• Title/Summary/Keyword: yeast expression vector

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Expression of Escherichia coli Heat-labile Enterotoxin B Subunit (LTB) in Saccharomyces cerevisiae

  • Rezaee Mohammad Ahangarzadeh;Rezaee Abbas;Moazzeni Seyed Mohammad;Salmanian Ali Hatef;Yasuda Yoko;Tochikubo Kunio;Pirayeh Shahin Najar;Arzanlou Mohsen
    • Journal of Microbiology
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    • v.43 no.4
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    • pp.354-360
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    • 2005
  • Heat-labile enterotoxin B subunit (LTB) of enterotoxigenic Escherichia coli (ETEC) is both a strong mucosal adjuvant and immunogen. It is a subunit vaccine candidate to be used against ETEC-induced diarrhea. It has already been expressed in several bacterial and plant systems. In order to construct yeast expressing vector for the LTB protein, the eltB gene encoding LTB was amplified from a human origin enterotoxigenic E. coli DNA by PCR. The expression plasmid pLTB83 was constructed by inserting the eltB gene into the pYES2 shuttle vector immediately downstream of the GAL1 promoter. The recombinant vector was transformed into S. cerevisiae and was then induced by galactose. The LTB protein was detected in the total soluble protein of the yeast by SDS-PAGE analysis. Quantitative ELISA showed that the maximum amount of LTB protein expressed in the yeast was approximately $1.9\%$ of the total soluble protein. Immunoblotting analysis showed the yeast-derived LTB protein was antigenically indistinguishable from bacterial LTB protein. Since the whole-recombinant yeast has been introduced as a new vaccine formulation the expression of LTB in S. cerevisiae can offer an inexpensive yet effective strategy to protect against ETEC, especially in developing countries where it is needed most.

Molecular Cloning, Chromosomal Integration and Expression of the Homoserine Kinase gene THR1 of Saccharomyces cerevisiae (트레오닌 생합성에 관여하는 효모유전자 THR1의 클로님, 염색체통합 및 발현)

  • 최명숙;이호주
    • Korean Journal of Microbiology
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    • v.29 no.1
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    • pp.16-24
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    • 1991
  • The yeast gene THR1 encodes the homoserine kinase (EC 2.7.1.39: HKase) which catalyses the first step of the threonine specific arm at the end of the common pathway for methionine and threonine biosynthesis. A recombinant plasmid pMC3 (12.6 kilobase pairs, vector YCp50) has been cloned into E. coli HB101 from a yeast genomic library through its complementing activity of a thr1 mutation in a yeast recipient strain M39-1D. When subcloned into pMC32 (8.6kbp, vector YRp7) and pMC35 (8.3 kbp, vector YIp5), the HindIII fragment (2.7 kbp) of pMC3 insery was positive in the thrI complementing activity in both yeast and E. coli auxotrophic strains. The linearized pMC35 was introduced into the original recipient yeast strain and the mitotically stable chromosomal integrant was identified among the transformants. Through the tetrad analysis, the integration site of the pMC35 was localized to the region of THR1 structural gene at an expected genetic distance of approximately 11.1 cM from the ARG4 locus on the right arm of the yeast chromosome VIII. When episomically introduced into the auxotrophic cells and cultured in Thr omission liquid medium, the cloned gene overexpressed the HKase in the order of thirteen to fifteenfold, as compared with a wildtype. HKase levels are repressed by addition of threonine at the amount of 300 mg/l and 1, 190 mg/l for pMC32 and pMC3, respectively. Data from genetic analysis and HKase response thus support that the cloned HindIII yeast DNA fragment contains the yeast thr1 structural gene, along with necessary regulatory components for control of its proper expression.

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Expression of Mouse $\alpha-Amylase$ Gene in Methylotrophic Yeast Pichia pastoris

