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  1. DNA methylation is thought to play an important role in the regulation of mammalian gene expression, partly based on the observation that a lack of CpG island methylation in gene promoters is associated with h...

    Authors: Rachel Edgar, Powell Patrick Cheng Tan, Elodie Portales-Casamar and Paul Pavlidis
    Citation: Epigenetics & Chromatin 2014 7:28
  2. Epigenetic modifications such as histone and DNA methylation are essential for silencing pluripotency genes during embryonic stem cell (ESC) differentiation. G9a is the major histone H3 Lys9 (H3K9) methyltrans...

    Authors: Danielle Bittencourt, Brian H Lee, Lu Gao, Daniel S Gerke and Michael R Stallcup
    Citation: Epigenetics & Chromatin 2014 7:27
  3. Epigenetic reprogramming during early mammalian embryonic and germ cell development is a genome-wide process. CpG islands (CGIs), central to the regulation of mammalian gene expression, are exceptional in term...

    Authors: Heba Saadeh and Reiner Schulz
    Citation: Epigenetics & Chromatin 2014 7:26
  4. Repression of retrotransposons is essential for genome integrity and the development of germ cells. Among retrotransposons, the establishment of CpG DNA methylation and epigenetic silencing of LINE1 (L1) eleme...

    Authors: Monica Di Giacomo, Stefano Comazzetto, Srihari C Sampath, Srinath C Sampath and Dónal O’Carroll
    Citation: Epigenetics & Chromatin 2014 7:24
  5. The formation of chromatin domains is an important step in lineage commitment. In human hematopoietic stem and progenitor cells (HSPCs), G9a/GLP-dependent H3K9me2 chromatin territories form de novo during lineage...

    Authors: Dustin E Schones, Xiaoji Chen, Candi Trac, Ryan Setten and Patrick J Paddison
    Citation: Epigenetics & Chromatin 2014 7:23
  6. Stored, soluble histones in eggs are essential for early development, in particular during the maternally controlled early cell cycles in the absence of transcription. Histone post-translational modifications ...

    Authors: Wei-Lin Wang, Lissa C Anderson, Joshua J Nicklay, Hongshan Chen, Matthew J Gamble, Jeffrey Shabanowitz, Donald F Hunt and David Shechter
    Citation: Epigenetics & Chromatin 2014 7:22
  7. Dendritic cells (DCs) are important mediators of innate and adaptive immune responses, but the gene networks governing their lineage differentiation and maturation are poorly understood. To gain insight into t...

    Authors: Xue Zhang, Ashley Ulm, Hari K Somineni, Sunghee Oh, Matthew T Weirauch, Hong-Xuan Zhang, Xiaoting Chen, Maria A Lehn, Edith M Janssen and Hong Ji
    Citation: Epigenetics & Chromatin 2014 7:21
  8. Targeted gene silencing is an important approach in both drug development and basic research. However, the selection of a potent suppressor has become a significant hurdle to implementing maximal gene inhibiti...

    Authors: Ai-Niu Ma, Hong Wang, Rui Guo, Yong-Xiang Wang, Wei Li, Jiuwei Cui, Guanjun Wang, Andrew R Hoffman and Ji-Fan Hu
    Citation: Epigenetics & Chromatin 2014 7:20
  9. Epigenetic reprogramming of fetal germ cells involves the genome-wide erasure and subsequent re-establishment of DNA methylation. Mouse studies indicate that DNA demethylation may be initiated at embryonic day...

    Authors: Catherine M Rose, Sander van den Driesche, Richard M Sharpe, Richard R Meehan and Amanda J Drake
    Citation: Epigenetics & Chromatin 2014 7:19
  10. The recent introduction of pathology tissue-chromatin immunoprecipitation (PAT-ChIP), a technique allowing chromatin immunoprecipitation from formalin-fixed and paraffin-embedded (FFPE) tissues, has expanded t...

    Authors: Stefano Amatori, Marco Ballarini, Alice Faversani, Elena Belloni, Fulvia Fusar, Silvano Bosari, Pier Giuseppe Pelicci, Saverio Minucci and Mirco Fanelli
    Citation: Epigenetics & Chromatin 2014 7:18
  11. Methyl-CpG binding protein 2 (MECP2) is a protein that specifically binds methylated DNA, thus regulating transcription and chromatin organization. Mutations in the gene have been identified as the principal c...

    Authors: Congdi Song, Yana Feodorova, Jacky Guy, Leo Peichl, Katharina Laurence Jost, Hiroshi Kimura, Maria Cristina Cardoso, Adrian Bird, Heinrich Leonhardt, Boris Joffe and Irina Solovei
    Citation: Epigenetics & Chromatin 2014 7:17
  12. Within the nucleus of eukaryotic cells, chromatin is organized into compact, silent regions called heterochromatin and more loosely packaged regions of euchromatin where transcription is more active. Although ...

