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International Journal of Radiation Biology Volume 66, 1994 - Issue 5
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Original Article

Topics in Free Radical-mediated DNA Damage: Purines and Damage Amplification—superoxic Reactions—bleomycin, the Incomplete Radiomimetic

C. Von Sonntag Max-Planck-Institut für Strahlenchemie, Stiftsraße 34–36, PO Box 101365, D-45413, Mülheim an der Ruhr, Germany
Pages 485-490 | Received 10 Apr 1994, Accepted 04 Jun 1994, Published online: 03 Jul 2009

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Marina Roginskaya, Reza Mohseni, Derrick Ampadu-Boateng & Yuriy Razskazovskiy. (2016) DNA damage by the sulfate radical anion: hydrogen abstraction from the sugar moiety versus one-electron oxidation of guanine. Free Radical Research 50:7, pages 756-766.
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Y. Yoshikawa, A. Yamasaki, K. Takatori, M. Suzuki, J. Kobayashi, M. Takao & Q.-M. Zhang-Akiyama. (2015) Excess processing of oxidative damaged bases causes hypersensitivity to oxidative stress and low dose rate irradiation. Free Radical Research 49:10, pages 1239-1248.
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Miral Dizdaroglu & Pawel Jaruga. (2012) Mechanisms of free radical-induced damage to DNA. Free Radical Research 46:4, pages 382-419.
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Robert F. Anderson, Chanchala Amarasinghe, Louisa J. Fisher, Wai B. Mak & John E. Packer. (2000) Reduction in free-radical-induced DNA strand breaks and base damage through fast chemical repair by flavonoids. Free Radical Research 33:1, pages 91-103.
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Articles from other publishers (22)

Mirzam Carreon-Gonzalez & Juan Raúl Alvarez-Idaboy. (2023) The Synergy between Glutathione and Phenols—Phenolic Antioxidants Repair Glutathione: Closing the Virtuous Circle—A Theoretical Insight. Antioxidants 12:5, pages 1125.
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Dusan Vukmirovic, Colin Seymour & Carmel Mothersill. (2020) Reprint of: Deciphering and simulating models of radiation genotoxicity with CRISPR/Cas9 systems. Mutation Research/Reviews in Mutation Research 785, pages 108318.
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Leonardo Muñoz-Rugeles, Annia Galano & Juan Raúl Alvarez-Idaboy. (2020) Chemical repair mechanisms of damaged tyrosyl and tryptophanyl residues in proteins by the superoxide radical anion. New Journal of Chemistry 44:6, pages 2505-2513.
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Dusan Vukmirovic, Colin Seymour & Carmel Mothersill. (2020) Deciphering and simulating models of radiation genotoxicity with CRISPR/Cas9 systems. Mutation Research/Reviews in Mutation Research 783, pages 108298.
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Leonardo Muñoz-Rugeles, Annia Galano & Juan Raúl Alvarez-Idaboy. (2018) The other side of the superoxide radical anion: its ability to chemically repair DNA oxidized sites. Chemical Communications 54:97, pages 13710-13713.
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Eva Nováková, Luděk Vyšín, Tomáš Burian, Libor Juha, Marie Davídková, Viliam Múčka, Václav Čuba, Michael E. Grisham, Scott Heinbuch & Jorge J. Rocca. (2015) Breaking DNA strands by extreme-ultraviolet laser pulses in vacuum. Physical Review E 91:4.
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Miral Dizdaroglu. (2015) Oxidatively induced DNA damage and its repair in cancer. Mutation Research/Reviews in Mutation Research 763, pages 212-245.
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S. Venkatesh, M. B. Shamsi, S. Dudeja, R. Kumar & Rima Dada. (2010) Reactive oxygen species measurement in neat and washed semen: comparative analysis and its significance in male infertility assessment. Archives of Gynecology and Obstetrics 283:1, pages 121-126.
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Jörg Flemmig & Jürgen Arnhold. (2006) Ferrous ion-induced strand breaks in the DNA plasmid pBR322 are not mediated by hydrogen peroxide. European Biophysics Journal 36:4-5, pages 377-384.
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Clemens von Sonntag. 2007. 5 20 .
Clemens von Sonntag. 2006. Free-Radical-Induced DNA Damage and Its Repair. Free-Radical-Induced DNA Damage and Its Repair 159 194 .
Clemens von Sonntag. 2006. Free-Radical-Induced DNA Damage and Its Repair. Free-Radical-Induced DNA Damage and Its Repair 483 504 .
Clemens von Sonntag. 2006. Free-Radical-Induced DNA Damage and Its Repair. Free-Radical-Induced DNA Damage and Its Repair 211 334 .
Richard Misiaszek, Conor Crean, Avrum Joffe, Nicholas E. Geacintov & Vladimir Shafirovich. (2004) Oxidative DNA Damage Associated with Combination of Guanine and Superoxide Radicals and Repair Mechanisms via Radical Trapping. Journal of Biological Chemistry 279:31, pages 32106-32115.
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Harold C Box, Jean B Dawidzik & Edwin E Budzinski. (2001) Free radical-induced double lesions in DNA. Free Radical Biology and Medicine 31:7, pages 856-868.
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C. von Sonntag & H.-P. Schuchmann. 2001. Radiation Chemistry - Present Status and Future Trends. Radiation Chemistry - Present Status and Future Trends 513 551 .
Qiu-Mei Zhang, Izumi Miyabe, Yukiko Matsumoto, Katsuhito Kino, Hiroshi Sugiyama & Shuji Yonei. (2000) Identification of Repair Enzymes for 5-Formyluracil in DNA. Journal of Biological Chemistry 275:45, pages 35471-35477.
Crossref
Harold C. Box, Helen B. Patrzyc, Jean B. Dawidzik, John C. Wallace, Harold G. Freund, Herbert Iijima & Edwin E. Budzinski. (2000) Double Base Lesions in DNA X-Irradiated in the Presence or Absence of Oxygen. Radiation Research 153:4, pages 442-446.
Crossref
Jean-Pierre Praly. 2000. Advances in Carbohydrate Chemistry and Biochemistry Volume 56. Advances in Carbohydrate Chemistry and Biochemistry Volume 56 65 151 .
J Cadet, T Douki, D Gasparutto, M Gromova, J.-P Pouget, J.-L Ravanat, A Romieu & S Sauvaigo. (1999) Radiation-induced damage to DNA: mechanistic aspects and measurement of base lesions. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 151:1-4, pages 1-7.
Crossref
Marc M. Greenberg. 1999. Comprehensive Natural Products Chemistry. Comprehensive Natural Products Chemistry 371 425 .
Clemens von Sonntag. 1999. Advances in DNA Damage and Repair. Advances in DNA Damage and Repair 407 418 .

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