• Bulletin of the Korean Chemical Society
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• 제27권10호
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• pp.1618-1622
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• 2006

Bacteriophage T7 gp4A' is a ring-shaped hexameric DNA helicase that catalyzes duplex DNA unwinding using dTTP hydrolysis as an energy source. To investigate the effect of single-stranded DNA (ssDNA) on the kinetic pathway of dTTP hydrolysis by the T7 DNA helicase complexed with ssDNA, we have first determined optimal concentration of long circular M13 single-stranded DNA and pre-incubation time in the absence of $Mg^{2+}$ which is necessary for the helicase-ssDNA complex formation. Steady state dTTP hydrolysis in the absence of $Mg^{2+}$ by the helicase-ssDNA complex provided $k_{cat}$ of $8.5\;{\times}\;10^{-3}\;sec^{-1}$. Pre-steady state kinetics of the dTTP hydrolysis by the pre-assembled hexameric helicase was monitored by using the rapid chemical quench-flow technique both in the presence and absence of M13 ssDNA. Pre-steady state dTTP hydrolysis showed distinct burst kinetics in both cases, indicating that product release step is slower than dTTP hydrolysis step. Pre-steady state burst rates were similar both in the presence and absence of ssDNA, while steady state dTTP hydrolysis rate in the presence of ssDNA was much faster than in the absence of ssDNA. These results suggest that single-stranded DNA stimulates dTTP hydrolysis reaction by T7 helicase by enhancing the rate of product release step.

• 생명과학회지
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• 제14권1호
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• pp.131-140
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• 2004

T7박테리오파지 gp4는 dTTP 가수분해에너지를 이용하여 DNA복제시 이중 나선 DNA를 단일가닥 DNA로 풀어내는 나선효소(helicase)이다. T7 나선효소의 활성형의 4차구조는 한가운데 구멍을 지닌 육량체 고리모양이다. 단일가닥 DNA는 나선효소가 $5'\rightarrow3'$방향으로 이동할 때 육량체 고리의 구멍으로 빠져나간다. 이러한 DNA의 이중나선 풀어헤침을 빠른 효소반응속도 측정법을 이용하여 정량적으로 측정하였으며, 그 결과 단일가닥 DNA 산물들이 생성되기 전에 지연상태(lag phase)가 존재함을 관찰하였다. 이러한 지연상태를 나선효소에 의한 이중나선 DNA의 풀어헤침이 속도론적 단계과정(kinetic stepping)을 거친다는 모델로써 분석하였다. 예상대로 이중나선의 길이가 클수록 지연상태의 지속시간이 늘어났다. $\tau7$ 나선효소가 이중나선 DNA를 풀어내는 과정에서 넣어준 trap DNA는 풀어내는 이중나선 DNA의 양을 변화시키지 못하여서, $\tau7$ 나선효소가 매우 큰 공정성을 지닌 효소임을 알 수 있었다. 이러한 속도론적 data를 global fitting법을 써서 kinetic stepping 모델에 적용한 결과 매 단계(step)마다 10∼l개의 염기쌍이 풀려지고 1초당 3.7번의 step이 일어난다는 것을 알 수 있었다. DNA 풀어헤침과 dTTP가수분해의 메커니즘과 이들의 연계성은 $4∼37^{\circ}C$사이의 온도범위에서 영향을 받지 않았다. 이상을 종합할 때, T7나선효소의 이중나선 DNA의 풀어헤침 시 나타나는 속도론적 단계과정은 DNA복제 시 이용되는 나선효소의 내재적 속성임을 알 수 있다.

• Bulletin of the Korean Chemical Society
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• 제30권8호
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• pp.1724-1728
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• 2009

Severe acute respiratory syndrome coronavirus (SARS-CoV) helicase separates the double-stranded nucleic acids using the energy from ATP hydrolysis. We have measured ATPase activity of SARS-CoV helicase in the presence of various types of nucleic acids. Steady state ATPase analysis showed that poly(U) has two-times higher turnover number than poly(C) with lower Michaelis constant. When M13 single-stranded DNA is used as substrate, the Michaelis constant was about twenty-times lower than poly(U), whereas turnover numbers were similar. However, stimulation of ATPase activity was not observed in the presence of double-stranded DNA. pH dependent profiles of ATP hydrolysis with the helicase showed that the optimal ATPase activities were in a range of pH 6.2 ~ 6.6. In addition, ATP hydrolysis activity assays performed in the presence of various divalent cations exhibited that $Mg^{2+}$ stimulated the ATPase activity with the highest rate and $Mn^{2+}$ with about 40% rate as compared to the $Mg^{2+}$.

