Heavy ion induced damage to plasmid DNA: plateau region vs. spread out Bragg-peak

H. M. Dang; M. J. van Goethem; E. R. van der Graaf; S. Brandenburg; R. A. Hoekstra; T. A. Schlathölter

doi:10.1140/epjd/e2011-10679-1

Heavy ion induced damage to plasmid DNA: plateau region vs. spread out Bragg-peak

H. M. Dang, M. J. van Goethem, E. R. van der Graaf, S. Brandenburg, R. A. Hoekstra, T. A. Schlathölter^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

17 Citations (Scopus)

Abstract

We have investigated the damage of synthetic plasmid pBR322 DNA in dilute aqueous solutions induced by fast carbon ions. The relative contribution of indirect damage and direct damage to the DNA itself is expected to vary with linear energy transfer along the ion track, with the direct damage contribution increasing towards the Bragg peak. Therefore, C-12 ions at the spread-out Bragg peak (dose averaged LETa = 189 +/- 15 keV/mu m) and in the plateau region of the Bragg curve (LET = 40 keV/mu m) were employed and the radical scavenger concentration in the plasmid solution was varied to quantify the indirect effect. In order to minimize the influence of C-12 break-up fragments, a relatively low initial energy of 90 MeV/nucleon was employed for the carbon ions. DNA damage has been quantified by subsequent electrophoresis on agarose gels. We find that strand breaks due to both indirect and direct effects are systematically higher in the plateau region as compared to the Bragg peak region with the difference being smallest at high scavenging capacities. In view of the fact that the relative biological effectiveness for many biological endpoints is maximum at the Bragg peak our findings imply that DNA damage at the Bragg peak is qualitatively most severe.

Original language	English
Pages (from-to)	359-367
Number of pages	9
Journal	The European Physical Journal D
Volume	63
Issue number	3
DOIs	https://doi.org/10.1140/epjd/e2011-10679-1
Publication status	Published - Aug-2011

Keywords

PLATINUM-CONTAINING MOLECULES
ATOMIC-FORCE MICROSCOPY
STRAND BREAKS
IONIZING-RADIATION
CARBON-IONS
SCAVENGER CONCENTRATION
IRRADIATION
CELLS
BEAMS
FRAGMENTATION

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Heavy ion induced damage to plasmid DNA plateau region vs. spread
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title = "Heavy ion induced damage to plasmid DNA: plateau region vs. spread out Bragg-peak",

abstract = "We have investigated the damage of synthetic plasmid pBR322 DNA in dilute aqueous solutions induced by fast carbon ions. The relative contribution of indirect damage and direct damage to the DNA itself is expected to vary with linear energy transfer along the ion track, with the direct damage contribution increasing towards the Bragg peak. Therefore, C-12 ions at the spread-out Bragg peak (dose averaged LETa = 189 +/- 15 keV/mu m) and in the plateau region of the Bragg curve (LET = 40 keV/mu m) were employed and the radical scavenger concentration in the plasmid solution was varied to quantify the indirect effect. In order to minimize the influence of C-12 break-up fragments, a relatively low initial energy of 90 MeV/nucleon was employed for the carbon ions. DNA damage has been quantified by subsequent electrophoresis on agarose gels. We find that strand breaks due to both indirect and direct effects are systematically higher in the plateau region as compared to the Bragg peak region with the difference being smallest at high scavenging capacities. In view of the fact that the relative biological effectiveness for many biological endpoints is maximum at the Bragg peak our findings imply that DNA damage at the Bragg peak is qualitatively most severe.",

keywords = "PLATINUM-CONTAINING MOLECULES, ATOMIC-FORCE MICROSCOPY, STRAND BREAKS, IONIZING-RADIATION, CARBON-IONS, SCAVENGER CONCENTRATION, IRRADIATION, CELLS, BEAMS, FRAGMENTATION",

author = "Dang, {H. M.} and {van Goethem}, {M. J.} and {van der Graaf}, {E. R.} and S. Brandenburg and Hoekstra, {R. A.} and Schlath{\"o}lter, {T. A.}",

year = "2011",

month = aug,

doi = "10.1140/epjd/e2011-10679-1",

language = "English",

volume = "63",

pages = "359--367",

journal = "The European Physical Journal D",

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T1 - Heavy ion induced damage to plasmid DNA

T2 - plateau region vs. spread out Bragg-peak

AU - Dang, H. M.

AU - van Goethem, M. J.

AU - van der Graaf, E. R.

AU - Brandenburg, S.

AU - Hoekstra, R. A.

AU - Schlathölter, T. A.

PY - 2011/8

Y1 - 2011/8

N2 - We have investigated the damage of synthetic plasmid pBR322 DNA in dilute aqueous solutions induced by fast carbon ions. The relative contribution of indirect damage and direct damage to the DNA itself is expected to vary with linear energy transfer along the ion track, with the direct damage contribution increasing towards the Bragg peak. Therefore, C-12 ions at the spread-out Bragg peak (dose averaged LETa = 189 +/- 15 keV/mu m) and in the plateau region of the Bragg curve (LET = 40 keV/mu m) were employed and the radical scavenger concentration in the plasmid solution was varied to quantify the indirect effect. In order to minimize the influence of C-12 break-up fragments, a relatively low initial energy of 90 MeV/nucleon was employed for the carbon ions. DNA damage has been quantified by subsequent electrophoresis on agarose gels. We find that strand breaks due to both indirect and direct effects are systematically higher in the plateau region as compared to the Bragg peak region with the difference being smallest at high scavenging capacities. In view of the fact that the relative biological effectiveness for many biological endpoints is maximum at the Bragg peak our findings imply that DNA damage at the Bragg peak is qualitatively most severe.

AB - We have investigated the damage of synthetic plasmid pBR322 DNA in dilute aqueous solutions induced by fast carbon ions. The relative contribution of indirect damage and direct damage to the DNA itself is expected to vary with linear energy transfer along the ion track, with the direct damage contribution increasing towards the Bragg peak. Therefore, C-12 ions at the spread-out Bragg peak (dose averaged LETa = 189 +/- 15 keV/mu m) and in the plateau region of the Bragg curve (LET = 40 keV/mu m) were employed and the radical scavenger concentration in the plasmid solution was varied to quantify the indirect effect. In order to minimize the influence of C-12 break-up fragments, a relatively low initial energy of 90 MeV/nucleon was employed for the carbon ions. DNA damage has been quantified by subsequent electrophoresis on agarose gels. We find that strand breaks due to both indirect and direct effects are systematically higher in the plateau region as compared to the Bragg peak region with the difference being smallest at high scavenging capacities. In view of the fact that the relative biological effectiveness for many biological endpoints is maximum at the Bragg peak our findings imply that DNA damage at the Bragg peak is qualitatively most severe.

KW - PLATINUM-CONTAINING MOLECULES

KW - ATOMIC-FORCE MICROSCOPY

KW - STRAND BREAKS

KW - IONIZING-RADIATION

KW - CARBON-IONS

KW - SCAVENGER CONCENTRATION

KW - IRRADIATION

KW - CELLS

KW - BEAMS

KW - FRAGMENTATION

U2 - 10.1140/epjd/e2011-10679-1

DO - 10.1140/epjd/e2011-10679-1

M3 - Article

SN - 1434-6079

VL - 63

SP - 359

EP - 367

JO - The European Physical Journal D

JF - The European Physical Journal D

IS - 3

ER -

Heavy ion induced damage to plasmid DNA: plateau region vs. spread out Bragg-peak

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