Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Ser...Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Server,MLRC,Geno3d,DNA star software packages were used to predict the physical and chemical properties,hydrophilicity plot, flexibility regions,antigenic index,surface probability plot,secondary structure,and tertiary structure of amino acid sequence of SJAQP-3.Results:SJAQP-3 had six transmembrane regions and two half-spanning helices that form a central channel.The half-spanning helices fold into the centre of the channel.Either of the half-spanning helix had a conserved motif of NPA common to all aquaporins.Predicted linear B-Cell epitopes were most likely at the N-terminal amino acid residues of Saa-7aa,59aa- 62aa,225aa-230aa,282aa -288aa,294aa -29Saa and 305aa -307aa area.59aa- 62aa,22Saa-230aa located outside the membrane,the others located inside the cell.Conclusions:SJAQP-3 is a integral membrane protein in Schistosoma japonicum tegument.There are six potential epitopes in SJ AQP-3.It might be a potential molecular target for the development of vaccines.展开更多
BACKGROUND:The incidence of hepatocellular carcinoma (HCC)in China is closely related to the population infected with hepatitis B virus(HBV).HCC cells with HBV secrete soluble HBsAg into blood but do not express it on...BACKGROUND:The incidence of hepatocellular carcinoma (HCC)in China is closely related to the population infected with hepatitis B virus(HBV).HCC cells with HBV secrete soluble HBsAg into blood but do not express it on the cell membrane This study aimed to construct and investigate a new glycosyl phosphatidylinositol(GPI)-anchored protein(GPC3+α+EGFP) as a DNA vaccine against HCC associated with HBV. METHODS:A recombinant plasmid(pcDNA3.1(+)/GPC3+ α+EGFP)was constructed and verified by restriction endo nuclease digestion and sequencing.pcDNA3.1(+)/GPC3+α+ EGFP was transfected into HepG2 cells(experimental group) using lipofectamine 2000.pEGFP-N1-transfected HepG2 cells were used as a negative control,and non-transfected HepG2 cells sreved as a blank control.HepG2 cells that steadily expressed the fusion protein GPC3+α+EGFP were screened by G418,propagated,and co-cultured with lymphocytes from healthy donors.Cell proliferation was measured by the classic sulforhodamine B assay.Apoptosis was assessed by terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL),and Fas gene transcription was determined by quantitative fluorescent PCR. RESULTS:The pcDNA3.1(+)/GPC3+α+EGFP plasmid was successfully constructed.In the experimental group,green fluorescence was observed at the cell periphery and in the cytoplasm,whereas in the negative control group,fluorescence was evenly distributed throughout the cell.Proliferation of the experimental group significantly decreased after 72 hours compared to the negative and blank control groups.Furthermore,the number of apoptotic cells was statistically different among the three groups as determined by a contingency table Chisquare test;the experimental group had the highest incidence of apoptosis.Fas gene transcription in the experimental group was higher than in the two control groups,and an increasing trend with time in the experimental group was observed. CONCLUSION:A chimeric,membrane-anchored protein, GPC3+α+EGFP,localized to the membrane of HepG2 cells and inhibited proliferation and accelerated apoptosis through a Fas-FasL pathway after co-cultivation with lymphocytes.展开更多
[Objective] The paper was to develop a subunit vaccine candidate for prevention and control of goose parvovirus infection. [Method]Based on the prokaryotic expression system, the antigenic epitopes and locations of th...[Objective] The paper was to develop a subunit vaccine candidate for prevention and control of goose parvovirus infection. [Method]Based on the prokaryotic expression system, the antigenic epitopes and locations of the structural protein VP3 were predicted by software analysis,and the region displaying a large portion of antigenic epitopes was amplified by PCR. The target VP3 DNA fragment was inserted into pET-30 a-VP3 vector, was transformed into Escherichia coli BL21 competent cells for protein expression and animal test. The SPF chickens were immunized with the recombinant protein and the antisera were collected for neutralization test by using a goose embryo fibroblast. [Result] The recombinant plasmid was constructed, and the target region of VP3 protein was expressed efficiently in a soluble form. The neutralizing titers of antisera could reach up to-2.608. [Conclusion] The target region displaying a large portion of antigenic epitopes of the structural protein VP3 could be expressed efficiently in soluble form, and the expressed protein could induce neutralizing antibodies in SFP chicken.展开更多
文摘Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Server,MLRC,Geno3d,DNA star software packages were used to predict the physical and chemical properties,hydrophilicity plot, flexibility regions,antigenic index,surface probability plot,secondary structure,and tertiary structure of amino acid sequence of SJAQP-3.Results:SJAQP-3 had six transmembrane regions and two half-spanning helices that form a central channel.The half-spanning helices fold into the centre of the channel.Either of the half-spanning helix had a conserved motif of NPA common to all aquaporins.Predicted linear B-Cell epitopes were most likely at the N-terminal amino acid residues of Saa-7aa,59aa- 62aa,225aa-230aa,282aa -288aa,294aa -29Saa and 305aa -307aa area.59aa- 62aa,22Saa-230aa located outside the membrane,the others located inside the cell.Conclusions:SJAQP-3 is a integral membrane protein in Schistosoma japonicum tegument.There are six potential epitopes in SJ AQP-3.It might be a potential molecular target for the development of vaccines.
