• 한국응용약물학회:학술대회논문집
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• 한국응용약물학회 1997년도 춘계학술대회
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• pp.93-93
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• 1997

Analysis of protein is often frustrated by the inability to isolate large amounts of purified protein from a native source. To overcome this problem, fusion protein expression systems such as pGEX system have been widely used. Using pGEX system, the desired protein could be easily obtained in a large amount in E. coli, and then the fusion protein could be used for the study of the function of the given protein. To analyze and purify the GST fusion protein, anti-GST antibody could be used as one of the system of choice. However, the production and characterization of monoclonal anti-GST antibody has not been studied extensively yet. To produce monoclonal anti-GST antibody, GST was purified from E. coli transformed with pGEX-cs, one of the pGEX system and was used as an antigen. The monoclonal antibody was produced by fusion of the immunized spleen cells with SP2-0 myeloma cells. The antibody was characterized by ELISA, western blotting, etc. The monoclonal antibody produced in this study (mAb-GSTA) showed strong and specific immunoreactivity against not only GST but also GST-fusion proteins. Also, mAb-GSTA was successfully used for the immunoaffinity purification of the GST ${\beta}$-Rc.-third intracellular-loop fusion protein. The results of the present study suggest that mAb-GSTA may be used for the identification and purification of GST fusion proteins.

• 대한바이러스학회지
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• 제27권2호
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• pp.105-113
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• 1997

C 형 간염 바이러스 (Hepatitis C Virus, HCV)는 두종류의 외피당단백질 $E1_{192-383}$ 및 $E2_{384-746}$를 갖고 있다. $E1_{192-383}$ 및 $E2_{384-740}$ 단백질은 glutathione S-transferae (GST) 융합단백질의 형태로 대장균에서 발현되지 않았으나, 이 단백질들의 C말단에 존재하는 소수성영역을 제거하였을 때 $GST-E1_{192-283}$ 융합단백질은 과량으로 가용성 형태로 발현되었고, $GST-E2_{384-649}$ 융합단백질은 비 가용성 형태로 발현되었다. 이 융합단백질들 각각은 HCV 양성환자의 혈청과 특이적으로 반응하였다. Thrombin으로 처리하여 얻은 정제된 $E1_{192-283}$ 단백질 및 융합형태의 $GST-E2_{384-649}$ 단백질 각각을 생쥐에 접종하였을 때 E1 및 E2 특이적인 항체가 생성되었다. 이 결과들은 $E1_{192-383}$ 및 $E2_{384-649}$ 융합단백질 C 말단에 존재하는 소수성영역이 이 단백질들의 발현량 및 가용성에 영향을 주며 $E1_{192-283}$ 단백질 영역내에 HCV 양성환자의 혈청과 특이적으로 반응하는 epitope (s)이 존재한다는 것을 제시해 주고 있다.

• IMMUNE NETWORK
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• 제1권3호
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• pp.187-195
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• 2001

The expression of recombinant proteins fused to 26 kDa glutathione S-transferase (GST) extracted from Schistosoma japonicum represents an attractive system for purifiying proteins of interest in a single step using GST-affinity chromatography. In addition, the GST-tag is used conveniently for detecting fused proteins since its high solubility as well as its relatively small size rarely interferes with the biological activity of the fused protein. In this regard, the GST system is frequently applied for tracing fusion proteins in both prokaryotic and eukaryotic cells to elucidate the physiological interactions and functional compartments of proteins. To provide a further tool in analyzing GST-fusion proteins, a new monoclonal antibody, with a high specificity to the S. japonicum GST was produced. Methods: BALB/c mice were immunized both with recombinant S. japonicum GST proteins, and by the fusion of splenocytes from these mice with myeloma cells. From this, a new anti -GST monoclonal antibody, termed SARAH, was generated. The specificity and reactivity of this antibody was confirmed by ELISA and by Western blot analysis. Results: SARAH showed a high reactivity to recombinant GST and GST fusion protein but not with native mammalian GST proteins as derived from other species including humans, cows, rabbits and rats. The applicability of SARAH was further demonstrated by confocal laser scanning microscopy, where GST proteins that were expressed transiently in mouse fibroblast cells, were specifically detected without interference of endogenous GST. Conclusion: SARAH is new monoclonal antibody with a high specificity to recombinant GST proteins but not to endogenous GST in mammalian cells.

