Production of Polyclonal Antibodies to a Recombinant Coat Protein of Potato mop-top virus

The coat protein (CP) coding regions of two Czech Potato mop‐top virus (PMTV) isolates were sequenced and shown to be identical. One, the Korneta isolate CP gene, was cloned in several expression vectors. The recombinant PMTV‐CP was expressed in Escherichia coli and the purified recombinant protein was used to produce PMTV‐specific polyclonal antibodies. The antiserum had a titre of 1 : 2000 in an indirect enzyme‐linked immunosorbent assay (ELISA) and reacted specifically in immunoblotting and IPTA‐ ELISA (indirect plate‐trapped antigen (PTA)‐ELISA).     

Production of Polyclonal Antibodies to the Recombinant Coat Protein of Citrus tristeza virus and their Effectiveness for Virus Detection

Citrus tristeza virus (CTV) is distributed worldwide and causes the most economically important virus diseases of citrus. Enzyme‐linked immunosorbent assay (ELISA) and/or immunoprinting have become an indispensable tools for large‐scale diagnosis of CTV worldwide. Several CTV detection kits are commercially available, based on either polyclonal or monoclonal antibodies developed against purified virus preparations. We have developed polyclonal antibodies to recombinant p25 CTV coat proteins (rCP) and determined their effectiveness for both trapping and as the intermediate antibody in double‐antibody sandwich indirect (DASI) ELISA. The p25 coat protein gene of three CTV isolates was amplified by RT‐PCR and further cloned and expressed in Escherichia coli cells. The rCP was injected into rabbits and goats for antibody production. Western blotting assays with the rCP CTV‐specific antibodies reacted positively with the homologous and heterologous rCP of the three CTV isolates and with the corresponding native coat protein present in crude sap extracts of CTV‐infected citrus tissue, but not with extracts from healthy tissue. The rCP antibodies from goat and rabbit reacted as both plate trapping and intermediate antibodies in DASI‐ELISA, discriminating healthy and CTV‐infected citrus, with optical density (OD₄₀₅) values in the range of 0.151–2.415 for CTV‐infected samples and less than 0.100 for healthy tissue. Commercially available anti‐CTV antibodies were used as a reference. Previous reports indicate that antibodies developed to recombinant antigens, including those of CTV, may not be functional for trapping the target antigens under non‐denaturing conditions. Our results showed the feasibility of CTV antibodies developed to the rCP for use as both trapping and intermediate antibodies in DASI‐ELISA, when the recombinant antigen was fractioned with polyacrylamide electrophoresis gel and further extensively dialysed against phosphate buffer saline prior to its use as immunogen.     

Highly Efficient Immunodiagnosis of Episomal Banana streak MY virus Using Polyclonal Antibodies Raised Against Recombinant Viral‐Associated Protein

Banana streak MY virus (BSMYV) is the causal agent of viral leaf streak disease of banana, which leads to considerable losses in banana production in most of the banana‐growing regions worldwide. Developing high‐throughput virus detection system is essential for managing viral diseases especially in vegetatively propagated crops like banana. In this study, viral‐associated protein (VAP) coded by ORF II of BSMYV was expressed in Escherichia coli, and polyclonal antibodies were raised against purified recombinant VAP (rVAP) fusion protein in rabbits. Specificity and sensitivity of resulting antibodies were tested in Western blot, immunosorbent electron microscopy (ISEM) and enzyme‐linked immunosorbent assays (ELISAs). In direct antigen‐coated (DAC)‐ELISA, antibodies reacted specifically to BSMYV in crude sap, up to 1 : 8000 dilutions, but not to healthy leaf extracts. Using this antiserum, an immunocapture polymerase chain reaction (IC‐PCR) assay was developed and compared with DAC‐ELISA. VAP antibody‐based IC‐PCR is highly specific and could differentiate episomal virus infection from the integrated endogenous BSV (eBSV) sequences. The recombinant antibodies were validated by testing with a large number of banana germplasm conserved in the field gene bank. Field samples collected during surveys and mother cultures used in tissue culture propagation suggest that antibodies generated against rVAP are sensitive and useful for large‐scale detection of BSMYV. To the best of our knowledge, this is the first report on the production of polyclonal antiserum against recombinant VAP of BSMYV and its suitability for serology‐based testing by ELISA and IC‐PCR. This VAP‐based immunodiagnosis can be applied in quarantine, germplasm exchange and certification programmes.     

