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1.
根据Onderstepoort株H基因序列,设计1对引物建立RT-PCR-RFLP检测方法,对不同宿主来源的疑似犬瘟热临床样品进行检测,并对检出的犬瘟热病毒野毒山东株PCR产物进行克隆和序列分析,验证RT—PCR—RFLP检测方法。结果RT—PCR扩增片段为1921bp,产物经RFLP分析,野毒株的PCR产物能被NdeI酶切为1282、345和294bp3个片段,弱毒疫苗株则不能被切开;病毒RNA的最小检出量为2.15ng。临床检测共检出19份样品为犬瘟热阳性,其中15份为野毒株感染,其H基因编码区全长为1824bp,均在1279和1543处有NdeI酶切位点,推导氨基酸与野毒株的同源性在92.9%~96.9%,与疫苗株的同源性在89.0%~90.8%,进化树分析显示这些毒株在基因型上属于Asia-1型,为野毒株谱系。该方法的建立为临床上犬瘟热病毒的鉴别检测和诊断提供了依据。 相似文献
2.
根据GenBank上登录的犬瘟热病毒(Canine distemper virus,CDV)基因组全序列,选择CDV强、弱毒株间有区别保守区设计了一对通用引物P1和P4,并在该对引物跨越区域的内部设计了CDV强毒株特异性引物P2及弱毒株特异性引物P3,用引物P1/P4进行RT—PCR,然后用引物P2/P3/P4进行复合套式PCR,建立了一种能区分CDV强、弱毒株的复合反转录-套式聚合酶链式反应(RT—nPCR)的鉴别诊断方法。应用该方法从CDV强、弱毒株的基因组中分别扩增出了大小为247bp和177bp的特异性片段,从两种病毒基因组混合物中扩增出了大小为247bp和177bp的两条特异性片段,与犬细小病毒、犬腺病毒、犬冠状病毒、狂犬病病毒、新城疫病毒的细胞培养物以及正常细胞对照组进行复合RT—nPCR扩增时均为阴性。对从黑龙江省和吉林省采集的20份疑似CDV病料进行的检测结果表明,有15份类似CDV强毒,5份类似CDV弱毒。本研究建立的复合RT—nPCR可以有效检测CDV感染,能够将强、弱毒株区分开,可用于临床快速检测、流行病学监测以及追踪疫苗免疫效果等。 相似文献
3.
为了解1株圈养小熊猫源犬瘟热病毒(CDV)GD-1的遗传变异情况,通过RT-PCR方法对该株CDV进行H、F基因的克隆、测序及序列分析。结果显示:该分离株的H基因序列与GenBank中丹麦报道的登录号为GU266280的犬源CDV毒株的核苷酸序列相似性最高,为96%;F基因序列与巴西报道的登录号为KY057355的犬源CDV的核苷酸序列相似性最高,为95.7%。下载CDV代表毒株序列进行遗传演化、氨基酸序列比对及分子特征分析。结果显示:H蛋白共有8个潜在的N-糖基化位点,分别位于19、149、309、391、422、456、587、603位点;H蛋白的SLAM受体结合位点氨基酸序列与欧亚野生型毒株一致,与疫苗株相比,530、549位氨基酸不同,与其他CDV参考毒株H蛋白相比还存在24、41等9处氨基酸位点发生明显变异,与标准强毒株A75/17的氨基酸相似性为95.2%,与Onderstepoort、Convac等5株疫苗株的氨基酸序列相似性为88.2%~89.3%;F蛋白共有6个N-糖基化位点,分别位于62、108、141、173、179、517位,与Onderstepoort等疫苗株氨基酸相似性为89.1%~89.7%;与其他参考毒株相比还存在115、130等11处氨基酸发生变异;构建基于H、F基因的遗传进化树,结果显示:该毒株位于Asia-4型的一个小的进化分支,这与目前我国流行毒株主要位于Asia-1型存在明显不同。本研究首次报道了小熊猫源的Asia-4基因型CDV野毒株,并对毒株的H及F基因进行了序列分析,对于了解我国CDV流行株的遗传变异情况、流行病学调查、疾病防控及疫苗研发等具有重要意义。 相似文献
4.
