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。     

传染性法氏囊病病毒BC6/85株全基因组克隆及其序列分析

以传染性法氏囊病病毒（IBDV）BC6／85株基因组RNA为模板,采用RT—PCR方法扩增并克隆了IBDVBC6／85株基因组全长eDNA。序列测定结果表明：A节段全长共3260个核苷酸,与IM株的同源性最高为97．4％,与其他血清I型毒株的核苷酸同源性介于91．2％～97．1％;B节段有2827个核苷酸,与IM株同源性最高为98．6％,与其他毒株的核苷酸同源性为88．7％～98．6％。通过对编码的氨基酸序列进行分析,发现BC6／85株有21个特有氨基酸,其中15个位于多聚蛋白VP2—4—3。系统进化树分析表明,BC6／85株与经典毒株、弱毒株和变异株的关系较近,而与超强毒株相对较远。     

传染性法氏囊病病毒NN1107广西株的分离鉴定及遗传进化分析

为研究从广西南宁市某鸡场疑似患传染性法氏囊病的鸡群中分离鉴定出的一株传染性法氏囊病病毒NN1107株的分子特征,通过反转录-聚合酶链反应特异扩增后进行克隆、序列分析。NN1107株VP2基因高变区(vVP2)的克隆测序和序列比较结果显示,序列符合超强毒传染性法氏囊病病毒(vvIBDV)的分子特征;其与广西vvIBDV毒株的核苷酸同源性在96%～99.6%之间。根据vVP2核苷酸序列同源性绘制的遗传进化树结果显示,NN1107株属于vvIBDV毒株群,与2004年、2005年、2007年和2010年流行毒株BH09、NNTZ(3)、NN07122、HP1001的亲缘关系最近,与疫苗株B87(in)、Bursine-2、FW2512株的亲缘关系较远。     

Molecular characterization and phylogenetic analysis of infectious bursal disease viruses isolated from chicken in South China in 2011

Infectious bursal disease virus (IBDV) is a double-stranded RNA virus that causes immunosuppressive disease in young chickens. Thousands of cases of IBDV infection are reported each year in South China, and these infections can result in considerable economic losses to the poultry industry. To monitor variations of the virus during the outbreaks, 30 IBDVs were identified from vaccinated chicken flocks from nine provinces in South China in 2011. VP2 fragments from different virus strains were sequenced and analyzed by comparison with the published sequences of IBDV strains from China and around the world. Phylogenetic analysis of hypervariable regions of the VP2 (vVP2) gene showed that 29 of the isolates were very virulent (vv) IBDVs, and were closely related to vvIBDV strains from Europe and Asia. Alignment analysis of the deduced amino acid (aa) sequences of vVP2 showed the 29 vv isolates had high uniformity, indicated low variability and slow evolution of the virus. The non-vvIBDV isolate JX2-11 was associated with higher than expected mortality, and had high deduced aa sequence similarity (99.2 %) with the attenuated vaccine strain B87 (BJ). The present study has demonstrated the continued circulation of IBDV strains in South China, and emphasizes the importance of reinforcing IBDV surveillance.     

传染性法氏囊病病毒自然重配株全基因组序列分析

从具有新的流行病学特征的传染性法氏囊病（IBD）发病鸡群中分离到2株传染性法氏囊病病毒（IBDV）,分别命名为QL和ZZ—ll,对4周龄SPF鸡的致死率分别为94％和86％。为分析该毒株的分子生物学特征,对其全基因组序列进行了测定,2个病毒株基因组A节段长度为3260bp、B节段长度2827bp。病毒演化分析结果显示2个病毒基因组A节段的核苷酸序列与已发表的强毒株序列的同源性分别为96．8％～98．1％和96．9％～98．4％,处在IB—DV超强毒株分支上;而B节段与已发表的弱毒株序列的同源性分别为89．7％～90．4％和90．0％～90．7％,位于弱毒株分支上。IBDV超强毒株和弱毒株序列特征氨基酸残基与基序分析表明,QL和ZZ—11两个病毒株的A节段VP2基因的氨基酸残基为222A、249Q、253Q、254G、256I、294I和299S,七肽基序为SWSASGS,均符合超强毒株的分子特征;而B节段777～782位核苷酸序列为GGTGCC,没有KpnI酶切位点,具有弱毒株的序列特点。以上分析结果表明,QL和ZZ—11为IBDV自然重配株,A节段源于超强毒株,而B节段源于弱毒株。     

Direct evidence of reassortment and mutant spectrum analysis of a very virulent infectious bursal disease virus

The complete genomic sequence of very virulent infectious bursal disease virus (vvIBDV) Gx strain was determined, including the sequences of segment A, encoding the precursor polyprotein, and segment B, encoding the viral RNA polymerase (VP1) and 5'- and 3'-untranslating regions. Alignment of segment A of Gx with the sequences of 12 other vvIBDV strains showed 97.5% to 99.0% amino acid identity, whereas alignment of segment B of Gx with nine other vvIBDV strains revealed high sequence divergence, ranging from 10.3% to 11%. Phylogenetic analysis of segments A and B showed that they were in different branches, indicating that the reassortment occurred in this strain and that segment A and segment B derived from different pathotype strains. The mutant spectrum analysis of quasispecies virus demonstrated that the mean minimum mutation frequency in VP1 was 8.78-fold higher than in the polyprotein. The most frequent mutations were in the first 1986 nucleotides (nonsynonymous mutations) and the last 660 nucleotides (synonymous mutations), indicating that the 219 amino acid residues in the C-terminal of the VP1 form a functional region.     

