Literature DB >> 33649325

Transcription organizes euchromatin via microphase separation.

Yuko Sato1, Ksenia Kuznetsova2, Tommaso Bianucci2,3, Lennart Hilbert4,2,3,5,6, Hiroshi Kimura1, Frank Jülicher4,3,7,8, Alf Honigmann2, Vasily Zaburdaev4,3,9, Nadine L Vastenhouw10,11.   

Abstract

In eukaryotes, DNA is packed inside the cell nucleus in the form of chromatin, which consists of DNA, proteins such as histones, and RNA. Euchromatin, which is permissive for transcription, is spatially organized into transcriptionally inactive domains interspersed with pockets of transcriptional activity. While transcription and RNA have been implicated in euchromatin organization, it remains unclear how their interplay forms and maintains transcription pockets. Here we combine theory and experiment to analyze the dynamics of euchromatin organization as pluripotent zebrafish cells exit mitosis and begin transcription. We show that accumulation of RNA induces formation of transcription pockets which displace transcriptionally inactive chromatin. We propose that the accumulating RNA recruits RNA-binding proteins that together tend to separate from transcriptionally inactive euchromatin. Full phase separation is prevented because RNA remains tethered to transcribed euchromatin through RNA polymerases. Instead, smaller scale microphases emerge that do not grow further and form the typical pattern of euchromatin organization.

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Year:  2021        PMID: 33649325      PMCID: PMC7921102          DOI: 10.1038/s41467-021-21589-3

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  79 in total

1.  Higher-Order Inter-chromosomal Hubs Shape 3D Genome Organization in the Nucleus.

Authors:  Sofia A Quinodoz; Noah Ollikainen; Barbara Tabak; Ali Palla; Jan Marten Schmidt; Elizabeth Detmar; Mason M Lai; Alexander A Shishkin; Prashant Bhat; Yodai Takei; Vickie Trinh; Erik Aznauryan; Pamela Russell; Christine Cheng; Marko Jovanovic; Amy Chow; Long Cai; Patrick McDonel; Manuel Garber; Mitchell Guttman
Journal:  Cell       Date:  2018-06-07       Impact factor: 41.582

2.  The earliest transcribed zygotic genes are short, newly evolved, and different across species.

Authors:  Patricia Heyn; Martin Kircher; Andreas Dahl; Janet Kelso; Pavel Tomancak; Alex T Kalinka; Karla M Neugebauer
Journal:  Cell Rep       Date:  2014-01-16       Impact factor: 9.423

3.  Evolutionarily Conserved Principles Predict 3D Chromatin Organization.

Authors:  M Jordan Rowley; Michael H Nichols; Xiaowen Lyu; Masami Ando-Kuri; I Sarahi M Rivera; Karen Hermetz; Ping Wang; Yijun Ruan; Victor G Corces
Journal:  Mol Cell       Date:  2017-08-17       Impact factor: 17.970

4.  RNA transcription modulates phase transition-driven nuclear body assembly.

Authors:  Joel Berry; Stephanie C Weber; Nilesh Vaidya; Mikko Haataja; Clifford P Brangwynne
Journal:  Proc Natl Acad Sci U S A       Date:  2015-09-08       Impact factor: 11.205

5.  Tracking epigenetic histone modifications in single cells using Fab-based live endogenous modification labeling.

Authors:  Yoko Hayashi-Takanaka; Kazuo Yamagata; Teruhiko Wakayama; Timothy J Stasevich; Takashi Kainuma; Toshiki Tsurimoto; Makoto Tachibana; Yoichi Shinkai; Hitoshi Kurumizaka; Naohito Nozaki; Hiroshi Kimura
Journal:  Nucleic Acids Res       Date:  2011-05-16       Impact factor: 16.971

6.  3D imaging of Sox2 enhancer clusters in embryonic stem cells.

Authors:  Zhe Liu; Wesley R Legant; Bi-Chang Chen; Li Li; Jonathan B Grimm; Luke D Lavis; Eric Betzig; Robert Tjian
Journal:  Elife       Date:  2014-12-24       Impact factor: 8.140

7.  Nuclear microenvironments modulate transcription from low-affinity enhancers.

Authors:  Albert Tsai; Justin Crocker; Anand K Muthusamy; Mariana Rp Alves; Luke D Lavis; Robert H Singer; David L Stern
Journal:  Elife       Date:  2017-11-02       Impact factor: 8.140

8.  Differential contribution of steady-state RNA and active transcription in chromatin organization.

Authors:  A Rasim Barutcu; Benjamin J Blencowe; John L Rinn
Journal:  EMBO Rep       Date:  2019-08-26       Impact factor: 8.807

9.  Histone H3K27 acetylation precedes active transcription during zebrafish zygotic genome activation as revealed by live-cell analysis.

