Genetic diversity of avian paramyxovirus type 4 isolates from wild ducks in Korea from 2006 to 2011

Thirteen isolates of avian paramyxovirus type 4 (APMV-4) isolated from wild ducks in Korea from 2006 to 2011 were genetically characterized by sequence analysis of the N-terminal region of the APMV-4 fusion (F) protein gene. The results revealed that the amino acid sequence homology within Korean isolates was 97.5 % or greater. The homologies of the Korean isolates with the APMV-4/duck/HK/D3/75 and APMV-4/duck/BE/15129/07 strains were 86.9–88.0 and 95.5–96.1 %, respectively. All Korean isolates had sequence motifs of ¹¹⁶DIQPR↓F¹²¹ at the F0 cleavage site. Phylogenetic analysis based on the N-terminal region of the F protein gene of APMV-4 isolates revealed that all 2006–2011 Korean isolates formed a single genotypic cluster that was phylogenetically different from APMV-4/duck/HK/D3/75 or APMV-4/duck/BE/15129/07 strains. Korean APMV-4 isolates were more closely related to APMV-4/goose/ZA/N1468/10 (isolated in South Africa) than to the Belgium APMV-4 virus. Korean APMV-4 isolates were further divided into at least two subgroups (A and B) based on phylogenetic analysis. Subgroup A viruses were isolated throughout Korea, whereas subgroup B viruses were detected only in isolates from Cheju island in 2011, suggesting that Korean APMV-4 exhibits marked genetic diversity and differs from viruses currently circulating in Europe and other locations.     

Complete Genome Sequence and Biological Characterizations of A Novel Goose Paramyxovirus-SF02 Isolated in China

A Paramyxovirus designated as APMV-1 (NDV) Isolate SF02 (abbre. as SF02) was recently isolated from goose in China. SF02 was identified as a member of Newcastle disease virus (NDV) genotype VII. NDV strains are generally pathogenic only for fowls, including chicken and pigeon, and not for waterfowls such as goose and duck, whereas SF02 is highly pathogenic for both fowls and waterfowls. In the present study the complete genome consisting of 15, 192 nucleotides of SF02 was sequenced. Genomes of SF02 and all known APMV-1, Strains contain 6 ORFs in the order of NP-P-M-F-HN-L, and that of SF02 had an extra 6 nts between NP and P genes. Moreover, an anti-sense ORF consisting of 549 nt at the 1960 to 1412 and deduced 182 amino acids was found in SF02. The SF02 genome shared 83% identity and its 6 ORFs 81.9–86.1% identities with the reference APMV-1 strains. The possible mechanism determining different host range and pathogenicity is discussed based on genetic analyses.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number of AF473851.     

Genomic characterization of two avian paramyxovirus type 2 isolates from chickens in China

The complete genome sequences were determined for avian paramyxovirus type 2 (APMV-2) strains F8 and NK isolated from chickens in China. Both strains had a genome of 14,904 nucleotides (nt) in length, which followed the “rule of six”. Each genome consisted of six genes in the order 3′-N-P-M-F-HN-L-5′, with a 55-nt leader at the 3′ end and a 154-nt trailer at the 5′ end. Sequence alignment and phylogenetic analysis showed that APMV-2 strains F8 and NK shared the highest sequence identity with APMV-2 prototype strain Yucaipa, being classified in the same subgroup as strains Yucaipa, England and Kenya, while strain Bangor represented another subgroup of APMV-2. Among the APMVs, APMV-2 strains F8 and NK exhibited a closer evolutionary relationship with APMV-7 and APMV-8 representative strains.     

Full genomic sequence of an African Avian Paramyxovirus Type 4 strain isolated from a wild duck

A random amplification/deep sequencing approach was applied to determine the complete genomic sequence of an Avian Paramyxovirus Type 4 (APMV-4) strain isolated from a wild duck in South Africa in 2010. This sequence represents the fourth full genome of APMV-4 in public sequence databases and the first for the African continent. A total of 87,402,081 Illumina paired-end reads were obtained of which 47,338,867 (54.16?%) mapped to the reference genome EU877976. The entire genomic sequence of 15,054 nt, including the intact termini, was recovered at a high redundancy (coverage per base: average?=?198,861.06, minimum?=?52 and maximum?=?1,790,889). Pairwise comparison of full genomic nucleotide sequences indicated that APMV-4/Egyptian goose/South Africa/N1468/10 shared 97.3?% sequence identity with APMV-4/KR/YJ/06, 96.4?% sequence identity with APMV-4/mallard/Belgium/15129/07 and 90.8?% nucleotide sequence identity with APMV-4/duck/HK/D3/75. Genomic features were consistent with previously sequenced viruses including predicted open reading frames for the NP, P, F and L genes, but variations in coding regions for the M and HN genes were identified. The sequencing approach adopted in this study could successfully indicate quasispecies in the viral stock.     

