1. Distinct factors control histone variant H3.3 localization at specific genomic regions.
- Author
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Goldberg AD, Banaszynski LA, Noh KM, Lewis PW, Elsaesser SJ, Stadler S, Dewell S, Law M, Guo X, Li X, Wen D, Chapgier A, DeKelver RC, Miller JC, Lee YL, Boydston EA, Holmes MC, Gregory PD, Greally JM, Rafii S, Yang C, Scambler PJ, Garrick D, Gibbons RJ, Higgs DR, Cristea IM, Urnov FD, Zheng D, and Allis CD
- Subjects
- Animals, Binding Sites, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Embryonic Stem Cells metabolism, Genome, Histone Chaperones genetics, Histone Chaperones metabolism, Histones genetics, Histones metabolism, Mice, Mice, Inbred C57BL, Telomere metabolism, Transcription Factors genetics, Transcription Factors metabolism, Transcription Initiation Site, Histones analysis, Telomere chemistry
- Abstract
The incorporation of histone H3 variants has been implicated in the epigenetic memory of cellular state. Using genome editing with zinc-finger nucleases to tag endogenous H3.3, we report genome-wide profiles of H3 variants in mammalian embryonic stem cells and neuronal precursor cells. Genome-wide patterns of H3.3 are dependent on amino acid sequence and change with cellular differentiation at developmentally regulated loci. The H3.3 chaperone Hira is required for H3.3 enrichment at active and repressed genes. Strikingly, Hira is not essential for localization of H3.3 at telomeres and many transcription factor binding sites. Immunoaffinity purification and mass spectrometry reveal that the proteins Atrx and Daxx associate with H3.3 in a Hira-independent manner. Atrx is required for Hira-independent localization of H3.3 at telomeres and for the repression of telomeric RNA. Our data demonstrate that multiple and distinct factors are responsible for H3.3 localization at specific genomic locations in mammalian cells., ((c) 2010 Elsevier Inc. All rights reserved.)
- Published
- 2010
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