Literature DB >> 20118936

Schizosaccharomyces pombe genome-wide nucleosome mapping reveals positioning mechanisms distinct from those of Saccharomyces cerevisiae.

Alexandra B Lantermann1, Tobias Straub, Annelie Strålfors, Guo-Cheng Yuan, Karl Ekwall, Philipp Korber.   

Abstract

Positioned nucleosomes limit the access of proteins to DNA and implement regulatory features encoded in eukaryotic genomes. Here we have generated the first genome-wide nucleosome positioning map for Schizosaccharomyces pombe and annotated transcription start and termination sites genome wide. Using this resource, we found surprising differences from the previously published nucleosome organization of the distantly related yeast Saccharomyces cerevisiae. DNA sequence guides nucleosome positioning differently: for example, poly(dA-dT) elements are not enriched in S. pombe nucleosome-depleted regions. Regular nucleosomal arrays emanate more asymmetrically-mainly codirectionally with transcription-from promoter nucleosome-depleted regions, but promoters harboring the histone variant H2A.Z also show regular arrays upstream of these regions. Regular nucleosome phasing in S. pombe has a very short repeat length of 154 base pairs and requires a remodeler, Mit1, that is conserved in humans but is not found in S. cerevisiae. Nucleosome positioning mechanisms are evidently not universal but evolutionarily plastic.

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Year:  2010        PMID: 20118936     DOI: 10.1038/nsmb.1741

Source DB:  PubMed          Journal:  Nat Struct Mol Biol        ISSN: 1545-9985            Impact factor:   15.369


  55 in total

1.  Genome-scale identification of nucleosome positions in S. cerevisiae.

Authors:  Guo-Cheng Yuan; Yuen-Jong Liu; Michael F Dion; Michael D Slack; Lani F Wu; Steven J Altschuler; Oliver J Rando
Journal:  Science       Date:  2005-06-16       Impact factor: 47.728

2.  Targeted recruitment of histone modifications in humans predicted by genomic sequences.

Authors:  Guo-Cheng Yuan
Journal:  J Comput Biol       Date:  2009-02       Impact factor: 1.479

3.  Statistical distributions of nucleosomes: nonrandom locations by a stochastic mechanism.

Authors:  R D Kornberg; L Stryer
Journal:  Nucleic Acids Res       Date:  1988-07-25       Impact factor: 16.971

4.  Nucleosome positions predicted through comparative genomics.

Authors:  Ilya P Ioshikhes; Istvan Albert; Sara J Zanton; B Franklin Pugh
Journal:  Nat Genet       Date:  2006-09-10       Impact factor: 38.330

5.  A high-resolution atlas of nucleosome occupancy in yeast.

Authors:  William Lee; Desiree Tillo; Nicolas Bray; Randall H Morse; Ronald W Davis; Timothy R Hughes; Corey Nislow
Journal:  Nat Genet       Date:  2007-09-16       Impact factor: 38.330

6.  Nucleosome organization in the Drosophila genome.

Authors:  Travis N Mavrich; Cizhong Jiang; Ilya P Ioshikhes; Xiaoyong Li; Bryan J Venters; Sara J Zanton; Lynn P Tomsho; Ji Qi; Robert L Glaser; Stephan C Schuster; David S Gilmour; Istvan Albert; B Franklin Pugh
Journal:  Nature       Date:  2008-04-13       Impact factor: 49.962

7.  Variant histone H2A.Z is globally localized to the promoters of inactive yeast genes and regulates nucleosome positioning.

Authors:  Benoît Guillemette; Alain R Bataille; Nicolas Gévry; Maryse Adam; Mathieu Blanchette; François Robert; Luc Gaudreau
Journal:  PLoS Biol       Date:  2005-11-01       Impact factor: 8.029

8.  The Schizosaccharomyces pombe JmjC-protein, Msc1, prevents H2A.Z localization in centromeric and subtelomeric chromatin domains.

Authors:  Luke Buchanan; Mickaël Durand-Dubief; Assen Roguev; Cagri Sakalar; Brian Wilhelm; Annelie Strålfors; Anna Shevchenko; Rein Aasland; Andrej Shevchenko; Karl Ekwall; A Francis Stewart
Journal:  PLoS Genet       Date:  2009-11-13       Impact factor: 5.917

9.  Species specific protein--DNA interactions may determine the chromatin units of genes in S.cerevisiae and in S.pombe.

Authors:  F Bernardi; M Zatchej; F Thoma
Journal:  EMBO J       Date:  1992-03       Impact factor: 11.598

10.  Dynamic remodeling of individual nucleosomes across a eukaryotic genome in response to transcriptional perturbation.

