Molecular cloning of the fimbrial subunit gene from a benign type B isolate of Bacteroides nodosus

Abstract The fimbrial subunit gene from the benign type B Bacteroides nodosus isolate AC/6 was cloned into the Sph I site of the multicopy vector plasmid pUC19. Five Escherichia coli recombinants that were positive in a colony immunoassay were shown, by Western transfer analysis, to produce an immunologically cross-reacting protein of identical molecular size to fimbrial subunits prepared from B. nodosus AC/6. Restriction endonuclease analysis showed that 4 of the recombinant plasmids carried a 6.7 kb Sph I fragment. Recloning experiments showed that the fimbrial subunit gene was located within a 2.5 kb Eco RI- Sph I fragment and that there was a Pst I site located within the structural gene or its regulatory region. These recombinant clones will prove useful for the construction of a multivalent recombinant vaccine for the control of ovine footrot.     

嗜水气单胞菌TPS-30株丝氨酸蛋白酶基因与溶血素基因在大肠杆菌中的融合表达

嗜水气单胞菌丝氨酸蛋白酶和溶血素是该菌重要的致病因子与保护性抗原。致病性嗜水气单胞菌TPS-30株为江浙一带鱼类暴发病病原主要血清型O:9的代表株。研究利用PCR方法扩增嗜水气单胞菌TPS-30株的丝氨酸蛋白酶基因(Spe)和溶血素基因(Hly),将基因Spe和Hly通过柔性片段进行融合,并将融合片段插入pET32a的多克隆位点,构建成重组融合表达载体pET32a-Spe-Hly。将重组载体转化大肠杆菌BL21(DE3),经异丙醛-β-D-硫代半乳糖苷(IPTG)诱导表达,获得融合蛋白Spe-Hly。表达产物经SDS-PAGE检测,显示与预期大小约130kD相吻合的融合蛋白带。纯化融合蛋白并对鲫鱼进行免疫攻毒试验。结果表明,丝氨酸蛋白酶基因和溶血素基因融合表达载体构建成功,并成功获得了融合蛋白Spe-Hly,对鲫鱼的免疫保护率达81.4%。这为基因工程亚单位多价疫苗的开发提供基础。       

Determination of prevalence and economic impact of ovine footrot in central Kashmir India with isolation and molecular characterization of Dichelobacter nodosus

The present study determines the prevalence, economic impact of virulent footrot in central Kashmir, India, along with isolation and molecular characterization of Dichelobacter nodosus (D. nodosus) where so far no such work has been carried out. Over all 12.54% prevalence of footrot was recorded in central Kashmir with highest (15.84%) in district Srinagar, and least (10.89%) in district Budgam, while it was 13.28% in district Ganderbal. Overall economic impact of footrot was estimated to the tune of Rs 15.82 million annually to the sheep farming in central Kashmir. Out of 370 samples collected from footrot lesions of naturally infected sheep, 200 (54.05%) detected D. nodosus positive by polymerase chain reaction (PCR). Out of these, 132 (66.00%) samples carried serogroup B of D. nodosus, five (2.50%) serogroup E, one (0.50%) serogroup I, while, 53 (26.50%) had mixed infection of serogroups B and E, four (2.00%) of serogroups B and I, two (1.00%) of serogroups B and G and the remaining three (1.50%) samples harboured the mixed infection of serogroups B, E and I. Serogroup G was detected for the first time in India. Over all serogroup B was most frequent (97.0%) followed by E (30.5%), while serogoups I (4.0%) and G (1.0%) were least prevalent. A total of 265 D.nodosus strains were isolated out of which 194 (73.20%) were typed as serogroup B, 61 (23.01%) as serogroup E, eight (3.01%) as serogroup I and remaining two (0.75%) belonged to serogroup G. Out of 265 D. nodosus isolates, 164 (61.88%) possessed intA (integrase) gene, thus were considered as virulent strains. Serogroup wise intA gene was found in 121(62.37%) isolates of serogroup B, 36 (59.01%) of E, two (100%) of G and five (62.50%) of I. Out of 20 randomly selected isolates subjected to gelatin gel test, 16 isolates with intA gene produced thermostable protease while four isolates without intA gene revealed the production of thermolabile protease. This indicated a good co-relation between presence of intA gene and gelatin gel test in determination of the D. nodosus virulence. Thus the present investigation suggests the incorporation of serogroups B and E, based on their predominant prevalence, in the formulation of an effective bivalent vaccine to combat footrot in central Kashmir.     

