2.Expression and antigenicity analysis of hepatitis G virus NS5 gene.
Yu CONG ; Hongyuan JIAO ; Wenying ZHANG ; Ruiguang TIAN ; Meiyun ZHAN
Chinese Journal of Experimental and Clinical Virology 2002;16(2):150-153
BACKGROUNDTo determine the antigenicity of HGV NS5 recombinant proteins expressed in E.coli.
METHODSHGV NS5a,NS5b and core/NS5b fusion genes were cloned into pThioC vector. Three expression plasmids were transformed into JM109(DE3) competent cells then expressed with induction by IPTG. Western blot and ELISA were used to determine the antigenicity after the three recombinant proteins were purified.
RESULTSAfter identification by restriction enzyme and sequencing, it was confirmed that the expressed was target proteins espected. Purified expression proteins were found strongly immunoreactive among anti HGV positive sera by Western blot and ELISA. Compared with mixed recombinant antigen (including core, NS5a synthetic peptide and NS3 recombinant proteins), in the 22 positive sera detected with mixed antigen, 68%(15/22), 90%(20/22) and 73%(16/22) were positive by P5a,P5b and Pc?5b antigens; In the 70 negative samples with mixed antigen, 7%(5/70), 1%(1/70) and 6%(4/70) were positive by P5a, P5b and Pc?5b antigens. The positive alone was found among RTPCR positive specimen using these recombinant antigens.
CONCLUSIONSNS5 gene expressed in E.coli?which couldn't be covered with other regions of antigens was one of the essential epitopes to HGV immunologic diagnosis.
Antibodies, Viral ; blood ; Antigens, Viral ; blood ; Epitopes ; immunology ; GB virus C ; genetics ; immunology ; Humans ; Plasmids ; genetics ; Recombinant Proteins ; biosynthesis ; immunology ; Viral Nonstructural Proteins ; genetics ; immunology
3.Expression and identification of truncated Nsp7 protein of North American and Europe genotype porcine reproductive and respiratory syndrome virus.
Peng QIU ; Kun NING ; Lin CAI ; Qi LIU ; Baoyue WANG ; Xinyan ZHAI ; Xiuling YU ; Jianqiang NI ; Kegong TIAN
Chinese Journal of Biotechnology 2013;29(1):21-30
Porcine reproductive and respiratory syndrome virus (PRRSV) non-structural protein 7 (Nsp7) plays an important role in the induction of host humoral immune response and could serve as an ideal antigen for serological genotyping assay for PRRSV based on the significant difference in immunoreactivities of North American (NA) and European (EU) PRRSV Nsp7. In this study, Nsp7 of NA and EU PRRSVwas separately expressed and purified using prokaryotic expression system. The purified recombinant Nsp7 proteins reacted with serum antibodies against corresponding genotype PRRSV in Western blotting. However, nonspecific reaction of whole recombinant Nsp7 with antibodies against another genotype PRRSV was observed, indicating that whole NA PRRSV Nsp7 and EU PRRSV Nsp7 have similar antigenic epitopes and recombinant proteins could not be used for genotyping of antibodies against PRRSV. Based on the analysis of similar antigenic epitopes at the hydrophilic region of NA PRRSV Nsp7 and EU PRRSV Nsp7 by bioinformatics assessment, partial Nsp7 gene region deleted sequences encoding similar antigenic epitopes was constructed by fusion PCR. The recombinant truncated Nsp7 (NA-deltaNsp7 and EU-deltaNsp7, about 43 kDa) was expressed and the molecular weight was about 43 kDa. The results of Western blotting showed that NA-deltaNSP7 and EU-deltaNSP7 could be specifically recognized by positive serum to NA or EU PRRSV individually and nonspecific reaction was eliminated. This study provided a basis for further development of serological genotyping assay for North American and European genotype PRRSV infection.
Animals
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Genotype
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Porcine respiratory and reproductive syndrome virus
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classification
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genetics
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immunology
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Recombinant Proteins
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biosynthesis
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immunology
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Swine
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Viral Nonstructural Proteins
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biosynthesis
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immunology
5.Roles of N-glycosylation in immunity of prME and NS1 gene of JEV.
Zi-Zhong ZHANG ; Xue WANG ; Jun-Jie ZAI ; Le-Qiang SUN ; Yun-Feng SONG ; Huan-Chun CHEN
Chinese Journal of Virology 2012;28(3):213-218
PrME and NS1 gene were the two main immuneprotect proteins of Japanese encephalitis virus (JEV), and they were also N-linked glycosylation proteins. To clear the effect of N-glycosylation on JEV immunity, the N-glycosylation site of prME and NS1 gene were eliminated by site-directed mutant PCR, subtituting the N to Q. And the the mutant genes were subcloned into eukaryotic expression plasmid. Four-weeks female mice were immuned with the wildtype and mutant gene by twice. The antibodies against prME were detected by ELISA and the neutralization antibodies were tested by viral neutralizing assay. The immunoprotection were determined by attack with JEV virulent strain. Compare with the wild-type gene immuned-groups, one N-glycan eliminated prME gene could induce a little higher ELISA antibody, neutralization antibody and immunoprotection, but the immunity of gene with both N-glycan absence was decreased. The similar status were observed in the wildtype and mutant NS1 groups. Thus these results show that the N-linked glycosylation in the prME and NS1 gene were correlated with the immunity, one glycan absent would enhance the immunity but both two loss would impair it.