    Authors: Na Xu, Alexander V Emelyanov, Dmitry V Fyodorov and Arthur I Skoultchi
    Citation: Epigenetics & Chromatin 2014 7:16
  13. The chromatin remodeler NAP1L1, which is upregulated in small intestinal neuroendocrine neoplasms (NENs), has been implicated in cell cycle progression. As p57Kip2 (CDKN1C), a negative regulator of proliferation ...

    Authors: Simon Schimmack, Andrew Taylor, Ben Lawrence, Daniele Alaimo, Hubertus Schmitz-Winnenthal, Markus W Büchler, Irvin M Modlin and Mark Kidd
    Citation: Epigenetics & Chromatin 2014 7:15
  14. Acetylation of lysine residues in histone tails plays an important role in the regulation of gene transcription. Bromdomains are the readers of acetylated histone marks, and, consequently, bromodomain-containi...

    Authors: Martin Philpott, Catherine M Rogers, Clarence Yapp, Chris Wells, Jean-Philippe Lambert, Claire Strain-Damerell, Nicola A Burgess-Brown, Anne-Claude Gingras, Stefan Knapp and Susanne Müller
    Citation: Epigenetics & Chromatin 2014 7:14
  15. X chromosome inactivation (XCI) is a developmental program of heterochromatin formation that initiates during early female mammalian embryonic development and is maintained through a lifetime of cell divisions...

    Authors: Alissa Minkovsky, Anna Sahakyan, Elyse Rankin-Gee, Giancarlo Bonora, Sanjeet Patel and Kathrin Plath
    Citation: Epigenetics & Chromatin 2014 7:12
  16. Silencing of the paternal X chromosome (Xp), a phenomenon known as imprinted X-chromosome inactivation (I-XCI), characterises, amongst mouse extraembryonic lineages, the primitive endoderm and the extraembryon...

    Authors: Sarra Merzouk, Jane Lynda Deuve, Agnès Dubois, Pablo Navarro, Philip Avner and Céline Morey
    Citation: Epigenetics & Chromatin 2014 7:11
  17. Significant efforts have recently been put into the investigation of the spatial organization and the chromatin-interaction networks of genomes. Chromosome conformation capture (3C) technology and its derivati...

    Authors: Petros Kolovos, Harmen JG van de Werken, Nick Kepper, Jessica Zuin, Rutger WW Brouwer, Christel EM Kockx, Kerstin S Wendt, Wilfred FJ van IJcken, Frank Grosveld and Tobias A Knoch
    Citation: Epigenetics & Chromatin 2014 7:10

    The Related Article to this article has been published in Nature Protocols 2018 13:nprot.2017.132

  18. Differential distribution of DNA methylation on the parental alleles of imprinted genes distinguishes the alleles from each other and dictates their parent of origin-specific expression patterns. While differe...

    Authors: Alyssa Gagne, Abigail Hochman, Mahvish Qureshi, Celia Tong, Jessica Arbon, Kayla McDaniel and Tamara L Davis
    Citation: Epigenetics & Chromatin 2014 7:9
  19. A Xist RNA decorated Barr body is the structural hallmark of the compacted inactive X territory in female mammals. Using super-resolution three-dimensional structured illumination microscopy (3D-SIM) and quant...

    Authors: Daniel Smeets, Yolanda Markaki, Volker J Schmid, Felix Kraus, Anna Tattermusch, Andrea Cerase, Michael Sterr, Susanne Fiedler, Justin Demmerle, Jens Popken, Heinrich Leonhardt, Neil Brockdorff, Thomas Cremer, Lothar Schermelleh and Marion Cremer
    Citation: Epigenetics & Chromatin 2014 7:8

    The Related Article to this article has been published in Nature Protocols 2017 12:nprot.2017.020

  20. Histone post-translational modifications (PTMs) are key epigenetic regulators in chromatin-based processes. Increasing evidence suggests that vast combinations of PTMs exist within chromatin histones. These co...

    Authors: Zhangli Su, Melissa D Boersma, Jin-Hee Lee, Samuel S Oliver, Shichong Liu, Benjamin A Garcia and John M Denu
    Citation: Epigenetics & Chromatin 2014 7:7
  21. Genomic imprinting is the epigenetic marking of genes that results in parent-of-origin monoallelic expression. Most imprinted domains are associated with differentially DNA methylated regions (DMRs) that origi...

    Authors: Franck Court, Cristina Camprubi, Cristina Vicente Garcia, Amy Guillaumet-Adkins, Angela Sparago, Davide Seruggia, Juan Sandoval, Manel Esteller, Alex Martin-Trujillo, Andrea Riccio, Lluis Montoliu and David Monk
    Citation: Epigenetics & Chromatin 2014 7:5
  22. Regulation of chromatin structure involves deposition of selective histone variants into nucleosome arrays. Numerous histone H3 variants become differentially expressed by individual nanochromosomes in the cou...

