Abstract

Chromatin is a supramolecular DNA-protein complex that compacts eukaryotic genomes and regulates their accessibility and functions. Dynamically disordered histone H3 N-terminal tails are among key chromatin regulatory components. Here, we used high-resolution-magic-angle-spinning NMR measurements of backbone amide 15N spin relaxation rates to investigate, with residue-specific detail, the dynamics and interactions of H3 tails in recombinant 13C,15N-enriched nucleosome arrays containing 15, 30, or 60 bp linker DNA between the nucleosome repeats. These measurements were compared to analogous data available for mononucleosomes devoid of linker DNA or containing two 20 bp DNA overhangs. The H3 tail dynamics in nucleosome arrays were found to be considerably attenuated compared with nucleosomes with or without linker DNA due to transient electrostatic interactions with the linker DNA segments and the structured chromatin environment. Remarkably, however, the H3 tail dynamics were not modulated by the specific linker DNA length within the 15-60 bp range investigated here.

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