Mushtaq, A.; Mir, U.S.; Hunt, C.R.; Pandita, S.; Tantray, W.W.; Bhat, A.; Pandita, R.K.; Altaf, M.; Pandita, T.K. Role of Histone Methylation in Maintenance of Genome Integrity. Genes2021, 12, 1000.
Mushtaq, A.; Mir, U.S.; Hunt, C.R.; Pandita, S.; Tantray, W.W.; Bhat, A.; Pandita, R.K.; Altaf, M.; Pandita, T.K. Role of Histone Methylation in Maintenance of Genome Integrity. Genes 2021, 12, 1000.
Mushtaq, A.; Mir, U.S.; Hunt, C.R.; Pandita, S.; Tantray, W.W.; Bhat, A.; Pandita, R.K.; Altaf, M.; Pandita, T.K. Role of Histone Methylation in Maintenance of Genome Integrity. Genes2021, 12, 1000.
Mushtaq, A.; Mir, U.S.; Hunt, C.R.; Pandita, S.; Tantray, W.W.; Bhat, A.; Pandita, R.K.; Altaf, M.; Pandita, T.K. Role of Histone Methylation in Maintenance of Genome Integrity. Genes 2021, 12, 1000.
Abstract
Packaging of the eukaryotic DNA genome with histone and other proteins forms a chromatin structure that regulates the outcome of all DNA mediated processes. The cellular pathways that ensure genomic stability detect and repair DNA damage through mechanisms which are critically dependent upon chromatin structures established by histones and, particularly, transient histone post-translational modifications . Though subject to a range of modifications, histone methylation is especially crucial for DNA damage repair as the methylated histones often form platforms for subsequent repair protein binding at damaged sites. In this review, we highlight and discuss how histone methylation impacts the maintenance of genome integrity through effects related to DNA repair and repair pathway choice.
Keywords
Histone Methylation, DNA repair, homologous recombination, Non homologous end joining
Subject
Biology and Life Sciences, Anatomy and Physiology
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.