Epigenetic signatures distinguish multiple classes of enhancers with distinct cellular functions.
about
Predicting cell types and genetic variations contributing to disease by combining GWAS and epigenetic dataDiscovery of active enhancers through bidirectional expression of short transcriptsWhat does our genome encode?Transcriptional Enhancers in the Regulation of T Cell DifferentiationOsteosarcoma Genetics and Epigenetics: Emerging Biology and Candidate TherapiesChromatin Dynamics in Lineage Commitment and Cellular ReprogrammingChromodomain helicase DNA-binding proteins in stem cells and human developmental diseasesEnhancer malfunction in cancerTowards an understanding of cell-specific functions of signal-dependent transcription factorsEpigenetic Modifications of the PGC-1α Promoter during Exercise Induced Expression in MiceDeciphering the Epigenetic Code in Embryonic and Dental Pulp Stem CellsThe selection and function of cell type-specific enhancersAnalysis of the SWI/SNF chromatin-remodeling complex during early heart development and BAF250a repression cardiac gene transcription during P19 cell differentiationComputational characterization of modes of transcriptional regulation of nuclear receptor genesEpigenomic comparison reveals activation of "seed" enhancers during transition from naive to primed pluripotencyIntegrative annotation of human large intergenic noncoding RNAs reveals global properties and specific subclassesHierarchical mechanisms for direct reprogramming of fibroblasts to neuronsAn Hdac1/Rpd3-Poised Circuit Balances Continual Self-Renewal and Rapid Restriction of Developmental Potential during Asymmetric Stem Cell Division.Genome-wide predictors of NF-κB recruitment and transcriptional activityEpigenetic coordination of signaling pathways during the epithelial-mesenchymal transitionThe meta-epigenomic structure of purified human stem cell populations is defined at cis-regulatory sequencesInferring dynamic gene regulatory networks in cardiac differentiation through the integration of multi-dimensional data.Chromatin states reveal functional associations for globally defined transcription start sites in four human cell lines.Retrieving Chromatin Patterns from Deep Sequencing Data Using Correlation Functions.Biased, non-equivalent gene-proximal and -distal binding motifs of orphan nuclear receptor TR4 in primary human erythroid cellsLandscape of histone modifications in a sponge reveals the origin of animal cis-regulatory complexity.Transcription factor-associated combinatorial epigenetic pattern reveals higher transcriptional activity of TCF7L2-regulated intragenic enhancers.Lsh/HELLS regulates self-renewal/proliferation of neural stem/progenitor cells.Differential DNA methylation with age displays both common and dynamic features across human tissues that are influenced by CpG landscapeChromatin properties of regulatory DNA probed by manipulation of transcription factors.The dynamics of DNA methylation fidelity during mouse embryonic stem cell self-renewal and differentiation.Chromatin profiling reveals regulatory network shifts and a protective role for hepatocyte nuclear factor 4α during colitis.Clustered ChIP-Seq-defined transcription factor binding sites and histone modifications map distinct classes of regulatory elements.Open chromatin profiling in mice livers reveals unique chromatin variations induced by high fat diet.IL-10 transcription is negatively regulated by BAF180, a component of the SWI/SNF chromatin remodeling enzyme.Enhancers as information integration hubs in development: lessons from genomics.TNFα signals through specialized factories where responsive coding and miRNA genes are transcribed.Finding combinatorial histone code by semi-supervised biclusteringModification of enhancer chromatin: what, how, and why?In search of the determinants of enhancer-promoter interaction specificity.
P2860
Q21133752-085FC971-CB13-433B-BB4D-7BAE56EB2EFEQ21184027-3FD9727D-C154-41DF-BED0-DA5BB7C38F88Q22065765-AE1F1CAA-ADE4-4BA7-8E38-866272AF80B7Q26781307-DFD198EA-B779-44FF-84D9-78722788ACBCQ26782646-64A64F4B-2DF1-4433-B966-45D752063F4CQ26801740-871449D7-3429-471A-AB25-11661A473C54Q26822979-D144A76B-3E37-4B33-9113-EDA31BF17123Q26861197-FD891F4A-0FEF-4393-8B58-E869672335DDQ27001970-7C97B6B9-105A-4CC6-B621-EC821FD2737BQ27304656-AF000E56-6066-4728-9AC8-996A3C8C5BD9Q28080288-B9918038-0747-4EC0-ACD2-6D80FF20BC1AQ28081960-DCD503E8-3708-46E3-AA30-6CBCA8304986Q28508313-660A8ACE-6B12-46B4-A05D-09EC91839DB8Q28539796-523A261F-3F8B-4D44-8302-78E824B6427EQ28656320-5DC4E120-B740-42FC-AAB2-D4446B89CE83Q29547647-1B90294E-9BA2-40DC-904B-AE79742EA9ECQ29871108-67B7E4A7-02A0-4117-9D10-868B97D542BEQ30253072-8C8C1C40-6DC4-4390-8257-E5ECBBCBC4E9Q30277994-E58C95EE-A695-4D1B-8A89-6C8BA5937F7FQ30415888-4EE2D3A8-96D5-4409-B1C0-98FA1EA30B01Q30616764-F0466592-5FDC-4E4C-A358-F5AFE655160DQ30936220-AEA82661-74FC-4602-B3D6-23A5882D6C38Q31154613-9EF2E0F0-0C94-42DC-8331-816F81B1972FQ31157515-21AF0D2D-9C4B-42FF-ABC1-E77382906208Q33583662-2B04F0F9-5F30-4206-B2B2-36A2B573DEEFQ33675663-46555CA3-AC53-4128-B10E-10610B70455EQ33677321-CE295797-D8F7-4043-8D8A-C01C82913485Q33682709-06C8EE27-7334-40F2-99B0-220E073D3358Q33742677-F3A2B3C5-E5D8-4D92-AE9A-5A24A70684E2Q33973243-557B4A92-5352-43E8-92C8-079AE379FFCAQ33994825-B5E1DA51-D436-4476-8851-E08851C72714Q34056411-31DD9C49-C8FB-4A16-A741-59DEF9F8773CQ34083278-1BB7A4CB-8223-4962-B762-F164515333EDQ34140973-522D7A9C-3EB0-419B-B5CE-963CEB5AE84BQ34159629-D843FB13-06CD-49D2-A044-1A88053224D6Q34266848-CEAFE4C5-4BE1-44AC-921A-B100ACF250D4Q34308547-CAF04664-3C60-464A-A0A6-AD233A769A76Q34324840-FEB1B65A-F8D3-4050-AC5C-A74C8F021819Q34331930-CD6DED5E-FD38-4E3D-B9C0-762A7ED8B670Q34435301-84A65E44-F54F-4584-9E67-408E8E05FE70
P2860
Epigenetic signatures distinguish multiple classes of enhancers with distinct cellular functions.
description
2011 nî lūn-bûn
@nan
2011 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Epigenetic signatures distingu ...... h distinct cellular functions.
@ast
Epigenetic signatures distingu ...... h distinct cellular functions.
@en
type
label
Epigenetic signatures distingu ...... h distinct cellular functions.
@ast
Epigenetic signatures distingu ...... h distinct cellular functions.
@en
prefLabel
Epigenetic signatures distingu ...... h distinct cellular functions.
@ast
Epigenetic signatures distingu ...... h distinct cellular functions.
@en
P2093
P2860
P356
P1433
P1476
Epigenetic signatures distingu ...... h distinct cellular functions.
@en
P2093
Gabriel E Zentner
Paul J Tesar
Peter C Scacheri
P2860
P304
P356
10.1101/GR.122382.111
P577
2011-06-01T00:00:00Z