Hematopoietic-specific activators establish an overlapping pattern of histone acetylation and methylation within a mammalian chromatin domain.
about
Master regulatory GATA transcription factors: mechanistic principles and emerging links to hematologic malignanciesMultiple functions of Ldb1 required for beta-globin activation during erythroid differentiationSpecific erythroid-lineage defect in mice conditionally deficient for Mediator subunit Med1Covalent histone modifications underlie the developmental regulation of insulin gene transcription in pancreatic beta cells.Subcellular transport of EKLF and switch-on of murine adult beta maj globin gene transcription.Molecular determinants for small Maf protein control of platelet productionH4R3 methylation facilitates beta-globin transcription by regulating histone acetyltransferase binding and H3 acetylationDevelopmental stage differences in chromatin subdomains of the beta-globin locus.p45 NF-E2 regulates syncytiotrophoblast differentiation by post-translational GCM1 modifications in human intrauterine growth restriction.Molecular determinants of NOTCH4 transcription in vascular endothelium.Sequences downstream of the erythroid promoter are required for high level expression of the human alpha-spectrin gene.Chromatin domain activation via GATA-1 utilization of a small subset of dispersed GATA motifs within a broad chromosomal region.Neurokinin-B transcription in erythroid cells: direct activation by the hematopoietic transcription factor GATA-1.Regulation of delta-aminolevulinic acid dehydratase by krüppel-like factor 1.An Erythroid-Specific Chromatin Opening Element Increases β-Globin Gene Expression from Integrated Retroviral Gene Transfer Vectors.Transcriptional control of erythropoiesis: emerging mechanisms and principles.Differential sensitivities of transcription factor target genes underlie cell type-specific gene expression profiles.A complex chromatin landscape revealed by patterns of nuclease sensitivity and histone modification within the mouse beta-globin locusGATA-1-dependent transcriptional repression of GATA-2 via disruption of positive autoregulation and domain-wide chromatin remodelingAltered chromatin occupancy of master regulators underlies evolutionary divergence in the transcriptional landscape of erythroid differentiationA novel murine model of myeloproliferative disorders generated by overexpression of the transcription factor NF-E2.Expression of GATA-1 in a non-hematopoietic cell line induces beta-globin locus control region chromatin structure remodeling and an erythroid pattern of gene expression.Coregulator-dependent facilitation of chromatin occupancy by GATA-1.Context-dependent regulation of GATA-1 by friend of GATA-1.Highly restricted localization of RNA polymerase II within a locus control region of a tissue-specific chromatin domain.Important roles of reversible acetylation in the function of hematopoietic transcription factors.Activator-mediated recruitment of the MLL2 methyltransferase complex to the beta-globin locus.USF1 recruits histone modification complexes and is critical for maintenance of a chromatin barrier.Long-range histone acetylation of the Ifng gene is an essential feature of T cell differentiation.The role of transcriptional activator GATA-1 at human beta-globin HS2Transcription factor nuclear factor erythroid-2 mediates expression of the cytokine interleukin 8, a known predictor of inferior outcome in patients with myeloproliferative neoplasms.Transcriptional mechanisms underlying hemoglobin synthesis.Epigenetics of beta-globin gene regulationThe hematopoietic regulator TAL1 is required for chromatin looping between the β-globin LCR and human γ-globin genes to activate transcription.Influence of immune privilege on ocular tumor development.Epigenetic and genetic mechanisms in red cell biology.Hematopoietic transcriptional mechanisms: from locus-specific to genome-wide vantage points.Tal1/SCL binding to pericentromeric DNA represses transcription.Dynamic GATA factor interplay at a multicomponent regulatory region of the GATA-2 locus.The c-myc insulator element and matrix attachment regions define the c-myc chromosomal domain.
