EC:2.7.13.3 - FACTA Search

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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)

OmpR is a transcriptional activator for the expression of outer membrane porin genes ompF and ompC in Escherichia coli. Its C-terminal half has been identified as the DNA-binding domain (K. Tsung, R. Brissette, and M. Inouye, J. Biol. Chem. 264:10104-10109, 1989). Recent studies have indicated that the N-terminal non-DNA-binding domain of OmpR is involved in modulating OmpR function through interaction with the EnvZ protein, a kinase and phosphatase for OmpR. We isolated and characterized two mutations, G94D and E111K, in the N-terminal domain of OmpR and one mutation, R182C, in the DNA-binding domain of OmpR. All three mutations abolished the ability of OmpR to bind to the ompF and ompC promoters in vivo, thus giving an OmpF- OmpC- phenotype. The decreased DNA-binding ability of the mutant OmpRs was not due to diminished phosphorylation of their N termini, since all the mutant OmpRs were found to be normally phosphorylated by EnvZ in vitro. The mutant OmpRs produced from multicopy plasmids were also found to inhibit completely the production of OmpF and OmpC in wild-type cells, and the complete inhibition depended on the function of EnvZ which was produced in cis or in trans from plasmids. The relationship of the possible alterations in OmpR by the mutations with the observed diminished binding ability is discussed.
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PMID:Mutations in a central highly conserved non-DNA-binding region of OmpR, an Escherichia coli transcriptional activator, influence its DNA-binding ability. 132 Nov 17

EnvZ is a membrane-located protein kinase which modulates expression of the ompF and ompC genes through phosphotransfer signal transduction in Escherichia coli. Previously, we developed an in vitro method for analyzing the intact form of EnvZ in isolated cytoplasmic membranes, and demonstrated that this particular form of EnvZ exhibits the ability not only of OmpR phosphorylation but also OmpR dephosphorylation. Taking advantage of this in vitro system, in this study, to assess the structural and functional importance of the membrane-spanning (transmembrane) regions of EnvZ, a set of mutant envZ genes, each of which specifies a mutant EnvZ protein with a single amino acid replacement within or very near the transmembrane regions, were isolated and characterized in terms of their in vivo osmoregulatory phenotypes and in vitro EnvZ-OmpR phosphotransfer activities. On the basis of the results, it was suggested that the transmembrane regions of EnvZ play roles in transmembrane signaling and consequent modulation of the kinase/phosphatase activity exhibited by the cytoplasmic domain in response to an osmotic stimulus.
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PMID:Transmembrane signal transduction and osmoregulation in Escherichia coli: functional importance of the transmembrane regions of membrane-located protein kinase, EnvZ. 132 60

Wild-type genes which, when overexpressed, are capable of restoring the growth deficiency of the division mutant ftsZ84 of Escherichia coli on L medium containing no added NaCl have been isolated. One of these genes is rcsB, a positive regulator of colanic acid biosynthesis. A direct relationship between rcsB expression and FtsZ activity was observed, suggesting that RcsB specifically increases transcription of ftsZ, thus accounting for the restoration of colony formation by ftsZ84 mutant cells. Analysis of the 5' upstream sequence of rcsB revealed, in addition to the sigma 54 promoter sequence previously reported, a presumptive sigma 70 promoter and LexA-binding site plus an upstream sequence that is found to be essential for the expression of rcsB on a plasmid. The absence of the sigma 54 factor does not have a negative effect on the transcription of rcsB. The RcsB protein is an activator of its own synthesis, particularly in the presence of NaCl. Evidence which suggests that RcsB can be phosphorylated by a presumably modified EnvZ or PhoM sensor protein leading to a suppression of the growth deficiency of ftsZ84 mutant cells and to an increase in colanic acid production was obtained. We also demonstrated that the level of colanic acid is reduced when the cells carry a multicopy rcsC plasmid, suggesting that the RcsC sensor has phosphatase activity.
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PMID:The rcsB gene, a positive regulator of colanic acid biosynthesis in Escherichia coli, is also an activator of ftsZ expression. 159 15

Osmoregulation of the bacterial porin genes ompF and ompC is controlled by a two-component regulatory system. EnvZ, the sensor component of this system, is capable both of phosphorylating and dephosphorylating OmpR, the effector component. Mutations were isolated in envZ that abolish the expression of both porin genes. These mutants appear to have lost the kinase activity of EnvZ while retaining their phosphatase activity, so that in their presence OmpR is completely unphosphorylated. The behavior of these mutants in haploid, and in diploid with other envZ alleles, is consistent with a model in which EnvZ mediates osmoregulation by controlling the concentration of a single species. OmpR-P.
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PMID:EnvZ controls the concentration of phosphorylated OmpR to mediate osmoregulation of the porin genes. 166 Sep 27