犬瘟热是一种接触性传染病,可侵害免疫系统、呼吸系统、消化系统,甚至神经系统,导致全身性的病理变化,对宠物犬、毛皮动物等存在巨大威胁。目前常用的胶体金检测法不能有效区分疫苗免疫与动物自然感染。为建立一种高效准确的鉴别犬瘟热病毒野毒株和疫苗株的检测方法,本试验对从武汉地区收集已确诊犬瘟热的6只犬分离得到的野毒株以及3株广泛使用的CDV疫苗株进行全基因组测序,从氨基酸水平和碱基水平比对分析后,确定H基因为AS-PCR引物设计的靶基因。通过对H基因进行分型,发现武汉地区流行的CDV均为Asia-Ⅰ型,而疫苗株Y2为America-I型,疫苗株Y1和Y3均为America-Ⅱ型。对比179株Asia-Ⅰ型(6株野毒株样品+173株GenBank Asia-Ⅰ型)与3株疫苗株的CDV-H基因序列,采用AS-PCR技术(3'端错配)设计出1对能有效区分犬瘟热Asia-Ⅰ型野毒株和疫苗株的特异性引物,上游引物序列为5'-TTAAATGATAATGACATAGTG-3',下游引物序列为5'-CCTGGCAAGGCAAGA-3'。结果显示该引物有较强的特异性,6株样品野毒株均可扩增出长894 bp的片段,疫苗株不能扩增,且野毒株的H基因上存在9个较为规律的碱基(氨基酸)变异位点,而疫苗株在第277位氨基酸上均为天冬酰胺,这些变异可能导致N-糖基化位点的增加,从而对犬瘟热病毒疫苗株的毒力产生影响。本研究建立的AS-PCR方法能有效区分犬瘟热疫苗和Asia-Ⅰ型野毒株。 相似文献
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Canine distemper (CD) is a contagious disease, which can damage the immune system, respiratory system, digestive system, and even nervous system, leading to systemic pathological changes, and has a huge threat to pet dogs, fur animals, etc. At present, the commonly used colloidal gold test cannot effectively distinguish vaccine immunity from animal natural infection. To establish an efficient and accurate detection method for identifying wild strains and vaccine strains of canine distemper virus(CDV), the whole genome of six canine distemper wild strains isolated from dogs and three widely used CDV vaccine strains collected from Wuhan area were sequenced. After comparing and analyzing the amino acid and the base sequences, the H gene was determined as the target gene for AS-PCR primer design. By genotyping the H gene, it was found that the prevalent CDVs in Wuhan were all Asia-Ⅰ, while the vaccine strain Y2 was America-I, and the vaccine strains Y1 and Y3 were both America-Ⅱ. Comparing the CDV-H gene sequences of 179 Asia-Ⅰtypes (6 wild-type strain samples + 173 GenBank Asia-Ⅰtype stains) and 3 vaccine strains, using AS-PCR technology (3'mismatch) to design a pair of primers. It can effectively distinguish CDV Asia-I wild strain and vaccine strain. The upstream primer sequence is 5'-TTAATATAATAATGACAGTG-3', and the downstream primer sequence is 5'-CCTCAAGGGGCACA-3'. The results showed that the primer had a strong specificity and the wild strains could amplify an 894 bp fragment, while the vaccine strains could not. There are 9 more regular bases (amino acids) variation sites in H gene of wild strain, and the 277th amino acids of all vaccine strains are Asparagine. These mutations may lead to an increase in N-glycosylation sites, which will have an impact on the virulence of canine distemper virus vaccine strains. The AS-PCR method established in this study can effectively distinguish the canine distemper vaccine and Asia-Ⅰwild strains. 相似文献
6.