根癌农杆菌介导的Pr1基因在贵阳腐霉的组成性表达

【目的】构建组成性表达贵阳腐霉Pr1基因的载体pCambia-hph-Pr1,转化贵阳腐霉,以获得高毒力的基因工程转化菌株。【方法】以双元载体pCambia-Pnos-PNN-hph为基本骨架,将Pr1基因置于组成型启动子PgpdA和终止子TtrpC之间,获得含Pr1基因的表达元件。以贵阳腐霉菌丝体为受体材料,利用根癌农杆菌介导的遗传转化法转化贵阳腐霉,观察转化株的生物学特征和灭蚊毒力。【结果】转化株的菌丝生长速度和游动孢子产量与野生株无显著性差异。生物测定表明转化株对蚊幼虫平均致死率达到32.9%,比野生株提高了约一倍,并且使受试蚊幼虫生长速度明显减缓。【结论】利用根癌农杆菌介导的遗传转化获得了遗传稳定的高毒力菌株。     

共表达PCV2 ORF2和猪IL-18基因的重组猪伪狂犬病毒对小鼠的免疫原性

【目的】研制猪伪狂犬病毒(PRV)和猪圆环病毒2型(PCV2)的二联活疫苗,并用猪IL-18作为免疫佐剂。【方法】将猪IL-18基因插入到质粒p GO中,获得的重组转移质粒p GO18与猪PRV弱毒HB98株DNA共转染ST细胞,并进行空斑筛选和纯化;RT-PCR和Western blot分别从转录和蛋白水平鉴定其表达情况。将重组病毒PGO18和PGO、PRV弱毒株HB98、PCV2灭活商品苗和1640细胞培养基分别免疫6周龄雌性昆明小鼠,4周后二次免疫,二免后4周用PCV2 DF强毒和PRV Min/A强毒接种小鼠。通过ELISA、血清中和试验和流式细胞术及攻毒保护试验评价重组病毒的免疫原性。【结果】获得了重组病毒PGO18,并且可在ST细胞内表达;PGO18可诱导小鼠机体产生PCV2的ELISA和PRV的中和抗体水平,刺激CD3+、CD4+、CD8+T细胞亚群的增殖,且能有效抵抗PCV2和PRV强毒攻击。【结论】IL-18基因可增强重组病毒的免疫效果,使重组病毒具有良好的免疫原性,有望成为防治PCV2和PRV的候选疫苗株。     

Identification of three gene regions associated with virulence in Dichelobacter nodosus, the causative agent of ovine footrot.

Dichelobacter nodosus (formerly Bacteroides nodosus) is a Gram-negative strict anaerobe and is the primary pathogen involved in ovine footrot. A comparative hybridization strategy was used to isolate recombinant clones which hybridized to DNA from a virulent strain of D. nodosus but not with a benign isolate. Three virulence-associated gene regions were identified and one of these regions was shown to be present in multiple copies in the D. nodosus genome. Hybridization studies on 101 clinical isolates of D. nodosus showed that these strains could be divided into three hybridization categories which could be correlated with the virulence of the isolates. The recombinant clones have considerable potential for the development of a gene-probe-based method for the differential diagnosis of ovine footrot.     

