Characterization and distribution of IS8301 in the radioresistant bacterium Deinococcus radiodurans
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概要
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The insertion sequence element IS8301 isolated from the radiation resistant bacterium Deinococcus radiodurans strain KD8301 was characterized. IS8301 is comprised of 1,736-bp, lacks terminal inverted repeats and does not duplicate target DNA upon its insertion. The amino acid sequence homology of two open reading frames encoded in IS8301 indicates that this insertion sequence element belongs to the IS200/IS605 group. There were seven loci completely identical with the IS8301 sequence in the published D. radiodurans R1 genome sequence. The genome distribution profiles of IS8301 in strain KD8301 as well as in the three different laboratory isolates (KR1, MR1, and R1) of wild-type D. radiodurans were investigated using genomic hybridization analysis. At least 21 strong hybridization signals were detected in strain KD8301 while only one hybridization signal was detected in strain KR1, the parent strain of KD8301. In strain MR1, a different wild-type isolate, six strong hybridization signals were detected. In spite of the identification of seven copies of IS8301 in the published D. radiodurans R1 genome sequence, only one hybridization signal was detected in strain R1 purchased from American Type Culture Collection. Using inverse PCR and sequencing analyses, total 13 different insertion loci of IS8301 in the D. radiodurans genome were identified. Sequence comparison of the flanking region of insertion sites indicated that the sequence 5-TTGAT-3 preceded the left end of IS8301 in all cases.
- 日本遺伝学会の論文
- 2003-10-01
著者
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Satoh Katsuya
Jaeri Takasaki
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Satoh Katsuya
日本原子力研究所
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Satoh Katsuya
Biotechnology Laboratory Takasaki Radiation Chemistry Research Establishment Japan Atomic Energy Res
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Kikuchi M
Microbeam Radiation Biology Group Japan Atomic Energy Agency
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NARUMI Issay
Research Group for Biotechnology Development, Japan Atomic Energy Research Institute (JAERI-Takasaki
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SATOH Katsuya
Research Group for Biotechnology Development, Japan Atomic Energy Research Institute (JAERI-Takasaki
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ISLAM M.
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic E
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HUA Yuejin
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic E
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OHBA Hirofumi
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic E
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KIKUCHI Masahiro
Faculty of Agriculture, Utsunomiya University
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YANAGISAWA Tadashi
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic E
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Hua Yuejin
Research Group For Biotechnology Development Department Of Ion-beam-applied Biology Japan Atomic Ene
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Narumi Issay
Quantum Beam Sci. Directorate Japan Atomic Energy Agency
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Narumi Issay
Quantum Beam Science Directorate Japan Atomic Energy Agency
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Ohba Hirofumi
Jaeri Takasaki:united Grad. Sch. Agric. Sci. Tokyo Univ. Agric. Tech.
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Yanagisawa Tadashi
Research Group For Biotechnology Development Department Of Ion-beam-applied Biology Japan Atomic Ene
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Kikuchi Masahiro
Medical Health Center Fukuoka University
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Narumi Isaay
Radiation-applied Biology Division Quantum Beam Science Directorate Japan Atomic Energy Agency
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Narumi Issei
Biotech. Lab. Atomic Energy Res. Inst.
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Shirai Koji
Laboratory Of Silkworm Physiology Faculty Of Textile Science And Technology Shinshu University
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Satoh Katsuya
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic Energy Research Institute
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Narumi Issay
Research Group for Biotechnology Development, Department of Ion-beam-applied Biology, Japan Atomic Energy Research Institute
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