Animals
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Antibodies, Viral
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immunology
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Encephalitis Virus, Japanese
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genetics
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immunology
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metabolism
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Encephalitis, Japanese
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immunology
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virology
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Female
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Glycosylation
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Humans
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Mice
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Mice, Inbred BALB C
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Viral Nonstructural Proteins
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genetics
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immunology
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metabolism
6.Epitope mapping of hepatitis C virus non-structure protein 5 from a 7 peptide phage library by using immobilized specific monoclonal antibody.
Yan Wei ZHONG ; Jun CHENG ; Gang WANG ; Xiao Jun TIAN ; Xinhua CHEN ; Yan LIU ; Li LI ; Ling Xia ZHANG ; Ju Mei CHEN
Chinese Journal of Hepatology 2002;10(4):266-268
OBJECTIVETo screen HCV NS5 mimotopes by using monoclonal antibody and phage peptide library.
METHODSBy using HCV NS5 monoclonal antibody as selective molecule, a 7 peptide phage library was biopanned and positive clones were selected by ELISA, competition assay and DNA sequencing.
RESULTSTwelve positive clones were chosen for DNA sequencing. From the experiment and sequencing comparison results, one epitope was confirmed as the mimotope of HCV NS5.
CONCLUSIONSHCV mimotope is obtained by phage peptide library screening. The result provides a new approach for HCV therapy and vaccine development.
Amino Acid Sequence ; Antibodies, Monoclonal ; immunology ; Enzyme-Linked Immunosorbent Assay ; Epitope Mapping ; Hepatitis C ; therapy ; Peptide Library ; Viral Nonstructural Proteins ; chemistry ; genetics ; immunology ; Viral Vaccines ; immunology
7.Construction of rice stripe virus NS2 and NS3 Co-RNAi transgenic rice and disease-resistance analysis.
Lu-ping ZHENG ; Chen LIN ; Li-yan XIE ; Zu-jian WU ; Lian-hui XIE
Chinese Journal of Virology 2014;30(6):661-667
NS2 and NS3 are two post-transcriptional gene silencing suppressors that are encoded by Rice stripe virus. Gene silencing suppressors are always related to the pathogenicity of viruses. In this study, the cDNA of NS2 and NS3 were recombined by overlapping PCR assays, ligated to the RNAi vector, and inserted into the PXQ expression vector using Pst I; the expressed vector was transferred into calluses induced from seeds of the japonica rice cultivar, 'Nipponbare', using an Agrobacterium-mediated method. Thirty-one T0 transgenic plants were selected by G418 screening. PCR and southern blot analyses confirmed that the target gene was transformed into transgenic rice successfully, and different transgenic plants contained various copies of the gene. The disease resistance assay revealed that T0 transgenic rice had a delayed onset of RSV for approximately 10-20 d, and the accumulation of virus in the transgenic plants was reduced by 30%-50%. This was related to the delayed onset of disease.
Disease Resistance
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Oryza
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genetics
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immunology
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virology
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Plant Diseases
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genetics
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immunology
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virology
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Plants, Genetically Modified
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genetics
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immunology
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virology
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RNA Interference
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Tenuivirus
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genetics
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immunology
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Viral Nonstructural Proteins
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genetics
;
immunology
8.To evaluate the neutralizing abilities of anti-dengue virus antibodies with nonstructural protein 1 antigen capture enzyme-linked immunosorbent assay.
Kun WEN ; Yan-qing DING ; Li-wen QIU ; Yu-xian PAN ; Jian-piao CAI ; Cai-feng YUE ; Biao DI ; Xiao-yan CHE
Chinese Journal of Preventive Medicine 2009;43(8):680-685
OBJECTIVETo produce neutralizing antibodies against envelope protein domain III (EDIII) of dengue virus serotype I (DENV-1) and evaluate the nonstructural protein 1 (NS1) antigen capture enzyme-linked immunosorbent assay (ELISA) for identification of antibody neutralizing abilities.
METHODSFive BALB/c mice and one New Zealand Rabbit were immunized with recombinant EDIII protein of DENV-1 for the production of hybridomas and hyperimmune sera. Indirect ELISA, immunofluorescence assay (IFA) and Western Blot analyses were applied to identify specificity of antibodies. Comparing to plaque reduction neutralization test (PRNT), the new established DENV-1 specific NS1 antigen capture ELISA was used for detecting the neutralizing abilities of these antibody.
