Monovalent and unpoised status of most genes in undifferentiated cell-enriched Drosophila testis
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Dustin E. Schones | Kairong Cui | K. Zhao | Gang Wei | Qiang Gan | Xin Chen | Suk Ho Eun
[1] Kairong Cui,et al. Dynamic regulation of alternative splicing and chromatin structure in Drosophila gonads revealed by RNA-seq , 2010, Cell Research.
[2] Richard Robinson. Quiet and Poised: “Silent” Genes Accumulate Transcription Machinery , 2010, PLoS biology.
[3] Per Stenberg,et al. Alternative Epigenetic Chromatin States of Polycomb Target Genes , 2010, PLoS genetics.
[4] S. Nechaev,et al. Immediate mediators of the inflammatory response are poised for gene activation through RNA polymerase II stalling , 2009, Proceedings of the National Academy of Sciences.
[5] A. Shilatifard,et al. The curious case of bivalent marks. , 2009, Developmental cell.
[6] H. Stunnenberg,et al. A hierarchy of H3K4me3 and H3K27me3 acquisition in spatial gene regulation in Xenopus embryos. , 2009, Developmental cell.
[7] Chen Zeng,et al. A clustering approach for identification of enriched domains from histone modification ChIP-Seq data , 2009, Bioinform..
[8] Leighton J. Core,et al. Paused Pol II captures enhancer activity and acts as a potent insulator. , 2009, Genes & development.
[9] P. Cramer,et al. Structural basis of transcription: mismatch-specific fidelity mechanisms and paused RNA polymerase II with frayed RNA. , 2009, Molecular cell.
[10] A. Barski,et al. Genomic location analysis by ChIP‐Seq , 2009, Journal of cellular biochemistry.
[11] Dustin E. Schones,et al. Characterization of human epigenomes. , 2009, Current opinion in genetics & development.
[12] Yuka Kanno,et al. Global mapping of H3K4me3 and H3K27me3 reveals specificity and plasticity in lineage fate determination of differentiating CD4+ T cells. , 2009, Immunity.
[13] Dustin E. Schones,et al. Chromatin signatures in multipotent human hematopoietic stem cells indicate the fate of bivalent genes during differentiation. , 2009, Cell stem cell.
[14] Amos Tanay,et al. Functional Anatomy of Polycomb and Trithorax Chromatin Landscapes in Drosophila Embryos , 2009, PLoS biology.
[15] M. Gerstein,et al. RNA-Seq: a revolutionary tool for transcriptomics , 2009, Nature Reviews Genetics.
[16] Kelly M. McGarvey,et al. PcG Proteins, DNA Methylation, and Gene Repression by Chromatin Looping , 2008, PLoS biology.
[17] Marcel H. Schulz,et al. A Global View of Gene Activity and Alternative Splicing by Deep Sequencing of the Human Transcriptome , 2008, Science.
[18] J. Leatherman,et al. Zfh-1 controls somatic stem cell self-renewal in the Drosophila testis and nonautonomously influences germline stem cell self-renewal. , 2008, Cell stem cell.
[19] B. Williams,et al. Mapping and quantifying mammalian transcriptomes by RNA-Seq , 2008, Nature Methods.
[20] P. Park,et al. Differential H3K4 methylation identifies developmentally poised hematopoietic genes. , 2008, Developmental cell.
[21] Dustin E. Schones,et al. Dynamic Regulation of Nucleosome Positioning in the Human Genome , 2008, Cell.
[22] Dustin E. Schones,et al. Genome-wide approaches to studying chromatin modifications , 2008, Nature Reviews Genetics.
[23] R. Lehmann,et al. Germ Cells Are Forever , 2008, Cell.
[24] R. Young,et al. Stem Cells, the Molecular Circuitry of Pluripotency and Nuclear Reprogramming , 2008, Cell.
[25] Xin Chen. Stem Cells: What Can We Learn from Flies? , 2008, Fly.
[26] Jo Handelsman,et al. EPIGENETIC REGULATION OF CELLULAR MEMORY BY THE POLYCOMB AND TRITHORAX GROUP PROTEINS , 2008 .
[27] Haruhiko Koseki,et al. Ring1-mediated ubiquitination of H2A restrains poised RNA polymerase II at bivalent genes in mouse ES cells , 2007, Nature Cell Biology.
[28] Ruchir Shah,et al. RNA polymerase is poised for activation across the genome , 2007, Nature Genetics.
[29] Manolis Kellis,et al. RNA polymerase stalling at developmental control genes in the Drosophila melanogaster embryo , 2007, Nature Genetics.
[30] G. Pan,et al. Whole-genome analysis of histone H3 lysine 4 and lysine 27 methylation in human embryonic stem cells. , 2007, Cell stem cell.