P2860
Q26782052-2F15F589-D313-434F-A4AA-1AC12D3F4402Q28509849-0575EAE2-CE3F-45F8-9029-57A0A4AE5CD2Q28513162-EA231A52-8DE9-4680-86D6-4570B678070BQ30310799-005728C6-A969-459A-B4CC-AABC10FD2DB0Q33343638-5AE8D9B4-BCA8-471E-9152-30441CA57181Q33392453-649B60CD-BB19-42D1-950E-0296B61027ADQ33722642-E9B65901-3B1F-44FE-AD67-3B67711678EFQ33782323-FAC6F22F-B232-47A6-A729-E1329EBCD3F0Q33815861-5835F74D-7E4D-4602-AC02-6EF62C9C0923Q33823770-2DF1B1F3-55F0-4A32-B541-C7CBA1FC571CQ33981947-717FF667-ED42-46B0-80D6-B39C85D4DDC7Q34144645-BE0AA303-71A9-45C5-9FE7-2209F0F89E3DQ34318281-1E55E88D-E2CE-495C-97AA-B90E7134F83FQ34441516-45B38CA1-9DB6-4F58-8B45-0DB47AAAA7FFQ34586740-60119224-9C42-409C-B430-E9702EAECA63Q34700755-1C614F0D-BD2F-4C97-AA6E-7766A5749105Q35127556-6C28E163-7315-4357-A9A0-62EC0A4A6AE8Q35161605-F42D3A19-9461-49AE-B92F-2804AFAF4C06Q35170832-1A717F8B-B16C-47A5-A56E-1F9CD192F0C7Q35529339-4C62FE7B-475E-493C-B0D6-0EF8351F7CC5Q35679582-6F1A43EF-4FBC-434D-9620-BA0D3BD83F65Q35728245-58941455-3894-4C2D-9361-4F7442A5C654Q35730757-DFFB4198-716E-4905-9852-C5D9285E6ABBQ35733779-D14ED25F-CB21-4CEA-B3CC-503A621DDD18Q35920505-9B33141B-94B4-4F82-B3C0-9922CCBA2A95Q36077401-527C9F18-B0B7-4F06-965A-32263EDCA8FDQ36082540-93701517-DEE3-4517-ADBE-35E76FFDDCA5Q36315893-109E3404-6F5D-41A4-9A52-E040261151F7Q36602302-8DA9F0E6-2A23-41EB-BA0C-8F8458AD9B36Q36824044-C5AD0242-7BC1-4A2E-AD3D-123AE5877B8DQ36967127-6CD20DF2-C3CF-4766-AA5D-EB4491245599Q37122360-4E9563A7-B0A4-4F0C-BD53-96B0781D86DEQ37257146-5F1A3091-FF9A-4453-BE6B-B14D310D363AQ37701280-132B7590-CD9E-49A9-B0E9-04DBA98C0D25Q37724789-72B30C26-F39F-4732-8611-532882181CC6Q38203766-6DA1750E-174C-4BA8-8EFE-5D1E244C7255Q38210855-0DF72E7F-2207-4617-B358-06EBB9A6367BQ38331330-A4D5CB7D-79C6-47BA-920E-C0ADF2615368Q38335220-562DA082-299C-46A5-A00C-86AE03A5B2F3Q38492610-461B68E5-9D04-420B-A666-F5B87EE934E5
P2860
Hematopoietic-specific activators establish an overlapping pattern of histone acetylation and methylation within a mammalian chromatin domain.
description
2002 nî lūn-bûn
@nan
2002 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@ast
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@en
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@nl
type
label
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@ast
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@en
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@nl
prefLabel
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@ast
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@en
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@nl
P2093
P2860
P356
P1476
Hematopoietic-specific activat ...... a mammalian chromatin domain.
@en
P2093
Carol M Kiekhaefer
Emery H Bresnick
Jeffrey A Grass
Kirby D Johnson
Meghan E Boyer
P2860
P304
14309-14314
P356
10.1073/PNAS.212389499
P407
P577
2002-10-11T00:00:00Z