Two-Dimensional Electrophoretic Analysis of Radio Frequency Radiation-Exposed MCF7 Breast Cancer Cells
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概要
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Although many in vitro studies have previously been conducted to elucidate the biological effects of radio frequency (RF) radiation over the past decades, the existence and nature of any effects is still inconclusive. In an effort to further elucidate this question, we have monitored changes in protein expression profiles in RF-exposed MCF7 human breast cancer cells using two-dimensional gel electrophoresis. MCF7 cells were exposed to 849 MHz RF radiation for 1 h per day for three consecutive days at specific absorption rates (SARs) of either 2 W/Kg or 10 W/kg. During exposure, the temperature in the exposure chamber was kept in an isothermal condition. Twenty-four hours after the final RF exposure, the protein lysates from MCF cells were prepared and two-dimensional electrophoretic analyses were conducted. The protein expression profiles of the MCF cells were not significantly altered as the result of RF exposure. None of the protein spots on the two-dimensional electrophoretic gels showed reproducible changes in three independent experiments. To determine effect of RF radiation on protein expression profiles more clearly, three spots showing altered expression without reproducibility were identified using electrospray ionization tandem mass spectrometry analysis and their expressions were examined with RT-PCR and Western blot assays. There was no alteration in their mRNA and protein levels. As we were unable to observe any significant and reproducible changes in the protein expression profiles of the RF radiation-exposed MCF7 cells using high throughput and non-high throughput techniques, it seems unlikely that RF exposure modulates the protein expression profile.
- 2010-03-16
著者
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KIM Ki-Bum
School of Life Sciences and Biotechnology, Korea University
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BYUN Hae-Ok
Division of Radiation Cancer Research, Korea Institute of Radiological and Medical Sciences
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HAN Na-Kyung
Division of Radiation Cancer Research, Korea Institute of Radiological and Medical Sciences
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KO Young-Gyu
School of Life Sciences and Biotechnology, Korea University
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CHOI Hyung-Do
EM Environment Research Team, Electronics and Telecommunications Research Institute
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KIM Nam
School of Electrical and Computer Engineering, Chungbuk National University
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PACK Jeong-Ki
Department of Radio Sciences and Engineering, Chungnam National University
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LEE Jae-Seon
Division of Radiation Cancer Research, Korea Institute of Radiological and Medical Sciences
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Kim Ki-bum
School Of Life Sciences And Biotechnology Korea University
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Choi Hyung-do
Em Environment Research Team Electronics And Telecommunications Research Institute
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Byun Hae-ok
Division Of Radiation Cancer Research Korea Institute Of Radiological And Medical Sciences
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Lee Jae-seon
Division Of Radiation Cancer Research Korea Institute Of Radiological And Medical Sciences
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Han Na-kyung
Division Of Radiation Cancer Research Korea Institute Of Radiological And Medical Sciences
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Ko Young-gyu
School Of Life Sciences And Biotechnology Korea University
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Pack Jeong-ki
Department Of Radio Sciences And Engineering Chungnam National University
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Pack Jeong-ki
Department Of Radio Science & Engineering Chungnam National University
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Kim Nam
School Of Electrical And Computer Engineering Chungbuk National University
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Lee Jae-seon
Division Of Radiation Cancer Research Korea Institute Of Radiological & Medical Sciences
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Han Na-kyung
Division Of Radiation Cancer Research Korea Institute Of Radiological & Medical Sciences
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Choi Hyung-do
Em Environment Res. Team Electronics And Telecommunications Res. Inst.
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Kim Nam
School Of Electrical And Computer Engineering Chungbuk National Univ.
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KIM Nam
School of Architecture and Architectural Engineering, Korea University of Technology and Education
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