鹅细小病毒分离株HG5／82的分子特征分析

本研究应用PCR技术扩增得到GPV中国分离株HG5/82的非结构基因与结构基因,片段大小分别约为1.9kb、2.2kb的片段。将该片段分别进行克隆及序列测定,并与 GPV 国内外部分已发表的毒株及番鸭细小病毒(Muscovy duck parvovirus,MDPV)的对应序列比较。结果表明:HG5/82 株非结构蛋白(Non structure, NS)基因长为1884bp,编码627个氨基酸。HG5/82株结构蛋白基因长为2199bp,编码732个氨基酸。序列分析结果表明,我国地方分离株与国内外鹅细小病毒相比,ns基因、vp基因均表现出较高的同源性,并且具有共同的分子特征。为进一步研究GPV的基因功能、遗传变化规律及病毒分子致病机理提供了一定的分子基础。结构基因 VP3 间变异较小,这是目前GPV只有一个血清型的分子基础,为基因工程苗的研制提供了可行性。HG5/82 与番鸭细小病毒相应序列比较发现,与细小病毒其它成员相比两者具有较近的亲源关系,但这种同源性明显低于鹅细小病毒之间的同源性。     

PCR detection and sequence analysis of duck circovirus in sick Muscovy ducks

The duck circovirus (DuCV) infection in sick ducks from Fujian Province was investigated. The liver samples of 43 sick Muscovy ducks with infectious serositis were collected from 12 duck farms in Fujian Province.Based on the published sequences of DuCV, two primers were designed for the detection of DuCV and four pairs of primers were designed to amplify four overlapping fragments that cover the complete genome of DuCV. The specific PCR products were amplified from positive samples. The fragments were then cloned into pMD18-T vector and sequenced, and the full length genomic sequence of the FJ0601 isolate of DuCV was obtained. PCR analysis showed that the proportion of ducks which were positive for circovirus was 79% and 10 out of the 12 farms were positive. Sequence analysis showed that the complete genome of DuCV-FJ0601 was 1988 bp and possessed features common to the family Circoviridae which included a stem-loop structure and the Rep protein motifs. Homology analysis showed that FJ0601 isolate of DuCV had 97.3%～97.5% nucleotide sequence identity to all the four Taiwan isolates (TC1/2002, TC2/2002, TC3/2002, TC4/2002), 82.9% identity to the America (33753-52) isolate and 82.3% identity to the Germany isolate. Phylogenetic analysis with Clustal W, however,showed that FJ0601 isolate of DuCV was on a common branch with Taiwan isolates, and Germany and America isolates belonged to the other branch.     

Identification,genotyping, and molecular evolution analysis of duck circovirus

Duck circovirus (DuCV) is a contagious immunosuppressive virus affecting many duck species, which is responsible for multiple outbreaks in poultry industries worldwide. In this study, the first DuCV isolate GH01 was identified in Sichuan by PCR, which shared a high level of nucleotide identity (81.8–99.4%) with sequences of other DuCV isolates available in GenBank. Comparative phylogenetic and pairwise sequence comparison analyses indicated that DuCV could be divided into two genotypes (DuCV-1 and DuCV-2) and six subtypes (1a, 1b, 1c, 2a, 2b and 2c) based on the complete genome sequence. The results revealed that both DuCV-1 and DuCV-2 had evolved from the same ancestor but undergone divergent evolution. Interestingly, phylogenetic analyses indicated that three isolates were classified into a cluster DuCV-2a using complete DuCV genome sequence and cap gene, except rep gene. Recombination analyses revealed that DuCV-2a arose from recombination between DuCV-1a and DuCV-2b isolates within the rep genes, and the recombination events mainly occur both in non-structural protein coding region and structural protein coding region. In addition, the mechanisms of recombination supporting the genetic variability in DuCV isolates were investigated. Likewise, selective pressure indicated that purifying selection had been a major driving force in maintaining diversity among the DuCV isolates. Because eradicating the virus from commercial ducks is impossible, it is necessary to take effective control measures and implement them throughout the world.     

