Complete Genome Sequence of an Avian-Origin H3N2 Canine Influenza Virus Isolated from Dogs in South Korea

An avian-origin Korean H3N2 canine influenza virus (CIV) strain, designated A/canine/Korea/01/2007 (H3N2), was isolated from nasal swabs of pet dogs exhibiting severe respiratory syndrome in 2007. In the present study, we report the first complete genome sequence containing 3' and 5' noncoding regions (NCRs) of H3N2 CIV, which will provide important insights into the molecular basis of pathogenesis, transmission, and evolution of CIV.     

Complete Genome Sequence of a Novel H9N2 Subtype Influenza Virus FJG9 Strain in China Reveals a Natural Reassortant Event

A/chicken/FJ/G9/09 (FJ/G9) is an H9N2 subtype avian influenza virus (H9N2 AIV) strain causing high morbidity that was isolated from broilers in Fujian Province of China in 2009. FJ/G9 has been used as the vaccine strain against H9N2 AIV infection in Fujian Province of China. Here, we report the complete genome sequence of FJ/G9 with natural six-way reassortment, which is the most complex genotype strain in China and even in the world so far. The present findings will aid in understanding the complexity and diversity of H9N2 subtype avian influenza virus.     

Genome Sequence of a Novel Reassortant H3N2 Avian Influenza Virus in Southern China

The distribution and prevalence of H3 subtype influenza viruses in avian and mammalian hosts constitutes a potential threat to both human and avian health. We report a complete genome sequence of a novel reassortant H3N2 avian influenza virus. Phylogenetic analysis showed that HA and NA showed the highest sequence homologies with those of A/white-backed munia/Hong Kong/4519/2009 (H3N2). However, the internal genes had the highest sequence homologies with those of H6 and H7 subtypes. The data provide further evidence of the existence of a natural reassortant H3N2 strain in southern China.     

Protection against avian influenza H9N2 virus challenge by immunization with hemagglutinin- or neuraminidase-expressing DNA in BALB/c mice

Avian influenza viruses of H9N2 subtype are widely spread in avian species. The viruses have recently been transmitted to mammalian species, including humans, accelerating the efforts to devise protective strategies against them. In this study, an avian influenza H9N2 virus strain (A/Chicken/Jiangsu/7/2002), isolated in Jiangsu Province, China, was used to infect BALB/c mice for adaptation. After five lung-to-lung passages, the virus was stably proliferated in a large quantity in the murine lung and caused the deaths of mice. In addition, we explored the protection induced by H9N2 virus hemagglutinin (HA)- and neuraminidase (NA)-expressing DNAs in BALB/c mice. Female BALB/c mice aged 6-8 weeks were immunized once or twice at a 3-week interval with HA-DNA and NA-DNA by electroporation, respectively, each at a dose of 3, 10 or 30microg. The mice were challenged with a lethal dose (40x LD(50)) of influenza H9N2 virus four weeks after immunization once or one week after immunization twice. The protections of DNA vaccines were evaluated by the serum antibody titers, residual lung virus titers, and survival rates of the mice. The result showed that immunization once with not less than 10microg or twice with 3microg HA-DNA or NA-DNA provided effective protection against homologous avian influenza H9N2 virus.     

1968−2014年中国甲型H3N2流感病毒PB1基因进化分析

【目的】分析季节性H3N2流感病毒PB1基因序列的变异情况,揭示H3N2流感病毒PB1基因的分子特征与进化趋势。【方法】对1968?2014年中国地区82株人H3N2毒株、2012?2014年江苏省分离的81株甲型H3N2流感病毒、6株SIV和4株AIV H3N2亚型PB1、PB1-F2基因进行分子进化分析。【结果】1968?2014年中国H3N2流感毒株PB1核苷酸和氨基酸相似性分别为90.91%?100%和96.91%?100%。系统进化树分析,1968?2014年共173株H3N2流感病毒总体上分为4个分支,2002?2014年分离毒株位于第IV分支上,1968?1994年分离毒株位于第II和III分支;猪源H3N2亚型分布于第I、II、IV分支上;分子特征显示PB1氨基酸52、113、179、216、576、586、619、621、709位在2002年以后发生适应性改变,替换了原来的氨基酸;PB1-F2基因编码截断型蛋白长度有52、34、25、24、11 aa (猪源),PB1-F2蛋白毒力关键位点上未出现高致病性特征突变。【结论】自1968年起H3N2亚型PB1基因变异逐步趋于稳定,且PB1-F2截断型毒株正逐渐成为一类新的进化特征,但PB1基因与其他亚型之间发生重配以及关键毒力位点的变异仍应是监测的重点。     

Complete Genome Sequence of an H3N2 Avian Influenza Virus Isolated from a Live Poultry Market in Eastern China

Previous studies indicate that the H3 influenza virus has the ability to establish infection upon interspecies transmission and poses a threat to mammals. Therefore, it is important to enhance the surveillance of H3 avian influenza viruses (AIVs). In this study, A/duck/Shanghai/C84/2009(H3N2) (C84) was isolated from a live poultry market in Shanghai, China. Using PCR and sequencing analyses, we obtained the whole-genome sequence of this virus. The H3N2 virus proved to be a novel multiple-gene reassortant AIV whose genes were derived from H3N2, H4N6, H6N2, and H9N2. Knowledge regarding the complete genome sequence of the C84 virus will be useful for epidemiological surveillance.     

