Literature DB >> 21565613

Establishment and maintenance of alternative chromatin states at a multicopy gene locus.

Manuel Wittner1, Stephan Hamperl, Ulrike Stöckl, Wolfgang Seufert, Herbert Tschochner, Philipp Milkereit, Joachim Griesenbeck.   

Abstract

In eukaryotes, each of the more than 100 copies of ribosomal RNA (rRNA) genes exists in either an RNA polymerase I transcribed open chromatin state or a nucleosomal, closed chromatin state. Open rRNA genes guarantee the cell's supply with structural components of the ribosome, whereas closed rRNA genes ensure genomic integrity. We report that the observed balance between open and closed rRNA gene chromatin states in proliferating yeast cells is due to a dynamic equilibrium of transcription-dependent removal and replication-dependent assembly of nucleosomes. Pol I transcription is required for the association of the HMG box protein Hmo1 with open rRNA genes, counteracting replication-independent nucleosome deposition and maintaining the open rRNA gene chromatin state outside of S phase. The findings indicate that the opposing effects of replication and transcription lead to a de novo establishment of chromatin states for rRNA genes during each cell cycle.
Copyright © 2011 Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21565613     DOI: 10.1016/j.cell.2011.03.051

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  36 in total

1.  DNA bridging and looping by HMO1 provides a mechanism for stabilizing nucleosome-free chromatin.

Authors:  Divakaran Murugesapillai; Micah J McCauley; Ran Huo; Molly H Nelson Holte; Armen Stepanyants; L James Maher; Nathan E Israeloff; Mark C Williams
Journal:  Nucleic Acids Res       Date:  2014-07-24       Impact factor: 16.971

2.  Construction of synthetic nucleoli and what it tells us about propagation of sub-nuclear domains through cell division.

Authors:  Alice Grob; Brian McStay
Journal:  Cell Cycle       Date:  2014       Impact factor: 4.534

Review 3.  Nutritional control of growth and development in yeast.

Authors:  James R Broach
Journal:  Genetics       Date:  2012-09       Impact factor: 4.562

Review 4.  Control of RNA polymerase II-transcribed genes by direct binding of TOR kinase.

Authors:  Anne Grove
Journal:  Curr Genet       Date:  2017-08-22       Impact factor: 3.886

Review 5.  Coordinated Control of rRNA Processing by RNA Polymerase I.

Authors:  Catherine E Scull; David A Schneider
Journal:  Trends Genet       Date:  2019-07-26       Impact factor: 11.639

6.  RNA polymerase I (Pol I) passage through nucleosomes depends on Pol I subunits binding its lobe structure.

Authors:  Philipp E Merkl; Michael Pilsl; Tobias Fremter; Katrin Schwank; Christoph Engel; Gernot Längst; Philipp Milkereit; Joachim Griesenbeck; Herbert Tschochner
Journal:  J Biol Chem       Date:  2020-02-14       Impact factor: 5.157

7.  A targeting modality for destruction of RNA polymerase I that possesses anticancer activity.

Authors:  Karita Peltonen; Laureen Colis; Hester Liu; Rishi Trivedi; Michael S Moubarek; Henna M Moore; Baoyan Bai; Michelle A Rudek; Charles J Bieberich; Marikki Laiho
Journal:  Cancer Cell       Date:  2014-01-13       Impact factor: 31.743

8.  Spt6 Is Essential for rRNA Synthesis by RNA Polymerase I.

Authors:  Krysta L Engel; Sarah L French; Olga V Viktorovskaya; Ann L Beyer; David A Schneider
Journal:  Mol Cell Biol       Date:  2015-04-27       Impact factor: 4.272

Review 9.  Basic mechanisms in RNA polymerase I transcription of the ribosomal RNA genes.

Authors:  Sarah J Goodfellow; Joost C B M Zomerdijk
Journal:  Subcell Biochem       Date:  2013

10.  Rpd3- and spt16-mediated nucleosome assembly and transcriptional regulation on yeast ribosomal DNA genes.

Authors:  Joseph M Johnson; Sarah L French; Yvonne N Osheim; Mingguang Li; Lindsey Hall; Ann L Beyer; Jeffrey S Smith
Journal:  Mol Cell Biol       Date:  2013-05-20       Impact factor: 4.272
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