Genetic Structure of Avian Influenza Viruses from Ducks of the Atlantic Flyway of North America

Wild birds, including waterfowl such as ducks, are reservoir hosts of influenza A viruses. Despite the increased number of avian influenza virus (AIV) genome sequences available, our understanding of AIV genetic structure and transmission through space and time in waterfowl in North America is still limited. In particular, AIVs in ducks of the Atlantic flyway of North America have not been thoroughly investigated. To begin to address this gap, we analyzed 109 AIV genome sequences from ducks in the Atlantic flyway to determine their genetic structure and to document the extent of gene flow in the context of sequences from other locations and other avian and mammalian host groups. The analyses included 25 AIVs from ducks from Newfoundland, Canada, from 2008–2011 and 84 available reference duck AIVs from the Atlantic flyway from 2006–2011. A vast diversity of viral genes and genomes was identified in the 109 viruses. The genetic structure differed amongst the 8 viral segments with predominant single lineages found for the PB2, PB1 and M segments, increased diversity found for the PA, NP and NS segments (2, 3 and 3 lineages, respectively), and the highest diversity found for the HA and NA segments (12 and 9 lineages, respectively). Identification of inter-hemispheric transmissions was rare with only 2% of the genes of Eurasian origin. Virus transmission between ducks and other bird groups was investigated, with 57.3% of the genes having highly similar (≥99% nucleotide identity) genes detected in birds other than ducks. Transmission between North American flyways has been frequent and 75.8% of the genes were highly similar to genes found in other North American flyways. However, the duck AIV genes did display spatial distribution bias, which was demonstrated by the different population sizes of specific viral genes in one or two neighbouring flyways compared to more distant flyways.     

Genetic Diversity and Molecular Evolution of Plum bark necrosis stem pitting-associated virus from China

Plum bark necrosis stem pitting-associated virus (PBNSPaV), a member of the genus Ampelovirus in the family Closteroviridae, infects different Prunus species and has a worldwide distribution. Yet the population structure and genetic diversity of the virus is still unclear. In this study, sequence analyses of a partial heat shock protein 70 homolog (HSP70h) gene and coat protein (CP) gene of PBNSPaV isolates from seven Prunus species grown in China revealed a highly divergent Chinese PBNSPaV population, sharing nucleotide similarities of 73.1–100% with HSP70h gene, and 83.9–98.6% with CP gene. Phylogenetic analysis of HSP70h and CP sequences revealed segregation of global PBNSPaV isolates into four phylo-groups (I–IV), of which two newly identified groups, II and IV, solely comprised Chinese isolates. Complete genome sequences of three PBNSPaV isolates, Pch-WH-1 and Pch-GS-3 from peaches, and Plm-WH-3 from a plum tree, were determined. The three isolates showed overall nucleotide identities of 90.0% (Pch-GS-3) and 96.4% (Pch-WH-1) with the type isolate PL186, and the lowest identity of 70.2–71.2% with isolate Nanjing. For the first time, to the best of our knowledge, we report evidence of significant recombination in the HSP70h gene of PBNSPaV variant Pch2 by using five programs implemented in RDP3; in addition, five codon positions in its CP gene (3, 8, 44, 57, and 88) were identified that appeared to be under positive selection. Collectively, these results indicate a divergent Chinese PBNSPaV population. In addition, our findings provide a foundation for elucidating the epidemiological characteristics of virus population.     

Nucleotide sequence of coat protein gene for GPV isolate of barley yellow dwarf virus and construction of expression plasmid for plant

GPV is a Chinese serotype isolate of barley yellow dwarf virus (BYDV) that has no reactionwith antiserum of MAV, PAV, SGV, RPV and RMV. The sequence of the coat protein (CP) of GPV isolate of BYDV was identified and its amino acid sequence was deduced. The coding region for the putative GPV CP is 603 bases nucleotides and encodes a Mr 22218 (22 ku) protein. The same as MAV, PAV and RPV, GPV contained a second ORF within the coat protein coding region. This protein of 17024 Mr (17 ku) is thought to correspond to the Virion protein genome linked (Vpg). Sequence comparisons of the CP coding region between the GPV isolate of BYDV and other isolates of BYDV have been done. The nucleotide and ammo acid sequence homology of GPV has a greater identity to the sequence of RPV than those of PAV and MAV. The GPV CP sequence shared 83.7% of nucleotide similarity and 77.5% of deduced amino add similarity, whereas that of the PAV and MAV shared 56.9%. 53.2% and 44.1%. 43.8% respectively. According to BYDV-GPV CP seque     