Complete Nucleotide Sequence of the RNA 3 of Bacopa chlorosis virus and Production of Polyclonal Antibodies to a Recombinant Coat Protein

The complete sequence of the RNA 3 of a virus causing chlorosis in Impatiens in Germany was determined and identified as an isolate of Bacopa chlorosis virus (BaCV, genus Ilarvirus). BaCV has previously only been reported from bacopa in the USA, but no coat protein (CP) sequence has been previously available. Both RNA 3 encoded proteins, CP and movement protein, showed highest sequence identity to Parietaria mottle virus, a subgroup 1 ilarvirus. Attempts to purify BaCV failed, so an antiserum was raised against a recombinant CP. The polyclonal antiserum so produced allowed specific detection of BaCV but showed no serological cross‐reaction with other ilarviruses and was unsuitable for immunoelectron microscopy. The host range includes many important flowering plant species, highlighting the potential threat BaCV might pose for the horticultural industry. This is the first report of BaCV occurring in Germany and outside the US.     

Production of Polyclonal Antibodies to the Recombinant Potato virus M (PVM) Non‐structural Triple Gene Block Protein 1 and Coat Protein

The genes encoding the coat protein (CP) and triple gene block protein 1 (TGBp1) of Potato virus M (PVM) were cloned into expression vector pET‐45b(+) (N‐terminal 6xHis tag) and expressed in E. coli Rosetta gami‐2(DE3). The purified recombinant antigens were used for raising polyclonal antibodies. The antibodies against recombinant CP were successfully used in Western blot analysis, plate‐trapped ELISA and DAS‐ELISA as a coating for PVM detection in infected potato leaf samples. The antibodies against recombinant non‐structural protein detected the TGBp1 only in Western blot analysis. This is the first report of the production of polyclonal antibodies against recombinant coat protein and TGBp1 of PVM and their use for detecting the virus.     

Polyclonal Antibodies to the Coat Protein of Carnation etched ring virus Expressed in Bacterial System: Production and Use in Immunodiagnosis†

Carnation etched ring virus (CERV), is the most widespread virus in carnation cultivars after Carnation mottle virus. It's incidences has been reported worldwide. It has double stranded DNA genome with the length of ∼8 kbp. Primers were designed for CERV coat protein gene (1482 bp) amplification and directional and inframe cloning in expression vector, pET‐28a(+) (Novagen, USA), using Escherichia coli strain BL 21 strain competent cells. Expression conditions for maximum recovery of soluble recombinant protein was standardized. The in vitro expressed protein was purified and was used as an antigen for raising antisera. Both intramuscular and sub‐cutaneous routes were used separately for antisera production and the antisera was purified. Some of the antisera was used for enzyme conjugate preparation. This antiserum and conjugate were then used for formulation of an ELISA‐based diagnostic kit for CERV detection. Its properties were compared with the commercially available kit. In all cases, with both glasshouse and field material, the antibodies had good detectability and specificity. These antibodies combine specificity to the target protein and versatility with regard to all the more important serological techniques.     

Immunodiagnosis of Parietaria mottle virus in Tomato Crops Using a Polyclonal Antiserum against its Coat Protein Expressed in a Bacterial System

Recombinant DNA technology was used to raise a polyclonal antiserum against the coat protein (CP) of Parietaria mottle virus (PMoV). The CP gene was expressed in Escherichia coli as a fusion to a 6xHis tag and purified by affinity chromatography. Recombinant purified protein was used as antigen to raise a polyclonal antiserum. This polyclonal antiserum consistently detected PMoV specifically infected tomato plants from different commercial tomato crops by indirect enzyme-linked immunosorbent assay (I-ELISA) and direct tissue-printing immunoassay (DTBIA).     

