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1.
禽流感病毒HA部分基因的克隆及其表达   总被引:4,自引:0,他引:4  
禽流感病毒(Avian influenza virus,AIV)是正粘病毒科流感病毒属的成员.AIV核酸为单链线状分段RNA,病毒表面囊膜上镶嵌着两种重要纤突,即血凝素(HA)和神经氨酸酶(NA).HA和NA与病毒的毒力、传染性密切相关.其中ha基因是最重要的免疫原性基因,它刺激机体所产生的抗体可中和病毒、抵抗感染,同时,由于AIV基因组中ha基因极易发生变异,故对ha基因的研究已成为目前研究AIV的热点.我们已成功克隆了禽流感ha基因的部分片断,并对其分子特性作了初步研究,现报告如下:  相似文献   

2.
H9N2型禽流感病毒传播途径分子机制的研究   总被引:2,自引:0,他引:2  
选择禽流感病毒(avian influenza virus,AIV)A/chicken/Zhuhai/154/2003(H9N2)(AZHl54)株作为骨架病毒,与来自A/chicken/Guangdong/SS/94(H9N2)(SS94)AIV的NA基因和HA基因进行H9N2亚型重排.动物传播性实验发现:AZH154、SS94和3株重排的H9N2亚型AIV都可以经直接接触途径传播;5株H9N2 AIV都不经过粪便接触传播;且AZH154株和重组的H9N2亚型AZH154/SSHA能经过气溶胶传播.实验结果表明:AIV(H9N2)的NA基因与该病毒气溶胶传播途径有重要关系,即2003年珠海地区AIV(H9N2)的大流行可能是因为病毒获得气溶胶传播途径的特性,且病毒的NA基因发挥了重要的作用.  相似文献   

3.
利用反向遗传技术产生8基因全禽源流感病毒疫苗候选株   总被引:3,自引:0,他引:3  
利用反向遗传技术将含有A/Chicken/Shanghai/F/98(H9N2)株禽流感病毒(avian influenza virus,AIV)的6个内部基因与H5N1亚型AIV的2个表面基因HA和NA共转染COS-1细胞,产生了6 2全禽源的重配AIV。将H5N1亚型AIV的HA基因经基因突变致弱,然后将A/Chicken/Shanghai/F/98(H9N2)AIV的6个内部基因的cD-NA和以上致弱的禽源HA基因及NA基因的cDNA分别克隆到转录/表达载体pHW2000中,构建成8个转录/表达质粒。将8个质粒共转染COS-1细胞,24h后收获细胞及上清接种SPF鸡胚,72~90h后鸡胚死亡,收取鸡胚尿囊液进行血凝、血凝抑制试验、序列分析、病毒致病性试验和动物免疫保护试验,最终证实产生了致弱的全禽源AIV疫苗候选株。  相似文献   

4.
近年来H5N1亚型禽流感病毒(AIV)神经氨酸酶(NA)茎部15~20个氨基酸的自发缺失时有报道,突变对于AIV生物学特性的影响还没有得到系统研究。应用反向遗传操作技术,拯救获得5株具有不同NA茎部长度的H5N1/PR8重组AIV。重组病毒的内部基因和血凝素(HA)基因来源相同,NA基因来源不同,并在NA茎部进行20个氨基酸的删除或添加突变。通过研究其生物学特性发现,5株重组病毒在SPF鸡胚中繁殖良好,其EID50、MDT和平均病毒滴度相似;NA茎部长短影响病毒的解凝能力,长茎病毒红细胞解脱能力比短茎病毒强;NA茎部15或20个氨基酸删除突变提高了重组病毒在MDCK细胞上的繁殖能力,短茎病毒释放出的病毒粒子数量是长茎病毒的10~100倍,释放时间提前6~10h,短茎病毒在MDCK细胞上形成的空斑也明显比长茎病毒的空斑大。实验结果揭示了AIV NA茎部氨基酸缺失突变的生物学意义,NA茎部15或20个氨基酸删除突变增强了AIV的细胞适应性,可能与现阶段H5N1亚型AIV宿主范围进一步扩大有关。利用反向遗传技术成功拯救了5株H5N1/PR8重组流感病毒,为流感病毒基因功能研究和重组疫苗研究建立了技术平台。通过对AIV NA茎部氨基酸的删除突变提高了病毒在MDCK细胞上的繁殖产量,为流感病毒细胞苗的生产提供了新的思路。  相似文献   

