Literature DB >> 23916969

Double strand break repair functions of histone H2AX.

Ralph Scully1, Anyong Xie.   

Abstract

Chromosomal double strand breaks provoke an extensive reaction in neighboring chromatin, characterized by phosphorylation of histone H2AX on serine 139 of its C-terminal tail (to form "γH2AX"). The γH2AX response contributes to the repair of double strand breaks encountered in a variety of different contexts, including those induced by ionizing radiation, physiologically programmed breaks that characterize normal immune cell development and the pathological exposure of DNA ends triggered by telomere dysfunction. γH2AX also participates in the evolutionarily conserved process of sister chromatid recombination, a homologous recombination pathway involved in the suppression of genomic instability during DNA replication and directly implicated in tumor suppression. At a biochemical level, the γH2AX response provides a compelling example of how the "histone code" is adapted to the regulation of double strand break repair. Here, we review progress in research aimed at understanding how γH2AX contributes to double strand break repair in mammalian cells.
Copyright © 2013 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  53BP1; BRCA1; H2AX; Histone code; Homologous recombination; MDC1; Mammalian DSB repair; Mre11/Rad50/Nbs1; Non-homologous end joining; Single strand annealing

Mesh:

Substances:

Year:  2013        PMID: 23916969      PMCID: PMC3818383          DOI: 10.1016/j.mrfmmm.2013.07.007

Source DB:  PubMed          Journal:  Mutat Res        ISSN: 0027-5107            Impact factor:   2.433


  152 in total

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Review 2.  Playing the end game: DNA double-strand break repair pathway choice.

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Journal:  Cell       Date:  2012-09-14       Impact factor: 41.582

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Journal:  J Biol Chem       Date:  1998-03-06       Impact factor: 5.157

Review 5.  Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae.

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Journal:  Annu Rev Genet       Date:  2012       Impact factor: 16.830

8.  The tumor suppressor gene Brca1 is required for embryonic cellular proliferation in the mouse.

Authors:  R Hakem; J L de la Pompa; C Sirard; R Mo; M Woo; A Hakem; A Wakeham; J Potter; A Reitmair; F Billia; E Firpo; C C Hui; J Roberts; J Rossant; T W Mak
Journal:  Cell       Date:  1996-06-28       Impact factor: 41.582

9.  BRCA1-associated exclusion of 53BP1 from DNA damage sites underlies temporal control of DNA repair.

Authors:  J Ross Chapman; Alex J Sossick; Simon J Boulton; Stephen P Jackson
Journal:  J Cell Sci       Date:  2012-05-02       Impact factor: 5.285

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Authors:  E P Rogakou; C Boon; C Redon; W M Bonner
Journal:  J Cell Biol       Date:  1999-09-06       Impact factor: 10.539
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  88 in total

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2.  A small ubiquitin binding domain inhibits ubiquitin-dependent protein recruitment to DNA repair foci.

Authors:  Corey M Helchowski; Laura F Skow; Katelyn H Roberts; Colleen L Chute; Christine E Canman
Journal:  Cell Cycle       Date:  2013-10-03       Impact factor: 4.534

Review 3.  Preserving genome integrity and function: the DNA damage response and histone modifications.

Authors:  Jae Jin Kim; Seo Yun Lee; Kyle M Miller
Journal:  Crit Rev Biochem Mol Biol       Date:  2019-06-04       Impact factor: 8.250

4.  Functional Redundancy of Variant and Canonical Histone H3 Lysine 9 Modification in Drosophila.

Authors:  Taylor J R Penke; Daniel J McKay; Brian D Strahl; A Gregory Matera; Robert J Duronio
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5.  Cellular HIV-1 inhibition by truncated old world primate APOBEC3A proteins lacking a complete deaminase domain.

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Journal:  Virology       Date:  2014-09-28       Impact factor: 3.616

6.  ATDC (Ataxia Telangiectasia Group D Complementing) Promotes Radioresistance through an Interaction with the RNF8 Ubiquitin Ligase.

Authors:  Huibin Yang; Phillip L Palmbos; Lidong Wang; Evelyn H Kim; Gina M Ney; Chao Liu; Jayendra Prasad; David E Misek; Xiaochun Yu; Mats Ljungman; Diane M Simeone
Journal:  J Biol Chem       Date:  2015-09-17       Impact factor: 5.157

Review 7.  Emerging metrology for high-throughput nanomaterial genotoxicology.

Authors:  Bryant C Nelson; Christa W Wright; Yuko Ibuki; Maria Moreno-Villanueva; Hanna L Karlsson; Giel Hendriks; Christopher M Sims; Neenu Singh; Shareen H Doak
Journal:  Mutagenesis       Date:  2016-08-26       Impact factor: 3.000

Review 8.  Long-term effects of chromatin remodeling and DNA damage in stem cells induced by environmental and dietary agents.

Authors:  Bhawana Bariar; C Greer Vestal; Christine Richardson
Journal:  J Environ Pathol Toxicol Oncol       Date:  2013       Impact factor: 3.567

Review 9.  PALB2: the hub of a network of tumor suppressors involved in DNA damage responses.

Authors:  Jung-Young Park; Fan Zhang; Paul R Andreassen
Journal:  Biochim Biophys Acta       Date:  2014-07-03

10.  Coordinated Regulation of TIP60 and Poly(ADP-Ribose) Polymerase 1 in Damaged-Chromatin Dynamics.

Authors:  Masae Ikura; Kanji Furuya; Atsuhiko Fukuto; Ryo Matsuda; Jun Adachi; Tomonari Matsuda; Akira Kakizuka; Tsuyoshi Ikura
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