[31] Atif Shahab,et al. Whole-genome mapping of histone H3 Lys4 and 27 trimethylations reveals distinct genomic compartments in human embryonic stem cells. , 2007, Cell stem cell.
[32] T. Mikkelsen,et al. Genome-wide maps of chromatin state in pluripotent and lineage-committed cells , 2007, Nature.
[33] R. Young,et al. A Chromatin Landmark and Transcription Initiation at Most Promoters in Human Cells , 2007, Cell.
[34] Dustin E. Schones,et al. High-Resolution Profiling of Histone Methylations in the Human Genome , 2007, Cell.
[35] A. Spradling,et al. Male and Female Drosophila Germline Stem Cells: Two Versions of Immortality , 2007, Science.
[36] M. Fraga,et al. The Polycomb group protein EZH2 directly controls DNA methylation , 2007, Nature.
[37] Douglas R Higgs,et al. Long-range chromosomal interactions regulate the timing of the transition between poised and active gene expression. , 2007, The EMBO journal.
[38] A. Iwama,et al. Bmi1 cooperates with Dnmt1-associated protein 1 in gene silencing. , 2007, Biochemical and biophysical research communications.
[39] R. Paro,et al. Polycomb/Trithorax response elements and epigenetic memory of cell identity , 2007, Development.
[40] Rudolf Jaenisch,et al. Molecular control of pluripotency. , 2006, Current opinion in genetics & development.
[41] E. Matunis,et al. Novel regulators revealed by profiling Drosophila testis stem cells within their niche. , 2006, Developmental biology.
[42] J. Zeitlinger,et al. Polycomb complexes repress developmental regulators in murine embryonic stem cells , 2006, Nature.
[43] A. Spradling,et al. Searching Chromatin for Stem Cell Identity , 2006, Cell.
[44] Megan F. Cole,et al. Control of Developmental Regulators by Polycomb in Human Embryonic Stem Cells , 2006, Cell.
[45] James A. Cuff,et al. A Bivalent Chromatin Structure Marks Key Developmental Genes in Embryonic Stem Cells , 2006, Cell.
[46] Y. Sancak,et al. Tissue-Specific TAFs Counteract Polycomb to Turn on Terminal Differentiation , 2005, Science.
[47] Martin T. Suchorolski,et al. Testis-specific TAF homologs collaborate to control a tissue-specific transcription program , 2004, Development.
[48] R. Landick,et al. Downstream DNA selectively affects a paused conformation of human RNA polymerase II. , 2004, Journal of molecular biology.
[49] Jürg Müller,et al. The histone methyltransferases Trithorax and Ash1 prevent transcriptional silencing by Polycomb group proteins , 2004, EMBO reports.
[50] A. Shearn,et al. ASH1, a Drosophila trithorax group protein, is required for methylation of lysine 4 residues on histone H3 , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[51] Brigitte Wild,et al. Histone Methyltransferase Activity of a Drosophila Polycomb Group Repressor Complex , 2002, Cell.
[52] Hengbin Wang,et al. Role of Histone H3 Lysine 27 Methylation in Polycomb-Group Silencing , 2002, Science.
[53] S. Elgin,et al. Epigenetic Codes for Heterochromatin Formation and Silencing Rounding up the Usual Suspects , 2002, Cell.
[54] Hoseok Song,et al. Sequence‐specific termination by T7 RNA polymerase requires formation of paused conformation prior to the point of RNA release , 2001, Genes to cells : devoted to molecular & cellular mechanisms.
[55] R. Jaenisch,et al. The putative Drosophila methyltransferase gene dDnmt2 is contained in a transposon-like element and is expressed specifically in ovaries , 2000, Mechanisms of Development.
[56] M. Hung,et al. Drosophila proteins related to vertebrate DNA (5-cytosine) methyltransferases. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[57] M. Fuller,et al. Genetic control of cell proliferation and differentiation in Drosophila spermatogenesis. , 1998, Seminars in cell & developmental biology.
[58] P. Gönczy,et al. bag-of-marbles and benign gonial cell neoplasm act in the germline to restrict proliferation during Drosophila spermatogenesis. , 1997, Development.
[59] M. Jaglarz,et al. The active migration of Drosophila primordial germ cells. , 1995, Development.
[60] J. Lis,et al. DNA sequence requirements for generating paused polymerase at the start of hsp70. , 1992, Genes & development.
[61] D. Luse,et al. RNA polymerase II elongation complexes paused after the synthesis of 15- or 35-base transcripts have different structures , 1991, Molecular and cellular biology.
[62] A. Spradling,et al. bag-of-marbles: a Drosophila gene required to initiate both male and female gametogenesis. , 1990, Genes & development.
[63] Mary Anne Wheeler,et al. Stem , 1985 .
[64] R. B. Redmon,et al. Identity , 2021, Notre Dame J. Formal Log..
[65] Who Forever , 2022, The Translator of Desires.