减毒鼠伤寒沙门氏菌全长hpaA基因工程菌的构建

为构建表达HpaA蛋白的重组减毒鼠伤寒沙门氏菌 ,并探讨以减毒鼠伤寒沙门氏菌为载体构建H .pylori疫苗株的意义 ,应用PCR法从H .pylori基因组DNA中扩增 783bp的hpaA基因 ,经酶切 连接反应将其克隆入原核表达质粒pTrc99A的NcoⅠ SalⅠ位点 ,并进行了核苷酸序列测定。重组质粒转化减毒鼠伤寒沙门氏菌SL3 2 6 1 ,提取重组菌质粒 ,PCR和酶切鉴定 ,筛选阳性克隆。用SDS PAGE电泳和Westernblot进行HpaA表达分析和鉴定 ,用薄层扫描分析HpaA含量。重组菌C5 7BL 6小鼠喂灌 ,分批两d和 1 0d后处死小鼠 ,取脾和末段回肠进行细菌培养 ,挑菌落提质粒鉴定。结果表明 ,经PCR和酶切证实 ,构建了含 783bphpaA基因的重组原核表达质粒 ,并将后者成功转化了减毒鼠伤寒沙门氏菌。重组菌能表达约3 0kDHpaA蛋白 ,重组HpaA量约占全菌体蛋白量的 3 8 9% ,Westernblot证实其有免疫反应性。小鼠重组菌喂灌两d或 1 0d后 ,脾和末段回肠均发现携目的基因的菌落。这些结果提示 ,构建了表达H .pyloriHpaA的重组减毒…     

TLP01, an mshA mutant of Vibrio cholerae O139 as vaccine candidate against cholera

No commercially live vaccine against cholera caused by Vibrio cholerae O139 serogroup is available and it is currently needed. Virulent O139 strain CRC266 was genetically modified by firstly deleting multiple copies of the filamentous phage CTXφ, further tagging by insertion of the endoglucanase A coding gene from Clostridium thermocellum into the hemagglutinin/protease gene and finally deleting the mshA gene, just to improve the vaccine biosafety. One of the derived strains designated as TLP01 showed full attenuation and good colonizing capacity in the infant mouse cholera model, as well as highly immunogenic properties in the adult rabbit and rat models. Since TLP01 lacks MSHA fimbriae, it is refractory to infection with another filamentous phage VGJφ and therefore protected of acquiring CTXφ from a recombinant hybrid VGJφ/CTXφ. This strategy could reduce the possibilities of stable reversion to virulence out of the human gut. Furthermore, this vaccine strain was impaired to produce biofilms under certain culture conditions, which might have implications for the strain survival in natural settings contributing to vaccine biosafety as well. The above results has encouraged us to consider TLP01 as a live attenuated vaccine strain having an adequate performance in animal models, in terms of attenuation and immunogenicity, so that it fulfills the requirements to be evaluated in human volunteers.     

表达乙型脑炎病毒E蛋白重组减毒沙门菌活载体疫苗株的构建

目的:构建表达乙型脑炎病毒(JEV)E蛋白的口服重组减毒鼠伤寒沙门菌活载体疫苗株。方法:克隆JEV E基因,将其插入表达载体pYA3341中,构建重组质粒pYA3341-E,将重组质粒电转入鼠伤寒沙门菌疫苗株X4550(缺失asd、cya、crp基因),获得重组疫苗菌株X4550(pYA3341-E);鉴定重组菌E蛋白的表达,测定重组菌的稳定性、生长曲线、安全性,以及小鼠的免疫试验和血清中和试验。结果:酶切鉴定和序列测定证实重组质粒构建成功;SDS-PAGE检测有目的蛋白条带;Western印迹证实表达的E蛋白能与猪抗JEV阳性血清特异性结合;重组菌株在体外营养选择压力下,可稳定地携带重组质粒传代繁殖,在体内可较稳定地定居于肠系膜淋巴结和脾脏;小鼠口服试验证实重组菌无毒性作用,安全可靠;小鼠口服重组菌免疫,ELISA检测产生了抗JEV抗体;中和试验表明产生的抗体具有中和活性。结论:构建了能稳定表达JEV E蛋白的口服减毒鼠伤寒沙门菌疫苗株X4550(pYA3341-E),为研究乙型脑炎口服基因工程疫苗奠定基础。     