Single-Batch Production of Recombinant Human Polyclonal Antibodies

We have previously described the development and implementation of a strategy for production of recombinant polyclonal antibodies (rpAb) in single batches employing CHO cells generated by site-specific integration, the Sympress^TM I technology. The Sympress^TM I technology is implemented at industrial scale, supporting a phase II clinical development program. Production of recombinant proteins by site-specific integration, which is based on incorporation of a single copy of the gene of interest, makes the Sympress^TM I technology best suited to support niche indications. To improve titers while maintaining a cost-efficient, highly reproducible single-batch manufacturing mode, we have evaluated a number of different approaches. The most successful results were obtained using random integration in a new producer cell termed ECHO, a CHO DG44 cell derivative engineered for improved productivity at Symphogen. This new expression process is termed the Sympress^TM II technology. Here we describe proof-of-principle data demonstrating the feasibility of the Sympress^TM II technology for single-batch rpAb manufacturing using two model systems each composed of six target-specific antibodies. The compositional stability and the batch-to-batch reproducibility of rpAb produced by the ECHO cells were at least as good as observed previously using site-specific integration technology. Furthermore, the new process had a significant titer increase.     

Expression of Coat Protein of an Ordinary Strain of Potato virus Y in Escherichia coli and Production of Polyclonal Antibodies for Diagnosis

The coat protein gene (CP) of an ordinary strain of Potato virus Y (PVY^O) was cloned into the expression vector, pET‐28a(+). The insert was sequenced and analysis showed that the CP gene was in frame with intact N‐terminal 6X histidine tags. An approximately 35 kDa recombinant fusion protein was observed in inclusion bodies of induced Escherichia coli BL21 cells. This fusion protein was purified and used as antigen to raise polyclonal antibodies in rabbits. In Western blot and dot blot immuno‐binding assay (DIBA), both PVY^O‐CP IgG and PVY^O IgG strongly reacted with the recombinant CP. The PVY^O‐CP IgG could detect PVY^O in infected samples up to 1 : 3200 dilutions. A PVY^O‐CP ELISA kit was prepared and compared with conventional ELISA kit based on purified virus particles (PVY^O ELISA kit). The PVY^O‐CP ELISA kit consistently detected the PVY^O in DAS‐ELISA of field samples and was as effective as PVY^O ELISA kit.     

Variation in the Coat Protein Gene of Papaya ringspot Virus Isolates from Multiple Locations of China

The potyvirus Papaya ringspot virus （PRSV） is an important pathogen of papaya that causes severe losses in economic crops for papaya production globally. The coat protein （CP） genes of five PRSV isolates originating from different locations in China were cloned and sequenced. The CP-coding region varied in size from 864-873 nucleotides, encoding proteins of 288-291 amino acids. The five Chinese isolates of PRSV have been characterized as papaya-infecting （PRSV-P）. The CP sequences of the Chinese isolates were compared with those of previously published PRSV isolates originating from different countries at amino acid levels. A number of KE repeat boxes in the N terminus of the PRSV-CP were found in all Chinese isolates. The phylogenetic branching pattern revealed that there was certain extended grouping between geographic locations, and the Asian type probably represents the oldest population of PRSV. The information of CP genes will be useful in designing and developing durable virus resistant-PRSV transgenic papaya in China. Meanwhile broad-spectrum-virus resistant, strongly resistant-PRSV and good safe papaya lines are required.     

