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International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine Volume 48, 1985 - Issue 4
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Original Article

Radiation-induced Strand Breaks in ϕX174 Replicative Form DNA: An Improved Experimental and Theoretical Approach

J.H. Van Touw Physics Laboratory of de Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
,
J.B. Verberne Physics Laboratory of de Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
,
J. Retèl Physics Laboratory of de Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
&
H. Loman Physics Laboratory of de Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
Pages 567-578 | Received 12 Jul 1984, Accepted 09 Apr 1985, Published online: 03 Jul 2009

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Read on this site (9)

J.G. Peak, T. Ito, F.T. Robb & M.J. Peak. (1995) DNA Damage Produced by Exposure of Supercoiled Plasmid DNA to High- and Low-LET Ionizing Radiation: Effects of Hydroxyl Radical Quenchers. International Journal of Radiation Biology 67:1, pages 1-6.
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U. Klimczak, D.C. Ludwig, F. Mark, P. Rettberg & D. Schulte-Frohlinde. (1993) Irradiation of Plasmid and Phage DNA in Water—alcohol Mixtures: Strand Breaks and Lethal Damage as a Function of Scavenger Concentration. International Journal of Radiation Biology 64:5, pages 497-510.
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T. Ito, S.C. Baker, C.D. Stickley, J.G. Peak & M.J. Peak. (1993) Dependence of the Yield of Strand Breaks Induced by γ-rays in DNA on the Physical Conditions of Exposure: Water Content and Temperature. International Journal of Radiation Biology 63:3, pages 289-296.
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L. Denison, A. Haigh, G. D'cunha & R.F. Martin. (1992) DNA Ligands as Radioprotectors: Molecular Studies with Hoechst 33342 and Hoechst 33258. International Journal of Radiation Biology 61:1, pages 69-81.
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J.H. Miller, J.M. Nelson, M. Ye, C.E. Swenberg, J.M. Speicher & C.J. Benham. (1991) Negative Supercoiling Increases the Sensitivity of Plasmid DNA to Single-strand Break Induction by X-rays. International Journal of Radiation Biology 59:4, pages 941-949.
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M. Spotheim-Maurizot, M. Charlier & R. Sabattier. (1990) DNA Radiolysis by Fast Neutrons. International Journal of Radiation Biology 57:2, pages 301-313.
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D.E. Charlton, H. Nikjoo & J.L. Humm. (1989) Calculation of Initial Yields of Single- and Double-strand Breaks in Cell Nuclei from Electrons, Protons and Alpha Particles. International Journal of Radiation Biology 56:1, pages 1-19.
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E.R. Blazek & M.J. Peak. (1988) The Role of Hydroxyl Radical Quenching in the Protection by Acetate and Ethylenediaminetetraacetate of Supercoiled Plasmid DNA from Ionizing Radiation-induced Strand Breakage. International Journal of Radiation Biology 53:2, pages 237-247.
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C. Herskind. (1987) Single-strand Breaks can Lead to Complex Configurations of Plasmid DNA in Vitro. International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine 52:4, pages 565-575.
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Articles from other publishers (25)

