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International Journal of Radiation Biology Volume 67, 1995 - Issue 3
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Original Article

Molecular Mechanism of Potentially Lethal Damage Repair. I. Enhanced Fidelity of DNA Double-strand Break Rejoining under Conditions Allowing Potentially Lethal Damage Repair

M. Frankenberg-Schwager University of Göttingen, Abtlg. Klinische Strahlenbiologie und Klin., Strahlenphysik, Von-Siebold-Str. 3, D-37075, Göttingen, Germany
,
B. Jha Botany Department, L. N. Mithila University, Darbhanga, 846004, India
,
K. Bär University of Göttingen, Abtlg. Klinische Strahlenbiologie und Klin., Strahlenphysik, Von-Siebold-Str. 3, D-37075, Göttingen, Germany
&
D. Frankenberg Botany Department, L. N. Mithila University, Darbhanga, 846004, India
Pages 277-285 | Received 19 Jul 1994, Accepted 15 Nov 1994, Published online: 03 Jul 2009

Citations (10)

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Muneyasu Urano, Gloria C. Li, Fuqiu He, Akiko Minami, Paul Burgman & C. Clifton Ling. (2012) The effect of DN (dominant-negative) Ku70 and reoxygenation on hypoxia cell-kill: Evidence of hypoxia-induced potentially lethal damage. International Journal of Radiation Biology 88:7, pages 515-522.
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A.V. Glasunov, M. Frankenberg-Schwager & D. Frankenberg. (1995) Different Repair Kinetics for Short and Long DNA Double-strand Gaps in Saccharomyces Cerevisiae. International Journal of Radiation Biology 68:4, pages 421-428.
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Articles from other publishers (8)

Cuihua Liu, Tetsuya Kawata, Guangming Zhou, Yoshiya Furusawa, Ryuichi Kota, Atsuhiro Kumabe, Shinya Sutani, Junichi Fukada, Masayo Mishima, Naoyuki Shigematsu, Kerry George & Francis Cucinotta. (2013) Comparison of the repair of potentially lethal damage after low- and high-LET radiation exposure, assessed from the kinetics and fidelity of chromosome rejoining in normal human fibroblasts. Journal of Radiation Research 54:6, pages 989-997.
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Cuihua Liu, Tetsuya Kawata, Naoyuki Shigematsu, Francis Cucinotta, Kerry George, Masayoshi Saito, Takashi Uno, Kouichi Isobe & Hisao Ito. (2010) A Comparison of Chromosome Repair Kinetics in G 0 and G 1 Reveals that Enhanced Repair Fidelity under Noncycling Conditions Accounts for Increased Potentially Lethal Damage Repair . Radiation Research 174:5, pages 566-573.
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Momoe KAN'O, Tetsuya KAWATA, Hisao ITO, Naoyuki SHIGEMATSU, Cuihua LIU, Takashi UNO, Kouich ISOBE, Hiroyuki KAWAKAMI, Francis CUCINOTTA, Kerry GEORGE & Atsushi KUBO. (2007) Repair of Potentially Lethal Damage in Normal Cells and Ataxia Telangiectasia Cells; Consideration of Non-Homologous End-Joining. Journal of Radiation Research 48:1, pages 31-38.
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Marlis Frankenberg-Schwager, Dorothea Kirchermeier, Goetz Greif, Karin Baer, Manuela Becker & Dieter Frankenberg. (2005) Cisplatin-mediated DNA double-strand breaks in replicating but not in quiescent cells of the yeast Saccharomyces cerevisiae. Toxicology 212:2-3, pages 175-184.
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Andrej Dudáš, Eva Marková, Danuša Vlasáková, Ada Kolman, Zdena Bartošová, Jela Brozmanová & Miroslav Chovanec. (2003) The Escherichia coli RecA protein complements recombination defective phenotype of the Saccharomyces cerevisiae rad52 mutant cells . Yeast 20:5, pages 389-396.
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Jela Brozmanová, Viera Vlčková, Eva Farkašová, Andrej Dudáš, Danuša Vlasáková, Miroslav Chovanec, Žaneta Mikulovská, Ivana Fridrichová, Jenifer Saffi & Joao A.P Henriques. (2001) Increased DNA double strand breakage is responsible for sensitivity of the pso3-1 mutant of Saccharomyces cerevisiae to hydrogen peroxide. Mutation Research/DNA Repair 485:4, pages 345-355.
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Ekkehard Dikomey, Ingo Brammer, Jørgen Johansen, Søren M. Bentzen & Jens Overgaard. (2000) Relationship between DNA double-strand breaks, cell killing, and fibrosis studied in confluent skin fibroblasts derived from breast cancer patients. International Journal of Radiation Oncology*Biology*Physics 46:2, pages 481-490.
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Lilyann Novak Frazer & David Moore. (1995) One stop mycology. Mycological Research 99:11, pages 1399-1408.
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