• 제목/요약/키워드: DNA-dependent

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Analysis of Double Stranded DNA-dependent Activities of Deinococcus radiodurans RecA Protein

  • Kim, Jong-Il
    • Journal of Microbiology
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    • 제44권5호
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    • pp.508-514
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    • 2006
  • In this study, the double-stranded DNA-dependent activities of Deinococcus radiodurans RecA protein (Dr RecA) were characterized. The interactions of the Dr RecA protein with double-stranded DNA were determined, especially dsDNA-dependent ATP hydrolysis by the Dr RecA protein and the DNA strand exchange reaction, in which multiple branch points exist on a single RecA protein-DNA complex. A nucleotide cofactor (ATP or dATP ) was required for the Dr RecA protein binding to duplex DNA. In the presence of dATP, the nucleation step in the binding process occurred more rapidly than in the presence of ATP. Salts inhibited the binding of the Dr RecA protein to double-stranded DNA. Double-stranded DNA-dependent ATPase activities showed a different sensitivity to anion species. Glutamate had only a minimal effect on the double-stranded DNA-dependent ATPase activities, up to a concentration of 0.7 M. In the competition experiment for Dr RecA protein binding, the Dr RecA protein manifested a higher affinity to double-stranded DNA than was observed for single-stranded DNA.

Ku80의 DNA-PKcs 결합부위 합성 Peptide 투여에 의한 유방암세포의 DNA-dependent protein kinase 억제 효과 (Effect on the Inhibition of DNA-PK in Breast Cancer Cell lines(MDA-465 and MDA-468) with DNA-PKcs Binding Domain Synthetic Peptide of Ku80)

  • 김충희;김태숙;문양수;정장용;강정부;김종수;강명곤;박희성
    • 한국임상수의학회지
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    • 제21권3호
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    • pp.253-258
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    • 2004
  • DNA double-strand break (DSB) is a serious treat for the cells including mutations, chromosome rearrangements, and even cell death if not repaired or misrepaired. Ku heterodimer regulatory DNA binding subunits (Ku70/Ku80) bound to double strand DNA breaks are able to interact with 470-kDa DNA-dependent protein kinase catalytic subunit (DNA-PKcs), and the interaction is essential for DNA-dependent protein kinase (DNA-PK) activity. The Ku80 mutants were designed to bind Ku70 but not DNA end binding activity and the peptides were treated in breast cancer cells for co-therapy strategy to see whether the targeted inhibition of DNA-dependent protein kinase (DNA-PK) activity sensitized breast cancer cells to ionizing irradiation or chemotherapy drug to develop a treatment of breast tumors by targeting proteins involved in damage-signaling pathway and/or DNA repair. We designed domains of Ku80 mutants, 26 residues of amino acids (HN-26) as a control peptide or 38 (HNI-38) residues of amino acids which contain domains of the membrane-translocation hydrophobic signal sequence and the nuclear localization sequence, but HNI-38 has additional twelve residues of peptide inhibitor region. We observed that the synthesized peptide (HNI-38) prevented DNA-PKcs from binding to Ku70/Ku80, resulting in inactivation of DNA-PK complex activity in breast cancer cells (MDA-465 and MDA-468). Consequently, the peptide treated cells exhibited poor to no DNA repair, and became highly sensitive to irradiation or chemotherapy drugs. The growth of breast cancer cells was also inhibited. These results demonstrate the possibility of synthetic peptide to apply breast cancer therapy to induce apoptosis of cancer cells.

