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Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
High-level expression and efficient assembly of
hepatitis B
surface Antigen (HBsAg) has been reported in Pichia pastoris by integrating a single copy of the HBsAg gene under control of the
AOX1
promoter. To fully utilize the expression potential of the P. pastoris expression system, we investigated the influence of gene copy number on the expression of HBsAg in this yeast. A panel of Pichia clones carrying progressively increasing copies of the heterologous gene expression cassette was created using an in vitro multimerization approach. Using this strategy, constructs containing up to a maximum of eight direct repeats of the HBsAg-expressing cassettes could be created. These expression cassettes were targeted for integration into the genome of the host strain GS115 with simultaneous elimination of the resident
AOX1
gene. Deletion of the
AOX1
gene was intended to create Mut(s) (methanol utilization slow) transformants that are known to have an increased ability to generate HBsAg in particulate form. A systematic investigation of the resultant clones demonstrated that the increase in copy number results in a proportional elevation in the steady-state levels of the HBsAg-specific mRNA, which in turn is closely paralleled by a corresponding increase in the total levels of the HBsAg protein. Virtually all the recombinant protein in the soluble fraction was present in the particulate form based on particle-specific ELISA and sedimentation behavior. Further, our studies also revealed the continued physical and functional integrity of the HBsAg-expressing cassettes during the course of an extended induction phase spanning 6 days.
...
PMID:Effect of copy number on the expression levels of hepatitis B surface antigen in the methylotrophic yeast Pichia pastoris. 1116 89
High-level expression and efficient assembly of
Hepatitis B
surface Antigen (HBsAg) particles have been reported in Pichia pastoris by integrating a single copy of the HBsAg gene under the control of the alcohol oxidase (
AOX1
) promoter. However, the time taken to reach peak product concentration is usually very long ( approximately 240 h). In this paper, we describe the expression of HBsAg in P. pastoris using the recently described glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter. Unlike the previously described
AOX1
promoter based system (in which biomass is generated first followed by methanol-induced antigen production), biomass generation and antigen production occur simultaneously in medium containing glycerol or glucose. Maximal levels of HBsAg expression in case of the single copy
AOX1
integrant (attained after 6 days of induction) exceeded the levels of antigen produced by the single copy GAP integrant. However, this was offset by continuous antigen production by the GAP clone. In an attempt to further enhance antigen production levels of the GAP clones, we isolated multicopy Pichia integrants containing up to four copies of the GAP promoter-driven constitutive expression cassette using the Zeocin screening procedure. The data demonstrated a direct correlation between the gene dosage and the levels of HBsAg expressed by the GAP clones. The effect of copy number was additive and the four copy clone resulted in about four-fold higher yield of HBsAg. The majority of HBsAg produced in the constitutive expression system was found to be of particulate form, based on sedimentation behaviour and particle-specific ELISA, suggesting that it has the potential to serve as an effective immunogen. These particles were sensitive to thiol reagents. We also explored the possibility of secreting the GAP expressed HBsAg in P. pastoris. In-frame fusion of the Saccharomyces cerevisiae alpha-factor secretion signal under the constitutive GAP promoter resulted in secretion of approximately 20 nm HBsAg particles as evidenced by electron microscopy. However, the levels of secreted HBsAg particles were very low, presumably due to the inherent hydrophobicity of the HBsAg molecule and the consequent propensity for membrane association. Our studies show that secretion is not a good strategy for expression of HBsAg in P. pastoris. The data also suggests that intracellular production of HBsAg under the GAP promoter using multicopy expression cassettes can indeed serve as an effective alternative to the
AOX1
promoter. Further, the GAP promoter based system obviates the need to use and extensively monitor methanol during recombinant antigen production. Finally, this constitutive system has the potential for continuous culture wherein several batches of recombinant protein-containing biomass can be harvested from a single initial fermentation.
...
PMID:Expression of hepatitis B surface antigen in the methylotrophic yeast Pichia pastoris using the GAP promoter. 1137 62
The methylotrophic yeast, Pichia pastoris, has been used as a host to express the envelope protein (Den2E) of dengue type 2 virus (NGC strain) as a chimera with
hepatitis B
surface antigen (HBsAg): a protein known to self assemble into virus-like particles (VLPs) and to be efficiently expressed in P. pastoris. The Den2E gene used in this study is a truncated version encoding the first 395 amino acid (aa) residues of the mature Den2E protein; the HBsAg gene encodes the full length 226 aa HBsAg protein. Two in-frame gene fusions were constructed for intracellular expression in P. pastoris. The first one contains the HBsAg gene as the 5' partner and the Den2E gene as the 3'partner (HBsAg-Den2E). In the second one, the relative positions of the two partners of the gene fusion were reversed to create the hybrid Den2E-HBsAg gene. These fusion genes were integrated into the genome of P. pastoris under the control of the methanol-inducible alcohol oxidase (
AOX1
) promoter. Of the two fusions, the Den2E-HBsAg gene was expressed at higher levels in P. pastoris based on Northern analysis. The hybrid protein ( approximately 68 kDa) expressed by this clone was purified to near homogeneity using a combination of acid precipitation, hydrophobic interaction, and immunoaffinity chromatographic steps. Final purification achieved was approximately 1400-fold with a yield of approximately 26%. The chimeric protein was found to possess the ability to assemble into high molecular weight aggregates (akin to HBsAg particles). The recombinant fusion protein eluted close to the void volume of a Sepharose CL-4B column indicating its macromolecular nature. On a CsCl density gradient the recombinant fusion protein sedimented to a position very similar to that of HBsAg VLPs. The hybrid protein is recognized by the two neutralizing monoclonals against the two components of the chimeric protein.
...
PMID:Expression and purification of Dengue virus type 2 envelope protein as a fusion with hepatitis B surface antigen in Pichia pastoris. 1157 Aug 49
We have expressed both S and preS2-S genes coding for the
hepatitis B
small (S) and medium (M) proteins, respectively, in different yeast based expression systems and compared the production level of the recombinant proteins. In Saccharomyces cerevisiae, viral genes were expressed under the inducible Gal10/cyc1 and the constitutive PGK promoters using 2mu replicating vectors. We showed that the yield of S protein was higher than M protein under both inducible (14.27 vs 10.9 mg/l) and constitutive (9.18 vs 6.39 mg/l) conditions, respectively. In the methylotrophic yeast Pichia pastoris, the viral genes were expressed in GS115 (Mut(+): Methanol Utilizing) and KM71 (Mut(S): Methanol Utilizing Slow) under the control of the alcohol oxidase promoter (
AOX1
). In Mut(S) background, both S and preS2-S genes were expressed at higher levels than in Mut(+). In attempt to increase the yield of recombinant viral proteins in S. cerevisiae, we have co-expressed both inducible and constitutive vectors harboring the S or preS2-S genes leading to recombinant strains called UTS (containing pDP/S+pYePIT/S) and UTP (containing pDP/preS2-S+pYePIT/preS2-S). We showed that the recombinant S and preS2-S proteins were successfully detected and the production level reached 18.31 mg/l for the S and 13.22 mg/l for the M proteins. Our comparative study provides evidence that in small scale, S. cerevisiae is more suitable for HBsAg and preS2-S proteins production than P. pastoris under inducible rather than constitutive condition.
...
PMID:Expression of HBsAg and preS2-S protein in different yeast based system: a comparative analysis. 1930 31
