Histone Dynamics in Living Cells Revealed by Photobleaching

Overview

Journal DNA Repair (Amst)

Publisher Elsevier

Specialties Biochemistry
Molecular Biology

Date 2005 May 21

PMID 15905138

Citations 47

Authors

Hiroshi Kimura

Affiliations

Soon will be listed here.

Abstract

The latest development of imaging technology and fluorescent proteins has enabled us to visualize the dynamics of chromatin proteins in living cells. Particularly, photobleaching techniques like fluorescence recovery after photobleaching (FRAP) revealed the mobility of many nuclear proteins including histones. Although most nucleosomal histones are maintained over cell generations to maintain epigenetic marks on their tails, some exhibit dynamic exchange. In general, histone H3-H4 tetramers stably bind to DNA once assembled during DNA replication; in contrast, the H2A-H2B dimers exchange slowly in euchromatin and are evicted during transcription. Recent data further indicate that different histone variants have different localization and kinetics. The replacement H3 variant, H3.3, is incorporated into transcriptionally active chromatin independently of DNA replication, and the centromeric variant, CENP-A, appears to assemble into nucleosomes in centromeres during G2 phase by replacing canonical H3. Different behaviors of H2A variants are also demonstrated. Importantly, the mobility of histones, and other nuclear proteins, is altered in response to changes in cellular physiology and various stimuli. Whereas we know little about how these dynamics are regulated, distinct complexes that mediate assembly and exchange of specific variants have been isolated, thus future analyses will reveal the molecular mechanisms underlying the phenomena in living cells.

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