The two-component signaling pathway of bacterial chemotaxis: a molecular view of signal transduction by receptors, kinases, and adaptation enzymes
about
Transport genes and chemotaxis in Laribacter hongkongensis: a genome-wide analysisBehavioral degradation under mutation accumulation in Caenorhabditis elegansBeF(3)(-) acts as a phosphate analog in proteins phosphorylated on aspartate: structure of a BeF(3)(-) complex with phosphoserine phosphataseDesign and diversity in bacterial chemotaxis: a comparative study in Escherichia coli and Bacillus subtilisCharacterization of the nodulation plasmid encoded chemoreceptor gene mcpG from Rhizobium leguminosarumCharacterisation of a multi-ligand binding chemoreceptor CcmL (Tlp3) of Campylobacter jejuniFour-helical-bundle structure of the cytoplasmic domain of a serine chemotaxis receptorMolecular architecture of full-length KcsA: role of cytoplasmic domains in ion permeation and activation gatingCrystal structure of a cyanobacterial phytochrome response regulatorChemotaxis receptor recognition by protein methyltransferase CheRTwo binding modes reveal flexibility in kinase/response regulator interactions in the bacterial chemotaxis pathwayProtein phosphorylation and its role in archaeal signal transductionAbiotic stress signal transduction in plants: Molecular and genetic perspectivesDependence of bacterial chemotaxis on gradient shape and adaptation rateTransmembrane signaling in bacterial chemoreceptorsOptimal noise filtering in the chemotactic response of Escherichia coliEvolution of taxis responses in virtual bacteria: non-adaptive dynamicsBiology by design: reduction and synthesis of cellular components and behaviourInformation processing in bacteria: memory, computation, and statistical physics: a key issues reviewThe phosphoryl transfer domain of UhpB interacts with the response regulator UhpA.The aspartate receptor cytoplasmic domain: in situ chemical analysis of structure, mechanism and dynamics.Integration of Tmc1/2 into the mechanotransduction complex in zebrafish hair cells is regulated by Transmembrane O-methyltransferase (Tomt).Use of site-directed cysteine and disulfide chemistry to probe protein structure and dynamics: applications to soluble and transmembrane receptors of bacterial chemotaxis.Methyl-accepting chemotaxis proteins: a core sensing element in prokaryotes and archaea.Protein folding modulates the swapped dimerization mechanism of methyl-accepting chemotaxis heme sensorsStructure of a central stalk subunit F of prokaryotic V-type ATPase/synthase from Thermus thermophilusKey amino acid residues involved in the transitions of L- to R-type protofilaments of the Salmonella flagellar filamentStrain-specific parallel evolution drives short-term diversification during Pseudomonas aeruginosa biofilm formationSpatiotemporal control of gene expression with pulse-generating networks.Evidence for phosphorylation-dependent conformational changes in methylesterase CheB.Signaling domain of the aspartate receptor is a helical hairpin with a localized kinase docking surface: cysteine and disulfide scanning studies.Comparative genomics of Geobacter chemotaxis genes reveals diverse signaling function.Mapping out regions on the surface of the aspartate receptor that are essential for kinase activationBacterial signal transduction network in a genomic perspective.Distinguishing multiple chemotaxis Y protein conformations with laser-polarized 129Xe NMR.The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices.CheA Kinase of bacterial chemotaxis: chemical mapping of four essential docking sites.Control of phyllotaxy by the cytokinin-inducible response regulator homologue ABPHYL1.Complete genome sequence of the aerobic CO-oxidizing thermophile Thermomicrobium roseum.Thermal domain motions of CheA kinase in solution: Disulfide trapping reveals the motional constraints leading to trans-autophosphorylation
P2860
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P2860
The two-component signaling pathway of bacterial chemotaxis: a molecular view of signal transduction by receptors, kinases, and adaptation enzymes
description
1997 nî lūn-bûn
@nan
1997 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
The two-component signaling pa ...... inases, and adaptation enzymes
@ast
The two-component signaling pa ...... inases, and adaptation enzymes
@en
type
label
The two-component signaling pa ...... inases, and adaptation enzymes
@ast
The two-component signaling pa ...... inases, and adaptation enzymes
@en
prefLabel
The two-component signaling pa ...... inases, and adaptation enzymes
@ast
The two-component signaling pa ...... inases, and adaptation enzymes
@en
P2093
P2860
P1476
The two-component signaling pa ...... inases, and adaptation enzymes
@en
P2093
M A Danielson
S A Chervitz
S L Butler
P2860
P304
P356
10.1146/ANNUREV.CELLBIO.13.1.457
P577
1997-01-01T00:00:00Z