Histone acetylation increases chromatin accessibility

doi:10.1242/jcs.02689

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JCS ePress online publication date 29 Nov 2005
doi: 10.1242/jcs.02689

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Research Article

Histone acetylation increases chromatin accessibility

Sabine M. Görisch, Malte Wachsmuth, Katalin Fejes Tóth, Peter Lichter, and Karsten Rippe^*
^* Author for correspondence (e-mail: karsten.rippe{at}kip.uni-heidelberg.de)

In eukaryotes, the interaction of DNA with proteins and supramolecularcomplexes involved in gene expression is controlled by the dynamicorganization of chromatin inasmuch as it defines the DNA accessibility.Here, the nuclear distribution of microinjected fluorescein-labeleddextrans of 42 kDa to 2.5 MDa molecular mass was used to characterizethe chromatin accessibility in dependence on histone acetylation.Measurements of the fluorescein-dextran sizes were combinedwith an image correlation spectroscopy analysis, and three differentinterphase chromatin condensation states with apparent poresizes of 16-20 nm, 36-56 nm and 60-100 nm were identified. Areversible change of the chromatin conformation to a uniform60-100 nm pore size distribution was observed upon increasedhistone acetylation. This result identifies histone acetylationas a central factor in the dynamic regulation of chromatin accessibilityduring interphase. In mitotic chromosomes, the chromatin exclusionlimit was 10-20 nm and independent of the histone acetylationstate.

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