From DNA structure to gene expression: mediators of nuclear compartmentalization and dynamics

被引:0
|
作者
J. Bode
S. Goetze
H. Heng
S. A. Krawetz
C. Benham
机构
[1] GBF–German Research Center for Biotechnology/Epigenetic Regulation,Department of Pathology, Karmanos Cancer Institute
[2] Center for Molecular Medicine and Genetics,Obstetrics & Gynecology
[3] Wayne State University School of Medicine,undefined
[4] Institute for Scientific Computing,undefined
[5] UC Davis Genome Center,undefined
来源
Chromosome Research | 2003年 / 11卷
关键词
chromatin; DNA structure; fluorescence; gene expression; hybridization; lamins; nuclear matrix; nucleosome;
D O I
暂无
中图分类号
学科分类号
摘要
Eukaryotic genomes are functionally compartmentalized into chromatin domains by their attachment to a supporting structure that has traditionally been termed the nuclear matrix. Present evidence indicates the dynamics of this entity, which requires particular properties of the elements that mediate this kind of interaction. Above all, this is enabled by the so-called 'mass binding phenomenon' by which scaffold/matrix-attachment regions (S/MARs) reversibly associate with ubiquitous factors. Recent investigations and novel techniques have shown that these contacts can be altered by modulators as well as by specific interactions with the components of enhancers and locus control regions.
引用
收藏
页码:435 / 445
页数:10
相关论文
共 50 条
  • [31] Neuronal DNA Methyltransferases: Epigenetic Mediators between Synaptic Activity and Gene Expression?
    Bayraktar, Gonca
    Kreutz, Michael R.
    NEUROSCIENTIST, 2018, 24 (02): : 171 - 185
  • [32] Recombinational DNA repair is regulated by compartmentalization of DNA lesions at the nuclear pore complex
    Geli, Vincent
    Lisby, Michael
    BIOESSAYS, 2015, 37 (12) : 1287 - 1292
  • [33] Nuclear-mitochondrial crosstalk regulate nuclear DNA methylation and gene expression
    Vivian, C. J.
    Brinker, A. E.
    Gooden, G. C.
    Legendre, C.
    Turpin, S.
    Graw, S.
    Koestler, D. C.
    Salhia, B.
    Welch, D. R.
    CLINICAL & EXPERIMENTAL METASTASIS, 2017, 34 (3-4) : 227 - 227
  • [34] Nuclear structure-gene expression interrelationships: Implications for aberrant gene expression in cancer
    Stein, GS
    Montecino, M
    van Wijnen, AJ
    Stein, JL
    Lian, JB
    CANCER RESEARCH, 2000, 60 (08) : 2067 - 2076
  • [35] Structure and expression of the orphan nuclear receptor SHP gene
    Lee, HK
    Lee, YK
    Park, SH
    Kim, YS
    Park, SH
    Lee, JW
    Kwon, HB
    Soh, J
    Moore, DD
    Choi, HS
    JOURNAL OF BIOLOGICAL CHEMISTRY, 1998, 273 (23) : 14398 - 14402
  • [36] Nuclear delivery of plasmid DNA determines the efficiency of gene expression
    Liu, Hui
    Yang, Zhen
    Xun, Zhe
    Gao, Zihao
    Sun, Yanping
    Yu, Jiankun
    Yang, Tianzhi
    Zhao, Xiaoyun
    Cai, Cuifang
    Ding, Pingtian
    CELL BIOLOGY INTERNATIONAL, 2019, 43 (07) : 789 - 798
  • [37] Genomic interactions: Gene expression, DNA methylation and nuclear architecture
    Neves, N
    Castilho, A
    Silva, M
    HeslopHarrison, JS
    Viegas, W
    CHROMOSOMES TODAY, VOL 12, 1997, 12 : 182 - 200
  • [38] Mitochondrial DNA mutations distinctively alter nuclear gene expression
    Jahangir, R
    Svensson, P
    Janssen, G
    Szuhai, K
    Maassen, JA
    Raap, A
    BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS, 2004, 1657 : 82 - 82
  • [39] Dynamics and interplay of nuclear architecture, genome organization, and gene expression
    Schneider, Robert
    Grosschedl, Rudolf
    GENES & DEVELOPMENT, 2007, 21 (23) : 3027 - 3043
  • [40] Are multiple checkpoint mediators involved in a checkpoint linking histone gene expression with DNA replication?
    Mijiler, B.
    Blackburn, J.
    Feijoo, C.
    Zhao, X.
    Smythe, C.
    BIOCHEMICAL SOCIETY TRANSACTIONS, 2007, 35 : 1369 - 1371
12345