Mechanical and structural properties of archaeal hypernucleosomes.
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ABSTRACT: Many archaea express histones, which organize the genome and play a key role in gene regulation. The structure and function of archaeal histone-DNA complexes remain however largely unclear. Recent studies show formation of hypernucleosomes consisting of DNA wrapped around an 'endless' histone-protein core. However, if and how such a hypernucleosome structure assembles on a long DNA substrate and which interactions provide for its stability, remains unclear. Here, we describe micromanipulation studies of complexes of the histones HMfA and HMfB with DNA. Our experiments show hypernucleosome assembly which results from cooperative binding of histones to DNA, facilitated by weak stacking interactions between neighboring histone dimers. Furthermore, rotational force spectroscopy demonstrates that the HMfB-DNA complex has a left-handed chirality, but that torque can drive it in a right-handed conformation. The structure of the hypernucleosome thus depends on stacking interactions, torque, and force. In vivo, such modulation of the archaeal hypernucleosome structure may play an important role in transcription regulation in response to environmental changes.
SUBMITTER: Henneman B
PROVIDER: S-EPMC8096283 | biostudies-literature |
REPOSITORIES: biostudies-literature
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