The relationship between capsid protein (VP2) sequence and pathogenicity of Aleutian mink disease parvovirus (ADV): a possible role for raccoons in the transmission of ADV infections.

Aleutian mink disease parvovirus (ADV) DNA was identified by PCR in samples from mink and raccoons on commercial ranches during an outbreak of Aleutian disease (AD). Comparison of DNA sequences of the hypervariable portion of VP2, the major capsid protein of ADV, indicated that both mink and raccoons were infected by a new isolate of ADV, designated ADV-TR. Because the capsid proteins of other parvoviruses play a prominent role in the determination of viral pathogenicity and host range, we decided to examine the relationship between the capsid protein sequences and pathogenicity of ADV. Comparison of the ADV-TR hypervariable region sequence with sequences of other isolates of ADV revealed that ADV-TR was 94 to 100% related to the nonpathogenic type 1 ADV-G at both the DNA and amino acid levels but less than 90% related to other pathogenic ADVs like the type 2 ADV-Utah, the type 3 ADV-ZK8, or ADV-Pullman. This finding indicated that a virus with a type 1 hypervariable region could be pathogenic. To perform a more comprehensive analysis, the complete VP2 sequence of ADV-TR was obtained and compared with that of the 647-amino-acid VP2 of ADV-G and the corresponding VP2 sequences of the pathogenic ADV-Utah, ADV-Pullman, and ADV-ZK8. Although the hypervariable region amino acid sequence of ADV-TR was identical to that of ADV-G, there were 12 amino acid differences between ADV-G and ADV-TR. Each of these differences was at a position where other pathogenic isolates also differed from ADV-G. Thus, although ADV-TR had the hypervariable sequence of the nonpathogenic type 1 ADV-G, the remainder of the VP2 sequence resembled sequences of other pathogenic ADVs. Under experimental conditions, ADV-TR and ADV-Utah were highly pathogenic and induced typical AD in trios of both Aleutian and non-Aleutian mink, whereas ADV-Pullman was pathogenic only for Aleutian mink and ADV-G was noninfectious. Trios of raccoons experimentally inoculated with ADV-TR and ADV-Utah all became infected with ADV, but only a single ADV-Pullman-inoculated raccoon showed evidence of infection. Furthermore, none of the ADV isolates induced pathological findings of AD in raccoons. Finally, when a preparation of ADV-TR prepared from infected raccoon lymph nodes was inoculated into mink and raccoons, typical AD was induced in Aleutian and non-Aleutian mink, but raccoons failed to show serological or pathological evidence of infection. These results indicated that raccoons can become infected with ADV and may have a role in the transmission of virus to mink but that raccoon-to-raccoon transmission of ADV is unlikely.     

鸡传染性贫血病毒VP3蛋白单克隆抗体的制备

以原核表达的鸡传染性贫血病毒(CIAV)VP3蛋白作为免疫原,免疫BALB/c小鼠,三次免疫后,取免疫小鼠脾细胞与SP2/0细胞融合,融合阳性细胞用间接ELISA方法检测,阳性细胞株经三代克隆纯化后,获得三株能稳定分泌抗CIAV VP3蛋白单克隆抗体的杂交瘤细胞株,分别命名为AG2、BC11、FG1。三株杂交瘤细胞株产生的细胞培养液上清和小鼠腹水的ELISA效价分别为2.5ⅹ102、1.5ⅹ102、1ⅹ102和2ⅹ106、1ⅹ106、2.5ⅹ105。与其它禽类病毒的交叉实验表明：这三株单抗具有良好的抗CIAV VP3蛋白特异性。该特异性单克隆抗体的研制成功为进一步研究VP3的生物学特性打下了基础。     

Phylogenetic relationships of aquatic birnaviruses based on deduced amino acid sequences of genome segment A cDNA.

