UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Recent drug screenings for new antibacterial drugs directed against histidine phospho-relay signalling pathways in bacteria have resulted in compounds which potently inhibit the histidine kinase activity of bacterial two-component systems. The present study demonstrates that one of these compounds, LY266500, is also a potent inhibitor of histidine phosphorylation in the unicellular eukaryotic parasite Trypanosoma brucei, both in vitro and in whole cells. In vitro, it inhibits histidine phosphorylation of mitochondrial succinyl CoA synthetase. LY26650 does not interfere with the phosphotransfer from the histidine-phosphorylated protein to ADP. In standardized cell culture tests, LY266500 potently inhibits the proliferation of the human pathogens T. brucei rhodesiense and Leishmania donovani. Since the inhibitory activity in vivo is life-cycle stage specific and correlates well with the mitochondrial activity in the different stages, the effect of LY266500 is most likely due to its specific inhibition of the mitochondrial succinyl CoA synthetase.
Mol Biochem Parasitol 1999 May 15
PMID:Inhibition of succinyl CoA synthetase histidine-phosphorylation in Trypanosoma brucei by an inhibitor of bacterial two-component systems. 1037 93

Natural competence in Streptococcus pneumoniae is regulated by a quorum-sensing mechanism consisting of a competence-stimulating peptide (CSP), its dedicated secretion apparatus (ComAB), its histidine kinase receptor (ComD) and a response regulator (ComE). In this report, we show that ComE is a DNA-binding protein that acts autocatalytically by binding to a region in its own promoter. Two additional ComE binding sites were identified in the pneumococcal genome, one in the promoter region of comAB and the other upstream of an ABC transporter of unknown function. A comparison of the ComE-binding sequences with the sequence motif previously found to be involved in the co-ordinated expression of the late genes revealed that they are unrelated. These findings indicate that ComE activates transcription of the late genes indirectly, i.e. via one or more intermediate factors.
Mol Microbiol 1999 Aug
PMID:Identification of DNA binding sites for ComE, a key regulator of natural competence in Streptococcus pneumoniae. 1044 90

Histidine kinases play a major role in signal transduction in prokaryotes for the cellular adaptation to environmental conditions and stresses. Recent progress in the three-dimensional structure determination of two representative members of histidine kinases, EnvZ (class I) and CheA (class II), has revealed common structural features, as well as a kinase catalytic motif topologically similar to those of the ATP-binding domains of a few ATPases. They have also disclosed that there are significant differences in domain organization between class I and II histidine kinases, possibly reflecting their distinct locations, functions and regulatory mechanisms. In spite of this diversity, both class I and II histidine kinases use similar four-helix bundle motifs to relay phosphoryl groups from ATP to regulatory domains of response regulators. The previously known so-called transmitter domain of histidine kinase is further dissected into two domains: a CA (Catalytic ATP-binding) domain and a DHp (Dimerization Histidine phosphotransfer) domain for class I, or a CA domain and an HPt (Histidine-containing Phosphotransfer) domain for class II histidine kinases. From a comparative analysis of the CA domains of EnvZ, CheA and their ATPase homologues, the core elements of the CA domain have been derived. The apparent resemblance between DHp and HPt domains is only superficial, and significant differences between them are discussed.
Mol Microbiol 1999 Nov
PMID:Histidine kinases: diversity of domain organization. 1056 4

Although three germ cell-specific transcripts of type 1 hexokinase exist in murine male germ cells, only one form, HK1-sc, is found at the protein level. This single isoform localizes to three distinct structures in mouse spermatozoa: the membranes of the head, the mitochondria in the midpiece, and the fibrous sheath in the flagellum (Travis, A. J., Foster, J. A., Rosenbaum, N. A., Visconti, P. E., Gerton, G. L., Kopf, G. S., and Moss, S. B. (1998) Mol. Biol. Cell 9, 263-276). The mechanism by which one protein is targeted to multiple sites within this highly polarized cell poses important questions of protein targeting. Because the study of protein targeting in germ cells is hampered by the lack of established cell lines in culture, constructs containing different domains of the germ cell-specific hexokinase transcripts were linked to a green fluorescent protein and transfected into hexokinase-deficient M+R42 cells. Constructs containing a nonhydrophobic, germ cell-specific domain, present at the amino terminus of the HK1-SC protein, were targeted to the endoplasmic reticulum and the plasma membrane. Mutational analysis of this domain demonstrated that a complex motif, PKIRPPLTE (with essential residues italicized), represented a novel endoplasmic reticulum-targeting motif. Constructs based on another germ cell-specific hexokinase transcript, HK1-sa, demonstrated the specific proteolytic removal of an amino-terminal domain, resulting in a protein product identical to HK1-SC. Such processing might constitute a regulatory mechanism governing the spatial and/or temporal expression of the protein.
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PMID:A novel NH(2)-terminal, nonhydrophobic motif targets a male germ cell-specific hexokinase to the endoplasmic reticulum and plasma membrane. 1056 28

