Analysis of Mutations in the Human HPRT Gene Induced by Heavy-ion Irradiation II

スポンサーリンク

概要

• 論文の詳細を見る
• 日本放射線影響学会の論文

著者

• EGUCHI-KASAI Kiyomi

  NIRS

• FURUSAWA Yoshiya

  National Institute of Radiological Sciences

• Katoh Takeshi

  The Institute Of Physical And Chemical Research

• Futami Yasuyuki

  茨城県立医療大学 放射線技術科学科

• Futami Yasuyuki

  Dvisin Of Accelerator Physics And Engineering National Institite Of Radiological Sciences Chiba Japa

• WATANABE Masami

  Nagasaki Univ.

• Inabe Naohito

  Riken

• YATAGAI Fumio

  IPCR

• Eguchi‐kasai K

  National Inst. Radiological Sci. Chiba Jpn

• Eguchi Kasai

  Research Center For Radiation Protection National Institute Of Radiological Sciences

• Kasai Kiyomi

  Division Of Radiobiology & Biodosimetry National Institute Of Radiological Sciences

• Hanaoka Fumio

  Riken:graduate School Of Frontier Biosciences Osaka University

• Hanaoka Fumio

  Osaka Univ. Inst. Mol. Cell. Biol.

• Hanaoka F

  Inst. Physical And Chemical Res. Saitama Jpn

• Hanaoka Fumio

  The Institute Of Physical And Chemical Research

• Kato Takesi

  Osaka Univ. Fac. Of Med. Department Of Radiation Biology.

• Kato Takesi

  Osaka Univ. Fac. Of Med. Department Of Radiation Biology

• HIRANO MASAHIKO

  Toray Research Center Inc.

• KAGAWA Yasuhiro

  The Institute of Physical and Chemical Research

• Yatagai F

  Riken Saitama Jpn

• Yatagai Fumio

  Division Of Radioisotope Technology Riken

• Yatagai Fumio

  Inst. Phys. Chem. Res.

• Yatagai Fumio

  Division Of Radioisotope Technology The Institute Of Physical And Chemical Research

• Yatagai Fumio

  Ri Inst. Phys. Chem. Res.

• KATO Takesi

  RI Tech. Div. RIKEN

• KAGAWA Yasuhiro

  Toray Res. Center

• SHIMAZU Tuneo

  Toray Res. Center

• YATAGAI Fumio

  RIKFN.

• INABE Naohito

  RIKFN.

• Eguchi-KASAI Kiyomi

  NIRS.

• FURUSAWA Yoshiya

  NIRS.

• SUZUKI Masao

  NIRS.

• HANAOKA Fumio

  RIKFN.

• Suzuki Masao

  Heavy-ion Radiobiology Res. Group National Inst. Radiological Sciences

• Hanaoka Fumio

  Riken &osaka Univ.

• Yatagai F

  Division Of Radioisotope Technology Riken

• Watanabe M

  Nagasaki University

• Watanabe Masami

  京都大学原子炉実験所 粒子線生物学研究分野

• Furusawa Yoshiya

  高エネルギー加速器研究機構物質構造科学研究所

• Yatagai Fumio

  理化学研究所

• Watanabe Masani

  Division Of Radiation Biology Faculty Of Pharmacology Of Science Nagasaki University

• Hirano Masahiko

  Toray Res. Center

• Yatagai F

  Riken Institute

• Hanaoka Fumio

  Riken : Osakauniv.