Aquatic birnaviruses, such as infectious pancreatic necrosis virus (IPNV), cause serious diseases in a variety of fish species used worldwide in aquaculture and have also been isolated from a variety of healthy fish and shellfish species. These viruses exhibit a high degree of antigenic heterogeneity and variation in biological properties such as pathogenicity, host range, and temperature of replication. To better understand genetic and biological diversity among these viruses, the nucleotide and deduced amino acid sequences were determined from cDNA of the large open reading frame (ORF) of genome segment A of the 9 type strains of Serogroup A and 4 other representative strains of Serotype A1, the predominant serotype in the United States. In addition, nucleotide and deduced amino acid sequences were determined for the VP2 coding region of a variety of isolates representing 5 of the 9 serotypes. VP2 is the major outer capsid protein of aquatic birnaviruses. RT-PCR was used to amplify a 2904 bp cDNA fragment including all but a few bp of the large ORF of genome segment A or a 1611 bp fragment representing the entire VP2 coding region. Nucleotide and deduced amino acid sequences were determined from the PCR products. Pairwise comparisons were made among our data and 2 other aquatic birnavirus sequences previously published. Several hypervariable regions were identified within the large ORF. The most divergent pair of viruses exhibited a similarity of 80.1% in the deduced amino acid sequence encoded by the large ORF. Genomic relationships revealed in a phylogenetic tree constructed from comparison of the deduced amino acid sequences of the large ORF demonstrated that these viruses were clustered into several genogroups. Phylogenetic comparison of the deduced amino acid sequences of the VP2 coding region of 28 aquatic birnavirus isolates, including the type strains of all 9 serotypes, demonstrated 6 genogroups, some of which were comprised of several genotypes. The most divergent pair of viruses exhibited a similarity of 81.2% in the deduced amino acid sequence from the VP2 coding region. In contrast to previous studies of much shorter genomic sequences within the C-terminus-pVP2/NS junction coding region, these genogroups based on the entire large ORF or the VP2 coding region generally correlated with geographical origin and serological classification. Isolates from the major Canadian serotypes were more closely related to the European isolates than to isolates from the United States.     

Comparison of the major antigenic determinants of different serotypes of foot-and-mouth disease virus.

Complete nucleotide sequences which code for the capsid protein VP1 of two foot-and-mouth disease virus serotypes, O1Campos/Brazil/58 and C3Indaial/Brazil/71, have been determined. Ten available VP1 sequences (three serotype O, three serotype C, and four serotype A) were aligned and compared. Our evidence suggests that O1BFS/Britain/68 and O1K/Germany/66 are closely related to O1Campos/Brazil/58. Significant variations were observed between the nucleotide sequences of C3Indaial determined by two different laboratories. These differences are probably the result of virus adaptation and propagation in different laboratories. In one of the isolates (C3Biogen), a 13-base-pair stem and 13-base-pair loop structure is located in the 134-158 amino acid variable region. Isolates of different serotypes differ at two highly variable regions, amino acid positions 42-60 and 134-158, but isolates of the same serotype show major differences only in the variable region between amino acids 134 and 158. Since the remaining amino acid sequence of VP1 is highly conserved, we conclude that the 134-158 amino acid variable region is involved in subtype specificity, whereas both variable regions contribute to serotype differences.     

VP2 gene based phylogenetic relationship of Indian isolates of Bluetongue virus serotype 1 and other serotypes from different parts of the world.

Bluetongue virus (BTV), a member of genus Orbivirus, family Reoviridae, is non-enveloped with double shelled structure and 10 segmented double stranded RNA genome. The RNA segment L2 encodes an outer capsid serotype specific viral protein VP2. BTV serotype 1 (BTV-1) specific novel primer pair, forward primer (1240-1271 bp) and reverse primer (1844-1813 bp), was designed using VP2 gene sequences available in GenBank to amplify 1240-1844 bp region because two hypervariable and three conserved regions have been reported within these 604 nucleotides. This primer pair successfully amplified cell culture adapted six Indian isolates of BTV-1. The 604 bp PCR product of VP2 gene of BTV-1 Avikanagar (A), Chennai (C) and Sirsa 3 (S3) Indian isolates were cloned in pPCR-Script Amp SK (+) vector and transformed into XL10-Gold Kan ultracompetent Epicurian coli cells. The positive clones selected by blue-white screening and colony touch PCR were sequenced. BTV-1A, C and S3 isolates revealed 99% nucleotide sequence identity within 1304-1844 bp region of VP2 gene. The partial VP2 gene sequences (1240-1844 bp region) revealed that BTV-1 Indian isolates were 89% identical with Australian (AUS) BTV-1 isolates while the identity with South African (SA) BTV-1 isolate was 75%. Phylogenetically, three BTV-1 Indian isolates formed one group which is closely related to BTV-1AUS isolates followed by BTV-1SA, BTV-2, 9, 23, 13, 17, 10 and 11 isolates from different parts of world. Based on partial VP2 gene sequences, it is concluded that Indian isolates of BTV-1 are closely related to BTV-1AUS isolates than BTV-1SA and other serotypes.     

