Jianbao Dong

Characterization of novel bovine papillomavirus type 12 (BPV-12) causing epithelial papilloma

Bovine papillomavirus type 12 (BPV-12, putative type BAA1) was detected in epithelial papilloma located on the tongue of an infected cow. Then, the whole genome was sequenced, and phylogenetic analysis illustrated that it should be classified as a member of the genus Xipapillomavirus. The viral genome is 7197 base pairs in length and contains five early ORFs (E1, E2, E4, E7 and E8), three late ORFs (L1, L2 and L3), and a long control region that possesses replication regulatory elements. Meanwhile, mRNA of each gene was detected in the papilloma sample. The papilloma was identified as epithelial papilloma by histological and immunohistochemical examination. Based on the genome information and pathological properties, BAA1 was designated as BPV-12 in this study.

Phylogenetic and pathogenic analysis of Newcastle disease virus isolated from house sparrow (Passer domesticus) living around poultry farm in southern China

House sparrow (Passer domesticus) is one of the most widely distributed wild birds in China. Five Newcastle disease virus (NDV) strains were isolated from house sparrows living around the poultry farms in southern China. These isolates were characterized by pathogenic assays and phylogenetic analysis. The results showed that all NDV isolates except one were velogenic and virulent for chickens. These four virulent strains for chickens possess the amino acid sequence 112R/K-R-Q-K/R-R-F117 in the F0 cleavage site which is typical of velogenic NDV. Phylogenetic analysis indicated that these isolates belong to genotype VII and were closely related to the strains which were isolated from NDV outbreaks in chickens since 2000. One isolate of NDV from house sparrow belong to genotype II and was proved to be vaccine strain (Chicken/U.S./LaSota/46). The result of this study proved that house sparrow can carry the virulent NDV strains and the same genotype of viruses that are circulating in poultry are existing in house sparrows living around poultry farm in southern China.

Identification of a novel equine infectious anemia virus field strain isolated from feral horses in southern Japan.

Although equine infectious anemia (EIA) was described more than 150 years ago, complete genomic sequences have only been obtained from two field strains of EIA virus (EIAV), EIAV(Wyoming) and EIAV(Liaoning). In 2011, EIA was detected within the distinctive feral Misaki horse population that inhabits the Toi-Cape area of southern Japan. Complete proviral sequences comprising a novel field strain were amplified directly from peripheral blood of one of these EIAV-infected horses and characterized by nucleotide sequencing. The complete provirus of Miyazaki2011-A strain is 8208 bp in length with an overall genomic organization typical of EIAV. However, this field isolate possesses just 77.2 and 78.7 % nucleotide sequence identity with the EIAV(Wyoming) and EIAV(Liaoning) strains, respectively, while similarity plot analysis suggested all three strains arose independently. Furthermore, phylogenetic studies using sequences obtained from all EIAV-infected Misaki horses against known viral strains strongly suggests these Japanese isolates comprise a separate monophyletic group.

Adaptation of wild-type measles virus to cotton rat lung cells: E89K mutation in matrix protein contributes to its fitness.

Wild-type measles virus (wtMeV) adapted well to cotton rat lung (CRL) cells after serial passages. In order to evaluate the contributions of the individual genes of wtMeV for adaptation, whole genome sequences of the adapted and original viruses were determined and analyzed. The results showed that there were two mutations in the whole genome of the adapted virus. One mutation was located at the 265th nucleotide in the open reading frame (ORF) of the M gene, resulting in the substitution of the 89th amino acid from E (glutamate) to K (lysine). The other was a silent mutation located at the 4182nd nucleotide in the ORF of the L gene. It was demonstrated that the E89K mutation in the M protein is responsible for the adaptation of wtMeV MV99Y in CRL cells. Cotton rats were infected with adapted virus and the original strain via intranasal inoculation. Virus titer results showed that adapted strain replicated better than the original strain in cotton rat lungs. It is suggested that the E89K mutation also contributes to the enhancement of wtMeV replication in a cotton rat model infected intranasally. The results revealed that the E89K mutation in the M protein plays a key role in wtMeV adaptation in cotton rat and CRL cells.