• BMB Reports
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• 제44권4호
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• pp.279-284
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• 2011

The glutathione S-transferase (GST) system is useful for increasing protein solubility and purifying soluble GST fusion proteins. However, purifying half of the GST fusion proteins is still difficult, because they are virtually insoluble under non-denaturing conditions. To optimize a simple and rapid purification condition for GST-pyruvate kinase muscle 2 (GST-PKM2) protein, we used 1% sarkosyl for lysis and a 1 : 200 ratio of sarkosyl to Triton X-100 (S-T) for purification. We purified the GST-PKM2 protein with a high yield, approximately 5 mg/L culture, which was 33 times higher than that prepared using a conventional method. Notably, the GST-high-temperature requirement A2 (GST-HtrA2) protein, used as a model protein for functional activity, fully maintained its proteolytic activity, even when purified under our S-T condition. This method may be useful to apply to other biologically important proteins that become highly insoluble in the prokaryotic expression system.

• 대한의생명과학회지
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• 제2권2호
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• pp.231-240
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• 1996

인체 혈액 응고 9인자는 간에서 생성되며 461개의 아미노산으로 구성된 당 단백질이다. 따라서 인체 혈액 응고 9인자 cDNA를 찾기 위해 태아의 간(fetal liver) cDNA library를 PCR(Polymerase Chain reaction) 방법으로 screening하였으며, 그 결과 ATG개시 코돈으로부터 TAA종료 코돈까지 포함하는 1.4 kb의 9인자 cDNA를 찾았다. 또한 클론된 9인자 cDNA를 박테리아에서 발현시키기 위해 박테리아 발현 벡터인 pGEX-2T 플라스미드에 클로닝하므로써 pGEX-F9 플라스미드를 제조하였다. pGEX-F9로 형질전환된 E. coli에서 PGEX-F9의 발현을 유도하면 73 kDa 크기의 GST-factor9 융합 단백질이 다량생성되며 , 이 단백질이 혈액 응고 9인자 단백질을 함유하는 융합 단잭질임을 혈액 응고 9인자 항체를 이용한 Western blot으로 입증하였다. E. coli에서 발현된 GST-factor 9 융합 단백질은 전체 단백질의 약 20%를 차지하며 GST agarose bead를 이용한 one step purificarion 방법을 통해 GST-factor9 융합 단백질을 쉽게 분리 할 수 있다.

• 생명과학회지
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• 제6권3호
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• pp.185-192
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• 1996

박테리오파지 T7 gene 2.5 단백질은 single-stranded DNA 결합 단백질로 박태리오파지 T7의 DNA복제, 재조합, 및 수선에 필수적으로 요구된다. Gene 2.5 protein은 T7의 DNA 합성과 성장에 필수적인 단백질이다. Gene 2.5 Protein이 중요시 되는 이유는 이 단백질이 T7의 다른 복제 필수단백질인 T7의 다른 복제 필수단백질인 T7 DNA polymerase 와 gene 4 protein(helicase/primase)와 서로 상호작용할 것으로 제안되었기 때문이다. (Kim and Richardson, J. Biol. Chem., 1992;1994). 이 단백질의 단백질 상호작용을 가능하게 하는 domain은 carboxyl-terminal domain일 것으로 여러 실험에서 대두되었기에, 이 domain의 특성을 파악하기 위해 야생형과 변이체 gene 2.5 단백질들을 각각 GST에 융합한후 fusion 단백질을 정제하였다. 정제된 이 융합 단백질들의 carboxyl-terminal domain이 T7 복제 단백질들과 상호작용을 조사하는지를 조사하기 위해 affinity chromatography로 이용하였다. 실험 결과, 아생형 GST-gene 2.5 융합단잭질(GST-2.5 (WT))는 T7 DNA polymerase 와 상호작용을 하였지만. 변이형 융합단백질(GST-2.5$\Delta$21C)는 interaction을 하지 못했다. 이 결과는 carbohyl-terminal domain이 단백질-단백질 상호작용을 하는데 직접적으로 관여하는 것을 증명하였다. 또한,GST2.5(WT)는 gene 4 protein(helicase/primase)와 직접 상호작용을 하나. GST2.5$\Delta$21C는 상호작용을 하지 못하는 것으로 나타났다. 따라서 gene 4 proteins와의 상호작용에도 gene 2.5 protein의 carboxyl-terminal domain이 직접 관여 한다는 것이 증명되었다. 이상의 결과에서 gene 2.5 protein은 박테리오파지 T7 의 유전자 목제 시 단백질-단백질 상호작용에 관혀아며, 특히 gene 2.5 protein의 carboxyl-terminal domain이 이러한 상호작용에 직접적으로 관여하는 domain이라는 것을 알 수가 있었다.