Hepatitis A Virus Capsid Protein VP1 Has a Heterogeneous C Terminus

Hepatitis A virus (HAV) encodes a single polyprotein which is posttranslationally processed into the functional structural and nonstructural proteins. Only one protease, viral protease 3C, has been implicated in the nine protein scissions. Processing of the capsid protein precursor region generates a unique intermediate, PX (VP1-2A), which accumulates in infected cells and is assumed to serve as precursor to VP1 found in virions, although the details of this reaction have not been determined. Coexpression in transfected cells of a variety of P1 precursor proteins with viral protease 3C demonstrated efficient production of PX, as well as VP0 and VP3; however, no mature VP1 protein was detected. To identify the C-terminal amino acid residue of HAV VP1, we performed peptide sequence analysis by protease-catalyzed [18O]H2O incorporation followed by liquid chromatography ion-trap microspray tandem mass spectrometry of HAV VP1 isolated from purified virions. Two different cell culture-adapted isolates of HAV, strains HM175pE and HM175p35, were used for these analyses. VP1 preparations from both virus isolates contained heterogeneous C termini. The predominant C-terminal amino acid in both virus preparations was VP1-Ser274, which is located N terminal to a methionine residue in VP1-2A. In addition, the analysis of HM175pE recovered smaller amounts of amino acids VP1-Glu273 and VP1-Thr272. In the case of HM175p35, which contains valine at amino acid position VP1-273, VP1-Thr272 was found in addition to VP1-Ser274. The data suggest that HAV 3C is not the protease responsible for generation of the VP1 C terminus. We propose the involvement of host cell protease(s) in the production of HAV VP1.     

A single amino acid change determines persistence of a chimeric Theiler's virus.

The DA strain of Theiler's virus persists in the central nervous system of mice and causes chronic inflammation and demyelination. On the other hand, the GDVII strain causes an acute encephalitis and does not persist in surviving animals. Series of recombinants between infectious cDNA clones of the genomes of DA and GDVII viruses have been constructed. The analysis of the phenotypes of the recombinant viruses has shown that determinants of persistence and demyelination are present in the capsid proteins of DA virus. Chimeric viruses constructed by the different research groups gave consistent results, with one exception. Chimeras GD1B-2A/DAFL3 and GD1B-2C/DAFL3, which contain part of capsid protein VP2, capsid proteins VP3 and VP1, and different portions of P2 of GDVII in a DA background, were able to persist and cause demyelination. Chimera R4, whose genetic map is identical to that of GD1B-2A/DAFL3, was not. After exchanging the viral chimeras between laboratories and verifying each other's observations, new chimeras were generated in order to explain this difference. Here we report that the discrepancy can be attributed to a single amino acid difference in the sequence of the capsid protein VP2 of the two parental DA strains. DAFL3 (University of Chicago) and the chimeras derived from it, GD1B-2A/DAFL3 and GD1B-2C/DAFL3, contain a Lys at position 141, while TMDA (Institut Pasteur) and R4, the chimera derived from it, contain an Asn in that position. This amino acid is located at the tip of the EF loop, on the rim of the depression spanning the twofold axis of the capsid. These results show that a single amino acid change can confer the ability to persist and demyelinate to a chimeric Theiler's virus, and they pinpoint a region of the viral capsid that is important for this phenotype.     

