Advanced search
Publication Cover
International Journal of Radiation Biology Volume 70, 1996 - Issue 1
Submit an article Journal homepage
11
Views
18
CrossRef citations to date
0
Altmetric
Research Article

Direct effects of gamma-radiation on 2-deoxycytidine in frozen aqueous solution

A. A. SHAW Current address: Bristol-Myers Squibb, Pharmaceutical Research Institute, Centre de Recherche et de Production, Rue de la Maison Rouge, B.P. 62, 77422 Marne-la-Vallee Cedex, France.; Departement de Recherche Fondamentale sur la Matiere Condensee, SCIB/LAN, CEA/Grenoble, F-38054 Grenoble Cedex 9, France.
Pages 1-6 | Published online: 03 Jul 2009

References

  • BARNES, J., and BERNHARD, W. A., 1993, The protonation state of one-electron-reduced cytosine and adenine. 1. Initial protonation sites at low temperatures in glassy solids. Journal of Physical Chemistry, 97, 3401–3408.
  • BARNES, J. P., and BERNHARD, W. A., 1993, One-electron-reduced cytosine in acidic glasses: conformational states before and after proton transfer. Journal of Physical Chemistry, 98, 887–893.
  • BERGER, M., and CADET, J., 1985, Isolation and characterization of the radiation-induced degradation products of 2 - deoxyguanosine in oxygen-free aqueous solution. Zeits-chrift für Naturforschung, 40b, 1519–1531.
  • BERNHARD, W. A., 1981, Solid-state radiation chemistry of DNA: the bases. Advances in Radiation Biology, 9, 199–280.
  • BERNHARD, W. A., 1989, Sites of electron trapping in DNA as determined by ESR of one-electron-reduced oligonucleotides. Journal of Physical Chemistry, 93, 2187–2189.
  • CADET, J., and VIGNY, P., 1990, The photochemistry of nucleic acids. In Bioorganic Photochemistry, edited by H. Morrison, vol. 1 (Wiley: New York), pp. 1–272.
  • CADET, J., KAN, I-S., and WANG, S. Y, 1978, 06, 5 -cyclo-5,6-dihydro-2 -deoxyuridine-novel deoxyuridine photo-products. Journal of the American Chemical Society, 100, 6715–6720.
  • CLOSE, D. M., and BERNHARD, W. A., 1977, INDO calculations of spin density distribution in pyrimidine electron adducts. Journal of Physical Chemistry, 66, 5244–5245.
  • CLOSE, D. M., 1993, Radical ions and their reactions in DNA constituents: ESR/ENDOR studies of radiation damage in the solid state. Radiation Research, 135, 1–15.
  • COLSON, A.-0., BESLER, B., CLOSE, D. M., and SEVILLA, M. D., 1992, Ab initio orbital calculations of DNA bases and their radical anions in various protonated states: evi-dence for proton transfer in GC base pair radical anions. Journal of Physical Chemistry, 96, 661–668.
  • CuLus, P. M., Mc.CLYmoNT, J. D., MALONE, M. E., MATHER, A. N., PODMORE, I. D., SWEENEY, M. C., and SYMONS, M. C. R., 1992, Effects of ionising radiation on deoxyribonucleic acid. Part 7. Electron capture at cytosine and thymine. Journal of the Chemical Society, Perkin Transactions II, 1965–1702.
  • CuLms, P. M., MALONE, M. E., PODMORE, I. D., and SYMONS, M. C. R., 1995, Site of protonation of one-electron-reduced cytosine and its derivatives in aqueous methanol glasses. Journal of Physical Chemistry, 99, 9293–9298.
  • DECARROZ, C., WAGNER, J. R., and CADET, J., 1987, Specific deprotonation reactions of the pyrimidine radical cation resulting from the menadione mediated photo-sensitization of 2 -deoxycytidine. Free Radical Research and Communications, 2, 295–301.
  • DEEBLE, D. J., SCHUCHMANN, M. N., STEENKEN, S., and VON SONNTAG, C., 1990, Direct evidence for the formation of thymine radical cations from the reaction of SO4 with thymine derivatives: a pulse radiolysis study with optical and conductance detection. Journal of Physical Chemistry, 94, 8186–8192.
  • FLOSSMAN, W., WESTHOF, E., and MOLLER, A., 1976, Radical formation in salts of pyrimidines III. Cytosine.H20 crystals. International Journal of Radiation Biology, 30, 301–315.
  • HUTTERMANN, J., 1970, Electron-spin-resonance spectroscopy of radiation-induced free radicals in irradiated single crystals of thymine monohydrate. International Journal of Radiation Biology, 17, 249–259.
