Proton Collision on Deoxyribose Originating from Doubly Ionized Water Molecule Dissociation.
Marie-Anne Hervé du PenhoatNely Rodrı Guez MoragaMarie-Pierre GaigeotRodolphe VuilleumierIvano TavernelliMarie-Fraņcoise PolitisPublished in: The journal of physical chemistry. A (2018)
In this work, we studied the fragmentation dynamics of 2-deoxy-d-ribose (DR) in solution that arises from the double ionization of a water molecule in its primary hydration shell. This process was modeled in the framework of ab initio molecular dynamics. The charge unbalanced in the solvent molecules produces a Coulomb explosion with the consequent release of protons with kinetic energy in the few electronvolts range, which collide with the surrounding molecules in solution inducing further chemical reactions. In particular, we observe proton collisions with the solute molecule DR, which leads to a complete ring opening. In DNA, damage to the DR moiety may lead to DNA strand breaking. This mechanism can be understood as one of the possible steps in the radiation-induced fragmentation of DNA chains.
Keyphrases
- molecular dynamics
- radiation induced
- editorial comment
- dna damage
- circulating tumor
- cell free
- density functional theory
- single molecule
- radiation therapy
- electron transfer
- solid state
- oxidative stress
- ionic liquid
- circulating tumor cells
- solar cells
- mass spectrometry
- high resolution
- gas chromatography
- tandem mass spectrometry
- liquid chromatography