5.
设计带有BsmBI、BsaI或AarI酶切位点的引物,用RT-PCR扩增H9N2亚型禽流感病毒(AIV)的8个基因全长片段,克隆入双向转录/表达载体pHW2000,并在PB2、PB1和NA基因中共引入了3个沉默突变标签。将其2个表面基因(HA和NA基因)加上任意1个内部基因,而其它5个内部基因来自A/WSN/33,进行了6种3 5组合形式的基因重排,把相应组合的转录/表达质粒共转染COS-1细胞,均产生了预期组合、有感染性的H9N2亚型流感病毒,表明亲缘关系遥远的流感病毒可以互相获取基因片段产生重组病毒,提示表面结构基因和单个内部基因不足以限制H9N2AIV在哺乳动物细胞上的宿主范围,同时也验证了构建的8个转录/表达载体均能有效工作,为进一步研究H9N2亚型AIV基因结构与功能、AIV与宿主之间的关系打下了基础。  相似文献   

6.
设计带有BsmBI、BsaⅠ或AarⅠ酶切位点的引物,用RT PCR扩增H9N2亚型禽流感病毒(AIV)的8个基因全长片段,克隆入双向转录/表达载体pHW2000,并在PB2、PB1和NA基因中共引入了3个沉默突变标签.将其2个表面基因(HA和NA基因)加上任意1个内部基因,而其它5个内部基因来自A/WSN/33,进行了6种3+5组合形式的基因重排,把相应组合的转录/表达质粒共转染COS-1细胞,均产生了预期组合、有感染性的H9N2亚型流感病毒,表明亲缘关系遥远的流感病毒可以互相获取基因片段产生重组病毒,提示表面结构基因和单个内部基因不足以限制H9N2 AIV在哺乳动物细胞上的宿主范围,同时也验证了构建的8个转录/表达载体均能有效工作,为进一步研究H9N2亚型AIV基因结构与功能、AIV与宿主之间的关系打下了基础.  相似文献   

7.
利用反向遗传技术获得表达H5亚型禽流感病毒(AIV)血凝素(HA)的新城疫病毒(NDV)。克隆NDV clone 30的全长基因,通过在NDV的融合蛋白基因和血凝素-神经氨酸酶(HN)基因之间插入编码高致病性AIV分离株A/chicken/italy/8/98(H5N2)的血凝素基因开放阅读框从而获得两株重组新城疫病毒NDVH5和NDVH5m。NDVH5感染的细胞可以检测到两种HA转录产物。对于重组病毒NDVH5m,NDV位于HA ORF的转录终止信号序列被沉默突变消除,产生2.7个全长HA转录产物的折叠,从而使修饰过的HA得到稳定地高表达。1日龄小鸡的脑内接种证实了两种重组病毒均无致病性。鸡群在NDVH5m诱导产生的NDV和H5亚型AIV HA特异性抗体的免疫力下能够免于致死剂量的NDV与高致病性AIV的感染。血清学研究结果表明NDVH5m免疫鸡群产生的抗体可结合NP蛋白抗体的检测从而用于区分免疫和感染AIV的动物。因此,NDVH5m重组病毒可作为抗NDV和AIV的"二联疫苗",也可成为控制AJ的标记疫苗。  相似文献   

