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List of co-cited articles
1028 articles co-cited >1



Times Cited
  Times     Co-cited
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Comprehensive mapping of long-range interactions reveals folding principles of the human genome.
Erez Lieberman-Aiden, Nynke L van Berkum, Louise Williams, Maxim Imakaev, Tobias Ragoczy, Agnes Telling, Ido Amit, Bryan R Lajoie, Peter J Sabo, Michael O Dorschner,[...]. Science 2009
52

Capturing chromosome conformation.
Job Dekker, Karsten Rippe, Martijn Dekker, Nancy Kleckner. Science 2002
36

A three-dimensional model of the yeast genome.
Zhijun Duan, Mirela Andronescu, Kevin Schutz, Sean McIlwain, Yoo Jung Kim, Choli Lee, Jay Shendure, Stanley Fields, C Anthony Blau, William S Noble. Nature 2010
641
35

Long-range compaction and flexibility of interphase chromatin in budding yeast analyzed by high-resolution imaging techniques.
Kerstin Bystricky, Patrick Heun, Lutz Gehlen, Jörg Langowski, Susan M Gasser. Proc Natl Acad Sci U S A 2004
201
30


Analysis of cryo-electron microscopy images does not support the existence of 30-nm chromatin fibers in mitotic chromosomes in situ.
Mikhail Eltsov, Kirsty M Maclellan, Kazuhiro Maeshima, Achilleas S Frangakis, Jacques Dubochet. Proc Natl Acad Sci U S A 2008
245
25

Interphase chromosomes undergo constrained diffusional motion in living cells.
W F Marshall, A Straight, J F Marko, J Swedlow, A Dernburg, A Belmont, A W Murray, D A Agard, J W Sedat. Curr Biol 1997
494
23

Topological domains in mammalian genomes identified by analysis of chromatin interactions.
Jesse R Dixon, Siddarth Selvaraj, Feng Yue, Audrey Kim, Yan Li, Yin Shen, Ming Hu, Jun S Liu, Bing Ren. Nature 2012
23

Structure and dynamics of interphase chromosomes.
Angelo Rosa, Ralf Everaers. PLoS Comput Biol 2008
270
22

Crystal structure of the nucleosome core particle at 2.8 A resolution.
K Luger, A W Mäder, R K Richmond, D F Sargent, T J Richmond. Nature 1997
22

High-throughput chromatin motion tracking in living yeast reveals the flexibility of the fiber throughout the genome.
Houssam Hajjoul, Julien Mathon, Hubert Ranchon, Isabelle Goiffon, Julien Mozziconacci, Benjamin Albert, Pascal Carrivain, Jean-Marc Victor, Olivier Gadal, Kerstin Bystricky,[...]. Genome Res 2013
120
22

Chromosome dynamics in the yeast interphase nucleus.
P Heun, T Laroche, K Shimada, P Furrer, S M Gasser. Science 2001
345
21

Spatial partitioning of the regulatory landscape of the X-inactivation centre.
Elphège P Nora, Bryan R Lajoie, Edda G Schulz, Luca Giorgetti, Ikuhiro Okamoto, Nicolas Servant, Tristan Piolot, Nynke L van Berkum, Johannes Meisig, John Sedat,[...]. Nature 2012
21

Solenoidal model for superstructure in chromatin.
J T Finch, A Klug. Proc Natl Acad Sci U S A 1976
20

EM measurements define the dimensions of the "30-nm" chromatin fiber: evidence for a compact, interdigitated structure.
Philip J J Robinson, Louise Fairall, Van A T Huynh, Daniela Rhodes. Proc Natl Acad Sci U S A 2006
316
20

X-ray structure of a tetranucleosome and its implications for the chromatin fibre.
Thomas Schalch, Sylwia Duda, David F Sargent, Timothy J Richmond. Nature 2005
519
20

Chromatin structure: does the 30-nm fibre exist in vivo?
Kazuhiro Maeshima, Saera Hihara, Mikhail Eltsov. Curr Opin Cell Biol 2010
174
20

