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 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.     

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.     

Simultaneous detection of potato viruses Y and X by DAC-ELISA using polyclonal antibodies raised against fused coat proteins expressed in Escherichia coli

Polyclonal antibodies were raised against the bacterial expressed fused coat proteins (CPs) of Potato virus Y (PVY) and Potato virus X (PVX). Truncated CP sequences of PVY (~246 bp) and PVX (~243 bp) were amplified by PCR, cloned into T&A cloning vector and subsequently mobilized in a protein expression vector pET-28b (+). The recombinant CP was expressed as a fusion protein (~20 kDa) with His-tag and purified from E. coli BL21 (DE3) using His-Bind resin. The specificity of the recombinant protein was confirmed by Western blot using previously made polyclonal antibodies against each virus. Polyclonal antibodies developed against the fused CPs in rabbit detected natural infection of PVY and PVX in potato leaf samples collected from IARI experimental farm, by direct antigen-coated enzyme-linked immunosorbent assay (DAC-ELISA).     

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).     

Transient expression of heterologous model gene in plants using <Emphasis Type="Italic">Potato virus</Emphasis><Emphasis Type="Italic">X</Emphasis>-based vector

To optimize the efficiency of expression of foreign proteins using Potato virus X (PVX) -- based vector, the gene for the coat protein (CP) of other virus (Potato virus A, PVA) was cloned into the vector, propagated in E. coli and subsequently inoculated or agroinfected into the host plants. Host range studies showed that the best host plant is N. benthamiana. By means of RT PCR the presence and the stability of the construct were tested. Both ELISA and Western blot analysis were applicable for expressed protein detection. Expression level of PVA CP achieved approximately 5--10 per mille of total soluble proteins. The results demonstrated that agroinfection is the most suitable method for the propagation of our model gene using PVX--based vectors.     

Serological Detection of Grapevine leafroll virus 2 Using an Antiserum Developed against the Recombinant Coat Protein†

Grapevine leafroll associated virus 2 (GLRaV 2) is one of the important components in the leafroll disease complex. The coat protein gene of GLRaV 2 was cloned into a protein expression vector pMAL‐c2x and the recombinant protein, consisting of the maltose binding protein (MBP) and GLRaV 2 coat protein (CP), was expressed in Escherichia coli. The recombinant MBP‐CP was used to raise a high quality antiserum. When used in Western blot analysis, the anti‐MBP‐CP antiserum produced specific reaction to the recombinant protein as well as to the viral coat protein of GLRaV 2. In Immunosorbent electron microscopy study, the anti‐MBP‐CP antibodies strongly decorated the GLRaV 2 virions. Using the newly developed antiserum, an indirect plate‐trapped antigen enzyme‐linked immunosorbent assay method was developed and successfully implemented for virus detection. A field survey was conducted to evaluate the virus infection status by GLRaV 2 and GLRaV 3 using antibodies developed against their respective recombinant coat proteins.     

Development of Immunoreagents for Diagnostics of CagA‐Positive Helicobacter pylori Infections

Background: Helicobacter pylori strains expressing cytotoxic CagA protein are more likely to provoke severe gastric mucosal pathology and cause adenocarcinoma development than that lacking CagA. Determination of the CagA‐status of a pathogen, therefore, is regarded as informative approach in H. pylori infection diagnostics and disease risk prediction. Materials and Methods: Molecular cloning, recombinant protein expression in Escherichia coli, affinity chromatography, electrophoresis and commonly used techniques of hybridoma production and screening were used as well as different immunosorbent assays and Western blot procedures. Results: Four overlapping N‐terminally His₆‐tagged recombinant fragments of CagA that covered the entire CagA sequence were produced and purified. An ELISA for specific anti‐CagA serum antibodies detection was developed and evaluated. Utilizing recombinant fragments, the first set of monoclonal antibodies against CagA‐antigen was produced and characterized. Three antibodies recognized distinct linear epitopes inside conserved regions of the cytotoxin whereas the epitope of the forth antibody was mapped in the variable area of CagA. The monoclonal antibodies allowed discriminating CagA‐positive and CagA‐negative H. pylori strains by means of Western blot and immunosorbent assays. Conclusions: The use of recombinant protein technology allowed obtaining pure CagA antigen, thus providing new perspectives for development of immunodiagnostic reagents. The set of monoclonal antibodies is a valuable tool for determination of CagA‐status of H. pylori infection and for the investigation of cytotoxin molecule as well.     

