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Journal article

The geometrical origin of the strain-twist coupling in double helices

By Olsen, Kasper1,2,3; Bohr, Jakob1,2,3

From

Theoretical Microfluidics Group, Theory Section, Department of Micro- and Nanotechnology, Technical University of Denmark1

Theory Section, Department of Micro- and Nanotechnology, Technical University of Denmark2

Department of Micro- and Nanotechnology, Technical University of Denmark3

A simple geometrical explanation for the counterintuitive phenomenon when twist leads to extension in double helices is presented. The coupling between strain and twist is investigated using a tubular description. It is shown that the relation between strain and rotation is universal and depends only on the pitch angle.

For pitch angles below 39.4◦ strain leads to further winding, while for larger pitch angles strain leads to unwinding. The zero-twist structure, with a pitch angle of 39.4◦, is at the unique point between winding and unwinding and independent of the mechanical properties of the double helix. The existence of zero-twist structures, i.e. structures that display neither winding, nor unwinding under strain is discussed.

Close-packed double helices are shown to extend rather than shorten when twisted. Numerical estimates of this elongation upon winding are given for DNA, chromatin, and RNA.

Language: English
Publisher: AIP Publishing LLC
Year: 2011
Pages: 012108
ISSN: 21583226
Types: Journal article
DOI: 10.1063/1.3560851
Keywords

Biomechanics DNA Molecular biophysics Molecular configurations Proteins

Other keywords

Physics QC1-999

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