@ARTICLE{Korolev1983458,
author={Korolev, V.G. and Ivanov, E.L.},
title={Modeling the effects of radiation damage to DNA and the genetic risk of radionuclide decay. Dehydrogenation of pyrimidine nucleotides during decay of incorporated 3H [Modelirovanie éffektov radiatsionnykh povrezhdeniǐ DNK i geneticheskaia opasnost' raspada radionuklidov. Degidrirovanie pirimidinovykh nukleotidov pri raspade inkorpororovannogo 3H.]},
journal={Radiobiologiya},
year={1983},
volume={23},
number={4},
pages={458-461},
note={cited By 1},
url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-0020794803&partnerID=40&md5=710eacee616df30caf28e1ab24e0b284},
abstract={Dehydrogenation of DNA pyrimidine nucleotides in thymine positions 5 and 6 and cytosine position 5 is not a drastic lethal damage. Moreover, dehydrogenation of DNA in thymine positions 5 and 6 is not an effective mutagenic lesion. DNA dehydrogenation in cytosine position 5 has proved to be a pronounced mutagenic damage. As to induction of point mutations, 3H is not more harmful than external gamma-radiation given in equivalent doses.},
correspondence_address1={Korolev, V.G.},
issn={00338192},
pubmed_id={6351160},
language={Russian},
abbrev_source_title={Radiobiologiia},
document_type={Article},
source={Scopus},
}

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