基于脂蛋白P80的滑液支原体抗体ELISA检测方法的建立及应用

【目的】研究滑液支原体(Mycoplasma synoviae, MS)脂蛋白P80的免疫反应性及其在MS血清抗体ELISA检测中的应用。【方法】对MSP80的氨基酸序列进行生物信息学分析、原核表达和纯化,并用免疫印迹法分析其与6种不同MS分离株阳性血清的免疫反应性以及与其他禽病原血清的交叉反应性;运用纯化的MS P80表达蛋白作为包被抗原建立了MS血清抗体的间接ELISA检测方法,对其敏感性和重复性进行检测;比较检测了与美国爱德士检测试剂盒对50份临床血清样品的阳性符合率。【结果】生物信息学分析预测MS P80蛋白为脂蛋白且含有信号肽,其在MS种内同源性高达98%-100%,与其他种属P80蛋白同源性在25%-34%之间,成功表达和纯化了MS P80重组蛋白(rMS P80);Western blotting分析表明纯化的rMS P80具有良好的免疫反应性和特异性;运用rMS P80建立的MS血清ELISA抗体检测方法可对不同株MS阳性血清进行抗体效价检测,而对其他禽病原阳性血清均无交叉反应性;该检测方法的批内变异系数小于5%,批间变异系数小于10%,重复性良好;与美国IDEXX检测试剂盒比较,本文建立的ELISA抗体检测方法敏感性更高,阳性符合率为75%,阴性符合率为89.47%,总样本符合率为86%。【结论】MS P80具有较好的免疫反应性、种内保守性和种间特异,并且可用作MS抗体检测的靶标抗原。     

Use of Clq enzyme-linked immunosorbent assay to detect plant viruses and their serologically different strains

Clq was prepared from bovine serum using a simple method involving repeated dialysis at low ionic strength in the presence of chelating agents (yield c. 3 mg/100 ml serum). It was viable when stored at -18°C for up to 2 months, and at 4°C for at least 10 wk in a storage buffer containing 10% sucrose. When used in Clq ELISA this test was as sensitive as the direct double antibody sandwich form of ELISA (direct ELISA) in detecting purified potato virus Y (PVY), with a limit of detection in both methods of c. 15 ng/ml, and slightly more sensitive in detecting purified cocksfoot mild mosaic virus (CMMV), with limits of detection of c. 15 ng/ml and c. 15–60 ng/ml respectively. Using an antiserum to one strain of each virus, Clq ELISA readily detected strains of PVY, CMMV, Andean potato latent virus (APLV) and barley yellow dwarf virus (BYDV). This included detection of APLV-Hu by APLV-Caj antibodies and CMMV(G) by PMV(S) antibodies, neither of which system gives detection in direct ELISA. Clq ELISA was therefore less specific than direct ELISA in detecting serologically different virus strains. Virus detection by Clq ELISA was inhibited when sap of tobacco, Nicotiana clevelandii and Setaria italica was used at low dilution. Inhibition by N. clevelandii sap was alleviated by using increased concentrations of virus specific antibody to detect APLV and plum pox virus. Also, extracting APLV infective N. clevelandii or CMMV infective S. italica saps in a minimum of buffer, centrifuging at low speed and diluting the supernatant before testing, partially overcame the inhibition. The inhibitory substance(s) in sap may act by preventing the binding of Clq to virus-antibody aggregates. Sap of wheat, oat and barley did not appear to have an inhibitory effect and BYDV was readily detected in naturally infected field grown plants of these species.     

Polyclonal antibodies against the recombinantly expressed coat protein of the Citrus psorosis virus

Psorosis is a damaging disease of citrus that is widespread in many parts of the world. Citrus psorosis virus (CPsV), the type species of the genus Ophiovirus, is the putative causal agent of psorosis. Detection of CPsV by laboratory methods, serology in particular is a primary requirement for large-scale surveys but their production has been impaired by the difficulty of obtaining sufficient clean antigen for immunization. Specific PAbs against coat protein were produced in E. coli using recombinant DNA approach. The full length CP gene fragment was amplified by RT-PCR using total RNA extracted from CPsV infected citrus leaves and CP specific primers. The obtained product (1320bp) was cloned, sequenced and sub-cloned into p^ET-30(+) expression vector. Expression was induced and screened in different bacterial clones by the presence of the expressed protein (48kDa) and optimized in one clone. Expressed CP was purified using batch chromatography under denaturing conditions. Specificity of expressed protein was demonstrated by ELISA before used as antigen for raising PAbs in mice. Specificity of the raised PAbs to CPsV was verified by ELISA and western blotting. The raised PAbs were showed highly effectiveness in screening by ELISA comparing with the commercial antibodies purchased from Agritest, Valanzano, Italy.The expression of CPsV CP gene in E. coli, production of PAbs using recombinant protein as an antigen, the suitability of these antibodies for use in immunodiagnostics against the CPsV Egyptian isolate have been accomplished in this work.     