Whole genome sequencing and biological characterization of Duck/JS/10, a new lentogenic class I Newcastle disease virus

A lentogenic Newcastle disease virus (NDV), Duck/JS/10 (JS10), was isolated from an unvaccinated duck in China. The complete genome of the virus contained 15,198 nucleotides. Based on length of the genome and a partial sequence of the F gene, the virus was classified as a class I genotype 4 NDV. The antigenicity of the virus was compared with that of NDV strain La Sota via hemagglutination inhibition (HI), virus neutralization (VN) assay and animal experiments. Our results show that JS10 generates higher HI and VN titers than La Sota against both class I and II virulent NDV strains. Experiments on animals demonstrate that virus shedding from chickens vaccinated with JS10 is significantly reduced when compared to those vaccinated with La Sota. Overall, this study strongly suggests that JS10 may qualify as a new vaccine candidate against Newcastle disease.     

Complete genome sequence of avian paramyxovirus type 3 reveals an unusually long trailer region

The complete genome sequence was determined for prototype parakeet/Netherlands/449/75 strain of avian paramyxovirus (APMV) serotype 3. The genome is 16,272 nucleotides (nt) in length, consisting of six non-overlapping genes in the order of 3'-N-P/V/W-M-F-HN-L-5', with intergenic regions of 31-63nt. APMV-3 genome follows the "rule of six" and is the largest among the avian paramyxoviruses reported to date, with a trailer region of 707nt, the longest in the family Paramyxoviridae. The cleavage site of F protein, A-R-P-R-G-R downward arrowL, does not conform to the preferred cleavage site of the ubiquitous cellular protease furin. Therefore, exogenous protease was needed for replication in vitro. Alignment and phylogenetic analysis of the predicted amino acid sequences of strain Netherlands proteins with the cognate proteins of viruses of all of the five genera of family Paramyxoviridae showed that APMV-3 strain Netherlands is more closely related to APMV-1 than APMV-6.     

Characterization of a genetic and antigenic variant of avian paramyxovirus 6 isolated from a migratory wild bird,the red-necked stint (Calidris ruficollis)

A hemagglutinating virus (8KS0813) was isolated from a red-necked stint. Hemagglutination inhibition and neutralization tests indicated that 8KS0813 was antigenically related to a prototype strain, APMV-6/duck/Hong Kong/18/199/77, but with an 8- and 16-fold difference, respectively, in their titers. The full genome sequence of 8KS0813 showed 98.6 % nucleotide sequence identity to that of APMV-6/duck/Italy/4524-2/07, which has been reported to belong to an APMV-6 subgroup, and showed less similarity to that of the prototype strain (70.6 % similarity). The growth of 8KS0813 and the prototype strain in four different cell cultures was greatly enhanced by adding trypsin. Interestingly, this virus induced syncytia only in Vero cells. 8KS0813 was identified as APMV-6/red-necked stint/Japan/8KS0813/08, but it is antigenically and genetically distinguishable from the prototype strain, suggesting that variant APMV-6 is circulating in migratory birds.     