• Archives of Pharmacal Research
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• 제19권4호
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• pp.275-279
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• 1996

To study the functional roles of dopamine receptors, we decided to raise antibodies against these proteins. To make antigen, we expressed the whole 3rd cytoplasmic loop of dopamine receptors in a fusion protein with glutathione-S-transferase (GST). $For D_2\; and\; D_3$ receptors, it was successful to express and purify fusion proteins for the whole 3rd cytoplasmic loops. However, we could not express the fusion protein for the whole 3rd cytoplasmic loop of $D_4$ dopamine receptor in the bacteria. To study the causes that prevent the bacterial expression of the GST-fusion protein of the 3rd cytoplasmic loop of $D_4$ dopamine receptor, we conducted more detailed studies on $D_4$ dopamine receptor. To locate the region which prevents bacterial expression, we made sequential constructs in the 3rd cytoplasmic loop decreasing the size step by step, and confirmed their expressions in the SDS PAGE. It was found that certain regions of 3rd cytoplasmic loop of $D_4$ dopamine receptor, located in N-terminal side of the 3rd cytoplasmic loop of $D_4$ dopamine receptor suppress the bacterial expression of fusion protein.

• Journal of Microbiology and Biotechnology
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• 제8권6호
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• pp.663-668
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• 1998

Several neurodegenerative diseases such as Huntington's disease, dentatorubralpallidoluysian atrophy, spinobulbar muscular atrophy, Machado-Joseph disease, and spinocerebellar ataxias type 1 are associated with the aggregation of expanded glutamine repeats within their proteins. Generally, in clinically affected individuals, the expansion of the polyglutamine sequences is beyond 40 residues. To address the length of polyglutamine that forms aggregation, we have constructed plasmids encoding glutathione S-transferase (GST) Machado-Joseph disease gene fusion proteins containing polyglutamine and investigated the formation of aggregates in E. coli. Surprisingly, even $(Gin)_8$, in the normal range as well as $(Gin)_{65}$ in the pathogenic range enhanced the formation of insoluble protein aggregates, whereas $(Ser)_8$, and $(Aia)_8$, did not form aggregates. Our results indicate that the formation of protein aggregates in GST-polyglutamine proteins is specifically mediated by the polyglutamine repeat sequence within their protein structure. Our study may contribute to the understanding of the molecular mechanism of the formation of protein aggregates in neurodegenerative disorders and the development of preventative strategies.

• 대한의생명과학회지
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• 제2권1호
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• pp.21-30
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• 1996

Mitogen-activated protein (MAP) kinase는 여러 세포증식 촉진인자들에 의하여 자신이 인산화됨으로써 활성화되어 다른 protein kinase를 인산화시키는 역할을 하는 세포내 신호전달의 중요한 효소이다. 본 연구에서는 P388 murine leukemia 세포 파쇄액에서 SP sephadex C-50, phenyl superose, Mono Q column을 통하여 MAP kinase를 분리한 결과, 44 kD와 66kD의 isoform을 확인할 수 있었다. 면역 T 세포의 $p56^{kk}$의 N-terminal로부터 유전자 재조합 방법을 통하여 glutathion-s-transferase(GST) fusion protein을 얻은 후 분리한 MAP kinase의 기질로 사용하여 본 결과, wild type과 mutant간에 인산화 정도의 차이를 확인할 수 있어 MAP kinase의 또 다른 기질로 이용할 수 있는 가능성을 제시하였다.

• BMB Reports
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• 제29권5호
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• pp.462-467
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• 1996

Acetolactate synthase (ALS, EC 4.1.3.18) is the first common enzyme in the biosynthesis of leucine, isoleucine, and valine. It is the target enzyme for several classes of herbicides, including the sulfonylureas, the imidazolinones, the mazolopyrimidines, the pyrimidyl-oxy-benzoates, the pyrimidyl-thio-benzens, and the 4,6-dimethoxypyrimidines. An amino-terminal fragment of the sulfonylurea-resistant ALS gene (SurB) from Nicotiana tabaccum was cloned into the bacterial expression vector pGEX-2T. The resulting recombinant plasmid pGEX-ALS1 was used to transform Escherichia coli strain BL21, and the tobacco ALS was expressed in the bacteria as a protein fused with glutathione S-transferase (GST). Polyclonal antibodies against the fusion product (GST-ALS) were produced, and the sensitivity of GST-ALS with the rabbit anti-GST-ALS IgG was up to 50 ng. This antibody was used for Western blot analysis of the partially purified ALS from barley shoots. The results suggest that the polyclonal antibody produced in this study can be used to detect plant ALS.