• 제목/요약/키워드: DNA double-strand breaks

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${\gamma}-Ray$ 조사에 따른 사람의 정상임파구와 마우스 정상임파구의 DNA Double Strand Break 발생율에 대한 비교분석 (Evaluation of DNA Double Strand Breaks in Human and Mouse Lymphocyte Following ${\gamma}-Irradiation$)

  • 김태환;김성호;정인용;조철구;고경환;류성렬
    • Radiation Oncology Journal
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    • 제11권2호
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    • pp.219-225
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    • 1993
  • 각 방사선량의 조사에 따른 사람 정상임파구, 마우스 정상임파구, 그리고 EL-4마우스 백혈병 세포의 DNA double strand breaks 발생율에 대하여 비교분석 하였던 바 다음과 같은 결과를 얻었다. LPS와 PHA를 첨가하여 각각 배양한 마우스 정상임파구의 DNA double strand breaks의발생율을 strand scission factor의 기울기로 비교평가해 본 바 LPS를 첨가배양한 군이 DNA DSB가 더 많이 형성되었다(P<0.005). 이것으로 볼 때 DNA double strand breaks발생에 있어서는 B cells이 T cells보다 더 민감하였다. 또한 EL-4 백혈병 세포는 정상 임파구보다 유의하게 DNA DSB가 더 많이 형성된 것이 관찰되었다(p<0.005). 한편 사람 정상임파구와 마우스 정상임파구 사이의 intrinsic radiosensitivity는 시험관내 실험에서 비교적 유사한 kinetics를 나타냈으나, 마우스 정상임파구가 사람 정상임파구보다 DNA DSB수율이 더 낮았다. 그래서 방사선을 조사하고 3.5시간이 지난후에 $10\%$ DNA DSB발생에 필요한 선량을 두 군간에 비교평가해 본 바 마우스 정상임파구의 선량이 더 높게 나타났다. 이상의 실험결과를 정확하게 설명하기는 어 렵지만 아마도 환경적인 요인과 유전적인 요인 때문인 것으로 사료되었다. 그리고 본 연구결과는 방사선조사에 따른 임상반응의 이해와 cytometric assessment의 방사선 생물학적 parameter로 이용될 수 있을 것으로 판단되었다.

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DNA Strand Breaks in Mitotic Germ Cells of Caenorhabditis elegans Evaluated by Comet Assay

  • Park, Sojin;Choi, Seoyun;Ahn, Byungchan
    • Molecules and Cells
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    • 제39권3호
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    • pp.204-210
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    • 2016
  • DNA damage responses are important for the maintenance of genome stability and the survival of organisms. Such responses are activated in the presence of DNA damage and lead to cell cycle arrest, apoptosis, and DNA repair. In Caenorhabditis elegans, double-strand breaks induced by DNA damaging agents have been detected indirectly by antibodies against DSB recognizing proteins. In this study we used a comet assay to detect DNA strand breaks and to measure the elimination of DNA strand breaks in mitotic germline nuclei of C. elegans. We found that C. elegans brc-1 mutants were more sensitive to ionizing radiation and camptothecin than the N2 wild-type strain and repaired DNA strand breaks less efficiently than N2. This study is the first demonstration of direct measurement of DNA strand breaks in mitotic germline nuclei of C. elegans. This newly developed assay can be applied to detect DNA strand breaks in different C. elegans mutants that are sensitive to DNA damaging agents.

방사선 조사에 의한 DNA Double Strand Breaks의 생성 및 회복에 미치는 인삼 알칼로이드 분획의 효과 (The Effects of Alkaloid Fraction of Korean Ginseng on the Radiation-Induced DNA Strand Breaks)

