Modeling the effect of intercalators on the high-force stretching behavior of DNA

K.K. Schakenraad; I. Heller; A. Biebricher; G. Wuite; C. Storm; P. van der Schoot

Modeling the effect of intercalators on the high-force stretching behavior of DNA

K.K. Schakenraad
, I. Heller
, A. Biebricher
, G. Wuite
, C. Storm
, P. van der Schoot

Soft Matter and Biological Physics

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DNA is structurally and mechanically altered by the binding of intercalator molecules. Intercalation strongly affects the force-extension behavior of DNA, in particular the overstretching transition. We present a statistical model that captures all relevant findings of recent force-extension experiments. Two predictions from our model are presented. The first suggests the existence of a novel hyper-stretching regime in the presence of intercalators and the second, a linear dependence of the overstretching force on intercalator concentration, is verified by re-analyzing available experimental data. Our model pins down the physical principles that govern intercalated DNA mechanics, providing a predictive understanding of its limitations and possibilities.

Originele taal-2	Engels
Artikelnummer	1512.07039
Pagina's (van-tot)	1-5
Aantal pagina's	5
Tijdschrift	arXiv
Nummer van het tijdschrift	1512.07039
Status	Gepubliceerd - 22 dec. 2015

Bibliografische nota

5 pages, 4 figures

Trefwoorden

physics.bio-ph
cond-mat.soft

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ArXiv 1512.07039Definitieve gepubliceerde versie, 423 KB

http://arxiv.org/abs/1512.07039

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abstract = "DNA is structurally and mechanically altered by the binding of intercalator molecules. Intercalation strongly affects the force-extension behavior of DNA, in particular the overstretching transition. We present a statistical model that captures all relevant findings of recent force-extension experiments. Two predictions from our model are presented. The first suggests the existence of a novel hyper-stretching regime in the presence of intercalators and the second, a linear dependence of the overstretching force on intercalator concentration, is verified by re-analyzing available experimental data. Our model pins down the physical principles that govern intercalated DNA mechanics, providing a predictive understanding of its limitations and possibilities. ",

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AU - Heller, I.

AU - Biebricher, A.

AU - Wuite, G.

AU - Storm, C.

AU - van der Schoot, P.

N1 - 5 pages, 4 figures

PY - 2015/12/22

Y1 - 2015/12/22

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AB - DNA is structurally and mechanically altered by the binding of intercalator molecules. Intercalation strongly affects the force-extension behavior of DNA, in particular the overstretching transition. We present a statistical model that captures all relevant findings of recent force-extension experiments. Two predictions from our model are presented. The first suggests the existence of a novel hyper-stretching regime in the presence of intercalators and the second, a linear dependence of the overstretching force on intercalator concentration, is verified by re-analyzing available experimental data. Our model pins down the physical principles that govern intercalated DNA mechanics, providing a predictive understanding of its limitations and possibilities.

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KW - cond-mat.soft

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ER -

Modeling the effect of intercalators on the high-force stretching behavior of DNA

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Bibliografische nota

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