  • Uehara Hiroyuki;Choi Du Bok;Park Enoch Y.;Okabe Mitsuyasu
    • Biotechnology and Bioprocess Engineering:BBE
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    • v.5 no.1
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    • pp.7-12
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    • 2000
  • The expression of the mouse $\alpha-amylase$ gene in the methylotrophic yeast, P pastoris was investigated. The mouse $\alpha-amylase$ gene was inserted into the multi-cloning site of a Pichi a expression vector, pPIC9, yielding a new expression vector pME624. The plasmid pME624 was digested with SalI or BglII, and was introduced into P. pastoris strain GSl15 by the PEG1000 method. Fifty-three transformants were obtained by the transplacement of pME624 digested with SaiII or BglII into the HIS4locus $(38\;of\;Mut^+\;clone)$ or into the AOX1 locus $(15\;of\;Mut^s\;clone)$. Southern blot was carried out in 11 transformants, which showed that the mouse $\alpha-amylase$ gene was integrated into the Pichia chromosome. When the second screening was performed in shaker culture, transformant G2 showed the highest $\alpha-amylase$ activity, 290 units/ml after 3-day culture, among 53 transformants. When this expression level of the mouse $\alpha-amylase$ gene is compared with that in recombinant Saccharomyces cerevisiae harboring a plasmid encoding the same mouse $\alpha-amylase$ gene, the specific enzyme activity is eight fold higher than that of the recombinant S. cerevisiae.

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Role of pre-C Region in the Expression and Secretion of Hepatitis B Viral Core Antigen in Yeast (효모에서 B형 간염바이러스의 내면항원의 발현과 분비에 미치는 전위내면항원의 역할)

  • 신상훈;김성기;노현모
    • Korean Journal of Microbiology
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    • v.28 no.1
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    • pp.1-5
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    • 1990
  • The coding sequence of hepatitis B viral core antigen (HBcAg) (subtype adr) contains two in-phase initiation codons, one for precore and the other for core antigen gene. To study the expression of core antigen and the role of precore region, the coding sequence of HBcAg with or without precore (pre-C) region were subcloned into yeast expression vector containing phosphoglycerate kinase (PGK) promoter. To study the role of upstream region in the expression of the core antigen, a series of 5' deletion mutants were also subcloned into the vector. After transformation into various host strains, the expression of HBcAg were analysed by radio-immunoassat. Under optimal condition of core antigen gene expression in yeast, the highest amount of antigen was detected in the cell line SHY4 containing pGKHBc plasmid composed of the yeast PGK gene promoter, terminator and C-gene. Regardless of the presence of precore region, core antigen was not detected in the medium but in cell extract. These results suggest that precore region cannot affect the secretion of core antigen in Saccharomyces cerevisiae.

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Expression of a Yeast Superkiller Gene(SK13) in Saccharomyces cerevisiae (Saccharomyces cerevisiae에서 효모 Superkiller 유전자(SK13)의 발현)

  • ;Wickner, Reed B.
    • Korean Journal of Microbiology
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    • v.28 no.2
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    • pp.114-119
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    • 1990
  • A yeast chromosomal superkiller gene (SK13) was cloned and expressed in $ski3^{-}$ Saccharomyces cerevisiae strains. The gene was fused to the structural region of E. coli lacZ gene at its C-terminus in a yeast-E. coli shuttle vector, pSR605. The fused gene complemented $ski3^{-}$ strains with SK13 activity and the quantitative level of expression was measured as determined by assaying $\beta$-galactosidase activity. The SDS-polyacrylamide gel electrophoresis and the Western blot analysis of this fused protein showed the immuno-reacted bands with a protein of the estimated molecular size (ca.250Kd).

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Expression of the Bacillus stearothermophilus NO2 CGTase gene in Saccharomyces cerevisiae (Saccharomyces cerevisiae 내에서 Bacillus stearothermophilus NO2 CGTnse 유전자의 발현)

  • 유동주;박현이;전숭종;권현주;남수완;김병우
    • Microbiology and Biotechnology Letters
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    • v.30 no.3
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    • pp.206-209
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    • 2002
  • For the expression of CGTase gene(cgtS) kom Bacillus stearothemophilus NO2 in Saccharomyces cerevisiae, cgtS gene was subcloned into the Eschepichia coll-yeast shuttle vector, pVT103-U. The constructed plasmid, pVT-CGTS was introduced to 5. cemi-siae 2805 cell, and then the cgtS gene under the control of adhl promoter was successfully expressed in the yeast transformant and 87% of the total activity was detected into the fermentation medium. Therefore, the signal peptide of B. stearothemephilus NO2 CeTase showed high secretion efficiency in 5. cerevisiae. Optimal conditions of the recombinant yeast cell f3r expression of CGTase was achieved, when 5. cerevisiae 2805/pv7-CGTS was cultivated on YP medium at 2% dextrose, pH 5.5,$30^{\circ}C$ and the expression level of CGTase was 0.624units/mL for 48 h culture.

