1.Co-occlusion of foreign protein into polyhedra with BmNPV polyhedrin.
Xing-Wei XIANG ; Rui YANG ; Lin CHEN ; Xiao-Long HU ; Shao-Fang YU ; Xiao-Feng WU
Chinese Journal of Virology 2011;27(4):366-371
In order to make clear the packing mechanism of the BmNPV polyhedra, a polyhedrin gene negative recombinant baculovirus, vBmBac(polh-)-5B-EGFP, expressing EGFP was constructed, and used to infect BmN cells jointly with wild-type BmNPV. Fluorescent microscopic observation demonstrated that EGFP and polyhedrin were expressed simultaneously, and the EGFP expression and polyhedra formation occurred in most of the jointly infected cells. Analysis of the purified polyhedra from jointly infected BmN cells showed that the foreign proteins were present in the polyhedra. The results indicated that BmNPV polyhedrin could incorporate proteins other than viral proteins into the polyhedra. It implies that a nonspecific recognition mechanism exists in the embedment of BmNPV polyhedra.
Animals
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Bombyx
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Gene Expression
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Green Fluorescent Proteins
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genetics
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metabolism
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Nucleopolyhedrovirus
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genetics
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physiology
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Viral Structural Proteins
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genetics
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metabolism
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Virus Assembly
2.The structural and accessory proteins M, ORF 4a, ORF 4b, and ORF 5 of Middle East respiratory syndrome coronavirus (MERS-CoV) are potent interferon antagonists.
Yang YANG ; Ling ZHANG ; Heyuan GENG ; Yao DENG ; Baoying HUANG ; Yin GUO ; Zhengdong ZHAO ; Wenjie TAN
Protein & Cell 2013;4(12):951-961
The newly emerged Middle East respiratory syndrome coronavirus (MERS-CoV) is a highly pathogenic respiratory virus with pathogenic mechanisms that may be driven by innate immune pathways. The goal of this study is to characterize the expression of the structural (S, E, M, N) and accessory (ORF 3, ORF 4a, ORF 4b, ORF 5) proteins of MERS-CoV and to determine whether any of these proteins acts as an interferon antagonist. Individual structural and accessory protein-coding plasmids with an N-terminal HA tag were constructed and transiently transfected into cells, and their native expression and subcellular localization were assessed using Wes tern blotting and indirect immunofluorescence. While ORF 4b demonstrated majorly nuclear localization, all of the other proteins demonstrated cytoplasmic localization. In addition, for the first time, our experiments revealed that the M, ORF 4a, ORF 4b, and ORF 5 proteins are potent interferon antagonists. Further examination revealed that the ORF 4a protein of MERS-CoV has the most potential to counteract the antiviral effects of IFN via the inhibition of both the interferon production (IFN-β promoter activity, IRF-3/7 and NF-κB activation) and ISRE promoter element signaling pathways. Together, our results provide new insights into the function and pathogenic role of the structural and accessory proteins of MERS-CoV.
Cell Line
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Coronavirus
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genetics
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pathogenicity
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Genes, Viral
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Humans
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Interferons
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antagonists & inhibitors
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Open Reading Frames
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Recombinant Proteins
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genetics
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metabolism
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Viral Matrix Proteins
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genetics
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metabolism
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Viral Regulatory and Accessory Proteins
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genetics
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metabolism
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Viral Structural Proteins
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genetics
;
metabolism
3.Construction of mammalian cell lines continuously expressing JEV structural proteins.
Shan LIU ; Ying HUANG ; Peng YANG ; Zhi-Wei SUN ; Wei-Yuan YU
Chinese Journal of Virology 2009;25(4):279-285
Based on the infectious clone of JEV vaccine strain SA14-14-2, prM-E genes and C-prM-E genes were cloned into pCDNA3.1 vector. The recombinant plasmid pCJE-ME was transfected into BHK-21 cells, the expressed proteins were toxic to the cell growth and accelerated the cell death. But when transfected with the plasmid pCJE-CME, the cell lines continuously expressing structural proteins could be selected with G418. And the expression products of pCJE-CME vector could be detected by ELISA, Western Blot and IFA assay. It showed that the JEV capsid protein could enhance the stability of the cell lines expressing the structural proteins. The established cell lines can make the acquirement of the virus-like particles much easier.