Priming with a recombinant pantothenate auxotroph of Mycobacterium bovis BCG and boosting with MVA elicits HIV-1 Gag specific CD8+ T cells

A safe and effective HIV vaccine is required to significantly reduce the number of people becoming infected with HIV each year. In this study wild type Mycobacterium bovis BCG Pasteur and an attenuated pantothenate auxotroph strain (BCGΔpanCD) that is safe in SCID mice, have been compared as vaccine vectors for HIV-1 subtype C Gag. Genetically stable vaccines BCG[pHS400] (BCG-Gag) and BCGΔpanCD[pHS400] (BCGpan-Gag) were generated using the Pasteur strain of BCG, and a panothenate auxotroph of Pasteur respectively. Stability was achieved by the use of a codon optimised gag gene and deletion of the hsp60-lysA promoter-gene cassette from the episomal vector pCB119. In this vector expression of gag is driven by the mtrA promoter and the Gag protein is fused to the Mycobacterium tuberculosis 19 kDa signal sequence. Both BCG-Gag and BCGpan-Gag primed the immune system of BALB/c mice for a boost with a recombinant modified vaccinia virus Ankara expressing Gag (MVA-Gag). After the boost high frequencies of predominantly Gag-specific CD8(+) T cells were detected when BCGpan-Gag was the prime in contrast to induction of predominantly Gag-specific CD4(+) T cells when priming with BCG-Gag. The differing Gag-specific T-cell phenotype elicited by the prime-boost regimens may be related to the reduced inflammation observed with the pantothenate auxotroph strain compared to the parent strain. These features make BCGpan-Gag a more desirable HIV vaccine candidate than BCG-Gag. Although no Gag-specific cells could be detected after vaccination of BALB/c mice with either recombinant BCG vaccine alone, BCGpan-Gag protected mice against a surrogate vaccinia virus challenge.     

Expression of Major Antigen Domains of Gene of E2 CSFV and Analysis of its Immunological Activity

E2 is an envelope glycoprotein of Classical swine fever virus (CSFV) and contains sequential neutralizing epitopes to induce virus-neutralizing antibodies and mount protective immunity in the natural host. In this study, four antigen domains (ABCD) of the E2 gene was cloned from CSFV Shimen strain into the retroviral vector pBABE puro and expressed in eukaryotic cell (PK15) by an retroviral gene expression system, and the activity of recombinant E2 protein to induce immune responses was evaluated in rabbits. The results indicated that recombinant E2 protein can be recognized by fluorescence antibodies of CSFV and CSFV positive serum (Lanzhou Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Lanzhou, China) using Western blot, indirect immunofluorescence antibody test (IFAT) and ELISA, Furthermore, anti-CSFV specific antibodies and lymphocyte proliferation were elicited and increased by recombinant protein after vaccination. In the challenge test, all of rabbits vaccinated with recombinant protein and Chinese vaccine strain (C-strain) were fully protected from a rabbit spleen virus challenge. These results indicated that a retroviral-based epitope-vaccine carrying the major antigen domains of E2 is able to induce high level of epitope-specific antibodies and exhibits similar protective capability with that induced by the C-strain, and encourages further work towards the development of a vaccine against CSFV infection.     