Serotype and VP1 gene sequence of a foot-and-mouth disease virus from Hong Kong (2002)

The nucleotide sequence of the VP1 coding region of foot-and-mouth disease virus (FMDV) strain HKN/2002, isolated from a disease outbreak occurring in Hong Kong in February 2002, was determined and compared with the sequences of other FMDVs. The VP1 coding region was 639 nucleotides in length and encoded a protein of 213 amino acid residues. Comparison of the VP1 nucleotide sequence with those of other isolates indicated that HKN/2002 belonged to serotype O. A VP1-based sequence similarity tree of several South-east Asian FMDV-O isolates showed that HKN/2002 was most closely related to FMDV isolates found in Hong Kong from 1991 to 1999 and Taiwan in 1997. Comparison of the amino acid sequence of the major immunogenic region of HKN/2002 with that of the serotype O vaccine strain, O1/Manisa/Turkey/69, reveals significant similarity, indicating that current serotype O vaccines may offer some degree of protection against HKN/2002.     

Evidence for a functional interaction between the V1/V2 and C4 domains of human immunodeficiency virus type 1 envelope glycoprotein gp120.

The domains of the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein that are required for envelope function have been partially characterized. Little is known, however, about the nature of the interactions between these domains. To identify regions of the HIV-1 envelope glycoprotein that are involved in interactions necessary for proper envelope function, we constructed a series of 14 envelope recombinants between the env genes of two HIV-1 isolates. The envelope chimeras were examined for their ability to induce syncytia, to be proteolytically processed, and to function during a spreading viral infection. Our results demonstrate that the exchange between the two isolates of the first and second hypervariable regions (V1/V2) of gp120 results in defects in envelope glycoprotein processing, syncytium formation, and infectivity. Long-term passage of cultures infected with virus bearing a V1/V2 chimeric envelope glycoprotein leads to the emergence of a revertant virus with replication characteristics comparable to those of the wild type. Analysis of the revertant indicated that an Ile-->Met change in the C4 region of gp120 (between hypervariable regions V4 and V5) is responsible for the revertant phenotype. This single amino acid change restores infectivity without significantly affecting gp160 processing, CD4 binding, or the levels of virion-associated gp120. While the Ile-->Met change in C4 greatly enhances the fusogenic potential of the V1/V2 chimeric envelope glycoprotein, it has a detrimental effect on syncytium formation when analyzed in the context of the wild-type envelope. These results suggest that an interaction required for proper envelope glycoprotein function occurs between the V1/V2 and C4 regions of gp120.     

Genomic typing of hepatitis C viruses present in China.

Hepatitis C virus (HCV) genomic clones were obtained from the serum of Chinese HCV carriers using a polymerase chain reaction-based approach. Consensus sequences were derived from (1) the structural region (nt 1-1543) for one carrier, (2) the hypervariable region V (nt 1156-1233) from four carriers and (3) region V3 from four carriers. Region V3, located in the nonstructural domain NS5 (nt 7066-7137), has been previously shown to be a particularly good marker for the genomic typing of HCV isolates [Inchauspe et al., Proc. Natl. Acad. Sci. USA 88 (1991) 10292-10296]. Comparison of these sequences with sequences from geographically distinct HCV isolates indicates that Chinese HCV strains are closely related to, though distinguishable from, Japanese prototype strains. One amino acid motif, GGAA, located in region V, was found to be conserved only among Chinese isolates. This may define a new subgroup among HCV isolates.     

Mapping the hemagglutination domain of rotaviruses.

Most strains of animal rotaviruses are able to agglutinate erythrocytes, and the surface protein VP4 is the virus hemagglutinin. To map the hemagglutination domain on VP4 while preserving the conformation of the protein, we constructed full-length chimeras between the VP4 genes of hemagglutinating (YM) and nonhemagglutinating (KU) rotavirus strains. The parental and chimeric genes were expressed in insect cells, and the recombinant VP4 proteins were evaluated for their capacity to agglutinate human type O erythrocytes. Three chimeric genes, encoding amino acids 1 to 208 (QKU), 93 to 208 (QC), and 93 to 776 (QYM) of the YM VP4 protein in a KU VP4 background, were constructed. YM VP4 and chimeras QKU and QC were shown to specifically hemagglutinate, indicating that the region between amino acids 93 and 208 of YM VP4 is sufficient to determine the hemagglutination activity of the protein.     