8.
利用反向遗传技术研究H9N2亚型AIV传播途径的分子机制   总被引:10,自引:0,他引:10  
利用反向遗传技术,通过基因重排方法,产生两个表面基因来自A/Chicken/Guangdong/SS/94(H9N2)禽流感病毒(avian influenza virus,AIV)株和其余基因来自A/Chicken/Shanghai/F/98(H9N2)AIV株的3株H9N2亚型重排AIV,动物传播性试验发现A/Chicken/Shanghai/F/98(H9N2)株、A/Chicken/Guangdong/SS/94(H9N2)AIV株和3株H9N2亚型重排AIV都可以经直接接触途径传播;在粪便接触途径下,3株重排AIV都不经粪便接触传播;只有A/Chicken/Shanghai/F/98(H9N2)株和重排AIV RF7/SSHA能经过气溶胶途径传播。HI试验结果进一步证明了以上的结果。实验结果表明H9N2亚型AIV的NA基因与H9N2亚型AIV气溶胶传播途径有重要的关系,即1998年中国大陆H9N2亚型AIV大流行可能是因为病毒获得气溶胶传播途径的特性,推测病毒的NA基因发挥了重要作用。  相似文献   

9.
用反向遗传操作技术产生致弱的H5亚型重组流感病毒   总被引:19,自引:3,他引:16  
选择一株鹅源H5N1亚型禽流感病毒 (AIV) ,缺失其HA基因裂解序列的 4个碱性氨基酸、使HA裂解模式由高致病性的PQRERRRKKR↓GL突变为低致病性的PQRESR↓GL ,将修饰的HA基因克隆入转录 表达载体pHW2 0 0 0、构建质粒pHW5 2 4_HA ,将该毒株和H9N2亚型毒株的NA全基因分别克隆入pHW2 0 0 0 ,构建质粒pHW5 0 6_NA和pHW2 0 6_NA。将pHW5 2 4_HA与pHW5 0 6_NA或pHW2 0 6_NA组合、均用A WSN 33(H1N1)提供 6个内部基因 ,两个组合的 8个质粒分别共转染COS_1细胞 ,产生了H5N1和H5N2两个亚型的基因重排病毒。通过在鸡胚中的连续传代和适应 ,2个重组病毒血凝价上升到 1∶2 9、表面基因稳定、对 6周龄SPF鸡不表现致病性 ,H5N2重组病毒对鸡胚的毒力低于H5N1病毒。这种尝试证明反向遗传操作技术是研究AIV致病性和构建疫苗候选株的有用工具  相似文献   

10.
西北农林科技大学生物工程研究所陈思怀、湖北省农科院牧医研究所乔宪凤、华文君等6位科学工作者参考H1-H15亚型禽流感病毒(AIV)的核蛋白(NP)基因序列以及H5、H6、H9亚型AIV血凝素(HA)基因,共设计4对引物,建立了2对引物扩增AIV的NP、HA基因的多重RT-PCR方法。应用此法分别对H5、H6、H9亚型AIV尿囊液RT-PCR,电泳,回收预期片段进行测序,并同Genebank的注册序列进行同源性分析。  相似文献   

11.
We surveyed the genetic diversity among avian influenza virus (AIV) in wild birds, comprising 167 complete viral genomes from 14 bird species sampled in four locations across the United States. These isolates represented 29 type A influenza virus hemagglutinin (HA) and neuraminidase (NA) subtype combinations, with up to 26% of isolates showing evidence of mixed subtype infection. Through a phylogenetic analysis of the largest data set of AIV genomes compiled to date, we were able to document a remarkably high rate of genome reassortment, with no clear pattern of gene segment association and occasional inter-hemisphere gene segment migration and reassortment. From this, we propose that AIV in wild birds forms transient "genome constellations," continually reshuffled by reassortment, in contrast to the spread of a limited number of stable genome constellations that characterizes the evolution of mammalian-adapted influenza A viruses.  相似文献   