Jian-Jun Zhao Xi-Jun Yan Xiu-Li Chai Vito Martella Guo-Liang Luo Hai-Ling Zhang Han Gao Ying-Xue Liu Xue Bai Lei Zhang Tao Chen Lei Xu Chun-Fei Zhao Feng-Xue Wang Xi-Qun Shao Wei Wu Shi-Peng Cheng 《Veterinary microbiology》2010,140(1-2):34-42
Canine distemper virus (CDV) infects a variety of carnivores, including wild and domestic Canidae. Genetic/antigenic heterogeneity has been observed among the various CDV strains, notably in the haemagglutinin (H) gene, that appears as a good target to gather epidemiological information. Based on sequence analysis of the H gene, wild-type CDV strains cluster into distinct geographic lineages (genotypes), irrespective of the species of isolation. The sequence of the H gene of 28 CDV strains detected from both vaccinated and non-vaccinated breeding foxes, raccoon dogs and minks from different geographical areas of China during the years 2004–2008 was determined. All the CDV strains but two (strains HL and HLJ2) were characterized as Asia-1 genotype and were highly similar to each other (96.2–99.7% at the amino acid [aa] level) and to other Asia-1 strains (96.1–99.5% aa) previously detected in China. The CDV strains HL and HLJ2 were both collected from foxes in Heilongjiang province in 2005. Strain HL resembled CDVs of the Arctic genotype (GR88-like) and displayed high aa identity (98.0%) to the Chinese canine strain Liu. By converse, strain HLJ2 was barely related to CDVs of the Asia-2 genotype (88.7–90.3% aa identity), and could represent a novel CDV genotype, tentatively proposed as Asia-3. These results suggest that at least three different CDV genotypes, distantly related (81.8–91.6% aa identity) to the vaccine strains, Onderstepoort-like (America-1 genotype), are currently circulating in breeding foxes, raccoon dogs and minks in China, and that the genotype Asia-1 is predominant. Whether the diversity between wild-type CDVs and the vaccine strains may affect, to some extent, the efficacy of the vaccines deserves further investigations. 相似文献
7.
为了解上海地区犬瘟热病毒(Canine distemper virus,CDV)遗传变异情况,本研究采用首尾重叠的11对特异性引物,对CDV上海株SH202003进行RT-PCR扩增,将扩增片段进行反复测序,序列拼接后最终获得了SH202003株全基因组序列,应用Lasergene 7.0和Mega 6.0软件对全基因及H基因进行序列分析,并构建系统进化树。结果显示,SH202003株基因组全长为15 690 bp,编码6种结构蛋白(N、P、M、F、H和L),H和L基因间隔序列为CUA,L和5'端尾随序列为CAA,与Hebei株核苷酸和氨基酸相似性最高,达到98.6%和96.6%,与疫苗株核苷酸相似性在92.2%~94.3%,氨基酸相似性只有82.7%~87.0%;全基因进化树中,SH202003株与流行野毒株在同一分支,与疫苗株在不同的分支;H基因同样与Hebei株亲缘关系最近,核苷酸和氨基酸相似性分别为98.7%和99.5%,与疫苗株Snyder Hill、CDV3、Convac及Onderstepoort亲缘关系较远;SH202003株处于Asia-1型分支,属于Asia-1型强毒株;SH202003株具有9个潜在N-糖基化位点,与强毒株Hebei株一致。研究表明,上海株SH202003属于CDV强毒株,为Asia-1型,其H基因序列相对保守,具有9个潜在N-糖基化位点,但是全基因序列存在较多突变,与疫苗株的匹配度较差,可能是免疫犬依然发生犬瘟热的主要原因。 相似文献
8.
