Sequence analysis was performed of all or part of the genes encoding the fusion (F), polymerase (L) and attachment (G) proteins of two French non-A/non-B avian pneumovirus (APV) isolates (Fr/85/1 and Fr/85/2). The two isolates shared at least 99.7% nt and 99.0% aa sequence identity. Comparison with the F genes from subgroup A, subgroup B or Colorado APVs revealed nt and aa identities of 70.0-80. 5% and 77.6-97.2%, respectively, with the L gene sharing 76.1% nt and 85.3% aa identity with that of a subgroup A isolate. The Fr/85/1 and Fr/85/2 G genes comprised 1185 nt, encoding a protein of 389 aa. Common features with subgroup A and subgroup B G proteins included an amino-terminal membrane anchor, a high serine and threonine content, conservation of cysteine residues and a single extracellular region of highly conserved sequence proposed to be the functional domain involved in virus attachment to cellular receptors. However, the Fr/85/1 and Fr/85/2 G sequences shared at best 56.6% nt and 31.2% aa identity with subgroup A and B APVs, whereas these isolates share 38% aa identity. Phylogenetic analysis of the F, G and L genes of pneumoviruses suggested that isolates Fr/85/1 and Fr/85/2 belong to a previously unrecognized APV subgroup, tentatively named D. G-based oligonucleotide primers were defined for the specific molecular identification of subgroup D. These are the first G protein sequences of non-A/non-B APVs to be determined.
The aim of this work was the selection and comparison of representative infectious bursal disease virus (IBDV) strains. Nine strains of IBDV, isolated at different times and from different geographic regions of Europe and China, were characterized. Batches of all strains were prepared following standardized protocols and checked for the absence of contaminating viruses. Criteria used for their characterization were: (i) the nucleotide sequence of the VP2 variable region, (ii) binding to a panel of neutralizing monoclonal antibodies in antigen capture enzyme-linked immunosorbent assays, and (iii) virulence in specific pathogen free chickens after infection with a standardized number of median embryo infective doses. Based on the first two criteria, two of nine strains were classified as classical virulent (cv) IBDV (F52/70, Cu-1wt), and five as very virulent (vv) IBDV (849VB, 96108, HK46, GX, Harbin). Remarkably, although a clear-cut difference was demonstrable between European cvIBDV (F52/70 and Cu-1wt) and vvIBDV (849VB and 96108) strains, there was a continuum in the pathogenicity of Chinese vvIBDVs. Our results indicate the probable existence of differences in virulence within IBDV lineages determined on the basis of antigenic typing using monoclonal antibodies and the alignment of the VP2 sequences. This indicates limitations in the analysis of IBDV pathotypes based on the VP2 variable region and emphasizes that these criteria may not be sufficient for the classification of IBDV strains.
Classical serotype 1 infectious bursal disease viruses (IBDV), but not very virulent (vv) isolates, react with neutralizing monoclonal antibody (NMab) 3 in virus neutralization tests or antigen-capture ELISA. Two other NMabs, 6 and 8, bind to both classical and most vv strains, but not to the atypical 94,432 and 91,168 vv strains, respectively. The basis for such reactivities was investigated by sequencing the genome region encoding the VP2 major immunogenic domain. In classical, variant, vaccine or vv IBDV strains, negative reactions with NMab3 were associated with changes in the Proline-Glycine pair at amino-acid (aa) positions 222-223 (hydrophilic peak A), and negative reactions with NMabs 6 and 8 with aa changes from positions 318 to 324 (hydrophilic peak B). The 91,168 and 94,432 viruses are the first vvIBDVs to present aa changes in peak B.
The purpose of this study was to compare the molecular epidemiology of infectious bursal disease virus (IBDV) segments A and B of 50 natural or vaccine IBDV strains that were isolated or produced between 1972 and 2002 in 17 countries from four continents, with phenotypes ranging from attenuated to very virulent (vv). These strains were subjected to sequence and phylogenetic analysis based on partial sequences of genome segments A and B. Although there is co-evolution of the two genome segments (70 % of strains kept the same genetic relatives in the segment A- and B-defined consensus trees), several strains (26 %) were identified with the incongruence length difference test as exhibiting a significantly different phylogenetic relationship depending on which segment was analysed. This suggested that natural reassortment could have occurred. One of the possible naturally occurring reassortant strains, which exhibited a segment A related to the vvIBDV cluster whereas its segment B was not, was thoroughly sequenced (coding sequence of both segments) and submitted to a standardized experimental characterization of its acute pathogenicity. This strain induced significantly less mortality than typical vvIBDVs; however, the mechanisms for this reduced pathogenicity remain unknown, as no significant difference in the bursal lesions, post-infectious antibody response or virus production in the bursa was observed in challenged chickens.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.