1.Prolonged excretion of a low-pathogenicity H5N2 avian influenza virus strain in the Pekin duck.
Jose Manuel CARRANZA-FLORES ; Luis PADILLA-NORIEGA ; Elizabeth LOZA-RUBIO ; Gary GARCIA-ESPINOSA
Journal of Veterinary Science 2013;14(4):487-490
H5N2 strains of low-pathogenicity avian influenza virus (LPAIV) have been circulating for at least 17 years in some Mexican chicken farms. We measured the rate and duration of viral excretion from Pekin ducks that were experimentally inoculated with an H5N2 LPAIV that causes death in embryonated chicken eggs (A/chicken/Mexico/2007). Leghorn chickens were used as susceptible host controls. The degree of viral excretion was evaluated with real-time reverse transcriptase-polymerase chain reaction (RRT-PCR) using samples from oropharyngeal and cloacal swabs. We observed prolonged excretion from both species of birds lasting for at least 21 days. Prolonged excretion of LPAIV A/chicken/Mexico/2007 is atypical.
Animals
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Chickens
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Cloaca/virology
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*Ducks
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Influenza A Virus, H5N2 Subtype/*physiology
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Influenza in Birds/*physiopathology/virology
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Oropharynx/virology
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Poultry Diseases/physiopathology/virology
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Real-Time Polymerase Chain Reaction/veterinary
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Reverse Transcriptase Polymerase Chain Reaction/veterinary
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Time Factors
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*Virus Shedding
2.Origin and molecular characterization of the human-infecting H6N1 influenza virus in Taiwan.
Weifeng SHI ; Yi SHI ; Ying WU ; Di LIU ; George F GAO
Protein & Cell 2013;4(11):846-853
In June 2013, the first human H6N1 influenza virus infection was confirmed in Taiwan. However, the origin and molecular characterization of this virus, A/Taiwan/2/2013 (H6N1), have not been well studied thus far. In the present report, we performed phylogenetic and coalescent analyses of this virus and compared its molecular profile/characteristics with other closely related strains. Molecular characterization of H6N1 revealed that it is a typical avian influenza virus of low pathogenicity, which might not replicate and propagate well in the upper airway in mammals. Phylogenetic analysis revealed that the virus clusters with A/chicken/Taiwan/A2837/2013 (H6N1) in seven genes, except PB1. For the PB1 gene, A/Taiwan/2/2013 was clustered with a different H6N1 lineage from A/chicken/Taiwan/ A2837/2013. Although a previous study demonstrated that the PB2, PA, and M genes of A/Taiwan/2/2013 might be derived from the H5N2 viruses, coalescent analyses revealed that these H5N2 viruses were derived from more recent strains than that of the ancestor of A/Taiwan/2/2013. Therefore, we propose that A/Taiwan/2/2013 is a reassortant from different H6N1 lineages circulating in chickens in Taiwan. Furthermore, compared to avian isolates, a single P186L (H3 numbering) substitution in the hemagglutinin H6 of the human isolate might increase the mammalian receptor binding and, hence, this strain's pathogenicity in humans. Overall, human infection with this virus seems an accidental event and is unlikely to cause an influenza pandemic. However, its co-circulation and potential reassortment with other influenza subtypes are still worthy of attention.
Amino Acid Sequence
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Amino Acid Substitution
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Animals
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Hemagglutinin Glycoproteins, Influenza Virus
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chemistry
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genetics
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Humans
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Influenza A Virus, H5N2 Subtype
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genetics
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physiology
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Influenza A virus
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genetics
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isolation & purification
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physiology
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Influenza, Human
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epidemiology
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virology
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Laboratories
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Models, Molecular
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Molecular Sequence Data
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Phylogeny
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Poultry
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virology
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Protein Conformation
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Taiwan
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epidemiology
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Viral Proteins
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genetics