An extended winged helix domain in general transcription factor E/IIE alpha
about
Evolution of complex RNA polymerases: the complete archaeal RNA polymerase structureStructure and oligomeric state of human transcription factor TFIIEDetecting DNA-binding helix-turn-helix structural motifs using sequence and structure informationPrediction of the general transcription factors associated with RNA polymerase II in Plasmodium falciparum: conserved features and differences relative to other eukaryotesStructure of an RNA polymerase II preinitiation complex.Identification, structure, and functional requirement of the Mediator submodule Med7N/31A Tandem SH2 Domain in Transcription Elongation Factor Spt6 Binds the Phosphorylated RNA Polymerase II C-terminal Repeat Domain (CTD)Solution structure of the human HSPC280 proteinStructure-function analysis of hRPC62 provides insights into RNA polymerase III transcription initiationMediator head subcomplex Med11/22 contains a common helix bundle building block with a specific function in transcription initiation complex stabilizationTranscription initiation complex structures elucidate DNA openingStructure and TBP binding of the Mediator head subcomplex Med8-Med18-Med20.Architecture of the RNA polymerase II preinitiation complex and mechanism of ATP-dependent promoter opening.Near-atomic resolution visualization of human transcription promoter opening.The Increase in the Number of Subunits in Eukaryotic RNA Polymerase III Relative to RNA Polymerase II Is due to the Permanent Recruitment of General Transcription FactorsAn integrated chemical cross-linking and mass spectrometry approach to study protein complex architecture and functionRearrangement of the RNA polymerase subunit H and the lower jaw in archaeal elongation complexes.Selective depletion of Sulfolobus solfataricus transcription factor E under heat shock conditionsA novel zinc finger structure in the large subunit of human general transcription factor TFIIE.A fully recombinant system for activator-dependent archaeal transcription.Structure and function of archaeal RNA polymerases.The initiation factor TFE and the elongation factor Spt4/5 compete for the RNAP clamp during transcription initiation and elongationArchaeal transcription and its regulators.RNA polymerase III subunit architecture and implications for open promoter complex formation.A DNA-tethered cleavage probe reveals the path for promoter DNA in the yeast preinitiation complex.Conservation of the three-dimensional structure in non-homologous or unrelated proteins.Structural basis of transcription initiation by RNA polymerase II.Transcription Regulation in Archaea.The Structural Basis of Transcription: 10 Years After the Nobel Prize in Chemistry.Archaeal TFEα/β is a hybrid of TFIIE and the RNA polymerase III subcomplex hRPC62/39.Architecture of TFIIIC and its role in RNA polymerase III pre-initiation complex assembly.Phenotypic plasticity as an adaptation to a functional trade-off.A conserved mediator hinge revealed in the structure of the MED7.MED21 (Med7.Srb7) heterodimer.Structure and carboxyl-terminal domain (CTD) binding of the Set2 SRI domain that couples histone H3 Lys36 methylation to transcription.Transcription factor E is a part of transcription elongation complexes.Structural and functional adaptation of Haloferax volcanii TFEα/β.Structural analyses of the bacterial primosomal protein DnaB reveal that it is a tetramer and forms a complex with a primosomal re-initiation protein.The TFIIE-related Rpc82 subunit of RNA polymerase III interacts with the TFIIB-related transcription factor Brf1 and the polymerase cleft for transcription initiation.Structure and Function of RNA Polymerases and the Transcription Machineries.Association of the winged helix motif of the TFIIEα subunit of TFIIE with either the TFIIEβ subunit or TFIIB distinguishes its functions in transcription.