Complete Genomic Sequence of an H5N1 Influenza Virus from a Parrot in Southern China

An H5N1 avian influenza virus (AIV) designated A/Parrot/Guangdong/C99/2005 (H5N1) was first isolated from a sick parrot in Guangdong in southern China in 2005. The complete genome of this strain was analyzed. Genome sequence analysis showed that all 8 gene segments of the virus nucleotide had 99.0% homology to A/chicken/Henan/12/2004 (H5N1). Phylogenetic analysis demonstrated that all 8 gene segments of the virus were derived from the Eurasian lineage. The availability of genome sequences is useful to investigate the host range and genetic evolution of the H5N1 avian influenza virus in Southern China.     

大熊猫犬瘟热病毒附着或血凝蛋白基因的序列分析

首次对犬瘟热病毒（ＣＤＶ）大熊猫（ＧＰ）毒株附着或血凝蛋白（Ｈ）基因进行了序列测定并与疫苗株Ｏｎｄｅｒｓｔｅｐｏｏｒｔ进行了比较。我们设计合成了４对引物,对ＧＰ株进行了ＲＴ－ＰＣＲ扩增与测序。Ｈ蛋白基因全长为１９４６ｂｐ,开放阅读框架（ＯＲＦ）始于２１－２３位的ＡＴＧ,终止于１８４２－１８４４位的ＴＧＡ,编码６０７个氨基酸,该基因序列已被ＧｅｎＢａｎｋ。将ＧＰ毒株与ＧｅｎＢａｎｋ中疫苗弱毒株Ｏｎｄ     

Primary structure of the full-size DNA copy of the influenza virus A/Kiev/59/79 (H1N1) PB1 gene protein

Nucleotide sequence of the A/Kiev/59/79 influenza virus PB1 gene is reported, thus completing the full-genome primary structure of the recombinant between the virus and laboratory strain A/PR/8/34. The parental strain A/Kiev/59/79 (H1N1) is, in turn, shown to be a natural reassortant inheriting its genes of polymerase complex (PB1, PB2, NP and, in all probability, PA) from contemporary H3N2 influenza virus strains.     

Complete Genome Sequences of a Novel Reassortant H4N2 Avian Influenza Virus Isolated from a Live Poultry Market in Eastern China

A/duck/Shanghai/28-1/2009(H4N2) (DK28) was isolated from a live poultry market in Shanghai, China. Using PCR and sequencing analysis, we obtained the complete genome sequences of the DK28 virus. The sequence analysis demonstrated that this H4N2 virus was a novel multiple-gene reassortant avian influenza virus (AIV) whose genes originated from H1N1, H1N3, H3N3, H4N2, and H4N6. Knowledge regarding the complete genome sequences of the DK28 virus will be useful for epidemiological surveillance.     

Primary structure of the full-length DNA copy of the influenza virus A/Kiev/59/79 (H1N1) PB2 gene

The complete nucleotide sequence of a cloned full-length DNA copy of the A/Kiev/59/79 (H1N1) influenza virus PB2 gene has been determined. This strain is shown to be the natural reassortant which inherited its NP and PB2 genes from the contemporary H3N2 influenza strains.     

Complete Genome Sequence Analysis of an H6N1 Avian Influenza Virus Isolated from Guangxi Pockmark Ducks

We report here the complete genomic sequence of a novel H6N1 avian influenza virus strain, A/Duck/Guangxi/GXd-5/2010(H6N1), isolated from pockmark ducks in Guangxi Province, Southern China. All of the 8 gene segments of A/Duck/Guangxi/GXd-5/2010(H6N1) are attributed to the Eurasian lineage; the amino acid motif of the cleavage site between HA1 and HA2 was P-Q-I-E-T-R-G. These are typical characteristics of the low-pathogenicity avian influenza virus. This study will help to understand the epidemiology and molecular characteristics of avian influenza virus in ducks.     

