Functional characterization of core promoter elements: the downstream core element is recognized by TAF1.
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Distinct modes of gene regulation by a cell-specific transcriptional activatorPrevalence of the initiator over the TATA box in human and yeast genes and identification of DNA motifs enriched in human TATA-less core promotersThe new core promoter element XCPE1 (X Core Promoter Element 1) directs activator-, mediator-, and TATA-binding protein-dependent but TFIID-independent RNA polymerase II transcription from TATA-less promotersThe unexpected traits associated with core promoter elementsThe transcriptional repressor activator protein Rap1p is a direct regulator of TATA-binding protein.Structure of promoter-bound TFIID and model of human pre-initiation complex assemblyCrystal structure of a TAF1-TAF7 complex in human transcription factor IID reveals a promoter binding moduleTAF1 Variants Are Associated with Dysmorphic Features, Intellectual Disability, and Neurological ManifestationsMice and men: their promoter propertiesThe features of Drosophila core promoters revealed by statistical analysisCharacterization of transcription from TATA-less promoters: identification of a new core promoter element XCPE2 and analysis of factor requirements.A nuclear factor-binding domain in the 5'-untranslated region of the amyloid precursor protein promoter: implications for the regulation of gene expression.Promoting developmental transcription.Regulatory interplay between TFIID's conformational transitions and its modular interaction with core promoter DNA.Three key subregions contribute to the function of the downstream RNA polymerase II core promoterA p53-dependent promoter associated with polymorphic tandem repeats controls the expression of a viral transcript encoding clustered microRNAsThree novel downstream promoter elements regulate MHC class I promoter activity in mammalian cellsMultiple novel promoter-architectures revealed by decoding the hidden heterogeneity within the genome.Role of the Sulfolobus shibatae viral T6 initiator in conferring promoter strength and in influencing transcription start site selection.The RNA polymerase II core promoter - the gateway to transcription.Genome-wide computational prediction and analysis of core promoter elements across plant monocots and dicots.Novel core promoter elements and a cognate transcription factor in the divergent unicellular eukaryote Trichomonas vaginalisEngineered Promoters for Potent Transient Overexpression.Mapping the chemical chromatin reactivation landscape identifies BRD4-TAF1 cross-talk.Evidence of the involvement of O-GlcNAc-modified human RNA polymerase II CTD in transcription in vitro and in vivoElemeNT: a computational tool for detecting core promoter elements.Bilaterian-like promoters in the highly compact Amphimedon queenslandica genome.New problems in RNA polymerase II transcription initiation: matching the diversity of core promoters with a variety of promoter recognition factors.TBP, Mot1, and NC2 establish a regulatory circuit that controls DPE-dependent versus TATA-dependent transcriptionMapping the initiator binding Taf2 subunit in the structure of hydrated yeast TFIIDMajor histocompatibility complex class I core promoter elements are not essential for transcription in vivo.Structural dynamics and DNA interaction of human TFIID.Structural basis of transcription initiation by RNA polymerase II.DTIE, a novel core promoter element that directs start site selection in TATA-less genes.Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants.The Structural Basis of Transcription: 10 Years After the Nobel Prize in Chemistry.Identification of core promoter modules in Drosophila and their application in accurate transcription start site prediction.Towards a mechanistic understanding of core promoter recognition from cryo-EM studies of human TFIID.Frameshift Mutations in the Mononucleotide Repeats of TAF1 and TAF1L Genes in Gastric and Colorectal Cancers with Regional Heterogeneity.Characterization of sINR, a strict version of the Initiator core promoter element
P2860
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P2860
Functional characterization of core promoter elements: the downstream core element is recognized by TAF1.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Functional characterization of ...... element is recognized by TAF1.
@en
Functional characterization of ...... element is recognized by TAF1.
@nl
type
label
Functional characterization of ...... element is recognized by TAF1.
@en
Functional characterization of ...... element is recognized by TAF1.
@nl
prefLabel
Functional characterization of ...... element is recognized by TAF1.
@en
Functional characterization of ...... element is recognized by TAF1.
@nl
P2093
P2860
P1476
Functional characterization of ...... element is recognized by TAF1.
@en
P2093
Brian A Lewis
Danny Reinberg
Dong-Hoon Lee
Ilya P Ioshikhes
Malavika Gupta
Naum Gershenzon
P2860
P304
P356
10.1128/MCB.25.21.9674-9686.2005
P407
P577
2005-11-01T00:00:00Z