Effect of exposure to magnetic fields on cellular response to DNA damage
スポンサーリンク
概要
著者
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Koana Takao
Biotechnology Laboratory,Railway Technical Research Institute
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Miyakoshi Junji
Dep. Of Radiological Life Sciences Div. Of Medical Life Sciences Graduate School Of Health Sciences
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Miyakoshi J
Department Of Radiological Technology School Of Health Sciences Faculty Of Medicine Hirosaki Univers
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Takashima Yoshio
Dep. Of Radiological Technol. School Of Health Sciences Fac. Of Medicine Hirosaki Univ.
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Takashima Yoshio
Department Of Built Environment Interdisciplinary Graduate School Of Science And Engineering Tokyo I
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Takashima Yoshio
Built Environ. Tokyo Inst. Tech.
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Ikehara Masateru
Biotechnology Laboratory Railway Technical Research Institute
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Koana Takao
Low Dose Radiation Research Center Central Research Institute Of Electric Power Industry
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Koana Takao
弘前大学 医学部保健学科
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Koana Takao
Biotech. Lab. Environ. Engineer. Div. Railway Tech. Res. Inst.
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Koana Takao
Environ Biotech Lab Railway Tech Res. Inst.
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IKEHATA Masateru
Biotechnology Laboratory, Railway Technical Research Institute
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Ikehata Masateru
Biotechnology Laboratory Railway Technical Research Institute
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Ikehata Masateru
Biotech. Lab. Environ. Engineer. Div. Railway Tech. Res. Inst.
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Ikehata Masateru
Environ Biotech Lab Railway Tech Res. Inst.
関連論文
- Exposure to a power frequency magnetic field(50Hz,40mT) did not cause point mutation in bacteria
- Effects of 2.45 GHz Electromagnetic Fields with a Wide Range of SARs on Bacterial and HPRT Gene Mutations
- A Threshold in the Muagenesis by X-ray in Drosophila
- Isolation and Characterization of a Mixed Culture That Degrades Polychlorinated Biphenyls(Microbiology & Fermentation Industry)
- Complete Degradation of Polychlorinated Biphenyls by a Combination of Ultraviolet and Biological Treatments
- Genotoxic Effects of Strong Static Magnetic Fields in DNA-Repair Defective Mutants of Drosophila melanogaster
- 132 Inhibition of UV-induced G1 arrest by exposure to 50Hz magnetic fields in repair-proficient and -deficient yeast strains(Effects of electro-magnetic fields, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Effect of exposure to magnetic fields on cellular response to DNA damage
- Synergetic effect of static magnetic fields and chemical mutagens.
- Induction of chromosomal recombination by magnetic field exposure and its possible mechanism.
- Increase in the mitotic recombination frequency by magnetic field exposure
- Somatic recombination induced by an extremely low frequency electromagnetic field and suggested involvement of the induced current.
- Detection of the effect of strong static magnetic fields on chemical mutagenesis using bacterial mutagenicity test.
- Effect of strong static magnetic fields on mutation frequency and gene expression in Saccharomyces cerevisiae.
- Mutagenicity of strong static magnetic fields
- Chromosomal aberration induced by exposure to ELF magnetic fields.
- Exposure to magnetic field (5 mT at 60 Hz) does not affect cell growth and c-myc gene expression
- Exposure to Strong Magnetic Fields at Power Frequency Potentiates X-ray-induced DNA Strand Breaks
- Sensitization to DNA Damaging Agents by Inhibition of IκB-α Phosphorylation in Human Glioma Cells
- Effect of Extremely Low Frequency Magnetic Field on DNA Damage by The Comet Assay Method.
- Effect of Extremely Low Frequency Magnetic Field on Chromosomal Aberrations
- Extremely Low Frequency Magnetic Fields Suppress the Reduction of Germination Rate of Arabidopsis thaliana Seeds Kept in Saturated Humidity(Biochemistry & Molecular Biology)
- Stimulating effect of extremely low frequency magnetic field on the germination of Arabidopsis thaliana seeds
- Induction of Kinetochore Positive and Negative Micronuclei by X-rays and/or ELF Magnetic Field in CHO Cells
- Static Magnetic Fields Has Little Effect for Gene Expression and Ligation Efficiency in in vitro
- Influence of Strong Static Magnetic Fields (10T) in Cultured Mammalian Cells
- Modification of radiosensitivity of human melanoma G361 cells by transfection with p85 of PI 3-kinase in Tet-Off expression system
- Induction of Hsp70 by Exposure to High-Frequency Electromagnetic Fields at 2.45GHz in Human GliomaMO54 Cells
- Spectrum analysis of Mutations on the hprt Gene in CHO-K1 Cells Induced by Extremely Low Frequency Magnetic Fields (ELFMF)
- Effect of High Frequency Electromagnetic Fields on Cell Proliferation, Mutations and DNA Strand Breaks.
