Complete genome sequence of a peste des petits ruminants virus recovered from wild bharal in tibet, china

For the first time, here we announce the complete genome sequence of a field isolate of Peste des petits ruminants virus (PPRV) derived from macerated rectal tissue of a free living bharal (Pseudois nayaur) that displayed clinical disease consistent with severe infection with PPRV. Further, we compare the full genome of this isolate, termed PPRV Tibet/Bharal/2008, with previously available PPRV genomes, including those of virus isolates from domestic small ruminants local to the area where the reported isolate was collected. The current sequence is phylogenetically classified as a lineage IV virus, sharing high levels of sequence identity with previously described Tibetan PPRV isolates. Indeed, across the entire genome, only 26 nucleotide differences (0.16% nucleotide variation) and, consequently, 9 amino acid changes were present compared to sequences of locally derived viruses.     

Phylogenetic evidence for the rapid evolution of human B19 erythrovirus

Human B19 erythrovirus is a ubiquitous viral pathogen, commonly infecting individuals before adulthood. As with all autonomous parvoviruses, its small single-stranded DNA genome is replicated with host cell machinery. While the mechanism of parvovirus genome replication has been studied in detail, the rate at which B19 virus evolves is unknown. By inferring the phylogenetic history and evolutionary dynamics of temporally sampled B19 sequences, we observed a surprisingly high rate of evolutionary change, at approximately 10(-4) nucleotide substitutions per site per year. This rate is more typical of RNA viruses and suggests that high mutation rates are characteristic of the Parvoviridae.     

Genotype v Japanese encephalitis virus is emerging

Japanese encephalitis (JE) is a global public health issue that has spread widely to more than 20 countries in Asia and has extended its geographic range to the south Pacific region including Australia. JE has become the most important cause of viral encephalitis in the world. Japanese encephalitis viruses (JEV) are divided into five genotypes, based on the nucleotide sequence of the envelope (E) gene. The Muar strain, isolated from patient in Malaya in 1952, is the sole example of genotype V JEV. Here, the XZ0934 strain of JEV was isolated from Culex tritaeniorhynchus, collected in China. The complete nucleotide and amino acid sequence of XZ0934 strain have been determined. The nucleotide divergence ranged from 20.3% to 21.4% and amino acid divergence ranged from 8.4% to 10.0% when compared with the 62 known JEV isolates that belong to genotype I-IV. It reveals low similarity between XZ0934 and genotype I-IV JEVs. Phylogenetic analysis using both complete genome and structural gene nucleotide sequences demonstrates that XZ0934 belongs to genotype V. This, in turn, suggests that genotype V JEV is emerging in JEV endemic areas. Thus, increased surveillance and diagnosis of viral encephalitis caused by genotype V JEV is an issue of great concern to nations in which JEV is endemic.     

Isolation of multiple TT virus genotypes from spleen biopsy tissue from a Hodgkin's disease patient: genome reorganization and diversity in the hypervariable region

We report the isolation of 24 novel genotypes of TT viruses from a surgically removed spleen of a patient with Hodgkin's disease. The sequence analysis of our 24 isolates revealed the remarkable heterogeneity of TT virus isolates not only from the same patient but also from the same biopsy material. These isolates belong to four phylogenetic groups of TT viruses. Nucleotide sequence analyses revealed five distinct genotypes (tth3, tth4, tth5, tth6, and tth7). The limited variation in sequence identity of the other isolates defines the latter as variants of four of these genotypes. A group of 6 isolates (the tth7 group) revealed a reorganization of open reading frame 1 (ORF1) leading to one larger and a varying number of smaller ORFs. The nucleotide difference of the full-length genomes was less than 1%. A variation of 69 to 97% in amino acids of a second group of 8 isolates (the tth3 group) was restricted to the hypervariable region of ORF1, indicating the existence of a quasi-species. These isolates differed by less than 2% in the remainder of their nucleotide sequences. An alignment of these isolates with 79 previously reported TT virus genotypes permits the proposal of TT virus genera and species within the family Anelloviridae in analogy to a previous proposal for the papillomaviruses (family Papillomaviridae).     