Mapping the Prion Protein Using Recombinant Antibodies

The fundamental event in prion disease is thought to be the posttranslational conversion of the cellular prion protein (PrP^C) into a pathogenic isoform (PrP^Sc). The occurrence of PrP^C on the cell surface and PrP^Sc in amyloid plaques in situ or in aggregates following purification complicates the study of the molecular events that underlie the disease process. Monoclonal antibodies are highly sensitive probes of protein conformation which can be used under these conditions. Here, we report the rescue of a diverse panel of 19 PrP-specific recombinant monoclonal antibodies from phage display libraries prepared from PrP deficient (Prnp^0/0) mice immunized with infectious prions either in the form of rods or PrP 27-30 dispersed into liposomes. The antibodies recognize a number of distinct linear and discontinuous epitopes that are presented to a varying degree on different PrP preparations. The epitope reactivity of the recombinant PrP(90-231) molecule was almost indistinguishable from that of PrP^C on the cell surface, validating the importance of detailed structural studies on the recombinant molecule. Only one epitope region at the C terminus of PrP was well presented on both PrP^C and PrP^Sc, while epitopes associated with most of the antibodies in the panel were present on PrP^C but absent from PrP^Sc.     

Polyclonal Antibodies to the Bacterially Expressed Coat Protein of Faba Bean Necrotic Yellows Virus

Specific rabbit polyclonal antibodies against bacterially expressed coat protein of Faba bean necrotic yellows virus (FBNYV, genus Nanovirus) were produced using a recombinant DNA approach. The FBNYV capsid protein (CP) gene located on component 5 was cloned in an expression vector pQE‐9 (Qiagen, QIAGEN Inc., Chatswortch, CA91311, USA). Expression of the CP with an N‐terminal hexahistidine tag in Escheri‐ chia coli M15 cells was induced by adding isopropyl‐3‐D ‐1‐thiogalactoside (IPTG) to a final concentration of 2 mM . About 8 mg of bacterially expressed CP (BE‐CP) was purified from 1 litre of bacterial liquid culture using a Ni‐NTA resin column (Qiagen). The expressed CP which migrated as a protein of approximately 23 kDa in sodium dodecyl sulphate (SDS)‐polyacrylamide gel electrophoresis (PAGE) was identified by its strong reaction with polyclonal antibodies produced against FBNYV particles and 2‐5H9 FBNYV‐monoclonal in Western blots. Expressed and purified CP (SDS‐PAGE 23 kDa band) was injected into a white rabbit, using seven intramuscular injections at weekly intervals. The antiserum produced was evaluated for FBNYV detection in double antibody sandwich (DAS)‐enzyme‐linked immunosorbent assay (ELISA), triple antibody sandwich (TAS)‐ELISA, tissue blot immunoassay (TBIA), dot blot, Western blot and goat antimouse coating (GAMC)‐ELISA using 13 different FBNYV monoclonal antibodies. The antiserum raised against the BE‐CP gave strong FBNYV‐specific TBIA reactions and very weak background reactions with non‐infected tissue, similar to those produced by monoclonal antibodies. Furthermore, BE‐CP polyclonal antibody reacted weakly with FBNYV‐infected tissue and strongly with BE‐CP in DAS‐ELISA, but not with FBNYV‐infected tissue in TAS‐ELISA when 13 detecting monoclonal antibodies were used. In addition, BE‐CP polyclonal antibody reacted strongly with BE‐CP in TAS‐ELISA only when 2‐5H9 detecting monoclonal was used. When monoclonals were used as primary antibody and BE‐CP polyclonal as detecting antibody (GAMC‐ELISA), FBNYV‐infected tissue gave moderate reactions with 2‐5H9 and strong reactions with 3‐2E9 monoclonal, whereas BE‐CP gave equally strong reactions with both monoclonals. These results showed that the BE‐CP polyclonal antibody is useful for the detection of FBNYV in infected tissue by TBIA and dot blot tests.     