12.
将禽流感病毒M2基因克隆于真核表达质粒pIRES-EGFP中,使其位于pCMV启动子的调控下,并与绿色荧光蛋白基因(EGFP)串联后,将上述串联基因插入到含MDV CVI988的非必需区US基因的重组质粒pUS2中,构建带标记的重组质粒,然后将此重组质粒转染感染了MDV CVI988的鸡胚成纤维细胞,利用同源重组的方法,筛选了表达禽流感病毒M2基因的重组病毒MDV1。经PCR、Dot-blotting,Western-blotting等实验的结果表明,禽流感病毒M2基因的确插入到MDV1(CVI988)基因组中并获得表达。重组MDV1免疫1日龄SPF鸡21天后,用ELISA可检测到M2蛋白的特异性抗体。接种了重组病毒rMDV的鸡体内针对H9N2疫苗血凝素的抗体滴度(p<0.05)明显提高,以禽流感病毒AIV A/Chicken/Guangdong/00(H9N2)攻毒后进行病毒重分离试验的结果发现,重组病毒能有效地降低病毒的排出量(p<0.01),说明该重组病毒可以用于防制禽流感的免疫。  相似文献   

13.
Infection of poultry with highly pathogenic avian influenza virus (AIV) can be devastating in terms of flock morbidity and mortality, economic loss, and social disruption. The causative agent is confined to certain isolates of influenza A virus subtypes H5 and H7. Due to the potential of direct transfer of avian influenza to humans, continued research into rapid diagnostic tests for influenza is therefore necessary. A nucleic acid sequence-based amplification (NASBA) method was developed to detect a portion of the haemagglutinin gene of avian influenza A virus subtypes H5 and H7 irrespective of lineage. A further NASBA assay, based on the matrix gene, was able to detect examples of all known subtypes (H1-H15) of avian influenza virus. The entire nucleic acid isolation, amplification, and detection procedure was completed within 6h. The dynamic range of the three AIV assays was five to seven orders of magnitude. The assays were sensitive and highly specific, with no cross-reactivity to phylogenetically or clinically relevant viruses. The results of the three AIV NASBA assays correlated with those obtained by viral culture in embryonated fowl's eggs.  相似文献   

14.
H5N1 avian influenza virus (AIV) has caused widespread infections in poultry and wild birds, and has the potential to emerge as a pandemic threat to human. In order to explore novel approaches to inhibiting highly pathogenic H5N1 influenza virus infection, we have developed short RNA oligonucleotides, specific for conserved regions of the non-structural protein gene (NS1) of AIV. In vitro the hemagglutination (HA) titers in RNA oligonucleotide-treated cells were at least 5-fold lower than that of the control. In vivo, the treatment with three doses of RNA oligonucleotides protected the infected chickens from H5N1 virus-induced death at a rate of up to 87.5%. Plaque assay and real-time PCR analysis showed a significant reduction of the PFU and viral RNA level in the lung tissues of the infected animals treated with the mixed RNA oligonucleotides targeting the NS1 gene. Together, our findings revealed that the RNA oligonucleotides targeting at the AIV NS1 gene could potently inhibit avian H5N1 influenza virus reproduction and present a rationale for the further development of the RNA oligonucleotides as prophylaxis and therapy for highly pathogenic H5N1 influenza virus infection in humans.  相似文献   

15.
建立一步法RT-PCR检测方法,对禽流感病毒(Avian influenza virus,AIV)的血凝素(Hemagglutinin,HA)分型进行了研究。参照AIV的HA基因序列设计1对引物,对H9和H5亚型AIV进行了扩增,产物大小分别为579bp和177bp。经测试,该引物不与新城疫病毒等鸡的其它传染性病原及鸡肌肉组织的核酸发生交叉反应。敏感性分析发现,从50pg的AIV总RNA中亦能扩增到目的条带。结果表明,此次利用1对引物建立的一步法RT-PCR方法简便适用,可以在一次反应中同时将H9和H5亚型AIV进行快速检测和分型。另外,两个亚型的扩增产物均包含了HA裂解位点在内的基因序列,可通过测序推导氨基酸顺序以预测H5或H9亚型禽流感病毒的潜在毒力。  相似文献   