鸭细小病毒04Nb株的分离鉴定与rep基因测序与分析

采集浙江宁波地区以腹泻、呼吸困难为主要症状的病鸭肝组织,接种正常鸭胚尿囊腔增殖病毒。雏鸭感染试验显示发病症状及病理变化明显,死亡率为75%。电镜下可见纯化病毒直径约20nm左右的球形病毒粒子。免疫琼脂扩散实验结果显示与鸭细小病毒(duckparvovirusDPV)标准株阳性血清有明显沉淀线。经SDS-PAGE呈现3条结构蛋白带,与DPV标准株一致;参照GenBankDPV非结构蛋白基因序列设计引物,PCR扩增反应获得目的条带,克隆测序后,与DPV代表株序列同源性达98%。根据上述实验结果,确定引起本次鸭场疫病的病原为DPV。为进一步研究该分离株rep基因的序列特征,对其rep基因克隆测序,与GenBank中两株DPV、两株鹅细小病毒(GPV)进行序列比对,结果显示rep基因核苷酸序列与DPV参考毒株同源性为98%以上,与GPV同源性为80%左右。     

Molecular and Biological Analysis of Potato virus M (PVM) Isolates from the Czech Republic

The sequences of the 3′‐terminal region of four Czech Potato virus M isolates VIRUBRA 4/007, VIRUBRA 4/009, VIRUBRA 4/016 and VIRUBRA 4/035 were determined and compared with sequences of PVM isolates available in GenBank. Among the Czech isolates, VIRUBRA 4/007 and 4/016 as well as VIRUBRA 4/016 and 4/035 showed the highest nucleotide identity (93%). Isolates VIRUBRA 4/007, 4/016 and 4/035 were most similar to the PV0273 isolate from Germany and to the wild isolate from Russia. Interestingly, isolate VIRUBRA 4/009 significantly differed from the other three Czech isolates and was the only European isolate that showed the highest nucleotide identity with American isolates. Moreover, the PVM isolates from the Czech Republic and Germany differed in their host range. Phylogenetic analysis based on ORF5 coding for coat protein showed that the Czech isolates could be classified in two of the three groupings of the phylogenetic tree obtained. This is the first report on molecular and biological analysis of the genome sequences of PVM isolates from the Czech Republic.     

侵染陕西洋葱的胡葱黄条病毒基因组全序列分析

葱属植物病毒病害在世界范围内广泛发生,严重危害生产,如果要有效控制病害,首先需要明确病毒的种类及它们的分子生物学特征。Dijk根据寄主范围和血清学的差异,将全世界5700份葱属植物上发生的马铃薯Y病毒属(Potyvirus)成员区分为4个不同的种:韭葱黄条病毒(Leek yellowstripevirus,LYSV)、洋葱黄矮病毒(Onion yellowdwarf virus,OYDV)、胡葱黄条病毒(Shallotyellow stripe virus,SYSV)和大葱黄条病毒(Welsh onion yellowstripe virus,WoYSV)[1]。它们的寄主通常局限于一种或几种葱属植物,其中LYSV主要寄主为大蒜(garlic)、韭葱(le…     

Characterization of a highly pathogenic H5N1 avian influenza A virus isolated from duck meat

Since the 1997 H5N1 influenza virus outbreak in humans and poultry in Hong Kong, the emergence of closely related viruses in poultry has raised concerns that additional zoonotic transmissions of influenza viruses from poultry to humans may occur. In May 2001, an avian H5N1 influenza A virus was isolated from duck meat that had been imported to South Korea from China. Phylogenetic analysis of the hemagglutinin (HA) gene of A/Duck/Anyang/AVL-1/01 showed that the virus clustered with the H5 Goose/Guandong/1/96 lineage and 1997 Hong Kong human isolates and possessed an HA cleavage site sequence identical to these isolates. Following intravenous or intranasal inoculation, this virus was highly pathogenic and replicated to high titers in chickens. The pathogenesis of DK/Anyang/AVL-1/01 virus in Pekin ducks was further characterized and compared with a recent H5N1 isolate, A/Chicken/Hong Kong/317.5/01, and an H5N1 1997 chicken isolate, A/Chicken/Hong Kong/220/97. Although no clinical signs of disease were observed in H5N1 virus-inoculated ducks, infectious virus could be detected in lung tissue, cloacal, and oropharyngeal swabs. The DK/Anyang/AVL-1/01 virus was unique among the H5N1 isolates in that infectious virus and viral antigen could also be detected in muscle and brain tissue of ducks. The pathogenesis of DK/Anyang/AVL-1/01 virus was characterized in BALB/c mice and compared with the other H5N1 isolates. All viruses replicated in mice, but in contrast to the highly lethal CK/HK/220/97 virus, DK/Anyang/AVL-1/01 and CK/HK/317.5/01 viruses remained localized to the respiratory tract. DK/Anyang/AVL-1/01 virus caused weight loss and resulted in 22 to 33% mortality, whereas CK/HK/317.5/01-infected mice exhibited no morbidity or mortality. The isolation of a highly pathogenic H5N1 influenza virus from poultry indicates that such viruses are still circulating in China and may present a risk for transmission of the virus to humans.     