基因序列分析确诊大熊猫的犬瘟热病毒感染 总被引:7,自引:0,他引:7
直接从死亡大熊猫肝脏提取细胞总 R N A,经反转录后用犬瘟热病毒的 1 对引物扩增出了约 320 bp 的片段。此产物经纯化、序列分析表明,其片段 2 个引物间长度为 281 bp,与预计片段大小相同。此毒株在核苷酸和氨基酸水平与北京犬等 4 个野毒株、哈尔滨犬野毒株、某疫苗弱毒株、 Onderstepoort 弱毒株和海豹瘟热病毒 2 型毒 株的 同源 性分 别为 922% 和 989% 、925% 和 989% 、915% 和 946% 、929% 和 989% 、982% 和 100% 。这样就进一步确定了大熊猫的犬瘟热病毒感染。 相似文献
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为了对1例貉源犬瘟热(CD)进行病毒检测并分析其血凝素H基因变异情况,本研究从1只疑似犬瘟热病死的貉采病料进行研磨,利用RT-PCR方法扩增犬瘟热病毒H基因,对扩增出的H基因片段进行克隆测序,并对得到的H基因序列进行分析。结果表明,该貉感染犬瘟热病毒,得到的H基因核苷酸和氨基酸序列与CDV野毒株同源性较高,分别为89.1%~98.0%和85.4%~97.5%。遗传进化分析表明其属于Asia-1型野毒株,N连接糖基化位点分析结果表明,该毒株在542aa处比参考野毒株多了1个潜在的N糖基化位点,在525aa-550aa间多出了1个抗原表位。 相似文献
11.
犬瘟热是犬瘟热病毒(Canine distemper virus,CDV)感染犬和其他食肉动物造成的多发性、致死性传染病,本文从分子水平上探讨CDV遗传进化特性、变异情况与流行规律之间的关系.通过收集2002-2010年在中国地区分离的14株CDV野毒株、2006-2007年在全球各地分离的12株CDV野毒株以及从不同宿主分离的12株CDV野毒株和4株疫苗株,将其分为4组,将前3组野毒株分别与国内外正在使用的4株疫苗株的H基因进行遗传变异分析.分析发现,CDV野毒株与疫苗株间H蛋白基因的核苷酸相似性为86.2%~92.1%,其氨基酸相似性为89.1%~91.9%;H基因的584位的天冬酰胺糖基化位点是Asia-Ⅰ型CDV所特有的;H蛋白3555区域的非同义氨基酸替换概率较高.作者推测H蛋白抗原变异可能造成弱毒疫苗免疫效力降低,不能为某些CDV株的感染提供完全有效的保护. 相似文献
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本研究旨在建立猪瘟病毒野毒株和兔化弱毒疫苗株RT-PCR-RFLP鉴别检测方法。根据Shimen株设计1对特异性引物,建立猪瘟病毒RT-PCR-RFLP检测方法;对20份疑似猪瘟临床样品进行检测,并对检出的山东8株流行野毒株和2株疫苗株PCR产物进行克隆与序列分析,验证上述方法。结果RT-PCR扩增片段为825bp,产物经RFLP分析,野毒株的PCR产物能被ApaⅠ酶切为322bp和503bp 2个片段,兔化弱毒疫苗株则不能被酶切,检测出RNA的最低浓度为0.028 6μg.mL-1;8株流行野毒株都含GGGCCC序列(ApaⅠ酶切位点),2株疫苗株相应序列为GAGCCC,不能被ApaⅠ酶切;8株流行野毒株属于基因2群,2株疫苗株与HCLV遗传关系近,为基因1群。建立了可鉴别猪瘟病毒野毒株和兔化弱毒疫苗株RT-PCR-RFLP检测方法,为猪瘟的防控提供有效手段。 相似文献
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以从宠物临床上分离的犬瘟热病毒(canine distemper virus,CDV)总RNA为模板,根据GenBank中已报道的CDV核蛋白(N)、基质膜蛋白(M)基因序列,分别设计合成1对特异性引物,RT-PCR扩增N、M蛋白编码基因,并进行克隆与序列分析。结果显示,均扩增出预期大小的片段。扩增片段经核苷酸序列分析,N、M编码基因全长分别为1572、1008 bp,该CDV的N蛋白编码基因序列与Onderstepoort疫苗株、A75/17株的同源性分别为93.9%、97.6%,编码氨基酸的同源性分别为96.9%、98.7%;M蛋白编码基因序列与Onderstepoort疫苗株、A75/17株的同源性分别为94.5%、97.8%,编码氨基酸的同源性分别为97.9%、99.7%,这说明N、M蛋白均是保守性较强的结构蛋白,且同强毒株A75/17的亲缘关系要比Onderstepoort疫苗株更近。 相似文献
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为了解近年来犬瘟热病毒(canine distemper virus,CDV)在中国毛皮动物主要养殖区的流行情况及遗传变异情况,本试验于2012-2014年从山东、河北、辽宁收集疑似犬瘟热的水貂、狐狸和貉病料,经犬瘟热抗原检测试纸条检测和RT-PCR检测为阳性后,克隆测序了15株CDV F蛋白信号区(Fsp)基因序列.序列分析结果显示,15株CDV野毒株Fsp基因核苷酸序列和氨基酸序列的相似性均为93.6%~100.0%,与疫苗株相似性为80.7%~81.7%.基因系统进化分析结果显示,15株野毒株均属于中国当前流行的Asia-1基因型.氨基酸序列比对分析结果显示,Fsp蛋白在氨基酸3-14、16-37、47-67位等处存在高变异.通过对当前流行CDV野毒株Fsp基因序列分析,结果表明该Fsp基因区具有较高的变异率,可作为CDV基因分型的依据,同时本试验结果为毛皮动物犬瘟热的防控提供了参考依据. 相似文献
16.
Gámiz C Martella V Ulloa R Fajardo R Quijano-Hernandéz I Martínez S 《Veterinary research communications》2011,35(6):381-390
Canine Distemper is a highly contagious viral systemic disease that affects a wide variety of terrestrial carnivores. Canine
Distemper virus (CDV) appears genetically heterogeneous, markedly in the hemagglutinin protein (H), showing geographic patterns