• Journal of Microbiology and Biotechnology
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• 제25권12호
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• pp.2007-2010
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• 2015

A new chemical inhibitor against severe acute respiratory syndrome (SARS) coronavirus helicase, 7-ethyl-8-mercapto-3-methyl-3,7-dihydro-1H-purine-2,6-dione, was identified. We investigated the inhibitory effect of the compound by conducting colorimetry-based ATP hydrolysis assay and fluorescence resonance energy transfer-based double-stranded DNA unwinding assay. The compound suppressed both ATP hydrolysis and double-stranded DNA unwinding activities of helicase with IC₅₀ values of 8.66 ± 0.26 μM and 41.6 ± 2.3 μM, respectively. Moreover, we observed that the compound did not show cytotoxicity up to 80 μM concentration. Our results suggest that the compound might serve as a SARS coronavirus inhibitor.

• Animal cells and systems
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• 제6권4호
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• pp.311-315
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• 2002

The RAD4 gene is essential for nucleotide excision repair in Saccharomyces cerevisiae. It has been known that the deduced amino acid sequence of Rad4 protein contains three DNA-dependent ATPase/helicase motifs. To determine the biochemical activities and functional role of RAD4 the Rad4 protein was expressed and purified. Immunoblot analysis showed a specific band of 21 kDa, which was well-matched with the size of open reading frame of the RAD4 gene. The purified Rad4 protein had no detectable helicase activity. However, the protein could interact with double stranded oligonucleotides, as judged by mobility shift assay. This result suggests that the Rad4 protein is a DNA binding protein.

• 생명과학회지
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• 제15권2호
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• pp.192-196
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• 2005

본 연구는 분열형 효모 Schizosaccharomyces pombe에서 여러 가지 DNA 절제회복 및 유전자 발현에 관여하는 SNF2/SW12유전자의 기능을 연구하기 위하여 이에 관련되는 유전자를 분리하고 그 특성을 연구하였다. SNF2 motif의 conserved sequence를 primer로 하여 중합효소 연쇄반응 (PCR) 방법으로 480 bp 크기의 DNA fragment를 분리하여, 이를 probe로 하여 효모에서 hrp2+ 유전자를 분리하였다. 분리한 hrp+ 유전자의 sequence homology를 비교한 결과 3개의 SNF2 motif를 포함하고 있었다. hrp2+ 유전자의 전사체 크기는 4.7kb임을 Northern hybridization으로 확인하였다. 분리한 유전자의 특성 연구를 위하여 Northern hybridization 으로 hrp2+ 유전자의 UV와 MMS에 대한 유도성을 조사한 결과 자외선에 대해서만 유전자의 발현이 유도되었다. 이 결과 분리한 hrp2+는 UV-inducible 유전자임을 확인하였다. 또한 분리한 유전자의 특성연구 중 하나로 hrp2+ 단백질을 분리하여 helicase activity를 측정하였다. 이 결과 분리한 hrp2+ 유전자는 전혀 helicase activity를 나타내지 않았다.

• Bulletin of the Korean Chemical Society
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• 제34권11호
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• pp.3187-3188
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• 2013

• Bulletin of the Korean Chemical Society
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• 제34권4호
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• pp.1260-1262
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• 2013

• Bulletin of the Korean Chemical Society
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• 제32권10호
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• pp.3779-3782
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• 2011

• 한국자기공명학회논문지
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• 제19권2호
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• pp.95-98
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• 2015

Reverse gyrase is a hyperthermophile specific protein which introduces positive supercoils into DNA molecules. Reverse gyrase consists of an N-terminal helicase-like domain and a C-terminal topoisomerase domain. The helicase-like domain shares the three-dimensional structure with two tandem RecA-folds (H1 and H2), in which the subdomain H2 is interrupted by the latch domain (H3). To understand the physical property of the hyperthermophile-specific protein, two subdomains af_H1 and af_H23 have been cloned into E. coli expression vector, pET28a. The $^{15}N$-labeled af_H1 and af_H23 proteins were expressed and purified for heteronuclear NMR study. The af_H1 protein exhibits the well-dispersion of amide signals in its $^1H/^{15}N$-HSQC spectra and thus further NMR study continues to be progressed.