Literature DB >> 15902274

The macro domain is an ADP-ribose binding module.

Georgios I Karras1, Georg Kustatscher, Heeran R Buhecha, Mark D Allen, Céline Pugieux, Fiona Sait, Mark Bycroft, Andreas G Ladurner.   

Abstract

The ADP-ribosylation of proteins is an important post-translational modification that occurs in a variety of biological processes, including DNA repair, transcription, chromatin biology and long-term memory formation. Yet no protein modules are known that specifically recognize the ADP-ribose nucleotide. We provide biochemical and structural evidence that macro domains are high-affinity ADP-ribose binding modules. Our structural analysis reveals a conserved ligand binding pocket among the macro domain fold. Consistently, distinct human macro domains retain their ability to bind ADP-ribose. In addition, some macro domain proteins also recognize poly-ADP-ribose as a ligand. Our data suggest an important role for proteins containing macro domains in the biology of ADP-ribose.

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Year:  2005        PMID: 15902274      PMCID: PMC1142602          DOI: 10.1038/sj.emboj.7600664

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  68 in total

1.  Preparation of nucleosome core particle from recombinant histones.

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Journal:  Methods Enzymol       Date:  1999       Impact factor: 1.600

2.  Structure and function of a human TAFII250 double bromodomain module.

Authors:  R H Jacobson; A G Ladurner; D S King; R Tjian
Journal:  Science       Date:  2000-05-26       Impact factor: 47.728

3.  Loss of poly(ADP-ribose) glycohydrolase causes progressive neurodegeneration in Drosophila melanogaster.

Authors:  Shuji Hanai; Masayuki Kanai; Sayaka Ohashi; Keiji Okamoto; Mitsunori Yamada; Hitoshi Takahashi; Masanao Miwa
Journal:  Proc Natl Acad Sci U S A       Date:  2003-12-15       Impact factor: 11.205

4.  Long-term memory requires polyADP-ribosylation.

Authors:  Malka Cohen-Armon; Leonid Visochek; Ayelet Katzoff; David Levitan; Abraham J Susswein; Rodika Klein; Mireille Valbrun; James H Schwartz
Journal:  Science       Date:  2004-06-18       Impact factor: 47.728

5.  NAD+-dependent modulation of chromatin structure and transcription by nucleosome binding properties of PARP-1.

Authors:  Mi Young Kim; Steven Mauro; Nicolas Gévry; John T Lis; W Lee Kraus
Journal:  Cell       Date:  2004-12-17       Impact factor: 41.582

6.  The mechanism of the elongation and branching reaction of poly(ADP-ribose) polymerase as derived from crystal structures and mutagenesis.

Authors:  A Ruf; V Rolli; G de Murcia; G E Schulz
Journal:  J Mol Biol       Date:  1998-04-24       Impact factor: 5.469

7.  The structural basis for the recognition of acetylated histone H4 by the bromodomain of histone acetyltransferase gcn5p.

Authors:  D J Owen; P Ornaghi; J C Yang; N Lowe; P R Evans; P Ballario; D Neuhaus; P Filetici; A A Travers
Journal:  EMBO J       Date:  2000-11-15       Impact factor: 11.598

8.  Poly(ADP-ribose) polymerase at active centromeres and neocentromeres at metaphase.

Authors:  E Earle; A Saxena; A MacDonald; D F Hudson; L G Shaffer; R Saffery; M R Cancilla; S M Cutts; E Howman; K H Choo
Journal:  Hum Mol Genet       Date:  2000-01-22       Impact factor: 6.150

9.  Isolation and characterization of the cDNA encoding bovine poly(ADP-ribose) glycohydrolase.

Authors:  W Lin; J C Amé; N Aboul-Ela; E L Jacobson; M K Jacobson
Journal:  J Biol Chem       Date:  1997-05-02       Impact factor: 5.157

Review 10.  Functional aspects of protein mono-ADP-ribosylation.

Authors:  Daniela Corda; Maria Di Girolamo
Journal:  EMBO J       Date:  2003-05-01       Impact factor: 11.598
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  235 in total

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Journal:  Cell Cycle       Date:  2011-11-01       Impact factor: 4.534

Review 2.  Chromatin regulation and genome maintenance by mammalian SIRT6.

Authors:  Ruth I Tennen; Katrin F Chua
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Review 3.  The right place at the right time: chaperoning core histone variants.

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Journal:  EMBO Rep       Date:  2015-10-12       Impact factor: 8.807

4.  Structural characterization of the histone variant macroH2A.

Authors:  Srinivas Chakravarthy; Sampath Kumar Y Gundimella; Cecile Caron; Pierre-Yves Perche; John R Pehrson; Saadi Khochbin; Karolin Luger
Journal:  Mol Cell Biol       Date:  2005-09       Impact factor: 4.272

5.  The histone variant mH2A1.1 interferes with transcription by down-regulating PARP-1 enzymatic activity.

Authors:  Khalid Ouararhni; Réda Hadj-Slimane; Slimane Ait-Si-Ali; Philippe Robin; Flore Mietton; Annick Harel-Bellan; Stefan Dimitrov; Ali Hamiche
Journal:  Genes Dev       Date:  2006-12-01       Impact factor: 11.361

6.  Mechanism of polymerase II transcription repression by the histone variant macroH2A.

Authors:  Cécile-Marie Doyen; Woojin An; Dimitar Angelov; Vladimir Bondarenko; Flore Mietton; Vassily M Studitsky; Ali Hamiche; Robert G Roeder; Philippe Bouvet; Stefan Dimitrov
Journal:  Mol Cell Biol       Date:  2006-02       Impact factor: 4.272

7.  macroH2A1 histone variants are depleted on active genes but concentrated on the inactive X chromosome.

Authors:  Lakshmi N Changolkar; John R Pehrson
Journal:  Mol Cell Biol       Date:  2006-06       Impact factor: 4.272

8.  Molecular determinants of substrate specificity for Semliki Forest virus nonstructural protease.

Authors:  Aleksei Lulla; Valeria Lulla; Kairit Tints; Tero Ahola; Andres Merits
Journal:  J Virol       Date:  2006-06       Impact factor: 5.103

9.  Poly(ADP-ribose) contributes to an association between poly(ADP-ribose) polymerase-1 and xeroderma pigmentosum complementation group A in nucleotide excision repair.

Authors:  Brenee S King; Karen L Cooper; Ke Jian Liu; Laurie G Hudson
Journal:  J Biol Chem       Date:  2012-10-04       Impact factor: 5.157

10.  PARP-14, a member of the B aggressive lymphoma family, transduces survival signals in primary B cells.

Authors:  Sung Hoon Cho; Shreevrat Goenka; Tiina Henttinen; Prathyusha Gudapati; Arja Reinikainen; Christine M Eischen; Riitta Lahesmaa; Mark Boothby
Journal:  Blood       Date:  2009-01-15       Impact factor: 22.113
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