C4-dicarboxylates sensing mechanism revealed by the crystal structures of DctB sensor domain
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Crystal structure of a histidine kinase sensor domain with similarity to periplasmic binding proteinsStructure of the Redox Sensor Domain of Methylococcus capsulatus (Bath) MmoS † ‡Extracytoplasmic PAS-Like Domains Are Common in Signal Transduction ProteinsStructural Characterization of the Predominant Family of Histidine Kinase Sensor DomainsStructural basis for cytokinin recognition by Arabidopsis thaliana histidine kinase 4Insight into the sporulation phosphorelay: Crystal structure of the sensor domain ofBacillus subtilishistidine kinase, KinDMechanistic Insights Revealed by the Crystal Structure of a Histidine Kinase with Signal Transducer and Sensor DomainsSolution Structure of the PAS Domain of a Thermophilic YybT Protein Homolog Reveals a Potential Ligand-binding SiteStructural properties of PAS domains from the KCNH potassium channelsCoiled-coil dimerization of the LOV2 domain of the blue-light photoreceptor phototropin 1 fromArabidopsis thalianaMulti-PAS domain-mediated protein oligomerization of PpsR fromRhodobacter sphaeroidesStructural basis for amino-acid recognition and transmembrane signalling by tandem Per-Arnt-Sim (tandem PAS) chemoreceptor sensory domainsParalogous chemoreceptors mediate chemotaxis towards protein amino acids and the non-protein amino acid gamma-aminobutyrate (GABA)Sensor domain of histidine kinase KinB of Pseudomonas: a helix-swapped dimer.A PAS domain binds asparagine in the chemotaxis receptor McpB in Bacillus subtilisStructure and function of the divalent anion/Na+ symporter from Vibrio cholerae and a humanized variantProbing bacterial transmembrane histidine kinase receptor-ligand interactions with natural and synthetic moleculesMutational analysis of dimeric linkers in peri- and cytoplasmic domains of histidine kinase DctB reveals their functional roles in signal transduction.An α/β hydrolase and associated Per-ARNT-Sim domain comprise a bipartite sensing module coupled with diverse output domains.Ligand-binding PAS domains in a genomic, cellular, and structural contextA novel two-component signaling system facilitates uropathogenic Escherichia coli's ability to exploit abundant host metabolites.Structure and signaling mechanism of Per-ARNT-Sim domains.Cys-scanning disulfide crosslinking and bayesian modeling probe the transmembrane signaling mechanism of the histidine kinase, PhoQ.Domain shuffling in a sensor protein contributed to the evolution of insect pathogenicity in plant-beneficial Pseudomonas protegens.Delineating PAS-HAMP interaction surfaces and signalling-associated changes in the aerotaxis receptor AerBiological insights from structures of two-component proteins.Identification of ligand specificity determinants in lantibiotic bovicin HJ50 and the receptor BovK, a multitransmembrane histidine kinase.Use of two-component signal transduction systems in the construction of synthetic genetic networks.Sensor domains of two-component regulatory systems.Sensing by the membrane-bound sensor kinase DcuS: exogenous versus endogenous sensing of C(4)-dicarboxylates in bacteria.Identification of a Vibrio cholerae chemoreceptor that senses taurine and amino acids as attractants.Signal transduction in histidine kinases: insights from new structures.Molecular Mechanisms of Two-Component Signal Transduction.A combination of mutational and computational scanning guides the design of an artificial ligand-binding controlled lipase.Structural and functional insights into the periplasmic detector domain of the GacS histidine kinase controlling biofilm formation in Pseudomonas aeruginosa.The Campylobacter jejuni RacRS system regulates fumarate utilization in a low oxygen environment.Helicobacter pylori chemoreceptor TlpC mediates chemotaxis to lactateTransmembrane Signal Transduction in Two-Component Systems: Piston, Scissoring, or Helical Rotation?PlpA, a PilZ-like protein, regulates directed motility of the bacterium Myxococcus xanthus.Microbes at their best: first Mol Micro Meeting Würzburg.
P2860
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P2860
C4-dicarboxylates sensing mechanism revealed by the crystal structures of DctB sensor domain
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@ast
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@en
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@nl
type
label
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@ast
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@en
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@nl
prefLabel
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@ast
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@en
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@nl
P2093
P1476
C4-dicarboxylates sensing mech ...... ructures of DctB sensor domain
@en
P2093
Beiyan Nan
Qingjun Ma
Xiao-Dong Su
Yan-Feng Zhou
Yu-He Liang
P356
10.1016/J.JMB.2008.08.010
P407
P577
2008-10-31T00:00:00Z