Increase of Yeast Survival under Oxidative Stress by the Expression of the Laccase Gene from Coprinellus congregatus

  • Kim, Dong-Sik;Kwak, Eun-Jung;Choi, Hyoung-T.
    • Journal of Microbiology
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    • v.44 no.6
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    • pp.617-621
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    • 2006
  • Coprinellus congregatus secreted a laccase isozyme when the culture was transferred to an acidic liquid medium (pH 4.1). The laccase cDNA gene (clac2) was used as a probe for cloning of the genomic laccase gene (lac2) including the promoter (Plac2). The open reading frame (ORF) of lac2 had 526 deduced amino acids and four conserved copper binding domains as other fungal laccases. Recombinant plasmid (pRSlac2p-cDNA) of lac2 cDNA with its own promoter was transformed in Saccharomyces cerevisiae. Expression of the transformed lac2 gene was induced by oxidative stress ($H_2O_2$) in yeast and the survival rate of the transformed yeast strain was greatly increased when compared with that of the control strain transformed with pRS316 yeast vector.

Molecular cloning and restriction analysis of aspartokinase gene (HOM3) in the yeast, saccharomyces cerevisiae (아스파테이트족 아미노산 대사에 관여하는 효모유전자(HOM3)의 클로닝 및 구조분석)

  • 최승일;이호주
    • Korean Journal of Microbiology
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    • v.26 no.1
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    • pp.32-36
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    • 1988
  • The yeast gene HOM3 encodes aspartokinase, which catalyses the first step (aspartate to and from beta-aspartyl phosphate) of common pathway to threonine and methionine. The yeast HOM3 gene expression is known to be regulated by threonine and methionine specific control, and also by general control of amino acid biosynthesis. Isolation and characterization of the HOM3 gene are essential for the molecular genetic study on its regulation of expression. A recombinant plasmid pSC3 (15.5kb, vector YCp50) has been cloned into E. coli HB101 from yeast genomic library through their complementing activity of HOM3 mutation in a yeast recipient strain M34-24B. Organization of the plasmid was characterized by delineation of restriction cleavage sites in the insert fragment.

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Subcloning of Nodulin 26 Wild Type(S262) and Phosphorylation Site Mutant(S262D) into the Yeast Expression Vector pYES2

  • Cha, Youn-Soo
    • Preventive Nutrition and Food Science
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    • v.2 no.1
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    • pp.61-65
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    • 1997
  • Wild type nodulin 26(nod 26) cDNA(S262) and phodphorylation aite mutant(S262D) were constructed by a yeast expression system using pYES2 plasmids(pTES2-D262 and pTES2-S262D) were sc-reened by restriction mapping with BamHI of KpnI. S262 nod 26 contained a sreine residue at position 262 and S262D nod 26 contained the substitution mutation of serine to aspartic acid residue at position 262 were verified by automated floursent DNA sequencing.

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Cloning of Bacillus amyloliquefaciens amylase gene using YRp7 as a vector II. Expression of cloned amylase gene in Saccharomyces cerevisiae (YRp7 vector를 이용한 Bacillus amyloliquefaciens amylase gene의 cloning I I. Saccharomyces cerevisiae에서 발현)

  • 서정훈;김영호;전도연;배영석;홍순덕;이종태
    • Microbiology and Biotechnology Letters
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    • v.14 no.3
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    • pp.213-218
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    • 1986
  • Hybrid plasmid pEA24, shuttle vector YRp7 carrying amylase gene of Bacillus amyloliquefaciens, was transformed to yeast Saccharomyces cerevisiae, and the expression of B. amyloliquefaciens amylase gene in yeast was investigated. The frequency of transformation to S. cerevisiae DBY747 with YRp7 was increased by treatment of 40% polyethylene glycol (MW 4, 000), PH 7.0, at 3$0^{\circ}C$, and by regeneration used 2% top agar. The amount of cellular amylase activity produced by S. cerevisiae containing pEA24 was 2% of that secreted from B. amyloliquefaciens, but in case of S. cerevisiae transformant, the amylase secreted was not detected. A comparison of genetic stability of pEA24 and YRp7 plasmids in yeast was carried out by cultivation of transformants in tryptophan-supplement-medium. The pEA24 plasmid was more unstable than YRp7 in S. cerevisiae. The size of pEA24 extracted from S. cerevisiae transformants was found to be identical with that from E. coli transformants by agarose gel electrophoresis.

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