IBDV流行强毒HQ-b株与其细胞适应毒生物学特性比较及VP2、VP5基因序列分析

为了解IBDV流行强毒HQ-b株囊毒与其细胞适应毒间生物学特性差异及2毒株毒力变化与VP2、VP5基因变异的关系,对2毒株的细胞适应性、致病性等进行比较,同时对其VP2、VP5基因序列进行分析。结果表明,HQ-b株囊毒对CEF、CEK、CELi、DF-1和Vero均不适应,而细胞适应毒HQ株仅不能适应Vero细胞、且批内及批间毒价稳定。致病性结果显示HQ-b株对4周龄SPF鸡致死率高达80%,是真正的超强毒,而细胞适应毒致死率已降为0%。对VP2基因高变区研究表明,HQ-b株具备IBDV超强毒株的分子特征,即222A、256I、294I和299S;其细胞适应毒HQ株除222A→P、256I→V、294I→L和299S→N外,在VP2公认的毒力位点253(Q→H)、279(D→N)、284(A→T)位氨基酸也发生改变,导致细胞适应毒具备经典弱毒株的分子特征,即222P、256V、279N、284T、294L和299N。对VP5基因研究表明:流行强毒HQ-b株也具有IBDV超强毒株的分子特征;其细胞适应毒VP5基因有12个位点碱基突变并导致9处氨基酸变异,尤其是ORF区第2个碱基由"T"突变为"C"后,导致细胞适应毒VP5的N端丢失了4个氨基酸,这种突变与现有的疫苗毒完全一致。本研究提供了超强毒HQ-b培育、驯化后致病性和细胞适应性转变的分子机理,也丰富了IBDV分子流行病学的理论。     

鸡传染性法氏囊病病毒地方流行毒株的免疫原性

从河北省一些发病鸡场分离到JD1～JD10共10株鸡传染性法氏囊病病毒(IBDV)毒株,用IBD标准阳性血清以琼扩试验进行了初步鉴定.并进行了IBDV分离物及其鸡胚适应毒免疫原对标准强毒IBDV-BC6/85株免疫保护试验,D78弱毒疫苗对IBDV各分离毒株的免疫保护试验以及分离毒株间交互免疫保护试验.结果表明,D78疫苗对JD2,JD5和JD10 IBDV分离株的保护率较低,分别为40%、50%和60%.分离毒株JD5、JD2及其鸡胚传代物E-JD2对强毒株的免疫保护率可达100%.交互免疫保护试验表明,JD2对其余各分离株的免疫保护指数达到80%以上,对标准强毒株和地方分离株均可产生有效免疫保护.     

Heteroduplex mobility assay for genotyping infectious bursal disease virus

A heteroduplex mobility assay (HMA) was developed to genotype infectious bursal disease virus (IBDV). This method analyzed 390-base pair (bp) polymerase chain reaction (PCR) products, encompassing the hypervariable region of the VP2 gene. IBDV strains from the United States and other countries were analyzed. The HMA was able to differentiate standard, antigenic variants and very virulent strains of IBDV. Minor differences between different strains from the same subtype were also detected. Close relationships between field IBDV with vaccines prepared with Delaware E strain were determined by HMA. The results obtained by HMA were confirmed by restriction fragment length polymorphism (RFLP) and phylogenetic analysis of nucleotide sequences. The HMA proved to be a useful technique to rapidly genotype different field strains of IBDV and should prove to be a useful tool in epidemiologic studies.     

Characteristics of apparent derivatives of the 2512 strain of infectious bursal disease virus when used as vaccines

The 2512 infectious bursal disease virus (IBDV) strain maintained in the authors' laboratory was compared with apparent 2512 IBDV isolates designated I-2512, P-2512, and H-2512. The latter three viruses were obtained from different sources and, ostensibly, had their origin in the Purdue laboratory. Their effects on immunogenicity, transmissibility, pathogenicity, and cell cultures varied. One of these isolates was said to be only 2 embryo passages higher than the original seed virus in our laboratory. Included in the study, also for comparison, was a cell-cultured-adapted 2512-cloned attenuated virus. The findings emphasize changes that may occur in the identity of a virus from manipulation, mutation, storage, errors in labeling, or other factors. These characteristics should be identified if the virus is to be used as a vaccine, in research, or for other purposes. The need for well-characterized reference strains in repositories is discussed relative to their importance in potential vaccine research and development.     