CRF22_01A1 is involved in the emergence of new HIV-1 recombinants in Cameroon

Cameroon is a West African country where high genetic diversity of HIV-1 has been reported. The predominant CRF02_AG is involved in the emergence of more complex intersubtype recombinants. In this study, we sequenced the full-length genome of a novel unique recombinant form of HIV-1, 02CAMLT04 isolated in blood donors in urban Cameroon. Phylogenetic tree and bootscan analysis showed that 02CAMLT04 was complex and seemed to be a secondary recombinant derived from CRF02_AG and CRF22_01A1. The genomic composition of 02CAMLT04 strain showed that it is composed of 3 segments; 24% of the genome is classified as CRF02_AG, spanning most of the envelope gene. The remaining 76% of the genome is classified as CRF22_01A1. In addition, the sequence analysis of 13 full-length sequences from HIV-1-positive specimens received from Cameroon between 2002 and 2010 indicated that 5 specimens are pure CRF22_01A1 viruses, and 6 others have homology with CRF22_01A1 sequences in either gag, pol, or env region, whereas 6% of strains contain portions of CRF22_01A1. Further study demonstrated that CRF22_01A1 is a primary prevalence strain co-circulating in Cameroon and is involved in complex intersubtype recombination events with subtypes (D or F), subsubtypes (A1 or F2), and CRFs (CRF01_AE or CRF02_AG). Our studies show that novel recombinants between CRF22_01A1 and other clades and recombinant forms may be emerging in Cameroon that could contribute to the future global diversity of HIV-1 in this region and worldwide.     

Antigenic and genetic analyses of isolate APMV/wigeon/Italy/3920-1/2005 indicate that it represents a new avian paramyxovirus (APMV-12)

Isolate wigeon/Italy/3920-1/2005 (3920-1) was obtained during surveillance of wild birds in November 2005 in the Rovigo province of Northern Italy and shown to be a paramyxovirus. Analysis of cross-haemagglutination-inhibition tests between 3920-1 and representative avian paramyxoviruses showed only a low-level relationship to APMV-1. Phylogenetic analysis of the whole genome and each of the six genes indicated that while 3920-1 grouped with APMV-1 and APMV-9 viruses, it was quite distinct from these two. In the whole-genome analysis, 3920-1 had 52.1 % nucleotide sequence identity to the closest APMV-1 virus, 50.1 % identity to the APMV-9 genome, and less than 42 % identity to representatives of the other avian paramyxovirus groups. We propose isolate wigeon/Italy/3920-1/2005 as the prototype strain of a further APMV group, APMV-12.     

我国新分离乙脑病毒02-76株的全基因序列特征

目的对我国新分离乙脑病毒02-76株进行全基因序列测定和分析，了解乙脑病毒基因组结构及毒力特性。方法设计乙脑病毒全基因组扩增引物，RT-PCR扩增片段，PCR产物直接测序，拼接后获得全基因序列。通过Clustal X（1．8）、DNASTAR、GENEDOC（3．2）等生物学软件进行核苷酸序列及氨基酸序列分析和病毒的系统进化分析。结果新分离乙脑病毒02．76株全基因组全长10977个核苷酸，从96位到10391位，共10296个核苷酸编码一个开放阅读框，编码3432个氨基酸。与我国1949年分离的Beijing-1株相比较共存在248个核苷酸差异，16个氨基酸差异。与GenBank中选择的29株乙脑病毒全基因序列比较发现，其核苷酸总体差异率为0．6％-15．1％，氨基酸总体差异率为0．2％-4．6％。通过PrM／C区段、E区段、3’NTR区段及全基因序列进行系统进化分析均显示该毒株属于基因3型乙脑病毒。结论新分离的乙脑病毒02-76株属于基因3型，与中国分离株SA-14进化关系最接近。     

Quasispecies Nature of an Unusual Avian Paramyxovirus Type-1 Isolated from Pigeons

An avian paramyxovirus type-1 (APMV-1) was classified as virulent according to its Intra Cerebral Pathogenicity Index (ICPI), but as avirulent according to the motif of its F protein cleavage site. Although this atypical APMV-1 was isolated from sick, unvaccinated pigeons, it was not grouped with pigeon variants regarding its antigenic and genetic characterisation. We analysed its quasispecies nature by cloning and sequencing parts of the genome in three different genes to evaluate if heterogeneity might explain the difference observed between the ICPI and the F protein cleavage site motif. Two distinct sub-populations were detected in the phosphoprotein gene. In the fusion protein gene, two clones were found to be related to typical pigeon variants in the hypervariable domain.     