Immune potential of a novel multiple-epitope vaccine to FMDV type Asia 1 in guinea pigs and sheep

To develop a safe and efficient recombinant subunit vaccine to foot-and-mouth disease virus(FMDV)type Asia 1 in sheep,a tandem repeated multiple-epitope gene consisting of residues 137-160 and 197-211 of the VP1 gene of FMDV was designed and artificially synthesized.The biologically functional molecule,the ovine IgG heavy constant region(oIgG)as a protein carrier was introduced for design of the multiple-epitope recombinant vaccine and recombinant expression plasmids pET-30a-RE and pET-30a-RE-oIgG were successfully constructed.The recombinant proteins,RE and RE-oIgG,were expressed as a formation of inclusion bodies in E.coli.The immune potential of this vaccine regime in guinea pigs and sheep was evaluated.The results showed that IgG could significantly enhance the immune potential of antigenic epitopes.The recombinant protein RE-oIgG could not only elicit the high levels of neutralizing antibodies and lymphocytes proliferation responses in the vaccinated guinea pigs,but confer complete protection in guinea pigs against virus challenge.Although the recombinant protein RE could not confer protection in the vaccinated animals,it could delay the appearance of the clinical signs and reduce the severity of disease.Inspiringly,the titers of anti-FMDV neutralizing antibodies elicited in sheep vaccinated with RE-oIgG was significantly higher than that for the RE vaccination.Therefore,we speculated that this vaccine formulation may be a promising strategy for designing a novel vaccine against FMDV in the future.     

Development of a dual recombinant vaccine to protect small ruminants against peste-des-petits-ruminants virus and capripoxvirus infections

A recombinant capripoxvirus vaccine containing a cDNA of the peste-des-petits-ruminants virus (PPRV) fusion protein gene was constructed. A quick and efficient method was used to select a highly purified recombinant virus clone. A trial showed that a dose of this recombinant as low as 0.1 PFU protected goats against challenge with a virulent PPRV strain.     

Oral immunization with transgenic rice seeds expressing VP2 protein of infectious bursal disease virus induces protective immune responses in chickens

The expression of infectious bursal disease virus (IBDV) host-protective immunogen VP2 protein in rice seeds, its immunogenicity and protective capability in chickens were investigated. The VP2 cDNA of IBDV strain ZJ2000 was cloned downstream of the Gt1 promoter of the rice glutelin GluA-2 gene in the binary expression vector, pCambia1301-Gt1. Agrobacterium tumefaciens containing the recombinant vector was used to transform rice embryogenic calli, and 121 transgenic lines were obtained and grown to maturity in a greenhouse. The expression level of VP2 protein in transgenic rice seeds varied from 0.678% to 4.521% µg/mg of the total soluble seed protein. Specific pathogen-free chickens orally vaccinated with transgenic rice seeds expressing VP2 protein produced neutralizing antibodies against IBDV and were protected when challenged with a highly virulent IBDV strain, BC6/85. These results demonstrate that transgenic rice seeds expressing IBDV VP2 can be used as an effective, safe and inexpensive vaccine against IBDV.     

A recombinant Newcastle disease virus (NDV) expressing VP2 protein of infectious bursal disease virus (IBDV) protects against NDV and IBDV

Infectious bursal disease virus (IBDV) causes a highly immunosuppressive disease in chickens. Currently available, live IBDV vaccines can lead to generation of variant viruses. We have developed an alternative vaccine that will not create variant IBDV. By using the reverse genetics approach, we devised a recombinant Newcastle disease virus (NDV) vector from a commonly used vaccine strain LaSota to express the host-protective immunogen VP2 of a variant IBDV strain GLS-5. The gene encoding the VP2 protein of the IBDV was inserted into the most 3'-proximal locus of a full-length NDV cDNA for high-level expression. We successfully recovered the recombinant virus, rLaSota/VP2. The rLaSota/VP2 was genetically stable, at least up to 12 serial passages in chicken embryos, and was shown to express the VP2 protein. The VP2 protein was not incorporated into the virions of recombinant virus. Recombinant rLaSota/VP2 replicated to a titer similar to that of parental NDV strain LaSota in chicken embryos and cell cultures. To assess protective efficacy of the rLaSota/VP2, 2-day-old specific-pathogen-free chickens were vaccinated with the recombinant virus and challenged with a highly virulent NDV strain Texas GB or IBDV variant strain GLS-5 at 3 weeks postvaccination. Vaccination with rLaSota/VP2 generated antibody responses against both NDV and IBDV and provided 90% protection against NDV and IBDV. Booster immunization induced higher levels of antibody responses against both NDV and IBDV and conferred complete protection against both viruses. These results indicate that the recombinant NDV can be used as a vaccine vector for other avian pathogens.     