of diversification that are useful to monitor CDV molecular epidemiology. In Mexico the activity of canine distemper remains
high in dogs, likely because vaccine prophylaxis coverage in canine population is under the levels required to control effectively
the disease. By phylogenetic analysis based on the nucleoprotein (N) and on the H genes, Mexican CDV strains collected between
2007 and 2010 were distinguished into several genovariants, all which constituted a unique group, clearly distinct from field
and vaccine strains circulating worldwide, but resembling a CDV strain, 19876, identified in Missouri, USA, 2004, that was
genetically unrelated to other North-American CDV strains. Gathering information on the genetic heterogeneity of CDV on a
global scale appears pivotal in order to investigate the origin and modalities of introduction of unusual/novel CDV strains,
as well as to understand if vaccine breakthroughs or disease epidemics may be somewhat related to genetic/antigenic or biological
differences between field and vaccine strains. 相似文献
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Analysis of Korean strains of infectious laryngotracheitis virus by nucleotide sequences and restriction fragment length polymorphism 总被引:6,自引:0,他引:6
Korean field strains of infectious laryngotracheitis virus (ILTV) were analyzed by comparison of nucleotide sequences of thymidine kinase (TK) and glycoprotein G (gG) genes and polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) patterns. Main differences among TK gene sequence were found in both amino acid at 252 and mRNA polyadenylation signals. In virulent strains, amino acid 252 of TK gene was methionine but was threonine in low virulence and vaccine strains. The mRNA polyadenylation signals of TK gene were identified at 24bp downstream from the stop codon in virulent strains, but not in low virulence and vaccine strains. The gG gene of all virulent strains showed the same nucleotide sequence except for N87278 which had a gG gene sequence identical to that of vaccine strains. The virulent ILTV strains differed from low virulence and vaccine strains in PCR-RFLP patterns of TK and gG genes. The RFLP patterns of TK and gG genes of low virulence ILTV strains were identical to those of vaccine strains. In the case of N87278, the PCR-RFLP patterns of TK and gG genes were identical to those of virulent and vaccine strains of ILTV, respectively. From these results, ILTV field strains were classified into three groups according to sequences of TK and gG genes and PCR-RFLP, and the virulent ILTV strains could be discriminated from low virulence and vaccine strains by PCR-RFLP of TK gene. And it was suspected that N87278 might be produced by in vivo recombination between virulent and vaccine strains of ILTV. 相似文献
19.
