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


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.

SUBMITTER: Zhang X 

PROVIDER: S-EPMC3593865 | biostudies-other | 2013 Mar

REPOSITORIES: biostudies-other

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

Zhang Xinghua X   Chen Hu H   Le Shimin S   Rouzina Ioulia I   Doyle Patrick S PS   Yan Jie J  

Proceedings of the National Academy of Sciences of the United States of America 20130219 10


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 dsDN  ...[more]

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