Computational reconstruction of Bole1a, a representative synthetic hepatitis C virus subtype 1a genome

Hepatitis C virus (HCV) research is hampered by the use of arbitrary representative isolates in cell culture and immunology. The most replicative isolate in vitro is a subtype 2a virus (JFH-1); however, genotype 1 is more prevalent worldwide and represents about 70% of infections in the United States, and genotypes differ from one another by 31% to 33% at the nucleotide level. For phylogenetic and immunologic analyses, viruses H77 and HCV-1 (both subtype 1a) are commonly used based on their historic importance. In an effort to rationally design a representative subtype 1a virus (Bole1a), we used Bayesian phylogenetics, ancestral sequence reconstruction, and covariance analysis on a curated set of 390 full-length human HCV 1a sequences from GenBank. By design, Bole1a contains variations present in widely circulating strains and matches more epitope-sized peptides in a full-genome comparison to subtype 1a isolates than any other sequence studied. Parallel analyses confirm that selected epitopes from the Bole1a genome were able to elicit a robust T cell response. In a proof of concept for infectivity, the envelope genes (E1 and E2) of Bole1a were expressed in an HIV pseudoparticle system containing HCV envelope genes and HIV nonenvelope genes with luciferase expression. The resulting Bole1a pseudoparticle robustly infected Hep3B cells. In this study, we demonstrate that a rationally designed, fully synthetic HCV genome contains representative epitopes and envelope genes that assemble properly and mediate entry into target cells.     

Evolution of the feline-subgroup parvoviruses and the control of canine host range in vivo.

A related group of parvoviruses infects members of many different carnivore families. Some of those viruses differ in host range or antigenic properties, but the true relationships are poorly understood. We examined 24 VP1/VP2 and 8 NS1 gene sequences from various parvovirus isolates to determine the phylogenetic relationships between viruses isolated from cats, dogs, Asiatic raccoon dogs, mink, raccoons, and foxes. There were about 1.3% pairwise sequence differences between the VP1/VP2 genes of viruses collected up to four decades apart. Viruses from cats, mink, foxes, and raccoons were not distinguished from each other phylogenetically, but the canine or Asiatic raccoon dog isolates formed a distinct clade. Characteristic antigenic, tissue culture host range, and other properties of the canine isolates have previously been shown to be determined by differences in the VP1/VP2 gene, and we show here that there are at least 10 nucleotide sequence differences which distinguish all canine isolates from any other virus. The VP1/VP2 gene sequences grouped roughly according to the time of virus isolation, and there were similar rates of sequence divergence among the canine isolates and those from the other species. A smaller number of differences were present in the NS1 gene sequences, but a similar phylogeny was revealed. Inoculation of mutants of a feline virus isolate into dogs showed that three or four CPV-specific differences in the VP1/VP2 gene controlled the in vivo canine host range.     

Origin and evolution of Japanese encephalitis virus in southeast Asia

Since it emerged in Japan in the 1870s, Japanese encephalitis has spread across Asia and has become the most important cause of epidemic encephalitis worldwide. Four genotypes of Japanese encephalitis virus (JEV) are presently recognized (representatives of genotypes I to III have been fully sequenced), but its origin is not known. We have determined the complete nucleotide and amino acid sequence of a genotype IV Indonesian isolate (JKT6468) which represents the oldest lineage, compared it with other fully sequenced genomes, and examined the geographical distribution of all known isolates. JKT6468 was the least similar, with nucleotide divergence ranging from 17.4 to 19.6% and amino acid divergence ranging from 4.7 to 6.5%. It included an unusual series of amino acids at the carboxy terminus of the core protein unlike that seen in other JEV strains. Three signature amino acids in the envelope protein (including E327 Leu-->Thr/Ser on the exposed lateral surface of the putative receptor binding domain) distinguished genotype IV strains from more recent genotypes. Analysis of all 290 JEV isolates for which sequence data are available showed that the Indonesia-Malaysia region has all genotypes of JEV circulating, whereas only more recent genotypes circulate in other areas (P < 0.0001). These results suggest that JEV originated from its ancestral virus in the Indonesia-Malaysia region and evolved there into the different genotypes which then spread across Asia. Our data, together with recent evidence on the origins of other emerging viruses, including dengue virus and Nipah virus, imply that tropical southeast Asia may be an important zone for emerging pathogens.     

