Experimental and Theoretical Studies on the Selectivity of GGG Triplets toward One-Electron Oxidation in B-Form DNA

Yoshioka, Yasunori; Kitagawa, Yasutaka; Takano, Yu; Yamaguchi, Kizashi; Nakamura, and Takashi; Saito, Isao

doi:10.1021/ja991032t

Cited by 194 publications

(242 citation statements)

References 50 publications

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“…In early experiments it was shown that photoexcitation of DNA in its normal B-type double helical form by intense nano-or picosecond 266 nm laser pulses induces a greater damage of guanines positioned on the 5′-side of purine bases, especially adjacent to guanine, than on guanines adjacent to pyrimidines. 7 This selectivity of G oxidation in different sequence context has been also observed employing one-electron oxidants generated by photosensitization of metal complexes, 3,8 anthraquinones, 4,9 naphthalimides, 10 riboflavin (RF), 11,12 4′-pivaloyl derivatives, 13,14 cyanobenzoyl and cyanobenzophenone substituted 2′-deoxyuridine 15,16 and other chemical one-electron oxidants. 17, 18 Saito and co-workers have shown that the enhancement of oxidative guanine damage increases with the number of contiguous guanines according to 5′-G < 5′-GG < 5′-GGG and that this phenomenon is correlated with the calculated gas phase ionization potentials (IP) for guanines in different sequence contexts.…”

Section: Introductionmentioning

confidence: 71%

“…[41][42][43] The values of ϕ monotonously increase with increasing concentrations of DNA duplexes (see, Figure S2 in Supporting Information); at a duplex concentration ([duplex]) of 100 μM, practically all BPT molecules are bound to DNA and the ϕ values are in the range of 0.8 to 0.9 for a series of six oligonucleotide duplexes (Table S2, Supporting Information). The binding constants, K = (1.4±0.3)× 10 5 M −1 were obtained by fitting the following equation (12) to the experimental data points ( Figure S2). The values of K are not a function of the number of guanines or of their mode of grouping into separated or contiguous guanines.…”

Section: Fractions Of Bpt Molecules Bound To the Dnamentioning

confidence: 99%

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Oxidation of Guanine in G, GG, and GGG Sequence Contexts by Aromatic Pyrenyl Radical Cations and Carbonate Radical Anions: Relationship between Kinetics and Distribution of Alkali-Labile Lesions

et al. 2008

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Oxidatively generated DNA damage induced by the aromatic radical cation of the pyrene derivative 7,8,9,10-tetrahydroxytetrahydrobenzo[a]pyrene (BPT), and by carbonate radicals anions, was monitored from the initial one-electron transfer, or hole injection step, to the formation of hot alkali-labile chemical end-products monitored by gel electrophoresis. The fractions of BPT molecules bound to double-stranded 20-35-mer oligonucleotdes with noncontiguous guanines G, and grouped as contiguous GG and GGG sequences, were determined by a fluorescence quenching method. Utilizing intense nanosecond 355 nm Nd: Yag laser pulses, the DNA-bound BPT molecules were photoionized to BPT •+ radicals by a consecutive two-photon ionization mechanism. The BPT •+ radicals thus generated within the duplexes selectively oxidize guanine by intraduplex electron transfer reactions, and the rate constants of these reactions follow the trend 5′-..GGG.. > 5′-..GG.. > 5′-..G… In the case of CO 3 •− radicals, the oxidation of guanine occurs by intermolecular collision pathways and the bimolecular rate constants are independent of base sequence context. However, the distributions of the end-products generated by CO 3 •− radicals, as well as by BPT •+ , is base sequence context-dependent and is greater than in isolated guanines at the 5′-G in 5′-…GG… sequences, and the first two 5′-guanines in the 5′-..GGG sequences. These results help to clarify the conditions that lead to a similar or different base sequence dependence of the initial hole injection step and the final distribution of oxidized, alkalilabile guanine products. In the case of the intermolecular one-electron oxidant CO 3 •− , the rate constant of hole injection is similar for contiguous and isolated guanines, but the subsequent equilibration of holes by hopping favors trapping and product formation at contiguous guanines, and the sequence dependence of these two phenomena are not correlated. In contrast, in the case of the DNA bound oxidant BPT •+ , the hole injection rate constants, as well as hole equilibration, exhibit a similar dependence on base sequence context, and are thus correlated to one another.

