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The role of histone H4 biotinylation in the structure of nucleosomes.


ABSTRACT:

Background

Post-translational modifications of histones play important roles in regulating nucleosome structure and gene transcription. It has been shown that biotinylation of histone H4 at lysine-12 in histone H4 (K12Bio-H4) is associated with repression of a number of genes. We hypothesized that biotinylation modifies the physical structure of nucleosomes, and that biotin-induced conformational changes contribute to gene silencing associated with histone biotinylation.

Methodology/principal findings

To test this hypothesis we used atomic force microscopy to directly analyze structures of nucleosomes formed with biotin-modified and non-modified H4. The analysis of the AFM images revealed a 13% increase in the length of DNA wrapped around the histone core in nucleosomes with biotinylated H4. This statistically significant (p<0.001) difference between native and biotinylated nucleosomes corresponds to adding approximately 20 bp to the classical 147 bp length of nucleosomal DNA.

Conclusions/significance

The increase in nucleosomal DNA length is predicted to stabilize the association of DNA with histones and therefore to prevent nucleosomes from unwrapping. This provides a mechanistic explanation for the gene silencing associated with K12Bio-H4. The proposed single-molecule AFM approach will be instrumental for studying the effects of various epigenetic modifications of nucleosomes, in addition to biotinylation.

SUBMITTER: Filenko NA 

PROVIDER: S-EPMC3029316 | biostudies-literature | 2011 Jan

REPOSITORIES: biostudies-literature

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The role of histone H4 biotinylation in the structure of nucleosomes.

Filenko Nina A NA   Kolar Carol C   West John T JT   Smith S Abbie SA   Hassan Yousef I YI   Borgstahl Gloria E O GE   Zempleni Janos J   Lyubchenko Yuri L YL  

PloS one 20110127 1


<h4>Background</h4>Post-translational modifications of histones play important roles in regulating nucleosome structure and gene transcription. It has been shown that biotinylation of histone H4 at lysine-12 in histone H4 (K12Bio-H4) is associated with repression of a number of genes. We hypothesized that biotinylation modifies the physical structure of nucleosomes, and that biotin-induced conformational changes contribute to gene silencing associated with histone biotinylation.<h4>Methodology/p  ...[more]

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