Mof (MYST1 or KAT8) is essential for progression of embryonic development past the blastocyst stage and required for normal chromatin architecture
Details
Publication Year 2008-08,Volume 28,Issue #16,Page 5093-5105
Journal Title
MOLECULAR AND CELLULAR BIOLOGY
Publication Type
Journal Article
Abstract
Acetylation of histone tails is a hallmark of transcriptionally active chromatin. Mof (males absent on the first; also called MYST1 or KAT8) is a member of the MYST family of histone acetyltransferases and was originally discovered as an essential component of the X chromosome dosage compensation system in Drosophila. In order to examine the role of Mof in mammals in vivo, we generated mice carrying a null mutation of the Mof gene. All Mof-deficient embryos fail to develop beyond the expanded blastocyst stage and die at implantation in vivo. Mof-deficient cell lines cannot be derived from Mof(-/-) embryos in vitro. Mof(-/-) embryos fail to acetylate histone 4 lysine 16 (H4K16) but have normal acetylation of other N-terminal histone lysine residues. Mof(-/-) cell nuclei exhibit abnormal chromatin aggregation preceding activation of caspase 3 and DNA fragmentation. We conclude that Mof is functionally nonredundant with the closely related MYST histone acetyltransferase Tip60. Our results show that Mof performs a different role in mammals from that in flies at the organism level, although the molecular function is conserved. We demonstrate that Mof is required specifically for the maintenance of H4K16 acetylation and normal chromatin architecture of all cells of early male and female embryos.
Publisher
AMER SOC MICROBIOLOGY
Keywords
HEMATOPOIETIC STEM-CELLS; HISTONE ACETYLTRANSFERASE; DOSAGE COMPENSATION; X-CHROMOSOME; GENE-EXPRESSION; DROSOPHILA MOF; ACETYLATION; FAMILY; MOUSE; H4
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Creation Date: 2008-08-01 12:00:00
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