犬细小病毒四川流行株分离鉴定及其遗传进化分析

从犬粪便中分离到1株细小病毒,在F81细胞出现明显的CPV病变,电镜观察可见细小病毒样粒子,进一步理化性质鉴定该病毒具有细小病毒的特征,表明所分离病毒为CPV,命名为CPV-04-08-CN-6.根据特异性引物,采用PCR技术扩增出VP2全长基因,将PCR产物克隆入pMD18-T载体,进行测序分析.结果,CPV04-08-CN-6 VP2基因全长1755bp,编码584个氨基酸,与CPV参照株的VP2基因核苷酸同源性为99.69%,12个核苷酸发生错义突变,导致4个氨基酸发生变异.VP2基因的系统发生分析表明CPV-04/08/CN-6在细小病毒分类上属于CPV-2a型.     

犬细小病毒中国内蒙株VP2基因克隆及序列分析

从我国内蒙古地区流行的犬细小病毒病病犬的肠溶物中分离提纯犬细小病毒(CPV).提取病毒基因组DNA,并以此DNA为模板,采用人工合成的引物进行PCR 扩增,PCR产物经BamHI、SacI双酶切后,克隆于pUC19质粒的BamHI/Sac I位点.重组质粒pUCVP2经PCR鉴定、限制酶切分析和序列分析,结果表明:获得了犬细小病毒内蒙株(CPV-IM)VP2基因的全长克隆, VP2基因全长1755nt,与国外报道的美国1株(CPV-N)、美国2株(CPV-B)和猫全白细胞减少症病毒(FPLV)的核苷酸序列同源性分别为99.32%、98.29%、98.52%,氨基酸序列同源性分别为98.87%、97.09%、97.77%.     

宁夏地区犬细小病毒的分离鉴定及其VP2基因进化分析

犬细小病毒(Canine parvovirus,CPV)具有高度传染性,是幼犬最危险的消化道传染病病原之一。为了解宁夏地区CPV的流行现状及其VP2基因的遗传变异情况,本研究采集了14份经胶体金试纸条检测为CPV阳性的腹泻犬粪样,进行病毒分离和鉴定,并将分离株VP2基因全序列进行克隆和测序分析。结果显示,14份样品中成功分离到5株CPV;病毒TCID50在104.9/0.1mL～105.4/0.1mL之间;HA效价均达1∶512以上;序列分析显示,5株分离株中3株为new CPV-2a型,2株为new CPV-2b型;分离株与参考株的核苷酸和氨基酸相似性分别为98.2%～99.9%和96.9%～99.8%;聚类分析显示,分离株序列全部聚类在同一分支。本研究的结果为我国西北地区CPV分离株的分子流行病学和遗传多样性提供了依据,有助于该地区预防和控制CPV感染。     

人博卡病毒基因克隆及衣壳编码基因序列变异分析

为了解人博卡病毒(Human Bocavirus,HBoV)VP1基因进化关系;阐明HBoV目前具体的变化规律,用PCR的方法扩增了1株HBoV的全基因和9株HBoV的VP1基因,克隆并测序,在此基础上,将HBoV的全基因序列和衣壳序列分别与细小病毒亚科其他14个有代表性的病毒进行遗传分析,构建进化树,对目前所有可得到的HBoV的17个衣壳蛋白进行二级结构分析和抗原性分析。结果显示:HBoV全基因序列与B19关系较远,但衣壳序列遗传关系较近。以有典型性的猫瘟细小病毒(Feline parvovirus,FPV)衣壳蛋白为参照,分析多个HBoV衣壳序列之间的变异情况,显示HBoV衣壳的二级结构基础表现出较高的保守性,序列之间的变化主要发生在高抗原区域和感染活性区域。衣壳病毒变异情况显示HBoV在稳定自身的情况下表现出一定的活跃性以逃避免疫反应,也表现出一定的感染适应力。     

