陕西省9株乙脑病毒的分离及E基因序列分析

分析陕西省分离的9株乙脑病毒基因组序列特征。使用乙脑病毒全基因组序列测定引物进行RT-PCR扩增,扩增产物进行测序,拼接后获得基因组序列。利用MEGA 4.1、MegAlin、MEGA7.0等软件进行毒株的系统进化分析,并与P3株、减毒活疫苗SA14-14-2株及覆盖5个基因型别的其他乙脑病毒进行E基因序列比对。9株分离株3株分离自猪舍、6株分离自羊舍,其中4株获得全基因组序列,5株测得E基因序列。基于E基因序列进行毒株核苷酸、氨基酸同源性比较,结果显示分离株均与基因I型GI-b亚型毒株核苷酸和氨基酸同源性最高,核苷酸同源性范围为96.5%～99.7%、氨基酸同源性范围99.2%～100.0%;与SA14-14-2株核苷酸同源性范围为87.5%～88.9%、氨基酸同源性范围96.3%～97.2%;与P3株核苷酸同源性范围为87.6%～88.1%、氨基酸同源性范围96.7%～97.6%。分析09年（陕南地区）分离株与18年（关中地区）分离株的E基因核苷酸差异率为1.8%～2.9%、氨基酸差异率为0%～0.8%。陕西省自然界中循环的乙脑病毒以基因Ⅰ型为主,与P3株在抗原毒力关键位点无差异,...     

22株猪瘟病毒E2基因部分编码序列的序列分析

RT－PCR方法获得了13株猪瘟病毒分离株、石门系强毒、中国C株及法国温度敏感株Thiverval株的E2基因部分编码序列的拉增片段,并对其进行了测序,得到了251bp的E2基因部分编码序列。利用DNAStar软件对其中224bp的片段进行了序列分析,并与已发表的Alfort、Brescia等毒株进行比较,结果13株猪瘟分离株所测片段均为猪瘟病毒E2基因的序列,与石门系强毒的序列相比所有毒株的碱基替换随机地分布于整个序列,无碱基缺失和碱基插入。其中变化较大的区域位于序列的3′端。2 2株HCV E2基因部分编码序列的核苷酸及氨基酸同源性范围分别为78.1%-100%、78.4%-100%,其中13株猪瘟病毒流行毒株的核苷酸及氨基酸同源性范围分别为:78.1%-100%、78.4%-100%,4株70－80年代分离的毒株的核苷酸及氨基酸同源性范围分别为：79.0%-88.3%、81.1%-87.8%,9株90年代分离的毒株的核苷酸及氨基酸同源性范围分别为：90.3%-100%、83.8%-100％;说明猪病毒流行株的变异呈现一定的多样性。     

浙江地区鼬獾和犬源狂犬病病毒分离株全基因组测序与分析

测定浙江地区狂犬病病毒分离株(鼬獾和犬)全基因组序列,从分子水平对病毒进行遗传变异特征分析,了解狂犬病病毒在浙江的流行和变异情况以及目前浙江流行株的遗传学背景,以丰富中国狂犬病病毒街毒流行株的全基因组信息。脑内接种1~2日乳鼠分离狂犬病病毒,RT-PCR反应测定浙江地区狂犬病病毒分离株全基因组核苷酸序列,并进行编码蛋白和序列相似性比较及种系发生分析。测序获得狂犬病病毒浙江淳安鼬獾分离株F02、F04和松阳犬分离株D01、D02全基因组核苷酸序列信息:基因组全长11 923和11 925 nts,前导序列Leader长58nts,5个ORF为:NP(1 353 nts);PP(894 nts);MP(609 nts);GP(1 575 nts);LP(6 386 nts),N-P-M-G间隔序列长2、5、5 nts;G-L基因间的伪基因Ψ长423 nts;Trailer尾长70 nts。核酸BLAST及多重序列比对分析显示浙江地区4个狂犬病病毒分离株的全基因组序列的组成和结构符合弹状病毒科狂犬病病毒属的特征;中国毒株之间特别是浙江同种动物狂犬病病毒之间各个基因区域核苷酸与氨基酸序列相似性最高,浙江病毒全基因组序列编码蛋白氨基酸序列相似性高于核苷酸序列相似性,说明蛋白质编码基因的核苷酸变异大多属于同义突变;浙江病毒负链RNA基因组5个基因编码氨基酸的长度没有变异,5个编码蛋白仅表现较少的序列变化;浙江病毒与本研究选择的代表性引用街毒株或者来自街毒的减毒株的变异位点和变异类型相似,多重序列相似性的比较和种系发生分析显示所分离的狂犬病病毒浙江街毒株均属于基因1型,具有较独特的中国地域性特点,故本研究中的浙江地区分离株极有可能是自然界中固有的街毒株。     