Mitochondrial DNA Variant in COX1 Subunit Significantly Alters Energy Metabolism of Geographically Divergent Wild Isolates in Caenorhabditis elegans

Mitochondrial DNA (mtDNA) sequence variation can influence the penetrance of complex diseases and climatic adaptation. While studies in geographically defined human populations suggest that mtDNA mutations become fixed when they have conferred metabolic capabilities optimally suited for a specific environment, it has been challenging to definitively assign adaptive functions to specific mtDNA sequence variants in mammals. We investigated whether mtDNA genome variation functionally influences Caenorhabditis elegans wild isolates of distinct mtDNA lineages and geographic origins. We found that, relative to N2 (England) wild-type nematodes, CB4856 wild isolates from a warmer native climate (Hawaii) had a unique p.A12S amino acid substitution in the mtDNA-encoded COX1 core catalytic subunit of mitochondrial complex IV (CIV). Relative to N2, CB4856 worms grown at 20 °C had significantly increased CIV enzyme activity, mitochondrial matrix oxidant burden, and sensitivity to oxidative stress but had significantly reduced lifespan and mitochondrial membrane potential. Interestingly, mitochondrial membrane potential was significantly increased in CB4856 grown at its native temperature of 25 °C. A transmitochondrial cybrid worm strain, chpIR (M, CB4856 > N2), was bred as homoplasmic for the CB4856 mtDNA genome in the N2 nuclear background. The cybrid strain also displayed significantly increased CIV activity, demonstrating that this difference results from the mtDNA-encoded p.A12S variant. However, chpIR (M, CB4856 > N2) worms had significantly reduced median and maximal lifespan relative to CB4856, which may relate to their nuclear–mtDNA genome mismatch. Overall, these data suggest that C. elegans wild isolates of varying geographic origins may adapt to environmental challenges through mtDNA variation to modulate critical aspects of mitochondrial energy metabolism.     

Evolution of the nucleotide sequence of influenza virus RNA segment 7 during drift of the H3N2 subtype

The complete genetic information contained in the influenza virus RNA segment 7 of the A/Bangkok/ $\text{1}\text{79}$ (H3N2) strain has been cloned by in vitro synthesis of the complementary dsDNA and its insertion into plasmid pBR322. The nucleotide sequence of the viral RNA segment has been determined from the cDNA insert. It is 1027 nucleotides long, and contains two open reading frames, as shown for other influenza virus strains. When compared with the previously published sequence for the A/Udorn/72 (H3N2) strain, 15 nucleotide exchanges are observed, most of them silent mutations, and only two causing amino acid changes in each of the M1 and M2 protein sequences.     

一株H3N2亚型猪流感病毒广东分离株的基因组序列分析

从广东省疑似流感发病猪分离到1株H3N2亚型猪流感病毒(A/Swine/Guangdong/01/2005(H3N2)),对其各个基因进行克隆与测序,并与GenBank中收录的其它猪流感、禽流感和人流感的相关基因进行比较,结果表明,HA全基因与广东2003~2004年分离的H3N2猪流感毒株的核苷酸序列同源性在99%以上,与纽约90年代末分离的H3N2人流感毒株同源性在98.5%以上;NA基因与纽约1998~2000年分离的H3N2人流感毒株的核苷酸序列同源性在99%以上;NS基因、M基因的核苷酸序列与H1N1亚型猪流感毒株A/swine/HongKong/273/1994(H1N1)的核苷酸序列同源性较高,分别为97.9%、98.4%,与美洲A/swine/Iowa/17672/1988(H1N1)的核苷酸序列同源性分别为96.7%、97.1%;其他基因的核苷酸序列与H3N2人流感毒株具有很高的同源性。因此,推测其M和NS基因来源于H1N1亚型猪流感病毒,HA、NA及其他基因均来源于H3N2亚型人流感病毒。表明此H3N2亚型猪流感病毒为H3N2亚型人流感病毒和H1N1亚型猪流感病毒经基因重排而得到的重组病毒。     

Generation of High-yield Vaccine Strain Wholly Derived from Avian Influenza Viruses by Reverse Genetics

