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We generated reassorted PR8 viruses containing six different combinations of avian influenza virus (AIV) polymerase genes from A/chicken/Korea/01310/2001 (H9N2) (01310) and A/chicken/Korea/KBNP-0028/2000 (H9N2) (0028) to examine the effects of the AIV polymerase genes PB1, PB2, and PA on replication efficiency in different host cells and pathogenicity in mice. The virus titers of the reassorted viruses possessing 01310 [rPR8-PB2(01310)] and 0028 [rPR8-PB2(0028)] PB2 genes were significantly higher than those of the others except the rPR8 virus in embryonated chicken eggs at 37 °C, and those of avian polymerase reassorted viruses were significantly less than rPR8 in MDCK cells at 32 and 37 °C. rPR8-PB2(01310), rPR8-PB2(0028), and rPR8-PA(0028) caused no body weight loss in BALB/c mice but rPR8-PA(01310), rPR8-PB1(01310), and rPR8-PB1(0028) caused mortality and significantly different body weight loss compared to those in the mock treatment. In contrast to rPR8-PB2(0028) and rPR8-PA(0028), rPR8-PB2(01310) was not isolated from infected mice, and rPR8-PB1(0028) was less pathogenic than rPR8-PB1(01310). We determined the amino acid residues that were specific to the less pathogenic polymerases. A comparison with those of pandemic 2009 H1N1, human fatal H5N1 and H7N9, and pathogenic AIVs to mice without adaptation revealed that they possessed the mammalian pathogenic constellation of polymerases. Thus, the novel polymerase genes and amino acid residues may be useful to understand the host-barrier overcome of AIVs in mice and to develop safer and efficacious vaccines. 相似文献
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Sequence analysis of the hemagglutinin gene of H9N2 Korean avian influenza viruses and assessment of the pathogenic potential of isolate MS96 总被引:8,自引:0,他引:8
Sequence analysis of the hemagglutinin (HA) gene of five Korean H9N2 avian influenza virus (AIV) isolates showed that these viruses were closely related and possibly came from the same source. Phylogenetic analysis of the HA1 subunit of H9 subtype isolates revealed that Korean AIV isolates were different from isolates from the poultry markets in Hong Kong in 1997. None of the Korean AIVs had multiple basic amino acids at the HA cleavage site that confer high pathogenicity to some H5 and H7 AIVs. Phylogenetic analysis of the nucleoprotein and matrix gene demonstrated that Korean isolates cluster with Eurasian origin AIVs. The pathogenic potential of one of the isolates (MS96) was assessed after several passages in 14-day-old embryonated chicken eggs (ECE). Fourteen-day-old ECE derivatives of MS96 showed increased HA titer and embryo mortality in eggs; this was apparent after the third passage in 14-day-old ECE. Sequence analysis of the cleavage site of MS96 after the third and tenth passages in 14-day-old ECE revealed no changes in the amino acid sequence. The pathogenicity of MS96 after the tenth passage in 14-day-old