Authors:  Sushma Shivaswamy; Akshay Bhinge; Yongjun Zhao; Steven Jones; Martin Hirst; Vishwanath R Iyer
Journal:  PLoS Biol       Date:  2008-03-18       Impact factor: 8.029
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  127 in total

1.  Comparative functional genomics of the fission yeasts.

Authors:  Nicholas Rhind; Zehua Chen; Moran Yassour; Dawn A Thompson; Brian J Haas; Naomi Habib; Ilan Wapinski; Sushmita Roy; Michael F Lin; David I Heiman; Sarah K Young; Kanji Furuya; Yabin Guo; Alison Pidoux; Huei Mei Chen; Barbara Robbertse; Jonathan M Goldberg; Keita Aoki; Elizabeth H Bayne; Aaron M Berlin; Christopher A Desjardins; Edward Dobbs; Livio Dukaj; Lin Fan; Michael G FitzGerald; Courtney French; Sharvari Gujja; Klavs Hansen; Dan Keifenheim; Joshua Z Levin; Rebecca A Mosher; Carolin A Müller; Jenna Pfiffner; Margaret Priest; Carsten Russ; Agata Smialowska; Peter Swoboda; Sean M Sykes; Matthew Vaughn; Sonya Vengrova; Ryan Yoder; Qiandong Zeng; Robin Allshire; David Baulcombe; Bruce W Birren; William Brown; Karl Ekwall; Manolis Kellis; Janet Leatherwood; Henry Levin; Hanah Margalit; Rob Martienssen; Conrad A Nieduszynski; Joseph W Spatafora; Nir Friedman; Jacob Z Dalgaard; Peter Baumann; Hironori Niki; Aviv Regev; Chad Nusbaum
Journal:  Science       Date:  2011-04-21       Impact factor: 47.728

Review 2.  Toward convergence of experimental studies and theoretical modeling of the chromatin fiber.

Authors:  Tamar Schlick; Jeff Hayes; Sergei Grigoryev
Journal:  J Biol Chem       Date:  2011-12-07       Impact factor: 5.157

3.  Short nucleosome repeats impose rotational modulations on chromatin fibre folding.

Authors:  Sarah J Correll; Michaela H Schubert; Sergei A Grigoryev
Journal:  EMBO J       Date:  2012-03-30       Impact factor: 11.598

4.  Specific replication origins promote DNA amplification in fission yeast.

Authors:  Lee Kiang; Christian Heichinger; Stephen Watt; Jürg Bähler; Paul Nurse
Journal:  J Cell Sci       Date:  2010-08-24       Impact factor: 5.285

Review 5.  Regulation of DNA replication by chromatin structures: accessibility and recruitment.

Authors:  Makoto T Hayashi; Hisao Masukata
Journal:  Chromosoma       Date:  2010-08-03       Impact factor: 4.316

6.  Deconvolution of chromatin immunoprecipitation-microarray (ChIP-chip) analysis of MBF occupancies reveals the temporal recruitment of Rep2 at the MBF target genes.

Authors:  Majid Eshaghi; Lei Zhu; Zhaoqing Chu; Juntao Li; Chee Seng Chan; Atif Shahab; R Krishna M Karuturi; Jianhua Liu
Journal:  Eukaryot Cell       Date:  2010-11-12

7.  Schizosaccharomyces pombe Hat1 (Kat1) is associated with Mis16 and is required for telomeric silencing.

Authors:  Kevin Tong; Thomas Keller; Charles S Hoffman; Anthony T Annunziato
Journal:  Eukaryot Cell       Date:  2012-07-06

8.  Regulation of Ace2-dependent genes requires components of the PBF complex in Schizosaccharomyces pombe.

Authors:  M Belén Suárez; María Luisa Alonso-Nuñez; Francisco del Rey; Christopher J McInerny; Carlos R Vázquez de Aldana
Journal:  Cell Cycle       Date:  2015-08-03       Impact factor: 4.534

9.  Genome-wide identification and characterization of replication origins by deep sequencing.

Authors:  Jia Xu; Yoshimi Yanagisawa; Alexander M Tsankov; Christopher Hart; Keita Aoki; Naveen Kommajosyula; Kathleen E Steinmann; James Bochicchio; Carsten Russ; Aviv Regev; Oliver J Rando; Chad Nusbaum; Hironori Niki; Patrice Milos; Zhiping Weng; Nicholas Rhind
Journal:  Genome Biol       Date:  2012-04-24       Impact factor: 13.583

10.  Chromosome segregation and organization are targets of 5'-Fluorouracil in eukaryotic cells.

Authors:  Laura Mojardín; Javier Botet; Sergio Moreno; Margarita Salas
Journal:  Cell Cycle       Date:  2015       Impact factor: 4.534
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