Animals
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Apoptosis
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CHO Cells
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Capsid Proteins
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genetics
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metabolism
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Cell Line
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cytology
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virology
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Cricetinae
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Cricetulus
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Encephalitis Virus, Japanese
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genetics
;
metabolism
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Gene Expression
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Genetic Vectors
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Viral Structural Proteins
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genetics
;
metabolism
4.Development and Identification of the Recombinant Lentivirus Co-expressing HCV Structural Protein and Secreted Gaussia Luciferase (Gluc).
Ling ZHANG ; Xiaoming LIU ; Jingdong SONG ; Yan XIN ; Yao DENG ; Wenjie TAN
Chinese Journal of Virology 2015;31(2):174-179
To develop a recombinant lentivirus co-expressing structural protein of hepatitis C virus (HCV) and secreted Gaussia Luciferase (Gluc), we first constructed an expression vector that encoded HCV structural protein (C, E1, E2) and GLuc named pCSGluc2aCE1E2. The expression of HCV proteins and Gluc was confirmed by an immunofluorescence assay (IFA) and the detection of luciferase activity. Recombinant lentivirus (VSVpp-HCV) was developed by the co-transfection of pCSGluc2aCE1E2 into 293T cells with pHR'CMVA8.2 and pVSVG. The infectivity of VSVpp-HCV was confirmed by luciferase activity detection, IFA and western blotting. Virus-like particles were identified using electron microscopy after concentration. The results showed that the level of luciferase activity correlated with the expression of HCV protein after the infection of cells with lentivirus VSVpp-HCV. Therefore, the expression level of HCV proteins could be evaluated by detecting the luciferase activity of Gluc. In conclusion, this research pave a way for the development of transgenic mice that express HCV proteins and Gluc, which enable the evaluation of anti-HCV therapy and vaccine in vivo.
Animals
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Copepoda
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Genes, Reporter
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Genetic Vectors
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genetics
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metabolism
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Hepacivirus
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genetics
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metabolism
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Hepatitis C
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virology
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Humans
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Lentivirus
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genetics
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metabolism
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Luciferases
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genetics
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metabolism
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Recombinant Fusion Proteins
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genetics
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metabolism
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Viral Structural Proteins
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genetics
;
metabolism
5.Influence of fusion protein of IBDV VP2 and chicken interleukin-2 on immune response in chicken.
Chen WANG ; Zhanqin ZHAO ; Chunjie ZHANG ; Yichen LIU ; Ke DING ; Yinju LI ; Xiangchao CHENG ; Puyan CHEN
Chinese Journal of Biotechnology 2010;26(4):476-482
In order to research immunogenicity of the recombinant rVP2-IL-2 fusion protein, we obtained the rVP2-IL-2 fusion protein using Pichia pastoris expression system, and then evaluated its potential to induce immune responses in chicken. The effect was determined in the form of protective anti-IBDV VP2 titers, antibodies (IgG1 and IgG2a), lymphocyte proliferation, the levels of interferon-gamma and interleukin-4 cytokines, and challenge experiment. Antibody titers and proliferation lymphocyte level suggested that the fusion protein could elicit specific humoral immune and cellular immune responses, antibody sub-type results indicated that the rVP2-IL-2 fusion protein induced secretion both of IgG1 and IgG2a. The seem result elicited from cytokines ELISA test, secretion of both of Th1 (gamma-IFN) and Th2 (IL-4) were induced by the rVP2-IL-2 fusion protein. Challenge experiment result shown that chicken immunized the rVP2-IL-2 fusion protein obtained 85% protection. These results confirm that the fusion protein enhances the protection against IBDV through both humoral and cell-mediated immunity, and thus could serve as a candidate for the development of IBDV subunit vaccine.