eggs (MS96p10(ECE14)) was tested with 4-wk-old specific-pathogen-free chickens. The 14-day-old derivative, MS96p10(ECE14), showed wider tissue tropism and induced more severe clinical signs than the parent virus. Furthermore, after intranasal inoculation of 86-wk-old broiler breeders and 30-wk-old layers, the MS96p10(ECE14) derivative induced more severe signs of depression than the parent virus as well as a transient drop in egg production. 相似文献
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2009年在我国南方活禽交易市场进行流行病学调查时,从鸭体内分离到2株H4N3亚型禽流感病毒(AIV),DK/FJ/S1419/09(H4N3)(FJ/419/2009)和DK/HUN/S1010/09(H4N3)(HuN/010/2009)。为了解这2株H4N3亚型AIV的生物学特性,本研究对其进行全基因组分析及对小鼠致病性研究。结果显示:其HA基因来源于近两年流行的H4亚型病毒株,NA基因来源于其它亚型病毒株。内部基因来源较复杂,与FJ/419/2009内部基因同源性最高的病毒株均来自国内H5、H6等亚型分离株,但与HuN/010/2009同源的内部基因则差异较大,与PA、M和NS同源性最高的病毒株分别为A/wild/duck/Korea/UP122/2007(H1N1),A/muscovy/duck/Thailand/CU-LM1983/2009(H4N6)and A/avian/Japan 8KI0068/2008(H3N6)。用106EID50病毒剂量感染6周龄BALB/c小鼠,结果显示试验组小鼠感染后第3 d采脏器样品,仅在鼻甲和肺部能检测到病毒存在。以上数据表明,尽管这2株H4N3特殊亚型组合病毒来源复杂,但对小鼠的致病性较低。 相似文献
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禽流感病毒分离株A/Goose/Guangdong/1/96(H5N1)全基因克隆及序列分析 总被引:26,自引:5,他引:21
本研究用无特定病原体(SPF)鸡胚增殖禽流感病毒鹅体分离株A/Goose/Guangdong/1/96(H5N1)(GD1/96),提取病毒基因组总RNA,运用反转录-聚合酶链反应(RT-PCR)技术分别扩增该病毒分离株的8个基因片段的cDNA,分别克隆后进行序列测定。序列分析结果表明,所扩增到的8个片段均包含相应的病毒基因的完整开放阅读框架。GD1/96株与1997年香港禽流感事件中的4株香港流感病毒分离株(分别来自人、鸡、鸭和鹅)的HA基因的高度同源性说明它们可能起源于同一种系,但NS基因的差异说明它们分属于不同的基因群系。GD1/96株与香港流感病毒分离株的核苷酸和推导的氨基酸序列的同源性较低(63.9% ̄98.1%),而香港流感病毒分离株之间的核苷酸和氨基酸序列的同源性很高(96.5% ̄100%),且香 相似文献
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根据流感病毒A/Puerto Rico/8/34株NS1基因的核苷酸序列设计引物,PCR扩增后,将NS1完整开放阅读框分别克隆于pMX载体和PET30a载体,成功构建了pMX-PR8-NS1和PET-PR8-NS1重组质粒。将PET-PR8-NS1重组质粒转化Jm109感受态大肠杆菌,诱导表达获得重组NS1蛋白免疫小鼠制备多抗血清。同时,将逆转录病毒载体系统pMX-PR8-NS1、pCI-NF-KB、PMDSV和MDSV共转染293T细胞,制备逆转录病毒样粒子。将逆转录病毒样粒子感染MDCK细胞,利用嘌呤霉素进行抗性筛选。然后经过PCR、RT-PCR、间接免疫荧光鉴定,获得稳定表达PR8病毒NS1蛋白的细胞系,将之命名为MDCK-PR8-NS1细胞系。该细胞系的建立有望为深入开展流感病毒NS蛋白生物学功能的研究以及为扩增NS1基因删除的流感病毒提供了有利的工具。 相似文献
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Takakuwa H Yamashiro T Le MQ Phuong LS Ozaki H Tsunekuni R Usui T Ito H Morimatsu M Tomioka Y Yamaguchi T Ito T Murase T Ono E Otsuki K 《Preventive veterinary medicine》2012,103(2-3):192-200
Repeated epizootics of highly pathogenic avian influenza (HPAI) virus subtype H5N1 were reported from 2003 to 2005 among poultry in Vietnam. More than 200 million birds were killed to control the spread of the disease. Human cases of H5N1 infection have been sporadically reported in an area where repeated H5N1 outbreaks among birds had occurred. Subtype H5N1 strains are established as endemic among poultry in Vietnam, however, insights into how avian influenza viruses including the H5N1 subtype are maintained in endemic areas is not clear. In order to determine the prevalence of different avian influenza viruses (AIVs), including H5N1 circulating among poultry in northern Vietnam, surveillance was conducted during the years 2006-2009. A subtype H5N1 strain was