Wrapping of promoter DNA around the RNA polymerase II initiation complex induced by TFIIF.
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Structure of the central core domain of TFIIEbeta with a novel double-stranded DNA-binding surfaceCrystal structure of the C-terminal domain of the RAP74 subunit of human transcription factor IIFThe Structure of the Mammalian RNase H2 Complex Provides Insight into RNA{middle dot}DNA Hybrid Processing to Prevent Immune DysfunctionGenetic evidence supports a role for the yeast CCR4-NOT complex in transcriptional elongation.Position of the general transcription factor TFIIF within the RNA polymerase II transcription preinitiation complex.RPAP1, a novel human RNA polymerase II-associated protein affinity purified with recombinant wild-type and mutated polymerase subunitsFunctions of Saccharomyces cerevisiae TFIIF during transcription start site utilization.Improved methods for expression and purification of Saccharomyces cerevisiae TFIIF and TFIIH; identification of a functional Escherichia coli promoter and internal translation initiation within the N-terminal coding region of the TFIIF TFG1 subunitAmino acid substitutions in yeast TFIIF confer upstream shifts in transcription initiation and altered interaction with RNA polymerase II.Direct interaction between the subunit RAP30 of transcription factor IIF (TFIIF) and RNA polymerase subunit 5, which contributes to the association between TFIIF and RNA polymerase IIRapid dynamics of general transcription factor TFIIB binding during preinitiation complex assembly revealed by single-molecule analysisDNA bending and wrapping around RNA polymerase: a "revolutionary" model describing transcriptional mechanisms.The YEATS domain of Taf14 in Saccharomyces cerevisiae has a negative impact on cell growth.DNA wrapping in transcription initiation by RNA polymerase IIThe RAP74 subunit of human transcription factor IIF has similar roles in initiation and elongation.Functions of the N- and C-terminal domains of human RAP74 in transcriptional initiation, elongation, and recycling of RNA polymerase IIStructural and functional interactions of transcription factor (TF) IIA with TFIIE and TFIIF in transcription initiation by RNA polymerase II.Mechanism of start site selection by RNA polymerase II: interplay between TFIIB and Ssl2/XPB helicase subunit of TFIIHInteraction networks of the molecular machines that decode, replicate, and maintain the integrity of the human genome.Evidence that RNA polymerase II and not TFIIB is responsible for the difference in transcription initiation patterns between Saccharomyces cerevisiae and Schizosaccharomyces pombe.Functional dissection of the catalytic mechanism of mammalian RNA polymerase II.Structural perspective on mutations affecting the function of multisubunit RNA polymerases.The positions of TFIIF and TFIIE in the RNA polymerase II transcription preinitiation complex.A DNA-tethered cleavage probe reveals the path for promoter DNA in the yeast preinitiation complex.Fluorescence Resonance Energy Transfer Characterization of DNA Wrapping in Closed and Open Escherichia coli RNA Polymerase-λP(R) Promoter ComplexesUse of site-specific protein-DNA photocrosslinking to analyze the molecular organization of the RNA polymerase II initiation complex.Recruitment of nuclear factor Y to the inverted CCAAT element (ICE) by c-Jun and E1A stimulates basal transcription of the bone sialoprotein gene in osteosarcoma cells.Yeast RNA polymerase II lacking the Rpb9 subunit is impaired for interaction with transcription factor IIF.Structural basis of transcription initiation by RNA polymerase II.The androgen receptor interacts with multiple regions of the large subunit of general transcription factor TFIIF.A region within the RAP74 subunit of human transcription factor IIF is critical for initiation but dispensable for complex assembly.Mechanism of promoter melting by the xeroderma pigmentosum complementation group B helicase of transcription factor IIH revealed by protein-DNA photo-cross-linking.Effects of DNA strand breaks on transcription by RNA polymerase III: insights into the role of TFIIIB and the polarity of promoter openingCore promoter-dependent TFIIB conformation and a role for TFIIB conformation in transcription start site selectionPhoto-cross-linking of a purified preinitiation complex reveals central roles for the RNA polymerase II mobile clamp and TFIIE in initiation mechanisms.Heat shock factor-4 (HSF-4a) represses basal transcription through interaction with TFIIF.Use of site-specific protein-DNA photocrosslinking of purified complexes to analyze the topology of the RNA polymerase II transcription initiation complex.Interactions of a DNA-bound transcriptional activator with the TBP-TFIIA-TFIIB-promoter quaternary complex.Topological localization of the carboxyl-terminal domain of RNA polymerase II in the initiation complexSite-specific protein-DNA photocross-linking of purified complexes: topology of the RNA polymerase II transcription initiation complex.
P2860
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P2860
Wrapping of promoter DNA around the RNA polymerase II initiation complex induced by TFIIF.
description
1998 nî lūn-bûn
@nan
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
1998年论文
@zh
1998年论文
@zh-cn
name
Wrapping of promoter DNA aroun ...... tion complex induced by TFIIF.
@en
type
label
Wrapping of promoter DNA aroun ...... tion complex induced by TFIIF.
@en
prefLabel
Wrapping of promoter DNA aroun ...... tion complex induced by TFIIF.
@en
P2093
P2860
P1433
P1476
Wrapping of promoter DNA aroun ...... tion complex induced by TFIIF.
@en
P2093
P2860
P304
P356
10.1016/S1097-2765(00)80278-6
P577
1998-09-01T00:00:00Z