Alireza Omumi scite author profile

Direct radical addition reactions at the C(8)-site of 2'-deoxyguanosine (dG) can afford C(8)-Ar-dG adducts that are produced by carcinogenic arylhydrazines, polycyclic aromatic hydrocarbons, and certain phenolic toxins. Such modified nucleobases are also highly fluorescent for sensing applications and possess useful electron transfer properties. The site-specific synthesis of oligonucleotides containing the C(8)-Ar-G adduct can be problematic. These lesions are sensitive to acids and oxidants that are commonly used in solid-phase DNA synthesis and are too bulky to be accepted as substrates for enzymatic synthesis by DNA polymerases. Using the Suzuki-Miyaura cross-coupling reaction, we have synthesized a number of C(8)-Ar-G-modified oligonucleotides (dimers, trimers, decamers, and a 15-mer) using a range of arylboronic acids. Good to excellent yields were obtained, and the reaction is insensitive to the nature of the bases flanking the convertible 8-Br-G nucleobase, as both pyrimidines and purines are tolerated. The impact of the C(8)-Ar-G lesion was also characterized by electrospray ionization tandem mass spectrometry, UV melting temperature analysis, circular dichroism, and fluorescence spectroscopy. The C(8)-Ar-G-modified oligonucleotides are expected to be useful substrates for diagnostic applications and understanding the biological impact of the C(8)-Ar-G lesion.

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Fluorescent Properties and Conformational Preferences of C-Linked Phenolic-DNA Adducts

Omumi

Millen

Wetmore

et al. 2011

Chem. Res. Toxicol.

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Phenolic toxins and mutagenic diazoquinones generate C-linked adducts at the C8 site of 2'-deoxyguanosine (dG) through the intermediacy of radical species. We have previously reported the site-specific incorporation of these adducts into oligonucleotides using a postsynthetic palladium-catalyzed cross-coupling strategy [Omumi (2011 ) J. Am. Chem. Soc. 133 , 42 - 50 ]. We report here the structural impact of these lesions within two decanucleotide sequences containing either 5'- and 3'-flanking pyrimidines or purines. In the complementary strands, the base opposite (N) the C-linked adduct was varied to determine the possibility of mismatch stabilization by the modified nucleobases. The resulting adducted duplex structures were characterized using UV thermal denaturation studies, circular dichroism, fluorescence spectroscopy, and molecular dynamics (MD) simulations. The experimental data showed the C-linked adducts to destabilize the duplex when base paired with its normal partner C but to increase duplex stability within a G:G mismatch. The stabilization within the G:G mismatch was sequence dependent, with flanking purine bases playing a key role in the stabilizing influence of the adduct. MD simulations showed no large structural changes to the B form double helix, regardless of the (anti/syn) adduct preference. Consideration of H-bonding and stacking interactions derived from the MD simulations together with the thermal melting data and changes in fluorescent emission of the adducts upon hybridization to the complementary strands implied that the C-linked phenolic adducts preferentially adopt the syn-conformation within both duplexes regardless of the opposite base N. Given that biological outcome in terms of mutagenicity appears to be strongly correlated to the conformational preference of the corresponding N-linked C8-dG adducts, the potential biological implications of phenolic C-linked adducts are discussed.

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Fluorescent C-Linked C⁸-Aryl-guanine Probe for Distinguishing syn from anti Structures in Duplex DNA

Manderville

Omumi

Schlitt

et al. 2012

Chem. Res. Toxicol.