isolated from an apparently healthy duck reared on a farm in northern Vietnam in 2008 and was identified as an HPAI. Although only one H5N1 virus was isolated, it supports the view that healthy domestic ducks play a pivotal role in maintaining and transmitting H5N1 viruses which cause disease outbreaks in northern Vietnam. In addition, a total of 26 AIVs with low pathogenicity were isolated from poultry and phylogenetic analysis of all the eight gene segments revealed their diverse genetical backgrounds, implying that reassortments have occurred frequently among strains in northern Vietnam. It is, therefore, important to monitor the prevalence of influenza viruses among healthy poultry between epidemics in an area where AIVs are endemic. 相似文献
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C.H. Campbell 《Veterinary microbiology》1979,4(1):1-10
Two uncloned populations of foot-and-mouth disease virus, one pathogenic for adult mice and the other nonpathogenic, were passaged in cultures of primary bovine kidney (BK) cells and a line of pig kidney (MVPK) cells. Within 10 passages in MVPK cells, the nonpathogenic virus became pathogenic for adult mice, but similar passages of this virus in BK cells did not affect its pathogenicity. In contrast, passage of the pathogenic virus in MVPK cells resulted in a decrease in pathogenicity, but again passage in BK cells had no effect on this characteristics. Neither of the viruses changed in pathogenicity for infant mice during the four passages that were tested. The nonpathogenic virus passaged in BK cells was more infectious for BK than for MVPK cells, but after passage in MVPK cells, this virus was about equally infectious for the two types of cells. Infectivity of the pathogenic virus was relatively unchanged by passage in either type of cell. The parent nonpathogenic virus and the 10th BK cell passage of this virus were much more resistant to adsorption with homogenized mouse kidney than were the MVPK cell passages of nonpathogenic virus. The parent and passaged pathogenic viruses were readily adsorbed. The results demonstrated that passage of the two viruses in MVPK cells had a pronounced selective effect. 相似文献
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为深入研究乙型脑炎病毒(JEV)NS1和NS1-2A蛋白的表达和免疫效果差异,本试验构建并扩增C-端含Flag标签的NS1和NS1-2A基因,利用T4 DNA连接酶分别连接到质粒pcDNA3.1(+)上,构建重组质粒pcDNA3.1-NS1-Flag和pcDNA3.1-NS1-2A-Flag。将这两种真核表达质粒分别转染BHK-21细胞,利用RT-PCR、IFA和Western blotting检测NS1和NS1-2A蛋白在体外的表达情况,用pcDNA3.1-NS1-Flag、pcDNA3.1-NS1-2A-Flag和pcDNA3.1(+)免疫BALB/c小鼠,检测这两种蛋白在体内的表达差异。结果显示,试验成功构建了NS1和NS1-2A基因的真核表达载体pcDNA3.1-NS1-Flag和pcDNA3.1-NS1-2A-Flag,IFA和Western blotting鉴定NS1和NS1-2A蛋白成功表达,重组质粒pcDNA3.1-NS1-Flag和pcDNA3.1-NS1-2A-Flag免疫小鼠后可诱发机体产生特异性体液免疫,pcDNA3.1-NS1-2A-Flag联合免疫组小鼠血清抗体效价和INF-γ细胞因子分泌水平比pcDNA3.1-NS1-Flag免疫组高,且与pcDNA3.1(+)空载体免疫组差异极显著(P<0.01);pcDNA3.1-NS1-Flag和pcDNA3.1-NS1-2A-Flag免疫组小鼠体内的INF-γ分泌量会增多,免疫第4周达到最高后逐渐降低。pcDNA3.1-NS1-Flag和pcDNA3.1-NS1-2A-Flag免疫小鼠能够刺激JEV特异性抗体的分泌和增强机体的细胞免疫功能,且NS1-2A联合基因的免疫效果优于NS1单一基因,为进一步研究JEV的非结构蛋白功能、研发NS1和NS1-2A基因疫苗奠定基础。 相似文献