Authors:  Yuko Sato; Lennart Hilbert; Haruka Oda; Yinan Wan; John M Heddleston; Teng-Leong Chew; Vasily Zaburdaev; Philipp Keller; Timothee Lionnet; Nadine Vastenhouw; Hiroshi Kimura
Journal:  Development       Date:  2019-09-30       Impact factor: 6.868

10.  A Temporal Window for Signal Activation Dictates the Dimensions of a Nodal Signaling Domain.

Authors:  Antonius L van Boxtel; John E Chesebro; Claire Heliot; Marie-Christine Ramel; Richard K Stone; Caroline S Hill
Journal:  Dev Cell       Date:  2015-10-26       Impact factor: 12.270
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  24 in total

Review 1.  Minimalistic 3D chromatin models: Sparse interactions in single cells drive the chromatin fold and form many-body units.

Authors:  Jie Liang; Alan Perez-Rathke
Journal:  Curr Opin Struct Biol       Date:  2021-08-14       Impact factor: 6.809

Review 2.  The solid and liquid states of chromatin.

Authors:  Jeffrey C Hansen; Kazuhiro Maeshima; Michael J Hendzel
Journal:  Epigenetics Chromatin       Date:  2021-10-30       Impact factor: 4.954

3.  Mesoscale structure-function relationships in mitochondrial transcriptional condensates.

Authors:  Marina Feric; Azadeh Sarfallah; Furqan Dar; Dmitry Temiakov; Rohit V Pappu; Tom Misteli
Journal:  Proc Natl Acad Sci U S A       Date:  2022-10-03       Impact factor: 12.779

Review 4.  Capillary forces generated by biomolecular condensates.

Authors:  Bernardo Gouveia; Yoonji Kim; Joshua W Shaevitz; Sabine Petry; Howard A Stone; Clifford P Brangwynne
Journal:  Nature       Date:  2022-09-07       Impact factor: 69.504

5.  Different transcriptional responses by the CRISPRa system in distinct types of heterochromatin in Drosophila melanogaster.

Authors:  Andrea Ortega-Yáñez; Samantha Cruz-Ruiz; Martha Vázquez; Mario Zurita
Journal:  Sci Rep       Date:  2022-07-09       Impact factor: 4.996

6.  The hierarchical packing of euchromatin domains can be described as multiplicative cascades.

Authors:  Amra Noa; Hui-Shun Kuan; Vera Aschmann; Vasily Zaburdaev; Lennart Hilbert
Journal:  PLoS Comput Biol       Date:  2021-05-05       Impact factor: 4.475

Review 7.  Merging Established Mechanisms with New Insights: Condensates, Hubs, and the Regulation of RNA Polymerase II Transcription.

Authors:  Megan Palacio; Dylan J Taatjes
Journal:  J Mol Biol       Date:  2021-08-30       Impact factor: 5.469

8.  Transcription-mediated supercoiling regulates genome folding and loop formation.

Authors:  Maria Victoria Neguembor; Laura Martin; Álvaro Castells-García; Pablo Aurelio Gómez-García; Chiara Vicario; Davide Carnevali; Jumana AlHaj Abed; Alba Granados; Ruben Sebastian-Perez; Francesco Sottile; Jérôme Solon; Chao-Ting Wu; Melike Lakadamyali; Maria Pia Cosma
Journal:  Mol Cell       Date:  2021-07-22       Impact factor: 19.328

Review 9.  Probing Chromatin Compaction and Its Epigenetic States in situ With Single-Molecule Localization-Based Super-Resolution Microscopy.

Authors:  Jianquan Xu; Yang Liu
Journal:  Front Cell Dev Biol       Date:  2021-06-10

10.  Enhancers with tissue-specific activity are enriched in intronic regions.

Authors:  Beatrice Borsari; Pablo Villegas-Mirón; Sílvia Pérez-Lluch; Isabel Turpin; Hafid Laayouni; Alba Segarra-Casas; Jaume Bertranpetit; Roderic Guigó; Sandra Acosta
Journal:  Genome Res       Date:  2021-07-21       Impact factor: 9.043
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