Strong resistance to potato tuber necrotic ringspot disease in potato induced by transformation with coat protein gene sequences from an NTN isolate of Potato virus Y

The potato cv. Igor is susceptible to infection with Potato virus Y (PVY) and in Slovenia it has been so severely affected with NTN isolates of PVY causing potato tuber necrotic ringspot disease (PTNRD) that its cultivation has ceased. Plants of cv. Igor were transformed with two transgenes that contained coat protein gene sequence of PVY^NTN. Both transgenes used PVY sequence in a sense (+) orientation, one in native translational context (N‐CP), and one with a frame‐shift mutation (FS‐CP). Although most transgenic lines were susceptible to infection with PVY^NTN and PVY^O, several lines showed resistance that could be classified into two types. Following manual or graft inoculation, plants of partially resistant lines developed some symptoms in foliage and tubers, and virus titre in the foliage, estimated by ELISA, was low or undetectable. In highly resistant (R) lines, symptoms did not develop in foliage and on tubers, and virus could not be detected in foliage by ELISA or infectivity assay. Four lines from 34 tested (two N‐CP and two FS‐CP) were R to PVY^NTN and PVY^O and one additional line was R to PVY^O. When cv. Spey was transformed with the same constructs, they did not confer strong resistance to PVY^O.     

Isolation of a Fusion Protein Containing the Antigenic Domain 1 of Human Cytomegalovirus Glycoprotein B and its Application in ELISA Tests

The glycoprotein B (gB) of human cytomegalovirus represents a dominant antigen for the humoral immune response. The immunodominant region on gB is the antigenic domain 1 (AD-1), a complex structure that requires a minimal continuous sequence of more than 75 amino acids for antibody binding. In this study, this domain was expressed in Escherichia coli as a fusion protein with β-galactosidase but yielded insoluble protein aggregates as inclusion bodies. To recover the fusion protein, inclusion bodies were solubilized by two extractions with urea 8 m and the fusion protein then isolated using gel filtration chromatography. After confirmation of fusion protein antigenicity by Western blotting, the purified product was used as the capturing antigen in an enzyme-linked immunosorbent assay (ELISA) to determine the presence of viral antibodies in serum samples of pregnant women. A cut-off point of approximately 0.2 absorbance units could discriminate the results of seropositive from seronegative pregnant women. The data indicates the potential usefulness of the fusion protein for the development of immunoassay for detection of the HCMV antibodies. Received 22 September 2005; Revisions requested 10 October 2005; Revisions received 26 October 2005; Accepted 31 October 2005     

Comparison of ELISA and immunoblotting techniques for the detection of cherry mottle leaf virus

Formaldehyde treated cherry mottle leaf virus (ChMLV) and the isolated coat protein were used successfully for the production of polyclonal and monoclonal antibodies. The monoclonal antibodies had a titre of 1:51 200 and consisted of IgG1 and IgG2. The antibodies reacted with all 11 isolates of ChMLV, from five locations in Canada and the USA, included in this study. Several serological procedures were assessed to compare their sensitivity for detecting ChMLV. Plate-trapped antigen ELISA (PTA-ELISA) and dot-blot immunobinding assay (DBIA), using virus specific MAbs, were the most sensitive tests in this study. Triple antibody sandwich ELISA (TAS-ELISA) and Western blot were found to be less sensitive. Dilution of the samples appeared to increase the sensitivity of both PTA-ELISA and Western blot detection. Young leaves and flowers of Prunus avium were the best tissue for detecting the virus which could also be detected in the fruit and leaves of P. tomentosa. April and May were optimal for detection of the virus in the field, whereas both April to May and August to September were optimal for screenhouse-grown plants.     

