Histone shuttle driven by the automodification cycle of poly(ADP‐ribose) polymerase
- 1 January 1993
- journal article
- research article
- Published by Wiley in Environmental and Molecular Mutagenesis
- Vol. 22 (4), 278-282
- https://doi.org/10.1002/em.2850220417
Abstract
In mammalian cells, the incision step of DNA excision repair triggers a dramatic metabolic response in chromatin. The reaction starts with the binding of a zinc-finger protein, i.e. poly-(ADP-ribose)polymerase to DNA nicks, activation of four resident catalytic activities leading to poly(ADP-ribose) synthesis, conversion of the polymerase into a protein modified with up to 28 variably sized ADP-ribose polymers, and rapid degradation of polymerase-bound polymers by poly(ADP-ribose)glycohydrolase. This automodification cycle catalyzes a transient and reversible dissociation of histones from DNA. Shuttling of histones on the DNA allows selected other proteins, such as DNA helicase A and topoisomerase I, to gain access to DNA. Histone shuttling in vitro mimics nucleosomal unfolding/refolding in vivo that accompanies the postincisional steps of DNA excision repair. Suppression of the automodification cycle in mammalian cells prevents nucleosomal unfolding and nucleotide excision repair.Keywords
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