Restriction analysis of conserved and variable regions of VP2 gene of Indian isolates of bluetongue virus serotype 1

Bluetongue virus (BTV) is a member of Orbivirus genus in family Reoviridae. The virus genome is composed of 10 double-stranded RNA segments. The RNA segment L2 encodes an outer capsid viral protein VP2, which is the main determinant of neutralization and serotype-specific immune response. BTV serotype 1 (BTV-1) specific novel primer pair was designed using VP2 gene sequences available in GenBank to amplify 1240-1844 bp region because two hypervariable and three conserved regions have been reported within these 604 nucleotides. This primer pair successfully amplified cell culture adapted six Indian isolates of BTV-1 from different geographical regions of the country. The 604 bp PCR product of VP2 gene of all six BTV-1 yielded two fragments of 273 and 331 bp when digested with Taq1 restriction enzyme. This indicated that there is only one TaqI site at 1513 bp (within 1240-1844 bp region) of VP2 gene of BTV-1 Indian isolates. The in silico restriction analysis revealed that in BTV-1 South African isolate (BTV-1SA) there is no TaqI site while in BTV-1 Australian isolates (BTV-1AUS), there are two TaqI sites (at 1513 and 1567 bp) within 1240-1844 bp region of VP2 gene. The earlier reported VP2 gene based primer pair for BTV-1 was used in the present study to amplify 2242-2933 bp region of six BTV-1 Indian isolates as three conserved regions have been reported within these 691 nucleotides. The digestion of 691 bp PCR products with XmnI yielded three fragments of 364, 173 and 154 bp with all the six Indian isolates of BTV-1 suggesting that there are two XmnI sites within 2242-2933 bp region of VP2 gene. A single XmnI site was observed in silico in BTV-1AUS and BTV-1SA isolates at different positions within this region. The in vitro and in silico restriction profile analyses of partial VP2 gene sequences using TaqI and XmnI restriction enzymes indicated a close relationship of Indian isolates of BTV-1 with BTV-1AUS isolates but not with BTV-1SA isolate.     

Evolution of the capsid protein genes of foot-and-mouth disease virus: antigenic variation without accumulation of amino acid substitutions over six decades.

The genetic diversification of foot-and-mouth disease virus (FMDV) of serotype C over a 6-decade period was studied by comparing nucleotide sequences of the capsid protein-coding regions of viruses isolated in Europe, South America, and The Philippines. Phylogenetic trees were derived for VP1 and P1 (VP1, VP2, VP3, and VP4) RNAs by using the least-squares method. Confidence intervals of the derived phylogeny (significance levels of nodes and standard deviations of branch lengths) were placed by application of the bootstrap resampling method. These procedures defined six highly significant major evolutionary lineages and a complex network of sublines for the isolates from South America. In contrast, European isolates are considerably more homogeneous, probably because of the vaccine origin of several of them. The phylogenetic analysis suggests that FMDV CGC Ger/26 (one of the earliest FMDV isolates available) belonged to an evolutionary line which is now apparently extinct. Attempts to date the origin (ancestor) of the FMDVs analyzed met with considerable uncertainty, mainly owing to the stasis noted in European viruses. Remarkably, the evolution of the capsid genes of FMDV was essentially associated with linear accumulation of silent mutations but continuous accumulation of amino acid substitutions was not observed. Thus, the antigenic variation attained by FMDV type C over 6 decades was due to fluctuations among limited combinations of amino acid residues without net accumulation of amino acid replacements over time.     