IBDV野毒株主要结构蛋白基因RT─PCR方法的建立

借助计算机软件，在分析比较了９个传染性法氏囊病病毒（ＩＢＤＶ）Ａ片段结构蛋白基因的基础上，设计并合成了２对ＶＰ２和ＶＰ３基因ＰＣＲ引物，经ＲＴ－ＰＣＲ反应条件优化选择，成功地建立了ＲＴ－ＰＣＲ方法，用于扩增ＩＢＤＶＶＰ２和ＶＰ３基因，经琼脂糖凝胶电泳和分子杂交鉴定，获得４个ＩＢＤＶ野毒株ＶＰ２和ＶＰ３基因，为ＩＢＤＶ分子生物学研究奠定了基础     

传染性法氏囊病病毒VP2-4-3 cDNA的分子克隆和序列分析

从法氏囊组织分离IBDV超强毒株HK46并提取基因组RNA。以RNA为模板进行反转录合成cDNA第一链。采用长PCR扩增技术获得VP2－4－3 cDNA全长片段。将PCR产物克隆到pcDNA3.1( )载体，得到重组质粒pPP1。对pPP1插入片段全长序列进行了测序并对其序列进行了分析。结果表明，VP2－4－3 cDNA阅读框架由3039bp组成，可编码1012个氨基酸组成的前体多聚蛋白。经比较得知，HK46超强毒株VP2－4－3氨基酸序列与经典毒株间存在19－28个氨基酸的差异；与Harbin强毒株相差32个氨基酸；而与超强毒株OKYM和UK661分别相差2和6个氨基酸，且它们的VP2序列完全相同。在HK46超强毒株所特有的9个氨基酸中，3个位于VP2可变区，显示超强毒株其抗原性存在着变异。     

Induction of protective immunity in chickens immunised with plasmid DNA encoding infectious bursal disease virus antigens

Direct DNA inoculations were used to determine the efficacy of gene immunisation of chickens to elicit protective immune responses against infectious bursal disease virus (IBDV). The vp2 gene of IBDV strains GP40 and D78, and the vp2-vp4-vp3 encoding segment of strain D78 were cloned in an expression vector which consisted of human cytomegalovirus (HCMV) immediate early enhancer and promoter, adenovirus tripartite leader sequences and SV40 polyadenylation signal. For purification of vaccine-quality plasmid DNA from E. coli, an effective method was developed. Chickens were vaccinated by inoculation of DNA by two routes (intramuscular and intraperitoneal). Two weeks later, chickens were boosted with DNA, and at 2 weeks post-boost, they were challenged with virulent IBDV strain. Low to undetectable levels of IBDV-specific antibodies and no protection were observed with DNA encoding VP2. However, plasmids encoding VP2-VP4-VP3 induced IBDV-specific antibodies and protection in the chickens. DNA immunisation opens a new approach to the development of gene vaccines for chickens against infectious diseases.     

Diversity of genome segment B from infectious bursal disease viruses in the United States

Several phylogenetic lineages of the infectious bursal disease virus (IBDV) genome segment B have been identified. Although this genome segment has been shown to contribute to virulence, little is known about the genetic lineages that exist in the United States. The nucleotide genome segment B sequences of 67 IBDV strains collected from 2002 to 2011 in the United States were examined. Although they were from nine different states, a majority (47) of these viruses were from California. A 722-base pair region near the 5' end of genome segment B, starting at nucleotide 168 and ending at 889, was examined and compared to sequences available in GenBank. The nucleotide sequence alignment revealed that mutations were frequently observed and that they were uniformly spaced throughout the region. When the predicted amino acids were aligned, amino acids at positions 145, 146, and 147 were found to change frequently. Six different amino acid triplets were observed and the very virulent (vv) IBDV strains (based on presence of vvIBDV genome segment A sequence) all had the triplet T145, D146, and N147. None of the non-vvIBDV strains had this TDN triplet. Phylogenetic analysis of the 67 nucleotide sequences revealed four significant genome segment B lineages among the U.S. viruses. One of these included the genome segment B typically found in vvIBDV and three contained non-vvIBDV genome segment B sequences. When the available sequences in GenBank were added to the analysis, two additional lineages were observed that did not contain U.S. viruses; one included viruses from China and the other contained viruses from the Ivory Coast. Although the samples tested do not represent all poultry producing regions in the United States, serotype 1 viruses from states outside California all belonged to one genome segment B lineage. The other three lineages observed in the United States were populated with viruses exclusively found in California, except the serotype 2 lineage, where the type strain was a serotype 2 virus from Ohio. The data provide further evidence for the importance of genome segment B identification during routine molecular diagnosis of all IBDV strains.