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Section: Introductionmentioning

confidence: 71%

Section: Fractions Of Bpt Molecules Bound To the Dnamentioning

confidence: 99%

Oxidation of Guanine in G, GG, and GGG Sequence Contexts by Aromatic Pyrenyl Radical Cations and Carbonate Radical Anions: Relationship between Kinetics and Distribution of Alkali-Labile Lesions

et al. 2008

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“…Thus, the electronic structure of nucleotides and their ionization properties are essential for understanding the mechanism of DNA damage. Extensive experimental and theoretical studies have focused on these topics (11)(12)(13)(14)(15)(16)(17)(18)(19). In particular, LeBreton and coworkers (9,[20][21][22][23][24] have investigated the ionization of nucleic acid bases, sugar residue, and the phosphate in the gas phase by using UV photoelectron spectroscopy (PES) and then combining these studies and molecular orbital calculations to address the electronic structure of the nucleotides.…”

mentioning

confidence: 99%

Direct experimental observation of the low ionization potentials of guanine in free oligonucleotides by using photoelectron spectroscopy

Yang

Wang

Vorpagel

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

143

208

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Photodetachment photoelectron spectroscopy is used to probe the electronic structure of mono-, di-, and trinucleotide anions in the gas phase. A weak and well defined threshold band was observed in the photoelectron spectrum of 2 -deoxyguanosine 5 -monophosphate at a much lower ionization energy than the other three mononucleotides. Density function theory calculations revealed that this unique spectral feature is caused by electron-detachment from a orbital of the guanine base on 2 -deoxyguanosine 5 -monophosphate, whereas the lowest ionization channel for the other three mononucleotides takes place from the phosphate group. This low-energy feature was shown to be a ''fingerprint'' in all the spectra of dinucleotides and trinucleotides that contain the guanine base. The current experiment provides direct spectroscopic evidence that the guanine base is the site with the lowest ionization potential in oligonucleotides and DNA and is consistent with the fact that guanine is most susceptible to oxidation to give the guanine cation in DNA damage. DNA oxidation ͉ nucleotideT he ionization of nucleotide plays very important roles in the chemistry and biology of DNA. Induced by electrophiles or ionizing radiation, the electron-deficient site (hole) on the nucleotide and its migration may lead directly to DNA damage (1-6). In most cases, guanine is the initial oxidation site, or the electron-loss center ultimately moves through the DNA stack to end up at a guanine base (7). This observation is attributed to the low ionization potential (IP) of guanine relative to the other DNA bases (8-10). Thus, the electronic structure of nucleotides and their ionization properties are essential for understanding the mechanism of DNA damage. Extensive experimental and theoretical studies have focused on these topics (11)(12)(13)(14)(15)(16)(17)(18)(19). In particular, LeBreton and coworkers (9,[20][21][22][23][24] have investigated the ionization of nucleic acid bases, sugar residue, and the phosphate in the gas phase by using UV photoelectron spectroscopy (PES) and then combining these studies and molecular orbital calculations to address the electronic structure of the nucleotides. Gas-phase studies probe the intrinsic electronic properties of the nucleotides and provide important experimental data to compare with and verify theoretical results and methods.Matrix-assisted laser desorption ionization (25) and electrospray ionization (26) techniques provide powerful tools for characterizing biological molecules in the gas phase. The gasphase conformations of a series of free mononucleotide, dinucleotide, and trinucleotide ions were investigated by using matrix-assisted laser desorption ionization and ion-mobility experiment by Bowers and coworkers (27-30). Our group has developed an experimental technique that couples an electrospray ionization source with a magnetic-bottle photoelectron spectrometer (31) to investigate multiply charged anions and solution species in the gas phase (32, 33). Here, we report a PES study on a series of s...

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“…1), but this was only recently shown experimentally (Zeng & Wang, 2007). New findings show that electron capture and migration along BrdU-substituted DNA might be contra-thermodynamically selective and, thus far more complicated (Yoshioka et al, 1999;Aflatooni et al, 1998). In cells, radiosensitization by BrdU (typically at ~20-30% thymine replacement) gives about 2-3 fold radiotoxicity enhancement and in most cell types parallels similar increase in the DSB yield, and/or the decreased rate of their repair (Sawada & Okada, 1972).…”

Section: Introductionmentioning

confidence: 96%

DNA Radiosensitization: The Search for Repair Refractive Lesions Including Double Strand Breaks and Interstrand Crosslinks

Gantchev¹,

Dextraze²,

Hunting³

2011

Selected Topics in DNA Repair

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Experimental and Theoretical Studies on the Selectivity of GGG Triplets toward One-Electron Oxidation in B-Form DNA

Cited by 194 publications

References 50 publications

Oxidation of Guanine in G, GG, and GGG Sequence Contexts by Aromatic Pyrenyl Radical Cations and Carbonate Radical Anions: Relationship between Kinetics and Distribution of Alkali-Labile Lesions

Oxidation of Guanine in G, GG, and GGG Sequence Contexts by Aromatic Pyrenyl Radical Cations and Carbonate Radical Anions: Relationship between Kinetics and Distribution of Alkali-Labile Lesions

Direct experimental observation of the low ionization potentials of guanine in free oligonucleotides by using photoelectron spectroscopy

DNA Radiosensitization: The Search for Repair Refractive Lesions Including Double Strand Breaks and Interstrand Crosslinks

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