• Hanaoka Fumio

  Cellular Physiol. Riken

• KATO Takesi

  Osaka Univ. , Fac. of Med. , Department of Radiation Biology

関連論文

• Two Major Factors Involved in the Reverse Dose-rate Effect for Somatic Mutation Induction are the Cell Cycle Position and LET Value
• Reversed dose-rate effect of high LET radiation in mutation induction
• Induction of Micronuclei in Germinating Onion Seed Root Tip Cells Irradiated with High Energy Heavy Ions
• Heavy ion CT system based on measurement of residual range distribution
• Heavy Ion CT Reconstructed from Residual Range Distribution Measured by Range Shifter and Fluoroscopy System
• Sensitometric Properties in Heavy Ion Radiography
• Residual range distribution measured by heavy ion radiography
• Study of the ^7Be (p,γ)^8B Reaction with the Coulomb Dissociation Method
• PE-328 Heavy Ion Radiation Upregulates Connexin43 and Ameliorates the Substrates for VT/VF in Rabbit Hearts after Myocardial Infarction(Arrhythmia, basic-4 (A) PE55,Poster Session (English),The 70th Anniversary Annual Scientific Meeting of the Japanese Ci
• Electrical Inhomogeneity and Instability of Rabbit Ventricles after Non-Transmural Myocardial Infarction : A High-Resolution Optical Mapping Analysis(Arrhythmia, Basic 2 (A), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• Heavy Ion Radiation Ameliorates the Substrates for VT/VF in Rabbit Hearts after Myocardial Infarction(Arrhythmia, Basic 1 (A), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• Proton dosimetry intercomparison based on the ICRU protocol
• Development of a Radio-sensitive Mutation System for the Study of Dose Rate Effects of Space High LET Radiation
• RBE and Dose Distribution of Heavy Ion Beams.
• The effects of cell death and mutatlon induction lrradiated with acceterated carbon ion beams with spread out Bragg peak.
• LET spectra of HZE particle beams in a tissue-equivalent material
• Measurements of HIMAC Therapy Beam Qualities
• LET dependence of biological effects in normal human cells irradiated wfth accelerated neon ions.
• Protective Effects of Melatonin Against Low- and High-LET Irradiation
• Repair of Skin Damage During Fractionated Irradiation with Gamma Rays and Low-LET Carbon Ions
• Biological Gain of Carbon-ion Radiotherapy for the Early Response of Tumor Growth Delay and against Early Response of Skin Reaction in Mice
• 269 Significance of beta term in carbon-ion radiotherapy(Bases of radiotherapy, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• 265 Relationship between RBE values of Carbon Ion and Tumor Growth Rate(Bases of radiotherapy, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• 258 Different Responses of Malignant Melanomas and Squamous Cell Carcinomas to X-rays and Heavy-ion Beams-II(Bases of radiotherapy, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• Radioprotective Effects of Beer on Radiation-Induced Acute Toxicity in Mice
• Dependence of Gut-crypt Sensitivity on the Time Interval between Two Fractions of Carbon Ion Radiation
• Tumor Growth Rate and RBE values of high LET Carbon Ions
• Dependence of Carbon-Ion RBE on Dose Size -Difference between Skin and Tumors
• Different Responses of Malignant Melanomas and Squamous Cell Carcinomas to X-rays and Heavy-ion Beams
• Relative Biological Effectiveness of 290 MeV/u Carbon Ions for the Growth Delay of a Radioresistant Murine Fibrosarcoma
• Synthesis and Evaluation of 4-Bromo-1-(3-[^F]fluoropropyl)-2-nitroimidazole with a Low Energy LUMO Orbital Designed as Brain Hypoxia-Targeting Imaging Agent
• RBE of Carbon Ions for Tumor Growth Delay
• Fractionated irradiation with carbon ions induced resistance in mouse gut crypt cells
• Relative Biological Effectiveness of the 235 MeV Proton Beams at the National Cancer Center Hospital East
• Effects of sequentially mixed LET on tumor growth delay
• Fractionated irradiation with carbon ions to gut intestinal crypt cells
• Qualitative and quantitative difference in mutation induction between carbon- and neon-ion beams in normal human cells
• Cellular Responses after Heavy-ion Exposure
• Analysis of Mutations in the Human HPRT Gene induced by High LET Heavy-ion Irradiation
• Analysis of Mutations in the Human HPRT Gene Induced by Heavy-ion Irradiation II
• Biological effects of heavy-ion irradiation on DNA double-strand breaks repair deficient mutant cell line
• Biological data for heavy-ion radiation therapy
• Analysis of Survival Curve Parameters caused by High-LET Accelerated Ion Beams, Cell Strains, and LETS
• Chromosome Aberrations Induced by Neon lon Beams Produced by RIKEN Ring Cyclotron in human lymphocytes of blood.
• Dose response relations in acute cell death of pancreatic islet after whole body irradiatbn of gotlen harnster with gamma, proton and carton beams.
• Exploration of 'Over Kill Effect' of High-LET Ar-and Fe-ions by Evaluating the Fraction of Non-hit Cell and Interphase Death
• Analysis of tk Mutation Induced by Low Dose Ionizing Radiation in Human Cells
