Hirohito Oka scite author profile

Hirohito Oka

4Publications

90Citation Statements Received

175Citation Statements Given

How they've been cited

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143

165

Affiliations

Konan University, Kindai University

Publications

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Conformation and the sodium ion condensation on DNA and RNA structures in the presence of a neutral cosolute as a mimic of the intracellular media

Nakano

Oka

et al. 2008

Mol. BioSyst.

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Water-soluble neutral cosolutes can be used to quantify biomolecular properties in the particular molecular environment occurring in a cell. We studied the conformation and the thermal stability of DNA and RNA structures in the presence of PEG [poly(ethylene glycol)] and smaller cosolutes of glycerol, ethylene glycol, 1,3-propanediol, 2-methoxyethanol, and 1,2-dimethoxyethane. Although the neutral cosolutes destabilized the oligonucleotide duplex and the hairpin structures, the left-handed Z-form duplex was more energetically favored in the cosolute-containing solutions. These observations were due to the contribution of water molecule on the nucleotide structure formations because the cosolutes act as an osmolyte to reduce the water activity of a solution. Moreover, the sodium ion condensation for the duplex and the hairpin formations was reduced in the presence of PEG, while that for the transition from the B-form to the Z-form was unaltered. The CD (circular dichroism) and EPR (electron paramagnetic resonance) spectra demonstrated that the cosolutes changed the helical conformation of the unstructured oligonucleotides, but not those of the ordered structures. The results of the favorable formation of the noncanonical nucleotide structures, and minimized conformational and thermal perturbations of the ordered nucleotide structures in the cosolute-containing solutions implicate the significance of the intracellular environment on DNA and RNA structures in a cell.

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Dynamics and Energetics of the Base Flipping Conformation Studied with Base Pair-Mimic Nucleosides

Nakano

Oka²,

Uotani³

et al. 2009

Biochemistry

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A base flipping conformation is found in many biological processes, including DNA repair and DNA and RNA modification processes. To investigate the dynamics and energetics of this unusual conformation in a double helix, base flipping induced by the base pair analogues of deoxyadenosine and deoxycytidine derivatives tethering a phenyl or naphthyl group was investigated. DNA strands bearing the base pair analogues stabilized the base flipping conformation of a complementary RNA, resulting in a site-specific hydrolysis by specific base catalysis. Measurements of the hydrolysis rate and the thermal stability of DNA/RNA duplexes suggested an unconstrained flexibility of the flipped-out ribonucleotide. As established in the base flipping by DNA repair and DNA and RNA modification enzymes, the results suggested that base flipping occurred in competition with base pair formation. In addition, the deoxycytidine derivatives discriminated G from I (inosine), with respect to the base pair interaction energy, as observed for a damaged base or a weakened base pair search by DNA repair proteins. The base pair mimic nucleosides would be useful for investigating the base flipping conformation under the equilibrium with base pairing.

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Stacking interaction in the middle and at the end of a DNA helix studied with non-natural nucleotides

et al. 2010

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Base stacking is important for the base pair interaction of a DNA duplex, DNA replication by polymerases, and single-stranded nucleotide overhangs. To study the mechanisms responsible for DNA stacking interactions, we measured the thermal stability of DNA duplexes containing a non-natural nucleotide tethered to a simple aromatic hydrocarbon group devoid of dipole moments and hydrogen bonding sites. The duplexes containing tetrahydrofuran were paired with a deoxyadenosine derivative (A/T base pair analog) or a deoxycytidine derivative (C/G base pair analog) and showed a lower stability than Watson-Crick base pairing, partly due to the loss of interbase hydrogen bonds. Conversely, non-natural nucleotides present at a dangling end yielded an interaction energy as high as that observed with base pairing. Importantly, the non-natural nucleotides yielded an interaction energy with a linear correlation similar to that of the analogous Watson-Crick base pairs both in the middle and at the end of a DNA duplex, although a different stacking mechanism between the middle and the end was suggested. Moreover, a positive cooperativity was observed in dangling end stacking of the nucleotide base moiety and aromatic hydrocarbon group. These observations are useful to understand nucleic acid interactions and to design new non-natural nucleotides.

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Conformational changes of the phenyl and naphthyl isocyanate-DNA adducts during DNA replication and by minor groove binding molecules

Nakano

Uotani

Sato

et al. 2013

Nucleic Acids Research

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DNA lesions produced by aromatic isocyanates have an extra bulky group on the nucleotide bases, with the capability of forming stacking interaction within a DNA helix. In this work, we investigated the conformation of the 2′-deoxyadenosine and 2′-deoxycytidine derivatives tethering a phenyl or naphthyl group, introduced in a DNA duplex. The chemical modification experiments using KMnO4 and 1-cyclohexyl-3 -(2-morpholinoethyl) carbodiimide metho-p-toluenesulfonate have shown that the 2′-deoxycytidine lesions form the base pair with guanine while the 2′-deoxyadenosine lesions have less ability of forming the base pair with thymine in solution. Nevertheless, the kinetic analysis shows that these DNA lesions are compatible with DNA ligase and DNA polymerase reactions, as much as natural DNA bases. We suggest that the adduct lesions have a capability of adopting dual conformations, depending on the difference in their interaction energies between stacking of the attached aromatic group and base pairing through hydrogen bonds. It is also presented that the attached aromatic groups change their orientation by interacting with the minor groove binding netropsin, distamycin and synthetic polyamide. The nucleotide derivatives would be useful for enhancing the phenotypic diversity of DNA molecules and for exploring new non-natural nucleotides.

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Hirohito Oka

Conformation and the sodium ion condensation on DNA and RNA structures in the presence of a neutral cosolute as a mimic of the intracellular media

Dynamics and Energetics of the Base Flipping Conformation Studied with Base Pair-Mimic Nucleosides

Stacking interaction in the middle and at the end of a DNA helix studied with non-natural nucleotides

Conformational changes of the phenyl and naphthyl isocyanate-DNA adducts during DNA replication and by minor groove binding molecules

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