为分析当地非典型犬瘟热病毒(CDV)核衣壳蛋白(N)基因的序列特征及其表达产物的抗原性,根据已发表CDV的N基因序列设计引物,用RT-PCR方法从引起非典型症状的CDV细胞培养物中扩增N基因,进行克隆和序列分析,结果表明:该非典型CDV的N基因与已发表的12个CDV强毒株的核苷酸序列和氨基酸序列同源性分别在96.6%~99.2%和97.9%~99.4%之间,与已发表的4个CDV疫苗弱毒株的同源性分别在93.2%~93.6%和96.4%~97.5%之间;在N基因系统发育进化树上,非典型CDV与12个强毒株处在同一亚群,而且与9个中国分离毒株的亲缘关系近于3个国外毒株。N基因在大肠杆菌中表达的重组N蛋白的分子量为62 ku,主要以包涵体的形式存在;用western blot分析,重组N蛋白可与CDV阳性血清发生特异性反应;以纯化的重组N蛋白为抗原建立的CDV抗体间接ELISA检测方法具有良好的特异性。 相似文献
20.
Demeter Z Lakatos B Palade EA Kozma T Forgách P Rusvai M 《Veterinary microbiology》2007,122(3-4):258-269
To achieve proper diagnosis of dogs based on acute clinical symptoms and poorly preserved field samples taken from animals that died due to canine distemper (CD), a new differential diagnostic test has been developed based on polymerase chain reaction (PCR). In this study, more than 150 samples collected from dogs showing respiratory, gastrointestinal and neurological signs suggesting canine distemper virus (CDV) infection were examined. The samples consisted of urine, blood and nasal swabs collected from clinically ill patients, sent to our laboratory by clinicians from various veterinary clinics throughout Hungary. Various organs collected during the necropsy of dogs with pathological changes that suggested CDV infection were also included. Three distinct PCRs were designed. For diagnostic purposes, a primer pair specific to a 409 bases-long segment within the conservative part of the large polymerase region (L) of the CDV genome was designed. Using this test, out of the 150 analyzed samples, 46 (30.66%) proved to be positive for CDV, indicating that CDV still represents a high risk to the canine population in Hungary. For the phylogenetical analysis, a primer pair that completely encompasses the hemagglutinin (H) gene of the CDV genome was designed. The amplicons of this region were sequenced in both directions using the appropriate primers. Our results indicate that several different CDV genotypes are currently present in Hungary. Nine of the analyzed Hungarian strains turned out to belong to the so-called Arctic group of CDVs, and were most closely related to non-European strains from North America, China and Greenland, as well as to the phocine distemper virus 2 (PDV-2) isolated from Baikal seals (Phoca sibirica). One of the Hungarian strains showed high similarity to other European isolates from Denmark, Germany, Italy and Turkey, as well as to other isolates from geographically more distant regions, such as the USA. Three Hungarian strains seem to join a new cluster that is formed by only a couple of strains, one isolated from a mink in Denmark, and another from a dog in North America. Using a third set of primers, a restriction fragment length polymorphism (RFLP) assay has also been designed for the fast and reliable differentiation of the wild-type CDVs from the vaccine strains. 相似文献