系统发生分析发现牛病毒性腹泻病病毒新基因亚型

本研究对我国首次分离获得的牛源牛病毒性腹泻病毒(BVDV)毒株Changchun 184(CC-184)和猪源牛病毒性腹泻病毒ZM-95进行了遗传衍化关系研究.选择主要抗原E2基因为研究对象,首先应用RT-PCR及套式PCR克隆得到CC-184和ZM-95的E2片段,通过序列测定发现CC-184和ZM-95 E2基因长度分别为1,122bp和1,125bp,各自编码374和375个氨基酸残基.核酸序列同源性比较和系统发生分析表明2株病毒均属于BVDV-1,CC-184与Osloss亲缘关系最近,都属于已有的b基因亚型,其E2基因同源性达91.8%.而ZM-95的E2基因有一个特征性的变异区,包含一个密码子序列插入,这一变异区编码了一段有别于其他瘟病毒的五肽氨基酸序列HYKKK.结果还表明ZM-95与BVDV-1现有的5个基因亚型的亲缘关系均较远,E2基因同源性最高(与Oregonc24v)只有72.4%.而BVDV 1亚型内毒株间的同源性大于85%,亚型间的同源性在69%～75%之间,充分说明ZM-95是BVDV-1中一个新发现的基因亚型.通常认为猪源BVDV来源于牛,应该与牛源BVDV有十分近的遗传关系,但是本研究发现ZM-95与其他已知牛源BVDV较低的基因同源性说明猪源BVDV还具有独立的遗传衍化与传播来源的可能性.     

蛋鸡J亚群白血病病毒的分离鉴定及序列分析

通过接种鸡胚成纤维细胞((CEF)及特异性单抗的间接荧光抗体反应(IFA),从中国商品代蛋鸡群中首次分离到J亚群白血病病毒(ALV-J).对其env基因编码的氨基酸序列及3'-末端(3'-Ter)序列与国内外来源于白羽肉鸡的毒株作了比较分析.结果显示,这两株病毒的gp85基因编码的氨基酸序列与国外5个毒株同源性仅为83.4%～87.3%,与国内来源于白羽肉鸡的8株病毒同源性也仅为86.4%～89.6%.gp37基因编码的氨基酸序列与5个国外毒株同源性为91.8%～97.0%,与8个国内毒株同源性为93.9%～95.9%.另外,国内来源于白羽肉鸡的各毒株的3'-Ter序列在"E"区均有明显缺失,但本次分离的来源于蛋鸡群的毒株在"E"区没有缺失突变.与所列出的13株国内外毒株相比,这两个毒株在3'-Ter的缺失最少,较接近于原型株HPRS-103.显然这两株病毒的来源不同于国内白羽肉鸡.     

22株猪圆环病毒2型安徽分离株全基因组遗传进化分析

为了解安徽地区猪圆环病毒2型(PCV2)的分子流行病学及流行毒株遗传变异情况,本研究应用DNA Star软件,针对22株PCV2安徽分离株和26株GenBank登录的PCV2参考毒株,进行全基因组核苷酸序列、ORF1和ORF2核苷酸序列及其推导的氨基酸序列的同源性分析,并运用MEGA 6.0软件构建系统进化树.结果显示,22株PCV2安徽分离株基因组全长均为1 767 bp,相互之间的核苷酸序列相似度为94.6％～99.8％,与GenBank登录的26株PCV2参考毒株之间的核苷酸序列相似度为92.4％～99.8％.PCV2安徽分离株的ORF1核苷酸序列及其推导的氨基酸序列与参考毒株之间的相似度分别为94.3％～100％和85.4％～100％,ORF2核苷酸序列及其推导的氨基酸序列相似度分别为85.9％～99.9％和76.9％～100％.ORF2编码的Cap蛋白氨基酸序列在8～30、44～91、121～140及190～224几个区域存在突变,且有部分变异位点位于抗原表位区.22株PCV2安徽分离株分布于两个基因亚型,8株属于PCV2b,14株属于PCV2d.结果表明,PCV2安徽分离株的全基因组核苷酸序列较稳定且彼此间亲缘关系密切.ORF2的变异程度远高于ORF1,PCV2d基因亚型己经逐渐过渡成为安徽地区的主要流行毒株.Cap蛋白氨基酸序列在免疫反应区域内的变异可能影响PCV2的免疫原性.本研究结果丰富了安徽地区猪圆环病毒病的分子流行病学资料,同时也为有效防控该病提供了一定的参考依据.     