  • 조철구;김태환;류성렬;고경환;김미숙;김정희;김성호;윤형근;지영훈
    • Radiation Oncology Journal
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    • 제13권2호
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    • pp.113-120
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    • 1995
  • Purpose : To investigate the effect of alkaloid fraction from Korean ginseng on radiation-induced DNA double strand breaks (dsb) formation and repair in murine lymphocytes Materials and Methods : We used the neutral filter elution technique to assay $^{60}Co\;{\gamma}$ ray-induced DNA double strand breaks formation and repair in C57BL/6 mouse spleen lymphocytes for evaluating the dose-response relationship in the presence of alkaloid fraction as a radioprotective agent. The lymphocytes were stimulated with Phytohemagglutinin (PHA, 2 u g/ml) to label $^3[H]-thymidine.$ Isotope-labelled lymphocytes in suspension were exposed to 100 Gy at $0^{\cdot}C$ in the alkaloid fraction-treated group and elution procedure was performed at PH 9.6. The extents of formation of radiation-induced DNA double strand breaks and repair were compared respectively via strand scission factor (SSF) and relative strand scission factor (RSSF). Results: Alkaloid fraction reduced the formation of double strand breaks with dose modification factor of 2 15, compared to control group Rejoining of DNA dsb appeared to take place via two components. The first fast component was completed within 20.4 minutes, but the second slow component was not completed until 220.2 minutes after irradiation. About $30\%$ of dsb formed by irradiation was ultimately unrejoined despite the administration of alkaloid fraction. The administration of alkaloid fraction had a great effect on the second slow component of repair; the half-time of fast component repair was not changed, but that of slow component was 621.8 minutes. Conclusion: Neutral filter elution assay Proved to be a very effective method to quantitate the extents of DNA dsb formation and its repair. By using this technique, we were able to evaluate the efficiency of alkaloid fraction from Korean ginseng as a valuable radioprotector. Alkaloid fraction can be used prophylactically to prevent or ameliorate the severe radiation damages in workers and neighbors around the atomic power plants. For more refined study, however, more advanced purification of alkaloid fraction wil be needed in the near future.

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식이엽산함량이 흰쥐의 면역세포의 엽산농도와 알칼리 처리후의 DNA 이중 나산선 잔존율에 미치는 영향 (Effects of Dietary Folate Content on Folate Concentration and DNA Strand Breaks after Alkaline Treatment in Immune Cells)

  • 장남수
    • Journal of Nutrition and Health
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    • 제32권6호
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    • pp.654-660
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    • 1999
  • Folate, a precursor of the coenzyme tetrahydrofolate, plays an important role in DNA replication and cell proliferation, and thus could influence rapidly proliferating immune cells such as leukocytes and splenocytes. The effects of dietary folate on folate concentrations of plasma, thymus, spleen and leukocytes were investigated in rats. The animals were raised for 6 weeks on semipurifed experimental diets containing 0mg, 2mg, 4mg, 8mg folate/kg diet. Folate concentrations were determined microbiologically using Lactobacillus casei(ATCC 7469), and DNA strand breaks produced by alkaline treatment were analyzed fluorometrically. When compared to folate adequate diet, the folate deficient diet(0mg folate/kg diet) resulted in lowest folate levels in plasma, thymus, spleen and leukocytes, and the highest DNA strand breaks in spleen cells and leukocytes. Dietary folate levels significantly increased folate concentrations of immune tissues, leukocytes, and the plasma in a dose dependent manner, folate concentrations being highest with a diet providing 8mg folate/kg diet. The percentages of the double strand DNA remaining in the splenocytes and leukocytes after alkaline treatment were significantly increased with higher amounts of dietary folate in a dose dependent manner. Folate intakes of 8mg than 4mg/kg diet was found to be more effective in the prevention of DNA strand breaks. The results of this study suggest that increased folate above the requirement level could improve DNA stabilities in immune cells.

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방사선에 의한 EL4 마우스 백혈병세포 및 정상 마우스 비장 임파구 DNA strand breaks의 측정 (Radiation-induced DNA strand breaks in EL4 cells and mouse spleen lymphocytes)