犬细小病毒VP2蛋白在真核细胞中的分泌表达及特性

摘要:【目的】利用真核细胞分泌表达犬细小病毒VP2蛋白和研究其特性。【方法】为构建犬细小病毒（Canine parvovirus, CPV）VP2基因的真核分泌型表达载体,首先通过酶切从含有人CD5信号肽序列的质粒中将CD5信号肽基因片段切出,将其连接到真核表达载体pcDNA3.1A的多克隆位点上,构建成pcDNA3.1-CD5sp质粒。然后再通过PCR方法从含有犬细小病毒VP2基因的质粒中扩增VP2基因,并将其插入到pcDNA3.1- CD5sp载体中CD5信号肽的下游,构建成VP2基因的真核分泌型表达载体pcDNA-CD5sp-VP2。经磷酸钙介导转染293T细胞,使其在真核细胞中进行分泌表达,并通过ELISA检测表达的VP2蛋白与犬转铁蛋白受体（TfR）结合的活性。【结果】序列分析结果表明,本实验构建的犬细小病毒VP2基因真核分泌型表达载体结构正确,将该表达载体转染的293T细胞,在培养基中通过Western-blot检测到有VP2重组蛋白的存在。经ELISA检测表明表达的重组VP2蛋白具有与犬转铁蛋白受体结合的活性。【结论】 利用人的CD5信号肽实现了犬细小病毒VP2蛋白在真核细胞中的分泌表达,表达的VP2蛋白具有与犬转铁蛋白受体结合的活性。     

鹅细小病毒分离株HG5/82的分子特征分析

本研究应用PCR技术扩增得到GPV中国分离株HG5/82的非结构基因与结构基因,片段大小分别约为1.9kb、2.2kb的片段.将该片段分别进行克隆及序列测定,并与GPV国内外部分已发表的毒株及番鸭细小病毒(Muscovy duck parvovirus,MDPV)的对应序列比较.结果表明HG5/82株非结构蛋白(Non-structure,NS)基因长为1884bp,编码627个氨基酸.HG5/82株结构蛋白基因长为2199bp,编码732个氨基酸.序列分析结果表明,我国地方分离株与国内外鹅细小病毒相比,ns基因、vp基因均表现出较高的同源性,并且具有共同的分子特征.为进一步研究GPV的基因功能、遗传变化规律及病毒分子致病机理提供了一定的分子基础.结构基因VP3间变异较小,这是目前GPV只有一个血清型的分子基础,为基因工程苗的研制提供了可行性.HG5/82与番鸭细小病毒相应序列比较发现,与细小病毒其它成员相比两者具有较近的亲源关系,但这种同源性明显低于鹅细小病毒之间的同源性.     

鹅细小病毒分离株HG5／82的分子特征分析

本研究应用PCR技术扩增得到GPV中国分离株HG5/82的非结构基因与结构基因,片段大小分别约为1.9kb、2.2kb的片段。将该片段分别进行克隆及序列测定,并与 GPV 国内外部分已发表的毒株及番鸭细小病毒(Muscovy duck parvovirus,MDPV)的对应序列比较。结果表明:HG5/82 株非结构蛋白(Non structure, NS)基因长为1884bp,编码627个氨基酸。HG5/82株结构蛋白基因长为2199bp,编码732个氨基酸。序列分析结果表明,我国地方分离株与国内外鹅细小病毒相比,ns基因、vp基因均表现出较高的同源性,并且具有共同的分子特征。为进一步研究GPV的基因功能、遗传变化规律及病毒分子致病机理提供了一定的分子基础。结构基因 VP3 间变异较小,这是目前GPV只有一个血清型的分子基础,为基因工程苗的研制提供了可行性。HG5/82 与番鸭细小病毒相应序列比较发现,与细小病毒其它成员相比两者具有较近的亲源关系,但这种同源性明显低于鹅细小病毒之间的同源性。     