Complete genome sequence analysis of duck circovirus strains from Cherry Valley duck

To investigate molecular epidemiology of DuCV in Cherry Valley ducks in China,the complete genomes of six DuCV strains,which were detected from Cherry Valley ducks in China between 2007 and 2008,were s...     

New Insights into Asian Prunus Viruses in the Light of NGS-Based Full Genome Sequencing

Double stranded RNAs were purified from five Prunus sources of Asian origin and submitted to 454 pyrosequencing after a random, whole genome amplification. Four complete genomes of Asian prunus virus 1 (APV1), APV2 and APV3 were reconstructed from the sequencing reads, as well as four additional, near-complete genome sequences. Phylogenetic analyses confirmed the close relationships of these three viruses and the taxonomical position previously proposed for APV1, the only APV so far completely sequenced. The genetic distances in the respective polymerase and coat protein genes as well as their gene products suggest that APV2 should be considered as a distinct viral species in the genus Foveavirus, even if the amino acid identity levels in the polymerase are very close to the species demarcation criteria for the family Betaflexiviridae. However, the situation is more complex for APV1 and APV3, for which opposite conclusions are obtained depending on the gene (polymerase or coat protein) analyzed. Phylogenetic and recombination analyses suggest that recombination events may have been involved in the evolution of APV. Moreover, genome comparisons show that the unusually long 3’ non-coding region (3'' NCR) is highly variable and a hot spot for indel polymorphisms. In particular, two APV3 variants differing only in their 3’ NCR were identified in a single Prunus source, with 3'' NCRs of 214–312 nt, a size similar to that observed in other foveaviruses, but 567–850 nt smaller than in other APV3 isolates. Overall, this study provides critical genome information of these viruses, frequently associated with Prunus materials, even though their precise role as pathogens remains to be elucidated.     

一株高度变异的中国SV40分离株的全基因组序列分析

对SV40中国云南分离株YNQD38进行了全基因组核苷酸序列测定。覆盖了整个基因组的9个重叠的基因片段被扩增和测序,与其它SV40株进行了序列比对并基于全基因序列建立了遗传进化树。结果显示:基因组全长5125bp,基因组构成与其它SV40毒株相似,均有6个开放读码框架和1个调控区。YNQD38与已被证实高度保守的其它SV40比,全基因组核苷酸同源性仅为91.0%。在SV40的保守区VP1、VP2、VP3、小t抗原(t-ag)和部分大T抗原(不包括大T抗原C末端)区,YNQD38与其它SV40之间核苷酸同源性分别为90.7%~91.1%、91.7%~92.0%、90.2%~90.8%、92.8%~93.3%、88.5%~89.7%。在SV40的可变区大T抗原C末端(T-ag-C)编码区,YNQD38同源性更低,仅为65.7%~74.3%。YNQD38发生在保守区的核苷酸变异多为无义突变,而发生在变异区的核苷酸变异多为有义突变。YNQD38的调控区缺少一个完整的72bp增强子,这种特别的调控区的结构以前未见报道。基于整个基因组构建的进化树显示该株病毒形成了一个独特的组。以上结果表明YNQD38是目前报道的SV40中变异最大的一株,而且也是第一株被完整测序的SV40中国株。这个报道不仅为SV40中国株的基础研究提供了一个完整清楚的分子生物学资料,还对这样一株高度变异的SV40能否成为人类致病因子进行了初步探讨。     

