Rudimentary G-quadruplex–based telomere capping in Saccharomyces cerevisiae

被引:0
|
作者
Jasmine S Smith
Qijun Chen
Liliya A Yatsunyk
John M Nicoludis
Mark S Garcia
Ramon Kranaster
Shankar Balasubramanian
David Monchaud
Marie-Paule Teulade-Fichou
Lara Abramowitz
David C Schultz
F Brad Johnson
机构
[1] University of Pennsylvania School of Medicine,Department of Pathology and Laboratory Medicine
[2] Cell and Molecular Biology Group,Department of Chemistry and Biochemistry
[3] Biomedical Graduate Studies,Department of Chemistry
[4] University of Pennsylvania School of Medicine,undefined
[5] Swarthmore College,undefined
[6] University of Cambridge,undefined
[7] School of Clinical Medicine,undefined
[8] University of Cambridge,undefined
[9] Cancer Research UK,undefined
[10] Cambridge Research Institute,undefined
[11] Li Ka Shing Centre,undefined
[12] Institut Curie,undefined
[13] Section de Recherche,undefined
[14] Centre National de la Recherche Scientifique,undefined
[15] UMR176,undefined
[16] Centre Universitaire Paris XI,undefined
[17] Protein Expression,undefined
[18] Libraries and Molecular Screening Facility,undefined
[19] The Wistar Institute,undefined
来源
Nature Structural & Molecular Biology | 2011年 / 18卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Telomere capping is essential for genomic integrity. In yeast, a capping complex containing protein Cdc13 protects telomeres from degradation and from the DNA damage repair system. Yeast telomeric repeats can form G-quadruplexes, whose potential capping role is now revealed using Cdc13-impaired strains.
引用
收藏
页码:478 / 485
页数:7
相关论文
共 50 条
  • [41] Interaction of water with the G-quadruplex loop contributes to the binding energy of G-quadruplex to protein
    Nagatoishi, Satoru
    Sugimoto, Naoki
    MOLECULAR BIOSYSTEMS, 2012, 8 (10) : 2766 - 2770
  • [42] Detection of CpG Methylation in G-Quadruplex Forming Sequences Using G-Quadruplex Ligands
    Hasegawa, Hijiri
    Sasaki, Ikkei
    Tsukakoshi, Kaori
    Ma, Yue
    Nagasawa, Kazuo
    Numata, Shusuke
    Inoue, Yuuki
    Kim, Yeji
    Ikebukuro, Kazunori
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2021, 22 (23)
  • [43] Characteristic Interactions between BRCA2 and G-Quadruplex Structures for Telomere Maintenance
    Sung, Keewon
    Lee, Junyeop
    Joo, So Young
    Lee, Hyunsook
    Kim, Seong Keun
    BIOPHYSICAL JOURNAL, 2020, 118 (03) : 75A - 75A
  • [44] G-quadruplex telomere targeting agents sensitize cancer cells to cis-platinum
    Neidle, Stephen
    Gunaratnam, Mekala
    Greciano, Olga
    Martins, Cristina
    Kelland, Lloyd
    CANCER RESEARCH, 2006, 66 (08)
  • [45] Monitoring human telomere DNA hybridization and G-quadruplex formation using gold nanorods
    Gou, Xin-Chun
    Liu, Jun
    Zhang, Hao-Li
    ANALYTICA CHIMICA ACTA, 2010, 668 (02) : 208 - 214
  • [46] Polyethylene glycol binding alters human telomere G-quadruplex structure by conformational selection
    Buscaglia, Robert
    Miller, M. Clarke
    Dean, William L.
    Gray, Robert D.
    Lane, Andrew N.
    Trent, John O.
    Chaires, Jonathan B.
    NUCLEIC ACIDS RESEARCH, 2013, 41 (16) : 7934 - 7946
  • [47] Self-crowding influences the temperature - pressure stability of the human telomere G-quadruplex
    Somkuti, J.
    Adanyi, M.
    Smeller, L.
    BIOPHYSICAL CHEMISTRY, 2019, 254
  • [48] The four repeat Giardia lamblia telomere forms tetramolecular G-quadruplex with antiparallel topology
    Bansal, Aparna
    Kukreti, Shrikant
    JOURNAL OF BIOMOLECULAR STRUCTURE & DYNAMICS, 2020, 38 (07): : 1975 - 1983
  • [49] Telomere damage promotes antitumoral activity of the G-quadruplex ligand RHPS4
    Biroccio, A.
    Salvati, E.
    Leonetti, C.
    Rizzo, A.
    Scarsella, M.
    Mottolesel, M.
    StevenS, M.
    D'Incalci, M.
    Zupi, G.
    ANNALS OF ONCOLOGY, 2007, 18 : 34 - 35
  • [50] Naphthalene Diimides Carrying Two β-Cyclodextrins Prefer Telomere RNA G-Quadruplex Recognition
    Zou, Tingting
    Sato, Yuka
    Kaneyoshi, Shuma
    Mano, Kota
    Yasukawa, Rui
    Nakano, Yoshifumi
    Fujii, Satoshi
    Sato, Shinobu
    Takenaka, Shigeori
    MOLECULES, 2022, 27 (13):
12345