Bos grunniens papillomavirus type 1: a novel deltapapillomavirus associated with fibropapilloma in yak

Papillomaviruses (PVs) have been widely identified among vertebrates, but have not yet been reported to infect yaks. We report, for the first time, a novel deltapapillomavirus that was associated with fibropapilloma in yak herds on the Qinghai-Tibetan Plateau. Six skin papilloma samples were collected and examined using histopathology, immunohistochemistry and PCR assays. The samples were identified as fibropapilloma and were found to contain PV antigens. Sequencing of diagnostic PCR products and the full-length genome revealed that all samples were infected with the same PV type. The whole virus genome was 7946 bp in length and possessed the common PV genomic organization. The virus was identified as a novel PV type and designated Bos grunniens papillomavirus type 1 (BgPV-1) based on the nucleotide sequence alignment of the L1 ORF. It is classified in the Delta-4 species of the genus Deltapapillomavirus based on phylogenetic analysis of the L1 ORF. Identification of this novel PV type provides further information about the pathology, development of diagnostic methods and evolutionary studies of the family Papillomaviridae.

Sequence and Phylogenetic Analysis of Three Isolates of Avian Influenza H9N2 from Chickens in Southern China

Three isolates of H9N2 subtype of influenza virus have been isolated from chickens in Guangxi province. In this study, eight full-length genes of each of the H9N2 isolates, A/Chicken/Guangxi/1/00, A/Chicken/Guangxi/14/00, and A/Chicken/Guangxi/17/00, were obtained. Sequence analysis and phylogenetic studies were conducted by comparing eight genes of each isolate with those of the available H9N2 strains at GenBank. Results showed a high degree of homology between the Guangxi isolates and isolates from Guangdong and Jiangsu provinces, suggesting that Guangxi isolates originated from the same source. However, the eight genes of these three isolates from Guangxi were not in the same sublineages in the phylogenic trees, which suggest that they were products of natural reassortment between H9N2 avian influenza viruses from different sublineages. The 9 nucleotides ACAGAGATA encoding amino acids T, E, I were absent between nucleotide 205 and 214 in the open reading frame of NA genes in the Guangxi isolates. AIV strains that infect human have in their HA proteins, Leucine at position 226. The analysis of deduced amino acid sequence of HA proteins of C/GX/1/00, C/GX/14/00, and C/GX/17/00 showed that the position 226 of these isolates was glycine instead of leucine, suggesting that these three isolates differ from H9N2 AIV strains isolated from human infections.

Campylobacter and Salmonella are prevalent in broiler farms in Kyushu, Japan: results of a 2‐year distribution and circulation dynamics audit

To elucidate the distribution and circulation dynamics of Campylobacter and Salmonella in Japanese chicken broiler flocks.

Comparative analysis of LTR and structural genes in an equine infectious anemia virus strain isolated from a feral horse in Japan.

Although equine infectious anemia virus (EIAV) poses a major threat to the equine industry worldwide, the molecular epidemiology of this virus is poorly understood. Recently, an EIAV strain (EIAVMiyazaki2011-A) representing a new monophyletic group was discovered in feral horses in southern Japan. In the present study, the EIAVMiyazaki2011-A proviral genome is compared with evolutionarily divergent EIAV isolates to investigate conservation of functional elements or motifs within the long terminal repeats (LTRs) and structural genes. This analysis represents a significant step forward in increasing understanding of the molecular conservation and variation between geographically distinct strains of this equine lentivirus.

Bovine papillomavirus type 10 with a deletion associated with a lingual papilloma in a cow

Different types of papillomavirus usually cause papillomas in specific tissues. Previously, bovine papillomavirus (BPV) type 10 has been associated specifically with cutaneous papillomas in cattle. In this study, BPV-10 was detected in a papilloma on the tongue of a cow. Whole genome analysis demonstrated that the sequence of this BPV-10 strain had a 129 base pair deletion in the E1 open reading frame, which was confirmed by Southern blot analysis, PCR and reverse transcriptase-PCR.

Papillomavirus in yaks: the isolates of bovine papillomavirus type 1 have a high possibility of belonging to a novel type

Although papillomaviruses (PVs) have been widely reported in vertebrates, there have been only a few PV reports in yaks (Bos grunniens). In 2012, Bam et al. reported bovine papillomavirus type 1 (BPV-1) and BPV-2 associated with cutaneous papillomatosis in yaks, which provided genomic and pathology information for yak PVs. However, nucleotide identity and phylogenic analyses revealed that there are two isolates with a high possibility of belonging to a novel type that is not BPV-1. The argument was thought to be caused by type-specific primers. Our analysis showed that BPV-1 type-specific primers can detect not only BPV-1 but also other PVs. It suggests that identification results using type-specific primers should be confirmed with more robust methods in molecular epidemiological studies.