16.
Despite the importance of migratory birds in the ecology and evolution of avian influenza virus (AIV), there is a lack of information on the patterns of AIV spread at the intra-continental scale. We applied a variety of statistical phylogeographic techniques to a plethora of viral genome sequence data to determine the strength, pattern and determinants of gene flow in AIV sampled from wild birds in North America. These analyses revealed a clear isolation-by-distance of AIV among sampling localities. In addition, we show that phylogeographic models incorporating information on the avian flyway of sampling proved a better fit to the observed sequence data than those specifying homogeneous or random rates of gene flow among localities. In sum, these data strongly suggest that the intra-continental spread of AIV by migratory birds is subject to major ecological barriers, including spatial distance and avian flyway.  相似文献   

17.
We isolated a recombinant H9N2 avian influenza virus (AIV) from fresh egret feces in the Ardeidae protection region of the Dongting Lake wetland area in China, and it was designated A/Egret/Hunan/1/2012(H9N2). This is the first report of isolating H9N2 AIV from wild birds in the Dongting Lake wetland. Its eight gene segments are generated by reassortment of gene segments of different AIV subtypes. These results are helpful for understanding the epidemiology and evolution of AIV in wild birds during migration.  相似文献   

18.
针对家禽中流行较为广泛、危害相对大的H5亚型禽流感病毒的血凝素(HA)基因,通过分析流感数据库221个HA序列,在保守区内用Oligo6.0软件设计并合成了一对引物,建立了用于快速诊断H5亚型禽流感病毒的一步法RT-PCR方法,其扩增的目的片段大小为372bp。通过对H5亚型禽流感病毒尿囊液和棉拭子浸出液进行不同稀释倍数检测,结果表明病毒尿囊液最低检出量为10-4稀释;阳性棉拭子最低检出量为8倍稀释。用病毒分离和该方法同时检测不同脏器、口咽及泄殖腔棉拭子样品,结果表明该方法检测灵敏度比病毒分离低10~100倍。用该方法检测H1~H15亚型禽流感病毒和鸡新城疫病毒等其他14种禽病病原,仅有H5亚型禽流感病毒扩增出特异性目的条带。该方法具有方便快捷、特异性强、敏感性高等特点,为我国禽流感的快速诊断和分子流行病学调查提供了技术支撑。  相似文献   

19.
Chicken embryo fibroblasts(CEFs)are among the most commonly used cells for the study of interactions between chicken hosts and H5N1 avian influenza virus(AIV).In this study,the expression of eleven housekeeping genes typically used for the normalization of quantitative real-time PCR(QPCR)analysis in mammals were compared in CEFs infected with H5N1 AIV to determine the most reliable reference genes in this system.CEFs cultured from 10-day-old SPF chicken embryos were infected with 100 TCID50 of H5N1 AIV and harvested at 3,12,24 and 30 hours post-infection.The expression levels of the eleven reference genes in infected and uninfected CEFs were determined by real-time PCR.Based on expression stability and expression levels,our data suggest that the ribosomal protein L4(RPL4)and tyrosine 3-monooxygenase tryptophan 5-monooxygenase activation protein zeta polypeptide(YWHAZ)are the best reference genes to use in the study of host cell response to H5N1 AIV infection.However,for the study of replication levels of H5N1 AIV in CEFs,the β-actin gene(ACTB)and the ribosomal protein L4(RPL4)gene are the best references.  相似文献   

20.
H7亚型禽流感病毒一步法RT-PCR检测方法的建立   总被引:1,自引:0,他引:1  
通过分析流感数据库45个H7亚型禽流感病毒的HA序列,在保守区内设计并合成引物,建立了一步法RT-PCR检测方法,扩增片段大小为501bp。通过对H7亚型禽流感病毒尿囊液和棉拭子浸出液不同滴度检测,证实病毒尿囊液最低检出量为105.5EID50/mL;阳性棉拭子最低检出量为103EID50/mL。用该方法检测H1~H15亚型禽流感病毒和鸡新城疫病毒等其他14种禽病病原进行检测,仅有H7亚型AIV有特异性目的条带,与其他均无交叉反应。从脏器及咽喉、泄殖腔棉拭子样品的病毒分离和RT-PCR方法比较,表明在10-1的样品浓度下,两者可以达到相同的检出量。表明该一步法RT-PCR方法具有特异性强、敏感性高和准确率高的特点。  相似文献   

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