Animals
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Antibodies, Viral
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biosynthesis
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blood
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Chickens
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immunology
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Immunoglobulin G
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blood
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Interleukin-2
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biosynthesis
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genetics
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Pichia
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genetics
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metabolism
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Recombinant Fusion Proteins
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biosynthesis
;
genetics
;
immunology
;
Th1 Cells
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immunology
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Th2 Cells
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immunology
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Vaccines, Subunit
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immunology
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Viral Structural Proteins
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biosynthesis
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genetics
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Viral Vaccines
;
immunology
6.Prokaryotic expression and antigenic activity analysis on the matrix protein genes of two strains of human metapneumovirus recently identified in Beijing.
Shou-Chun CAO ; Yuan QIAN ; Guo-Hua LI ; Ru-Nan ZHU ; Lin-Qing ZHAO ; Ya-Xin DING
Chinese Journal of Virology 2007;23(1):60-62
Human metapneumovirus (hMPV) is a recently identified respiratory virus more like human respiratory syncytial virus in clinical symptoms. Matrix protein (M) is one of the most important structural proteins. For further studying of hMPV, the full length of M genes from the recombinant plasmid pUCm-M1816 and pUCmM1817 were cloned by PCR and sub-cloned into the pET30a(+) vector, which is a prokaryotic expression vector, after dual-enzyme digestion with Bam HI and Xho I. The positive recombinated plasmids were transformed into E. coli BL21 (DE3) and expressed under the inducing of IPTG. Target proteins were characterized by SDS-PAGE and Western blotting. In this article, we' ve successfully constructed the recombinated plasmids pET30a-M1816 and pET30a-M1817 which have correct open reading frames confirmed by dual-enzyme digestion analysis and sequencing. The fusion proteins with 6 x His-N were highly produced after inducing by 1mmol/ L IPTG at 37 degrees C. A unique protein band with approximate 27.6 kD was characterized by SDS-PAGE. Most of the target protein existed in inclusion body. Western blot analysis showed that the target protein has specific binding reaction to rabbit antiserum against polypeptides of the matrix protein of hMPV. So the M genes were highly expressed in the prokaryotic system and the expressed M proteins have specific antigenic activities. It can be used for further studying of hMPV infections in Beijing.
Animals
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Antigens, Viral
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genetics
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immunology
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metabolism
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Blotting, Western
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China
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Gene Expression
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Genetic Vectors
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genetics
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Humans
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Immune Sera
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immunology
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Metapneumovirus
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genetics
;
immunology
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metabolism
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Plasmids
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genetics
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Prokaryotic Cells
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metabolism
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Rabbits
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Species Specificity
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Viral Structural Proteins
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genetics
;
immunology
;
metabolism
7.Expression of capsid gene of Chinese isolate of rabbit hemorrhagic disease virus in Pichia pastoris.
Wei-Wei YAN ; Zhi-Zhong CUI ; Yong-Kun WANG
Chinese Journal of Biotechnology 2005;21(1):135-138
The capsid protein (VP60) gene of RHDV was subcloned into the Pichia expressin vector pPICZ B to express the VP60 protein intracellularly. The recombinant plasmid was initially transformed into a E. coli strain TOP10 F'. After verification of the construct by sequencing, the recombinant plasmid was linearized by Sac I in the 5' AOX1 region and then transformed into Pichia pastoris strain GS115 using the Pichia EasyComp Kit. After selecting and verifing for the insertion of VP60 gene in the genome, two clones of Pichia transformants were select for expression test. The recombinant clones were first inoculate with BMGY in baffled flask at 28-30 degrees C in a shaking incubator (250-300 r/min) until culture reaches an OD600 = 2-6, then resuspend the cell pellet to an OD6oo of 1.0 in BMMY medium to induce expression for 5 days by methanol at a concentration of 0.5% in a 1 liter baffled flask covered with 2 layers of sterile gauze. Collect the cell pellets and break it by acid-washed 0.5 mm glass beads. The expression of recombinant Pichia strains was detected by SDS-PAGE and Western analysis with a polyclonal serum which showed a specific protein band of 60kD. Theses results indicates that the recombinant VP60 produced in Pichia was antigenically similar to the viral polypeptide. Electron microscopic observation of the recombinant Pichia-derived protein revealed the presence of virus-like particles similar in size and appearance to native virus capsids. In the haemagglutination test, the recombinant VLPs, like the native RHDV, also agglutinated human blood type O erythrocytes and could be inhibited by the anti-RHDV polyclonal serum.