Highly pathogenic avian influenza A (HPAI) viruses of the H5N1 subtypes caused enormous economical loss to poultry farms in China and Southeastern Asian countries. The vaccination program is a reliable strategy in controlling the prevalence of these disastrous diseases. The six internal genes of the high-yield influenza virus A/Goose/Dalian/3/01 (H9N2), the haemagglutinin (HA) gene of A/Goose/HLJ/QFY/04 (H5N1) strain, and the neuraminidase gene from A/Duck/Germany/1215/73 (H2N3) reference strain were amplified by RT-PCR technique. The HA gene was modified by the deletion of four basic amino acids of the connecting peptide between HA1 and HA2. Eight gene expressing plasmids were constructed, and the recombinant virus rH5N3 were generated by cell transfection. The infection of chicken embryos and the challenge tests involving chickens demonstrated that the recombinant H5N3 (rH5N3) influenza virus is avirulent. The allantoic fluids of rH5N3-infected eggs contain high-titer influenza viruses with haemagglutination unit of 1:2 048, which are eight times those of the parental H5N1 virus. The rH5N3 oil-emulsified vaccine could induce haemagglutination inhibition (HI) antibodies in chickens in 2 weeks post-vaccination, and the maximum geometric mean HI-titers were observed 4–5 weeks post-vaccination and were kept under observation for 18 weeks. The rH5N3-vaccinated chickens were fully protected against morbidity and mortality of the lethal challenge of the H5N1 HPAI viruses, A/Goose/Guangdong/1/96 and A/Goose/HLJ/QFY/04, which had 8 years expansion and differences among multiple amino acids in HA protein. The N3 neuraminidase protein marker makes it possible to distinguish between H5N1-infected and H5N3-vaccinated animals.     

Molecular and antigenic characterization of reassortant H3N2 viruses from turkeys with a unique constellation of pandemic H1N1 internal genes

Triple reassortant (TR) H3N2 influenza viruses cause varying degrees of loss in egg production in breeder turkeys. In this study we characterized TR H3N2 viruses isolated from three breeder turkey farms diagnosed with a drop in egg production. The eight gene segments of the virus isolated from the first case submission (FAV-003) were all of TR H3N2 lineage. However, viruses from the two subsequent case submissions (FAV-009 and FAV-010) were unique reassortants with PB2, PA, nucleoprotein (NP) and matrix (M) gene segments from 2009 pandemic H1N1 and the remaining gene segments from TR H3N2. Phylogenetic analysis of the HA and NA genes placed the 3 virus isolates in 2 separate clades within cluster IV of TR H3N2 viruses. Birds from the latter two affected farms had been vaccinated with a H3N4 oil emulsion vaccine prior to the outbreak. The HAl subunit of the H3N4 vaccine strain had only a predicted amino acid identity of 79% with the isolate from FAV-003 and 80% for the isolates from FAV-009 and FAV-0010. By comparison, the predicted amino acid sequence identity between a prototype TR H3N2 cluster IV virus A/Sw/ON/33853/2005 and the three turkey isolates from this study was 95% while the identity between FAV-003 and FAV-009/10 isolates was 91%. When the previously identified antigenic sites A, B, C, D and E of HA1 were examined, isolates from FAV-003 and FAV-009/10 had a total of 19 and 16 amino acid substitutions respectively when compared with the H3N4 vaccine strain. These changes corresponded with the failure of the sera collected from turkeys that received this vaccine to neutralize any of the above three isolates in vitro.     

Complete Genome Sequence of a Novel Reassortant H11N2 Avian Influenza Virus Isolated from a Live Poultry Market in Eastern China

A/chicken/Nanjing/908/2009(H11N2) (CK908) was isolated from a live poultry market in Nanjing, China. Using PCR and sequencing analysis, we obtained the complete genome sequences of the CK908 virus. The sequence analysis demonstrated that this H11N2 virus was a novel reassortant AIV whose PB1, PB2, PA, HA, NP, NA, M, and NS genes originated from H9N2, H7N7, H5N2, H11N8, H3N6, H6N2, H1N1, and H5N1, respectively. Knowledge regarding the complete genome sequences of the CK908 virus will be useful for epidemiological surveillance.     

利用反向遗传学技术构建H5亚型禽流感高产疫苗株

采用RT-PCR技术分别扩增了鹅源高产禽流感病毒的6条内部基因片段,近期分离的H5N1亚型禽流感病毒的血凝素基因以及N3亚型参考毒株的神经氨酸酶基因,分别构建了8个基因的转录与表达载体,利用反向遗传学技术拯救出了全部基因都源于禽源的重组流感病毒疫苗株rH5N3。通过对血凝素蛋白HA1和HA2连接肽处的5个碱性氨基酸(R-R-R-K-K)基因缺失与修饰,从而消除了病毒基因的毒力相关序列,拯救的rH5N3疫苗株对鸡和鸡胚均无致病性,病毒在鸡胚尿囊液和细胞培养上清的HA效价得到极大提高,分别为12048和1512。制备的禽流感疫苗免疫动物后4~5周即可诱导产生高效价的HI抗体,鸡免疫后18周依然保持高水平的HI抗体。重组疫苗不论是对于国内早期分离的禽流感病毒A/Goose/Guangdong/1/96还是近期分离的A/Goose/HLJ/QFY/04都能够产生完全的免疫保护作用,免疫鸡攻毒后不发病、不排毒、不死亡。带有N3鉴别诊断标记禽流感疫苗株的研制为H5N1高致病性禽流感的防治提供了新的技术保障。