The synthesis of the membrane-bound [NiFe]hydrogenase of Rhodobacter capsulatus (HupSL) is regulated negatively by the protein histidine kinase, HupT, and positively by the response regulator, HupR. It is demonstrated in this work that HupT and HupR are partners in a two-component signal transduction system. The binding of HupR protein to the hupS promoter regulatory region (phupS ) was studied using gel retardation and footprinting assays. HupR protected a 50 bp region localized upstream from the binding site of the histone-like integration host factor (IHF) regulator. HupR, which belongs to the NtrC subfamily, binds to an enhancer site (TTG-N5-CAA) localized at -162/-152 nt. However, the enhancer-binding HupR protein does not require the RpoN sigma factor for transcriptional activation, as is the case for NtrC from enteric bacteria, but functions with sigma70-RNA polymerase, as is the case for R. capsulatus NtrC. Besides, unlike NtrC from Escherichia coli, HupR activates transcription in the unphosphorylated form and becomes inactive by phosphorylation. This was demonstrated by replacing the putative phosphorylation site (D54) of the HupR protein with various amino acids or by deleting it using site-directed mutagenesis. Strains expressing mutated hupR genes showed high hydrogenase activities even in the absence of H2, indicating that hupSL transcription is activated by the binding of unphosphorylated HupR protein. Strains producing mutated HupRD54 proteins were derepressed for hupSL expression as were HupT- mutants. It is shown that the phosphorylated form of HupT was able to transfer phosphate to wild-type HupR protein but not to mutated D54 HupR proteins. Thus, it is concluded that HupT and HupR are the partners of a two-component regulatory system that regulates hupSL gene transcription.
Mol Microbiol 1999 Dec
PMID:The synthesis of Rhodobacter capsulatus HupSL hydrogenase is regulated by the two-component HupT/HupR system. 1059 24

A genomics-based approach was used to identify the entire gene complement of putative two-component signal transduction systems (TCSTSs) in Streptococcus pneumoniae. A total of 14 open reading frames (ORFs) were identified as putative response regulators, 13 of which were adjacent to genes encoding probable histidine kinases. Both the histidine kinase and response regulator proteins were categorized into subfamilies on the basis of phylogeny. Through a systematic programme of mutagenesis, the importance of each novel TCSTS was determined with respect to viability and pathogenicity. One TCSTS was identified that was essential for the growth of S. pneumoniaeThis locus was highly homologous to the yycFG gene pair encoding the essential response regulator/histidine kinase proteins identified in Bacillus subtilis and Staphylococcus aureus. Separate deletions of eight other loci led in each case to a dramatic attenuation of growth in a mouse respiratory tract infection model, suggesting that these signal transduction systems are important for the in vivo adaptation and pathogenesis of S. pneumoniae. The identification of conserved TCSTSs important for both pathogenicity and viability in a Gram-positive pathogen highlights the potential of two-component signal transduction as a multicomponent target for antibacterial drug discovery.
Mol Microbiol 2000 Feb
PMID:A genomic analysis of two-component signal transduction in Streptococcus pneumoniae. 1067 79

Halophilic archaea, such as eubacteria, use methyl-accepting chemotaxis proteins (MCPs) to sense their environment. We show here that BasT is a halobacterial transducer protein (Htp) responsible for chemotaxis towards five attractant amino acids. The C-terminus of the protein exhibits the highly conserved regions that are diagnostic for MCPs: the signalling domain for communication with the histidine kinase and the methylation sites that interact with the methylation/demethylation enzymes for adaptation. Hydropathy analysis predicts an enterobacterial-type transducer protein topology for BasT, with an extracellular putative ligand-binding domain flanked by two transmembrane helices and a cytoplasmic domain. BasT-inactivated mutant cells are missing a membrane protein radiolabelled with L-[methyl-3H]-methionine in wild-type cells, confirming that BasT is methylatable and membrane bound. Behavioural analysis of the basT mutant cells by capillary and chemical-in-plug assays demonstrates complete loss of chemotactic responses towards five (leucine, isoleucine, valine, methionine and cysteine) of the six attractant amino acids for Halobacterium salinarum, whereas they still respond to arginine. The volatile methyl group production assays also corroborate these findings and confirm that BasT signalling induces methyl group turnover. Our data identify BasT as the chemotaxis transducer protein for the branched chain amino acids leucine, isoleucine and valine as well as for methionine and cysteine. Thus, BasT and the arginine sensor Car cover the entire spectrum of chemotactic responses towards attractant amino acids in H. salinarum.
Mol Microbiol 2000 Feb
PMID:BasT, a membrane-bound transducer protein for amino acid detection in Halobacterium salinarum. 1067 86