鸭甲肝病毒3型2012年山东分离株VP1基因的序列分析

为揭示近年来鸭甲肝病毒3型(DHAV-3)中国分离株VP1基因的遗传变异规律,本研究对2012年从山东省分离到的13株DHAV-3的VP1基因分别进行PCR扩增、序列测序与分析。结果显示,13株DHAV-3的VP1基因均由720个核苷酸组成,共编码240个氨基酸,核苷酸序列和氨基酸序列同源性分别为94.6%～99.9%和95.0%～100%。与GenBank中公布的31株DHAV-3的VP1基因的核苷酸和氨基酸序列同源性分别为92.5%～100%和90.8%～100%。系统进化分析显示,DHAV-3可分为两个基因型,其中除疫苗毒B63之外所有中国分离株均属于GⅠ型,越南分离毒株主要属于GⅡ型S1亚型,而韩国分离株组成GⅡ型中的S2亚型,具有明显的地域特征。     

禽Ⅰ型副粘病毒f基因克隆及序列分析

用RT-PCR一步法对云南省不同禽类(鸡、鸽子)3株禽I型副粘病毒F基因进行扩增和克隆,并对其f基因片段核苷酸序列进行分析,结果表明,云南省禽I型副粘病毒各毒株同源性为88.1%～94.9%,与疫苗株LaSota和强毒株F48E9的同源性为85.6%.所分离两株新城疫病毒在F蛋白裂解位点区(112～117aa)的氨基酸序列与强毒株在这一区域的序列完全相同,表明为强毒株.鸽I型副粘病毒F蛋白裂解位点区的氨基酸序列与PPMV ZQ98-1株在这一区域的序列完全相同,揭示为中强毒株.以1 662bp核苷酸绘制系统发育树,表明云南地方新城疫病毒属于基因Ⅶ型,鸽I型副粘病毒属于基因Ⅵ型.     

Localization of the antigenic segment of the tick-borne encephalitis virus envelope protein using monoclonal antibodies]

The largest cyanogen bromide fragment (GP-14,5; coordinates 78-176) of E protein belonging to the envelope of the tick-borne encephalitis (TBE) virus (Far Eastern subtype, strain Sofjin) interacted with five out of twelve E-specific monoclonal antibodies (MAbs). Having compared; efficiencies of some MAbs binding to the antigens of TBE viruses of Far Eastern and West European subtypes and primary structures of analogous peptides of these viruses, we suggested the epitopes of these MAbs to be located in the vicinity of 89 and/or 116-th amino acid residues of E protein. Effect of denaturing agents and reduction followed by carboxymethylation on the protein E antigenic properties was studied.     

Phylogenetic analysis and pathogenicity of tick-borne encephalitis virus from Japan and far-east Russia

Phylogenetic analysis of tick-borne encephalitis (TBE) virus revealed that Hokkaido strain of TBE virus evolved several hundreds years ago in far-east Russia. TBE virus strains in Irkutsk area were identified as Siberian subtype of TBE virus. BHK-cell adapted mutant of TBE virus showed lower neuro-invasive virulence in mice than parent virus. The mutant carried one amino acid substitution in envelope protein which resulted in increase of positive charge of the protein. The mutant-infected mice showed lower virus titers in bloods and spleens than the parent-infected mice. Infectious c-DNA clone of TBE virus Hokkaido strain was successfully generated and was applied to examine the neurovirulence in mice. One amino acid change in envelope protein and 2 amino acid changes in Ns5 protein showed a synergistic effect on reduced neurovirulence in mice.     

The Relationship between the Structure of the Tick-Borne Encephalitis Virus Strains and Their Pathogenic Properties