Sequence analysis of NS3 protease gene in clinical strains of hepatitis C virus

The amino terminal region of the non structural gene 3 (NS3) of hepatitis C virus (HCV) is a chymotripsinlike serine-protease responsible for cleavage of the non structural proteins of Hepatitis C virus (HCV). In order to investigate the genetic variation of this region, we developed a nested PCR to obtain NS3 protease sequences from 54 patients chronically infected with HCV genotypes 1a, 1b and 3, respectively. Comparison of nucleotide and amino acids sequences of NS3 protease domain with consensus sequence obtained within the same genotype, showed 3.73% nucleotide divergence and 1.64% amino acid divergence in isolates of genotype 3a, whereas isolates 1a exhibited 4.45% nucleotide and 4% amino acid change, respectively. Finally, NS3 sequence from 1b isolates revealed 6.47% nucleotide and 3.5 % aa changes. Comparison of consensus amino acid sequences derived from isolates 1a, 1b and 3, with the HCV prototypes showed a low amino acid sequence diversity. However, the consensus sequence of HCV genotype 3 isolates showed an amino acid changed from the prototype, that was located within a region important for enzyme structure and activity. These results indicated that the NS3 protease gene is highly conserved within the same HCV genotype. The domains involved in enzyme function were highly conserved in 1a and 1b strains, whereas consensus sequence of isolates 3a showed that the majority of these strains were not perfectly conserved in one of such regions. These findings altogether suggested that the NS3 protease enzyme of HCV may constitute an important target for antiviral therapy, but the NS3 protease variability of isolates 3 within a region that is a potential target for antiviral therapy could pose a problem for structure based drug development.     

Sequences of Citrus tristeza virus separated in time and space are essentially identical

The first Citrus tristeza virus (CTV) genomes completely sequenced (19.3-kb positive-sense RNA), from four biologically distinct isolates, are unexpectedly divergent in nucleotide sequence (up to 60% divergence). Understanding of whether these large sequence differences resulted from recent evolution is important for the design of disease management strategies, particularly the use of genetically engineered mild (essentially symptomless)-strain cross protection and RNA-mediated transgenic resistance. The complete sequence of a mild isolate (T30) which has been endemic in Florida for about a century was found to be nearly identical to the genomic sequence of a mild isolate (T385) from Spain. Moreover, samples of sequences of other isolates from distinct geographic locations, maintained in different citrus hosts and also separated in time (B252 from Taiwan, B272 from Colombia, and B354 from California), were nearly identical to the T30 sequence. The sequence differences between these isolates were within or near the range of variability of the T30 population. A possible explanation for these results is that the parents of isolates T30, T385, B252, B272, and B354 have a common origin, probably Asia, and have changed little since they were dispersed throughout the world by the movement of citrus. Considering that the nucleotide divergence among the other known CTV genomes is much greater than those expected for strains of the same virus, the remarkable similarity of these five isolates indicates a high degree of evolutionary stasis in some CTV populations.     

2001～2011年上海市风疹病毒分子流行病学研究

本研究对2001～2011年本实验室保存的血清标本检测结果为麻疹IgM阴性,风疹IgM阳性病例相对应的咽拭子标本进行风疹病毒（Rubella virus,RV）分离,用RT-PCR方法对细胞培养产物鉴定后扩增病毒E1基因,扩增产物用于核苷酸序列测定,并进行分子流行病学分析。结果表明,60份咽拭子标本共分离到31株RV,获得27株RV的739nt（nt8 731～nt9 469）核苷酸序列,系统同源性分析表明,27株RV分离株分别属于两个不同的基因型,除分离自2011年的11009株、11052株和11106株为2B基因型外,其他分离株均为1E基因型。27株RV分离株大部分的核苷酸突变为无义突变,氨基酸序列高度保守。24株1E基因型分离株中大部分毒株氨基酸序列完全一致,自2001年以来可能有来自同一传播链的RV在持续传播。本研究首次监测到2B基因型RV2011年开始在上海流行,经GenBank核苷酸序列比对发现,其与越南、日本、阿根廷等国家近几年的RV分离株核苷酸序列同源性达99%。由于以前对风疹的监测较少,尚不能证明其来源。     

Isolation of a human T-lymphotropic virus type I strain from Australian aboriginals.

A human T-lymphotropic virus type I (HTLV-I) strain was isolated in a CD4+ T-lymphocyte culture established from a healthy seropositive Australian Aboriginal. This isolate, identified as HTLV-IMSHR-1, was detected by immunofluorescence with monoclonal antibodies, by the presence of gag-encoded protein p24 in the culture supernatant, and by cocultivation leading to infection and transformation of lymphocytes from an HTLV-I-negative donor. By using the polymerase chain reaction technique, the env gene and segments of the pol and pX regions of the proviral genome of HTLV-I(MSHR-1) were amplified and sequenced. Comparison with the envelope sequences of prototype strains revealed up to 7% divergence at the nucleotide level and 3.1 to 4.3% divergence in the predicted amino acid sequence. Phylogenetic analysis showed that the Australian and Melanesian isolates are related. Differential reactivity with monoclonal antibodies suggests that gag protein p19 of HTLV-I(MSHR-1) is also divergent. The potential for antigenic divergence between the prototype HTLV-I isolates and the Austro-Melanesian variants requires further investigation, because it would have implications for serodiagnosis and vaccine development.     