  • 김성호;김태환;정인용;류성렬;조철구;진수일
    • 대한수의학회지
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    • 제31권3호
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    • pp.329-335
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    • 1991
  • The filter elution technique was used to assay $^{60}Co$ $\gamma$ ray-induced DNA strand breaks(SB) in EL4 mouse leukemia cell and mouse spleen lymphocyte. The lymphocytes were stimulated with lipopolysaccharide (LPS, $20{\mu}g/ml$) to label $[^3H]$ thymidine. EL4 cells and lymphocytes in suspension were exposed at $0^{\circ}C$ to 0Gy, 1Gy, 5Gy, 10Gy or l5Gy for DNA single strand breaks(SSB) assay and 0Gy, 25Gy, 50Gy, 75Gy or 100Gy for DNA double strand breaks(DSB) assay of $^{60}Co$ radiation and elution procedure was performed at pH12.1 and 9.6. The number of DNA strand breaks increased with increasing doses of r rays. The strand scission factor(SSF) was estimated in each experiment (eluted volume 21ml). The slope of SSB EL4 cells was $0.01301{\pm}0.00096Gy^{-1}$ (n=5), the slope of SSB for lymphocytes was $0.01097{\pm}0.00091Gy^{-1}$ (n=5) and the slope of DSB for lymphocytes was $0.001707{\pm}0.0000573Gy^{-1}$ (n=5). Thus EL4 cells were more sensitive to induction of DNA SSB by ionizing radiation than lymphocytes (p<0.005). The ratio of slope of dose-response relationship (SSF versus dose) of lymphocytes DNA SSB as compared with the slope of DNA DSB was 6.4.

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Metal Effects of Urban Air Particulates on Cytokine Production and DNA Damage

  • Lee, Kwan-Hee;Hong, Yun-Chul
    • Toxicological Research
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    • 제17권4호
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    • pp.255-265
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    • 2001
  • Epidemiologic studies have demonstrated an association between short-term exposure to particulate air pollutants and increased mortality. However the biological mechanism underlying these associations have not been fully established and also the chemical and physical characteristics of the pollutant particles are not well understood. The metal constituents of air pollutant particles and their bioavailability are considered to Play an important role as possible mediators of Particle-induced airway injury and inflammation. Sprague-Dawley rat alveolar macrophage cells (NR8383) were exposed to airborne and acid-leached particulate matter (PM). Titanium oxide and nickel subsulfide were used as negative and positive controls. Particle-induced reactive oxygen species formation in cells was detected using the fluorescent probe 2',7'-dichlorofluorescin diacetate. Expression of TNF-$\alpha$ and IL-6 were measured by enzyme-linked immunosorbent assay, and PM-induced DNA double-strand breaks were determined with $\lambda$DNA/Hind III marker. Metals associated with air pollutant particles mediated intracellular oxidant production in alveolar macrophages, and the cytotoxicity and proinflammatory cytokine production induced by PM were associated with oxidative stress. The oxidants produced by air pollutant particles also are likely to induce DNA double-strand breaks. Our findings in alveolar macrophage cells exposed to PM and acid-leached PM support the hypothesis that metal components in urban air pollutants and their bioavailabilities might play an Important role in the induction of the adverse health effects.

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DNA 이중나선파손의 수복 과정과 이와 연관된 두경부암 발생 유전자 (PATHWAYS AND GENES OF DNA DOUBLE-STRAND BREAK REPAIR ASSOCIATED WITH HEAD AND NECK CANCER)

  • 오정환;이덕원;류동목
    • Journal of the Korean Association of Oral and Maxillofacial Surgeons
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    • 제35권1호
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    • pp.1-6
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    • 2009
  • DNA double-strand breaks (DSBs) occur commonly in the all living and in cycling cells. They constitute one of the most severe form of DNA damage, because they affect both strand of DNA. DSBs result in cell death or a genetic alterations including deletion, loss of heterozygosity, translocation, and chromosome loss. DSBs arise from endogenous sources like metabolic products and reactive oxygen, and also exogenous factors like ionizing radiation. Defective DNA DSBs can lead to toxicity and large scale sequence rearrangement that can cause cancer and promote premature aging. There are two major pathways for their repair: homologous recombination(HR) and non-homologous end-joining(NHEJ). The HR pathway is a known "error-free" repair mechanism, in which a homologous sister chromatid serves as a template. NHEJ, on the other hand, is a "error-prone" pathway, in which the two termini of the broken DNA molecule are used to form compatible ends that are directly ligated. This review aims to provide a fundamental understanding of how HR and NHEJ pathways operate, cause genome instability, and what kind of genes during the pathways are associated with head and neck cancer.

