Genetic and Molecular Characterization of H9N2 Avian Influenza Viruses Isolated from Live Poultry Markets in Hubei Province, Central China, 2013-2017.

H9N2 subtype avian influenza virus (AIV) is an influenza A virus that is widely spread throughout Asia, where it jeopardizes the poultry industry and provides genetic material for emerging human pathogens. To better understand the epidemicity and genetics of H9 subtype AIVs, we conducted active surveillance in live poultry markets (LPMs) in Hubei Province from 2013 to 2017. A total of 4798 samples were collected from apparent healthy poultry and environment. Real-time RT-PCR revealed that the positivity rate of influenza A was 26.6% (1275/4798), of which the H9 subtype accounted for 50.3% (641/1275) of the positive samples. Of the 132 H9N2 viral strains isolated, 48 representative strains were subjected to evolutionary analysis and genotyping. Phylogenetic analysis revealed that all H9N2 viral genes had 91.1%-100% nucleotide homology, clustered with genotype 57, and had high homology with human H9N2 viruses isolated from 2013 to 2017 in China. Using a nucleotide divergence cutoff of 95%, we identified ten distinct H9N2 genotypes that continued to change over time. Molecular analysis demonstrated that six H9N2 isolates had additional potential glycosylation sites at position 218 in the hemagglutinin protein, and all isolates had I155T and Q226L mutations. Moreover, 44 strains had A558V mutations in the PB2 protein and four had E627V mutations, along with H9N2 human infection strains A/Beijing/1/2016 and A/Beijing/1/2017. These results emphasize that the H9N2 influenza virus in Hubei continues to mutate and undergo mammalian adaptation changes, indicating the necessity of strengthening the surveillance of the AIV H9N2 subtype in LPMs.

Coexistence of multiple genotypes of porcine epidemic diarrhea virus with novel mutant S genes in the Hubei Province of China in 2016.

The emergence of highly virulent porcine epidemic diarrhea virus (PEDV) variants in China caused huge economic losses in 2010. Since then, large-scale sporadic outbreaks of PED caused by PEDV variants have occasionally occurred in China. However, the molecular diversity and epidemiology of PEDV in different provinces has not been completely understood. To determine the molecular diversity of PEDV in the Hubei Province of China, we collected 172 PED samples from 34 farms across the province in 2016 and performed reverse transcription polymerase chain reaction (RT-PCR) by targeting the nucleocapsid (N) gene. Seventy-four samples were found to be PEDV-positive. We further characterized the complete spike (S) glycoprotein genes from the positive samples and found 21 different S genes with amino acid mutations. The PEDV isolates here presented most of the genotypes which were found previously in field isolates in East and South-East Asia, North America, and Europe. Besides the typical Genotypes I and II, the INDEX groups were also found. Importantly, 58 new amino acids mutant sites in the S genes, including 44 sites in S1 and 14 sites in S2, were first described. Our results revealed that the S genes of PEDV showed variation and that diverse genotypes of PEDV coexisted and were responsible for the PED outbreaks in Hubei in 2016. This work highlighted the complexity of the epidemiology of PEDV and emphasized the need for reassessing the efficacy of classic PEDV vaccines against emerging variant strains and developing new vaccines to facilitate the prevention and control of PEDV in fields.

Analysis of molecular variation of porcine reproductive and respiratory syndrome virus in Central China from 2006 to 2012.

To analyze the epidemiology of PRRSV in Hubei Province of China, 668 serum samples collected from 14 pig-breeding farms were tested. We found that the PRRSV-positive rate was 5.24 % and that HP-PRRSV had become the dominant strain. To further investigate the genetic variation of PRRSV strains in this region, the complete gene sequences of nsp2, orf5, and orf7 from nine PRRSV strains collected during 2011-2012 were determined and compared with 33 known sequences. The results revealed that diverse HP-PRRSV strains are present in this region. An analysis of orf5 gene sequences showed that the strains collected during 2009-2010 formed a tightly clustered branch. When compared with the JXA1 strain, they had one mutation (V29 → A29) in a decoy epitope. Furthermore, we found that the number of potential N-glycosylation sites had apparently increased since 2006. These findings increase our knowledge of PRRSV epidemiology in Central China.

Evaluation of a real-time RT-PCR assay using minor groove binding probe for specific detection of Chinese wild-type classical swine fever virus.

A one-step real-time RT-PCR assay using a minor groove binding probe was developed for the specific detection of Chinese wild-type classical swine fever virus (CSFV). The assay detected wild-type CSFV strains representing different genotypes, but did not amplify viral RNA from the Hog Cholera Lipinized Virus (HCLV) vaccine-strain and other porcine viruses. The assay had a detection limit of 10 copies/reaction or 3.0 median tissue culture infective dose/reaction. In comparison to the sequencing nested RT-PCR assay, the sensitivity and specificity of the assay were 98.3% and 94.3%, respectively, when testing 515 veterinary samples. Wild-type CSFV RNA was detected in nasal swabs 2-4 days before detection in serum samples from pigs exposed to infection by contact, and 2-4 days prior to the onset of clinical disease. HCLV RNA remained undetectable in nasal swabs and serum samples from vaccinated pigs. In conclusion, the novel assay described in this study provides a rapid and sensitive method for differentiating between wild-type and the HCLV-strain of CSFV. It could be used for monitoring in CSF outbreak areas or as a screening method for CSFV eradication strategies.

A one-step real-time reverse transcription-polymerase chain reaction detection of classical swine fever virus using a minor groove binding probe.

The aim of this study was to develop a one-step real-time reverse transcription-polymerase chain reaction assay using the minor groove binding probe (MGB rRT-PCR) for rapid and quantitative detection of classical swine fever virus (CSFV). The method, which targets the 5'-nontranslated region (5'NTR) of the viral genome, detected all CSFV isolate tested, but not heterologous pathogens. Using an in vitro transcript of the 5'NTR as a quantitative standard for the CSFV genome copy number, the assay had a detection limit of 10 copies/reaction, and the standard curve had a linear range from 10 to 10(7) copies/reaction, with good reproducibility. As determined by an end-point dilution comparison, in most case, the sensitivity of the MGB rRT-PCR was approximately 10-fold higher than that of virus isolation and the rRT-PCR using the standard Taqman probe (standard rRT-PCR). The agreement between the MGB rRT-PCR and standard rRT-PCR, or virus isolation was 93.3% and 76.7%, respectively, when detecting 261 field samples. Due to its rapidity, high specificity and sensitivity, the MGB rRT-PCR assay provides a valuable tool for diagnosis and molecular studies of CSFV biology.

[Infectious bovine rhinotracheitis viral gG expression and gG-ELISA development].

Taking the genome DNA of Infectious Bovine Rhinotracheitis Virus (IBRV) as the template, the gG gene was amplified with PCR and cloned into the T cloning vector pMD18-T. After being identified by restriction digestion and DNA sequencing, the insert was subcloned into the expression vector pGEX-KG. Sodium docecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot assay showed that this gene was expressed as both soluble form and inclusion body by the transformed E. coli BL21 strain (DE3). The fusion protein was purified and used as the coating antigen to develop the indirect Enzyme-Linked Immunosorbent Assay (ELISA). Comparison between this gG-ELISA and commercial IBRV gB-ELISA Kit (IDEXX) was made in the detection of 380 cow serum samples. The results demonstrated an agreement of 92%. By using this novel gG-ELISA, 1248 cow serum samples were tested and the average positive rate of IBRV antibodies for imported cows is 21.7%, while the positive rate ranged greatly from 0.0%-41.5% for Hubei local Chinese Black and White Dairy Cows.