In vivo와 in vitro에서 DicA 단백질의 온도 의존적 DNA 결합 (Temperature-dependent DNA binding of DicA protein in vivo and in vitro)

  • 이연호;윤상훈;임헌만
    • 미생물학회지
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    • 제55권3호
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    • pp.181-190
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    • 2019
  • 대장균 세포분열 조절에 관여하는 DicA 단백질은 $37^{\circ}C$보다 $25^{\circ}C$에서 DNA에 더욱 잘 결합한다. 그러나 DicA 단백질의 온도의존적 DNA 결합에 대한 분자적 원인은 명확하지 않다. 본 연구에서는 DicA 단백질이 어떻게 DNA에 결합하며, 왜 온도 의존적 결합양상을 보이는지 알아보았다. In vivo DNA 결합 분석 결과 RovA나 SlyA와 같은 DicA의 상동성 단백질과는 달리 DicA는 N 말단에 있는 DNA 결합 도메인을 이용하여 20개의 염기쌍으로 이루어진 dicC 조절자 유전자(Oc)에 결합함을 보여주었다. 또한 in vivo 실험에서 DicA는 $37^{\circ}C$ 보다 $25^{\circ}C$에서 DNA에 더 잘 결합하는 것으로 알려진 Cnu 또는 H-NS의 영향을 받지 않고 자체적으로 Oc에서의 온도 의존적 DNA 결합을 보인다. 하지만 정제된 DicA 단백질을 이용한 in vitro binding 실험에서는 온도 의존적 DNA 결합이 관찰되지 않았다. Crude 단백질을 이용한 실험에서 DicA 단백질의 온도 의존적 DNA 결합이 관찰되는 것으로 보아 DicA의 온도 의존적 DNA (Oc) 결합은 crude 단백질내에 존재하는 아직 알려지지 않은 in vivo factor에 의해 일어난다.

Deinococcus radiodurans RecA 단백질의 외가닥 DNA-의존성 ATPase 활성 분석 (Characterization of Single Stranded DNA-Dependent ATPase Activities of Deinococcus radiodurans RecA Protein)

  • 김종일
    • 미생물학회지
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    • 제43권4호
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    • pp.250-255
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    • 2007
  • Deinococcus radiodurans recA는 이 미생물의 방사선 저항성을 나타내는 표현형에 필수적이며 재조합성 DNA 수선 과정에 관여한다. 이 과정에서 RecA 단백질은DNA와 결합하여 반응의 활성 종인 RecA nucleoprotein 필라멘트를 형성한다. DNA-의존성 ATPase 활성과 함께, RecA 단배질의 외가닥 DNA 혹은 이중가닥 DNA와의 상호작용은 RecA 단백질이 관여하는 반응의 중심과정으로 이에 관한 분석을 시도하였다. D. radiodurans RecA 단배질은 DNA에 결합한 DNA-단백질 복합체만이 ATPase 활성을 나타내므로, ATP (혹은 dATP) 가수분해를 측정함으로써 RecA와 외가닥 DNA와의 상호작용 정도를 분석하였다. D. radiodurans RecA 단백질은 외가닥 DNA의 염기 구성의 이질성에 영향을 받았으며, homopolymer인 poly(dT)와의 상호작용에서 가장 높은 가수분해 활성을 보였다. Homopolymer인 합성 DNA-의존성 ATP 및 dATP의 가수분해는 pH 6.0과 9.0의 범위에서 다소 일정한속도로 일어났으며 최적 pH는 7.0과 7.5 사이였다. 외가닥 DNA-의존성 ATPase 활성은 염의 존재에 영향을 받아 KCl이 존재하면 다소 억제되나, K-glutamate가 존재하면 오히려 촉진되었다. RecA 단백질과 외가닥 DNA의 상호작용을 ATP 가수분해로 분석하였을 때 2 mM 이상의 magnesium 이온이 DNA 결합반응에 필요하였으며, 비교적 넓은 범위의 pH에서 외가닥 DNA와의 결합반응이 일어나며, 이러한 결합반응은 당량적인 비(1:3, RecA protein: DNA nucleotide)로 일어났다.