Taz1 is a hybrid signal-transducing membrane receptor between Tar, an aspartate chemoreceptor, and EnvZ, an osmosensor of Escherichia coli that is able to induce ompC expression by phosphorylating OmpR (a transcriptional activator) in response to aspartate. When the Taz1 His-277, the proposed autophosphorylation site in the cytoplasmic EnvZ domain, was replaced with a valine residue, the mutant Taz1 was unable to induce ompC expression. Similarly, when approximately two-thirds of the EnvZ domain was deleted, Taz1 was nonfunctional. However, when these two defective Taz1 proteins were coexpressed in a cell, ompC was constitutively expressed. Coinciding with this result, two mutant Taz1 molecules were able to intermolecularly complement each other to restore the OmpR kinase activity but not phosphatase activity in vitro. The identical result was also obtained with EnvZ. The present results suggest that the autophosphorylation of Taz1 and EnvZ is an intermolecular phosphorylation reaction, requiring formation of a dimer (or oligomer), and that ligand-dependent ompC expression requires not only kinase but also phosphatase activity.
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PMID:Intermolecular complementation between two defective mutant signal-transducing receptors of Escherichia coli. 166 80

The EnvZ protein is presumably a membrane-located osmotic sensor which is involved in expression of the ompF and ompC genes in Escherichia coli. Previously, we developed an in vitro method for analyzing the intact form of the EnvZ protein located in isolated cytoplasmic membranes, and demonstrated that this particular form of the EnvZ protein exhibits the ability not only as to OmpR phosphorylation but also OmpR dephosphorylation. In this study, to gain an insight into the structural and functional importance of the putative periplasmic domain of the EnvZ protein, a set of mutant EnvZ proteins, which lack various portions of the periplasmic domain, were characterized in terms of not only their in vivo osmoregulatory phenotypes but also in vitro EnvZ-OmpR phosphotransfer reactions. It was revealed that these deletion mutant EnvZ proteins are normally incorporated into the cytoplasmic membrane. Cells harboring these mutant EnvZ proteins showed a pleiotropic phenotype, namely, OmpF- Mal- LamB- PhoA-, and produced the OmpC protein constitutively irrespective of the medium osmolarity. It was also suggested that all of these mutant EnvZ proteins were defective in their in vitro OmpR dephosphorylation ability, while their OmpR phosphorylation ability remained unaffected. These results imply the functional importance of the periplasmic domain of the EnvZ protein for modulation of the kinase/phosphatase activity exhibited by the cytoplasmic domain in response to an environmental osmotic stimulus.
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PMID:Transmembrane signal transduction and osmoregulation in Escherichia coli. Functional importance of the periplasmic domain of the membrane-located protein kinase, EnvZ. 190 56

CheY, a small cytoplasmic response regulator, plays an essential role in the chemotaxis pathway. The concentration of phospho-CheY is thought to determine the swimming behaviour of the cell: high levels of phospho-CheY cause bacteria to rotate their flagella clockwise and tumble, whereas low levels of the phosphorylated form of the protein allow counter-clockwise rotation of the flagella and smooth swimming. The phosphorylation state of CheY in vivo is determined by the activity of the phosphoryl donor CheA, and by the antagonistic effect of dephosphorylation of phospho-CheY. The dephosphorylation rate is controlled by the intrinsic autohydrolytic activity of phospho-CheY and by the CheZ protein, which accelerates dephosphorylation. We have analysed the effect of CheZ on the dephosphorylation rates of several mutant CheY proteins. Two point mutations were identified which were 50-fold and 5-fold less sensitive to the activity of CheZ than was the wild-type protein. Nonetheless, the phosphorylation and autodephosphorylation rates of these mutants. CheY23ND and CheY26KE, were observed to be identical to those of wild-type CheY in the absence of CheZ. These are the first examples of cheY mutations that reduce sensitivity to the phosphatase activity of CheZ without being altered in terms of their intrinsic phosphorylation and autodephosphorylation rates. Interestingly, the residues Asn-23 and Lys-26 are located on a face of CheY far from the phosphorylation site (Asp-57), distinct from the previously described site of interaction with the histidine kinase CheA, and partially overlapping with a region implicated in interaction with the flagellar switch.
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PMID:Mutations in the chemotactic response regulator, CheY, that confer resistance to the phosphatase activity of CheZ. 762 63

