John R. Pehrson scite author profile

In senescent cells, specialized domains of transcriptionally silent senescence-associated heterochromatic foci (SAHF), containing heterochromatin proteins such as HP1, are thought to repress expression of proliferation-promoting genes. We have investigated the composition and mode of assembly of SAHF and its contribution to cell cycle exit. SAHF is enriched in a transcription-silencing histone H2A variant, macroH2A. As cells approach senescence, a known chromatin regulator, HIRA, enters PML nuclear bodies, where it transiently colocalizes with HP1 proteins, prior to incorporation of HP1 proteins into SAHF. A physical complex containing HIRA and another chromatin regulator, ASF1a, is rate limiting for formation of SAHF and onset of senescence, and ASF1a is required for formation of SAHF and efficient senescence-associated cell cycle exit. These data indicate that HIRA and ASF1a drive formation of macroH2A-containing SAHF and senescence-associated cell cycle exit, via a pathway that appears to depend on flux of heterochromatic proteins through PML bodies.

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Histone macroH2A1 is concentrated in the inactive X chromosome of female mammals

Costanzi

Pehrson

1998

Nature

601

539

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In female mammals one of the X chromosomes is rendered almost completely transcriptionally inactive to equalize expression of X-linked genes in males and females. The inactive X chromosome is distinguished from its active counterpart by its condensed appearance in interphase nuclei, late replication, altered DNA methylation, hypoacetylation of histone H4, and by transcription of a large cis-acting nuclear RNA called Xist. Although it is believed that the inactivation process involves the association of specific protein(s) with the chromatin of the inactive X, no such proteins have been identified. We discovered a new gene family encoding a core histone which we called macroH2A (mH2A). The amino-terminal third of mH2A proteins is similar to a full-length histone H2A, but the remaining two-thirds is unrelated to any known histones. Here we show that an mH2A1 subtype is preferentially concentrated in the inactive X chromosome of female mammals. Our results link X inactivation with a major alteration of the nucleosome, the primary structural unit of chromatin.

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Conditional deletion of Xist disrupts histone macroH2A localization but not maintenance of X inactivation

et al. 1999

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MacroH2A, a Core Histone Containing a Large Nonhistone Region

Pehrson

Fried

1992

Science

321

288

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A histone, macroH2A, nearly three times the size of conventional H2A histone, was found in rat liver nucleosomes. Its N-terminal third is 64 percent identical to a full-length mouse H2A. However, it also contains a large nonhistone region. This region has a segment that resembles a leucine zipper, a structure known to be involved in dimerization of some transcription factors. Nucleosomes containing macroH2A may have novel functions, possibly involving interactions with other nuclear proteins.

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A unified phylogeny-based nomenclature for histone variants

Talbert

Ahmad

Almouzni

et al. 2012

Epigenetics & Chromatin

288

274

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Histone variants are non-allelic protein isoforms that play key roles in diversifying chromatin structure. The known number of such variants has greatly increased in recent years, but the lack of naming conventions for them has led to a variety of naming styles, multiple synonyms and misleading homographs that obscure variant relationships and complicate database searches. We propose here a unified nomenclature for variants of all five classes of histones that uses consistent but flexible naming conventions to produce names that are informative and readily searchable. The nomenclature builds on historical usage and incorporates phylogenetic relationships, which are strong predictors of structure and function. A key feature is the consistent use of punctuation to represent phylogenetic divergence, making explicit the relationships among variant subtypes that have previously been implicit or unclear. We recommend that by default new histone variants be named with organism-specific paralog-number suffixes that lack phylogenetic implication, while letter suffixes be reserved for structurally distinct clades of variants. For clarity and searchability, we encourage the use of descriptors that are separate from the phylogeny-based variant name to indicate developmental and other properties of variants that may be independent of structure.

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John R. Pehrson

Formation of MacroH2A-Containing Senescence-Associated Heterochromatin Foci and Senescence Driven by ASF1a and HIRA

Histone macroH2A1 is concentrated in the inactive X chromosome of female mammals

Conditional deletion of Xist disrupts histone macroH2A localization but not maintenance of X inactivation

MacroH2A, a Core Histone Containing a Large Nonhistone Region

A unified phylogeny-based nomenclature for histone variants

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