基金supported by grants from the NaturalScience Foundation of China(30500239)the China PostdoctoralScience Foundation(20060400227)
文摘BACKGROUND:The incidence of hepatocellular carcinoma (HCC)in China is closely related to the population infected with hepatitis B virus(HBV).HCC cells with HBV secrete soluble HBsAg into blood but do not express it on the cell membrane This study aimed to construct and investigate a new glycosyl phosphatidylinositol(GPI)-anchored protein(GPC3+α+EGFP) as a DNA vaccine against HCC associated with HBV. METHODS:A recombinant plasmid(pcDNA3.1(+)/GPC3+ α+EGFP)was constructed and verified by restriction endo nuclease digestion and sequencing.pcDNA3.1(+)/GPC3+α+ EGFP was transfected into HepG2 cells(experimental group) using lipofectamine 2000.pEGFP-N1-transfected HepG2 cells were used as a negative control,and non-transfected HepG2 cells sreved as a blank control.HepG2 cells that steadily expressed the fusion protein GPC3+α+EGFP were screened by G418,propagated,and co-cultured with lymphocytes from healthy donors.Cell proliferation was measured by the classic sulforhodamine B assay.Apoptosis was assessed by terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL),and Fas gene transcription was determined by quantitative fluorescent PCR. RESULTS:The pcDNA3.1(+)/GPC3+α+EGFP plasmid was successfully constructed.In the experimental group,green fluorescence was observed at the cell periphery and in the cytoplasm,whereas in the negative control group,fluorescence was evenly distributed throughout the cell.Proliferation of the experimental group significantly decreased after 72 hours compared to the negative and blank control groups.Furthermore,the number of apoptotic cells was statistically different among the three groups as determined by a contingency table Chisquare test;the experimental group had the highest incidence of apoptosis.Fas gene transcription in the experimental group was higher than in the two control groups,and an increasing trend with time in the experimental group was observed. CONCLUSION:A chimeric,membrane-anchored protein, GPC3+α+EGFP,localized to the membrane of HepG2 cells and inhibited proliferation and accelerated apoptosis through a Fas-FasL pathway after co-cultivation with lymphocytes.
基金Supported by Youth Fund Project of Natural Science Foundation of Shandong Province(ZR2014CQ009)Science and Technology Development Program of Binzhou City(2013GG0304)
文摘[Objective] The paper was to develop a subunit vaccine candidate for prevention and control of goose parvovirus infection. [Method]Based on the prokaryotic expression system, the antigenic epitopes and locations of the structural protein VP3 were predicted by software analysis,and the region displaying a large portion of antigenic epitopes was amplified by PCR. The target VP3 DNA fragment was inserted into pET-30 a-VP3 vector, was transformed into Escherichia coli BL21 competent cells for protein expression and animal test. The SPF chickens were immunized with the recombinant protein and the antisera were collected for neutralization test by using a goose embryo fibroblast. [Result] The recombinant plasmid was constructed, and the target region of VP3 protein was expressed efficiently in a soluble form. The neutralizing titers of antisera could reach up to-2.608. [Conclusion] The target region displaying a large portion of antigenic epitopes of the structural protein VP3 could be expressed efficiently in soluble form, and the expressed protein could induce neutralizing antibodies in SFP chicken.