Wringing out DNA

A. V. Vologodskii; C. Bouchiat; C. Bustamante; C. Gosse; David Bensimon; F. Lankas; I. Lafontaine; P. Cluzel; R. E. Dickerson; Richard Lavery; S. B. Smith; S. B. Smith; Sylvain Joubaud; T. E. Cheatham; T. R. Strick; T. R. Strick; Timothée Lionnet; Vincent Croquette; W. Saenger

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Wringing out DNA

Authors: A. V. Vologodskii
C. Bouchiat
C. Bustamante
C. Gosse
David Bensimon
F. Lankas
I. Lafontaine
P. Cluzel
R. E. Dickerson
Richard Lavery
S. B. Smith
S. B. Smith
Sylvain Joubaud
T. E. Cheatham
T. R. Strick
T. R. Strick
Timothée Lionnet
Vincent Croquette
W. Saenger
Publication date: 7 February 2006
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The chiral nature of DNA plays a crucial role in cellular processes. Here we use magnetic tweezers to explore one of the signatures of this chirality, the coupling between stretch and twist deformations. We show that the extension of a stretched DNA molecule increases linearly by 0.42 nm per excess turn applied to the double helix. This result contradicts the intuition that DNA should lengthen as it is unwound and get shorter with overwinding. We then present numerical results of energy minimizations of torsionally restrained DNA that display a behaviour similar to the experimental data and shed light on the molecular details of this surprising effect.Comment: 4 pages revtex4, 4 figure

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