Independent introduction of transmissible F/D recombinant HIV-1 from Africa into Belgium and The Netherlands

Most HIV-1 subtype F viruses described so far have been isolated from individuals originating in South America, Romania, or Central Africa. Previous studies have shown that subtype F viruses from these three areas can be distinguished by phylogenetic tree analysis of various parts of the HIV genome. Subtype F strains circulating in Central Africa and classified as subgroup F2 and F3 have relatively large nucleotide distances from strains of subgroup F1, which includes some African strains, along with strains from Romania and South America. Subtype F strains have now appeared in Europe. In this study, we analyzed the complete gag gene and a large fragment of the pol gene of seven strains of African origin that represent the three F subgroups. At least five of the seven strains appear to be intersubtype recombinants. Of four strains circulating in Belgium and the Netherlands, three were F/D mosaics and the fourth harboured a G(gag)/GH(pol)/F3(env) recombinant structure. Two of the three F/D mosaics showed identical breakpoints and were independently introduced in Belgium and the Netherlands. At least two of the mosaics were further transmitted. The remaining three strains of the seven we studied were isolated from individuals in Cameroon. Two included large or smaller F1 fragments in gag and pol. The third strain was subtype D along the entire gag and pol fragment. A parental African subtype F that showed no evidence for recombination was not found.     

Complete genome sequence of highly virulent neurotropic Newcastle disease virus strain Texas GB

Newcastle disease virus (NDV) strain Texas GB is a highly virulent neurotropic virus that is used as a standard vaccine challenge virus in the U.S. In this study, the complete genome sequence of strain Texas GB was determined and compared with the complete genome sequences of other NDV strains. The genome is 15,186 nucleotides (nt) long and consists of six genes in the order of 3′leader-N-P-M-F-HN-L-5′trailer. The genome contains a 55-nt leader sequence at the 3′ end and a 114-nt trailer sequence at the 5′ end. The intergenic sequences are 2, 1, 1, 31, and 47 nt between N/P, P/M, M/F, F/HN, and HN/L genes, respectively. The putative cleavage site of fusion protein showed amino acid sequence of R-R-Q-K-R↓F in position 112 to 117, which corresponds to those of virulent NDV strains. The phylogenetic analysis showed that strain Texas GB is closely related to the neurovirulent mesogenic strain Beaudette C (BC) and to NDV viruses isolated in China and Egypt than to other strains of NDV.     

Genomic analysis of Newcastle disease virus strain NA-1 isolated from geese in China

Newcastle disease virus (NDV) has been thought to infect only domestic avian species, with waterfowl such as geese either not being infected, even by virulent strains, or developing only in apparent infection. In 1997, a new infectious disease producing high morbidity and mortality among geese broke out in many provinces of China, which was caused by a serotype I avian paramyxovirus (APMV-1)--NDV. To investigate how NDV spreads between chickens and geese, the complete genome of one NDV strain isolated from a goose was cloned and analyzed. The results indicate that there is conservation in NDV structural genetic evolution but that there are also considerable differences between goose and chicken NDV strains. Separate patterns of NDV evolution exist among wild bird species. Meanwhile, there is evidence indicating that the goose NDV may have evolved from chicken NDV strain Herts/33. In addition, the possibility was investigated that this new strain of NDV may bind to different sialic acid receptor binding sites than the normal NDV strains that have been investigated so far. This might provide clues to the evolution of the goose NDV.     

Avian paramyxoviruses and influenza viruses isolated from mallard ducks (Anas platyrhynchos) in New Zealand

Summary.  A comprehensive study using virological and serological approaches was carried out to determine the status of live healthy mallard ducks (Anas platyrhynchos) in New Zealand for infections with avian paramyxoviruses (APMV) and influenza viruses (AIV). Thirty-three viruses isolated from 321 tracheal and cloacal swabs were characterized as: 6 AIV (two H5N2 and four H4N6), 10 APMV-1 and 17 APMV-4. Of 335 sera samples tested for AIV antibodies, 109 (32.5%) sera were positive by nucleoprotein-blocking ELISA (NP-B-ELISA). Serum samples (315) were examined for antibody to APMV-1, -2, -3, -4, -6, -7, -8, -9 by the haemagglutination inhibition test. The largest number of reactions, with titres up to ≥1/64, was to APMV-1 (93.1%), followed by APMV-6 (85.1%), APMV-8 (56%), APMV-4 (51.7%), APMV-7 (47%), APMV-9 (15.9%), APMV-2 (13.3%) and APMV-3 (6.0%). All of the H5N2 isolates of AIV and the APMV-1 isolates from this and earlier New Zealand studies had low pathogenicity indices assessed by the Intravenous Pathogenicity Index (IVPI) with the result 0.00 and Intracerebral Pathogenicity Index (ICPI) with results 0.00–0.16. Partial genomic and antigenic analyses were also consistent with the isolates being non-pathogenic. Phylogenetic analysis of the 10 APMV-1 isolates showed 9 to be most similar to the reference APMV-1 strain D26/76 originally isolated in Japan and also to the Que/66 strain, which was isolated in Australia. The other isolate was very similar to a virus (MC 110/77) obtained from a shelduck in France. Received October 29, 2001; accepted February 26, 2002 Published online May 24, 2002     