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《Veterinary microbiology》2015,175(2-4):244-256
The location and number of glycosylation in HA proteins exhibit large variations among H5 subtype avian influenza viruses (AIVs). To investigate the effect of glycosylation in the globular head of HA on the pathogenicity and antigenicity of H5N1 AIVs, seven rescued AIVs differing in their glycosylation patterns (144N, 158N and 169N) within the HA globular head of A/Mallard/Huadong/S/2005 were generated using site directed mutagenesis. Results showed that loss of glycosylation 158N was the prerequisite for H5 AIV binding to the α2,6-linked receptor. Only in conjunction with the removal of the 158N glycosylation, the H5 AIVs harboring both 144N and 169N glycosylations obtained an optimal binding preference to the α2,6-linked receptor. Compared with the wild-type virus, growth of viruses lacking glycosylation at either 158N or 169N was significantly reduced both in MDCK and A549 cells, while replication of viruses with additional glycosylation 144N was significantly promoted. Mutant viruses with loss of 158N or 169N glycosylation sites showed increased pathogenicity, systemic spread and pulmonary inflammation in mice compared to the wild-type H5N1 virus. In addition, chicken studies demonstrated that inactivated de-glycosylation 169N mutant induced cross-reaction HI and neutralization antibody against various clades of H5N1 AIVs. Moreover, this type of glycan pattern vaccine virus provided better cross-protection in chickens compared to wild-type vaccine virus. Thus, the glycosylation alteration of HA should be considered in the global surveillance and vaccine design of H5 subtype AIVs. 相似文献
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N D Tolson K M Charlton R B Stewart G A Casey W A Webster K MacKenzie J B Campbell K F Lawson 《Canadian journal of veterinary research》1990,54(1):178-183
In studies to develop an oral rabies vaccine for wildlife, the immune response to and pathogenicity of two types of mutants of rabies viruses were examined. Forty-five small plaque mutants were selected from cultures of ERA rabies virus treated with 8-azaguanine or 5-fluorouracil and tested for pathogenicity in mice. Two of these mutants AZA 1 and AZA 2 (low pathogenicity in mice) were given to skunks by oral (bait), intestinal (endoscope) and intramuscular routes. Additionally, challenge virus standard (CVS) rabies virus and mutants of this and ERA rabies virus (CVS 3766 and 3713, and ERA 3629) that were resistant to neutralization by specific antiglycoprotein monoclonal antibodies (and apathogenic in mice) were tested by various routes in skunks. Skunks given AZA 1 and AZA 2 were challenged at three months postinoculation with street rabies virus. After oral administration, there were very low rates of seroconversion with AZA 1 and AZA 2 and on challenge only 2/7 given AZA 1 and 1/8 given AZA 2 survived. None