Protein crosslinking studies suggest that Rhizobium meliloti C4-dicarboxylic acid transport protein D, a sigma 54-dependent transcriptional activator, interacts with sigma 54 and the beta subunit of RNA polymerase.
about
RNA polymerase subunit RPB5 plays a role in transcriptional activationBinding of transcriptional activators to sigma 54 in the presence of the transition state analog ADP-aluminum fluoride: insights into activator mechanochemical actionIdentification of C(4)-dicarboxylate transport systems in Pseudomonas aeruginosa PAO1A proposed architecture for the central domain of the bacterial enhancer-binding proteins based on secondary structure prediction and fold recognition.Construction and functional analyses of a comprehensive sigma54 site-directed mutant library using alanine-cysteine mutagenesisMutational analysis of the phosphate-binding loop of Rhizobium meliloti DctD, a sigma54-dependent activator.CRP interacts with promoter-bound sigma54 RNA polymerase and blocks transcriptional activation of the dctA promoterThe bacterial enhancer-dependent sigma(54) (sigma(N)) transcription factorMutant forms of Salmonella typhimurium sigma54 defective in transcription initiation but not promoter binding activityThe amino terminus of Salmonella enterica serovar Typhimurium sigma(54) is required for interactions with an enhancer-binding protein and binding to fork junction DNATranscription initiation-defective forms of sigma(54) that differ in ability To function with a heteroduplex DNA template.Purification and characterization of the AAA+ domain of Sinorhizobium meliloti DctD, a sigma54-dependent transcriptional activatorIn vitro roles of invariant helix-turn-helix motif residue R383 in sigma(54) (sigma(N)).Mechanochemical ATPases and transcriptional activation.The ATP hydrolyzing transcription activator phage shock protein F of Escherichia coli: identifying a surface that binds sigma 54.BRCA1 interaction with RNA polymerase II reveals a role for hRPB2 and hRPB10alpha in activated transcription.Conversion of the omega subunit of Escherichia coli RNA polymerase into a transcriptional activator or an activation target.A bacterial ATP-dependent, enhancer binding protein that activates the housekeeping RNA polymerase.Alterations within the activation domain of the sigma 54-dependent activator DctD that prevent transcriptional activationBacterial transcriptional regulators for degradation pathways of aromatic compounds.Dicarboxylate transport by rhizobia.Insights into the complex regulation of rpoS in Borrelia burgdorferi.Dynamics of nuclear pore distribution in nucleoporin mutant yeast cells.Probing the assembly of transcription initiation complexes through changes in sigmaN protease sensitivity."Switch I" mutant forms of the bacterial enhancer-binding protein NtrC that perturb the response to DNATwo domains within sigmaN (sigma54) cooperate for DNA bindingNucleoprotein complex formation by the enhancer binding protein nifA.The PspA protein of Escherichia coli is a negative regulator of sigma(54)-dependent transcription.Roles of DctA and DctB in signal detection by the dicarboxylic acid transport system of Rhizobium leguminosarumIdentification of an N-terminal region of sigma 54 required for enhancer responsivenessRole of the RNA polymerase alpha subunits in MetR-dependent activation of metE and metH: important residues in the C-terminal domain and orientation requirements within RNA polymerase.An active role for a structured B-linker in effector control of the sigma54-dependent regulator DmpR.Unique ATPase site architecture triggers cis-mediated synchronized ATP binding in heptameric AAA+-ATPase domain of flagellar regulatory protein FlrCAmino-terminal sequences of sigmaN (sigma54) inhibit RNA polymerase isomerization.A common feature from different subunits of a homomeric AAA+ protein contacts three spatially distinct transcription elements.High-mobility-group a-like CarD binds to a DNA site optimized for affinity and position and to RNA polymerase to regulate a light-inducible promoter in Myxococcus xanthus.CRP-cyclic AMP dependent inhibition of the xylene-responsive σ(54)-promoter Pu in Escherichia coli.Molecular determinants for PspA-mediated repression of the AAA transcriptional activator PspF.New roles for conserved regions within a sigma 54-dependent enhancer-binding protein.The hydrodynamic properties of dark- and light-activated states of n-dodecyl beta-D-maltoside-solubilized bovine rhodopsin support the dimeric structure of both conformations.