Serial recombination during circulation of type 1 wild-vaccine recombinant polioviruses in China

Type 1 wild-vaccine recombinant polioviruses sharing a 367-nucleotide (nt) block of Sabin 1-derived sequence spanning the VP1 and 2A genes circulated widely in China from 1991 to 1993. We surveyed the sequence relationships among 34 wild-vaccine recombinants by comparing six genomic intervals: the conserved 5'-untranslated region (5'-UTR) (nt 186 to 639), the hypervariable portion of the 5'-UTR (nt 640 to 742), the VP4 and partial VP2 genes (nt 743 to 1176), the VP1 gene (nt 2480 to 3385), the 2A gene (nt 3386 to 3832), and the partial 3D gene (nt 6011 to 6544). The 5'-UTR, capsid (VP4-VP2 and VP1), and 2A sequence intervals had similar phylogenies. By contrast, the partial 3D sequences could be distributed into five divergent genetic classes. Most (25 of 34) of the wild-vaccine recombinant isolates showed no evidence of additional recombination beyond the initial wild-Sabin recombination event. Eight isolates from 1992 to 1993, however, appear to be derived from three independent additional recombination events, and one 1993 isolate was derived from two consecutive events. Complete genomic sequences of a representative isolate for each 3D sequence class demonstrated that these exchanges had occurred in the 2B, 2C, and 3D genes. The 3D gene sequences were not closely related to those of the Sabin strains or 53 diverse contemporary wild poliovirus isolates from China, but all were related to the 3D genes of species C enteroviruses. The appearance within approximately 2.5 years of five recombinant classes derived from a single ancestral infection illustrates the rapid emergence of new recombinants among circulating wild polioviruses.     

中华蜜蜂囊状幼虫病毒北京分离株VP1蛋白基因序列特征及原核表达

【目的】研究中华蜜蜂囊状幼虫病毒（Chinese sacbrood virus, CSBV）VP1蛋白的分子进化特征及遗传多样性。【方法】利用RT-PCR方法,克隆了8株CSBV北京分离株VP1蛋白的基因编码区。【结果】序列分析表明,VP1蛋白基因编码区开放阅读框长945 bp,编码315个氨基酸,推测编码蛋白的相对分子量和等电点分别为35.42 kDa和9.23,具有亲水性和免疫原性。序列同源性分析表明,不同年份CSBV北京分离株VP1蛋白氨基酸序列间差异较小,仅个别氨基酸存在差异。北京分离株与辽宁分离株及越南分离株VP1核苷酸序列一致性达93%,与印度及韩国分离株VP1核苷酸序列一致性达92%,与英国分离株VP1核苷酸序列一致性最低,为88%。序列分析同时表明,CSBV北京分离株VP1蛋白序列存在特有的序列特征,同其他地区分离株比较,北京分离株VP1蛋白序列中存在着氨基酸的插入突变。序列替换率分析表明,亚洲型分离株间序列替换率低于亚洲分离株与欧洲分离株间的替换率。构建原核表达载体pEASY-E1-VP1,经IPTG诱导,CSBV VP1蛋白在大肠杆菌Escherichia coli BL21（DE3）pLysS菌株中表达。【结论】本研究提示CSBV不同分离株基因序列存在变异,结果为进一步研究CSBV致病性分化的分子机理奠定了基础。     

The Staphylococcus aureus mec determinant comprises an unusual cluster of direct repeats and codes for a gene product similar to the Escherichia coli sn-glycerophosphoryl diester phosphodiesterase.

The DNA sequence located between mecA, the gene that codes for penicillin-binding protein PBP2', and insertion sequence-like element IS431mec has been termed hypervariable because of its length polymorphism among different staphylococcal isolates. We sequenced and characterized the hypervariable region of the methicillin resistance determinant (mec) isolated from Staphylococcus aureus BB270. Within the 2,040-bp hypervariable region, we identified an unusual accumulation of long direct repeats. Analysis of the DNA sequence revealed a minimal direct repeat unit (dru) of 40 bp which was repeated 10 times within 500 bp. The dru sequences are responsible for the length polymorphism of mec. Moreover, we identified an open reading frame that codes for 145 amino acids (ORF145), whose deduced amino acid sequence showed 57% amino acid sequence similarity to the N terminus of the glycerophosphoryl diester phosphodiesterase (UgpQ) of Escherichia coli.     