犬CTLA-4胞外区的分子克隆、表达和对犬细小病毒VP2的免疫佐剂作用

[目的]探索犬细胞毒性T细胞相关抗原-4(cytotoxic T lymphocyte-associated antigen-4,CTLA-4)胞外区作为免疫佐剂的可行性.[方法]根据已发表序列设计引物,用RT-PCR扩增CTLA-4胞外区编码序列,用PCR扩增犬细小病毒(canine parvovirus,CPV)VP2蛋白主要抗原表位基因片段VP2S,将VP2S克隆入含和不含CTLA-4胞外区基因片段的原核表达质粒pQE-31;用获得的重组质粒pQE-CTLA-4-VP2S和pQE-VP2S转化大肠杆菌,并进行诱导表达;用相同剂量的重组蛋白VP2S和CTLA-4-VP2S免疫小鼠.用间接ELISA和血凝抑制试验比较两个免疫组的抗体水平.[结果]经过30次循环PCR扩增后,琼脂糖凝胶电泳显示预期大小的扩增产物;序列测定结果显示,克隆的毕格犬CTLA-4胞外区与已发表序列的核苷酸同源性为99.2%,氨基酸序列同源性为98.4%,结合B7分子的六肽基序(MYPPPY)无变化:VP2S与已发表CPV VP2的核苷酸序列同源性为99%,氨基酸序列同源性为98.6%:经IPTG诱导后,两种重组大肠杆菌表达预期的29kDa VP2S和42kDaCTLA-4-VP2S重组蛋白,两者均能被CPV抗血清识别;间接ELISA和血凝抑制试验结果显示,CTLA-4-VP2S免疫组的抗体产生时间为初免后第2周,抗体高峰期为初免后第4周,而VP2S免疫组的抗体产生时间为初免后第4周,抗体高峰期为初免后第5周,两个试验组高峰期ELISA抗体效价和血凝抑制抗体效价分别相差100倍和10倍.[结论]犬CTLA-4胞外区可作为分子佐剂促进CPV VP2蛋白抗体的产生.     

犬细小病毒NS1 非结构蛋白可诱导细胞凋亡

【目的】研究犬细小病毒(Canine parvovirus,CPV)非结构蛋白NS1在CPV引起宿主细胞凋亡中的作用,初步探讨CPV引起细胞凋亡的机制。【方法】首先采用PCR方法从犬细小病毒基因组中扩增NS1编码基因,然后利用pcDNA3.1A质粒构建NS1真核表达载体pcDNA-NS1,并通过HEK293FT细胞瞬时表达NS1重组蛋白,用Western-blot检测以确定重组NS1蛋白能否在真核细胞中表达。然后用CPV感染和用pcDNA-NS1表达载体转染F81宿主细胞,通过AnnexinV/PI双染法检测磷脂酰丝氨酸外翻和通过化学发光法检测caspase-3/7活性,分析感染CPV或转染NS1基因对F81宿主细胞凋亡的影响。【结果】结果表明,本实验扩增的NS1基因序列与GenBank的序列一致,构建的表达载体结构正确,并能够介导NS1基因在真核细胞中表达。感染CPV和转染NS1基因均能诱导F81细胞膜磷脂酰丝氨酸外翻和明显提高细胞内caspase-3/7的活性,表明CPV和NS1蛋白均能引起细胞的凋亡。【结论】CPV诱导宿主细胞凋亡与其编码的NS1非结构蛋白有关。     

腹泻犬中细小病毒携带情况以及VP2基因进化分析

为了解四川省部分地区腹泻犬中细小病毒的感染情况以及VP2基因的遗传变异情况。从四川省部分地区收集了50例疑似CPV感染的腹泻犬粪便,对标本采用PCR扩增VP2,并对VP2基因全序列进行测序分析。PCR检测阳性标本19份。序列分析显示,15份扩增出VP2基因全序列标本均为CPV-2a型,聚类分析显示全部序列聚类在同一分支,本次研究的四川省部分地区流行的CPV均为CPV-2a型。可推测目前四川省部分地区所常见的CPV流行株依然以CPV-2a型为主。本次试验所扩增的15份CPV阳性标本与国内外传统毒株有着极高的同源性,提示目前四川省部分地区CPV还未出现重大的变异情况。     

