Modeling the effect of ion-induced shock waves and DNA breakage with the reactive CHARMM force field |
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| Authors: | Ida Friis Alexey Verkhovtsev Ilia A Solov'yov Andrey V Solov'yov |
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| Institution: | 1. Department of Physics, Chemistry and Pharmacy, University of Southern Denmark, Odense M, Denmark;2. MBN Research Center, Frankfurt am Main, Germany;3. Department of Physics, Carl von Ossietzky Universität Oldenburg, Oldenburg, Germany |
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| Abstract: | Ion-induced DNA damage is an important effect underlying ion beam cancer therapy. This article introduces the methodology of modeling DNA damage induced by a shock wave caused by a projectile ion. Specifically it is demonstrated how single- and double strand breaks in a DNA molecule could be described by the reactive CHARMM (rCHARMM) force field implemented in the program MBN Explorer. The entire workflow of performing the shock wave simulations, including obtaining the crucial simulation parameters, is described in seven steps. Two exemplary analyses are provided for a case study simulation serving to: (a) quantify the shock wave propagation and (b) describe the dynamics of formation of DNA breaks. The article concludes by discussing the computational cost of the simulations and revealing the possible maximal computational time for different simulation set-ups. |
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| Keywords: | DNA bond break ion-induced shock waves molecular dynamics reactive CHARMM force field |
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