Molecular Characterization of Divergent Strawberry Mild Yellow Edge Virus Isolates from Eastern Canada

The complete genome sequences of four new isolates of strawberry mild yellow edge virus (SMYEV) were determined and analysed. The isolates, designated as AB41‐01, AB41‐02, NB1165 and NS26, were found from strawberry fields showing strawberry decline symptoms in eastern Canada. AB41‐01 and AB41‐02 were from a single‐plant sample originating from Prince Edward Island, while NB1165 came from New Brunswick and NS26 from Nova Scotia. Nucleotide sequence identities are 95.8% between AB41‐01 and NB1165, 99.6% between AB41‐02 and NS26, and 84% between AB41‐01/NB1165 and AB41‐02/NS26. The four isolates share nucleotide sequence identities of 83.5–89.9% to two previously identified SMYEV isolates, namely MY18 and D7. Phylogenetic analysis indicates that the four Canadian isolates represented two new SMYEV strain types and the strain divergences were not likely from recombination events among all presently known SMYEV isolates.     

Three variants of cotton leaf curl begomoviruses with their satellite molecules are associated with cotton leaf curl disease aggravation in New Delhi

Cotton leaf curl disease (CLCuD), caused by monopartite begomoviruses and its satellite molecules, is one of the serious constrains in cultivation of cotton in India. In the present study, five CLCuD-begomovirus and its associated satellite molecules were characterized based on rolling circle amplification and sequencing of complete genome. Sequence analysis showed 82–99 % nucleotide identity among them. The phylogenetic analysis and nt identity matrix determined that of the five CLCuD-begomovirus isolates, three IARI-34, IARI-42 and IARI-50 were members of Cotton leaf curl Multan virus (CLCuMuV)-Rajasthan isolates, designated as CLCuMuV-Rajasthan-34 and two, IARI-30 and IARI-45 of Cotton leaf curl Kokhran virus (CLCuKoV)-Burewala isolates, designated as CLCuKoV-Burewala-45. The present CLCuMuV-Rajasthan-34 is recombinant isolate showing recombination events in IR, C1 and C4 regions of its genome with high probality (P = 9.9 × 10^?10–3.2 × 10^?6). Same species of betasatellite (1371 nt) molecules obtained from both the present isolates was related with cotton leaf curl Multan betasatellite by 89–97 % nt identity. Three alphasatellites (1366–1396 nt) related to Cotton leaf curl Burewala alphasatellite and Gossypium darwinii symptomless alphasatellite by 86 % nt identity were also obtained. This is the first report of appearance of CLCuKoV-Burewala isolate and CLCuD associated alphasatellites in New Delhi. The present study demonstrated that CLCuD in New Delhi is caused by three kinds of variants, two are strains of CLCuMuV and one of CLCuKoV, either by single or mixed infection along with beta- and alpha-satellite molecues.     

Molecular Analysis of ORF6, ORF7 and ORF8 of Beet yellows virus Iranian Isolate

Beet yellows virus (BYV), a member of the Closteroviridae family, is one of the most important sugar beet yellowing viruses. The nine ORFs of BYV genome encode different proteins required for BYV life cycle. We sequenced a part of the genome of BYV Iranian isolate consisting of ORF6, ORF7 and ORF8. The primer pair BYVA/Z was used for amplification of this region in RT‐PCR. The amplicon (1615 bp) was cloned and sequenced. Comparisons showed the amplified segment is corresponding to ORF6, ORF7 and ORF8 of BYV genome encoding coat protein, p20 and p21 proteins, respectively. The ORF7 of BYV Iranian isolate overlaps with ORF6 and ORF8 in four and 26 nucleotides at 5′ and 3′ ends, respectively. The ORF7 of Iranian isolate of BYV was sequenced completely. However, approximately 24 nt. from the beginning of ORF6 and 23 nt. from end of ORF8, including the stop codon, were not determined. ORF6, ORF7 and ORF8 showed the highest similarity at nucleotide (98.3, 99.4 and 99.2%) and amino acid (97.4, 98.9 and 100%) sequence levels, with BYV Ukrainian isolate. Phylogenetic analysis of the deduced amino acid sequences of ORF6, ORF7 and ORF8 revealed closer relationship of Iranian isolate of BYV with BYV Ukrainian isolate than other BYV isolates available at GenBank.