不同动物源脑心肌炎病毒的分离、鉴定和全基因组序列分析

为研究脑心肌炎病毒（encephalomyocarditis virus,EMCV）对不同动物宿主的感染情况。本试验应用改进的＂细胞接种与RT-PCR方法相结合＂技术,成功分离到国内首株地方土猪源EMCV、首株家养野猪源EMCV、1株鼠源EMCV和3株良种猪源EMCV,并进行了全基因组序列测定和分析。结果显示,6株EMCV分离毒的基因组全长从7 724~7 735bp不等,ORF长度均为6 879bp,彼此间核苷酸同源性为99.3%~99.8%,与其他不同动物源EMCV参考毒株的同源性为79.9%~99.9%,与国内猪源、鼠源分离毒的同源性均在99.4%以上;各基因片段中,以VP1和2A变异幅度最大,VP2和3D最为保守;基于EMCV全基因组、ORF和VP1基因序列绘制的系统发育进化树显示,EMCV可分为G1、G2和G3 3个群,猪源EMCV主要分布在G1、G2群,鼠源EMCV在G1、G3群中均有分布;6株EMCV分离毒与其他国内参考毒株同属于G1群,但分布并不完全集中。结果表明,地方土猪和家养野猪可感染EMCV并引起发病,提醒在进行地方品种养殖和野生动物家养时要充分考虑人兽共患疫病传播的生态学;鼠在良种猪、家养野猪和地方土猪EMCV之间的交叉感染、传播与流行中起到重要媒介作用;不同EMCV地方流行株间存在较大的地域差异,其传播具有一定的区域限制性;EMCV在感染不同动物时可能会发生某些突变,以适应新的宿主。     

Molecular characterization of unusual bovine group A rotavirus G8P[14] strains identified in western India: emergence of P[14] genotype

A total of 78 fecal specimens were collected from both apparently healthy (n=71) and diarrheic (n=7) cattle from an organized farm in Pune, western India in December 2007-January 2008. Three specimens tested positive for group A rotavirus (RV) by antigen capture ELISA were subjected to RT-PCR for amplification of entire coding regions of three structural (VP4, VP6 and VP7) and one nonstructural (NSP4) genes. All three strains were genotyped as G8P[14]. Phylogenetic analysis of the VP7 and VP4 genes showed clustering of the VP7 gene with G8 strains of bovine origin and VP4 gene with P[14] strains of human origin. The identification of VP6 and NSP4 genes to have I2 (subgroup I) and E2 (genotype A) specificity, respectively of bovine and human origin indicated independent segregation of genes in bovine RV strains. This study indicates circulation of a rare RV genotype, G8P[14] in western India. To our knowledge, this is the second report on RV G8[14] isolated from bovine species after bovine group A RV strain, SUN9 from Japan.     

Reassortment among bovine, porcine and human rotavirus strains results in G8P[7] and G6P[7] strains isolated from cattle in South Korea

Group A rotaviruses (GARVs) cause severe acute gastroenteritis in children and young animals. Although zoonotic infections with bovine-like G6 and G8 GARVs have been reported in many countries, there is little evidence for reassortment between bovine GARVs and GARVs from heterologous species. The finding of bovine GARVs with the G6 and G8 genotypes in combination with the typical porcine P[7] prompted us to characterize all 11 genes of 30 bovine GARVs isolated from clinically infected calves. By the comparison of the full-length ORF of VP7 and NSP1-5, and the partial VP1-4 and VP6 nucleotide sequences between the 30 Korean and other known strains, three different genome constellations were found. Twenty seven strains showed the G8-P[7]-I5-R1-C1-M2-A1-N1-T1-E1-H1 genotypes, a single strain possessed the G6-P[7]-I2-R2-C1-M2-A1-N2-T1-E2-H1 genotype constellation and 2 strains the G6-P[7]-I2-R2-C2-M2-A3-N2-T6-E2-H3 genotype constellation. The complete genome of a single reference strains for each of these three genotype constellations (KJ25, KJ9-1 and KJ19-2) was determined and analyzed. A detailed phylogenetic analysis revealed a complicated picture, with several reassortments among bovine-like, porcine-like and human-like GARV strains, resulting in several different reassortant strains successfully infecting cattle.     