Signal transduction pathways mediated by sensor histidine kinases and cognate response regulators control a variety of physiological processes in response to environmental conditions. Here we show that in Caulobacter crescentus these systems also play essential roles in the regulation of polar morphogenesis and cell division. Previous studies have implicated histidine kinase genes pleC and divJ in the regulation of these developmental events. We now report that divK encodes an essential, cell cycle-regulated homolog of the CheY/Spo0F subfamily and present evidence that this protein is a cognate response regulator of the histidine kinase PleC. The purified kinase domain of PleC, like that of DivJ, can serve as an efficient phosphodonor to DivK and as a phospho-DivK phosphatase. Based on these and earlier genetic results we propose that PleC and DivK are members of a signal transduction pathway that couples motility and stalk formation to completion of a late cell division cycle event. Gene disruption experiments and the filamentous phenotype of the conditional divK341 mutant reveal that DivK also functions in an essential signal transduction pathway required for cell division, apparently in response to another histidine kinase. We suggest that phosphotransfer mediated by these two-component signal transduction systems may represent a general mechanism regulating cell differentiation and cell division in response to successive cell cycle checkpoints.
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PMID:An essential single domain response regulator required for normal cell division and differentiation in Caulobacter crescentus. 766 32

Taz1-1 is Tar-EnvZ chimeric receptor that is able to induce ompC-lacZ expression in response to aspartate. Previous studies indicated that aspartate binding to the receptor domain of the Taz1-1 receptor modulated the ratio of kinase and phosphatase activities of the cytoplasmic signaling domain. The 80-residue segment of chemoreceptors that is located between the second transmembrane domain and the signaling domain was defined as the linker region. The Taz1-1 chimeric receptor contains 43 amino acid residues of the Tar linker region. In order to understand further the function of the linker region in transmembrane signaling, site-directed random mutagenesis was carried out on the conserved Ala231 in the linker region. Substitution mutations with Val, Glu, Gly, Thr, Lys and His gave the locked "off-mode" form (low ompC-lacZ expression), and substitution mutations with Ile and Leu resulted in the locked "on-mode" form (constitutive ompC-lacZ expression). All the mutant Taz1-1 receptors still retained both OmpR kinase and phospho-OmpR phosphatase activities. Interestingly Taz1N6, a kinase defective mutant, was able to complement with Taz1H1, a phosphatase defective mutant, carrying an off-mode mutant at position 231 to restore Asp-inducible ompC-lacZ expression, but not with Taz1H1 carrying an on-mode mutation. These results suggest that the residue at position 231 in Taz1-1 plays a key role in signal transduction.
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PMID:Transmembrane signaling. Mutational analysis of the cytoplasmic linker region of Taz1-1, a Tar-EnvZ chimeric receptor in Escherichia coli. 799 Jan 35

The Escherichia coli regulatory proteins, EnvZ and OmpR, are crucially involved in expression of the outer membrane proteins OmpF/OmpC in response to the medium osmolarity. The EnvZ protein is presumably a membrane-located osmotic sensor (or signal transducer), which exhibits both kinase and phosphatase activities specific for the OmpR protein. To examine the functional importance of the membrane-spanning segments (named TM1 and TM2) of EnvZ molecules in transmembrane signalling, a set of EnvZ mutants, each having amino acid substitutions within the membrane-spanning regions, was characterized in terms of both their in vivo phenotype and in vitro catalytic activities. One of them, characterized further, has an amino acid change (Pro-41 to Ser or Leu) in TM1, and appeared to be defective in its phosphatase activity but not in its kinase activity. This EnvZ mutant conferred a phenotype of OmpF-/OmpC-constitutive. For this EnvZ(P41S or P41L) mutant, a set of intragenic suppressors, each exhibiting a wild-type phenotype of OmpF+/OmpC+, was isolated. These suppressor mutants were revealed to have an additional amino acid change within either TM1 or TM2. Furthermore, they exhibited restored phosphatase activity (i.e., both kinase+ and phosphatase+ activities). It was further demonstrated that one of the suppressors, EnvZ(Arg-180 to Trp in TM2), was able to suppress the defects in both the in vivo phenotype and the in vitro catalytic activities caused by EnvZ(P41S), through intermolecular complementation. These results are best interpreted as meaning that an intimate intermolecular interaction between the membrane-spanning segments of EnvZ is crucial for transmembrane signalling per se in response to an external osmotic stimulus.
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PMID:Transmembrane signal transduction by the Escherichia coli osmotic sensor, EnvZ: intermolecular complementation of transmembrane signalling. 799 60

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