Local Nucleosome Dynamics Facilitate Chromatin Accessibility in Living Mammalian Cells

Saera Hihara(National Institute of Genetics), Chan‐Gi Pack(Hokkaido University), Kazunari Kaizu, Tomomi Tani(Hokkaido University), Tomo Hanafusa(National Institute of Genetics), Tadasu Nozaki(National Institute of Genetics), Satoko Takemoto(RIKEN Advanced Science Institute), Tomohiko Yoshimi(Osaka City University), Hideo Yokota(RIKEN Advanced Science Institute), Naoko Imamoto(RIKEN Advanced Science Institute), Yasushi Sako(RIKEN Advanced Science Institute), Masataka Kinjo(Hokkaido University), Koichi Takahashi(Keio University Shonan Fujisawa), Takeharu Nagai(Hokkaido University), Kazuhiro Maeshima(National Institute of Genetics)
Cell Reports
December 1, 2012
10.1016/j.celrep.2012.11.008
Cited by 211Open Access
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Abstract

Genome information, which is three-dimensionally organized within cells as chromatin, is searched and read by various proteins for diverse cell functions. Although how the protein factors find their targets remains unclear, the dynamic and flexible nature of chromatin is likely crucial. Using a combined approach of fluorescence correlation spectroscopy, single-nucleosome imaging, and Monte Carlo computer simulations, we demonstrate local chromatin dynamics in living mammalian cells. We show that similar to interphase chromatin, dense mitotic chromosomes also have considerable chromatin accessibility. For both interphase and mitotic chromatin, we observed local fluctuation of individual nucleosomes (~50 nm movement/30 ms), which is caused by confined Brownian motion. Inhibition of these local dynamics by crosslinking impaired accessibility in the dense chromatin regions. Our findings show that local nucleosome dynamics drive chromatin accessibility. We propose that this local nucleosome fluctuation is the basis for scanning genome information.

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