Andris Abramenkovs & Bo Stenerlöw. (2018) Removal of heat-sensitive clustered damaged DNA sites is independent of double-strand break repair. PLOS ONE 13:12, pages e0209594.
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Emiko Okamoto, Tetsuya Yamamoto, Kei Nakai, Fumiyo Yoshida & Akira Matsumura. (2015) Detection of DNA double-strand breaks in boron neutron capture reaction. Applied Radiation and Isotopes 106, pages 185-188.
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Yasumasa Saisho & Atsushi Ito. (2012) Mathematical models of the generation of radiation-induced DNA double-strand breaks. Journal of Mathematical Biology 67:3, pages 717-736.
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Małgorzata A Śmiałek. (2012) Early models of DNA damage formation. Journal of Physics: Conference Series 373, pages 012013.
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Pichumani Balagurumoorthy, S. James Adelstein & Amin I. Kassis. (2011) Novel method for quantifying radiation-induced single-strand-break yields in plasmid DNA highlights 10-fold discrepancy. Analytical Biochemistry 417:2, pages 242-246.
Crossref
N. Shikazono, A. Yokoya, A. Urushibara, M. Noguchi & K. Fujii. (2010) A model for analysis of the yield and the level of clustering of radiation-induced DNA-strand breaks in hydrated plasmids. Radiation Protection Dosimetry 143:2-4, pages 181-185.
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Maritza R. Gual, Felix M. Milian, Airton Deppman & Paulo R.P. Coelho. (2011) Study of DNA damage with a new system for irradiation of samples in a nuclear reactor. Applied Radiation and Isotopes 69:2, pages 373-376.
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K. Mishra, R. Bhardwaj & N. K. Chaudhury. (2009) Netropsin, a Minor Groove Binding Ligand: A Potential Radioprotective Agent. Radiation Research 172:6, pages 698-705.
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Małgorzata A. Śmiałek, Sharon A. Moore, Nigel J. Mason & David E. G. Shuker. (2009) Quantification of Radiation-Induced Single-Strand Breaks in Plasmid DNA using a TUNEL/ELISA-Based Assay. Radiation Research 172:5, pages 529-536.
Crossref
Dalong Pang, James E. Rodgers, Barry L. Berman, Sergey Chasovskikh & Anatoly Dritschilo. (2005) Spatial Distribution of Radiation-Induced Double-Strand Breaks in Plasmid DNA as Resolved by Atomic Force Microscopy. Radiation Research 164:6, pages 755-765.
Crossref
Pavel N. Lobachevsky, Tom C. Karagiannis & Roger F. Martin. (2004) Plasmid DNA Breakage by Decay of DNA-Associated Auger Electron Emitters: Approaches to Analysis of Experimental Data. Radiation Research 162:1, pages 84-95.
Crossref
Betsy M. Sutherland, Paula V. Bennett, John C. Sutherland & Jacques Laval. (2002) Clustered DNA Damages Induced by X Rays in Human Cells. Radiation Research 157:6, pages 611-616.
Crossref
P. N. Lobachevsky & R. F. Martin. (2000) Iodine-125 Decay in a Synthetic Oligodeoxynucleotide. I. Fragment Size Distribution and Evaluation of Breakage Probability. Radiation Research 153:3, pages 263-270.
Crossref
C Shao, M Saito & Z Yu. (1999) Radiation induced DNA strand breaks measured by a modified method of gel scanning. Radiation Physics and Chemistry 56:5-6, pages 547-551.
Crossref
T. Melvin, S. Cunniffe, D. Papworth, T. Roldan‐Arjona & P. O'Neill. (2008) Irradiation of DNA with 193 nm Light Yields Formamidopyrimidine‐DNA Glycosylase (Fpg) Protein‐Sensitive Lesions. Photochemistry and Photobiology 65:4, pages 660-665.
Crossref
Peter O'neill & E. Martin Fielden. 1993. Advances in Radiation Biology - DNA and Chromatin Damage Caused by Radiation. Advances in Radiation Biology - DNA and Chromatin Damage Caused by Radiation 53 120 .
L D'Agruma, A Colosimo, U Angeloni, G Novelli & B Dallapiccolala. (1993) Plasmid DNA and low-frequency electromagnetic fields. Biomedicine & Pharmacotherapy 47:2-3, pages 101-105.
Crossref
Helmut Görner, Malgorzata Wala & Dietrich Schulte‐Frohlinde. (2008) STRAND BREAKAGE IN POLY(C), POLY(A), SINGLE‐AND DOUBLE‐STRANDED DNA INDUCED BY NANOSECOND LASER EXCITATION AT 193 nm*. Photochemistry and Photobiology 55:2, pages 173-184.
Crossref
D. E. Charlton. 1991. The Early Effects of Radiation on DNA. The Early Effects of Radiation on DNA 179 193 .
Bernard Strauss, Edith Turkington, Jhy Wang & Daphna Sagher. 1991. Biological Reactive Intermediates IV. Biological Reactive Intermediates IV 211 223 .
D. Schulte-Frohlinde, M. G. Simic & H. Görner. (1990) LASER-INDUCED STRAND BREAK FORMATION IN DNA and POLYNUCLEOTIDES. Photochemistry and Photobiology 52:6, pages 1137-1151.
Crossref
Eberhard Bothe, Helmut Gorner, Joachim Opitz, Dietrich Schulte‐Frohlinde, Aslam Siddiqi & Malgorzata Wala. (2008) SINGLE‐ and DOUBLE‐STRAND BREAK FORMATION IN DOUBLE‐STRANDED DNA UPON NANOSECOND LASER‐INDUCED PHOTOIONIZATION. Photochemistry and Photobiology 52:5, pages 949-959.
Crossref
Jennifer G. Peak & Meyrick J. Peak. (1990) ULTRAVIOLET LIGHT INDUCES DOUBLE-STRAND BREAKS IN DNA OF CULTURED HUMAN P3 CELLS AS MEASURED BY NEUTRAL FILTER ELUTION. Photochemistry and Photobiology 52:2, pages 387-393.
Crossref
J.L. Humm & D.E. Charlton. (1989) A new calculational method to assess the therapeutic potential of auger electron emission. International Journal of Radiation Oncology*Biology*Physics 17:2, pages 351-360.
Crossref
Dietrich Schulte-Frohlinde. 1988. Oxygen Radicals in Biology and Medicine. Oxygen Radicals in Biology and Medicine 403 417 .

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