Induction of Hsp70 by Exposure to High-Frequency Electromagnetic Fields at 2.45GHz in Human GliomaMO54 Cells
スポンサーリンク
概要
著者
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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 Junji
Department Of Radiation Genetics Faculty Of Medicine Kyoto University
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Miyakoshi Junji
Radiat. Genet. Grad. Sch. Med. Yoto Univ.
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NAKAHARA Takehisa
Radiat. Genet. Grad. Sch. Med. Kyoto Univ.
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YOSHIDA Masami
Radiat. Genet. Grad. Sch. Med. Kyoto Univ.
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TIAN Furong
Radiat. Genet. Grad. Sch. Med. Kyoto Univ., Radiat. Med. Fourth Military Medical Univ.
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HONDA Naoko
Radiat. Genet. Grad. Sch. Med. Kyoto Univ.
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WAKE Kanako
Comm. Res. Lab.
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TAKI Masao
Grad. Sch. Elec. Engin. Tokyo Metro. Univ.
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Honda Naoko
Radiat. Gene. Grad. Sch. Med. Kyoto Univ.
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Miyakoshi Junji
Department Radiation Genetics Graduate School Of Medicine Kyoto University
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Miyakoshi Junji
Faculty Of Medicine Hirosaki University
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Tian Furong
Radiat. Gene. Grad. Sch. Med. Kyoto Univ.:radiat. Med. Four. Mili. Med. Univ. China
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Miyakoshi Junji
Radiat. Genet. Grad. Sch. Med. Kyoto Univ.
関連論文
- Effects of 2.45 GHz Electromagnetic Fields with a Wide Range of SARs on Bacterial and HPRT Gene Mutations
- Effect of exposure to magnetic fields on cellular response to DNA damage
- 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
- Radiation-induced Reduction of Osteoblast Differentiation in C2C12 cells
- 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
- 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
- Radiosensitization by Overexpression of the Nonphosphorylation Form of IκB-α in Human Glioma Cells
- Analysis of Gene Expression in a Human-derived Glial Cell Line Exposed to 2.45 GHz Continuous Radiofrequency Electromagnetic Fields