P2860
Q27931093-C84DBD1B-31EC-4862-A1E6-C7A63C738231Q28349524-64393775-39CF-4BC5-848F-84E8090E56D0Q28493102-06D8101B-ACF3-4335-B493-C80A620F4640Q30426704-A056A1DA-CF1B-43A5-8D43-190D08529427Q33454221-8FACD5AD-C45B-471B-A441-D11EA96663A7Q33731182-895C031E-7B85-44A1-AE2F-8558DB97486AQ33888214-04E81B2C-40DC-406A-B7E6-BDAF47845542Q33968426-FCEB6A6C-F585-40DF-82B9-E9487A798B1DQ33992116-7E3BE5A3-9787-4343-B132-2BD427DB46B0Q33993585-2ACE9E17-CF94-4415-ADE3-624A215BD7AAQ33994969-19821E4A-7033-4A30-A9F7-48EAA09D17D9Q34148573-E43CC25C-D232-4377-BBF9-13B29DB2B19EQ34269900-AC611F4E-E367-4F6A-9517-58992136CC8FQ34786202-46D06707-157C-402F-9309-96A5C79F0BA5Q34804632-8BCD1C8B-B367-4EB5-86F6-CA2FF5E77FBDQ35107010-522EE3D5-81D1-48A9-BFFD-6E7EDAF34F2CQ35192625-9296529D-C184-4FB3-9C03-1621AC6C0F8FQ35202702-9690B829-1657-4AC6-9605-DC712E6C26E9Q35630529-3A2001E6-92EF-48A9-A227-637CF1480E01Q35880920-13F3704A-F92B-43DC-826D-B1CF25D3050CQ35890758-25B0108F-6B31-443F-9232-C356EB1E1C5DQ35990803-D7CBBC48-5FB4-4598-9343-17066059E53BQ36254590-B52014F7-CAC8-432E-898C-E4AE4DD01805Q36638290-68BF074D-88B2-494C-A197-D736C18CD84BQ36668072-D741C315-3C26-4B89-B4D2-18AAF305638BQ36764172-65FCD054-108B-40EB-B30A-2C8715A538F6Q36876044-C6FF9841-191D-4215-ABBA-8658FAFA25A9Q39498510-266F72B4-49B4-4592-83EE-476F8487C9B3Q39566010-A2C3221A-4713-4A1F-B8EF-3374E8BA16E9Q39568316-C470CD7F-F6CC-4B4A-9CFB-7ABD06DEE085Q39585829-7D6D440C-DE24-4C92-9017-2E3D7CF71E47Q39714567-0388939B-6D81-4D3A-841C-B18BE350917AQ40402855-964F4742-1B90-4898-8EE7-FE79522A8C55Q40442354-BC66879A-1F86-4077-9CCE-85CF9CAEE84CQ41812141-02DC1D44-65D0-44C6-AFEF-EABD7265AE21Q41878468-317442C0-A2E2-4405-AE92-0E3D1F9CB94AQ41888533-C77CBEFE-9F7C-4183-A2EF-112C92C083E9Q42723134-48DDA355-939A-464D-92F5-C465B953AA59Q44108489-31772B00-C66F-41CF-8119-3730BD7E8B9FQ44982172-FE22CA7C-B585-4E47-B841-891EC8225D03
P2860
Protein crosslinking studies suggest that Rhizobium meliloti C4-dicarboxylic acid transport protein D, a sigma 54-dependent transcriptional activator, interacts with sigma 54 and the beta subunit of RNA polymerase.
description
1995 nî lūn-bûn
@nan
1995 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@ast
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@en
type
label
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@ast
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@en
prefLabel
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@ast
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@en
P2860
P356
P1476
Protein crosslinking studies s ...... eta subunit of RNA polymerase.
@en
P2093
P2860
P304
P356
10.1073/PNAS.92.21.9702
P407
P577
1995-10-01T00:00:00Z