Expression of major antigen domains of E2 gene of CSFV and analysis of its immunological activity

E2 is an envelope glycoprotein of Classical swine fever virus (CSFV) and contains sequential neutralizing epitopes to induce virus-neutralizing antibodies and mount protective immunity in the natural host. In this study, four antigen domains (ABCD) of the E2 gene was cloned from CSFV Shimen strain into the retroviral vector pBABE puro and expressed in eukaryotic cell (PK15) by an retroviral gene expression system, and the activity of recombinant E2 protein to induce immune responses was evaluated in rabbits. The results indicated that recombinant E2 protein can be recognized by fluorescence antibodies of CSFV and CSFV positive serum (Lanzhou Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Lanzhou, China) using Western blot, indirect immunofluorescence antibody test (IFAT) and ELISA, Furthermore, anti-CSFV specific antibodies and lymphocyte proliferation were elicited and increased by recombinant protein after vaccination. In the challenge test, all of rabbits vaccinated with recombinant protein and Chinese vaccine strain (C-strain) were fully protected from a rabbit spleen virus challenge. These results indicated that a retroviral-based epitope-vaccine carrying the major antigen domains of E2 is able to induce high level of epitope-specific antibodies and exhibits similar protective capability with that induced by the C-strain, and encourages further work towards the development of a vaccine against CSFV infection. Foundation items: The National “973” (2005CB523201); Key Technology R&D Programme (2006BAD06A03).     

表达猪繁殖与呼吸综合征病毒GP5蛋白重组伪狂犬病毒的构建及其生物学特性分析

将猪繁殖与呼吸综合征病毒（Porcine Reproductive and Respiratory Syndrome Virus,PRRSV）CH-1a株GP5基因插入到伪狂犬病病毒（Pseudorabies Virus,PRV）Bartha-K61株TK基因中,获得了一株TK^-／gE^-表型的重组伪狂犬病病毒,命名为rPRV—GP5。经生长动力学、表达动力学和间接免疫荧光证实PRRSV GP5在重组病毒中获得了表达,表达蛋白的抗原性与亲本病毒相似,rPRV-GP5在不同的细胞上毒价和细胞病变与Bartha—K61比较无显著差异。4只PRV抗体阴性的绵羊,每只接种10^6.0。PFU的rPRV-GP5可以完全抵抗10^3LD50伪狂犬病强毒S株的攻击。10头PRV、PRRSV抗体阴性的仔猪滴鼻接种rPRV-GP5 10^7.0 PFU／头并在接种后63d攻击PRRSV CH-1a株10^5.0 TCID50／头,攻毒后3d和5d出现了PRRSV荧光抗体和ELISA抗体,在政毒后14d检测到了PRRSV中和抗体,Bartha—K61活疫苗组和对照组至实验结束时仍未检测到PRRSV中和抗体。这说明rPRV-GP5免疫产生了针对PRRSV的回忆性免疫应答。     