of the skunks given the other mutants orally seroconverted. AZA 2 produced a high rate of seroconversion (8/8) by the intestinal route and all challenged skunks in this group survived (7/7). All skunks vaccinated intramuscularly with AZA 1 (4/4) or AZA 2 (4/4) developed high levels of rabies neutralizing antibodies and survived challenge. The mutant CVS 3766, while apathogenic when given intracerebrally to adult mice, was consistently pathogenic by this route (and intranasally) in skunks. These results demonstrate that skunks are highly resistant to oral immunization by live rabies virus vaccines and that pathogenicity (by intracerebral route) of the mutant CVS 3766 is markedly different in mice and skunks. 相似文献
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旨在了解浙江地区家禽H3N2亚型禽流感病毒(AIV)的流行变异情况,采用RT-PCR技术对2021年浙江923份样品进行检测,对AIV分离株进行分子特征及遗传演化分析。结果表明,AIV样品阳性率为7.69%(71/923);共分离到2株鸡源和1株鸭源H3N2亚型AIVs,其HA和NA基因相似性分别为93.4%~100%和94.0%~99.9%,分离株内部基因片段来源复杂,与H1N2、H1N4、H10N7等亚型亲缘关系密切;遗传进化分析显示,H3N2亚型AIV主要流行于华东地区,鸭是其主要宿主,3株H3N2亚型分离株 HA和NA基因均属于禽源进化分支;分离株HA蛋白裂解位点均为PEKQTR↓GLF,符合低致病性禽流感病毒特征,HA蛋白与受体结合相关位点为226Q和228G,PB2蛋白与哺乳动物适应性相关的氨基酸位点为627E,均不同于人流感病毒对应蛋白的相关位点(226L、228S和627K),推测其跨种传播至人的潜力较低;分离株PB1蛋白的66位氨基酸突变为S,提示其对哺乳动物的致病性可能增强。综上所述,本研究分离的H3N2亚型AIV符合低致病性禽流感病毒特征,基因片段来源复杂,跨种传播至人的潜力较低,但是否影响对宿主的致病性仍需进一步探究。 相似文献
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H9亚型禽流感在我国家禽中广泛流行,给养禽业造成巨大经济损失的同时,也严重威胁着公共卫生安全。H9亚型禽流感病毒(avian influenza virus,AIV)具有高度遗传变异性,导致流行株和疫苗株之间抗原匹配性差,从而影响疫苗的临床保护效果,急需研发一种高效、具有交叉保护性的通用型H9亚型禽流感疫苗。马赛克疫苗是针对遗传多样性病原体设计,通过整合所有抗原序列获得一条抗原表位覆盖最广泛的嵌合蛋白,并制备疫苗。本研究参考mosaic疫苗设计原则,设计、优化并合成了一条H9亚型禽流感病毒的mosaic血凝素(hemagglutinin,HA)基因序列,采用反向遗传操作技术,以H1N1亚型流感病毒PR8株为骨架,以mosaic H9HA序列替换PR8株的HA片段,获得重组病毒rPR8-HAm/H9。将其制备为灭活疫苗并免疫SPF雏鸡,监测抗体水平、攻毒保护效果,评价其交叉保护效果。结果表明,重组病毒rPR8-HAm/H9灭活疫苗免疫SPF雏鸡,可诱导机体产生较高水平的HI抗体和中和抗体,可显著抑制攻毒后病毒的脱落,对H9N2 AIV JM0305株的攻毒保护率为80%。rPR8-HAm/H9灭活疫苗可以对异源H9N2 AIV JM0305株产生较好的交叉攻毒保护,为研发基于马赛克技术的禽流感通用疫苗提供了前期基础。 相似文献
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We have recently described the isolation and molecular characteristics of two recombinant avian leukosis subgroup J viruses (ALV J) with an avian leukosis virus subgroup A envelope (r5701A and r6803A). In the present study, we examined the role of the subgroup A envelope in the pathogenesis of these recombinant viruses. Chickens of line 151(5) x 7(1) were inoculated at 1 day of age with r5701A, r6803A, Rous-associated virus type 1 (RAV-1), or strain ADOL-Hcl of ALV-J. At 2, 4, 10, 18, and 32 wk postinoculation (PI), chickens were tested for avian leukosis virus (ALV)-induced viremia, shedding, and neutralizing antibodies. All except one chicken inoculated with the recombinant viruses (98%) developed neutralizing antibodies by 10 wk PI compared with only 16% and 46% of the ADOL-Hcl and RAV-1-inoculated birds, respectively. ALV-induced tumors and mortality in the two groups inoculated with recombinant viruses were different. The incidence of tumors in groups inoculated with r5701A or RAV-1 was 100% compared with only 9% in the groups inoculated with r6803A or ADOL-Hcl. The data suggest that differences in pathogenicity between the two recombinant viruses might be due to differences in the sequence of the 3' untranslated region (presence or absence of the E element), and, therefore, not only the envelope but also other elements of the viral genome play an important role in the pathogenesis of ALV. 相似文献