  • HUTTERMANN, J., OHLMANN, J., SCHAEFER, A., and GATZWEILER, W., 1991, The polymorphism of a cytosine anion studied by electron paramagnetic resonance spectroscopy. International Journal of Radiation Biology, 59, 1297–1311.
  • JEFFREY, G. A., and KINOSHITA, Y, 1963, The crystal structure of cytosine monohydrate. Acta Cystallographica, 16, 20–28.
  • MALONE, M. E., CULLIS, P. M., SYMONS, M. C. R., and PARKER, A. W., 1995, Biphotonic photoionization of cytosine and its derivatives with UV radiation at 248 nm: an EPR study in low-temperature perchlorate glasses. Journal of Physical Chemistry, 99, 9299–9308.
  • OLEINICK, N. L., CHIU, S-M., FRIEDMAN, L. R., XuE, L-Y., and RAMAKRISHNAN, N., 1990, DNA—protein crosslinks: win-dows into chromatin damage and repair. In Ionizing Radiation Damage to DNA: Molecular Aspects, edited by S. S. Wallace and R. B. Painter (Wiley-Liss), pp. 59–67.
  • SEVILLA, M. D., BECKER, D., YAN, M., and SUMMERFIELD, S. R., 1991, Relative abundances of primary ion radicals in gamma-irradiated DNA: cytosine vs thymine anions and guanine vs adenine cations. Journal of Physical Chemistry, 95, 3409–3415.
  • SHAW, A. A., 1987, A study of the direct effects of ionising and far ultraviolet radiation on nucleic acids. Thesis for Doctor of Philosophy, University of Surrey.
  • SHAW, A. A., CADET, J., YOITURIEZ, L., GREGOLI, G., and SYMONS, M. C. R., 1988, Identification of the products resulting from the direct effects of gamma radiation on thymidine. Journal of the Chemical Society, Perkin Transac-tions II, 1303–1307.
  • SHAW, A. A., and CADET, J., 1988, Formation of cyclopyrimidines via the direct effects of gamma radiation on pyrimidine nucleosides. International Journal of Radiation Biology, 54, 987–997.
  • SHAW, A. A., and CADET, J., 1990, Radical combination pro-cesses under the direct effects of gamma radiation on thymidine. Journal of the Chemical Society, Perkin Transac-tions II, 2063–2070.
  • VON SONNTAG, C., 1987, Molecular mechanisms of radiation-induced damage to nucleic acids. In The Chemical Basis of Radiation Biology (London: Taylor 8c Francis).
  • STEENKEN, S., 1989, Purine base nucleosides and nucleotides; Aqueous solution redox chemistry and transformation reactions of their radical cations, e and OH adducts. Chemical Reviews, 89, 503–520.
  • STEENKEN, S., 1992, Electron-transfer-induced acidity/basicity and reactivity changes of purine and pyrimidine. Con-sequence of redox processes for DNA base pairs. Free Radical Research and Communications, 16, 349–379.
  • WAGNER, J. R., VAN LIER, J. E., DECARROZ, C., BERGER, M., and CADET, J., 1990, Photodynamic methods for oxy radical-induced DNA damage. In Methods in Enzymol-ogy, edited by L. Packer and A. N. Glazer (Academic), vol. 186D, 502–511.
  • WARD, J. F., 1975, Molecular mechanisms of radiation-induced damage to nucleic acids. In Advances in Radiation Biology, edited by J. T. Lett and H. Adler (Academic: New York), vol. 5, p. 181.
  • WESTHOF, E., FLOSSMAN, W., and MULLER, A., 1975, Radical formation in salts of pyrimidines II. Cytosine.HC1 crystals. International Journal of Radiation Biology, 28, 427–438.
  • WESTHOF, E., FLOSSMAN, W., and MULLER, A., 1977, Detection of an OH-addition radical and its possible decay product in single crystals of cytosine monohydrate. Radiation Research, 70, 304–311.
  • WESTHOF, E., FLOSSMAN, W., ZEHNER, H., and MULLER, A., 1977, Formation of H-addition radicals in some pyrimidine and purine derivatives. Faraday Discussions of the Chemical Society, 63, 248–254.
  • YAMAMOTO, 0., 1976, Ionizing radiation-induced DNA-protein crosslinking. In Aging, Carcinogenesis and Radiation Biol-ogy, edited by K. C. Smith (Plenum, New York), pp. 165–192.
  • YANG, M., BECKER, D., SUMMERFIELD, S., RENKE, P., and SEVILLA, M. D., 1992, Relative abundances and reactivity of primary ion radicals in gamma-irradiated DNA at low temperatures. 2. Single- vs double-stranded DNA. Jour-nal of Physical Chemistry, 96, 1983–1989.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.