Nucleosome positioning by the winged helix transcription factor HNF3
about
Differential binding and co-binding pattern of FOXA1 and FOXA3 and their relation to H3K4me3 in HepG2 cells revealed by ChIP-seqFHX, a novel fork head factor with a dual DNA binding specificityBRCA1 and FOXA1 proteins coregulate the expression of the cell cycle-dependent kinase inhibitor p27(Kip1)Pioneer transcription factors: establishing competence for gene expressionRepression by Groucho/TLE/Grg proteins: genomic site recruitment generates compacted chromatin in vitro and impairs activator binding in vivoFoxA proteins regulate H19 endoderm enhancer E1 and exhibit developmental changes in enhancer binding in vivoInactivation of the winged helix transcription factor HNF3alpha affects glucose homeostasis and islet glucagon gene expression in vivoUpstream region of rat serum albumin gene promoter contributes to promoter activity: presence of functional binding site for hepatocyte nuclear factor-3Integrase-specific enhancement and suppression of retroviral DNA integration by compacted chromatin structure in vitroNucleosome positioning: how is it established, and why does it matter?Role of histone H1 as an architectural determinant of chromatin structure and as a specific repressor of transcription on Xenopus oocyte 5S rRNA genesHepatocyte nuclear factor 3beta (Foxa2) is dispensable for maintaining the differentiated state of the adult hepatocyteElevated levels of hepatocyte nuclear factor 3beta in mouse hepatocytes influence expression of genes involved in bile acid and glucose homeostasis.Nucleosomes are translationally positioned on the active allele and rotationally positioned on the inactive allele of the HPRT promoter.Profound defects in pancreatic beta-cell function in mice with combined heterozygous mutations in Pdx-1, Hnf-1alpha, and Hnf-3betaReprogramming transcription by distinct classes of enhancers functionally defined by eRNAThe forkhead transcription factor FoxI1 remains bound to condensed mitotic chromosomes and stably remodels chromatin structureHepatic nuclear factor 3 and nuclear factor 1 regulate 5-aminolevulinate synthase gene expression and are involved in insulin repression.FOXD3 Regulates Pluripotent Stem Cell Potential by Simultaneously Initiating and Repressing Enhancer Activity.Hormone activation induces nucleosome positioning in vivo.Pioneer transcription factors in cell reprogramming.Dynamic nucleosome organization at hox promoters during zebrafish embryogenesis.A feel for the template: zinc finger protein transcription factors and chromatin.Impaired glucose homeostasis and neonatal mortality in hepatocyte nuclear factor 3alpha-deficient micePHA-4/FoxA cooperates with TAM-1/TRIM to regulate cell fate restriction in the C. elegans foregutMinireview: applications of next-generation sequencing on studies of nuclear receptor regulation and functionIn control of biology: of mice, men and FoxesCis-regulatory modules in the mammalian liver: composition depends on strength of Foxa2 consensus site.Androgen receptor-independent function of FoxA1 in prostate cancer metastasisPosition-dependent activity of alpha -fetoprotein enhancer element III in the adult liver is due to negative regulation.In vivo interactions of the Acanthamoeba TBP gene promoter.Cooperativity and equilibrium with FOXA1 define the androgen receptor transcriptional program.Functional conservation of regulatory elements in the pdx-1 gene: PDX-1 and hepatocyte nuclear factor 3beta transcription factors mediate beta-cell-specific expression.Identification of factors mediating the developmental regulation of the early acting -3.9 kb chicken lysozyme enhancer element.The Pioneer Transcription Factor FoxA Maintains an Accessible Nucleosome Configuration at Enhancers for Tissue-Specific Gene Activation.Mammalian hepatocyte differentiation requires the transcription factor HNF-4alpha.Stability of the hepatocyte nuclear factor 6 transcription factor requires acetylation by the CREB-binding protein coactivator.Hepatocyte nuclear factor 3 relieves chromatin-mediated repression of the alpha-fetoprotein gene.The mouse alpha-fetoprotein promoter is repressed in HepG2 hepatoma cells by hepatocyte nuclear factor-3 (FOXA).p53 targets chromatin structure alteration to repress alpha-fetoprotein gene expression.