传染性法氏囊病毒的抗原及分子特征

用鸡胚成纤维细胞对来自野外的 5 个传染性法氏囊病毒株 (IBDV-JD1 、 JD2 、 NB 、 HZ1 、 HZ2) 进行分离,测定理化特性、致病性,同时进行血清亚型测定及 A 片段基因组的克隆分析 . 试验所用 5 个法氏囊组织悬液在鸡胚成纤维细胞盲传 2~14 代后适应细胞并产生细胞病变 . 细胞适应的 IBDV 毒株的理化和形态特征与经典传染性法氏囊病毒株一致 . 除 IBDV-HZ1 、 HZ2 属经典 IBDV 血清型外, IBDV-JD1 、 JD2 和 NB 毒株分属不同的血清亚型 . 人工感染实验结果显示,分离的 IBDV 毒株产生与野外病例相似的临床症状和病变,出现法氏囊滤泡髓质的淋巴细胞变性、坏死和消失 . 基因组序列分析显示, IBDV-NB 毒株 A 片段由 3 264 个核苷酸组成,编码由 145 个氨基酸残基组成的 VP5 和由 1 012 个氨基酸残基组成的多聚蛋白 . 与来自 GenBank 的 IBDV Ⅰ型毒株比较, NB 毒株 A 片段编码的多聚蛋白与 JD1 毒株的同源性最高,达 99.5% , VP2 与 JD1 、 CEF94 、 D78 的同源性为 99.8% , VP3 与 JD1 的同源性为 99.2% , VP4 与 JD1 的同源性为 100% , VP5 与 JD1 , HZ2 , P2 , CEF94 , CT , Cu-1 和 D78 毒株的同源性为 99.3%. NB 毒株 VP2 蛋白的第 253 、 280 、 284 位氨基酸残基与 IBDV 变异毒株和经典毒株一致,但不同于 IBDV 超强毒株 . 这些结果暗示 IBDV 的抗原表位是构象依赖性表位, IBDV 血清亚型的形成与 IBDV 弱毒疫苗病毒株密切相关 .     

Insertion of a 27 amino acid viral peptide in different zones of Escherichia coliβ-galactosidase: Effects on the enzyme activity

Abstract Seven internal, putatively exposed regions of Escherichia coli β-galactosidase have been explored regarding their tolerance to insertions of large foreign peptides. Small sequence modifications, including amino acid substitutions and small deletions, were introduced into the lacZ gene to generate unique Bam HI restriction sites. By using these mutant genes, a 27 amino acid stretch reproducing the hypervariable loop of foot-and-mouth disease virus VP1 protein (site A) was further inserted in predefined regions of the enzyme. Among the 13 resulting engineered proteins only three, carrying sequence modifications within a short region, are active, with only moderate reduction of their specific activities. The identified permissive region, which involves amino acids 275 to 279, seems to be a flexible area that could be appropriate incorporate and study biological properties of heterologous peptides in correctly folded β-galactosidase chimeric proteins.     

Identification of a Novel Enterovirus E Isolates HY12 from Cattle with Severe Respiratory and Enteric Diseases

In this study, a virus strain designated as HY12 was isolated from cattle with a disease of high morbidity and mortality in Jilin province. Biological and physiochemical properties showed that HY12 isolates is cytopathic with an extremely high infectivity. HY12 is resistant to treatment of organic solvent and acid, and unstable at 60°C for 1 h. Electron microscopy observation revealed the virus is an approximately 22–28 nm in diameter. The complete genome sequence of HY12 consists of 7416 nucleotides, with a typical picornavirus genome organization including a 5′-untranslated region (UTR), a large single ORF encoding a polyprotein of 2176 amino acids, and a 3′-UTR. Phylogenetic analysis clustered HY12 isolates to a new serotype/genotype within the clade of enterovirus E (formerly BEV-A). Alignment analysis revealed a unique insertion of 2 amino acid residues (NF) at the C-terminal of VP1 protein between aa 825 and 826, and several rare mutations in VP1 and VP4 of HY12 isolates in relation to known bovine enterovirus (BEV) strains. This is the first report of an enterovirus E in China, which is potentially associated with an outbreak in cattle with severe respiratory and enteric diseases.