• Analysis of Cytogenetic Damage in Rice Seeds Induced by Energetic Heavy Ions On-ground and After Spaceflight
• Dosimetry for heavy-ion radiation fields of argon, iron and kripton beams.
• Effect of Heavy Ion Exposure on Cell Cycle Progression.
• Effect of Exposure of Heavy Ion Beams on G2 Arrest.
• Effect of exposure of carbon ion beams on cell cycle progression
• T cell lymphoma cells derived from SCID mouse are sensitive to X-ray Irradiation and beta-rays from ^C In DNA.
• Enhancement of cell killing by split exposure of hlgh LET heavy ion beams.
• LET, cell cycle dependence for mutation induction and spectrum in HPRT locus
• Cell Cycle and LET Dependence for Radiation-induced Mutation : A Possible Mechanism for Reversed Dose-rate Effect
• Depth Encoding of Point-of-Interaction in Thick Scintillation Cameras
• Effects of fractionated irradiation with carbon ions on the NFSa fibrosarcoma in mice
• Effectiveness of Monoenergetic and Spread-Out Bragg Peak Carbon-Ions for Inactivation of Various Normal and Tumour Human Cell Lines
• Biological Intercomparison Using Gut Crypt Survivals for Proton and Carbon-Ion Beams
• Relationship between Aberration Yield and Mitotic Delay in Human Lymphocytes Exposed to 200 MeV/u Fe-ions or X-rays
• Heavy ion radiography
• The Irradiation of an Accelerated Heavy ion Beam : Application to the Anti-Arrhythmic Therapy without Massive Myocardial Damage
• Correlation with cell death and chromatin damage by accelerated carbon ion beams
• Verification of ^C-290 MeV/u Tlieraputic Beams for HIMAC Clinical Trial using Mammalian cells
• The uniformity of the biological dose accelerated carbon ion beams with the spread out Bragg peak.
• Heavy ion radiation up-regulates Cx43 and ameliorates arrhythmogenic substrates in hearts after myocardial infarction
• Development of multichanel Ion Chamber for measurement of 3 dimensional dose Distributions of Heavy-Ion Therapeutic Beam in patients
• Reconstruction of Dose Calculation on CT-Image from Dose Distribution in Water Phantom
• Numerical Study on Range Measurement System with Positron Camera
• The Spot Scanning Irradiation with ^C Beams
• A Proton Dose Calculation Code for Treatment Planning Based on the Pencil Beam Algorithm
• Analysis of the Penumbra for Uniform Irradiation Fields Delivered by a Wobbler method
• Comparative study of He, C, Ne and Ar beams for heavy-ion radiation therapy : Motivation and preliminary result of the comparison -
• Structural Analysis of Chromosome Damage Induced with X-ray or Heavy Ion Radiation by Atomic ForceMicroscope
• Bone marrow death is not always more sentitive than intestinal death in Mongolian gerbils ? II Radiosensitivity of bone marrow stem cells.
• Biological effects of active oxygen on the mouse cell rine defective in repair of DNA double-strand breaks
• Time Course of Reoxygenation in Experimental Murine Tumors after Carbon-beam and X-ray Irradiation
• Expression of VEGF mRNA by irradiation with X-ray and heavy-ion beam
• Effect of Heavy Ion Exposure on Cell Cycle Checkpoints.
• Number of Fe Ion Traversals Through a Cell Nucleus for Mammalian Cell Inactivation Near the Bragg Peak
• 210 Mutation Spectrum of Bacillus subtilis Spore Irradiated With Heavy Ion Near the Bragg Peak(Physics, chemistry and DNA damage, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• 200 Each Ion Traversal Induces a DSB Cluster in Cell Nucleus(Physics, chemistry and DNA damage, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• Induction of Chromatin Damage and Distribution of Isochromatid Breaks in Human Fibroblast Cells Exposed to Heavy Ions
• Distribution of Heavy Ion-Induced G2 Chromatin Damage and Repair in Human Fibroblast Cells
• Analysis of Unrejoined Chromosomal Breakage in Human Fibroblast Cells Exposed to Low- and High-LET Radiation
• Heavy-ion Induced Initial G2-chromosome aberrations and Repair Kinetics of Normal Human Fibroblasts
• 8^ International Workshop on Microbeam Probes of Cellular Radiation Response
• Repair Kinetics of DNA-DSB Induced by X-rays or Carbon Ions under Oxic and Hypoxic Conditions
• Cell cycle and LET dependence for 6-thioguanine-resistant mutation induced by heavy ion beam in mouse L5178Y cells
• Heavy-ion Induced Chromatid Break and Repair Kinetics in Normal Human Fibroblasts
• Effects of Neon Beam on Hematopoietic Stem Cells in Mice
• Effects of Carbon Beani on Survival and Hematopoietic Stem Cells in Mice
• Effects of NIPS HIMAC Carbon Beam on Hematopoietic System in Mice.
• nteraction Between Ion Beam and X-ray on Radiobiological Effects II
• Influence of the Shielding on the Induction of Chromosomal Aberrations in Human Lymphocytes Exposed to High-energy Iron Ions
• Early skin reactions after fractionated irradiation of 290MeV/u Carbon- 12
• Enhancement of X-ray-induced apoptosis by lonidamine
• Reoxygenation of Experimental Murine Tumors after Carbon Beam Irradiation : Evaluation by Colony Assay.
• Induced Transgenerational Genetic Effects in Rodents and Humans

もっと見る 閉じる

スポンサーリンク