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Kharchenko PV Alekseyenko AA Schwartz YB Minoda A Riddle NC Ernst J Sabo PJ Larschan E Gorchakov AA Gu T Linder-Basso D Plachetka A Shanower G Tolstorukov MY Luquette LJ Xi R Jung YL Park RW Bishop EP Canfield TK Sandstrom R Thurman RE MacAlpine DM Stamatoyannopoulos JA Kellis M Elgin SC Kuroda MI Pirrotta V Karpen GH Park PJ 《Nature》2011,471(7339):480-485
Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which have an impact on cell differentiation, gene regulation and other key cellular processes. Here we present a genome-wide chromatin landscape for Drosophila melanogaster based on eighteen histone modifications, summarized by nine prevalent combinatorial patterns. Integrative analysis with other data (non-histone chromatin proteins, DNase I hypersensitivity, GRO-Seq reads produced by engaged polymerase, short/long RNA products) reveals discrete characteristics of chromosomes, genes, regulatory elements and other functional domains. We find that active genes display distinct chromatin signatures that are correlated with disparate gene lengths, exon patterns, regulatory functions and genomic contexts. We also demonstrate a diversity of signatures among Polycomb targets that include a subset with paused polymerase. This systematic profiling and integrative analysis of chromatin signatures provides insights into how genomic elements are regulated, and will serve as a resource for future experimental investigations of genome structure and function. 相似文献
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S Neph J Vierstra AB Stergachis AP Reynolds E Haugen B Vernot RE Thurman S John R Sandstrom AK Johnson MT Maurano R Humbert E Rynes H Wang S Vong K Lee D Bates M Diegel V Roach D Dunn J Neri A Schafer RS Hansen T Kutyavin E Giste M Weaver T Canfield P Sabo M Zhang G Balasundaram R Byron MJ MacCoss JM Akey MA Bender M Groudine R Kaul JA Stamatoyannopoulos 《Nature》2012,489(7414):83-90
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The accessible chromatin landscape of the human genome 总被引:2,自引:0,他引:2
RE Thurman E Rynes R Humbert J Vierstra MT Maurano E Haugen NC Sheffield AB Stergachis H Wang B Vernot K Garg S John R Sandstrom D Bates L Boatman TK Canfield M Diegel D Dunn AK Ebersol T Frum E Giste AK Johnson EM Johnson T Kutyavin B Lajoie BK Lee K Lee D London D Lotakis S Neph F Neri ED Nguyen H Qu AP Reynolds V Roach A Safi ME Sanchez A Sanyal A Shafer JM Simon L Song S Vong M Weaver Y Yan Z Zhang Z Zhang B Lenhard M Tewari MO Dorschner RS Hansen PA Navas G Stamatoyannopoulos VR Iyer 《Nature》2012,489(7414):75-82
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Nanotubes and nanowires with both elemental (carbon or silicon) and multi-element compositions (such as compound semiconductors or oxides), and exhibiting electronic properties ranging from metallic to semiconducting, are being extensively investigated for use in device structures designed to control electron charge. However, another important degree of freedom--electron spin, the control of which underlies the operation of 'spintronic' devices--has been much less explored. This is probably due to the relative paucity of nanometre-scale ferromagnetic building blocks (in which electron spins are naturally aligned) from which spin-polarized electrons can be injected. Here we describe nanotubes of vanadium oxide (VO(x)), formed by controllable self-assembly, that are ferromagnetic at room temperature. The as-formed nanotubes are transformed from spin-frustrated semiconductors to ferromagnets by doping with either electrons or holes, potentially offering a route to spin control in nanotube-based heterostructures. 相似文献
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