Wild birds have been implicated in the expansion of highly pathogenic avian infl uenza virus (H5N1) outbreaks across Asia, the Middle East, Europe, and Africa (in addition to traditional transmission by infected poultry, contaminated equipment, and people). Such a role would require wild birds to excrete virus in the absence of debilitating disease. By experimentally infecting wild ducks, we found that tufted ducks, Eurasian pochards, and mallards excreted significantly more virus than common teals, Eurasian wigeons, and gadwalls; yet only tufted ducks and, to a lesser degree, pochards became ill or died. These fi ndings suggest that some wild duck species, particularly mallards, can potentially be long-distance vectors of highly pathogenic avian infl uenza virus (H5N1) and that others, particularly tufted ducks, are more likely to act as sentinels.
Influenza virus is not known to affect wild felids. We demonstrate that avian influenza A (H5N1) virus caused severe pneumonia in tigers and leopards that fed on infected poultry carcasses. This finding extends the host range of influenza virus and has implications for influenza virus epidemiology and wildlife conservation.
Influenza A virus subtype H5N1 causes a rapidly fatal systemic disease in domestic poultry and spreads directly from poultry to humans. The aim of this study was to develop a rapid, cost-saving and effective method for influenza A virus subtype H5N1 detection. The selected primer set was used in single-step RT-PCR for simultaneous detection in multiplex format of the 276-, 189-, and 131-bp fragments, corresponding to sequences specific for M, H5 and N1. The amplified DNA fragments were clearly separated by agarose gel electrophoresis. The sensitivity of this assay was about 10(3) copies/microL. Moreover, this method can be applied to detect not only avian but also human influenza A virus subtype H5N1. In conclusion, the highlights of this particular method are its rapidity and cost-effectiveness, thus rendering it feasible and attractive for large-scale screening at times of influenza A virus subtype H5N1 outbreak.
Betanodavirus infection was diagnosed in larvae of farm-raised tilapia Oreochromis niloticus (L.), in central Thailand. Extensive vacuolar degeneration and neuronal necrosis were observed in histological sections with positive immunohistochemical staining for betanodavirus. Molecular phylogenetic analysis was performed based on the nucleotide sequences (1333 bases) of the capsid protein gene. The virus strain was highly homologous (93.07-93.88%) and closely related to red-spotted grouper nervous necrosis virus (RGNNV).
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