貂肠炎病毒的核苷酸序列和基因组结构

本试验测定了已克隆的貂肠炎病毒(MEV)复制型(RF)DNA的核苷酸序列,确定MEV基因组全长约为5064个核苷酸(nucleotides,nt),推测了3'端和5'端结构,在5'端非编码区有3个51 nt的重复。MEV基因组序列与犬细小病毒(CPV)、猫细小病毒(FPV)有很高的同源性,结构基因区的同源性分别达99.1%和99.9%,但在5'端非编码区有较大差异。MEV基因组结构与CPV和FPV基本一致,有两个大的开放阅读框架,分别编码688和722个氨基酸。在map unit(m.u.)3.7和m.u.39处有两个启动子,在m.u.97处有poly A位点。NS2、VP1和VP2的mRNA都发生剪接。     

Multiple amino acids in the capsid structure of canine parvovirus coordinately determine the canine host range and specific antigenic and hemagglutination properties.

Canine parvovirus (CPV) and feline panleukopenia virus (FPV) are over 98% similar in DNA sequence but have specific host range, antigenic, and hemagglutination (HA) properties which were located within the capsid protein gene. In vitro mutagenesis and recombination were used to prepare 16 different recombinant genomic clones, and viruses derived from those clones were analyzed for their in vitro host range, antigenic, and HA properties. The region of CPV from 59 to 91 map units determined the ability to replicate in canine cells. A complex series of interactions was observed among the individual sequence differences between 59 and 73 map units. The canine host range required that VP2 amino acids (aa) 93 and 323 both be the CPV sequence, and those two CPV sequences introduced alone into FPV greatly increased viral replication in canine cells. Changing any one of aa 93, 103, or 323 of CPV to the FPV sequence either greatly decreased replication in canine cells or resulted in an inviable plasmid. The Asn-Lys difference of aa 93 alone was responsible for the CPV-specific epitope recognized by monoclonal antibodies. An FPV-specific epitope was affected by aa 323. Amino acids 323 and 375 together determined the pH dependence of HA. Amino acids involved in the various specific properties were all around the threefold spikes of the viral particle.     

Combinations of two capsid regions controlling canine host range determine canine transferrin receptor binding by canine and feline parvoviruses

Feline panleukopenia virus (FPV) and its host range variant, canine parvovirus (CPV), can bind the feline transferrin receptor (TfR), while only CPV binds to the canine TfR. Introducing two CPV-specific changes into FPV (at VP2 residues 93 and 323) endowed that virus with the canine TfR binding property and allowed canine cell infection, although neither change alone altered either property. In CPV the reciprocal changes of VP2 residue 93 or 323 to the FPV sequences individually resulted in modest reductions in infectivity for canine cells. Changing both residues in CPV to the FPV amino acids blocked the canine cell infection, but that virus was still able to bind the canine TfR at low levels. This shows that both CPV-specific changes control canine TfR binding but that binding is not always sufficient to mediate infection.     

Nucleotide sequence and genome organization of canine parvovirus.

The genome of a canine parvovirus isolate strain (CPV-N) was cloned, and the DNA sequence was determined. The entire genome, including ends, was 5,323 nucleotides in length. The terminal repeat at the 3' end of the genome shared similar structural characteristics but limited homology with the rodent parvoviruses. The 5' terminal repeat was not detected in any of the clones. Instead, a region of DNA starting near the capsid gene stop codon and extending 248 base pairs into the coding region had been duplicated and inserted 75 base pairs downstream from the poly(A) addition site. Consensus sequences for the 5' donor and 3' acceptor sites as well as promotors and poly(A) addition sites were identified and compared with the available information on related parvoviruses. The genomic organization of CPV-N is similar to that of feline parvovirus (FPV) in that there are two major open reading frames (668 and 722 amino acids) in the plus strand (mRNA polarity). Both coding domains are in the same frame, and no significant open reading frames were apparent in any of the other frames of both minus and plus DNA strands. The nucleotide and amino acid homologies of the capsid genes between CPV-N and FPV were 98 and 99%, respectively. In contrast, the nucleotide and amino acid homologies of the capsid genes for CPV-N and CPV-b (S. Rhode III, J. Virol. 54:630-633, 1985) were 95 and 98%, respectively. These results indicate that very few nucleotide or amino acid changes differentiate the antigenic and host range specificity of FPV and CPV.     

