Model calculations of radiation induced damage in 1-methylthymine:9-methyladenine

Detailed electron paramagnetic resonance and electron nuclear double resonance experiments on the co-crystalline complex of 1-methylthymine:9-methyladenine (MTMA) have revealed that the major radiation induced products at low temperatures (10 K) are MTMA1, a radical formed by net hydrogen abstractio...

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Published inJournal of molecular structure. Theochem Vol. 549; no. 1; pp. 55 - 61
Main Authors Chen, Yuhua, Close, David
Format Journal Article
LanguageEnglish
Published Elsevier B.V 06.08.2001
Subjects
DNA bases
Methyladenine and methylthymine
Model calculations
Radiation damage to DNA
Radiation damage to DNA
Methyladenine and methylthymine
DNA bases
Model calculations
Online AccessGet full text
ISSN0166-1280
1872-7999
DOI10.1016/S0166-1280(01)00494-8

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Abstract Detailed electron paramagnetic resonance and electron nuclear double resonance experiments on the co-crystalline complex of 1-methylthymine:9-methyladenine (MTMA) have revealed that the major radiation induced products at low temperatures (10 K) are MTMA1, a radical formed by net hydrogen abstraction from the C5 methyl group on thymine, and MTMA2, a radical formed by net hydrogen abstraction of the N1 methyl group on thymine. The following four minor products were also observed: MTMA3, the C4–OH protonated anion of thymine, MTMA4, the C6 H-addition product of thymine, and MTMA5 and MTMA6, radicals formed by net H-addition to C2 and C8 of the adenine base. The geometries, energetics and hyperfine properties of all possible radicals of MT and MA, the primary anions and cations, as well as radicals formed via net hydrogen atom abstraction (deprotonated cations) or addition (protonated anions) were investigated theoretically. All systems were optimized using the hybrid Hartree–Fock density functional theory functional B3LYP, in conjunction with the 6-31G(d,p) basis set of Pople and co-workers. Calculations of the anisotropic hyperfine couplings for all the radicals observed in MTMA are presented, and are shown to compare favorably with the experimentally measured hyperfine couplings. The calculated ionizations potentials indicate that MA would be the preferred oxidation site. However, in MTMA neither the adenine cation nor its N4-deprotonated derivative were observed. The adenine cation in MTMA is not stabilized by deprotonation, and is thus likely subject to recombination. The calculated electron affinities indicate that MT would be the preferred reduction site. Reduction of MT is believed to result in protonation of the anion at C4O. The calculated hyperfine couplings for the MT anion are very similar to those of the C4–OH protonated anion, and therefore, the theoretical calculations are not useful in deciding the actual protonation state of this reduction product.
AbstractList Detailed electron paramagnetic resonance and electron nuclear double resonance experiments on the co-crystalline complex of 1-methylthymine:9-methyladenine (MTMA) have revealed that the major radiation induced products at low temperatures (10 K) are MTMA1, a radical formed by net hydrogen abstraction from the C5 methyl group on thymine, and MTMA2, a radical formed by net hydrogen abstraction of the N1 methyl group on thymine. The following four minor products were also observed: MTMA3, the C4–OH protonated anion of thymine, MTMA4, the C6 H-addition product of thymine, and MTMA5 and MTMA6, radicals formed by net H-addition to C2 and C8 of the adenine base. The geometries, energetics and hyperfine properties of all possible radicals of MT and MA, the primary anions and cations, as well as radicals formed via net hydrogen atom abstraction (deprotonated cations) or addition (protonated anions) were investigated theoretically. All systems were optimized using the hybrid Hartree–Fock density functional theory functional B3LYP, in conjunction with the 6-31G(d,p) basis set of Pople and co-workers. Calculations of the anisotropic hyperfine couplings for all the radicals observed in MTMA are presented, and are shown to compare favorably with the experimentally measured hyperfine couplings. The calculated ionizations potentials indicate that MA would be the preferred oxidation site. However, in MTMA neither the adenine cation nor its N4-deprotonated derivative were observed. The adenine cation in MTMA is not stabilized by deprotonation, and is thus likely subject to recombination. The calculated electron affinities indicate that MT would be the preferred reduction site. Reduction of MT is believed to result in protonation of the anion at C4O. The calculated hyperfine couplings for the MT anion are very similar to those of the C4–OH protonated anion, and therefore, the theoretical calculations are not useful in deciding the actual protonation state of this reduction product.
Author Chen, Yuhua
Close, David
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Issue 1
Keywords Radiation damage to DNA
Methyladenine and methylthymine
DNA bases
Model calculations
Language English
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Snippet Detailed electron paramagnetic resonance and electron nuclear double resonance experiments on the co-crystalline complex of 1-methylthymine:9-methyladenine...
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SubjectTerms DNA bases
Methyladenine and methylthymine
Model calculations
Radiation damage to DNA
Title Model calculations of radiation induced damage in 1-methylthymine:9-methyladenine
URI https://dx.doi.org/10.1016/S0166-1280(01)00494-8
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