Two French genotypes of hepatitis C virus: homology of the predominant genotype with the prototype American strain.

A hepatitis C virus (HCV) cDNA covering part of the nonstructural region, NS3, was amplified from the serum of 50 out of 76 French non-A, non-B hepatitis patients by the nested polymerase chain reaction (PCR). Determination of a 407-bp sequence from four such cases revealed the presence of two different virus genotypes, F1 and F2, which exhibited 19-20% sequence divergence. F1 was represented by three of the four isolates and showed a sequence homology of about 97.5% to the prototype American HCV isolate, but of only 79% to a reported Japanese isolate. In contrast, F2 had 91.6% homology to the Japanese isolate, but only 81% homology to the prototype American HCV. PCR products from the 50 samples were hybridized with labeled F1 and F2 fragments under stringent conditions; results indicated the F1-related strain(s) as the major HCV genotype. Furthermore, a total of 1477 bp of sequence has been determined for one of the isolates belonging to the F1 category. These results will have implications for the PCR detection of HCV infection and production of HCV vaccines, especially for European countries.     

水稻南方黑条矮缩病毒湖南鼎城株系S10片段的基因组序列分析

运用RT-PCR技术克隆了水稻南方黑条矮缩病毒(southern rice black-streaked dwarf virus,SRBSDV)湖南鼎城株系的基因组S10片段(SRBSDV-HuNDCS10),并对其全序列进行了测定和生物信息学分析。结果显示,SRBSDV-HuNDC S10片段全长为1797bp(登录号:JQ337964),含有1个ORF,编码557个氨基酸残基的衣壳蛋白,推测分子量约62.6kD,推测等电点为7.62,与已报道的广东、海南和云南分离物病毒的S10作比较,它们的核苷酸相似性分别为99.7%、99.0%和98.4%,氨基酸相似性分别为100.0%、99.5%和99.3%。对SRBSDV-HuNDCS10及部分Fijiviruses病毒对应片段在5’URT与3’URT存在的保守序列和互补序列进行了归纳,对其ORF编码的氨基酸序列进行了motif查找,得到该属(Fijiviruses)氨基酸序列的10个保守区段。此外,进行了糖基化位点、磷酸化位点及B细胞抗原表位预测,发现了3个可能的N端豆蔻酰基化位点,可能与病毒的侵染机制有关。     

利用小RNA深度测序技术鉴定半夏病毒病病原

RNA沉默是真核生物体内由病毒来源的干扰小RNA（virus derived small interfering RNA, vsiRNA）沉默复合物介导目标RNA特异降解的一种保守机制,通过对vsiRNA分析可进行植物病毒病原鉴定。本文利用小RNA深度测序技术对感病半夏叶片进行鉴定,结果发现,表现典型花叶症状的半夏叶片受到大豆花叶病毒（Soybean mosaic virus, SMV）、黄瓜花叶病毒（Cucumber mosaic virus, CMV）、芋花叶病毒（Dasheen mosaic virus, DsMV）、魔芋花叶病毒（Konjac mosaic virus, KoMV）、烟草花叶病毒（Tobacco mosaic virus, TMV）等多种病毒的复合侵染。为明确SMV山西半夏分离物（SMV-SXBX）的进化关系,进行SMV-SXBX全基因组克隆与分析,获得SMV-SXBX全长为9 735 nt,编码一个由3 105个氨基酸组成的多聚蛋白质。通过核苷酸与氨基酸序列比对发现,SMV-SXBX与半夏分离物P同源性最高,分别为91.1%和94.1%,且系统发育分析表明,SMV-SXBX与半夏SMV分离物P聚为一簇。同时,也对vsiRNA进行了系统分析,研究结果有望为半夏SMV的有效防治提供一定科学依据。     

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. Realtime 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 from2013 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 I155 T and Q226 L mutations. Moreover, 44 strains had A558 V mutations in the PB2 protein and four had E627 V 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.     

