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Reaction of Electrons with DNA: Radiation Damage to Radiosensitization.

Anil KumarDavid BeckerAmitava AdhikaryMichael D Sevilla
Published in: International journal of molecular sciences (2019)
This review article provides a concise overview of electron involvement in DNA radiation damage. The review begins with the various states of radiation-produced electrons: Secondary electrons (SE), low energy electrons (LEE), electrons at near zero kinetic energy in water (quasi-free electrons, (e-qf)) electrons in the process of solvation in water (presolvated electrons, e-pre), and fully solvated electrons (e-aq). A current summary of the structure of e-aq, and its reactions with DNA-model systems is presented. Theoretical works on reduction potentials of DNA-bases were found to be in agreement with experiments. This review points out the proposed role of LEE-induced frank DNA-strand breaks in ion-beam irradiated DNA. The final section presents radiation-produced electron-mediated site-specific formation of oxidative neutral aminyl radicals from azidonucleosides and the evidence of radiosensitization provided by these aminyl radicals in azidonucleoside-incorporated breast cancer cells.
Keyphrases
  • circulating tumor
  • cell free
  • single molecule
  • nucleic acid
  • oxidative stress
  • breast cancer cells
  • radiation induced
  • circulating tumor cells
  • radiation therapy
  • molecular dynamics