Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.13.3 (
histidine kinase
)
2,405
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Cpx envelope stress response of Escherichia coli is controlled by a two-component regulatory system that senses misfolded proteins in extracytoplasmic compartments and responds by inducing the expression of envelope protein folding and degrading factors. We have proposed that in the absence of envelope stress the pathway is maintained in a downregulated state, in part through interactions between the periplasmic inhibitor molecule CpxP and the sensing domain of the
histidine kinase
CpxA. In this study, we show that depletion of the periplasmic contents of the cell by spheroplast formation does indeed lead to induction of the Cpx envelope stress response. Further, removal of CpxP is an important component of this induction because tethering an
MBP
-CpxP fusion protein to the spheroplast inner membranes prevents full activation by this treatment. Spheroplast formation has previously been demonstrated to induce the expression of a periplasmic protein of unknown function, Spy. Analysis of spy expression in response to spheroplast formation by Western blot analysis and by lacZ operon fusion in various cpx mutant backgrounds demonstrated that spy is a member of the Cpx regulon. Interestingly, although the only known spy homologue is cpxP, Spy does not appear to perform the same function as CpxP as it is not involved in inhibiting the Cpx envelope stress response. Rather, deletion of spy leads to activation of the sigmaE stress response. Because the sigmaE response is specifically affected by alterations in outer membrane protein biogenesis, we think it possible that Spy may be involved in this process.
...
PMID:Tethering of CpxP to the inner membrane prevents spheroplast induction of the cpx envelope stress response. 1097 35
The
EnvZ
/OmpR histidyl-aspartyl phosphorelay (HAP) system in Escherichia coli regulates the expression of ompF and ompC, the major outer membrane porin genes, in response to environmental osmolarity changes. Here, we report that dimers of EnvZc, the cytoplasmic domain of
EnvZ
, undergo spontaneous subunit exchange in solution. By introducing a cysteine substitution (S260C) in the dimerization domain of EnvZc, we were able to crosslink the two subunits in a dimer and trap the heterodimer formed between two different mutant EnvZc. By using a complementing system with two autophosphorylation-defective EnvZc mutants, one containing the H243V mutation at the autophosphorylation site and the other containing the G405A mutation in the ATP-binding domain, we demonstrated that an EnvZc(G405A) subunit can be phosphorylated by an EnvZc(H243V) subunit only when a heterodimer is formed. The rate of subunit exchange is concentration-dependent, with higher rates at higher concentrations of protein. The disulfide-crosslinked EnvZc(G405A) homodimer could not be phosphorylated by EnvZc(H243V), since the heterodimer formation between the two mutant proteins was blocked, indicating that autophosphorylation cannot occur by dimer-dimer interaction. By using
MBP
-deltaL-EnvZc(S260C) fusion protein (deltaL: the linker region, spanning residues 180-222, was deleted), it was found that in the disulfide-crosslinked
MBP
-deltaL-EnvZc(S260C)/deltaL-EnvZc(S260C/G405A) heterodimer, only the deltaL-EnvZc(S260C/G405A) subunit was phosphorylated but not the
MBP
-deltaL-EnvZc(S260C) subunit. Together, the present results provide biochemical evidence that
EnvZ
autophosphorylation occurs in trans and only within an
EnvZ
dimer.
...
PMID:Spontaneous subunit exchange and biochemical evidence for trans-autophosphorylation in a dimer of Escherichia coli histidine kinase (EnvZ). 1276 31
Ehrlichia chaffeensis, the etiologic agent of human monocytic ehrlichiosis, replicates in early endosomes by avoiding lysosomal fusion in monocytes and macrophages. In E. chaffeensis we predicted three pairs of putative two-component regulatory systems (TCSs) designated PleC-PleD, NtrY-NtrX, and CckA-CtrA based on amino acid sequence homology. In the present study to determine biochemical pairs and specificities of the TCSs, the recombinant proteins of the three putative
histidine kinase
(HK) kinase domains (rPleCHKD, rNtrYHKD, and
MBP
-rCckAHKD) and the full-length forms of three putative response regulators (RRs) (rPleD, rNtrX, and rCtrA) as well as the respective mutant recombinant proteins (rPleCHKDH244A, rNtrYHKDH498A,
MBP
-rCckAHKDH449A, rPleDD53A, rNtrXD59A, and rCtrAD53A) were expressed and purified as soluble proteins. The in vitro HK activity, the specific His residue-dependent autophosphorylation of the kinase domain, was demonstrated in the three HKs. The specific Asp residue-dependent in vitro phosphotransfer from the kinase domain to the putative cognate RR was demonstrated in each of the three RRs. Western blot analysis of E. chaffeensis membrane and soluble fractions using antibodies specific for each recombinant protein detected PleC and CckA in the membrane fraction, whereas it detected NtrY, NtrX, and PleD in the soluble fraction. CtrA was found in the two fractions at similar levels. E. chaffeensis was sensitive to closantel, an HK inhibitor. Closantel treatment induced lysosomal fusion of the E. chaffeensis inclusion in a human monocytic leukemia cell line, THP-1 cells, implying that functional TCSs are essential in preventing lysosomal fusion of the E. chaffeensis inclusion compartment.
...
PMID:Biochemical activities of three pairs of Ehrlichia chaffeensis two-component regulatory system proteins involved in inhibition of lysosomal fusion. 1692 92