- Cellular effects of extremely low frequency magnetic fields
- Radiosensitization by Inactivation of Transcriptional Regulatory Factor, NF-κB in Human Brain TumorMO54 Cells
- Increased Radiosensitivity of p16 Gene-deleted Human Glioma Cells after Transfection with Wild-type p16 Gene
- POWER-FREQUENCY MAGNETIC FIELDS ENHANCES TELOMERASE ACTIVITY INDUCED BY X-RAYS IN CHO-KI CELLS
- Enhanced radiosensitivity by inhibition of nuclear factor κB activation in human malignant glioma cells
- Effect of Extremely Low Frequency Magnetic Field on Chromosomal Aberrations and Point Mutations Using Mouse Lymphoma Assay
- Cell cycle dependence of mutation induction by extremely low frequency magnetic fields
- Increase in X-ray-induced Mutations by Exposure to Magnetic Field (60 Hz, 5 mT) in NF-kB-inhibited Cells
- Spectrum Analysis of the Mutations on the hprt Gene Induced in by Extremely Low Frequency Magnetic Fields (ELFMF)
- A newly designed experimental system for exposure of mammalian cells to strong static magnetic fields.
- X ray-induced mutations were reduced by expression of wild-type p53 in human osteosarcoma cells
- Types and Spectrum of the Mutations that Abolish the Activity of Cell Growth Inhibition in UV-Irradiated p21(sdi1/waf1/cip1) cDNA
- Exposures to power-frequency magnetic field and X-rays induce GAP-43 gene expression in human glioma MO54 cells
- Exposure to 50 Hz Magnetic Field Enhances fi-galactosidase Activity in Rat PC12-VG Cells
- The Effect of Extremely Low Frequency Magnetic Field on Transformation Frequency.
- Mutation Induction by Extremely Low Frequency Magnetic Fields
- Effect of High-density Extremely Low Frequency Magnetic Field on Sister Chromatid Exchange.
- Exposure to 50 Hz Magnetic Field Enhances β-galactosidase Activity in Rat PC12-VG Cells
- Changes in Radiation Sensitivity of Human Osteosarcoma Cells after p53 Introduction
- Enhanccd expression of 13-galactosidase gene by cxtrcmely low frequency magnetic field in PCVG cells.
- Introduction of Wild-Type p53 Gene in Human Osteosarcomna Cells (II) The Analysis on Radiosensitization
- Introduction of wild-type p53 gene in human osteosarcoma cells. (I) The sensitivity of cells to radiation and chemical DNA-damaging agents.
- Induction of β-galactosidase gene expression by extremely low frequency magnetic field in PCVG cells.
- Changes in Radiosensitivity by SV40 T-Antigen in Human Normal and Glioma Cells.
- Radiation Induced Gene Expression in Human Melanoma Cells in Relation to Radiosensitivity
- Effect of Static Magnetic Field on the Induction of Micronuclei by Some Mutagens
- Effects of 2450 MHz Electromagnetic Fields with a Wide Range of SARs on Methylcholanthrene-induced Transformation in C3H10T1/2 Cells
- Combined Exposure of ELF Magnetic Fields and X-rays Increased Mutant Yields Compared with X-rays Alone in pTN89 Plasmids
- 131 Effects of the Strong Static Magnetic Field on the Expression of Proto-oncogenes in HL-60 Cells(Effects of electro-magnetic fields, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- 129 Effect of Extremely Low Frequency Electromagnetic Fields (ELFMF) on Mutations in pTN 89 Plasmids(Effects of electro-magnetic fields, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Exposure to Storng Static Magnetic Field Enhances Production of Superoxide Radicals in E. coli
- Analysis of Gene Expression in a Human-derived Glial Cell Line Exposed to 2.45 GHz Continuous Radiofrequency Electromagnetic Fields
- Development of exposure system of intermediate frequency magnetic fields for in vitro research and evaluation of mutagenisity of the magnetic fields by bacterial mutation test(Mutagenicity, Proceedings of the 32nd Annual Meeting)