효모 감수분열과정에서의 유전자 재조합 기전 특이적 DNA 중간체의 구조 변화 (Identification of Meiotic Recombination Intermediates in Saccharomyces cerevisiae)

  • 성영진;윤상욱;김근필
    • 미생물학회지
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    • 제49권1호
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    • pp.1-7
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    • 2013
  • 유전자 재조합체는 상동염색체간의 예정된 DNA 가닥 전이와 교환이 이루어지는 상동염색체 재조합 과정에 의하여 생성된다. 이 재조합 경로는 DNA 이중 가닥 절단(double-strand breaks, DSBs)에 의해서 개시되며, 전이 과정의 중간단계에서 DNA의 구조적 변이 중간체인 단일 가닥 침투(single-end invasions, SEIs)와 이중 홀리데이 접합(double-Holliday junctions, dHJs)이 형성되어 교차성(crossover, CO) 혹은 비교차성(non-crossover, NCO) 결과물이 만들어진다. 본 연구는 이중 가닥 절단, 단일 가닥 침투, 이중 홀리데이 접합과 같은 재조합 중간체와 재조합 결과물의 구조분석에 초점을 두고, 이를 출아효모에서 인위적으로 이중 가닥 절단을 발생시킬 수 있는 HIS4LEU2 "hot spot" 을 이용한 물리적 분석방법으로 감수분열 재조합 중간체를 규명하였다. 물리적 분석을 위하여 동조화 된 세포에 감수분열을 유도한 후 hot spot 자리를 인식하는 제한효소를 처리하면, 재조합 중간체를 형성하고 있는 DNA 단편들을 Southern 분석법을 통해 탐지 및 정량 할 수 있다. 본 연구는 이 시스템으로 감수분열에서 이중가닥 절단으로부터 기인하는 단일 가닥 침투, 이중 홀리데이 접합 그리고 교차성/비교차성 재조합체로 전이되는 DNA의 구조 다형을 분석할 수 있음을 제시한다.

XPS STUDY ON DNA DAMAGE BY LOW-ENERGY ELECTRON IRRADIATION

  • Noh, Hyung-Ah;Cho, Hyuck
    • Journal of Radiation Protection and Research
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    • 제36권4호
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    • pp.190-194
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    • 2011
  • After the first report that electrons with sub-ionization energy of DNA could cause single strand breaks or double strand breaks to DNA, there have been various studies to investigate the mechanisms of DNA damage by low-energy electrons. In this paper, we examined the possibility of using X-ray photoelectron spectroscopy (XPS) to analyze the dissociation patterns of the molecular bonds by electron irradiation on DNA thin films and tried to establish the method as a general tool for studying the radiation damage of biomolecules by low energ yelectrons. For the experiment, pBR322 plasmid DNA solution was formed into the films on tantalum plates by lyophilization and was irradiated by 5-eV electrons. Un-irradiated and irradiated DNA films were compared and analyzed using the XPS technique.

Gamma-Irradiation and Doxorubicin Treatment of Normal Human Cells Cause Cell Cycle Arrest Via Different Pathways

  • Lee, Seong Min;Youn, BuHyun;Kim, Cha Soon;Kim, Chong Soon;Kang, ChulHee;Kim, Joon
    • Molecules and Cells
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    • 제20권3호
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    • pp.331-338
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    • 2005
  • Ionizing radiation and doxorubicin both produce oxidative damage and double-strand breaks in DNA. Double-strand breaks and oxidative damage are highly toxic and cause cell cycle arrest, provoking DNA repair and apoptosis in cancer cell lines. To investigate the response of normal human cells to agents causing oxidative damage, we monitored alterations in gene expression in F65 normal human fibroblasts. Treatment with ${\gamma}$-irradiation and doxorubicin altered the expression of 23 and 68 known genes, respectively, with no genes in common. Both agents altered the expression of genes involved in cell cycle arrest, and arrested the treated cells in $G_2M$ phase 12 h after treatment. 24 h after ${\gamma}$-irradiation, the percentage of $G_1$ cells increased, whereas after doxorubicin treatment the percentage of $G_2M$ cells remained constant for 24 h. Our results suggest that F65 cells respond differently to ${\gamma}$-irradiation- and doxorubicin-induced DNA damage, probably using entirely different biochemical pathways.