Direct Correlation between Molecular Cross-linking and Macroscopic Mechanical Properties for Green Solids of Deoxyribonucleic Acids

Yuma Morimitsu; Hisao Matsuno; Noboru Ohta; Hiroshi Sekiguchi; Keiji Tanaka

doi:10.1002/cnma.201600222

Direct Correlation between Molecular Cross-linking and Macroscopic Mechanical Properties for Green Solids of Deoxyribonucleic Acids

Yuma Morimitsu, Hisao Matsuno, Noboru Ohta, Hiroshi Sekiguchi, Keiji Tanaka

Functional Materials Chemistry

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Double-stranded deoxyribonucleic acids (DNAs) were intermolecularly cross-linked using 2,5-hexanedione under reductive amination conditions in aqueous phase. Cross-linking points between DNAs were directly observed by atomic force microscopy in conjunction with a conventional gel electrophoresis analysis. While DNA chains near cross-linking points were denatured, DNA chains not near cross-linking points maintained B-form double strands. A transparent and self-supported film of cross-linked DNA (DNA-c) was obtained by a simple solvent-casting method. The tensile properties of DNA-c films were much better than those of non-cross-linked DNA (DNA-n) films due to the presence of the cross-linking portions. Structural analyses based on wide-angle X-ray diffraction measurements revealed that the reorientation of DNA-c was remarkably restricted by the introduction of cross-linking points.

Original language	English
Pages (from-to)	1023-1027
Number of pages	5
Journal	ChemNanoMat
Volume	2
Issue number	11
DOIs	https://doi.org/10.1002/cnma.201600222
Publication status	Published - Nov 2016

All Science Journal Classification (ASJC) codes

Biomaterials
Renewable Energy, Sustainability and the Environment
Energy Engineering and Power Technology
Materials Chemistry

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10.1002/cnma.201600222

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title = "Direct Correlation between Molecular Cross-linking and Macroscopic Mechanical Properties for Green Solids of Deoxyribonucleic Acids",

abstract = "Double-stranded deoxyribonucleic acids (DNAs) were intermolecularly cross-linked using 2,5-hexanedione under reductive amination conditions in aqueous phase. Cross-linking points between DNAs were directly observed by atomic force microscopy in conjunction with a conventional gel electrophoresis analysis. While DNA chains near cross-linking points were denatured, DNA chains not near cross-linking points maintained B-form double strands. A transparent and self-supported film of cross-linked DNA (DNA-c) was obtained by a simple solvent-casting method. The tensile properties of DNA-c films were much better than those of non-cross-linked DNA (DNA-n) films due to the presence of the cross-linking portions. Structural analyses based on wide-angle X-ray diffraction measurements revealed that the reorientation of DNA-c was remarkably restricted by the introduction of cross-linking points.",

author = "Yuma Morimitsu and Hisao Matsuno and Noboru Ohta and Hiroshi Sekiguchi and Keiji Tanaka",

note = "Funding Information: We thank Prof. Hidefumi Kawasaki, Kyushu University for his help about DFT analysis. This research was partly supported by JSPS KAKENHI, Grant-in-Aids for Scientific Research (A) (15H02183) to K.T. and for Scientific Research (C) (15K05633) to H. M. The WAXD measurements were carried out at BL40B2 at SPring-8 with proposal number 2015B1129. Publisher Copyright: {\textcopyright} 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2016",

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doi = "10.1002/cnma.201600222",

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AU - Morimitsu, Yuma

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AU - Ohta, Noboru

AU - Sekiguchi, Hiroshi

AU - Tanaka, Keiji

N1 - Funding Information: We thank Prof. Hidefumi Kawasaki, Kyushu University for his help about DFT analysis. This research was partly supported by JSPS KAKENHI, Grant-in-Aids for Scientific Research (A) (15H02183) to K.T. and for Scientific Research (C) (15K05633) to H. M. The WAXD measurements were carried out at BL40B2 at SPring-8 with proposal number 2015B1129. Publisher Copyright: © 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2016/11

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N2 - Double-stranded deoxyribonucleic acids (DNAs) were intermolecularly cross-linked using 2,5-hexanedione under reductive amination conditions in aqueous phase. Cross-linking points between DNAs were directly observed by atomic force microscopy in conjunction with a conventional gel electrophoresis analysis. While DNA chains near cross-linking points were denatured, DNA chains not near cross-linking points maintained B-form double strands. A transparent and self-supported film of cross-linked DNA (DNA-c) was obtained by a simple solvent-casting method. The tensile properties of DNA-c films were much better than those of non-cross-linked DNA (DNA-n) films due to the presence of the cross-linking portions. Structural analyses based on wide-angle X-ray diffraction measurements revealed that the reorientation of DNA-c was remarkably restricted by the introduction of cross-linking points.

AB - Double-stranded deoxyribonucleic acids (DNAs) were intermolecularly cross-linked using 2,5-hexanedione under reductive amination conditions in aqueous phase. Cross-linking points between DNAs were directly observed by atomic force microscopy in conjunction with a conventional gel electrophoresis analysis. While DNA chains near cross-linking points were denatured, DNA chains not near cross-linking points maintained B-form double strands. A transparent and self-supported film of cross-linked DNA (DNA-c) was obtained by a simple solvent-casting method. The tensile properties of DNA-c films were much better than those of non-cross-linked DNA (DNA-n) films due to the presence of the cross-linking portions. Structural analyses based on wide-angle X-ray diffraction measurements revealed that the reorientation of DNA-c was remarkably restricted by the introduction of cross-linking points.

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Direct Correlation between Molecular Cross-linking and Macroscopic Mechanical Properties for Green Solids of Deoxyribonucleic Acids

Abstract

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