Unbiased location analysis of E2F1-binding sites suggests a widespread role for E2F1 in the human genome.
about
Identification and analysis of functional elements in 1% of the human genome by the ENCODE pilot projectGetting started in tiling microarray analysisGenome-wide analysis of KAP1 binding suggests autoregulation of KRAB-ZNFsTranscription factors bind thousands of active and inactive regions in the Drosophila blastodermZNF274 recruits the histone methyltransferase SETDB1 to the 3' ends of ZNF genesEpigenetic regulation of protein-coding and microRNA genes by the Gfi1-interacting tumor suppressor PRDM5RNA exosome depletion reveals transcription upstream of active human promotershSirT1-dependent regulation of the PCAF-E2F1-p73 apoptotic pathway in response to DNA damagep53 regulates Period2 expression and the circadian clockInsights from genomic profiling of transcription factorsFoxA1 translates epigenetic signatures into enhancer-driven lineage-specific transcriptionCell-type selective chromatin remodeling defines the active subset of FOXA1-bound enhancersEstrogen regulation of cyclin E2 requires cyclin D1 but not c-MycN-Myc regulates a widespread euchromatic program in the human genome partially independent of its role as a classical transcription factorIntegrated epigenomic analyses of neuronal MeCP2 reveal a role for long-range interaction with active genesGlobal distribution of negative cofactor 2 subunit-alpha on human promotersGlobal mapping of c-Myc binding sites and target gene networks in human B cellsTo live or let die - complexity within the E2F1 pathwayUncovering transcription factor modules using one- and three-dimensional analysesPost-transcriptional gene expression control by NANOS is up-regulated and functionally important in pRb-deficient cellsErythroid GATA1 function revealed by genome-wide analysis of transcription factor occupancy, histone modifications, and mRNA expressionDiscovering hematopoietic mechanisms through genome-wide analysis of GATA factor chromatin occupancySALL4 is a key regulator of survival and apoptosis in human leukemic cellsQuantitative models of the mechanisms that control genome-wide patterns of transcription factor binding during early Drosophila developmentMBD3 localizes at promoters, gene bodies and enhancers of active genesSCL and associated proteins distinguish active from repressive GATA transcription factor complexesEvolutionary descent of a human chromosome 6 neocentromere: a jump back to 17 million years agoSensitive and accurate identification of protein-DNA binding events in ChIP-chip assays using higher order derivative analysis.Genome-wide in silico prediction of gene expression.A computational genomics approach to identify cis-regulatory modules from chromatin immunoprecipitation microarray data--a case study using E2F1CMARRT: a tool for the analysis of ChIP-chip data from tiling arrays by incorporating the correlation structure.Genomic targets of the KRAB and SCAN domain-containing zinc finger protein 263Cell size checkpoint control by the retinoblastoma tumor suppressor pathwayRecognition of interferon-inducible sites, promoters, and enhancers.Determinants of cell- and gene-specific transcriptional regulation by the glucocorticoid receptor.Finding cis-regulatory elements using comparative genomics: some lessons from ENCODE data.Regulation of poly(ADP-ribose) polymerase-1 (PARP-1) gene expression through the post-translational modification of Sp1: a nuclear target protein of PARP-1An integrated software system for analyzing ChIP-chip and ChIP-seq dataPromoter analysis: gene regulatory motif identification with A-GLAM.N-Myc regulates expression of pluripotency genes in neuroblastoma including lif, klf2, klf4, and lin28b.
P2860
Q21061203-120713D9-0126-469C-AB93-44EADD45A91CQ21145659-D3C37580-9956-4959-A9C4-9FB33376D17EQ21563454-E31C084F-57D0-4E19-B5C4-0CF6FFFCB672Q21563555-419D9752-DDCD-451E-86D1-113265F94CDCQ24318366-9F4170D6-EB29-43BD-AC35-052B99AA8456Q24320248-8EFDC7C4-60B2-4806-9ACD-5D366387873CQ24321777-973F0BA4-1A7B-487C-BD02-7BD2541AEA4BQ24329260-D0A6F753-01AB-4447-9864-C27D95A88859Q24336862-FBCCAFDD-E183-44FB-B08B-70A55FB937F5Q24611607-6222400D-0325-4F9A-A304-ED25A48D84C3Q24645118-220723E1-98E0-46D9-917A-17C8D921D43AQ24651915-5D2A355F-13B4-41ED-BD78-DAB326FE8CFEQ24653031-2E037B5B-63DC-40DF-A80A-37D9AA316516Q24656221-4501193C-8129-431F-9CC0-0A59A3A34A13Q24670122-8A70DC4F-F493-470F-A8C0-094B65A28BDFQ24674005-C1CD50EE-E206-4DAB-8F6E-9269EF234DFBQ24675083-3C6B48B5-BC91-40DF-99D0-F0858B4F06DAQ26862588-09FD1CA4-F538-4709-B2BD-DC38E5150979Q26862955-E488B6F3-1E7B-45D1-BA5C-64A3BA1036F0Q28118300-223EAE4B-4C7D-47A5-8868-9A9502E7C239Q28263560-BB3DD0BE-B97D-4AFB-8DF1-8DFD963CDE98Q28265885-B3A1D3F6-EFD6-49F5-9CA8-AF54203988B8Q28280516-A2A7CE02-425B-4AED-92A5-C2C4BDAA26F2Q28477071-33ACFB9A-9DBD-48C0-A6F8-A39E79A7970AQ28537973-D2E77800-8E83-4119-BEE2-970039F69557Q28591576-81408C1B-0C6A-4567-BF1B-9B2B108E30A4Q28754590-C6905828-4AAF-40FF-AEEC-19D17E6BDAD1Q30476280-055DEE38-14FB-465C-A1DD-A32D044AD154Q30525712-93D04EC0-E640-4E10-9AAA-0383EA46C54FQ31068338-1A697E53-4A4C-464A-BA28-10BAA164AA6AQ31144513-47B8E0BA-D540-496D-BFB2-C4ED95204E65Q31814776-715C06C7-6C12-474A-B2D0-FD5FCE5F2CCBQ33260350-00A0F266-3D5E-4681-B550-2D541AE7B729Q33274587-04AE5516-ECB1-49B8-AE1F-A14EA3948B3CQ33287197-6299B95E-833F-4CCD-BD18-EBE2F303DEC8Q33287630-D598DF5C-125A-4D72-B312-003AE7FE5D34Q33303916-CE944DB1-B384-4DA4-B3BF-9D95B66D2686Q33382059-BCCADAA0-C9E6-48FC-AAEA-4B781AFEF288Q33432115-2A8BDD72-2FDE-4E88-B6B5-9A933E2EE94CQ33460427-1A1B0D9D-310C-4014-811C-5A5F4EF85BE3
P2860
Unbiased location analysis of E2F1-binding sites suggests a widespread role for E2F1 in the human genome.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Unbiased location analysis of ...... for E2F1 in the human genome.
@en
type
label
Unbiased location analysis of ...... for E2F1 in the human genome.
@en
prefLabel
Unbiased location analysis of ...... for E2F1 in the human genome.
@en
P2093
P2860
P356
P1433
P1476
Unbiased location analysis of ...... for E2F1 in the human genome.
@en
P2093
Mark Bieda
Michael A Singer
Roland Green
Xiaoqin Xu
P2860
P304
P356
10.1101/GR.4887606
P577
2006-04-10T00:00:00Z