    Authors: Sakeh Forcob, Aneta Bulic, Franziska Jönsson, Hans J Lipps and Jan Postberg
    Citation: Epigenetics & Chromatin 2014 7:4
  23. Epigenetic modifications, such as cytosine methylation in CpG-rich regions, regulate multiple functions in mammalian development. Maternal nutrients affecting one-carbon metabolism during gestation can exert l...

    Authors: Subit Barua, Salomon Kuizon, Kathryn K Chadman, Michael J Flory, W Ted Brown and Mohammed A Junaid
    Citation: Epigenetics & Chromatin 2014 7:3
  24. Ring chromosome 17 syndrome is a rare disease that arises from the breakage and reunion of the short and long arms of chromosome 17. Usually this abnormality results in deletion of genetic material, which expl...

    Authors: Cecilia Surace, Francesco Berardinelli, Andrea Masotti, Maria Cristina Roberti, Letizia Da Sacco, Gemma D’Elia, Pietro Sirleto, Maria Cristina Digilio, Raffaella Cusmai, Simona Grotta, Stefano Petrocchi, May El Hachem, Elisa Pisaneschi, Laura Ciocca, Serena Russo, Francesca Romana Lepri…
    Citation: Epigenetics & Chromatin 2014 7:1
  25. Cellular differentiation and reprogramming are accompanied by changes in replication timing and 3D organization of large-scale (400 to 800 Kb) chromosomal domains (‘replication domains’), but few gene products...

    Authors: Shin-ichiro Takebayashi, Ienglam Lei, Tyrone Ryba, Takayo Sasaki, Vishnu Dileep, Dana Battaglia, Xiaolin Gao, Peng Fang, Yong Fan, Miguel A Esteban, Jiong Tang, Gerald R Crabtree, Zhong Wang and David M Gilbert
    Citation: Epigenetics & Chromatin 2013 6:42
  26. The remarkable ability of many parasites to evade host immunity is the key to their success and pervasiveness. The immune evasion is directly linked to the silencing of the members of extended families of gene...

    Authors: Brandon A Wyse, Roxanne Oshidari, Daniel CB Jeffery and Krassimir Y Yankulov
    Citation: Epigenetics & Chromatin 2013 6:40
  27. DNA methylation in mammals is an epigenetic mark necessary for normal embryogenesis. During development active loss of methylation occurs in the male pronucleus during the first cell cycle after fertilisation....

    Authors: Fátima Santos, Julian Peat, Heather Burgess, Cristina Rada, Wolf Reik and Wendy Dean
    Citation: Epigenetics & Chromatin 2013 6:39
  28. The discovery of gene body methylation, which refers to DNA methylation within gene coding region, suggests an as yet unknown role of DNA methylation at actively transcribed genes. In invertebrates, gene bodie...

    Authors: Miho M Suzuki, Akiko Yoshinari, Madoka Obara, Shohei Takuno, Shuji Shigenobu, Yasunori Sasakura, Alastair RW Kerr, Shaun Webb, Adrian Bird and Atsuo Nakayama
    Citation: Epigenetics & Chromatin 2013 6:38
  29. Germ cells in animals are highly specialized to preserve the genome. A distinct set of chromatin structures must be properly established in germ cells to maintain cell fate and genome integrity. We describe DN...

    Authors: Sam Guoping Gu, Barbara Goszczynski, James D McGhee and Andrew Z Fire
    Citation: Epigenetics & Chromatin 2013 6:37
  30. Altered DNA methylation patterns represent an attractive mechanism for understanding the phenotypic changes associated with human aging. Several studies have described global and complex age-related methylatio...

    Authors: Günter Raddatz, Sabine Hagemann, Dvir Aran, Jörn Söhle, Pranav P Kulkarni, Lars Kaderali, Asaf Hellman, Marc Winnefeld and Frank Lyko
    Citation: Epigenetics & Chromatin 2013 6:36
  31. The incorporation of histone variants into nucleosomes is one of the main strategies that the cell uses to regulate the structure and function of chromatin. Histone H2A.Z is an evolutionarily conserved histone...

    Authors: Kyunghwan Kim, Vasu Punj, Jongkyu Choi, Kyu Heo, Jin-Man Kim, Peter W Laird and Woojin An
    Citation: Epigenetics & Chromatin 2013 6:34
  32. The growing interest in the role of epigenetic modifications in human health and disease has led to the development of next-generation sequencing methods for whole genome analysis of DNA methylation patterns. ...

    Authors: Dustin R Masser, Arthur S Berg and Willard M Freeman
    Citation: Epigenetics & Chromatin 2013 6:33
  33. DNA replication is a highly conserved process that accurately copies the genetic information from one generation to the next. The processes of chromatin disassembly and reassembly during DNA replication also h...

