Deficiency of Nucleotide Excision Repair and Genetic Instability
スポンサーリンク
概要
著者
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KOIKE Manabu
Genome Res. Group, Natl. Inst. Radiol. Sci.
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SHIOMI Naoko
Genome Res. Group, Natl. Inst. Radiol. Sci.
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SHIOMI Tadahiro
Genome Res. Group, Natl. Inst. Radiol. Sci.
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Manabu Koike
Radiation Hazards Research Group National Institute Of Radiological Sciences
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Harada Yoshinobu
Genome Research Group National Institute Of Radiological Sciences
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Shiomi Tadahiro
Radgenomics Research Group Research Center For Charged Particle Therapy National Institute Of Radiol
関連論文
- Dynamics of Ku80 in Living Hamster Cells with DNA Double-Strand Breaks Induced by Chemotherapeutic Drugs
- Characterization of Ninjurin and TSC22 induction after X-irradiation of normal human skin cells
- Chromosomal localization of the mouse DNA double-strand break repair gene Ku p70 and Ku p80/XRCC5.
- 87 Analysis of XRCC4 in human somatic cells by gene targeting technique(Repair of radiation damage, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Differential Subcellular Localization of DNA-Dependent Protein Kinase Components Ku and DNA-PKcs during Mitosis
- The Establishment and Characterization of Cell Lines Stably Expressing Human Ku80 Tagged with Enhanced Green Fluorescent Protein
- Histone H2AX Phosphorylation Independent of ATM after X-irradiation in Mouse Liver and Kidney in situ
- p53 Phosphorylation in Mouse Skin and In vitro Human Skin Model by High-dose-radiation Exposure
- Characterization of ATF3 Induction after Ionizing Radiation in Human Skin Cells
- The subcellular Localization and Nuclear Localization Signal of DNA double-strand break repair protein Ku
- Deficiency of Nucleotide Excision Repair and Genetic Instability
- Genetic Instability in Cells from xpg-knockout Mice
- Sensitivity to Oxidative Damages for Cells from xpg-knockout Mice
- Construction of a Xeroderma Pigmentsum Group G Model Mouse Strain
- Differences in Sensitivity to DNA-damaging Agents between XRCC4- and Artemis-deficient Human Cells
- The Nuclear Localization Signal of the Human Kuc Is Recognized by the Components of Nuclear Pore-targeting Complex