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Linker histone H1 and H3K56 acetylation are antagonistic regulators of nucleosome dynamics.


ABSTRACT: H1 linker histones are highly abundant proteins that compact nucleosomes and chromatin to regulate DNA accessibility and transcription. However, the mechanisms that target H1 regulation to specific regions of eukaryotic genomes are unknown. Here we report fluorescence measurements of human H1 regulation of nucleosome dynamics and transcription factor (TF) binding within nucleosomes. H1 does not block TF binding, instead it suppresses nucleosome unwrapping to reduce DNA accessibility within H1-bound nucleosomes. We then investigated H1 regulation by H3K56 and H3K122 acetylation, two transcriptional activating histone post translational modifications (PTMs). Only H3K56 acetylation, which increases nucleosome unwrapping, abolishes H1.0 reduction of TF binding. These findings show that nucleosomes remain dynamic, while H1 is bound and H1 dissociation is not required for TF binding within the nucleosome. Furthermore, our H3K56 acetylation measurements suggest that a single-histone PTM can define regions of the genome that are not regulated by H1.

SUBMITTER: Bernier M 

PROVIDER: S-EPMC4682114 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Linker histone H1 and H3K56 acetylation are antagonistic regulators of nucleosome dynamics.

Bernier Morgan M   Luo Yi Y   Nwokelo Kingsley C KC   Goodwin Michelle M   Dreher Sarah J SJ   Zhang Pei P   Parthun Mark R MR   Fondufe-Mittendorf Yvonne Y   Ottesen Jennifer J JJ   Poirier Michael G MG  

Nature communications 20151209


H1 linker histones are highly abundant proteins that compact nucleosomes and chromatin to regulate DNA accessibility and transcription. However, the mechanisms that target H1 regulation to specific regions of eukaryotic genomes are unknown. Here we report fluorescence measurements of human H1 regulation of nucleosome dynamics and transcription factor (TF) binding within nucleosomes. H1 does not block TF binding, instead it suppresses nucleosome unwrapping to reduce DNA accessibility within H1-bo  ...[more]

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