A palindromic regulatory site within vertebrate GATA-1 promoters requires both zinc fingers of the GATA-1 DNA-binding domain for high-affinity interaction
about
hFOG-2, a novel zinc finger protein, binds the co-repressor mCtBP2 and modulates GATA-mediated activationFamilial dyserythropoietic anaemia and thrombocytopenia due to an inherited mutation in GATA1X-linked thrombocytopenia with thalassemia from a mutation in the amino finger of GATA-1 affecting DNA binding rather than FOG-1 interactionTranscriptional cofactors of the FOG family interact with GATA proteins by means of multiple zinc fingersMaster regulatory GATA transcription factors: mechanistic principles and emerging links to hematologic malignanciesGATA family transcriptional factors: emerging suspects in hematologic disordersThe GATA1-HS2 enhancer allows persistent and position-independent expression of a β-globin transgeneCrystal Structures of Multiple GATA Zinc Fingers Bound to DNA Reveal New Insights into DNA Recognition and Self-Association by GATAStructural basis of simultaneous recruitment of the transcriptional regulators LMO2 and FOG1/ZFPM1 by the transcription factor GATA1DNA Binding by GATA Transcription Factor Suggests Mechanisms of DNA Looping and Long-Range Gene RegulationSreA-mediated iron regulation in Aspergillus fumigatusNovel combinatorial interactions of GATA-1, PU.1, and C/EBPepsilon isoforms regulate transcription of the gene encoding eosinophil granule major basic proteinErythro-megakaryocytic transcription factors associated with hereditary anemiaInsights into GATA-1-mediated gene activation versus repression via genome-wide chromatin occupancy analysisAnalysis of disease-causing GATA1 mutations in murine gene complementation systemsGATA-1 associates with and inhibits p53.Endothelial lineage-mediated loss of the GATA cofactor Friend of GATA 1 impairs cardiac developmentFOG-2: A novel GATA-family cofactor related to multitype zinc-finger proteins Friend of GATA-1 and U-shaped.GATA-1: friends, brothers, and coworkers.Effect of fetal hemoglobin-stimulating medicines on the interaction of DNA and protein of important erythroid regulatory elements.Substitution of DNA-contacting amino acids with functional variants in the Gata-1 zinc finger: a structurally and phylogenetically guided mutagenesisCharacterization of megakaryocyte GATA1-interacting proteins: the corepressor ETO2 and GATA1 interact to regulate terminal megakaryocyte maturationThe transcription factor GATA1 regulates NBEAL2 expression through a long-distance enhancer.GATA factor mutations in hematologic disease.GATA motifs regulate early hematopoietic lineage-specific expression of the Gata2 gene.A GATA box in the GATA-1 gene hematopoietic enhancer is a critical element in the network of GATA factors and sites that regulate this gene.Hierarchical differentiation of myeloid progenitors is encoded in the transcription factor networkThe zinc finger-containing transcription factors GATA-4, -5, and -6. Ubiquitously expressed regulators of tissue-specific gene expression.In vivo requirements for GATA-1 functional domains during primitive and definitive erythropoiesis.Chromatin domain activation via GATA-1 utilization of a small subset of dispersed GATA motifs within a broad chromosomal region.Two isoforms of Serpent containing either one or two GATA zinc fingers have different roles in Drosophila haematopoiesis.Neurokinin-B transcription in erythroid cells: direct activation by the hematopoietic transcription factor GATA-1.GATA-1 directly regulates p21 gene expression during erythroid differentiationTranscriptional control of erythropoiesis: emerging mechanisms and principles.Transcriptional regulation of erythropoiesis. Fine tuning of combinatorial multi-domain elements.Progenitor stage-specific activity of a cis-acting double GATA motif for Gata1 gene expressionTACO: a general-purpose tool for predicting cell-type-specific transcription factor dimers.GATA-1-dependent transcriptional repression of GATA-2 via disruption of positive autoregulation and domain-wide chromatin remodelingThe Human GATA1 Gene Retains a 5' Insulator That Maintains Chromosomal Architecture and GATA1 Expression Levels in Splenic ErythroblastsNuclear Receptor-Like Structure and Interaction of Congenital Heart Disease-Associated Factors GATA4 and NKX2-5.
