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@ARTICLE{Pomplun:51693,
author = {Pomplun, E. and Sutmann, G.},
title = {{I}s {C}oulomb explosion a damaging mechanism for
125-{IU}d{R}?},
journal = {International Journal of Radiation Biology},
volume = {80},
issn = {0955-3002},
address = {London},
publisher = {Taylor $\&$ Francis},
reportid = {PreJuSER-51693},
year = {2004},
note = {Record converted from VDB: 12.11.2012},
abstract = {To test the integrity of the thymine molecule that
experiences an increasing number of charges due to the loss
of Auger electrons emitted by the decay of incorporated
125I. Besides the radiation action of these electrons,
Coulomb explosion is suspected to be an additional mechanism
responsible for the strong radiotoxic effect of decaying
DNA-incorporated 125I. The two-step decay process initiates
a first Auger cascade within 10(-16) to 10(-14) s resulting
in the release of about 7 electrons on average and a
corresponding large positive charge on the 125Te daughter
atom. Being part of iododeoxyuridine (125IUdR), the analogue
of the DNA base thymine, the base is suddenly confronted
with this charge. Experimentally, the situation was
investigated with small molecules (CH3(125)I and C2H5(125)I)
resulting in ion fragmentation in agreement with a Coulomb
explosion model (Carlson and White, 1963,
1966).Semi-empirical quantum mechanical calculations on the
Parametric Method 3 (PM3) level (Stewart, 1989a, 1989b) were
performed and geometry optimisation was applied for the
identification of stable molecule conformations.
Subsequently, semiempirical molecular dynamics simulations
allowed changes in the conformations to be studied as a
function of time.First results show that there is no stable
molecular configuration with a total charge of > or = +5e.
PM3 calculations will not converge for such a charge located
at the 125I/125Te position. This finding is supported by
total energy considerations, which begin to favour a system
of isolated atoms versus molecular bound atoms when the
molecular charge is greater than +4e. The distribution of
the partial charges indicates that most of the charge will
remain on the tellurium atom with slight increases of charge
at the other molecular partners within 125IUdR. Moreover,
the molecular dynamics simulations reveal a breaking of
chemical bonds between those atoms with the strongest charge
increase.Coulomb explosion must be taken into account as a
possible damaging mechanism following the decay of
DNA-incorporated Auger electron emitters. Lobachevsky and
Martin (2000) have identified the same mechanism to be
responsible for part of strand breakage in
oligo-deoxynucleotides. To elucidate a possible link between
both damage patterns the molecular mechanics simulations
have to be extended to larger parts of the DNA molecule.},
keywords = {Computer Simulation / DNA: chemistry / DNA: radiation
effects / DNA Damage / Dose-Response Relationship, Radiation
/ Electrons: adverse effects / Idoxuridine: chemistry /
Idoxuridine: radiation effects / Models, Chemical / Models,
Molecular / Nucleic Acid Conformation: radiation effects /
Radiation Dosage / Static Electricity / Idoxuridine (NLM
Chemicals) / DNA (NLM Chemicals) / J (WoSType)},
cin = {ZAM / S},
ddc = {570},
cid = {I:(DE-Juel1)VDB62 / I:(DE-Juel1)VDB224},
pnm = {Betrieb und Weiterentwicklung des Höchstleistungsrechners},
pid = {G:(DE-Juel1)FUEK254},
shelfmark = {Biology / Nuclear Science $\&$ Technology / Radiology,
Nuclear Medicine $\&$ Medical Imaging},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:15764393},
UT = {WOS:000226521200009},
doi = {10.1080/09553000400017614},
url = {https://juser.fz-juelich.de/record/51693},
}
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