Nucleotide sequences and phylogeny of the nucleocapsid gene of Oropouche virus.
(1/100)
The nucleotide sequence of the S RNA segment of the Oropouche (ORO) virus prototype strain TRVL 9760 was determined and found to be 754 nucleotides in length. In the virion-complementary orientation, the RNA contained two overlapping open reading frames of 693 and 273 nucleotides that were predicted to encode proteins of 231 and 91 amino acids, respectively. Subsequently, the nucleotide sequences of the nucleocapsid genes of 27 additional ORO virus strains, representing a 42 year interval and a wide geographical range in South America, were determined. Phylogenetic analyses revealed that all the ORO virus strains formed a monophyletic group that comprised three distinct lineages. Lineage I contained the prototype strain from Trinidad and most of the Brazilian strains, lineage II contained six Peruvian strains isolated between 1992 and 1998, and two strains from western Brazil isolated in 1991, while lineage III comprised four strains isolated in Panama during 1989. (+info)
Phylogeny of the Simbu serogroup of the genus Bunyavirus.
(2/100)
The Simbu serogroup of the genus Bunyavirus, family Bunyaviridae contains 25 viruses. Previous serological studies provided important information regarding some but not all of the relationships among Simbu serogroup viruses. This report describes the nucleotide sequence determination of the nucleocapsid (N) gene of the small genomic segment of 14 Simbu serogroup viruses and partial nucleotide sequence determination of the G2 glycoprotein-coding region (encoded by the medium RNA segment) of 19 viruses. The overall phylogeny of the Simbu serogroup inferred from analyses of the N gene was similar to that inferred from analyses of the G2 protein-coding region. Both analyses revealed that the Simbu serogroup viruses have evolved into at least five major phylogenetic lineages. In general, these phylogenetic lineages were consistent with the previous serological data, but provided a more detailed understanding of the relatedness amongst many viruses. In comparison to previous phylogenetic studies on the California and Bunyamwera serogroups of the Bunyavirus genus, the Simbu serogroup displays much larger genetic variation in the N gene (up to 40% amino acid sequence divergence). (+info)
An outbreak of Rift Valley fever in Northeastern Kenya, 1997-98.
(3/100)
In December 1997, 170 hemorrhagic fever-associated deaths were reported in Garissa District, Kenya. Laboratory testing identified evidence of acute Rift Valley fever virus (RVFV). Of the 171 persons enrolled in a cross-sectional study, 31(18%) were anti-RVFV immunoglobulin (Ig) M positive. An age-adjusted IgM antibody prevalence of 14% was estimated for the district. We estimate approximately 27,500 infections occurred in Garissa District, making this the largest recorded outbreak of RVFV in East Africa. In multivariable analysis, contact with sheep body fluids and sheltering livestock in one s home were significantly associated with infection. Direct contact with animals, particularly contact with sheep body fluids, was the most important modifiable risk factor for RVFV infection. Public education during epizootics may reduce human illness and deaths associated with future outbreaks. (+info)
Turlock-like bunyavirus associated with encephalomyelitis and myocarditis in an ostrich chick.
(4/100)
In the fall of 1995, a 20-day-old female ostrich chick, 1 of a group of 20, was presented live with clinical signs of 2 days duration characterized by unsteady gait, circling to the left, and walking backward. Another bird with similar clinical signs had died and another had recovered. The bird was euthanized and examined at necropsy. Twenty-five milliliters of serous fluid was in the abdominal cavity and there was increased pericardial fluid. Histopathology of the brain revealed mild to moderate nonsuppurative encephalitis characterized by mild multifocal malacia, perivascular cuffing by lymphocytes, and gliosis. The heart had multifocal infiltrations of lymphocytes mixed with macrophages and a few plasma cells throughout the myocardium. Cytopathic effects were observed in primary chicken embryo liver cells following inoculation with a tissue homogenate prepared from the brain of the affected ostrich. Virus particles the size and morphology of the family Bunyaviridae were observed in cell culture lysate by negative-stain electron microscopy. Viral characterization demonstrated that the virus isolate is a previously unknown serotypic variant (subtype) of Turlock virus. Twelve of 65 sera collected over a 3-year period from ostriches aged from 1 month to 4 years were positive for neutralizing antibody to both the Turlock prototype strain and the new subtype of Turlock virus described in this report. (+info)
Ngari virus is a Bunyamwera virus reassortant that can be associated with large outbreaks of hemorrhagic fever in Africa.