大肠杆菌 LT B亚基基因表达载体对犬细小病毒VP2 DNA疫苗免疫应答的增强作用

【目的】通过融合基因表达载体和共免疫基因表达载体研究大肠杆菌不耐热肠毒素(LT)B亚基基因对犬细小病毒VP2DNA疫苗免疫应答的影响。【方法】提取大肠杆菌44815菌株基因组DNA,通过PCR方法从基因组DNA中扩增LTB基因,同时采用PCR方法从含有犬细小病毒VP2基因的质粒中扩增VP2的主要抗原表位基因(VP2-70,编码70个氨基酸)。将上述基因分别连接到含有人CD5信号肽序列的载体pcDNA-CD5sp上,分别构建成它们的分泌型真核表达载体,pcDNA-CD5sp-LTB和pcDNA-CD5sp-VP2-70。再利用酶切连接的方法构建LTB与VP2-70融合的真核表达载体pcDNACD5sp-LTB-VP2-70。然后用pcDNACD5sp-VP2-70(VP2-70组)、pcDNACD5sp-LTB-VP2-70(VP2-LTB融合组)、pcDNA-CD5sp-LTB/pcDNACD5sp-VP2-70(VP2-LTB共免疫组)和pcDNA3.1A(空载体对照组)分别免疫小鼠。免疫后用间接ELISA检测不同时间小鼠血清的抗体水平,用MTT方法检测小鼠免疫5周后脾脏淋巴细胞的增殖活性。【结果】经过测序表明本研究扩增的LTB和VP2基因序列和构建的相关表达载体结构正确。通过Western-blot检测证明构建的表达载体均能介导相应基因在真核细胞进行分泌表达。ELISA检测结果表明,3组实验组小鼠接受VP2DNA疫苗免疫后均能产生特异的体液免疫应答反应,特别是VP2-LTB基因融合组小鼠的抗体水平在第5周时高达1:5120,明显高于其它两组(P<0.01)。3组免疫小鼠抗体的亚型均表现IgG1抗体水平明显高于IgG2a抗体水平(P<0.01)。淋巴细胞增殖实验结果表明,在ConA的刺激下,3组免疫小鼠的淋巴细胞刺激指数均明显高于对照组(P<0.01),说明VP2DNA疫苗能够引起淋巴细胞的增殖。但3组免疫小鼠之间的刺激指数没有明显差异(P>0.05)。【结论】在小鼠体内,LTB基因表达载体可明显提高CPVVP2DNA疫苗的体液免疫应答水平。     

犬细小病毒VP2亲水性编码区的表达与免疫原性分析

目的：探讨犬细小病毒VP2亲水性编码区的免疫原性,为进一步研究基因工程亚单位疫苗奠定基础。方法：利用蛋白质分析软件Protean对已克隆的犬细小病毒VP2基因序列进行分析,选择亲水性好、抗原性强的293-520位氨基酸区域（命名为VP2S）作为靶序列,然后以已有VP2序列作为模版通过PCR扩增的方法获得VP2S,将VP2S克隆入pQE-31载体获得pQE-31-VP2S;将pQE-31-VP2S的原核表达产物经Western-blotting确认后免疫小鼠,用血凝抑制试验测定抗体水平。结果：293～520位氨基酸区域的亲水性好、抗原性强;重组质粒pQE-31-VP2S可成功表达大约29KDa的能被CPV抗血清识别的VP2S;VP2S能诱导小鼠产生高滴度的血凝抑制（HI）抗体（25）。结论：VP2S具有较强的免疫原性,能作为基因工程亚单位疫苗进行开发研究。     