Animals
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Capsid
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metabolism
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Escherichia coli
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genetics
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metabolism
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Genetic Vectors
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genetics
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metabolism
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Hemorrhagic Disease Virus, Rabbit
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genetics
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Pichia
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genetics
;
metabolism
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Rabbits
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Recombinant Proteins
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biosynthesis
;
genetics
;
isolation & purification
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Viral Structural Proteins
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biosynthesis
;
genetics
;
isolation & purification
8.Construction of herpes simplex virus-1 virion protein 22-mediated microdystrophin gene recombinant adenovirus and study on the property of protein transduction.
Fu XIONG ; Cheng ZHANG ; Hui ZHENG ; Shao-bo XIAO ; Yong-fei PAN ; Yong-feng XU ; Zheng-shan LIU ; Yong LI
Acta Academiae Medicinae Sinicae 2008;30(4):498-505
OBJECTIVETo construct the recombinant adenovirus containing herpes simplex virus-1 virion protein (VP) 22 and human microdystrophin gene, then the adenovirus was transfected into C2C12 myoblast and studied on the property of protein transduction with VP22-mediated microdystrophin in C2C12 myoblast.
METHODSThe full-length VP22 cDNA was obtained from recombinant plasmid pSINrep5-VP22 with PCR, and the product was directionally inserted into pShuttle-CMV to acquire the plasmid pCMV-VP22. Microdystrophin cDNA was obtained from recombinant plasmid pBSK-micro digested with restrictive endonuclease NotI, and the product was directionally inserted into pCMV-VP22 to acquire the plasmid pCMV-VP22-MICDYS. The plasmid of pCMV-VP22-MICDYS was lined with Pme I, and the fragment containing VP22-microdystrophin was reclaimed and transfected into E1 coli BJ5183 with plasmid pAdeasy-1. After having been screened by selected media, the extracted plasmid of positive bacteria was transfected into HEK293 cells with liposome and was identified by observing the cytopathic effect of cells and by PCR method to acquire the recombinant adenovirus Ad-VP22-MICDYS. Finally, the C2C12 myoblast were transfected with the recombinant adenovirus Ad-VP22-MICDYS and Ad-MICDYS, and the expression of microdystrophin was detected by RT-PCR, Western blot and immunocytochemistry.
RESULTSThe recombinant adenovirus including VP22 and microdystrophin gene was successfully constructed. VP22 transferred VP22-microdystrophin fused protein from infected C2C12 myoblast into uninfected cells and enhance the expression of microdystrophin in myoblast.
CONCLUSIONSRecombinant adenovirus containing VP22 and microdystrophin gene was constructed successfully. VP22 can enhance the expression with microdystrophin in myoblast. It lays the foundation for further studying on VP22-mediated recombinant including microdystrophin gene to cure Duchenne muscular dystrophy.
Adenoviridae ; genetics ; physiology ; Animals ; Cell Line ; Dystrophin ; genetics ; metabolism ; Genetic Vectors ; genetics ; metabolism ; Humans ; Mice ; Myoblasts ; metabolism ; virology ; Simplexvirus ; genetics ; metabolism ; Transduction, Genetic ; Viral Structural Proteins ; genetics ; metabolism ; Virion ; genetics ; metabolism
9.Expression of structural and non-structural proteins of severe fever with thrombocytopenia syndrome bunyavirus.