    Authors: Varija N Budhavarapu, Myrriah Chavez and Jessica K Tyler
    Citation: Epigenetics & Chromatin 2013 6:32
  34. Enhancer elements determine the level of target gene transcription in a tissue-specific manner, providing for individual patterns of gene expression in different cells. Knowledge of the mechanisms controlling ...

    Authors: Maksim Erokhin, Anna Davydova, Alexander Parshikov, Vasily M Studitsky, Pavel Georgiev and Darya Chetverina
    Citation: Epigenetics & Chromatin 2013 6:31
  35. Genome-wide maps of transcription factor binding sites in primary tissues can expand our understanding of genome function, transcriptional regulation, and genetic alterations that contribute to disease risk. H...

    Authors: Daniel Savic, Jason Gertz, Preti Jain, Gregory M Cooper and Richard M Myers
    Citation: Epigenetics & Chromatin 2013 6:30
  36. The target of rapamycin complex 1 (TORC1) is an evolutionarily conserved signal transduction pathway activated by environmental nutrients that regulates gene transcription to control cell growth and proliferat...

    Authors: Hongfeng Chen, Jason J Workman, Alexa Tenga and R Nicholas Laribee
    Citation: Epigenetics & Chromatin 2013 6:29
  37. The epithelial-mesenchymal transition (EMT) is a de-differentiation process required for wound healing and development. In tumors of epithelial origin aberrant induction of EMT contributes to cancer progressio...

    Authors: Marcin Cieślik, Stephen A Hoang, Natalya Baranova, Sanjay Chodaparambil, Manish Kumar, David F Allison, Xiaojiang Xu, J Jacob Wamsley, Lisa Gray, David R Jones, Marty W Mayo and Stefan Bekiranov
    Citation: Epigenetics & Chromatin 2013 6:28
  38. Histone deacetylases (HDACs) play a critical role in the maintenance of genome stability. Class I HDACs, histone deacetylase 1 and 2 (Hdac1 and Hdac2) are recruited to the replication fork by virtue of their i...

    Authors: Srividya Bhaskara, Vincent Jacques, James R Rusche, Eric N Olson, Bradley R Cairns and Mahesh B Chandrasekharan
    Citation: Epigenetics & Chromatin 2013 6:27
  39. DNA methylation has been recognized as a key mechanism in cell differentiation. Various studies have compared tissues to characterize epigenetically regulated genomic regions, but due to differences in study d...

    Authors: Roderick C Slieker, Steffan D Bos, Jelle J Goeman, Judith VMG Bovée, Rudolf P Talens, Ruud van der Breggen, H Eka D Suchiman, Eric-Wubbo Lameijer, Hein Putter, Erik B van den Akker, Yanju Zhang, J Wouter Jukema, P Eline Slagboom, Ingrid Meulenbelt and Bastiaan T Heijmans
    Citation: Epigenetics & Chromatin 2013 6:26
  40. Tight regulation of homeobox genes is essential for vertebrate development. In a study of genome-wide differential methylation, we recently found that homeobox genes, including those in the HOX gene clusters, wer...

    Authors: Koji Tsumagari, Carl Baribault, Jolyon Terragni, Sruti Chandra, Chloe Renshaw, Zhiyi Sun, Lingyun Song, Gregory E Crawford, Sriharsa Pradhan, Michelle Lacey and Melanie Ehrlich
    Citation: Epigenetics & Chromatin 2013 6:25
  41. The establishment of facultative heterochromatin by X-chromosome inactivation requires the long non-coding RNA XIST/Xist. However, the molecular mechanism by which the RNA achieves chromosome-wide gene silenci...

    Authors: Jakub Minks, Sarah EL Baldry, Christine Yang, Allison M Cotton and Carolyn J Brown
    Citation: Epigenetics & Chromatin 2013 6:23
  42. The specific deposition of histone variants into chromatin is an important epigenetic mechanism that contributes to gene regulation through chromatin architectural changes. The histone variant H2A.Z is essenti...

    Authors: Nicolas Guillermo Simonet, Mauricio Reyes, Gino Nardocci, Alfredo Molina and Marco Alvarez
    Citation: Epigenetics & Chromatin 2013 6:22
  43. Previous elegant studies performed in the fission yeast Schizosaccharomyces pombe have identified a requirement for heterochromatin protein 1 (HP1) for spindle pole formation and appropriate cell division. In mam...

    Authors: Adrienne Grzenda, Phoebe Leonard, Seungmae Seo, Angela J Mathison, Guillermo Urrutia, Ezequiel Calvo, Juan Iovanna, Raul Urrutia and Gwen Lomberk
    Citation: Epigenetics & Chromatin 2013 6:21

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