RESULTSFour strains of monoclonal antibodies (mAbs) named 1A1, 1B3, 3D3 and 9D6 and one hyperimmune serum of rabbit were obtained, all of which were approved to have neutralizing abilities to DENV-1 with the PRNT titer of 1:1024, 1:512, 1:256, 1:4096 and 1:4096. MAb 3D3 with the lowest neutralization titer in PRNT had not shown neutralizing ability to DENV-1 in NS1 antigen capture ELISA, while MAbs 1A1, 1B3 and 9D6 and the rabbit hyperimmune serum could protect the C6/36 from being infected by DENV-1 with the neutralization titer of 1:32, 1:32, 1:128 and 1:128 in this assay.
CONCLUSIONNS1 antigen capture ELISA could be used to identify antibody neutralizing abilities to DENV, it was a faster and more convenient way to screen antibodies with high neutralization titer and might also be used as one of the methods to evaluate the effects of vaccines.
Animals ; Antibodies, Neutralizing ; immunology ; Antibodies, Viral ; immunology ; Dengue Virus ; immunology ; Enzyme-Linked Immunosorbent Assay ; methods ; Female ; Mice ; Mice, Inbred BALB C ; Neutralization Tests ; Rabbits ; Viral Envelope Proteins ; immunology ; Viral Nonstructural Proteins ; immunology
9.Research progress in the structure and function of dengue virus non-structural 1 protein.
Yue CHEN ; Rui-wen REN ; Jian-wei LIU
Chinese Journal of Virology 2014;30(6):683-688
Dengue virus (DENV) is a re-emerging disease transmitted by the Aedes mosquitoes and has become a major public health problem in southern China. Currently, no antiviral drug or effective vaccine exist to control this disease. The chimeric DENV structural protein vaccine cannot elicit balanced levels of protective immunity to each of the four viral serotypes; therefore, non-structural protein components may be required to construct an effective DENV vaccine. The Dengue virus non-structural 1 (DENV NS1) protein plays a critical role in viral pathogenesis and protective immunity. Therefore, immunity to Dengue 1-4 NS1 subtypes may be crucial for the prevention of severe disease. This review attempts to provide an overview about the structure and function of DENV NS1.
Animals
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Dengue
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immunology
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prevention & control
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virology
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Dengue Vaccines
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chemistry
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genetics
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immunology
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Dengue Virus
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chemistry
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genetics
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immunology
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Humans
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Viral Nonstructural Proteins
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chemistry
;
genetics
;
immunology
10.Selection and application of serotypical synthetic peptides derived from hepatitis C virus NS5A region.
Xiao-guang DOU ; Lin ZHANG ; Zhi-wei LI ; Guo-he FENG ; Joy CHANG ; Howard FILDES ; Yuri KHUDYAKOV
Chinese Medical Journal 2007;120(13):1159-1165
BACKGROUNDNumerous studies have reported a relationship between hepatitis C virus (HCV) genotype and the response to interferon therapy. Despite high sensitivity and specificity, genotyping methods can be performed only on HCV RNA positive samples. Serotyping might be a rapid and cost effective method for determining HCV genotypes, especially in patients with previously undetectable HCV RNA. In this study, an enzyme linked immunosorbent assay (ELISA) method for HCV serotyping with the genotype specific, synthetic peptides derived from HCV nonstructural 5a (NS5A) region was developed.
METHODSBased on 45 sequences, representing HCV genotypes 1 - 6 from Genebank, we synthesised 305 overlapping 30-mer peptides within NS5A region at positions 2182 - 2343 of HCV. All peptides for antigenic reactivity were tested by enzyme immunoassay with 69 human sera with antiHCV positive representing genotype 1 - 6. Forty hepatitis C patient sera were serotyped using serotype specific, synthetic peptides and genotyped by sequencing analysis.
RESULTSThe correspondence of amino acids in HCV NS5A region with amino acids in positions 2182 - 2343 was very low among different genotype peptides. The highly conserved sequences were residues 2182 - 2211 (R1), 2272 - 2301 (R7) and 2302 - 2331 (R9): the highly variable 2212 - 2241 (R3) and 2257 - 2286 (R6). Using 305 peptides, antigenic regions were located in R3, R7 and R9. Eighteen peptides from highly conserved region representing genotypes 1 to 6 showed broad immunoreactivity with sera containing antibody to all HCV genotypes. Immunoreactivity of the peptides from highly variable region was stronger with similar genotype sera. Twelve unique peptides showed highly, genotype specific, reactivity with types 1 and 3 sera. Type 2 genotype specific peptides had cross reaction with type 3 serum. No type 4, 5 or 6 specific peptides were selected. The serotyping results showed high agreement with sequencing analysis.
CONCLUSIONSThe major antigenic regions in HCV NS5A region were at 2212 - 2241 (R3), 2272 - 2301 (R7) and 2302 - 2331 (R9). Eighteen peptides from highly conserved region show genotype independent, immunoreactivity, useful for antiHCV antibody test. Twelve peptides from highly variable region show genotype 1 and 3 dependent immunoreactivity, useful for determining HCV serotype, especially for patients with previously undetectable HCV RNA.
Amino Acid Sequence ; Genotype ; Hepacivirus ; classification ; genetics ; Humans ; Molecular Sequence Data ; Serotyping ; Viral Nonstructural Proteins ; chemistry ; immunology