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Underwound DNA under tension: L-DNA vs. plectoneme

Authors
Son, AnminKwon, Ah-YoungJohner, AlbertHong, Seok-CheolLee, Nam-Kyung
Issue Date
2월-2014
Publisher
IOP PUBLISHING LTD
Citation
EPL, v.105, no.4
Indexed
SCIE
SCOPUS
Journal Title
EPL
Volume
105
Number
4
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/99335
DOI
10.1209/0295-5075/105/48002
ISSN
0295-5075
Abstract
In many biological processes DNA experiences force in the pN range and torque that underwinds it. Magnetic tweezers experiments show that the superhelicity(sigma)-extension curve, the so-called bell curve, is asymmetric with respect to the inversion of sigma. We study the case of underwound DNA which was not addressed theoretically before. While the case of overwound DNA is fully explained by the formation of supercoil, the extension of underwound DNA reveals non-trivial tension dependence. We show that plectonemic coils form at moderate tension, whereas left-handed DNA, so-called "L-DNA", prevails at high tension (above approximate to 0.5 pN). In a narrow but physiologically relevant crossover range of tension, that is between 0.4 pN and 0.7 pN, extra unwinding turns are statistically distributed to either plectoneme or L-DNA. In this regime the states of a torsionally stressed DNA should be most sensitive to external mechanical stimuli. Copyright (C) EPLA, 2014
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