On the formation of rings-on-a-string conformations in a single polyelectrolyte chain: A possible scenario

Takahiro Sakaue; Kenichi Yoshikawa

doi:10.1063/1.2244555

On the formation of rings-on-a-string conformations in a single polyelectrolyte chain: A possible scenario

Takahiro Sakaue, Kenichi Yoshikawa

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

11 Citations (Scopus)

Abstract

Recent single-molecular observations have revealed that a single giant DNA molecule assumes (micro) phase separated structures upon the addition of condensing agents. Electron and atomic force microscopy have clearly shown the coexistence of ordered tori and disordered coil structures within a single DNA molecule. Motivated by these experimental findings, we theoretically investigated the collapse transition of a single polyelectrolyte chain driven by the addition of condensing guest molecules. We found that the transition behavior critically depends on the degree of the surviving charge inside the torus. When the torus is charged, even slightly, "rings-on-a-string" structures are expected for a sufficiently long chain, owing to the combinational entropy of segment state distribution along the chain and the unique property of the stability of charged torus.

Original language	English
Article number	074904
Journal	Journal of Chemical Physics
Volume	125
Issue number	7
DOIs	https://doi.org/10.1063/1.2244555
Publication status	Published - 2006
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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10.1063/1.2244555

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title = "On the formation of rings-on-a-string conformations in a single polyelectrolyte chain: A possible scenario",

abstract = "Recent single-molecular observations have revealed that a single giant DNA molecule assumes (micro) phase separated structures upon the addition of condensing agents. Electron and atomic force microscopy have clearly shown the coexistence of ordered tori and disordered coil structures within a single DNA molecule. Motivated by these experimental findings, we theoretically investigated the collapse transition of a single polyelectrolyte chain driven by the addition of condensing guest molecules. We found that the transition behavior critically depends on the degree of the surviving charge inside the torus. When the torus is charged, even slightly, {"}rings-on-a-string{"} structures are expected for a sufficiently long chain, owing to the combinational entropy of segment state distribution along the chain and the unique property of the stability of charged torus.",

author = "Takahiro Sakaue and Kenichi Yoshikawa",

note = "Funding Information: The authors thank N. Miyazawa for showing them beautiful AFM images of DNA molecules. One of the authors (T.S.) is grateful to Y. Hayashi and T. Kawakatsu for valuable discussions. The present study was supported by JSPS Research Fellowships for Young Scientists (01263). ",

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T2 - A possible scenario

AU - Sakaue, Takahiro

AU - Yoshikawa, Kenichi

N1 - Funding Information: The authors thank N. Miyazawa for showing them beautiful AFM images of DNA molecules. One of the authors (T.S.) is grateful to Y. Hayashi and T. Kawakatsu for valuable discussions. The present study was supported by JSPS Research Fellowships for Young Scientists (01263).

PY - 2006

Y1 - 2006

N2 - Recent single-molecular observations have revealed that a single giant DNA molecule assumes (micro) phase separated structures upon the addition of condensing agents. Electron and atomic force microscopy have clearly shown the coexistence of ordered tori and disordered coil structures within a single DNA molecule. Motivated by these experimental findings, we theoretically investigated the collapse transition of a single polyelectrolyte chain driven by the addition of condensing guest molecules. We found that the transition behavior critically depends on the degree of the surviving charge inside the torus. When the torus is charged, even slightly, "rings-on-a-string" structures are expected for a sufficiently long chain, owing to the combinational entropy of segment state distribution along the chain and the unique property of the stability of charged torus.

AB - Recent single-molecular observations have revealed that a single giant DNA molecule assumes (micro) phase separated structures upon the addition of condensing agents. Electron and atomic force microscopy have clearly shown the coexistence of ordered tori and disordered coil structures within a single DNA molecule. Motivated by these experimental findings, we theoretically investigated the collapse transition of a single polyelectrolyte chain driven by the addition of condensing guest molecules. We found that the transition behavior critically depends on the degree of the surviving charge inside the torus. When the torus is charged, even slightly, "rings-on-a-string" structures are expected for a sufficiently long chain, owing to the combinational entropy of segment state distribution along the chain and the unique property of the stability of charged torus.

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On the formation of rings-on-a-string conformations in a single polyelectrolyte chain: A possible scenario

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