Histidine kinases function as dimers. The kinase domain of the osmosensing histidine kinase EnvZ of Escherichia coli consists of two domains: domain A (67 residues) responsible for histidine phosphotransfer and dimerization, and domain B (161 residues) responsible for the catalytic and ATP-binding function. The individual structures of these two domains have been recently solved by NMR spectroscopy. Here, we demonstrate that an enzymatically functional monomeric histidine kinase can be constructed by fusing in tandem two domains A and one domain B to produce a single polypeptide (A-A-B). We show that this protein, EnvZc[AAB], is soluble and exists as a stable monomer. The autophosphorylation and OmpR kinase activities of the monomeric EnvZc[AAB] are similar to that of the wild-type EnvZ, while OmpR-binding and phosphatase functions are reduced. V8 protease digestion and mutational analyses indicate that His-243 of only the amino proximal domain A is phosphorylated. Based on these results, molecular models are proposed for the structures of EnvZc[AAB] and the kinase domain of EnvZ. The present results demonstrate for the first time the construction of a functional, monomeric histidine kinase, further structural studies of which may provide important insights into the structure-function relationships of histidine kinases.
Mol Microbiol 2000 Apr
PMID:A monomeric histidine kinase derived from EnvZ, an Escherichia coli osmosensor. 1076 Jan 60

Transcription of the type IV pilus subunit gene of Pseudomonas aeruginosa is controlled by a two-component signal transduction system. PilS, the histidine kinase, is membrane bound and PilR, its cognate response regulator, is cytoplasmic. The signal that activates PilS is unknown. PilS has three domains: (i) The N-terminus, predicted to form six transmembrane (TM) helices; (ii) a central linker domain; and (iii) the C-terminal transmitter domain containing all the conserved residues of sensor kinases. A translational fusion of the gfp gene (green fluorescent protein) to the 3' end of pilS was used to determine the position of PilS in the bacterial cell. Epifluorescence microscopy revealed that PilS is retained to the poles of P. aeruginosa but is distributed evenly about the membrane of Escherichia coli. Deletions of the PilS-GFP fusion revealed that the TM domain was sufficient and necessary to bring GFP to the membrane of P. aeruginosa and E. coli but was not sufficient to confine GFP to the poles. Retention to the poles of P. aeruginosa required both the TM and linker domains. Replacement of the PilS TM domain with an E. coli membrane protein, MalG, still allowed polar localization. Therefore, the PilS TM domain positions the linker domain close to the membrane allowing it to interact with the putative polar anchor which is specific to P. aeruginosa.
Mol Microbiol 2000 Apr
PMID:Localization of the histidine kinase PilS to the poles of Pseudomonas aeruginosa and identification of a localization domain. 1076 Jan 72

Salmonella enterica is a bacterial pathogen of humans that can proliferate within epithelial cells as well as professional phagocytes of the immune system. This ability requires an S. enterica specific locus termed Salmonella pathogenicity island 2 (SPI-2). SPI-2 encodes a type III secretion system that injects effectors encoded within the island into host cell cytosol to promote virulence. SsrAB is a two-component regulator encoded within SPI-2 that was assumed to activate SPI-2 genes exclusively. Here, it is shown that SsrB in fact activates a global regulon. At least 10 genes outside SPI-2 are SsrB regulated within epithelial and macrophage cells. Nine of these 10 SsrB-regulated genes outside SPI-2 reside within previously undescribed regions of the Salmonella genome. Most share no sequence homology with current database entries. However, one is remarkably homologous to human glucosyl ceramidase, an enzyme involved in the ceramide signalling pathway. The SsrB regulon is modulated by the two-component regulatory systems PhoP/PhoQ and OmpR/EnvZ, and is upregulated in the intracellular microenvironment.
Mol Microbiol 2000 May
PMID:Salmonella SsrB activates a global regulon of horizontally acquired genes. 1084 62

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