Hepatitis E is an enterically transmitted viral disease caused by infection with hepatitis E virus(HEV). HEV is a nonenveloped virus that bas been classified in the family of Caliciviridae. The virus appears to be a...Hepatitis E is an enterically transmitted viral disease caused by infection with hepatitis E virus(HEV). HEV is a nonenveloped virus that bas been classified in the family of Caliciviridae. The virus appears to be a polya-denylated, positive-stranded RNA virus with three major open reading frames(ORFs). The capsid protein of HEV is encoded by the open reading frame 2(ORF2). We attempted to produce a truncated capsid protein, designed p293, in Pichia pastoris. The p293 gene encoding amino acids(aa) 382-674 of HEV ORF2 was designed based on the full length of HEV ORF2, cloned into the yeast vector pPIC9K, and expressed in P. pastoris strain GS 115. SDS-PAGE and Western blotting demonstrated that the recombinant protein p293 could well be expressed in P pastoris. Under optimized conditions (culture medium pH, 6.0-6.5; methanol concentration added daily, 3.0%; inoculum density, OD600=60; induction time point, 72-96 h), the yield of soluble p293 was approximately 80 mg/L. We also observed p293 secretory expressed in P. pastoris to be 30 nm viral like particles by using electron microscopy. These results show that the p293 may has utility in the analysis of cell specific factors in the protein processing and assembly of HEV, and serve as a useful antigen for both diagnostic and vaccine purposes.展开更多
The genes encoding DNA-binding domain(BD) designed based on the yeast transcriptional activator GAL4 and protein transduction domain of HIV-1 Tat protein were fused via soft linker peptide sequence, and cloned into ...The genes encoding DNA-binding domain(BD) designed based on the yeast transcriptional activator GAL4 and protein transduction domain of HIV-1 Tat protein were fused via soft linker peptide sequence, and cloned into yeast expression vector pPIC9k. The resulted plasmid pTG was linearized and transfected into Pichia pastoris strains GS 115 by electroporation. High copies of transformants were obtained with Muts and HIS+ phenotype identi- fication, PCR amplification and screening of G418. After flask culture and expression induced by methanol, the target protein named TG was well expressed and analyzed by SDS-PAGE and Western blot. Under optimized conditions, the yield of soluble recombinant protein was approximately 39.7 mg/L. DNA binding activity and cell transduction property of TG were analyzed by gel eleetrophoresis and fluorescent microscopy. The results show that the recombinant protein could bind strongly to the plasmid containing upstream activating sequence(UAS). The cell experiments revealed that TG could deliver the binding plasmid into HEK-293 cells effectively. In summary, the work presented here suggests that TG is specific toward UAS containing plasmid and has the potential for use as nonviral DNA delivery agent.展开更多
基金Supported by the National Natural Science Foundation of China(No.30771609)the National High-tech Research and Development Program of China(No.2007AA021004)
文摘Hepatitis E is an enterically transmitted viral disease caused by infection with hepatitis E virus(HEV). HEV is a nonenveloped virus that bas been classified in the family of Caliciviridae. The virus appears to be a polya-denylated, positive-stranded RNA virus with three major open reading frames(ORFs). The capsid protein of HEV is encoded by the open reading frame 2(ORF2). We attempted to produce a truncated capsid protein, designed p293, in Pichia pastoris. The p293 gene encoding amino acids(aa) 382-674 of HEV ORF2 was designed based on the full length of HEV ORF2, cloned into the yeast vector pPIC9K, and expressed in P. pastoris strain GS 115. SDS-PAGE and Western blotting demonstrated that the recombinant protein p293 could well be expressed in P pastoris. Under optimized conditions (culture medium pH, 6.0-6.5; methanol concentration added daily, 3.0%; inoculum density, OD600=60; induction time point, 72-96 h), the yield of soluble p293 was approximately 80 mg/L. We also observed p293 secretory expressed in P. pastoris to be 30 nm viral like particles by using electron microscopy. These results show that the p293 may has utility in the analysis of cell specific factors in the protein processing and assembly of HEV, and serve as a useful antigen for both diagnostic and vaccine purposes.
基金Supported by National High-tech Research and Development Program of China(No.2007AA021004)
文摘The genes encoding DNA-binding domain(BD) designed based on the yeast transcriptional activator GAL4 and protein transduction domain of HIV-1 Tat protein were fused via soft linker peptide sequence, and cloned into yeast expression vector pPIC9k. The resulted plasmid pTG was linearized and transfected into Pichia pastoris strains GS 115 by electroporation. High copies of transformants were obtained with Muts and HIS+ phenotype identi- fication, PCR amplification and screening of G418. After flask culture and expression induced by methanol, the target protein named TG was well expressed and analyzed by SDS-PAGE and Western blot. Under optimized conditions, the yield of soluble recombinant protein was approximately 39.7 mg/L. DNA binding activity and cell transduction property of TG were analyzed by gel eleetrophoresis and fluorescent microscopy. The results show that the recombinant protein could bind strongly to the plasmid containing upstream activating sequence(UAS). The cell experiments revealed that TG could deliver the binding plasmid into HEK-293 cells effectively. In summary, the work presented here suggests that TG is specific toward UAS containing plasmid and has the potential for use as nonviral DNA delivery agent.