表达IBDV VP2融合蛋白的重组MDV的构建及其免疫特性

将增强型绿色荧光蛋白基因(eGFP)与鸡传染性法氏囊病病毒(IBDV)的VP2基因融合,插入马立克氏病毒(MDV)CVI988/Rispens的非必需区US10片段中,成功构建表达VP2融合蛋白的MDVCVI988转移载体pUC18-US10-VP2。将转移载体质粒与CVI988/Rispens疫苗毒共转染鸡胚成纤维细胞(CEF),筛选获得表达VP2融合蛋白的重组MDV(rMDV)。聚合酶链式反应(PCR)和间接免疫荧光实验(IFA)证明,rMDV传至第31代仍能稳定表达VP2融合蛋白。用rMDV免疫SPF鸡,进行IBDV攻毒保护试验,1日龄SPF鸡分别用1000PFU、2000PFU、5000PFU的rMDV进行免疫,33日龄用100LD50的IBDVJS超强毒进行攻毒,鸡的免疫保护率分别为50%、60%、80%。值得注意的是,5000PFU的rMDV一次免疫1日龄SPF鸡,其法氏囊组织病理损伤等级与IBD中等毒力活疫苗常规二次免疫相当(2·0/1·5),其保护效果无显著差异(p>0·05),而与非重组病毒免疫组相比较,保护效果差异显著(P<0·01),这表明构建的表达IBDVVP2融合蛋白的rMDV可以有效地为SPF鸡提供免疫保护作用。     

Avirulent Marek’s Disease Virus Type 1 Strain 814 Vectored Vaccine Expressing Avian Influenza (AI) Virus H5 Haemagglutinin Induced Better Protection Than Turkey Herpesvirus Vectored AI Vaccine

Background

Herpesvirus of turkey (HVT) as a vector to express the haemagglutinin (HA) of avian influenza virus (AIV) H5 was developed and its protection against lethal Marek’s disease virus (MDV) and highly pathogenic AIV (HPAIV) challenges was evaluated previously. It is well-known that avirulemt MDV type 1 vaccines are more effective than HVT in prevention of lethal MDV infection. To further increase protective efficacy against HPAIV and lethal MDV, a recombinant MDV type 1 strain 814 was developed to express HA gene of HPAIV H5N1.

Methodology/Principal Findings

A recombinant MDV-1 strain 814 expressing HA gene of HPAIV H5N1 virus A/goose/Guangdong/3/96 at the US2 site (rMDV-HA) was developed under the control of a human CMV immediate-early promoter. The HA expression in the rMDV-HA was tested by immunofluorescence and Western blot analyses, and in vitro and in vivo growth properties of rMDV-HA were also analyzed. Furthermore, we evaluated and compared the protective immunity of rMDV-HA and previously constructed rHVT-HA against HPAIV and lethal MDV. Vaccination of chickens with rMDV-HA induced 80% protection against HPAIV, which was better than the protection rate by rHVT-HA (66.7%). In the animal study with MDV challenge, chickens immunized with rMDV-HA were completely protected against virulent MDV strain J-1 whereas rHVT-HA only induced 80% protection with the same challenge dose.

Conclusions/Significance

The rMDV-HA vaccine was more effective than rHVT-HA vaccine for protection against lethal MDV and HPAIV challenges. Therefore, avirulent MDV type 1 vaccine is a better vector than HVT for development of a recombinant live virus vaccine against virulent MDV and HPAIV in poultry.     

肠道病毒71型3C蛋白酶在大肠杆菌中的表达及活性研究

本研究利用大肠杆菌表达系统构建肠道病毒71型3C蛋白酶,并进行纯化,对其酶活性进行研究。首先,将3C蛋白酶基因克隆至pET28a载体,在大肠杆菌BL21(DE3)中表达,Ni-NTA柱亲和层析纯化获得3C蛋白酶,经肠激酶酶切去除N端His标签后获得无His标签的3C蛋白酶,再以荧光多肽为底物进行酶活性研究。经过双酶切鉴定和测序证实,重组表达质粒pET28a-3C构建正确,表达的重组3C蛋白酶相对分子质量约22kD;纯化后有无His标签的3C蛋白酶均能催化荧光底物3B-3C,并且两者的酶动力学数据无显著差异,含有His标签的3C蛋白酶Km、Vmax、Kcat分别为22μM、434nM.Min-1、0.0669 Min-1;其最适反应pH为7.0,最佳反应温度为30℃～37℃。本实验成功表达并纯化了重组3C蛋白酶,该酶具有良好的活力,为抗病毒抑制剂、结构蛋白组装、疫苗开发及3C蛋白酶检测方法的研发奠定了基础。