Hyperacetylated chromatin domains: Lessons from heterochromatin

被引:40
作者
Bulger, M
机构
[1] Univ Rochester, Ctr Pediat Biomed Res, Rochester, NY 14642 USA
[2] Univ Rochester, Dept Biochem & Biophys, Rochester, NY 14642 USA
来源
JOURNAL OF BIOLOGICAL CHEMISTRY | 2005年 / 280卷 / 23期
关键词
D O I
10.1074/jbc.R500004200
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
A small but growing number of loci that exhibit covalent histone modifications, such as hyperacetylation, over broad regions of 10 kb or more have been characterized. These hyperacetylated domains occur exclusively at loci containing highly expressed, tissue-specific genes, and the available evidence suggests that they are involved in the activation of these genes. Although to date little is known concerning the formation or function of these domains, rather more is known concerning repressive, heterochromatic domains, and the example provided by heterochromatin may be instructive in considering mechanisms of active domain formation.
引用
收藏
页码:21689 / 21692
页数:4
相关论文
共 53 条
  • [1] Epigenetic gene regulation by noncoding RNAs
    Andersen, AA
    Panning, B
    [J]. CURRENT OPINION IN CELL BIOLOGY, 2003, 15 (03) : 281 - 289
  • [2] Identification of a conserved erythroid specific domain of histone acetylation across the α-globin gene cluster
    Anguita, E
    Johnson, CA
    Wood, WG
    Turner, BM
    Higgs, DR
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2001, 98 (21) : 12114 - 12119
  • [3] Intergenic transcription and transinduction of the human beta-globin locus
    Ashe, HL
    Monks, J
    Wijgerde, M
    Fraser, P
    Proudfoot, NJ
    [J]. GENES & DEVELOPMENT, 1997, 11 (19) : 2494 - 2509
  • [4] Genomic maps and comparative analysis of histone modifications in human and mouse
    Bernstein, BE
    Kamal, M
    Lindblad-Toh, K
    Bekiranov, S
    Bailey, DK
    Huebert, DJ
    McMahon, S
    Karlsson, EK
    Kulbokas, EJ
    Gingeras, TR
    Schreiber, SL
    Lander, ES
    [J]. CELL, 2005, 120 (02) : 169 - 181
  • [5] Formation of boundaries of transcriptionally silent chromatin by nucleosome-excluding structures
    Bi, X
    Yu, Q
    Sandmeier, JJ
    Zou, YF
    [J]. MOLECULAR AND CELLULAR BIOLOGY, 2004, 24 (05) : 2118 - 2131
  • [6] Chromosomal boundaries in S-cerevisiae
    Bi, X
    Broach, JR
    [J]. CURRENT OPINION IN GENETICS & DEVELOPMENT, 2001, 11 (02) : 199 - 204
  • [7] Antisense intergenic transcription in V(D)J recombination
    Bolland, DJ
    Wood, AL
    Johnston, CM
    Bunting, SF
    Morgan, G
    Chakalova, L
    Fraser, PJ
    Corcoran, AE
    [J]. NATURE IMMUNOLOGY, 2004, 5 (06) : 630 - 637
  • [8] A complex chromatin landscape revealed by patterns of nuclease sensitivity and histone modification within the mouse β-globin locus
    Bulger, M
    Schübeler, D
    Bender, MA
    Hamilton, J
    Farrell, CM
    Hardison, RC
    Groudine, M
    [J]. MOLECULAR AND CELLULAR BIOLOGY, 2003, 23 (15) : 5234 - 5244
  • [9] Mechanism of transcriptional silencing in yeast
    Chen, LY
    Widom, J
    [J]. CELL, 2005, 120 (01) : 37 - 48
  • [10] Stepwise activation of the immunoglobulin μ heavy chain gene locus
    Chowdhury, D
    Sen, R
    [J]. EMBO JOURNAL, 2001, 20 (22) : 6394 - 6403
123456