A 3D map of the human genome at kilobase resolution reveals principles of chromatin looping.
Suhas S P Rao, Miriam H Huntley, Neva C Durand, Elena K Stamenova, Ivan D Bochkov, James T Robinson, Adrian L Sanborn, Ido Machol, Arina D Omer, Eric S Lander,[...]. Cell 2014
19

Mapping Nucleosome Resolution Chromosome Folding in Yeast by Micro-C.
Tsung-Han S Hsieh, Assaf Weiner, Bryan Lajoie, Job Dekker, Nir Friedman, Oliver J Rando. Cell 2015
331
19

Chromosome looping in yeast: telomere pairing and coordinated movement reflect anchoring efficiency and territorial organization.
Kerstin Bystricky, Thierry Laroche, Griet van Houwe, Marek Blaszczyk, Susan M Gasser. J Cell Biol 2005
152
18

Nuclear organization of active and inactive chromatin domains uncovered by chromosome conformation capture-on-chip (4C).
Marieke Simonis, Petra Klous, Erik Splinter, Yuri Moshkin, Rob Willemsen, Elzo de Wit, Bas van Steensel, Wouter de Laat. Nat Genet 2006
916
18

Human mitotic chromosomes consist predominantly of irregularly folded nucleosome fibres without a 30-nm chromatin structure.
Yoshinori Nishino, Mikhail Eltsov, Yasumasa Joti, Kazuki Ito, Hideaki Takata, Yukio Takahashi, Saera Hihara, Achilleas S Frangakis, Naoko Imamoto, Tetsuya Ishikawa,[...]. EMBO J 2012
207
18

Living without 30nm chromatin fibers.
Eden Fussner, Reagan W Ching, David P Bazett-Jones. Trends Biochem Sci 2011
126
17


A predictive computational model of the dynamic 3D interphase yeast nucleus.
Hua Wong, Hervé Marie-Nelly, Sébastien Herbert, Pascal Carrivain, Hervé Blanc, Romain Koszul, Emmanuelle Fabre, Christophe Zimmer. Curr Biol 2012
104
17

Chromatin extrusion explains key features of loop and domain formation in wild-type and engineered genomes.
Adrian L Sanborn, Suhas S P Rao, Su-Chen Huang, Neva C Durand, Miriam H Huntley, Andrew I Jewett, Ivan D Bochkov, Dharmaraj Chinnappan, Ashok Cutkosky, Jian Li,[...]. Proc Natl Acad Sci U S A 2015
882
16


Evidence for heteromorphic chromatin fibers from analysis of nucleosome interactions.
Sergei A Grigoryev, Gaurav Arya, Sarah Correll, Christopher L Woodcock, Tamar Schlick. Proc Natl Acad Sci U S A 2009
163
15


Chromosome arm length and nuclear constraints determine the dynamic relationship of yeast subtelomeres.
Pierre Therizols, Tarn Duong, Bernard Dujon, Christophe Zimmer, Emmanuelle Fabre. Proc Natl Acad Sci U S A 2010
96
15

Three-dimensional folding and functional organization principles of the Drosophila genome.
Tom Sexton, Eitan Yaffe, Ephraim Kenigsberg, Frédéric Bantignies, Benjamin Leblanc, Michael Hoichman, Hugues Parrinello, Amos Tanay, Giacomo Cavalli. Cell 2012
15

Open and closed domains in the mouse genome are configured as 10-nm chromatin fibres.
Eden Fussner, Mike Strauss, Ugljesa Djuric, Ren Li, Kashif Ahmed, Michael Hart, James Ellis, David P Bazett-Jones. EMBO Rep 2012
110
15

Cryo-EM study of the chromatin fiber reveals a double helix twisted by tetranucleosomal units.
Feng Song, Ping Chen, Dapeng Sun, Mingzhu Wang, Liping Dong, Dan Liang, Rui-Ming Xu, Ping Zhu, Guohong Li. Science 2014
367
15

Spatially confined folding of chromatin in the interphase nucleus.
Julio Mateos-Langerak, Manfred Bohn, Wim de Leeuw, Osdilly Giromus, Erik M M Manders, Pernette J Verschure, Mireille H G Indemans, Hinco J Gierman, Dieter W Heermann, Roel van Driel,[...]. Proc Natl Acad Sci U S A 2009
175
14