Detection of Colletotrichum falcatum causing red rot of sugarcane by enzyme-linked immunosorbent assay

Red rot disease of sugarcane caused by Colletotrichum falcatum Went is one of the most destructive diseases of sugarcane (Saccharum officinarum L.) worldwide. The pathogen spreads primarily through infected sugarcane setts and hence the use of disease-free setts is essential to prevent the disease. In order to develop immunological method for detection of C. falcatum, two proteins with molecular weights of 27 kDa and 45 kDa were purified from the mycelium of C. falcatum race Cf 05 and used as antigen source to raise polyclonal antibodies in NewZealand white rabbit. The developed polyclonal antibodies were tested for detection of C. falcatum by enzyme-linked immunosorbent assay (ELISA) and immunoblot analysis. The polyclonal antibodies specifically detected C. falcatum in extracts from infected plants, both in immunoblot and ELISA. The ELISA results showed that the developed polyclonal antibodies were highly specific to C.falcatum. The developed antibodies were very sensitive and could detect C.falcatum proteins even at a dilution of 1:50,000. Higher ELISA absorbance values were recorded even at an antigen dilution of 1:500. In western blot analysis, protein bands with molecular weights of 27 kDa and 45 kDa reacting to antisera raised against 27 kDa and 45 kDa mycelial proteins of C. falcatum, respectively, were detected in protein samples from red rot infected canes. The high specific reactivity and sensitivity of the antisera indicate its potential suitability for ELISA-based detection of C. falcatum.     

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.     

Clearance of false-positive antigen-antibody reactions of a diagnostic antigen produced inEscherichia coli with human sera

Although many pharmaceutically useful proteins are produced inE. coli expression system, it is very rare for the system to be used in the production of diagnostic antigen due to a major problem,i.e., false-positive reaction ofE. coli host-derived proteins contaminating purified diagnostic antigen with human sera. The N (nucleocapsid) protein of Seoul virus causing haemorrhagic fever with renal syndrome (HFRS) was produced inE. coli BL21 (DE3), and used for the detection of N protein-specific antibodies in human sera. Using the N protein as a diagnostic antigen of HFRS, the false-positive reaction was cleared by merely mixing the test sera with the extract ofE. coli host strain not harboring expression plasmid.     

基于N蛋白单克隆抗体的小反刍兽疫病毒抗体检测胶体金试纸条的研制

本研究旨在建立一种简便、快捷、可直观检测小反刍兽疫病毒(peste des petits ruminants virus,PPRV)抗体的检测方法。将pET-32a-N重组质粒转化至大肠杆菌(Escherichia coli) Rosetta(DE3)感受态细胞中进行诱导表达,以纯化的PPRVN蛋白免疫8周龄BALB/c小鼠,取其脾细胞与SP2/0骨髓瘤细胞进行融合,间接酶联免疫吸附试验(enzyme-linked immunosorbent assays, ELISA)筛选及亚克隆,获得了抗PPRV N蛋白的单克隆抗体。将PPRV N蛋白分别作为金标抗原及检测线(T线)包被抗原、单克隆抗体作为质控线(C线)包被抗体,组装成检测PPRVN蛋白抗体的胶体金免疫层析试纸条。结果显示：成功获得1株能稳定分泌抗N蛋白抗体的杂交瘤细胞株,命名为1F1;间接ELISA检测1F1腹水效价为1:128000;亚类鉴定结果为IgG1,轻链为kappa链。Westernblotting结果显示,1F1能与PPRV N蛋白特异性结合;间接免疫荧光(indirect immunofluorescent ass...     

Development of an indirect sandwich ELISA for detection of urinary antigen,using Legionella pneumophila PAL protein

Legionella pneumophila peptidoglycan-associated lipoprotein (PAL) protein is an extremely conserved antigen among Legionella species. In this study, rabbit and rat anti-PAL immunoglobulin G antibodies were produced by immunization with purified, recombinant PAL (r-PAL) protein of L. pneumophila serogroup 1 and used as capture and detection antibodies in the PAL antigen-based enzyme-linked immunosorbent assay (ELISA) to detect urinary PAL antigen. Urine samples were obtained from rats experimentally infected with L. pneumophila serogroup 1. The PAL antigen was measured in urine samples of 40 infected and 40 uninfected rats. After choosing the cut-off value of 0.192, the sensitivity and specificity of the PAL antigen-based ELISA were 87.5 and 97.5 %, respectively. The results obtained by PAL antigen base ELISA were compared with those obtained by Biotest. The PAL antigen was detected efficiently by both of the assays and all of the control human urine samples were negative by the ELISA test. The PAL antigen-based ELISA assay was relatively simple to perform, precise, highly sensitive and specific, and reproducible. Based on our data the PAL antigen-based ELISA described here is the first indirect sandwich ELISA for urinary antigen detection which could easily be applied for diagnosis of Legionnaires disease.