Literature DB >> 18339542

ATP-dependent chromatin remodeling enzymes: two heads are not better, just different.

Lisa R Racki1, Geeta J Narlikar.   

Abstract

ATP-dependent chromatin remodeling complexes enable rapid rearrangements in chromatin structure in response to developmental cues. The ATPase subunits of remodeling complexes share homology with the helicase motifs of DExx box helicases. Recent single-molecule experiments indicate that, like helicases, many of these complexes use ATP to translocate on DNA. Despite sharing this fundamental property, two key classes of remodeling complexes, the ISWI class and the SWI/SNF class, generate distinct remodeled products. SWI/SNF complexes generate nucleosomes with altered positions, nucleosomes with DNA loops and nucleosomes that are capable of exchanging histone dimers or octamers. In contrast, ISWI complexes generate nucleosomes with altered positions but in standard structures. Here, we draw analogies to monomeric and dimeric helicases and propose that ISWI and SWI/SNF complexes catalyze different outcomes in part because some ISWI complexes function as dimers while SWI/SNF complexes function as monomers.

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Year:  2008        PMID: 18339542      PMCID: PMC2494867          DOI: 10.1016/j.gde.2008.01.007

Source DB:  PubMed          Journal:  Curr Opin Genet Dev        ISSN: 0959-437X            Impact factor:   5.578


  43 in total

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2.  Rapid spontaneous accessibility of nucleosomal DNA.

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3.  Structural studies of the human PBAF chromatin-remodeling complex.

Authors:  Andres E Leschziner; Bryan Lemon; Robert Tjian; Eva Nogales
Journal:  Structure       Date:  2005-02       Impact factor: 5.006

4.  Structure of the SWI2/SNF2 chromatin-remodeling domain of eukaryotic Rad54.

Authors:  Nicolas H Thomä; Bryan K Czyzewski; Andrei A Alexeev; Alexander V Mazin; Stephen C Kowalczykowski; Nikola P Pavletich
Journal:  Nat Struct Mol Biol       Date:  2005-04-03       Impact factor: 15.369

5.  X-ray structures of the Sulfolobus solfataricus SWI2/SNF2 ATPase core and its complex with DNA.

Authors:  Harald Dürr; Christian Körner; Marisa Müller; Volker Hickmann; Karl-Peter Hopfner
Journal:  Cell       Date:  2005-05-06       Impact factor: 41.582

Review 6.  Chromatin remodeling complexes: strength in diversity, precision through specialization.

Authors:  Bradley R Cairns
Journal:  Curr Opin Genet Dev       Date:  2005-04       Impact factor: 5.578

7.  Autoinhibition of Escherichia coli Rep monomer helicase activity by its 2B subdomain.

Authors:  Katherine M Brendza; Wei Cheng; Christopher J Fischer; Marla A Chesnik; Anita Niedziela-Majka; Timothy M Lohman
Journal:  Proc Natl Acad Sci U S A       Date:  2005-07-11       Impact factor: 11.205

8.  A 'loop recapture' mechanism for ACF-dependent nucleosome remodeling.

Authors:  Ralf Strohner; Malte Wachsmuth; Karoline Dachauer; Jacek Mazurkiewicz; Julia Hochstatter; Karsten Rippe; Gernot Längst
Journal:  Nat Struct Mol Biol       Date:  2005-07-17       Impact factor: 15.369

Review 9.  Noncovalent modification of chromatin: different remodeled products with different ATPase domains.

Authors:  H-Y Fan; G J Narlikar; R E Kingston
Journal:  Cold Spring Harb Symp Quant Biol       Date:  2004

10.  Swapping function of two chromatin remodeling complexes.

Authors:  Hua-Ying Fan; Kevin W Trotter; Trevor K Archer; Robert E Kingston
Journal:  Mol Cell       Date:  2005-03-18       Impact factor: 17.970
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  49 in total

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Review 2.  Nucleosome remodeling and epigenetics.

Authors:  Peter B Becker; Jerry L Workman
Journal:  Cold Spring Harb Perspect Biol       Date:  2013-09-01       Impact factor: 10.005

3.  Micron-scale coherence in interphase chromatin dynamics.

Authors:  Alexandra Zidovska; David A Weitz; Timothy J Mitchison
Journal:  Proc Natl Acad Sci U S A       Date:  2013-09-09       Impact factor: 11.205

4.  The ISWI-containing NURF complex regulates the output of the canonical Wingless pathway.

Authors:  Haiyun Song; Chloe Spichiger-Haeusermann; Konrad Basler
Journal:  EMBO Rep       Date:  2009-08-28       Impact factor: 8.807

5.  SET domains of histone methyltransferases recognize ISWI-remodeled nucleosomal species.

Authors:  Wladyslaw A Krajewski; Joseph C Reese
Journal:  Mol Cell Biol       Date:  2009-09-14       Impact factor: 4.272

6.  Identification of SNF2h, a chromatin-remodeling factor, as a novel binding protein of Vpr of human immunodeficiency virus type 1.

Authors:  Daiki Taneichi; Kenta Iijima; Akihiro Doi; Takayoshi Koyama; Yuzuru Minemoto; Kenzo Tokunaga; Mari Shimura; Shigeyuki Kano; Yukihito Ishizaka
Journal:  J Neuroimmune Pharmacol       Date:  2011-04-26       Impact factor: 4.147

7.  Quantitative nuclear proteomics identifies mTOR regulation of DNA damage response.

Authors:  Sricharan Bandhakavi; Young-Mi Kim; Seung-Hyun Ro; Hongwei Xie; Getiria Onsongo; Chang-Bong Jun; Do-Hyung Kim; Timothy J Griffin
Journal:  Mol Cell Proteomics       Date:  2009-11-23       Impact factor: 5.911

8.  Analysis of individual remodeled nucleosomes reveals decreased histone-DNA contacts created by hSWI/SNF.

Authors:  Karim Bouazoune; Tina B Miranda; Peter A Jones; Robert E Kingston
Journal:  Nucleic Acids Res       Date:  2009-06-30       Impact factor: 16.971

9.  In vitro nuclear interactome of the HIV-1 Tat protein.

Authors:  Virginie W Gautier; Lili Gu; Niaobh O'Donoghue; Stephen Pennington; Noreen Sheehy; William W Hall
Journal:  Retrovirology       Date:  2009-05-19       Impact factor: 4.602

10.  Predicting nucleosome positions on the DNA: combining intrinsic sequence preferences and remodeler activities.

Authors:  Vladimir B Teif; Karsten Rippe
Journal:  Nucleic Acids Res       Date:  2009-07-22       Impact factor: 16.971
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