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Query: EC:2.7.13.3 (
histidine kinase
)
2,405
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The two-component signal transduction pathways in bacteria use a histidine-aspartate phosphorelay circuit to mediate cellular changes in response to environmental stimuli. Here we describe a novel two-component todST system, which activates expression of the toluene degradation (tod) pathway in Pseudomonas putida F1. The todS gene is predicted to encode a sensory hybrid kinase with two unique properties--a basic region
leucine zipper
dimerization motif at the N terminus and a duplicated
histidine kinase
motif. Evidence from a synthetic peptide model suggests that TodS binds as a dimer to a pseudopalindromic sequence (5'-TGACTCA), which resembles the recognition sequence of the eukaryotic transcription factors Fos and Jun. These results provide additional evidence that bacteria and eukaryotes share common regulatory motifs. The todT gene product, a response regulator, was overproduced as a fusion protein in Escherichia coli, and the purified protein was found to bind specifically to a 6-bp palindromic DNA structure in the tod control region. The phosphorylated form of TodT appears to be the activator of tod structural genes. This is the first report of a two-component system that regulates aromatic metabolism in bacteria.
...
PMID:A bacterial basic region leucine zipper histidine kinase regulating toluene degradation. 903 74
The Escherichia coli
EnvZ
protein is a membrane-located osmosensor, which is a typical member of histidine kinases involved in His-Asp phosphotransfer signaling. We found that
EnvZ
has a
leucine zipper
-like motif in its presumed periplasmic domain. The functional importance of this
leucine zipper
-like sequence was assessed by introducing a number of appropriate amino acid substitutions. The results collectively suggest that certain leucine residues in the
leucine zipper
-like structure play an important role in the osmotic signal transduction mediated by
EnvZ
. When cysteine was substituted for the crucial leucine residues, the
EnvZ
dimer with disulfide bridge was detected in the cytoplasmic membrane. It was thus demonstrated that the
EnvZ
osmosensor exists and exerts its signaling ability as a dimer.
...
PMID:The membrane-located osmosensory kinase, EnvZ, that contains a leucine zipper-like motif functions as a dimer in Escherichia coli. 940 62
The presence of sequences related to the agr of Staphylococcus aureus was demonstrated in Staphylococcus epidermidis by agr-specific PCR, and Southern blot. The agr-like locus of S. epidermidis A086 was cloned and sequenced. An overall homology of 68% was found between the agr locus from S. epidermidis and S. aureus. The agr locus from S. epidermidis was organized similar to those from S. aureus and S. lugdunensis. The putative RNAII molecule contains four open reading frames, agr A, B, C and D. AgrA was a response regulator. AgrB showed homology with transducer and translocase molecules. AgrC is expected to act as a histidine protein kinase in which a
leucine zipper
is present. AgrD is presumably processed into an autoinducer peptide. The putative RNAIII molecule contained an open reading frame encoding a putative 26 amino acid (aa) polypeptide, which differed in 3 aa from the RNAIII encoded delta-toxin of S. aureus. Kinetic studies showed that the production of this RNAIII was elevated during the post-exponential phase. delta-Toxin activity was demonstrated for 21 of 23 tested S. epidermidis strains. Kinetic studies of the production of delta-toxin showed that the toxin was produced during the post-exponential phase. Sequencing of S. epidermidis A097, which showed a delayed agr-response, revealed a truncated AgrC lacking the
histidine kinase
domain. These data indicate that an agr-like locus is active in S. epidermidis during the post-exponential phase.
...
PMID:Cloning and characterization of an accessory gene regulator (agr)-like locus from Staphylococcus epidermidis. 963 38
The function of the extracellular domain (ECD) of
Sln1p
, a plasma membrane two-transmembrane domain (TMD) sensor of the high-osmolarity glycerol (HOG) response pathway, has been studied in the yeast Saccharomyces cerevisiae. Truncations of SLN1 that retain an intact kinase domain are capable of complementing the lethality of an sln1Delta strain. By observing levels of Hog1p phosphorylation as well as the phosphorylation state of
Sln1p
, the kinase activities of various SLN1 constructions were determined. In derivatives that do not contain the first TMD,
Sln1p
activity was no longer dependent on medium osmolarity but appeared to be constitutively active even under conditions of high osmolarity. Removal of the first TMD (DeltaTMD1 construct) gave a protein that was strongly phosphorylated whereas Hog1p was largely dephosphorylated, as expected if the active form of
Sln1p
is phosphorylated. When both TMDs as well as the ECD were deleted, so that the kinase domain is cytosolic,
Sln1p
was not phosphorylated whereas Hog1p became constitutively hyperphosphorylated. Surprisingly, this hyperactivity of the HOG mitogen-activated protein kinase signaling pathway was not sufficient to result in cell lethality. When the ECD of the DeltaTMD1 construct was replaced with a
leucine zipper
motif,
Sln1p
was hyperactive, so that Hog1p became mostly unphosphorylated. In contrast, when the
Sln1p
/
leucine zipper
construct was crippled by a mutation of one of the internal leucines, the Sln1 kinase was inactive. These experiments are consistent with the hypothesis that the ECD of
Sln1p
functions as a dimerization and activation domain but that osmotic regulation of activity requires the presence of the first TMD.