Jing LU ; Chuan LI ; Fu-Shun ZHANG ; Wei WU ; Quan-Fu ZHANG ; Li ZHANG ; Tao WANG ; Qin WANG ; Pei-Hong QIU ; Mi-Fang LIANG ; De-Xin LI
Chinese Journal of Virology 2011;27(6):515-520
Severe fever with thrombocytopenia syndrome bunyavirus (SFTSV) is a novel phlebovirus, causing a life-threatening illness associated with the symptoms of severe fever and thrombocytopenia syndrome. The sequence and structure of the genome have already been illustrated in previous study. However, the characteristics and function of the structure and non-structure proteins is still unclear. In this study, we identified the density of the purified SFTSV virions as 1.135 g/mL in sucrose solution. Using RT-PCR method, we amplified the full coding sequence of RNA dependent RNA polymerase(RdRp), glycoprotein precursor (M), glycoprotein n (Gn), glycoprotein c (Gc), nuclear protein (NP) and non structural protein (NSs) of SFTSV (strain HB29). Respectively inserted the target genes into eukaryotic expression vector pcDNA5/FRT or VR1012, the target protein in 293T cell were successfully expressed. By analyzing the SFTSV virions in SDS-PAGE and using recombinant viral proteins with SFTS patients sera in Western blotting and Immunofluorescent assay, the molecule weight of structure and non-structure proteins of SFTSV were defined. The study provides the first step to understand the molecular characteristics of SFTSV.
Bunyaviridae Infections
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virology
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Cell Line, Transformed
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Fever
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virology
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HEK293 Cells
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Humans
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Orthobunyavirus
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genetics
;
metabolism
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Thrombocytopenia
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virology
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Viral Nonstructural Proteins
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biosynthesis
;
genetics
;
Viral Structural Proteins
;
biosynthesis
;
genetics
;
Virion
;
genetics
;
metabolism
10.Codon optimization of the rabbit hemorrhagic disease virus (RHDV) capsid gene leads to increased gene expression in Spodoptera frugiperda 9 (Sf9) cells.
Jingpeng GAO ; Chunchun MENG ; Zongyan CHEN ; Chuanfeng LI ; Guangqing LIU
Journal of Veterinary Science 2013;14(4):441-447
Rabbit hemorrhagic disease (RHD) is contagious and highly lethal. Commercial vaccines against RHD are produced from the livers of experimentally infected rabbits. Although several groups have reported that recombinant subunit vaccines against rabbit hemorrhagic disease virus (RHDV) are promising, application of the vaccines has been restricted due to high production costs or low yield. In the present study, we performed codon optimization of the capsid gene to increase the number of preference codons and eliminate rare codons in Spodoptera frugiperda 9 (Sf9) cells. The capsid gene was then subcloned into the pFastBac plasmid, and the recombinant baculoviruses were identified with a plaque assay. As expected, expression of the optimized capsid protein was markedly increased in the Sf9 cells, and the recombinant capsid proteins self-assembled into virus-like particles (VLPs) that were released into the cell supernatant. Rabbits inoculated with the supernatant and the purified VLPs were protected against RHDV challenge. A rapid, specific antibody response against RHDV was detected by an ELISA in all of the experimental groups. In conclusion, this strategy of producing a recombinant subunit vaccine antigen can be used to develop a low-cost, insect cell-derived recombinant subunit vaccine against RHDV.
Animals
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Antigens, Viral/genetics/metabolism
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Caliciviridae Infections/prevention & control/*veterinary/virology
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Capsid Proteins/*genetics/metabolism
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Cell Culture Techniques/*methods
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Codon/genetics/metabolism
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Enzyme-Linked Immunosorbent Assay/veterinary
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*Gene Expression Regulation, Viral
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Hemorrhagic Disease Virus, Rabbit/*genetics/immunology
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*Rabbits
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Recombinant Proteins/genetics/metabolism
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Sf9 Cells
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Spodoptera
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Viral Structural Proteins/*genetics/metabolism
;
Viral Vaccines/genetics/immunology