Autoregulation of a bacterial sigma factor explored by using segmental isotopic labeling and NMR
about
Bioorthogonal chemistry: fishing for selectivity in a sea of functionalityPhage T7 Gp2 inhibition of Escherichia coli RNA polymerase involves misappropriation of 70 domain 1.1Solution structure of the two RNA recognition motifs of hnRNP A1 using segmental isotope labeling: how the relative orientation between RRMs influences the nucleic acid binding topologyCrystal structures of the E. coli transcription initiation complexes with a complete bubbleSegmental Isotope Labelling of an Individual Bromodomain of a Tandem Domain BRD4 Using Sortase AStructure of the two most C-terminal RNA recognition motifs of PTB using segmental isotope labeling.Expressed protein ligation: a resourceful tool to study protein structure and function.The model of amyloid aggregation of Escherichia coli RNA polymerase σ70 subunit based on AFM data and in vitro assays.Disulfide cross-linking indicates that FlgM-bound and free sigma28 adopt similar conformationsIdentification of conserved amino acid residues of the Salmonella sigmaS chaperone Crl involved in Crl-sigmaS interactions.Semisynthesis of a segmental isotopically labeled protein splicing precursor: NMR evidence for an unusual peptide bond at the N-extein-intein junction.Structural insights into the mycobacteria transcription initiation complex from analysis of X-ray crystal structures.Promoter melting triggered by bacterial RNA polymerase occurs in three steps.Photomodulation of protein trans-splicing through backbone photocaging of the DnaE split intein.The bacteriophage T4 inhibitor and coactivator AsiA inhibits Escherichia coli RNA Polymerase more rapidly in the absence of sigma70 region 1.1: evidence that region 1.1 stabilizes the interaction between sigma70 and coreThe TFE-induced transient native-like structure of the intrinsically disordered σ₄⁷⁰ domain of Escherichia coli RNA polymeraseThe core-independent promoter-specific interaction of primary sigma factor.In vitro properties of RpoS (sigma(S)) mutants of Escherichia coli with postulated N-terminal subregion 1.1 or C-terminal region 4 deleted."The splice is right": how protein splicing is opening new doors in protein science.In-cell fluorescence activation and labeling of proteins mediated by FRET-quenched split inteinsExpressed protein ligation using an N-terminal cysteine containing fragment generated in vivo from a pelB fusion protein.Mechanism of bacterial transcription initiation: RNA polymerase - promoter binding, isomerization to initiation-competent open complexes, and initiation of RNA synthesisSplit Inteins: Nature's Protein Ligases.Protein ligation: applications in NMR studies of proteins.A full-length group 1 bacterial sigma factor adopts a compact structure incompatible with DNA binding.Semisynthesis and segmental isotope labeling of the apoE3 N-terminal domain using expressed protein ligation.Transcriptional analysis of biofilm formation processes in the anaerobic, hyperthermophilic bacterium Thermotoga maritima.Recent advances in in vivo applications of intein-mediated protein splicing.A chemical method for investigating disulfide-coupled peptide and protein folding.Chemical methods for peptide and protein production.Specific recognition of the -10 promoter element by the free RNA polymerase sigma subunit.N-terminal cysteinyl proteins can be prepared using thrombin cleavage.Crystal structure of Aquifex aeolicus σN bound to promoter DNA and the structure of σN-holoenzyme.T4 AsiA blocks DNA recognition by remodeling sigma70 region 4.Pre-folding IkappaBalpha alters control of NF-kappaB signaling.Segmental isotopic labeling of proteins for nuclear magnetic resonance.Change in the Molecular Dimension of a RAGE-Ligand Complex Triggers RAGE Signaling.Segmental isotopic labeling of the Hsp70 molecular chaperone DnaK using expressed protein ligation.Expressed protein ligation-mediated template protein extension.An efficient on-column expressed protein ligation strategy: application to segmental triple labeling of human apolipoprotein E3.
P2860
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P2860
Autoregulation of a bacterial sigma factor explored by using segmental isotopic labeling and NMR
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@ast
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@en
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@nl
type
label
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@ast
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@en
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@nl
prefLabel
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@ast
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@en
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@nl
P2093
P2860
P50
P356
P1476
Autoregulation of a bacterial ...... ntal isotopic labeling and NMR
@en
P2093
Donald A Bryant
Julio A Camarero
Mark Chlenov
Seth A Darst
Tanja M Gruber
Tom W Muir
P2860
P304
P356
10.1073/PNAS.132033899
P407
P577
2002-06-01T00:00:00Z