Tick-borne encephalitis virus (TBEV) is transmitted to vertebrates by taiga or forest ticks through bites, inducing disease of variable severity. The reasons underlying these differences in the severity of the disease are unknown. In order to identify genetic factors affecting the pathogenicity of virus strains, we have sequenced and compared the complete genomes of 34 Far-Eastern subtype (FE) TBEV strains isolated from patients with different disease severity (Primorye, the Russian Far East). We analyzed the complete genomes of 11 human pathogenic strains isolated from the brains of dead patients with the encephalitic form of the disease (Efd), 4 strains from the blood of patients with the febrile form of TBE (Ffd), and 19 strains from patients with the subclinical form of TBE (Sfd). On the phylogenetic tree, pathogenic Efd strains formed two clusters containing the prototype strains, Senzhang and Sofjin, respectively. Sfd strains formed a third separate cluster, including the Oshima strain. The strains that caused the febrile form of the disease did not form a separate cluster. In the viral proteins, we found 198 positions with at least one amino acid residue substitution, of which only 17 amino acid residue substitutions were correlated with the variable pathogenicity of these strains in humans and they authentically differed between the groups. We considered the role of each amino acid substitution and assumed that the deletion of 111 amino acids in the capsid protein in combination with the amino acid substitutions R16K and S45F in the NS3 protease may affect the budding process of viral particles. These changes may be the major reason for the diminished pathogenicity of TBEV strains. We recommend Sfd strains for testing as attenuation vaccine candidates.     

Coding nucleotide sequences of tick-borne encephalitis virus strains isolated from human blood without clinical symptoms of infection

Genomes of four tick-borne encephalitis virus strains, isolated from the blood of the individuals after tick bites and causing no clinical symptoms of infection, were characterized. Analysis of translated polypeptides revealed 21 amino acid positions typical of this group of strains and distinguishing them from the other tick-borne encephalitis virus strains of Far Eastern subtype examined earlier. Only three mutations led to substantial amino acid changes, which probably could affect the infection process severity. It is suggested that two associated mutations, deletion of amino acid 111 in the capsid protein C and substitution (Ser1534 → Phe) in the NS3 protein influence strictly coordinated polyprotein processing, disturbing correct arrangement of viral particles. This process can result in the development of defect viral particles, containing no RNA. Mutation (Ser917 → Gly) in nonstructural protein NS1 results in the substitution of hydrophilic amino acid, specific to highly virulent strains, by the hydrophobic one. This could influence the effectiveness of viral replication complex, thereby affecting the infectivity of tick-borne encephalitis virus strains.     

Molecular typing of the tick-borne encephalitis virus isolated from patients with different-infection severities in the south of Russia's Far East

The thick-borne encephalitis virus (TBEV), which is widespread in the Eurasian continent, belongs to the Flaviviridae family, Flavirus genus, and comprises the Far Eastern, Siberian and West European subtypes. It was for the first time that the gene part of the E 24 strain envelope glycoprotein of TBEV, which caused infection in residents of the South of Russia's Far East, was analyzed. It was established that the TBEV Far-Eastern subtype causes different-severity disease cases ranging from the focal ones with the lethal outcome to latent infection forms. On the basis of the phylogenetic analysis, the Far-Eastern subtype was shared between 4 sub-clusters, 2 of which constitute a majority of the analyzed TBEV strains.     

我国2009年新分离乙脑病毒全基因组序列特征研究

本研究对我国2009年新分离的两株乙脑病毒进行全基因组序列测定和分析,以了解病毒全基因组分子特征。通过RT-PCR和核苷酸序列测定方法获得病毒全基因组序列,采用ClustalX、DNASTAR、MEGA等生物学软件完成核苷酸序列及氨基酸序列分析和系统进化分析等。研究结果显示,新分离两株乙脑病毒YN0911和YN0967株基因组全长均为10 965个核苷酸,编码3 432个氨基酸。这2株乙脑病毒之间核苷酸同源性为98.7%,氨基酸同源性为99.8%。与国际乙脑病毒流行株相比,核苷酸同源性为83.5%～98.9%,氨基酸同源性为94.8%～99.7%。与乙脑病毒疫苗株SA14-14-2相比,在E蛋白有13个氨基酸差异位点,但都位于抗原关键位点之外。这2株病毒在3′UTR区域存在11nt缺失。基于C/PrM区段、E基因、全基因组系统进化分析结果均显示新分离2株乙脑病毒为G I乙脑病毒,并且和越南、四川、贵州、广西以往的分离株遗传进化关系较近。本研究提示我国新分离的2株乙脑病毒均为G I乙脑病毒,决定病毒毒力的关键氨基酸位点未见明显变化。     