Genetic diversity of parvovirus isolates from dogs and wild animals in China

We isolated three new parvovirus variants in China. The isolate from a blue fox was related to feline parvovirus, but possessed a mutation of VP2 residue A300P. Isolates from a raccoon dog and a masked civet were antigenically similar to canine parvovirus-2a but had a substitution of VP2 residue G300S.     

The VP1 N-terminal sequence of canine parvovirus affects nuclear transport of capsids and efficient cell infection.

The unique N-terminal region of the parvovirus VP1 capsid protein is required for infectivity by the capsids but is not required for capsid assembly. The VP1 N terminus contains a number of groups of basic amino acids which resemble classical nuclear localization sequences, including a conserved sequence near the N terminus comprised of four basic amino acids, which in a peptide can act to transport other proteins into the cell nucleus. Testing with a monoclonal antibody recognizing residues 2 to 13 of VP1 (anti-VP1-2-13) and with a rabbit polyclonal serum against the entire VP1 unique region showed that the VP1 unique region was not exposed on purified capsids but that it became exposed after treatment of the capsids with heat (55 to 75 degrees C), or urea (3 to 5 M). A high concentration of anti-VP1-2-13 neutralized canine parvovirus (CPV) when it was incubated with the virus prior to inoculation of cells. Both antibodies blocked infection when injected into cells prior to virus inoculation, but neither prevented infection by coinjected infectious plasmid DNA. The VP1 unique region could be detected 4 and 8 h after the virus capsids were injected into cells, and that sequence exposure appeared to be correlated with nuclear transport of the capsids. To examine the role of the VP1 N terminus in infection, we altered that sequence in CPV, and some of those changes made the capsids inefficient at cell infection.     

Isolation and identification of canine parvovirus serotype 2a and its VP2 protein expression in transgenic tobacco

A strain of canine parvovirus (CPV) was isolated from feces of an ill puppy in an animal hospital in Wuhan, China. It was designated as CPV/WH02/06. This isolate was identified as serotype CPV-2a by the hemagglutination test, CPV Ag detection strip, electron microscopy, and PCR. The vp2 gene was cloned and sequenced and assigned GenBank accession number EU377537. A 1242 bp segment of the 5' region of the vp2 gene was cloned and inserted into the binary vector pBI121 and used for Agrobacterium-mediated tobacco transformation. Transgenic tobacco plants were selected on MS medium supplemented with 100 μg/mL kanamycin and 100 μg/mL timentin. Integration of the vp2 gene into the tobacco genome was confirmed by PCR using T1 progeny plants, and the expression of the VP2 protein was confirmed by Western blotting.     

犬细小病毒VP2基因的克隆及其在毕赤酵母中的表达

目的表达犬细小病毒VP2蛋白（CPVVP2）,用于犬细小病毒病的诊断、疫苗研制和VP2蛋白功能研究。方法采用PCR方法对CPVVP2基因进行扩增,将CPVVP2基因克隆到毕赤酵母（Pichiapastoris）分泌表达载体pPICZαA中,构建真核重组表达载体pPICZαA—VP2,将该重组质粒线性化后,转化毕赤酵母菌GS115中,在甲醇诱导下表达CPVVP2,SDS-PAGE和Western blotting鉴定表达蛋白。结果成功扩增了CPVVP2基因,构建了真核重组表达载体pPICZαA-VP2在毕赤酵母菌中表达出约64．35kD蛋白。Western blotting鉴定表明,表达VP2蛋白与犬细小病毒阳性血清有反应性。结论在毕赤酵母中成功地表达了CPVVP2蛋白,能被犬细小病毒阳性血清识别。