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Morioka K Fukai K Ohashi S Sakamoto K Tsuda T Yoshida K 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》2008,70(7):653-658
At least two biotypes were observed at the 2nd passage stage after the isolation of Foot-and-mouth disease Virus (FMDV) O/JPN/2000 strain. These 2 types of viruses differed from their plaque phenotypes and were distinguishable by using a monoclonal antibody (MAb) 64G8 that was made for the FMDV O/JPN/2000 strain. One of these 2 biotypes formed small plaque (SP) and with immuno staining showed a positive reaction to MAb 64G8, while the other formed clear large plaque (LP) and did not react with MAb 64G8. The amino acid sequences of the capsid coding region (VP1-VP4) of the SP virus (SPV) and the LP virus (LPV) revealed two substitutions on the 133rd amino acid in VP2, and the 56th amino acid in VP3. These amino acid changes of SPV and LPV are Asn to Asp, Arg to His, respectively. The Arg of the 56th amino acid in VP3 that have been known as critical position of cell culture adapted virus. Only LPV showed high pathogenicity in suckling mice, and its LD(50) was calculated to be about 10(2) TCID(50)/0.1 ml. These results showed that the SPV that existed at the 2nd passage stage from isolation was a low virulence virus, which may suggest why the pathogenicity of O/JPN/2000 did not show clear symptoms in infected cattle. 相似文献
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2017年在江苏省野生豆雁粪便中分离得到1株H6N1亚型禽流感病毒A/Anser fabalis/Jiangsu/J746/2017(H6N1)(J746)。本研究对J746进行了全基因组测序,并对其进行了遗传进化分析。遗传进化分析结果表明:与HA和NA基因同源性最高的毒株为A/wild waterfowl/Korea/F14-5/2016(H6N1),同源性为99.4%。HA基因与流行于韩国、日本和孟加拉的N1、N2、N8亚型毒株处于同一分支,NA基因与韩国野生水禽的H6、H7亚型毒株处于同一分支,PB2基因与中亚及东亚地区低致性病毒株处于同一分支,PB1基因和NP基因与流行在东南亚的低致病性毒株处于同一分支,PA基因和M基因均处于欧亚分支,但PA形成了独立的小分支,NS基因与分离于中国中南部和日本的毒株聚集在一起。氨基酸位点分析表明,神经氨酸(NA)蛋白存在H274Y突变,该突变可增强病毒对神经氨酸酶抑制剂药物的耐药性;同时在PB2蛋白中发现与增强对小鼠致病性有关的L89V突变,在NS1蛋白中发现与增强对小鼠致病性、提高复制能力和改变宿主嗜性有关的P42S、L103F、I106M、N205S突变。综上所述,J746毒株基因组构成来源复杂,是由多个国家和地区形成的一株多元重组病毒。 相似文献
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中国H9N2亚型禽流感病毒的流行现状 总被引:4,自引:1,他引:3
H9N2亚型禽流感病毒(AIVs)持续暴发和流行,不但给养禽业造成了重大损失,而且给公共卫生安全带来了潜在威胁。为了解中国H9N2 AIVs的流行现状,作者对H9N2亚型AIVs的抗原性、受体结合特性、致病性进行了总结,并且对2016—2020年的流行毒株进行了分析。结果显示,H9N2 AIVs在20多个省市地区流行,其中江西、广东、贵州、江苏等地区暴发次数较多。H9N2 AIVs主要感染鸡,少数感染水禽和小家禽,零星感染人。H9N2 AIVs主要位于h9.4.2.5分支,极少数毒株隶属h9.4.2.1分支。当前H9N2 AIVs受体的结合特性呈现双嗜性或优先结合α-2,6 SA受体。抗原相关位点处的氨基酸呈现出多态性,抗原性正在发生着改变。PB2、PA和HA蛋白获得了一些适应性突变,增强了其在哺乳动物细胞上的复制能力以及对小鼠的致病性,增加了其跨宿主传播感染哺乳动物甚者人的风险。综上所述,人们要加强对H9N2 AIVs流行情况的监测,密切关注其抗原特性及致病性的变化。 相似文献