Yudai Izumi scite author profile

We report the global structural alterations in histone H3 proteins induced by lysine-9 mono-, di- and trimethylation, which are part of the critical post-translational modifications for DNA damage responses, identified using synchrotron radiation circular dichroism (CD) spectroscopy. Compared with unmodified H3, mono- and dimethylation increases the number of α-helices and decreases the numbers of β-strands, while trimethylation decreases the α-helix content and increases the β-strand content. Comparison of the secondary-structure contents of these histone H3 proteins suggests that the methylation-induced structural alterations occur at residues not only close to but also distant from the methylated sites. Such global structural alterations may regulate the interactions of methylated histones with other molecules, such as histone-binding proteins in DNA damage repair processes.

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Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂

Nagira

Sonoyama

Wakita

et al. 2014

J. Phys. Soc. Jpn.

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Structure Change from β -Strand and Turn to α -Helix in Histone H2A-H2B Induced by DNA Damage Response

Izumi

Fujii

Wien

et al. 2016

Biophysical Journal

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Using synchrotron radiation-based circular dichroism spectroscopy, we found that the DNA damage response induces an increase of α-helix structure and a decrease of β-strand and turn structures in histone H2A-H2B extracted from x-irradiated human HeLa cells. The structural alterations correspond to the assumption that an average of eight amino acid residues form new α-helix structures at 310 K. We propose the structural transition from β-strand and turn structures to an α-helix structure in H2A-H2B as a novel, to our knowledge, process involved in the DNA damage response.

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Wide-angle display-type retarding field analyzer with high energy and angular resolutions

Matsuki

Ohkochi

Kato

et al. 2017

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Deployments of spherical grids to obtain high energy and angular resolutions for retarding field analyzers (RFAs) having acceptance angles as large as or larger than ±45° were explored under the condition of using commercially available microchannel plates with effective diameters of approximately 100 mm. As a result of electron trajectory simulations, a deployment of three spherical grids with significantly different grid separations instead of conventional equidistant separations showed an energy resolving power (E/ΔE) of 3200 and an angular resolution of 0.6°. The mesh number of the wire mesh retarding grid used for the simulation was 250. An RFA constructed with the simulated design experimentally showed an E/ΔE of 1100 and an angular resolution of 1°. Using the RFA and synchrotron radiation of 900 eV, photoelectron diffraction (PED) measurements were performed for single-crystal graphite. A clear C 1s PED pattern was observed even when the differential energy of the RFA was set at 0.5 eV. Further improvement of the energy resolution was theoretically examined under the assumption of utilizing a retarding grid fabricated by making a large number of radially directed cylindrical holes through a partial spherical shell instead of using a wire mesh retarding grid. An E/ΔE of 14 500 was predicted for a hole design with a diameter of 60 μm and a depth of 100 μm. A retarding grid with this hole design and a holed area corresponding to an acceptance angle of ±7° was fabricated. An RFA constructed with this retarding grid experimentally showed an E/ΔE of 1800. Possible reasons for the experimental E/ΔE lower than the theoretical values are discussed.

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Optical oscillator strength distribution of amino acids from 3 to 250eV and examination of the Thomas–Reiche–Kuhn sum rule

Kamohara¹,

Izumi²,

Tanaka³

et al. 2008

Radiation Physics and Chemistry

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Secondary Structure Alterations of Histones H2A and H2B in X-Irradiated Human Cancer Cells: Altered Histones Persist in Cells for at Least 24 Hours

et al. 2015

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We measured and compared the circular dichroism (CD) spectra and secondary structures of histone proteins H2A, H2B and their variants extracted from X-irradiated and unirradiated human HeLa cells. Compared to unirradiated cells, a relative increase in α-helix structure and decrease in other secondary structures was observed in X-irradiated cells. These structural alterations persisted for at least 24 h, which is substantially longer than the 2 h generally known to be required for DNA double-strand break repair.

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High-resolution photoelectron spectroscopy study of degradation of rubber-to-brass adhesion by thermal aging

Ozawa

Kubo

Shimizu

et al. 2013

Applied Surface Science

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High resolution photoelectron spectroscopy is utilized to investigate degradation of rubber-to-brass adhesion by thermal aging. Special attention is given to the role of water in the environment surrounding brass-embedded rubber so that three aging processes are employed; hydrothermal aging, moist-heat aging and dry-heat aging. All aging processes lead to the decrease in the amount of S at the rubber/brass interface. This desulfurization accompanies the decrease in the ratio of Cu x S (x ≃ 2) to CuS, i.e., Cu x S/CuS, and the increase in the amount of ZnO, Zn(OH) 2 and ZnS, all of which are key factors for degradation of adhesion. The changes in the chemical composition are enhanced by water in the surrounding environment during the aging treatments, indicating that the water molecules accelerate degradation of rubber-to-brass adhesion.

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DNA damage response induces structural alterations in histone H3–H4

Izumi

Fujii

Yamamoto

et al. 2017

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Synchrotron-radiation circular-dichroism spectroscopy was used to reveal that the DNA damage response induces a decrement of α-helix and an increment of β-strand contents of histone H3–H4 extracted from X-ray–irradiated human HeLa cells. The trend of the structural alteration was qualitatively opposite to that of our previously reported results for histone H2A–H2B. These results strongly suggest that histones share roles in DNA damage responses, particularly in DNA repair processes and chromatin remodeling, via a specific structural alteration of each histone.

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Yudai Izumi

Circular dichroism spectroscopic study on structural alterations of histones induced by post-translational modifications in DNA damage responses: lysine-9 methylation of H3

Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂

Structure Change from β -Strand and Turn to α -Helix in Histone H2A-H2B Induced by DNA Damage Response

Wide-angle display-type retarding field analyzer with high energy and angular resolutions

Optical oscillator strength distribution of amino acids from 3 to 250eV and examination of the Thomas–Reiche–Kuhn sum rule

Secondary Structure Alterations of Histones H2A and H2B in X-Irradiated Human Cancer Cells: Altered Histones Persist in Cells for at Least 24 Hours

High-resolution photoelectron spectroscopy study of degradation of rubber-to-brass adhesion by thermal aging

DNA damage response induces structural alterations in histone H3–H4

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Yudai Izumi

Circular dichroism spectroscopic study on structural alterations of histones induced by post-translational modifications in DNA damage responses: lysine-9 methylation of H3

Soft X-ray Photoemission Study of New BiS2-Layered Superconductor LaO1−xFxBiS2

Structure Change from β -Strand and Turn to α -Helix in Histone H2A-H2B Induced by DNA Damage Response

Wide-angle display-type retarding field analyzer with high energy and angular resolutions

Optical oscillator strength distribution of amino acids from 3 to 250eV and examination of the Thomas–Reiche–Kuhn sum rule

Secondary Structure Alterations of Histones H2A and H2B in X-Irradiated Human Cancer Cells: Altered Histones Persist in Cells for at Least 24 Hours

High-resolution photoelectron spectroscopy study of degradation of rubber-to-brass adhesion by thermal aging

DNA damage response induces structural alterations in histone H3–H4

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Product

Resources

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Soft X-ray Photoemission Study of New BiS₂-Layered Superconductor LaO₁₋_xF_xBiS₂