Revealing the competition between peeled ssDNA, melting bubbles, and S-DNA during DNA overstretching by single-molecule calorimetry

Author(s)

Zhang, Xinghua; Chen, Hu; Le, Shimin; Rouzina, Ioulia; Doyle, Patrick S.; Yan, Jie; ... Show more Show less

Abstract

Double-stranded DNA (dsDNA) unconstrained by torsion undergoes an overstretching transition at about 65 pN, elongating the DNA to about 1.7-fold. Three possible structural transitions have been debated for the nature of DNA overstretching: (i) “peeling” apart of dsDNA to produce a peeled ssDNA strand under tension while the other strand coils, (ii) “inside-strand separation” of dsDNA to two parallel ssDNA strands that share tension (melting bubbles), and (iii) “B-to-S” transition to a novel dsDNA, termed S-DNA. Here we overstretched an end-opened DNA (with one open end to allow peeling) and an end-closed (i.e., both ends of the linear DNA are covalently closed to prohibit peeling) and torsion-unconstrained DNA. We report that all three structural transitions exist depending on experimental conditions. For the end-opened DNA, the peeling transition and the B-to-S transition were observed; for the end-closed DNA, the inside-strand separation and the B-to-S transition were observed. The peeling transition and the inside-strand separation are hysteretic and have an entropy change of approximately 17 cal/(K⋅mol), whereas the B-to-S transition is nonhysteretic and has an entropy change of approximately −2 cal/(K⋅mol). The force-extension curves of peeled ssDNA, melting bubbles, and S-DNA were characterized by experiments. Our results provide experimental evidence for the formation of DNA melting bubbles driven by high tension and prove the existence of nonmelted S-DNA. Our findings afford a full understanding of three possible force-driven structural transitions of torsion-unconstrained DNA and the resulting three overstretched DNA structures.

Date issued

2013-02

URI

http://hdl.handle.net/1721.1/80397

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

Proceedings of the National Academy of Sciences

Publisher

National Academy of Sciences (U.S.)

Citation

Zhang, X., H. Chen, S. Le, I. Rouzina, P. S. Doyle, and J. Yan. “Revealing the competition between peeled ssDNA, melting bubbles, and S-DNA during DNA overstretching by single-molecule calorimetry.” Proceedings of the National Academy of Sciences 110, no. 10 (March 5, 2013): 3865-3870.

Version: Final published version

ISSN

0027-8424

1091-6490