猪轮状病毒L1株VP7基因克隆及序列分析

根据GenBank已发表的猪轮状病毒VP7基因保守序列,设计特异性引物扩增猪轮状病毒L1株VP 7全基因序列并进行序列测定及分析。结果显示, L1株猪轮状病毒VP 7基因全长为1062 bp,包含一个982 bp的开放阅读框,编码326个氨基酸,与G5型参考毒株核苷酸同源性和推导的氨基酸同源性分别为88．8％～93．7％和93．3％～94．2％,系统进化树分析结果亦显示L1株与G5型参考毒株处于同一个群,由此确定L1株为G5型。与我国近几年流行的G9型毒株NMTL进行抗原表位分析结果显示,两个毒株在 aa25～aa29、aa86～aa102、aa142～aa152、aa211～aa226、aa263～aa286等区域存在明显差异,可能对其免疫保护性存在一定的影响。     

犊牛腹泻粪便样本中纽布病毒VP1和RNA依赖性RNA聚合酶基因的序列分析

纽布病毒（Nebovirus，NeV）是国内犊牛腹泻的新发病原，其VP1蛋白含有受体结合位点和中和抗原表位，与病毒的感染和免疫密切相关，本研究旨在分析VP1基因1.2型毒株的分子特征。采用RT-PCR方法，对2019年宁夏和河南的犊牛腹泻粪便样本进行NeV检测，扩增阳性样本完整的主要衣壳蛋白（VP1）和RNA依赖性RNA聚合酶（RdRp）。结果显示，宁夏和河南地区NeV检出率分别为11.32%和8.62%。从4个样本中成功获得了1.2型毒株完整VP1和RdRp序列。4个完整VP1与GenBank中73个完整VP1的氨基酸相似性为75.4%~97.8%；与GenBank中仅有的3个1.2型VP1相比，4个毒株在P2区有1个共同的氨基酸突变，在P1区有2个共同的氨基酸突变。与国内基因1.1型、1.3型和1.4型毒株相比，在P2区分别有9、18和14个共同的氨基酸突变，在P1区分别有2个共同的氨基酸突变，在S区分别有1个共同的氨基酸突变。4个完整RdRp均为NB-like基因型，与GenBank中8个完整RdRp的核苷酸相似性为67.2%~94.8%。本文首次在我国检测到VP1基因1.2型毒株，成功获得了4条基因1.2型毒株的完整VP1和RdRp序列，为国内NeV的分子流行病学和遗传进化研究等提供了参考。     

Prokaryotic Expression and Bioinformatics Analysis of VP2 Gene of Infectious Bursal Disease Virus C4 Strain

This study was aimed to investigate the relationship between the virulence characteristics of infectious bursal disease virus(IBDV) C4 strain and its VP2 amino acid sequence. The RNA of IBDV C4 strain was extracted,and its VP2 gene was amplified by RT-PCR.VP2 nucleotide sequences and deduced amino acids of different virulent IBDV strains were compared. At the same time, prokaryotic expression vector pET-32a(+) was used to express the VP2 gene. The expression of recombinant VP2 protein was detected by SDS-PAGE and Western blotting. The results showed that the VP2 gene of IBDV C4 strain belonged to the very virulent infectious bursal disease virus (vvIBDV) in evolutionary relationship, the VP2 nucleotides homology between IBDV C4 strain and other vvIBDV strains were 98.1% to 98.7%, and there were no mutations in S-W-S-A-S-G-S (326-332 amino acids) and 222(A), 256(I), 294(I) and 299(S). The VP2 amino acid sequence of IBDV C4 strain was consistent with the characteristics of other vvIBDV strains. However, there were three differences amino acids sites at 201(D/G), 281(G/R) and 313(V/A) between the amino acids of the C4 strain and the very virulent strain UK661. And the change of 281(R) was in the small hydrophilic region of 279 to 290, which was related to the antigenicity of the virus; The recombinant VP2 protein molecular weight expressed in Escherichia coli BL21 was about 67 ku. This study provided a basis for further research on antigenic changes resulting from amino acid variation of 201(G), 281 (R) and 313(A). These results indicated that the VP2 gene of the IBDV C4 strain was consistent with the major characteristics of the vvIBDV strain VP2 gene. The difference of three amino acid sites in the vvIBDV strain C4 might be related to the evolution of virulence of IBDV strain in China.     

