An inverse relationship to germline transcription defines centromeric chromatin in C. elegans

被引:0
|
作者
Reto Gassmann
Andreas Rechtsteiner
Karen W. Yuen
Andrew Muroyama
Thea Egelhofer
Laura Gaydos
Francie Barron
Paul Maddox
Anthony Essex
Joost Monen
Sevinc Ercan
Jason D. Lieb
Karen Oegema
Susan Strome
Arshad Desai
机构
[1] Ludwig Institute for Cancer Research and Department of Cellular & Molecular Medicine University of California San Diego,Department of Molecular Cell and Developmental Biology
[2] University of California Santa Cruz,Department of Biology
[3] Carolina Center for Genome Sciences and Lineberger Comprehensive Cancer Center,undefined
[4] University of North Carolina at Chapel Hill,undefined
[5] Present addresses: School of Biological Sciences,undefined
[6] the University of Hong Kong,undefined
[7] Pokfulam,undefined
[8] Hong Kong (K.W.Y.); Department of Craniofacial Biology,undefined
[9] University of Colorado,undefined
[10] Health Sciences Center,undefined
[11] Aurora,undefined
[12] Colorado 80045,undefined
[13] USA (F.B.); Institute for Research in Immunology and Cancer,undefined
[14] Department of Pathology and Cell Biology,undefined
[15] University of Montreal,undefined
[16] Montreal,undefined
[17] Quebec H3C 3J7,undefined
[18] Canada (P.M.); The Salk Institute for Biological Studies,undefined
[19] San Diego,undefined
[20] California 92186,undefined
[21] USA (A.E.); Department of Neurobiology and Behavior,undefined
[22] Cornell University,undefined
[23] Ithaca,undefined
[24] New York 14853,undefined
[25] USA (J.M.).,undefined
来源
Nature | 2012年 / 484卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Centromere identity is thought to be epigenetically propagated by stable inheritance of nucleosomes containing the histone variant CENP-A; the authors propose a different model here in which germline transcription defines the genomic regions that exclude CENP-A incorporation during embryogenesis in the holocentric worm Caenorhabditis elegans.
引用
收藏
页码:534 / 537
页数:3
相关论文
共 50 条
  • [21] The N-terminal tail of C. elegans CENP-A interacts with KNL-2 and is essential for centromeric chromatin assembly
    de Groot, Christian
    Houston, Jack
    Davis, Bethany
    Gerson-Gurwitz, Adina
    Monen, Joost
    Lara-Gonzalez, Pablo
    Oegema, Karen
    Shiau, Andrew K.
    Desai, Arshad
    MOLECULAR BIOLOGY OF THE CELL, 2021, 32 (12) : 1193 - 1201
  • [22] Transmission of chromatin states across generations in C. elegans
    Ozdemir, Isa
    Steiner, Florian A.
    SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY, 2022, 127 : 133 - 141
  • [23] Construction of a germline-specific RNAi tool in C. elegans
    Lina Zou
    Di Wu
    Xiao Zang
    Zi Wang
    Zixing Wu
    Di Chen
    Scientific Reports, 9
  • [24] A Lysosomal Switch Renews Germline Proteostasis in C. elegans.
    Bohnert, A.
    Kenyon, C.
    MOLECULAR BIOLOGY OF THE CELL, 2016, 27
  • [25] Lower expression of genes near microRNA in C. elegans germline
    Hidenori Inaoka
    Yutaka Fukuoka
    Isaac S Kohane
    BMC Bioinformatics, 7
  • [26] Mechanistic insights into the action of Bisphenol A on the germline using C. elegans
    Allard, Patrick
    Colaiacovo, Monica P.
    CELL CYCLE, 2011, 10 (02) : 183 - 184
  • [27] Germline stem cells and sexual identity in C. elegans adults
    Morgan, Dyan E.
    Crittenden, Sarah L.
    Kimble, Judith
    DEVELOPMENTAL BIOLOGY, 2010, 344 (01) : 414 - 414
  • [28] Quantification of centromeric protein dynamics during early embryogenesis of C. elegans.
    Smith, L.
    Barnhardt, C. A.
    Maddox, P. S.
    MOLECULAR BIOLOGY OF THE CELL, 2016, 27
  • [29] Identification of DNA elements governing chromatin function in C. elegans
    Lieb, Jason D.
    CHROMOSOME RESEARCH, 2007, 15 : 65 - 65
  • [30] Role of LOTUS-domain proteins in C. elegans germline development
    Pillai, B. Radhakrishna
    Czermak, P.
    Bindics, J.
    Saha, S.
    MOLECULAR BIOLOGY OF THE CELL, 2023, 34 (02) : 1221 - 1221
12345