G, Singh K P, Belaganahalli M N, Mertens P P C (2012)

Full genome sequence of bluetongue virus serotype 1 from India

Journal of Virology 86 (8), 4717-4718

Abstract

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.
Maan S, Maan N, Belaganahalli M N, Nomikou K, Mertens P (2012)

Strategies for sequencing of genome of bluetongue virus isolates

Indian Journal of Comparative Microbiology, Immunology and Infectious Diseases 33 (1-2), 1-3
Maan S, Maan N S, Guimera M, Nomikou K, Singh K P, Pullinger G, Belaganahalli M N, Mertens P P C (2012)

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

Journal of Virology 86 (12), 7011-7012

Abstract

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.

Abstract

A method has been established to sequentially delete combinations of genes from the ASFV genome to test the effect on virus replication and host responses to infection. Initially the ASFV genes MGF505 2R and MGF505 3R and a truncated MGF360 9L gene were deleted from the genome of the tissue-culture adapted ASFV strain BA71V and replaced with bacteriophage loxP sequences flanking the beta-glucuronidase (GUS) marker gene to create recombinant virus V Delta MGF-GUS. Subsequently the GUS gene was removed by site-specific recombination between the two loxP sites involving expression of the bacteriophage Cre recombinase enzyme to create recombinant virus V Delta MGF Delta GUS. The EP402R and EP153R genes were subsequently deleted from the genome of V Delta MGF Delta GUS, using the same GUS marker gene, to construct virus V Delta MGF Delta CD2-Lectin-GUS. These sequential deletions of ASFV genes were shown not to alter virus replication significantly.
Ahmed H A, Salem S A H, Habashi A R, Arafa A A, Aggour M G A, Salem G H, Gaber A S, Selem O, Abdelkader S H, Knowles N J, Madi M, Valdazo-Gonzalez B, Wadsworth J, Hutchings G H, Mioulet V, Hammond J M, King D P (2012)

Emergence of foot-and-mouth disease virus SAT 2 in Egypt during 2012

Transboundary and Emerging Diseases 59 (6), 476-481

Abstract

The epidemiology of foot-and-mouth disease (FMD) in North Africa is complicated by the co-circulation of endemic FMD viruses (FMDV), as well as sporadic incursions of exotic viral strains from the Middle East and Sub-Saharan Africa. This report describes the molecular characterization of SAT 2 FMD viruses that have caused widespread field outbreaks of FMD in Egypt during February and March 2012. Phylogenetic analysis showed that viruses from these outbreaks fell into two distinct lineages within the SAT 2 topotype VII, which were distinct from a contemporary SAT 2 lineage of the same toptype from Libya. These were the first FMD outbreaks due to this serotype in Egypt since 1950 and required the development of a tailored real-time reverse-transcription PCR assay that can be used in the laboratory to distinguish FMD viruses of these lineages from other endemic FMD viruses that might be present in North Africa. These data highlight the ease by which FMDV can cross international boundaries and emphasize the importance of deploying systems to continuously monitor the global epidemiology of this disease.

Abstract

As well as being vectors of many viral, bacterial, and protozoan pathogens of medical and veterinary importance, ticks harbour a variety of microorganisms which are not known to be pathogenic for vertebrate hosts. Continuous cell lines established from ixodid and argasid ticks could be infected with such endosymbiotic bacteria and endogenous viruses, but to date very few cell lines have been examined for their presence. DNA and RNA extracted from over 50 tick cell lines deposited in the Roslin Wellcome Trust Tick Cell Biobank were screened for presence of bacteria and RNA viruses, respectively. Sequencing of PCR products amplified using pan-16S rRNA primers revealed the presence of DNA sequences from bacterial endosymbionts in several cell lines derived from Amblyomma and Dermacentor spp. ticks. Identification to species level was attempted using Rickettsia- and Francisella-specific primers. Pan-Nairovirus primers amplified PCR products of uncertain specificity in cell lines derived from Rhipicephalus, Hyalomma, Ixodes, Carios, and Ornithodoros spp. ticks. Further characterisation attempted with primers specific for Crimean-Congo haemorrhagic fever virus segments confirmed the absence of this arbovirus in the cells. A set of pan-Flavivirus primers did not detect endogenous viruses in any of the cell lines. Transmission electron microscopy revealed the presence of endogenous reovirus-like viruses in many of the cell lines; only 4 of these lines gave positive results with primers specific for the tick Orbivirus St Croix River virus, indicating that there may be additional, as yet undescribed ‘tick-only’ viruses inhabiting tick cell lines.

Abstract

Tick cell lines play an important role in research on ticks and tick-borne pathogenic and symbiotic microorganisms. In an attempt to derive continuous Dermacentor reticulatus cell lines, embryo-derived primary cell cultures were set up from eggs laid by field ticks originally collected as unfed adults in The Netherlands and maintained for up to 16 months. After several months, it became evident that cells in the primary cultures were infected with a Rickettsia-like intracellular organism. Supernatant medium containing some D. reticulatus cells was inoculated into cultures of 2 Rhipicephalus (Boophilus) microplus cell lines, BME/CTVM2 and BME/CTVM23, where abundant growth of the bacteria occurred intracellularly on transfer to both cell lines. Bacterial growth was monitored by light (live, inverted microscope, Giemsa-stained cytocentrifuge smears) and transmission electron microscopy revealing heavy infection with typical intracytoplasmic Rickettsia-like bacteria, not present in uninfected cultures. DNA was extracted from bacteria-infected and uninfected control cultures, and primers specific for Rickettsia 16S rRNA, ompB, and sca4 genes were used to generate PCR products that were subsequently sequenced. D. reticulatus primary cultures and both infected tick cell lines were positive for all 3 Rickettsia genes. Sequencing of PCR products revealed 99-100% identity with published Rickettsia raoultii sequences. The R. raoultii also grew abundantly in the D. nitens cell line ANE58, poorly in the D. albipictus cell line DALBE3, and not at all in the D. andersoni cell line DAE15. In conclusion, primary tick cell cultures and cell lines are useful systems for isolation and propagation of fastidious tick-borne microorganisms. In vitro isolation of R. raoultii from Dutch D. reticulatus confirms previous PCR-based detection in field ticks, and presence of the bacteria in the tick eggs used to initiate the primary cultures confirms that transovarial transmission of this Rickettsia occurs.

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