Nucleosome repeat length and linker histone stoichiometry determine chromatin fiber structure.
Andrew Routh, Sara Sandin, Daniela Rhodes. Proc Natl Acad Sci U S A 2008
241
14


Principles of chromosomal organization: lessons from yeast.
Christophe Zimmer, Emmanuelle Fabre. J Cell Biol 2011
93
15

Chromosome Conformation Capture Carbon Copy (5C): a massively parallel solution for mapping interactions between genomic elements.
Josée Dostie, Todd A Richmond, Ramy A Arnaout, Rebecca R Selzer, William L Lee, Tracey A Honan, Eric D Rubio, Anton Krumm, Justin Lamb, Chad Nusbaum,[...]. Genome Res 2006
750
13

High-resolution statistical mapping reveals gene territories in live yeast.
Axel B Berger, Ghislain G Cabal, Emmanuelle Fabre, Tarn Duong, Henri Buc, Ulf Nehrbass, Jean-Christophe Olivo-Marin, Olivier Gadal, Christophe Zimmer. Nat Methods 2008
140
13

SAGA interacting factors confine sub-diffusion of transcribed genes to the nuclear envelope.
Ghislain G Cabal, Auguste Genovesio, Susana Rodriguez-Navarro, Christophe Zimmer, Olivier Gadal, Annick Lesne, Henri Buc, Frank Feuerbach-Fournier, Jean-Christophe Olivo-Marin, Eduard C Hurt,[...]. Nature 2006
348
13

Local nucleosome dynamics facilitate chromatin accessibility in living mammalian cells.
Saera Hihara, Chan-Gi Pack, Kazunari Kaizu, Tomomi Tani, Tomo Hanafusa, Tadasu Nozaki, Satoko Takemoto, Tomohiko Yoshimi, Hideo Yokota, Naoko Imamoto,[...]. Cell Rep 2012
114
13

Organization of the mitotic chromosome.
Natalia Naumova, Maxim Imakaev, Geoffrey Fudenberg, Ye Zhan, Bryan R Lajoie, Leonid A Mirny, Job Dekker. Science 2013
571
13

Chromatin fibers are formed by heterogeneous groups of nucleosomes in vivo.
Maria Aurelia Ricci, Carlo Manzo, María Filomena García-Parajo, Melike Lakadamyali, Maria Pia Cosma. Cell 2015
351
13

ChromEMT: Visualizing 3D chromatin structure and compaction in interphase and mitotic cells.
Horng D Ou, Sébastien Phan, Thomas J Deerinck, Andrea Thor, Mark H Ellisman, Clodagh C O'Shea. Science 2017
418
13


Domain organization of human chromosomes revealed by mapping of nuclear lamina interactions.
Lars Guelen, Ludo Pagie, Emilie Brasset, Wouter Meuleman, Marius B Faza, Wendy Talhout, Bert H Eussen, Annelies de Klein, Lodewyk Wessels, Wouter de Laat,[...]. Nature 2008
12

Nucleosome arrays reveal the two-start organization of the chromatin fiber.
Benedetta Dorigo, Thomas Schalch, Alexandra Kulangara, Sylwia Duda, Rasmus R Schroeder, Timothy J Richmond. Science 2004
383
12

Solvent mediated interactions in the structure of the nucleosome core particle at 1.9 a resolution.
Curt A Davey, David F Sargent, Karolin Luger, Armin W Maeder, Timothy J Richmond. J Mol Biol 2002
12

Chromatin motion is constrained by association with nuclear compartments in human cells.
Jonathan R Chubb, Shelagh Boyle, Paul Perry, Wendy A Bickmore. Curr Biol 2002
424
12

Chromosomes without a 30-nm chromatin fiber.
Yasumasa Joti, Takaaki Hikima, Yoshinori Nishino, Fukumi Kamada, Saera Hihara, Hideaki Takata, Tetsuya Ishikawa, Kazuhiro Maeshima. Nucleus 2012
92
13


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.