传染性法氏囊病病毒C4毒株VP2基因的原核表达及生物信息学分析

试验旨在研究一株传染性法氏囊病病毒（IBDV）河南分离株的毒力特征及其与VP2氨基酸序列特征的关系。通过提取IBDV C4株RNA,利用RT-PCR扩增其VP2基因,与其他不同毒力IBDV毒株进行核苷酸及推导的氨基酸序列比对分析,同时使用pET-32a（+）原核表达载体表达VP2基因,用SDS-PAGE和Western blotting检测重组VP2蛋白的表达。结果显示,扩增的IBDV C4株的VP2基因序列在进化关系上属于超强毒力IBDV（vvIBDV）分类,与选取的vvIBDV毒株代表毒株核苷酸序列同源性在98.1%~98.7%之间,其七肽区为S-W-S-A-S-G-S（第326-332位氨基酸）符合超强毒株特征,且222（A）、256（I）、294（I）和299（S）位氨基酸与超强毒力毒株的4个特征性氨基酸一致;但IBDV C4毒株的VP2蛋白氨基酸序列与超强毒力毒株代表毒株UK661相比,201（D/G）、281（G/R）、313（V/A）位氨基酸不同,其中281位氨基酸的改变处于279-290的小亲水区内,与病毒抗原性有关;构建的pET-32a（+）-VP2原核表达载体在大肠杆菌BL21感受态细胞上表达出分子质量约67 ku的重组VP2蛋白,为进一步比较201（G）、281（R）、313（A）位氨基酸差异导致的抗原特性改变提供了研究基础。本试验结果表明,IBDV C4株VP2基因与vvIBDV毒株VP2基因的主要特性一致,但也有3处氨基酸与代表毒株UK661存在差异,这些改变可能与中国IBDV毒株毒力的进化有关。     

Genetic heterogeneity of wild-type G4P[6] porcine rotavirus strains detected in a diarrhea outbreak in a regularly vaccinated pig herd

Group A rotavirus (RV-A) with short electropherotype was identified by ss-PAGE in a neonatal diarrhea outbreak at a Brazilian pig farm where the sows were regularly vaccinated with a commercial vaccine containing OSU (G5P[7]) and Gottfried (G4P[6]) porcine RV-A (PoRV-A) strains. The ss-PAGE positive stool samples (n=20) were characterized as P[6] genotype by multiplex-nested-RT-PCR assay. The nucleotide analysis of the VP4 gene (VP8*) state that the viruses clustered in P[6] lineages that are also shared by RV-A strains identified in human hosts. Nucleotide analysis of the VP7 gene identified different lineages in G4 including a new lineage tentatively designated IX. The immunological pressure induced by commercial vaccine with a rotavirus containing a G4P[6] genotype of porcine origin (Gottfried strain) might have allowed the selection of PoRV-A strains with characteristics found in RV-A strains isolated of human hosts, such as P[6]-Ie and If, and promoted the selection or emergence of RV-A strains with a new lineage of the G4 genotype. The characterization of PoRV-A strains with unusual genotypes described in this study highlight the importance of surveys on the relationship between human and animal rotavirus strains.     

Phylogenetic analysis of porcine rotavirus in Argentina: increasing diversity of G4 strains and evidence of interspecies transmission

Group A rotaviruses are one of the most frequently detected viral agents associated with neonatal diarrhea in piglets. In order to characterize rotavirus (RV) strains circulating in Argentinean swine, four porcine production farms located in Buenos Aires were studied. RV strains genotyped as P[6]G4, P[6]G8 and P[1]G6 were found in piglets under 30 days of age, without diarrhea. Phylogenetic and sequence analysis of the VP7 gene from G4 strains available in databases, reveals five porcine new lineages (III-VII) and three sublineages (VIIa-VIIc). The G4 porcine Argentinean strains were grouped with a porcine RV strain isolated in Brazil and another RV strain isolated from a child with diarrhea in Mexico, constituting an American lineage (VII). On the other hand, porcine G6 and G8 were closely related to RV's circulating in Argentinean cattle and South-American camelids, respectively. The fact that G4 porcine lineages were epidemiologically related to human strains, and G6 and G8 Argentinean porcine strains were found related to bovine and South-American camelids, respectively, suggests that pigs might play a crucial role as reservoir and generator of newly adapted emerging RV strains for human and other species.     

