Fodor Barna D, Kubicek Stefan, Yonezawa Masato, O'Sullivan Roderick J, Sengupta Roopsha, Perez-Burgos Laura, Opravil Susanne, Mechtler Karl, Schotta Gunnar, Jenuwein Thomas
Research Institute of Molecular Pathology (IMP), The Vienna Biocenter, A-1030 Vienna, Austria.
Genes Dev. 2006 Jun 15;20(12):1557-62. doi: 10.1101/gad.388206. Epub 2006 May 31.
Histone lysine trimethyl states represent some of the most robust epigenetic modifications in eukaryotic chromatin. Using a candidate approach, we identified the subgroup of murine Jmjd2 proteins to antagonize H3K9me3 at pericentric heterochromatin. H3K27me3 and H4K20me3 marks are not impaired in inducible Jmjd2b-GFP cell lines, but Jmjd2b also reduces H3K36 methylation. Since recombinant Jmjd2b appears as a very poor enzyme, we applied metabolic labeling with heavy methyl groups to demonstrate Jmjd2b-mediated removal of chromosomal H3K9me3 as an active process that occurs well before replication of chromatin. These data reveal that certain members of the jmjC class of hydroxylases can work in a pathway that actively antagonizes a histone lysine trimethyl state.
组蛋白赖氨酸三甲基化状态是真核染色质中一些最稳定的表观遗传修饰。通过候选方法,我们鉴定出小鼠Jmjd2蛋白亚组可在着丝粒周围异染色质处拮抗H3K9me3。在可诱导的Jmjd2b - GFP细胞系中,H3K27me3和H4K20me3标记未受损,但Jmjd2b也会降低H3K36甲基化。由于重组Jmjd2b表现为一种非常低效的酶,我们应用重甲基代谢标记来证明Jmjd2b介导的染色体H3K9me3去除是一个在染色质复制之前就已充分发生的活跃过程。这些数据表明,jmjC类羟化酶的某些成员可以在一个积极拮抗组蛋白赖氨酸三甲基化状态的途径中发挥作用。