Interspecific Complementation between Mouse and Chinese Hamster Cell Mutants Hypersensitive to Ionizing Radiation
スポンサーリンク
概要
- 論文の詳細を見る
Interspecific and intraspecific hybrids were formed between mouse and Chinese hamster cell mutants hypersensitive to ionizing radiation and their radiosensitivities were examined. Chinese hamster cell mutants irsi, irs2 and irs3 and mouse mammary carcinoma cell mutants SX9 and SX10 have been found to belong to five different complementation groups. A radiosensitive mouse lymphoma cell line L5178Y-S has been demonstrated to be different from the X-ray sensitive mouse cell mutants M10 and LX830, both of which are derived from L5178Y cells, in their complementation groups. L5178Y-S is also distinct from SX9 and SX10.
- 日本放射線影響学会の論文
著者
-
Eguchi-kasai Kiyomi
放射線医学総合研究所障害基礎研究部
-
Eguchi-kasai Kiyomi
放射線医学総合研究所
-
Itsukaichi Hiromi
放射線医学総合研究所
-
Itsukaichi Hiromi
Radiation Hazards Research Group National Institute Of Radiological Sciences
-
佐藤 弘毅
放射線医学総合研究所
-
Chen D
Lawrence Berkeley National Lab. Ca Usa
-
Odaka Takeko
放射線医学総合研究所
-
Itsukaichi Hiromi
Div. Radiat. Biol. &biodosimet. Natl. Inst. Radiol. Sci.
-
CHEN DAVID
Cell Growth, Damage and Repair Group, LS-1, Life Sciences Division, Los Alamos National Laboratory
-
STRNISTE GARY
Cell Growth, Damage and Repair Group, LS-1, Life Sciences Division, Los Alamos National Laboratory
-
Strniste Gary
Cell Growth Damage And Repair Group Ls-1 Life Sciences Division Los Alamos National Laboratory
関連論文
- 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
- Enhancement of cell killing by split exposure of hlgh LET heavy ion beams.
- Structural Analysis of Chromosome Damage Induced with X-ray or Heavy Ion Radiation by Atomic ForceMicroscope
- Effect of Heavy Ion Exposure on Cell Cycle Checkpoints.
- Differences in heavy-ion-induced DNA double-strand breaks in a mouse DNA repair-deficient mutant cell line (SL3-147) before and after chromatin proteolysis
- 電気穿孔法による哺乳類細胞への遺伝子導入
- Proteolytic cleavage of XRCC4 protein during apoptosis
- Difference in mode of radiation-inducedapoptosis between L5178Y and its radiosensitive mutant L5178Y-S
- 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)
- Identification of a New G-to-A Transition Mutation at Nucleotide Position 129 of the Xrcc4 Gene in Ionizing Radiation-hypersensitive Mutant LX830 Cells
- Identification of the mutated gene in the ionizing radiation sensitive mutant M10 of mouse L5178Y cells
- Modification of Acquired Radio-Resistance in Mice by OK432
- Cross-Sensitivity to DNA-Damaging Agents in Radiation-Sensitive Mutants of Murine Leukemia Cells
- Molecular characterization of ionizing radiation-hypersensitive mutant LX830 cells
- Interspecific Complementation between Mouse and Chinese Hamster Cell Mutants Hypersensitive to Ionizing Radiation
- マウス放射線感受性細胞の遺伝学的研究 (第70回日本医学会シンポジウム--バイオサイエンス--新しい生物学の展開〔含 質疑応答〕)
- 哺乳動物培養細胞における遺伝的変異株--微生物遺伝学より未体験ゾ-ンへ-8-紫外線感受性変異株および放射線類似作用物質感受性変異株