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The synthesis and optical properties of the carbon (C)-linked C(8)-(2"-benzo[b]thienyl)-2'-deoxyguanosine ((Bth)dG), which acts as a fluorescent reporter of syn versus anti glycosidic conformations in duplex DNA, are described. In the syn-conformation, the probe stabilizes a G:G mismatch, emits at ∼385 nm (excitation ∼285 nm), and shows an induced circular dichroism (ICD) signal at ∼320 nm. Molecular dynamics (MD) simulations predict a wedge (W)-conformation for the mismatched duplex with the C(8)-benzo[b]thienyl moiety residing in the minor groove. In contrast, the probe destabilizes the duplex when base paired with its normal pyrimidine partner C. With flanking purine bases, a major groove B-type duplex is favored with (Bth)dG present in the anti-conformation emitting at ∼413 nm (excitation ∼326 nm) and no ICD signal. However, with flanking pyrimidine bases, (Bth)dG adopts the syn-conformation when base paired with C, and MD simulations predict a base-displaced stacked (S)-conformation, with the opposing C flipped out of the helix. The different duplex (B-, S-, and W-) conformers formed upon incorporation of (Bth)dG are known to play a critical role in the biological activity of N-linked C8-dG adducts formed by arylamine carcinogens. Bulky environment-sensitive fluorescent C(8)-dG adducts that mimic the duplex structures formed by carcinogens may be useful in luminescence-based DNA polymerase assays.

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Application of a Fluorescent C-Linked Phenolic Purine Adduct for Selective N7-Metalation of DNA

et al. 2012

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The C-linked phenolic adduct, C8-(2″-hydroxyphenyl)-2'-deoxyguanosine (o-PhOHdG), has been employed to study the impact of N7-metalation of 2'-deoxyguanosine (dG) within duplex DNA. The phenolic group of o-PhOHdG assists selective metal ion coordination by the N7-site of the attached dG moiety, which is the most important metal binding site in duplex DNA. The biaryl nucleobase probe o-PhOHdG is highly fluorescent in water (Φ(fl) = 0.44), and changes in its absorption and emission were used to determine apparent association constants (K(a)) for binding to Cu(II), Ni(II), and Zn(II). The nucleoside was found to bind Cu(II) (log K(a) = 4.59) and Ni(II) (log K(a) = 3.65) effectively, but it showed relatively poor affinity for Zn(II) (log K(a) = 2.55). The fluorescent nucleobase o-PhOHdG was incorporated into a pyrimidine-rich oligonucleotide substrate (ODN1) and a purine-rich (ODN2) substrate to monitor selective binding of Cu(II) through fluorescence quenching of the enol emission of o-PhOHdG within the DNA substrates. The pyrimidine-rich substrate ODN1 was found to possess greater affinity for Cu(II) than the free nucleobase, while the purine-rich substrate ODN2 exhibited diminished Cu(II) binding affinity. The impact of Cu(II) on duplex stability and structure was determined using UV melting temperature analysis and circular dichroism (CD) measurements. These studies highlight the syn preference for Cu(II)-bound o-PhOHdG within ODN1 duplexes and demonstrate competitive Cu(II) binding by other natural dG nucleobases within ODN2. The metal binding properties of o-PhOHdG are compared to the structurally similar 2-(2'-hydroxyphenyl)benzoxazole (HBO) derivatives and the nucleoside C8-(2-pyridyl)-dG (2PydG) that has also been used to control N7-metal coordination in DNA. Our results show certain advantages to the use of o-PhOHdG that stem from its highly fluorescent nature in aqueous media and provide additional tools for studying the effects of N7-metalation on the structure and stability of duplex DNA.

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Alireza Omumi

Postsynthetic Guanine Arylation of DNA by Suzuki−Miyaura Cross-Coupling

Fluorescent Properties and Conformational Preferences of C-Linked Phenolic-DNA Adducts

Fluorescent C-Linked C⁸-Aryl-guanine Probe for Distinguishing syn from anti Structures in Duplex DNA

Application of a Fluorescent C-Linked Phenolic Purine Adduct for Selective N7-Metalation of DNA

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Alireza Omumi

Postsynthetic Guanine Arylation of DNA by Suzuki−Miyaura Cross-Coupling

Fluorescent Properties and Conformational Preferences of C-Linked Phenolic-DNA Adducts

Fluorescent C-Linked C8-Aryl-guanine Probe for Distinguishing syn from anti Structures in Duplex DNA

Application of a Fluorescent C-Linked Phenolic Purine Adduct for Selective N7-Metalation of DNA

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Product

Resources

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Fluorescent C-Linked C⁸-Aryl-guanine Probe for Distinguishing syn from anti Structures in Duplex DNA