...
PMID:The extracellular domain of the Saccharomyces cerevisiae Sln1p membrane osmolarity sensor is necessary for kinase activity. 1019 19
The chemotaxis receptor for aspartate, Tar, generates responses by regulating the activity of an associated
histidine kinase
, CheA. Tar is composed of an extracellular sensory domain connected by a transmembrane sequence to a cytoplasmic signaling domain. The cytoplasmic domain fused to a
leucine zipper
dimerization domain forms soluble active ternary complexes with CheA and an adapter protein, CheW. The kinetics of kinase activity within these complexes compared to CheA alone indicate approximately a 50% decrease in the KM for ATP and a 100-fold increase in the Vmax. A truncated CheA construct that lacks the phosphoaccepting H-domain and the CheY/CheB-binding domain forms an activated ternary complex that is similar to the one formed by the full-length CheA protein. The Vmax of H-domain phosphorylation by this complex is enhanced approximately 60-fold, the KM for ATP decreased to 50%, and the KM for H-domain decreased to 20% of the values obtained with the same CheA construct in the absence of receptor and CheW. The kinetic data support a mechanism of CheA regulation that involves perturbation of an equilibrium between an inactive form where the H-domain is loosely bound and an active form where the H-domain is tightly associated with the CheA active site and properly positioned for phosphotransfer. The data are consistent with an asymmetric mechanism of CheA activation [Levit, M., Liu, I., Surette, M. G., and Stock, J. B. (1996) J. Biol. Chem. 271, 32057-32063] wherein only one phosphoaccepting domain of CheA at a time can interact with an active center within a CheA dimer.
...
PMID:Mechanism of CheA protein kinase activation in receptor signaling complexes. 1035 Apr 84
The transmembrane
histidine kinase
VirA is responsible for the recognition of information from several plant-derived xenognostic signals that control gene transfer between Agrobacterium tumefaciens and its eukaryotic host. As with other histidine autokinases, VirA appears to exist as a homodimer within the inner membrane of the bacterium. In this study, we identify the putative homodimeric coiled-coil-like motifs Helix TM2 (amino acids (aa) 259-288) and Helix C (aa 293-327) within the previously assigned signal input domain. The functional importance of these coiled-coil interactions in signal-mediated VirA activation is investigated by the construction of fusion proteins with the
leucine zipper
domain of the transcription factor GCN4. Replacement of the membrane-spanning and periplasmic domains of VirA with the GCN4
leucine zipper
gave functional proteins with increased signal-induced vir gene expression. When the GCN4 fusion was used to conformationally bias the interface of the Helix C coiled coil, constitutively active chimeras were created. The activity of these constructs was dependent on the interface of the Helix C coiled coil, and a ratchet model is proposed in which VirA activation is achieved by signal-induced switching of the interfaces of the homodimer. Since VirA functions as a transducer and integrates various host cues indirectly, these data highlight its role as an "antenna" for the tumor-inducing (Ti) plasmid, able to monitor the host proteome so as to select for successful xenognostic signaling strategies.
...
PMID:Ratcheting up vir gene expression in Agrobacterium tumefaciens: coiled coils in histidine kinase signal transduction. 1193 31
Escherichia coli chemotaxis is mediated by membrane receptor/
histidine kinase
signaling complexes. Fusing the cytoplasmic domain of the aspartate receptor, Tar, to a
leucine zipper
dimerization domain produces a hybrid, lzTar(C), that forms soluble complexes with CheA and CheW. The three-dimensional reconstruction of these complexes was different from that anticipated based solely on structures of the isolated components. We found that analogous complexes self-assembled with a monomeric cytoplasmic domain fragment of the serine receptor without the
leucine zipper
dimerization domain. These complexes have essentially the same size, composition, and architecture as those formed from lzTar(C). Thus, the organization of these receptor/signaling complexes is determined by conserved interactions between the constituent chemotaxis proteins and may represent the active form in vivo. To understand this structure in its cellular context, we propose a model involving parallel membrane segments in receptor-mediated CheA activation in vivo.
...
PMID:Self-assembly of receptor/signaling complexes in bacterial chemotaxis. 1697 43
The Arc two-component system modulates the expression of numerous genes in response to respiratory growth conditions. This system comprises ArcA as the response regulator and ArcB as the sensor kinase. ArcB is a tripartite
histidine kinase
whose activity is regulated by the oxidation of two cytosol-located redox-active cysteine residues that participate in intermolecular disulfide bond formation. Here, we report that the ArcB protein segment covering residues 70-121, fulfills the molecular characteristics of a
leucine zipper
containing coiled coil structure. Also, mutational analyses of this segment reveal three different phenotypical effects to be distributed along the coiled coil structure of ArcB, demonstrating that this motif is essential for proper ArcB signaling.
...
PMID:The ArcB leucine zipper domain is required for proper ArcB signaling. 2266 79