Rho-dependent Transcription Termination: More Questions than Answers

  • Banerjee Sharmistha;Chalissery Jisha;Bandey Irfan;Sen Ranjan
    • Journal of Microbiology
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    • 제44권1호
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    • pp.11-22
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    • 2006
  • Escherichia coli protein Rho is required for the factor-dependent transcription termination by an RNA polymerase and is essential for the viability of the cell. It is a homohexameric protein that recognizes and binds preferably to C-rich sites in the transcribed RNA. Once bound to RNA, it utilizes RNA-dependent ATPase activity and subsequently ATPase-dependent helicase activity to unwind RNA-DNA hybrids and release RNA from a transcribing elongation complex. Studies over the past few decades have highlighted Rho as a molecule and have revealed much of its mechanistic properties. The recently solved crystal structure could explain many of its physiological functions in terms of its structure. Despite all these efforts, many of the fundamental questions pertaining to Rho recognition sites, differential ATPase activity in response to different RNAs, translocation of Rho along the nascent transcript, interactions with elongation complex and finally unwinding and release of RNA remain obscure. In the present review we have attempted to summarize 'the knowns' and 'the unknowns' of the Rho protein revealed by the recent developments in this field. An attempt has also been made to understand the physiology of Rho in the light of its phylogeny.

Production of Egg Yolk Antibody (IgY) Against Human Placental DNA-Dependent RNA Polymerase II

  • Lee, Yoon-Ik;Surzycki, Stefan S.;Lee, Young-Ik
    • BMB Reports
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    • 제28권1호
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    • pp.27-32
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    • 1995
  • Polyclonal antibodies against human DNA-dependent RNA polymerase II (HPP II) were generated from chicken egg yolk after immunization with RNA polymerase II as an antigen. The antibodies from egg yolk (IgY) were purified and characterized. IgY showed a specificity against DNA-dependent RNA polymerase II, and was a polyclonal antibody against 12 subunits of polymerase II. An amount of 0.35 mg of IgY was obtained freman HPP II-Sepharose affinity column using 10 eggs from a chicken immunized against RNA polymerase II as an antigen. These antibodies can be used for isolating the genes for RNA polymerase II components, and for in vitro transcription assays using HP-RNA polymerase II.

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Inhibition of DNA-dependent Protein Kinase by Blocking Interaction between Ku Complex and Catalytic Subunit of DNA-dependent Protein Kinase

  • Kim, Chung-Hui;Cuong, Dang-Van;Kim, Jong-Su;Kim, Na-Ri;Kim, Eui-Yong;Han, Jin
    • The Korean Journal of Physiology and Pharmacology
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    • 제7권1호
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    • pp.9-14
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    • 2003
  • Recent studies indicated that cancer cells become resistant to ionizing radiation (IR) and chemotherapy drugs by enhanced DNA repair of the lesions. Therefore, it is expected to increase the killing of cancer cells and reduce drug resistance by inhibiting DNA repair pathways that tumor cells rely on to escape chemotherapy. There are a number of key human DNA repair pathways which depend on multimeric polypeptide activities. For example, Ku heterodimer regulatory DNA binding subunits (Ku70/Ku80) on binding to double strand DNA breaks (DSBs) are able to interact with 470-kDa DNA-dependent protein kinase catalytic subunit (DNA-PKcs), and are essential for DNA-dependent protein kinase (DNA-PK) activity. It has been known that DNA-PK is an important factor for DNA repair and also is a sensor-transmitting damage signal to downstream targets, leading to cell cycles arrest. Our ultimate goal is to develop a treatment of breast tumors by targeting proteins involved in damage-signaling pathway and/or DNA repair. This would greatly facilitate tumor cell cytotoxic activity and programmed cell death through DNA damaging drug treatment. Therefore, we designed a domain of Ku80 mutants that binds to Ku70 but not DNA end binding activity and used the peptide in co-therapy strategy to see whether the targeted inhibition of DNA-PK activity sensitized breast cancer cells to irradiation or chemotherapy drug. We observed that the synthesized peptide (HNI-38) prevented DNA-PKcs from binding to Ku70/Ku80, thus resulting in inactivation of DNA-PK activity. Consequently, the peptide treated cells exhibited poor to no DNA repair, and became highly sensitive to IR or chemotherapy drugs, and the growth of breast cancer cells was inhibited. Additionally, the results obtained in the present study also support the physiological role of resistance of cancer cells to IR or chemotherapy.