Production of Antiserum to Recombinant Coat Protein for Detecting Lily mottle virus in Yunnan, China

Lily mottle virus (LMoV), Potyvirus genus, is very difficult to purify for the preparation of diagnostic antisera. The coat protein (CP) gene of LMoV was amplified by RT-PCR from infected plants and cloned into the prokaryotic pET-30a vector to generate the recombinant plasmid pET-CP. The resulting carboxy-terminal His-tagged CP was over-expressed in Escherichia coli BL 21 cells by Isopropyl-β- d -thiogalactoside (IPTG) induction and purified over Ni-NTA affinity columns. The purified CP was used to elicit a polyclonal antiserum in rabbits. The antiserum had a titre of 1 : 128 in double diffusion tests, and specifically recognized LMoV in Western blots, Enzyme-Linked Immunosorbent Assays and Immuno-Electron Microscopy. The CP antiserum was also used to evaluate LMoV infection of lily bulbs used for commercial production in Yunnan, China. Substantial levels of infection were found in both imported and native bulbs, and provide the basis to implement flexible, rapid and large-scale virus indexing of lily plants for use in propagation and to meet virus-free quarantine regulations.     

云南番木瓜环斑病毒的发生及遗传多样性

【目的】明确云南省番木瓜环斑病毒(Papaya ringspot virus,PRSV)发生情况,并对其进行遗传多样性分析。【方法】利用RT-PCR技术,于2011-2012年对采自云南省昆明市、楚雄州、保山市、德宏州、西双版纳州、临沧市、玉溪市、红河州、文山州等地的24个番木瓜、南瓜和罗汉果疑似病样进行扩增、测序,对样品中获得的940 bp PRSV部分cp基因及3′端非编码区的序列应用分子生物学软件MEGA 5进行系统发育分析。【结果】从17个样品中检测到了PRSV,检出率为70.8%,表明该病毒在云南的发生较为普遍。云南PRSV不同分离物间的核苷酸序列变异较大,与其他已报道的PRSV分离物之间的基因组3′端核苷酸序列一致性为81.7%-100%。基于PRSV的CP部分氨基酸序列及基因组3′端核苷酸的系统进化分析结果表明,来自亚洲、北美洲、南美洲和大洋洲的PRSV分离物可以分为2个组,其中第Ⅰ组均为来自中国的分离物,包括了大部分的PRSV云南分离物,第Ⅰ组内分离物间的差异较第Ⅱ组大;第Ⅱ组的分离物来源较为复杂,亚洲、北美洲、南美洲和大洋洲均有分布。基于PRSV CP部分氨基酸序列构建的系统进化树中,各分离物之间没有明显的地理和寄主相关性,而基于PRSV基因组3′端核苷酸序列构建的系统进化树中,除中国大陆分离物和印度分离物外,其他地区的PRSV在进化上与其地理来源有明显的相关性。【结论】PRSV在云南的昆明市、楚雄州、保山市、德宏州、西双版纳州、临沧市、玉溪市、红河州和文山州等地都有不同程度发生,且为害寄主植物涉及番木瓜、南瓜及罗汉果,PRSV侵染罗汉果为云南首次发现。云南PRSV分离物的分子变异很大,但是关于PRSV的分子变异是否与其地理分布及症状表现有关,以及P型和W型的分子区分特征还有待进一步研究。     

重组甘蔗花叶病毒E株系外壳蛋白的纯化及其多克隆抗体制备

目的：制备可用于甘蔗花叶病毒（ScMV）E株系（ScMV-E）检测用多克隆抗体。方法：将ScMV-E外壳蛋白（CP）基因连接到pET29a（＋）上,经PCR检测、酶切及测序鉴定获得重组质粒pET29a-CP,在大肠杆菌BL21（DE3）中诱导表达重组ScMV-E外壳蛋白;采用His Trap Kit纯化目的蛋白,作为抗原免疫新西兰大白兔,制备特异性抗体;通过间接ELISA、Western blot和组织印迹法检测所制备抗体的特异性。结果：SDS-PAGE分析表明,重组融合蛋白含6个组氨酸标记,相对分子质量约43000;Western blot检测显示所获得的抗体特异性良好,间接ELISA法测得血清的效价为1：81 920;甘蔗叶片的组织印迹检测结果显示杂交效果良好。结论：制备的多克隆抗体可直接用于ScMV-E检测,并有望用于制备ScMV-E检测试剂盒。