汉坦病毒汉滩型特殊新亚型的发现

应用RT－PCR扩增了皖南山区分离株AH09的M和S片段全基因,克隆于T载体,纯化后测定序列。结果AH09株M片段的全基因序列共3625个核苷酸,编码1135个氨基酸;S片段的全基因序列共1724个核苷酸,编码430个氨基酸。M和S片段全基因核苷酸和氨基酸与汉坦病毒各型株的代表株和HTN型毒株的同源性比较表明,AH09株分枝与HTN型接近,与其它各型病毒则相距较远,故确定为HTN型毒株,但AH09株与HTN型毒株的M和S片段全基因序列有差异,其差异分别高达23．6％和20．4％,经种系发生分析,AH09株是迄今为止所发现的HTN型病毒中差异最大的新基因亚型病毒株,AH09株病毒M片段的氨基酸与HTN型相差13．5％至14．8％,而S片段仅相差7％－8．1％,说明AH09毒株的变异主要发生在M片段。而ORF和3‘端的NCR区核苷酸序列分析比较说明,病毒的变异更主要集中在该片段的3‘端的NCR区。     

Characterization of a siberian virus isolated from a patient with progressive chronic tick-borne encephalitis

A strain of Tick-borne encephalitis virus designated Zausaev (Za) was isolated in Siberia from a patient who died of a progressive (2-year) form of tick-borne encephalitis 10 years after being bitten by a tick. The complete genomic sequence of this virus was determined, and an attempt was made to correlate the sequence with the biological characteristics of the virus. Phylogenetic analysis demonstrated that this virus belongs to the Siberian subtype of Tick-borne encephalitis virus. Comparison of Za virus with two related viruses, a Far Eastern isolate, Sofjin, and a Siberian isolate, Vasilchenko, revealed differences among the three viruses in pathogenicity for Syrian hamsters, cytopathogenicity for PS cells, plaque morphology, and the electrophoretic profiles of virus-specific nonstructural proteins. Comparative amino acid alignments revealed 10 individual amino acid substitutions in the Za virus polyprotein sequence that were different from those of other tick-borne flaviviruses. Notably, the dimeric form of the Za virus NS1 protein migrated in polyacrylamide gels as a heterogeneous group of molecules with a significantly higher electrophoretic mobility than those of the Sofjin and Vasilchenko viruses. Two amino acid substitutions, T(277)-->V and E(279)-->G, within the NS1 dimerization domain are probably responsible for the altered oligomerization of Za virus NS1. These studies suggest that the patient from whom Za virus was isolated died due to increased pathogenicity of the latent virus following spontaneous mutagenesis.     

猪瘟病毒石门株与兔化弱毒株gp55基因的克隆与序列分析

猪瘟病毒石门系强毒株及兔化弱毒疫苗株（ＨＣＬＶ株）是我国的标准毒株,囊膜糖蛋白ｇｐ５５（又称Ｅ１）是该病毒最重要的保护性抗原。本实验采用反转录ＰＣＲ扩增了这两个毒株的ｇｐ５５基因。序列分析结果表明：１．石门株和兔化弱毒株糖蛋白Ｅ１的氨基酸序列含有１５个半胱氨酸残基（Ｃｙｓ）,其数量及位置与国外４株猪瘟病毒（Ａｌｆｏｒｔ、Ｂｒｅｓｃｉａ、ＡＬＤ和ＧＰＥ＾－）完全一样。Ｅ１中Ｃｙｓ的数量及位置的保守性     

汉坦病毒HTN261株S基因片段的核苷酸序列测定及分析

黑龙江省是肾综合征出血热(HFRS)的重疫区。近年来HFRS年的发病人数曾超过万人。流行病学和血清学研究表明黑龙江省HFRS疫区主要是姬鼠型,但目前尚缺乏病毒的分子生物学资料。我们对从疫区捕获的宿主动物-黑线姬鼠肺中分离的汉坦病毒HTN261株的S基因片段的全基因序列进行了测定和初步分析。结果如下,HTN261株的S基因片段的全序列长为1697nt。只有一个主要的编码N蛋白的ORF,起始位置为第37nt,终止于1326nt,编码的蛋白长为429aa。没有发现存在ORF2。HTN261株的S基因片段核苷酸序列与HTN型中的病毒株的同源性很高,而与汉坦病毒其他型的同源性较差。从种系发生树分析来看,HTN261株归结于汉坦病毒的HTN型。在HTN型之内,HTN261株和HTN76-118株在一个分枝内。就其核苷酸和蛋白的同源性来说,HTN261株和HTN76-118株的同源性分别是89%(全S基因)和98%(蛋白)。而与中国境内发现的其他汉坦病毒株Z10,HU,Chen4,NC167等基因和蛋白的同源性相对较差。汉坦病毒除具有其宿主的依赖性外,还具有其地理的簇集性。HTN261株和HTN76-118株之间S基因和N蛋白序列的变异性的差异分别为11%和2%,表明HTN261株和HTN76-118株还有不同,可能是不同的亚型。不过,尚有待于进一步研究证明。