期刊
BIOPHYSICAL JOURNAL
卷 88, 期 5, 页码 3572-3583出版社
CELL PRESS
DOI: 10.1529/biophysj.104.053074
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Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Despite this condensed state, access to the DNA sequence must occur during gene expression and other essential genetic events. Here we employ optical tweezers stretching of reconstituted chromatin fibers to investigate the release of DNA from its protein-bound structure. Analysis of fiber length increase per unbinding event revealed discrete values of similar to 30 and similar to 60 nm. Furthermore, a loading rate analysis of the disruption forces revealed three individual energy barriers. The heights of these barriers were found to be similar to 20 k(B)T, similar to 25 k(B)T, and similar to 28 k(B)T. For subsequent stretches of the fiber it was found that events corresponding to the similar to 28 k(B)T energy barrier were significantly reduced. No correlation between energy barrier crossed and DNA length release was found. These studies clearly demonstrate that optical tweezers stretching of chromatin provides insight into the energetic penalties imposed by chromatin structure. Furthermore these studies reveal possible pathways via which chromatin may be disrupted during genetic code access.
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