传染性法氏囊病病毒超强毒HZ株和XN株VP2基因的克隆和序列比较

根据已发表的５２／７０株ＩＢＤＶ基因组序列,设计并合成了一对特异扩增ＩＢＤＶ ＶＰ２基因的引物。以陕西地区分离的ＩＢＤＶ野毒ＸＮ株,ＨＺ株为材料,以其基因组为模板利用ＲＴ－ＰＣＲ技术扩增出了１．５ｋｂ的ｃＤＮＡ产物,将ＶＰ２基因克隆于ＰＵＣ１１９质粒上,得到重组ＰＵＣ１１９质粒。     

Molecular characterization of equine rotaviruses circulating in Argentinean foals during a 17-year surveillance period (1992-2008)

P[12]G3 and P[12]G14 equine rotaviruses (ERVs) are epidemiologically important in horses. In Argentina, the prevalent ERV strains have been historically P[12]G3. The aim of this study was the detection and characterization of ERV strains circulating in foals in Argentina during a 17-year study (1992-2008). Additionally, the gene sequences of VP7, VP4 and NSP4 encoding genes of representative Argentinean ERV strains were determined and phylogenetic analyses were performed to elucidate the evolutionary relationships of the ERV strains in Argentina. ERVs were detected in 165 (21%) out of 771 diarrheic stool samples, which corresponded to 45 (39%) of 116 outbreaks from the surveyed thoroughbred horse farms. From the positive cases, 51% (n=23) were G3, 33% (n=15) were G14, 4% (n=2) represented a G3+G14 mixed infection and 11% (n=5) of the cases could not be characterized. G3 ERV was detected during the entire period, while G14 ERV was first detected in 2000 and increased its incidence specially in 2006 and 2007. All the analyzed strains belonged to the VP4 P[12] genotype, except for one G3 case which belonged to the P[3] genotype, constituting the first report of a P[3]G3 ERV strain. Phylogenetic analysis of VP7 protein revealed that the G3 Argentinean ERV strains clustered with ERVs from Ireland, while the G14 Argentinean ERV strains formed a distinct cluster within the G14 genotype. The VP4 of the P[12] ERV strains clustered with P[12] strains from Ireland and France. The NSP4 of the Argentinean ERV strains clustered with the NSP4 genotype E12, along with those of guanaco and bovine strains from Argentina, suggesting the a close evolutionary relationship among these Argentinean strains. The results of this study showed changes in the incidence of G3 and G14 during the studied period. The increase in the frequency of G14 ERV, not included in the vaccine, in the second half of the period, may have implications for vaccine design.     

Evidence for the porcine origin of equine rotavirus strain H-1

Equine group A rotavirus (RVA) strain H-1 (RVA/Horse-tc/GBR/H-1/1975/G5P9[7]) was found to have VP4, VP6-7, NSP1 and NSP4 genes of porcine origin. In order to obtain conclusive information on the exact origin and evolution of this unusual equine strain, the remaining six genes (VP1-3, NSP2-3 and NSP5 genes) of strain H-1 were analyzed in the present study. By whole genomic analysis, strain H-1 exhibited a porcine RVA-like genotype constellation (G5-P[7]-I5-R1-C1-M1-A8-N1-T1-E1-H1), different from those of typical equine RVA strains. The VP2-3 and NSP2-3 genes of strain H-1 were found to originate from porcine RVAs. On the other hand, it was difficult to pinpoint the exact origin of the VP1 and NSP5 genes of strain H-1, though phylogenetically, these genes appeared to be possibly derived from porcine or Wa-like human strains. Taken together, at least nine (VP2-4, VP6-7 and NSP1-4 genes) of the 11 gene segments of strain H-1 were found to be of porcine origin, revealing a porcine RVA-like genetic backbone. Therefore, strain H-1 is likely a porcine RVA strain that was transmitted to horses.     

