Hyperthermal (1-100 eV) nitrogen ion scattering damage to D-ribose and 2-deoxy-D-ribose films

Highly charged heavy ion traversal of a biological medium can produce energetic secondary fragment ions. These fragment ions can in turn cause collisional and reactive scattering damage to DNA. Here we report hyperthermal (1-100 eV) scattering of one such fragment ion (N(+)) from biologically releva...

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Veröffentlicht in:	The Journal of chemical physics 2007-10, Vol.127 (14), p.144715-144715
Hauptverfasser:	Deng, Zongwu, Bald, Ilko, Illenberger, Eugen, Huels, Michael A
Format:	Artikel
Sprache:	eng
Schlagworte:	60 APPLIED LIFE SCIENCES BIOLOGICAL RADIATION EFFECTS Deoxyribose - chemistry DNA DNA - chemistry DNA - radiation effects DNA Damage - radiation effects EV RANGE 01-10 EV RANGE 10-100 Fever Heavy Ions INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ION BEAMS KINETIC ENERGY Kinetics Mass Spectrometry Nitrogen - chemistry NITROGEN IONS OXONIUM IONS RIBOSE Ribose - chemistry SCATTERING Thermodynamics
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container_end_page	144715
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container_title	The Journal of chemical physics
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creator	Deng, Zongwu Bald, Ilko Illenberger, Eugen Huels, Michael A
description	Highly charged heavy ion traversal of a biological medium can produce energetic secondary fragment ions. These fragment ions can in turn cause collisional and reactive scattering damage to DNA. Here we report hyperthermal (1-100 eV) scattering of one such fragment ion (N(+)) from biologically relevant sugar molecules D-ribose and 2-deoxy-D-ribose condensed on polycrystalline Pt substrate. The results indicate that N(+) ion scattering at kinetic energies down to 10 eV induces effective decomposition of both sugar molecules and leads to the desorption of abundant cation and anion fragments. Use of isotope-labeled molecules (5-(13)C D-ribose and 1-D D-ribose) partly reveals some site specificity of the fragment origin. Several scattering reactions are also observed. Both ionic and neutral nitrogen atoms abstract carbon from the molecules to form CN(-) anion at energies down to approximately 5 eV. N(+) ions also abstract hydrogen from hydroxyl groups of the molecules to form NH(-) and NH(2) (-) anions. A fraction of OO(-) fragments abstract hydrogen to form OH(-). The formation of H(3)O(+) ions also involves hydrogen abstraction as well as intramolecular proton transfer. These findings suggest a variety of severe damaging pathways to DNA molecules which occur on the picosecond time scale following heavy ion irradiation of a cell, and prior to the late diffusion-limited homogeneous chemical processes.
doi_str_mv	10.1063/1.2772259
format	Article
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The formation of H(3)O(+) ions also involves hydrogen abstraction as well as intramolecular proton transfer. 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These fragment ions can in turn cause collisional and reactive scattering damage to DNA. Here we report hyperthermal (1-100 eV) scattering of one such fragment ion (N(+)) from biologically relevant sugar molecules D-ribose and 2-deoxy-D-ribose condensed on polycrystalline Pt substrate. The results indicate that N(+) ion scattering at kinetic energies down to 10 eV induces effective decomposition of both sugar molecules and leads to the desorption of abundant cation and anion fragments. Use of isotope-labeled molecules (5-(13)C D-ribose and 1-D D-ribose) partly reveals some site specificity of the fragment origin. Several scattering reactions are also observed. Both ionic and neutral nitrogen atoms abstract carbon from the molecules to form CN(-) anion at energies down to approximately 5 eV. N(+) ions also abstract hydrogen from hydroxyl groups of the molecules to form NH(-) and NH(2) (-) anions. A fraction of OO(-) fragments abstract hydrogen to form OH(-). The formation of H(3)O(+) ions also involves hydrogen abstraction as well as intramolecular proton transfer. 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These fragment ions can in turn cause collisional and reactive scattering damage to DNA. Here we report hyperthermal (1-100 eV) scattering of one such fragment ion (N(+)) from biologically relevant sugar molecules D-ribose and 2-deoxy-D-ribose condensed on polycrystalline Pt substrate. The results indicate that N(+) ion scattering at kinetic energies down to 10 eV induces effective decomposition of both sugar molecules and leads to the desorption of abundant cation and anion fragments. Use of isotope-labeled molecules (5-(13)C D-ribose and 1-D D-ribose) partly reveals some site specificity of the fragment origin. Several scattering reactions are also observed. Both ionic and neutral nitrogen atoms abstract carbon from the molecules to form CN(-) anion at energies down to approximately 5 eV. N(+) ions also abstract hydrogen from hydroxyl groups of the molecules to form NH(-) and NH(2) (-) anions. A fraction of OO(-) fragments abstract hydrogen to form OH(-). The formation of H(3)O(+) ions also involves hydrogen abstraction as well as intramolecular proton transfer. These findings suggest a variety of severe damaging pathways to DNA molecules which occur on the picosecond time scale following heavy ion irradiation of a cell, and prior to the late diffusion-limited homogeneous chemical processes.</abstract><cop>United States</cop><pmid>17935431</pmid><doi>10.1063/1.2772259</doi><tpages>1</tpages></addata></record>
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subjects	60 APPLIED LIFE SCIENCES BIOLOGICAL RADIATION EFFECTS Deoxyribose - chemistry DNA DNA - chemistry DNA - radiation effects DNA Damage - radiation effects EV RANGE 01-10 EV RANGE 10-100 Fever Heavy Ions INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ION BEAMS KINETIC ENERGY Kinetics Mass Spectrometry Nitrogen - chemistry NITROGEN IONS OXONIUM IONS RIBOSE Ribose - chemistry SCATTERING Thermodynamics
title	Hyperthermal (1-100 eV) nitrogen ion scattering damage to D-ribose and 2-deoxy-D-ribose films
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