Genetic Analysis of the Nonstructural (NS) Genes of H9N2 Chicken Influenza Viruses Isolated in China During 1998–2002

H9N2 subtype avian influenza viruses are widespread in domestic poultry. Genetic analysis indicated that three lineages of H9N2 viruses have been established in Eurasia and only one lineage is present on chicken farms in mainland China. Here, NS1 genes of eight H9N2 chicken influenza viruses, isolated in mainland China during 1998–2002, were completely sequenced and phylogenetically analyzed. By comparison, the homology of the NS1 of the A/chicken/Neimenggu/ZH/02 (Ck/NM/ZH/02) strain had a high identity (93.8%) with that of A/chicken/Korea/323/96 (Ck/Kor/323/96), which is an A/duck/Hong Kong/Y439/97 (Dk/HK/Y439/97)-like virus. NS1 peptides of seven strains possessed 217 amino acids, while that of the strain Ck/NM/ZH/02 coded 230 amino acids. Except for the amino acid at position 225, the additional amino acid sequence (13 AAs) of NS1 of Ck/NM/Zh/02 at the carboxy-terminus is identical with that of Ck/Kor/323/96. Phylogenetic analysis showed that seven of the tested strains belong to the A/duck/Hong Kong/Y280/97 (DK/HK/Y280/97)-like lineage, while the NS1 gene of Ck/NM/Zh/02 belongs to the Dk/HK/Y439/97-like lineage and has a close relationship with that of the Ck/Kor/323/96-like viruses. Therefore, although most of the H9N2 influenza viruses circulating on chicken farms in mainland China belong to the DK/HK/Y280/97-like lineage, the present results indicate that the other two of the three H9N2 lineage viruses also circulate in the chicken population in mainland China.     

Characterization of complete genome sequence of genotype VI and VII velogenic Newcastle disease virus from Japan

The complete genome sequences of three strains of Newcastle disease virus (NDV) isolated from vaccinated commercial layer flocks in Japan in the span of three decades were characterized. All strains had genome lengths of 15,192 nucleotides consisting of six genes in the order of 3′-NP–P/V/W–M–F–HN–L-5′. The general genomic characteristics of the Japanese field strains were consistent with previously characterized class II NDV, except for those belonging to early genotypes (genotype I–IV), which lack the six nucleotide insertion at nucleotide positions 1,648–1,653 of the nucleoprotein (NP) gene. Phylogenetic analysis showed that the Japanese strains could be classified into genotypes VIc and VIIe using the complete genome sequence and the complete coding sequence of the fusion (F) gene according to the unified NDV classification system. Characterization of functional domains and neutralizing epitopes of the F and hemagglutinin-neuraminidase (HN) proteins of Japanese field strains revealed a total of 31 amino acid substitutions, as compared to vaccine strains Ishii and B1, which were widely used in Japan. Although virus neutralization (VN) test showed that poor flock immunity due to vaccination failure or partial and non-uniform immunization maybe the major factors involved in the mechanism of breakthrough infection of the Japanese field strains, approximately two to threefold decrease in the VN titers of the field NDV strains possessing a point mutation (E347K or E347G) at the linear epitope of the HN protein was observed, as compared to vaccine strain B1 and field strain 2440/69, which lack the point mutation. This study may be a useful reference in characterizing future ND outbreaks in vaccinated chickens and as a genetic map for future investigations regarding vaccine designs, reverse genetics systems, and development of molecular diagnostic tools to prevent future ND outbreaks in vaccinated poultry flocks.