P2860
Q22010481-E78D05B0-BF22-45C1-94CD-3A809CB0E830Q22253271-4899C18A-3F5E-40D7-919A-519261142E7AQ24305399-2F65ABDF-492B-4773-97F0-3D5FA905E532Q24534136-1DAC7184-85F5-427F-8C44-15FA901F3E3DQ26782052-135F7A02-2455-4D03-A652-23E600EEAE79Q26786487-8D357D46-88BD-4E5B-B02E-D3B1347B7CC1Q27312035-BFF77D7E-9ADB-42EF-BDB3-540906EECB21Q27651158-99D42891-C0D3-48BD-8D08-BCCC92A7E3FFQ27671779-70AC1260-4BEA-4924-80A7-BAF48918F0E6Q27675048-55490083-D4FB-444D-A39A-E7AA403F5236Q27976506-4D680E2F-ACCB-4734-8632-83938F4DD429Q28219413-3E6AA4A9-B5AD-4DA8-B77A-2D60D02A50B9Q28236415-2CC5E149-CFA9-4B1C-AD59-3E8E6CAB8F96Q28265897-2AE9DF4F-53FA-44CD-8194-CD91B0C180C7Q28291377-3C40E103-CF2A-49FE-9CE2-FE60DF9EC0BEQ28504708-1B3A0EAC-A94E-49A3-B34D-0D4880C33231Q28594117-62001C9A-823F-4B87-A07B-5BE4309B6C91Q28610642-77DE5EC3-3598-47B5-9EE3-928C19ABDD76Q30350009-28D45D8D-5DDB-4FB6-9A9D-3CB2494BFE3BQ33194077-CBCE799A-DF03-418A-9A7D-2E57F4EC4A5BQ33323118-56EA365C-9FFE-4493-84FF-E888FD018071Q33380348-FF05806E-E81E-4E2D-A0B2-2B5071AA7003Q33438367-B85F2666-C3F4-49F6-8761-E3FCC51C3A53Q33439175-5A0E39B2-2D71-48D8-9673-92F88F2136C0Q33924853-BA8C7F70-E39A-4E70-90B4-6AA9244EC30BQ33961661-A7EA689E-E423-4360-87B2-31D1AAB469C8Q33996801-A2BB5F22-6926-4F02-B519-9462EE9291CCQ34066369-77C0CA64-F29F-4527-A0AD-3B20D138B164Q34082296-7309DC31-AE89-4C07-9B76-C7F71714BACDQ34144645-9A923567-4B38-4C82-BEFC-3DA4BB2E5AFAQ34150163-9FA3A13E-C288-4026-A050-A33638799515Q34318281-E85C0657-A486-4962-812E-33D51BC9F068Q34482319-D8D8DEB3-7B30-4765-B48B-EE5EED190CFFQ34700755-DF25A4E6-581A-4613-BAE1-6762EAABA420Q34769966-1E3E377B-1F21-4CF1-87D9-EEF8FF0FC423Q35069552-6DDB4143-03CD-4944-A61C-5754FA02AB83Q35123487-8BC4F551-C01A-4820-9747-5D3C7C8A925DQ35170832-0DE8A1B8-AF7A-4C42-8377-F7732A36AC7BQ35516673-6A9875ED-FBE8-40C4-BD10-C3B788AC6574Q35862534-21065E11-858C-4663-B049-0407C39608ED
P2860
A palindromic regulatory site within vertebrate GATA-1 promoters requires both zinc fingers of the GATA-1 DNA-binding domain for high-affinity interaction
description
1996 nî lūn-bûn
@nan
1996 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
A palindromic regulatory site ...... for high-affinity interaction
@ast
A palindromic regulatory site ...... for high-affinity interaction
@en
A palindromic regulatory site ...... for high-affinity interaction
@en-gb
A palindromic regulatory site ...... for high-affinity interaction
@nl
type
label
A palindromic regulatory site ...... for high-affinity interaction
@ast
A palindromic regulatory site ...... for high-affinity interaction
@en
A palindromic regulatory site ...... for high-affinity interaction
@en-gb
A palindromic regulatory site ...... for high-affinity interaction
@nl
prefLabel
A palindromic regulatory site ...... for high-affinity interaction
@ast
A palindromic regulatory site ...... for high-affinity interaction
@en
A palindromic regulatory site ...... for high-affinity interaction
@en-gb
A palindromic regulatory site ...... for high-affinity interaction
@nl
P2093
P2860
P921
P356
P1476
A palindromic regulatory site ...... for high-affinity interaction
@en
P2093
C D Trainor
G Felsenfeld
J G Omichinski
T L Vandergon
P2860
P304
P356
10.1128/MCB.16.5.2238
P407
P577
1996-05-01T00:00:00Z