Conformation of Circular DNA in 2 Dimensions

G. Witz; K. Rechendorff; J. Adamcik; G. Dietler

doi:10.1103/PhysRevLett.101.148103

Conformation of Circular DNA in 2 Dimensions

Biomolecules 2009-11-13 v1 Quantitative Methods

Authors: G. Witz , K. Rechendorff , J. Adamcik , G. Dietler

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Abstract

The conformation of circular DNA molecules of various lengths adsorbed in a 2D conformation on a mica surface is studied. The results confirm the conjecture that the critical exponent $\nu$ is topologically invariant and equal to the SAW value (in the present case $\nu=3/4$ ), and that the topology and dimensionality of the system strongly influences the cross-over between the rigid regime and the self-avoiding regime at a scale $L\approx 8 \ell_p$ . Additionally, the bond correlation function scales with the molecular length $L$ as predicted. For molecular lengths $L\leq5 \ell_p$ , circular DNA behaves like a stiff molecule with approximately elliptic shape.

Keywords

dna biophysics

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@article{arxiv.0806.0514,
  title  = {Conformation of Circular DNA in 2 Dimensions},
  author = {G. Witz and K. Rechendorff and J. Adamcik and G. Dietler},
  journal= {arXiv preprint arXiv:0806.0514},
  year   = {2009}
}

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4 pages, 5 figures

Conformation of Circular DNA in 2 Dimensions

Abstract

Keywords

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