Differentiation of lymphocystis disease virus genotype by multiplex PCR

Lymphocystis disease virus (LCDV) is the causative agent of lymphocystis disease. The viruses have been divided into three genotypes (genotype I for LCDV-1, II for Japanese flounder isolates, and III for rockfish isolates) on the basis of major capsid protein (MCP) gene sequences. In this study, we developed a multiplex PCR primer set in order to distinguish these genotypes. We also analyzed the MCP gene of a new LCDV isolate from the sea bass (SB98Yosu). Comparison of sequence identities between SB98Yosu and eight Japanese flounder isolates, revealed identity of more than 90.1% at nucleotide level and 96.5% at deduced amino acid level, respectively. Phylogenetic analyses based on the MCP gene showed that SB98Yosu belongs to genotype II, along with Japanese flounder isolates. Multiplex PCR based on the MCP gene allowed us to identify these genotypes in a simple and rapid manner, even in a sample that contained two genotypes, in this case genotypes II and III.     

Isolation and identification of swine influenza recombinant A/Swine/Shandong/1/2003(H9N2) virus

Ten influenza virus isolates were obtained from infected pigs from different places in Shandong province showing clinical symptoms from October 2002 to January 2003. All 10 isolates were identified in China's National Influenza Research Center as influenza A virus of H9N2 subtype. The complete genome of one isolate, designated A/Swine/Shandong/1/2003(H9N2), was sequenced and compared with sequences available in GenBank. The results of analyses indicated that the sequence of A/Swine/Shandong/1/2003(H9N2) was similar to those of several chicken influenza viruses and duck influenza viruses recently prevalent in South China. According to phylogenetic analysis of the complete gene sequences, A/Swine/Shandong/1/2003(H9N2) possibly originated from the reassortment of chicken influenza viruses and duck influenza viruses. It was found that the amino acid sequence at the HA cleavage site in Sw/SD/1/2003 is R-S-L-R-G, differing clearly from that of other H9N2 subtype isolates of swine influenza and avian influenza, which is R-S-S-R-G.     

Investigation of the attenuation exhibited by a molecularly cloned chicken anemia virus isolate by utilizing a chimeric virus approach.

Molecular cloning of the Cux-1 isolate of chicken anemia virus (CAV), which had been passaged 173 times in cell culture, resulted in the isolation of an attenuated strain, designated cloned isolate 10, which reverted to virulence following 10 passages in young chicks (D. Todd, T. J. Connor, V. M. Calvert, J. L. Creelan, B. M. Meehan, and M. S. McNulty, Avian Pathol. 24:171-187, 1995). The attenuated cloned isolate 10 differs from the molecularly cloned pathogenic Cux-1 isolate in that it possesses a 21-nucleotide insertion within the nontranscribed region of the CAV genome and 17 individual nucleotide substitutions dispersed throughout the genome. Comparative analyses with other published CAV sequences indicated that cloned isolate 10 was unique at nine nucleotide positions and at five amino acid positions. The molecular basis of the attenuation exhibited by cloned isolate 10 was investigated by evaluating the pathogenicities of two sets of complementary chimeric viruses. These sets were produced by transfection with chimeric double-stranded replicative-form (RF) DNA equivalents that contained DNA sequences derived from cloned isolate 10 and the pathogenic cloned Cux-1 isolate. The construction of the chimeric RFs exploited the occurrence of unique EcoRI, PstI, and BamHI restriction sites, which allowed their respective circular CAV RFs to be manipulated as three restriction fragments of 0.58, 0.93, and 0.71 kbp. Examination of the levels of anemia and gross pathology in the thymuses and bone marrows of 14 day-old specific-pathogen-free chicks following infection of 1-day-old chicks with the chimeric and cloned parental isolates indicated that nucleotide changes in each of the three genomic regions contributed towards attenuation. The significance of this result to the development and use of live attenuated CAV vaccines is discussed.     

Sequence conservation in field and experimental isolates of Borna disease virus.

Coding and noncoding sequences were analyzed from field and experimental isolates of Borna disease virus. For a 24-kDa protein, maximum divergence was 1.5% at the predicted amino acid level and 3.1% at the nucleotide level. For a 40-kDa protein, maximum divergence was 1.1% at the predicted amino acid level and 4.1% at the nucleotide level. The highest variability in sequence (10%) was found in a 40-nucleotide stretch of genomic RNA between coding sequences for the 40- and 24-kDa proteins. The degree of sequence conservation in these isolates, passaged in various host species in vivo and in vitro over a period of 64 years, is unusual for negative-strand RNA viruses.