P2860
Q21145826-197E4C5B-361F-4960-9D19-E28315951390Q24309019-C569F731-7637-4340-A6B7-B46FCE2A6DEEQ24796955-7BC3C3E9-F0C9-4D2F-A6C6-F743480E500EQ24811411-095C8C9E-1B3F-4B9A-9F57-6D469979F2E4Q27318217-95CC88E0-2BBC-43F0-B1DC-2C0EA74A1A48Q27653063-5A933B8B-538E-47E4-8441-A9E95422958AQ27664925-59AFA164-B660-4AD2-9EA9-62317E2BC238Q27665926-B1BD00DF-FAF3-4C70-86B9-7BD813714394Q27666838-F4D3194D-D5C5-4B86-8DA1-097771E5182FQ27667533-D82157C7-AF31-4F34-A7CE-2CED6C688571Q27704895-F7F1F9A0-9090-47BD-95D0-ACDF22A34A90Q27936384-64AF3FC9-1237-42E1-A660-99280904309FQ27938034-C758409C-235A-4907-A0F8-52DF326C24F3Q28114858-4C2B91B3-8C17-4802-BC21-83FA9DEFB07FQ30054744-D9B7C117-78C5-4518-8F61-3DB6797CC14DQ30409134-B8784DA2-BD1E-456F-8B03-0C9899F3A341Q33760267-F15D95EE-41DD-4EAF-B321-1B4086C733BCQ34108205-37B97671-1015-469D-A88A-5AEE08B7BBECQ34350854-162782F6-496D-444F-9884-1D678873EB05Q34358995-6345150F-BEC0-4160-BB90-345C70AE6F5DQ34662819-7035822C-5497-42AD-9E4A-46F5AE887BBEQ35571747-41C1F7BB-821B-480D-B0FE-BEF91881A84DQ36139379-A926897C-374F-4D4B-BF39-D8C79AD0743CQ36436719-26D0BD77-C690-4E9F-A16F-BA8B9AF0BB46Q36791309-5DA279CE-B60B-4D68-BE77-04685CC93FDAQ38067794-A4CEC285-62C4-4682-BA9C-05BC9CE9C711Q38360498-3B36E4DA-EEE6-489D-9F93-A176E7ECA787Q38823441-1B4544D0-F01F-4C72-903A-89A1AA07DE69Q38977021-8BE2B580-C9BE-4C30-B12D-EE53A2EB192CQ41229953-E6576942-0030-4692-83D6-35DD362ACE84Q41458781-3FDA8344-6708-4C07-8832-FB7A01FBBD83Q41520316-B6610D91-4D9F-436F-B762-506C60A06974Q45264869-8D77A05A-72F2-4407-9BF3-C0B79CE29CC5Q46802691-5AC94101-7B21-4D46-9DB9-538DB7932663Q46962379-A1976856-C81B-473B-BA64-D37B10206440Q47224728-19B1F2E4-B590-4DE7-9BC5-DCD4E9574FEDQ47952998-90383A64-E405-41E6-A210-C8EC9C611B09Q49610138-C0CBD38C-E14C-46A4-982A-074A904D5557Q51107154-AA66D4E6-41D0-45A7-907E-97C7902C684CQ51745496-BB47C0B9-078A-4F0D-A872-2642ACD36403
P2860
An extended winged helix domain in general transcription factor E/IIE alpha
description
2003 nî lūn-bûn
@nan
2003 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
name
An extended winged helix domain in general transcription factor E/IIE alpha
@ast
An extended winged helix domain in general transcription factor E/IIE alpha
@en
An extended winged helix domain in general transcription factor E/IIE alpha
@nl
type
label
An extended winged helix domain in general transcription factor E/IIE alpha
@ast
An extended winged helix domain in general transcription factor E/IIE alpha
@en
An extended winged helix domain in general transcription factor E/IIE alpha
@nl
prefLabel
An extended winged helix domain in general transcription factor E/IIE alpha
@ast
An extended winged helix domain in general transcription factor E/IIE alpha
@en
An extended winged helix domain in general transcription factor E/IIE alpha
@nl
P2093
P2860
P3181
P356
P1476
An extended winged helix domain in general transcription factor E/IIE alpha
@en
P2093
Anton Meinhart
Jascha Blobel
Patrick Cramer
P2860
P304
P3181
P356
10.1074/JBC.M307874200
P407
P577
2003-11-28T00:00:00Z