Temperature-dependent tendency of target DNA translocation through a nanocapillary functionalized with probe DNA

  • Lee, Choongman;Youn, Yeoan;Kim, Joo Hyung;Yoo, Kyung-Hwa
    • 한국진공학회:학술대회논문집
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    • 한국진공학회 2016년도 제50회 동계 정기학술대회 초록집
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    • pp.140.1-140.1
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    • 2016
  • We have measured DNA translocation through a nanocapillary functionalized with probe DNA. These DNA-functionalized nanocapillaries selectively facilitate the translocation of target ssDNAs that are complementary to the probe ssDNAs. In addition, translocation of the complementary target ssDNA exhibits two tendencies to translocation speed, such as fast and slow translocation, whereas that of non-complementary target ssDNA yields only one tendency, fast translocation. These observations suggest that the complementary and non-complementary target ssDNAs may be discriminated due to different interaction strengths between target and probe ssDNAs. The temperature dependence measurements of DNA translocation show that slow translocation events are ascribed to the complementary interaction between probe and target ssDNA. This confirms that their dwell time is dependent on the base-pair binding strength. These results demonstrate that mere single-base different target DNA can be selectively detectable by using the probe DNA-functionalized nanocapillaries.

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HBV Polymerase Residues $Asp^{429}$ and $Asp^{551}$, Invariant at Motifs A and C are Essential to DNA Binding

  • Kim, Youn-Hee;Hong, Young-Bin;Jung, Gu-Hung
    • BMB Reports
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    • 제31권5호
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    • pp.498-502
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    • 1998
  • HBV polymerase shares several regions of amino acid homology with other DNA-directed and RNA-directed polymerases. The amino acid residues $Asp^{429}$, $Gly^{518}$, $Asp^{551}$, $Lys^{585}$, and $Gly^{641}$ in the conserved motifs A, B', C, D, and E in the polymerase domain of HBV polymerase were mutated to alanine or histidine by in vitro site-directed mutagenesis. Those mutants were overexpressed, purified, and analyzed against DNA-dependent DNA polymerase activity and affinity for DNA binding. All those mutants did not show DNA-dependent DNA polymerase activities indicating that those five amino acid residues are all critical in DNA polymerase activity. South-Western analysis shows that amino acid residues $ASp^{429}$ and $ASp^{551}$ are essential to DNA binding, and $Gly^{318}$ and $Gly^{585}$ also affect DNA binding to a certain extent.

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DNA-dependent Protein Kinase Mediates V(D)J Recombination via RAG2 Phosphorylation

  • Hah, Young-Sool;Lee, Jung-Hwa;Kim, Deok-Ryong
    • BMB Reports
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    • 제40권3호
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    • pp.432-438
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    • 2007
  • V(D)J recombination, a site-specific gene rearrangement process occurring during the lymphocyte development, begins with DNA double strand breaks by two recombination activating gene products (RAG1/2) and finishes with the repair process by several proteins including DNA-dependent protein kinase (DNA-PK). In this report, we found that RAG2 was specifically phosphorylated by DNA-PK at the $365^{th}$ serine residue, and this phosphorylated RAG2 affected the V(D)J recombination activity in cells in the GFP expression-based assay. While the V(D)J recombination activity between wild-type RAG2 and mutant S365A RAG2 in the assay using a signal joint substrate was undistinguishable in DNA-PK deficient cells (M059J), the activity with wild-type RAG2 was largely increased in DNA-PK proficient cells (M059K) in comparison with mutant RAG2, suggesting that RAG2 phosphorylation by DNA-PK plays a crucial role in the signal joint formation during V(D)J recombination.