(5/100)
Two isolates of a virus of the genus Orthobunyavirus (family Bunyaviridae) were obtained from hemorrhagic fever cases during a large disease outbreak in East Africa in 1997 and 1998. Sequence analysis of regions of the three genomic RNA segments of the virus (provisionally referred to as Garissa virus) suggested that it was a genetic reassortant virus with S and L segments derived from Bunyamwera virus but an M segment from an unidentified virus of the genus Orthobunyavirus. While high genetic diversity (52%) was revealed by analysis of virus M segment nucleotide sequences obtained from 21 members of the genus Orthobunyavirus, the Garissa and Ngari virus M segments were almost identical. Surprisingly, the Ngari virus L and S segments showed high sequence identity with those of Bunyamwera virus, showing that Garissa virus is an isolate of Ngari virus, which in turn is a Bunyamwera virus reassortant. Ngari virus should be considered when investigating hemorrhagic fever outbreaks throughout sub-Saharan Africa. (+info)
Analysis of the medium (M) segment sequence of Guaroa virus and its comparison to other orthobunyaviruses.
(6/100)
Guaroa virus (GROV), a segmented virus in the genus Orthobunyavirus, has been linked to the Bunyamwera serogroup (BUN) through cross-reactivity in complement fixation assays of S segment-encoded nucleocapsid protein determinants, and also to the California serogroup (CAL) through cross-reactivity in neutralization assays of M segment-encoded glycoprotein determinants. Phylogenetic analysis of the S-segment sequence supported a closer relationship to the BUN serogroup for this segment and it was hypothesized that the serological reaction may indicate genome-segment reassortment. Here, cloning and sequencing of the GROV M segment are reported. Sequence analysis indicates an organization similar to that of other orthobunyaviruses, with genes in the order GN-NSm-Gc, and mature proteins generated by protease cleavage at one, and by signalase at possibly three, sites. A potential role of motifs that are more similar to CAL than to BUN virus sequences with respect to the serological reaction is discussed. No discernable evidence for reassortment was identified. (+info)
Efficient bunyavirus rescue from cloned cDNA.
(7/100)
Bunyaviruses are trisegmented, negative-sense RNA viruses. Previously, we described a rescue system to recover infectious Bunyamwera virus (genus Orthobunyavirus) entirely from cloned cDNA (Bridgen, A. and Elliott, R.M. (1996) Proc. Nat. Acad. Sci. USA 93, 15400-15404) utilizing a recombinant vaccinia virus expressing bacteriophage T7 RNA polymerase to drive intracellular transcription of transfected T7 promoter-containing plasmids. Here we report efforts to improve the efficiency of the system by comparing different methods of providing T7 polymerase. We found that a BHK-derived cell line BSR-T7/5 that constitutively expresses T7 RNA polymerase supported efficient and reproducible recovery of Bunyamwera virus, routinely generating >10(7) pfu per rescue experiment. Furthermore, we show that the virus can be recovered from transfecting cells with just three plasmids that express full-length antigenome viral RNAs, greatly simplifying the procedure. We suggest that this procedure should be applicable to viruses in other genera of the family Bunyaviridae and perhaps also to arenaviruses. (+info)
Competitive enzyme-linked immunosorbent assay for the detection of the antibodies specific to akabane virus.
(8/100)
A competitive enzyme-linked immunosorbent assay (C-ELISA) using neutralizing monoclonal antibodies (MAbs) against Akabane virus (AKAV) was developed to detect antibodies to AKAV in cattle sera. The performance of the test using 7 different competitor MAbs was evaluated in sequential serum samples and sera from cattle infected with various bovine arboviruses. The dynamics of the antibody response expressed by percentage of inhibition (PI) in C-ELISA coincided with those of neutralizing antibody titers in sequential serum samples from 2 cattle experimentally infected with AKAV. The value of PI in C-ELISA for convalescent sera from cattle infected with arboviruses correlated with the neutralizing antibody titer to AKAV but was unaffected by the antibodies to other arboviruses. In the validation experiment of C-ELISA using 286 bovine sera previously examined for the AKAV antibody by serum neutralization (SN) test, the relative specificity of C-ELISA was more than 98%, whereas the relative sensitivities of individual MAbs ranged from 49% to 82.2%. Overall agreement between C-ELISA and the SN test varied from 72% to 90% depending on the MAb. These results suggest that the C-ELISA is acceptable as a rapid and specific method for detecting antibodies to AKAV and is a potential alternative to the SN test. (+info)