Detection of group a rotavirus strains circulating in calves in Tunisia

Faecal samples were collected from 89 dairy calves to determine the prevalence of rotavirus infection in Tunisia and the genomic diversity of bovine rotavirus strains. After screening of all faecal samples by enzyme-linked immunosorbent assay, rotavirus strains were analysed by RNA polyacrylamide gel electrophoresis and characterized antigenically by monoclonal antibodies to the VP6 subgroup. The VP7 genotype was determined by nested RT-PCR. Of the 89 calves tested, 27 (30%) were positive for rotavirus antigen. Four different long electrophoretypes were identified. All VP6 typeable strains carried the subgroup I specificity. G8 genotype was the most prevalent, but G6 and mixed strains G(6 + 8) were also detected.     

Full-length genome analysis of G2, G9 and G11 porcine group A rotaviruses

Group A rotaviruses with G2 and G9 VP7 specificity are common in humans, while G11 strains have been detected only sporadically. G2, G9 and G11 rotaviruses also circulate in pigs and swine rotaviruses have been suspected of interspecies and zoonotic transmissions in numerous studies. However, the complete gene constellation of G2 and G9 porcine rotaviruses has not yet been determined. In order to start filling this gap, the genomic make up of two G2, one G9 and one G11 porcine rotavirus strains, detected in Canada in 2005–2007, was determined. With the exception of a G2P[34] strain, with E9 NSP4 type and mixed I5 + I14 VP6 type, the constellation of genomic segments was rather conserved and were closely related to prototype porcine strains in the four viruses characterized (I5-R1-C1-M1-A8-N1-T7-E1-H1). Most notably, all the viruses displayed a rare NSP3 genotype, T7, which has also been identified in rare human reassortant strains and in the reference strain RVA/Cow-tc/GBR/UK/1973/G6P[5]. This study provides crucial genetic data on these complex viruses and will help understand the origin and ecological niche of gene segments and the role played by pigs in their evolution.     

兔出血症病毒CD株衣壳蛋白(VP60)基因的克隆、核酸及氨基酸序列比较分析

以兔出血症病毒 CD株人工感染家兔 ,发病死亡后 ,取肝脏匀浆 ,用 Trizol试剂从匀浆上清中提取病毒 RNA。根据 Gen Bank已发表序列保守区设计并合成引物 ,采用 RT- PCR方法扩增了 RHDV衣壳蛋白 VP6 0基因。将所扩增片段克隆到 p MD18- T载体上 ,并进行了序列测定 ,测序结果表明 ,CD株 VP6 0基因全长 174 0 bp。该序列与已发表的其他分布于世界各地的 14株 RHDV序列进行了比较和基因进化树分析。无毒株与各强毒株之间的同源性为 85 .3%～86 .5 % ,强毒株间的同源性较高 ,为 92 .1%～ 10 0 %。根据进化树可把强毒株分为 2大群 ,一群为 CD株、Iowa2 0 0 0株、0 0 - 139株、99- 0 5株 ,其余的为另一群。进一步细分 ,还可以分为 4个亚群和 7个组。但毒株之间的地域性差异并不明显。同时根据 15株 RHDV VP6 0基因的核苷酸序列推导了其所编码的氨基酸序列 ,并进行氨基酸序列的比较和亲水性、柔性区、抗原性和表面结构的比较分析。结果显示 ,各毒株氨基酸之间的的同源性在 90 .5 %～ 10 0 %之间 ,其中无毒株与各强毒株之间的同源性为 90 .5 %～ 91.9% ,强毒株间的同源性在 95 %～ 10 0 %之间 ;氨基酸变异分析未发现突变造成的 VP6 0蛋白高级结构的根本性变化     

番鸭细小病毒和鹅细小病毒广东株VP1基因的克隆与序列分析

参考GenBank中的MDPV FM株和GPV B株全基因序列,设计并合成一对引物,分别对MDPV GD株和GPV GD株的结构蛋白基因(VP1)进行PCR扩增,并克隆到pMD18-T载体,筛选到重组质粒并测序.通过对MDPV GD株和GPVGD株的VP1基因的核苷酸序列分析,这两种病毒VP1基因大小均为2 199 bp,核苷酸序列同源性为87%,而位于VP1基因上的VP2至VP3基因起始密码子之间的核苷酸序列的差异较大,同源性仅为64%.另外对MDPV GD株和GPV GD株与各地方毒株的VP1和VP3基因核苷酸序列的同源性比较,显示它们之间差异较小.