Open AccessInfluence of molecular flexibility on DNA radiosensitivity: A simulation study
Author(s) -
David Viduna,
Konrad Hinsen,
Gerald R. Kneller
Publication year - 2000
Publication title -
physical review. e, statistical physics, plasmas, fluids, and related interdisciplinary topics
Language(s) - English
Resource type - Journals
eISSN - 1095-3787
pISSN - 1063-651X
DOI - 10.1103/physreve.62.3986
Subject(s) - dna , flexibility (engineering) , breakage , base pair , ionizing radiation , radiosensitivity , dna damage , biophysics , physics , materials science , genetics , biology , irradiation , nuclear physics , mathematics , statistics , composite material
Radiation damage in DNA is caused mainly by hydroxyl radicals which are generated by ionizing radiation in water and removing hydrogen atoms from the DNA chain. This damage affects certain nucleotide sequences more than others due to differences in the local structure of the DNA chains. This sequence dependence has been analyzed experimentally and calculated theoretically for a rigid DNA model. In this paper we take into account the flexibility of the DNA chain and show how it modifies the strand breakage probabilities. We use a simple harmonic model for DNA flexibility which permits the study of a long (68 base pair) fragment with modest computational effort. The essential influence of flexibility is an increased breakage probability towards the ends of the fragment, which can also be identified in the experimental data.
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