부산대학교 도서관

Histone variants represent chromatin components that diversify the structure and function of the genome. The variants of H2A, primarily H2A.X, H2A.Z and macroH2A, are well-established participants in DNA damage response (DDR) pathways, which function to protect the integrity of the genome. Through their deposition, post-translational modifications and unique protein interaction networks, these variants guard DNA from endogenous threats including replication stress and genome fragility as well as from DNA lesions inflicted by exogenous sources. A growing body of work is now providing a clearer picture on the involvement and mechanistic basis of H2A variant contribution to genome integrity. Beyond their well-documented role in gene regulation, we review here how histone H2A variants promote genome stability and how alterations in these pathways contribute to human diseases including cancer. • Genome integrity relies on diverse histone H2A variants and their modifications. • γH2A.X foci represent 3-D damage signaling frameworks formed by chromatin loops. • macroH2A.1 is a splicing-regulated modulator of DSB repair pathway choice. • H2A.J and H2A.B variants are emerging as effectors of DNA repair. • H2A variant functions including genome integrity are linked with several human pathologies. [ABSTRACT FROM AUTHOR]