P2860
Q21092861-12590A67-C395-4C10-AC6A-32A36F229A6EQ22253963-AA5D61B3-2683-450E-A05C-6010A102ACC8Q24298165-B6313F07-65A8-475B-A9A4-7BF26B8105FBQ24625373-2DC6F105-B053-441D-8AE0-95816E3C403DQ24674585-927DF536-B3F3-49BC-A0C0-99B4DF7C42A4Q28505087-313E3316-A646-4E1C-B82A-E649425BF962Q28507284-6564455C-85D4-4C5D-AFDE-F3C31C0D7B0CQ28582053-1980FC10-0E45-4815-A702-FACACA5918B9Q33202886-1CC6851B-6010-4407-BFA4-7AA1A518D7D4Q33695266-3EE8DD68-9CCA-4E62-BB9F-AC05F23CD328Q33774465-A7FF6FF6-38A6-4323-B8E9-3273342928E2Q33964626-DBBC3987-FFD1-4DEF-B05C-1B17FBAD70A2Q33966276-58C4A660-FE9A-4699-859D-2645A86F66F2Q34012743-953D00FF-1337-4802-8B7B-106ADEF96989Q34020577-1AA313E6-1EE4-4043-906C-FFF0A8EDCFDBQ34185076-FA42F5B4-651A-468C-863F-26E237F30A43Q34233434-EB7C190C-122E-4981-BFC6-759ACEB26C39Q34318338-D04F0B5F-74F4-4D1F-8FAF-BCC4635B1B62Q34508290-DA4B2A2D-F7D7-4622-96E4-5FF1E51F6691Q34666549-CD047359-53B9-42EC-8C9A-1DE779BBFCFDQ34697693-08281597-4894-44B9-AA98-C8AE94510367Q34721066-DB8A529A-765E-48C5-B466-3528327A7E8AQ34746906-A5DD29B1-8E53-4615-B7AF-08A82373561CQ35617423-407FD628-72A8-4EB9-8944-DB02B9B98C09Q35758336-0C662676-39AE-40C7-B64B-FFD86C9296B5Q36279521-7353EC84-BE35-42CE-B325-869612E37AD2Q36515335-6B66F6F4-11CA-4B31-BD35-470A6D5DBAA5Q36777847-874E2BAC-20E6-47CC-933A-501FC4D4E87AQ36941029-6DE8315F-B6A1-41C1-989B-B7DF19196795Q37264956-0DEE892A-5FD7-4763-BE3E-3C3EAEFB68E0Q37518366-D7537169-D981-460E-8524-49F89ABE700FQ38990293-FFB5DCA3-07F7-4C88-BD39-2F92445AB4ADQ39455902-C5194B2A-A37E-4BD6-83C7-0ED916D4668EQ39489104-FD35272E-BBC8-44EE-9B9C-BE5F2D1EBC62Q40002806-0D2EC630-1CBA-4FAE-B45D-4518BEBE2FEBQ40442109-8593D202-10CC-46DD-B929-E9699A52CC79Q40526658-C4C44BF6-B379-45B8-B846-A7D5111F2425Q40934214-8ABCAA23-8FF4-4BF7-B760-03C5261A6D44Q41862835-28B47B12-0F54-472E-9DEA-2AA5F759E2CAQ42660335-C9A03307-540E-4361-9BAD-2C17F48FA4B2
P2860
Nucleosome positioning by the winged helix transcription factor HNF3
description
1998 nî lūn-bûn
@nan
1998 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Nucleosome positioning by the winged helix transcription factor HNF3
@ast
Nucleosome positioning by the winged helix transcription factor HNF3
@en
type
label
Nucleosome positioning by the winged helix transcription factor HNF3
@ast
Nucleosome positioning by the winged helix transcription factor HNF3
@en
prefLabel
Nucleosome positioning by the winged helix transcription factor HNF3
@ast
Nucleosome positioning by the winged helix transcription factor HNF3
@en
P2093
P2860
P356
P1433
P1476
Nucleosome positioning by the winged helix transcription factor HNF3
@en
P2093
P2860
P356
10.1101/GAD.12.1.5
P577
1998-01-01T00:00:00Z